ORF » Species Summary » Homo sapiens » FHAD1 cDNA ORF clone

FHAD1 cDNA ORF clone, Homo sapiens(human)

  • Gene

  • Clones

  • gRNAs

The following FHAD1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the FHAD1 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OHu13723 NM_052929.2
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK 		$659.50-$923.30
$1319.00
OHu74849 XM_011540598.3
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X38, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $391.30
$559.00
OHu103582 XM_024452916.1
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X39, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $391.30
$559.00
OHu103581 XM_024452898.1
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X22, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu103583 XM_024452918.1
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X40, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu83078 XM_017000205.1
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X16, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu83079 XM_017000206.2
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X17, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu83080 XM_024452892.1
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X21, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu83080 XM_017000209.1
Latest version!		 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X20, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu83081 XM_017000210.2
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X28, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu83082 XM_017000211.2
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X31, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu83083 XM_017000212.2
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X32, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu83084 XM_017000213.1
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X36, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu83085 XM_017000214.2
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X37, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu74846 XM_011540595.2
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X33, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu74847 XM_011540596.2
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X34, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu74848 XM_011540597.3
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X35, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu74829 XM_017000198.2
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu74829 XM_011540575.2
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu74829 XM_017000199.2
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu74830 XM_011540576.2
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu74831 XM_011540577.2
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu74832 XM_017000200.1
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu74833 XM_017000201.1
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu74834 XM_011540580.3
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu74834 XM_011540581.3
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu74834 XM_011540582.3
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu74835 XM_017000202.1
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu74836 XM_011540584.3
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu74837 XM_017000203.2
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu74838 XM_024452887.1
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X15, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu74838 XM_017000204.2
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu74839 XM_017000207.2
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X18, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu74840 XM_017000208.2
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X19, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu74840 XM_011540588.3
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X20, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu74841 XM_011540589.2
Latest version!		 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X21, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu74842 XM_024452909.1
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X25, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu74842 XM_024452908.1
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X24, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu74842 XM_024452903.1
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X23, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu74842 XM_011540590.3
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X27, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu74842 XM_024452912.1
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X26, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu74843 XM_011540592.2
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X29, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu74844 XM_011540593.3
Latest version!		 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X30, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
View Old Accession Versions >>
OHu74834 XM_011540580.2 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu74838 XM_017000204.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu74840 XM_017000208.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X18, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu83081 XM_017000210.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X23, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu83082 XM_017000211.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X26, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu74836 XM_011540584.2 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu74844 XM_011540593.2 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X25, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu83083 XM_017000212.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X27, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu74848 XM_011540597.2 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X30, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu83085 XM_017000214.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X32, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu74829 XM_017000198.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu74829 XM_017000199.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu74842 XM_011540590.2 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X22, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu74849 XM_011540598.2 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X33, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $391.30
$559.00
OHu13723 NM_052929.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK 		$659.50-$923.30
$1319.00
OHu74834 XM_011540581.2 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu74834 XM_011540582.2 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu74837 XM_017000203.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu83079 XM_017000206.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X16, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu74839 XM_017000207.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X17, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu74840 XM_011540588.2 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X19, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
Hide Old Accession Versions >>

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** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    FHAD1 ( NM_052929.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_443161.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), mRNA.
    Price & Availability↑
    CloneID OHu13723
    Clone ID Related Accession (Same CDS sequence) NM_052929.1 , NM_052929.2
    Accession Version NM_052929.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4239bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-22
    Organism Homo sapiens(Human)
    Product forkhead-associated domain-containing protein 1
    Comment PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from AK057963.1, AL031283.26, AK093300.1, AL833342.1, DA918616.1 and AK093883.1. On or before Jun 14, 2008 this sequence version replaced XM_001714211.1, XM_934889.3, XM_497657.4, XM_946265.3. Sequence Note: This RefSeq record was created from transcript and genomic sequence data because no single transcript was available for the full length of the gene. The extent of this transcript is supported by transcript alignments. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA2151119, SAMEA2158188 [ECO:0000348] ##Evidence-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGAAGGCCT ATCTAAAGAG CGCAGAAGGC TTTTTTGTCC TAAATAAAAG TACCACAATT 
    GGAAGGCATG AAAATTCAGA CCTTGTTTTA CAGTCTCCTG ACATCGACAA CCACCATGCA 
    CTCATTGAAT ATAACGAGGC GGAGTGCAGC TTTGTTCTCC AGGACTTCAA TTCCCGCAAC 
    GGCACGTTTG TCAACGAGTG CCACATTCAA AACGTGGCTG TGAAGCTCAT CCCTGGAGAC 
    ATCCTGAGAT TTGGGTCTGC AGGGCTGACC TATGAACTGG TCATTGAAAA TCCACCTCCG 
    GTCTCTTTCC CATGGATGAG GGGCCCAGCA CCATGGCCAG GGCCACAGCC ACCTCGTGCC 
    ACACAGCAGC CAAACCAGGC CCCCCCACCA TCACATATCC CCTTCCACCA AGGTGTCCAG 
    CCAGCACCGA TGCAAAGGAG CTGGTCCCAG GCCTTTCCCA GACCCACCGT GGTCCTGCCG 
    GCCTCCCACA GGCGGCCTGT GAGCGCCAAC AAGGAGATGT TCTCGTTCGT GGTGGACGAC 
    GCCCGCAAGC CACCCGTCAT CAAGCAAGTG TGGACCAATG CCATGAAACT GTCAGAAAAA 
    TCAGTGGCCG AGGGGATTCC TGGGGCAGTT CCCCCTGCGG AGATTTATGT GGAGGAGGAC 
    TTGGCCCAGC AGGACAAGGA TGAAATAATT CTGCTGCTGG GAAAAGAGGT CAGCCGTCTC 
    TCAGATTATG AAATTGAATC CAAATACAAA GACGTCATAA TAGCAAACCT GCAGAATGAA 
    GTGGCTGAGC TGAGTCAGAA GGTGTCAGAG ACCACCACCT CCAGGCAGAA TGAGAAGGAG 
    ATCTCGCAGA AGTGTCAGGT TCTGGATGAA GACATCGATG CCAAACAGAA AGAGATCCAG 
    AGCTTGAAAA GCCAGATCAG TGCCCTACAG AAAGGCTACA GCAAGGTGCT GTGCCAGACC 
    CTGTCAGAGC GGAACTCAGA AATCACATCC CTGAAGAATG AGGGCGAGAA CTTAAAGAGA 
    GACAACGCTA TCACATCAGG GATGGTGTCA TCTTTGCAAA AAGACATATT AGCAAAGGAT 
    GAGCAAGTTC AACAACTAAA GGAAGAGGTC AGTCACCTAA AAAGTCAGAA CAAGGACAAG 
    GACCACCAGC TGGAAGCCCT TGGCTCTAGA TGCTCGGTGC TAAAGGAAGA GTTAAAACAG 
    GAAGATGCTC ACAGGGAGCT CAGGGAAGCC CAGGAGAAAG AGTTAAAACT CTGCAAAACC 
    CAAATCCAAG ACATGGAGAA AGAAATGAAG AAGCTTAGGG CAGAGCTGAG GAAGAGTTGT 
    ACTGAACAAA GCGTGATCTC TAGGACTCTG AGAGAAAAAA GCAAGGTTGA AGAGAAGCTT 
    CAGGAGGATT CCAGAAGGAA ATTGCTTCAG CTGCAAGAAA TGGGGAACAG AGAGAGCGTC 
    ATTAAAATCA ATTTGGAGAG GGCAGTAGGT CAGCTGGAGC ACTTCAGAAG TCAAGTCATC 
    AAGGCCACCT ATGGACGGGC GAAGCCGTTC CGGGACAAGC CCGTCACCGA CCAACAGTTA 
    ATAGAGAAAA TTACCCAGGT CACTGAGGAC AACATCAATT TTCAGCAGAA AAAGTGGACC 
    CTCCAGAAAG AGACCCAGCT GAGCAACTCC AAGCAGGAGG AGACCACCGA GAACATCGAG 
    AAGCTGAGGA CGTCGCTGGA CAGCTGCCAG GCTTGCATGA AAATATCCTG TTGCAGCCAT 
    GACCTGAAGA AGGAGGTCGA CCTTCTTCAG CACCTCCAGG TGAGCCCACC TGTCTCGGGG 
    CTCCAGAAGG TGGTGCTGGA CGTCCTGAGG CACGCGCTGT CCTGGCTGGA GGAGGTGGAG 
    CAGCTCCTCC GGGACCTCGG GATCCTGCCC TCCAGCCCCA ACAAAGATCA AGTTCAACAG 
    TTCTCAGGAA ACTCAGCAGT CTTTACTGCA GGAAAAGCTG CGGGAGCATC TGGCAGAGAA 
    GGAGAAGCTG AACGAGGAGA GGCTAGAGCA AGAGGAGAAG CTCAAAGCCA AAATCAGGCA 
    ACTGACGGAA GAGAAGGCGG TAAGGCTTTG GAGGAGTACA TTACTCAAGA GAGAAACAGA 
    GCGAAAGAGA CTTTAGAGGA AGAACGGAAG AGAATGCAAG AACTGGAGAG CCTCCTGGCC 
    CAGCAGAAGA AGGCTTTGGC GAAAAGCATT ACCCAGGAGA AGAACAGAGT GAAGGAAGCA 
    TTAGAGGAAG AGCAGACAAG AGTCCAAGAG CTGGAGGAAC GCTTGGCCCG CCAGAAGGAG 
    GTTTTGGAGA GCAGCATAGC CCATGAAAAA AGAAAAGCAA AGGAAGCCTT GGAGTCGGAA 
    AAGAGAAAAG TTCAGGATCT GGAGAACCAT TTAACCCAAC AGAAGGAGAT CTCAGAGAGC 
    AACATTGCGT ACGAGAAACG CAAAGCAAAG GAGGCCATGG AGAAGGAAAA GAAAAAGGTG 
    CAAGACCTGG AGAATCGCTT AACCAAGCAG AAAGAGGAAT TAGAATTAAA AGAGCAAAAA 
    GAGGACGTTT TAAATAATAA ATTAAGTGAC GCACTGGCCA TGGTTGAAGA GACTCAGAAA 
    ACAAAGGCAA CTGAAAGTCT AAAAGCAGAG AGCCTCGCCT TGAAATTAAA TGAAACATTA 
    GCCGAACTGG AAACTACCAA GACAAAAATG ATCATGGTGG AAGAGCGGCT AATCCTGCAG 
    CAGAAGATGG TAAAGGCCCT CCAGGATGAG CAGGAATCAC AGAGACACGG GTTTGAAGAA 
    GAGATCATGG AATATAAGGA GCAAATCAAA CAGCACGCCC AGACAATTGT GAGCCTCGAA 
    GAGAAACTCC AGAAAGTCAC TCAGCACCAT AAAAAAATAG AAGGCGAGAT TGCAACATTG 
    AAGGACAATG ACCCAGCCCC AAAGGAGGAA AGGCCGCAAG ACCCTCTGGT GGCTCCCATG 
    ACAGAGAGCA GTGCCAAAGA CATGGCGTAC GAACATCTGA TAGATGACTT ATTGGCTGCT 
    CAGAAGGAAA TTCTGTCTCA GCAGGAAGTC ATCATGAAGT TAAGGAAAGA CCTTACCGAA 
    GCCCACAGCA GAATGTCGGA TTTGAGAGGG GAGCTAAACG AGAAGCAGAA GATGGAACTG 
    GAGCAGAACG TGGTGCTGGT CCAGCAGCAG AGCAAGGAGC TGAGTGTGCT CAAGGAGAAG 
    ATGGCCCAGA TGAGCAGCCT GGTAGAAAAG AAAGATCGGG AGCTGAAGGC CCTTGAGGAG 
    GCACTCAGGG CTTCCCAAGA GAAACACAGA CTCCAGCTGA ACACAGAGAA GGAACAGAAG 
    CCCCGGAAGA AGACCCAGAC GTGTGACACC TCTGTGCAGA TAGAACCCGT CCACACTGAG 
    GCCTTCTCCA GCAGCCAAGA GCAGCAATCC TTCAGCGATC TAGGGGTCAG GTGCAAAGGG 
    TCCCGGCACG AGGAGGTCAT TCAGCGTCAG AAAAAGGCCT TATCTGAACT TCGAGCGCGA 
    ATTAAAGAAC TCGAGAAGGC GCGCTCACCA GATCATAAAG ACCACCAGAA TGAATCATTT 
    CTAGATTTAA AGAACCTCAG AATGGAAAAC AATGTCCAGA AAATACTACT GGATGCAAAA 
    CCGGATTTGC CAACTCTCTC AAGAATAGAG ATCCTAGCGC CTCAGAATGG CCTTTGCAAC 
    GCAAGGTTCG GCTCAGCCAT GGAGAAGTCA GGGAAGATGG ATGTGGCTGA GGCTTTAGAG 
    CTCAGTGAAA AGCTGTACCT GGATATGAGC AAAACCCTCG GAAGTCTCAT GAACATCAAG 
    AATATGTCAG GCCACGTGTC CATGAAATAC CTCTCCCGCC AGGAGAGGGA GAAGGTCAAC 
    CAGCTTCGAC AAAGGGACCT CGACCTGGTG TTTGATAAGA TCACCCAACT CAAGAACCAG 
    CTGGGGAGGA AAGAGGAGCT GTTGAGAGGA TATGAAAAGG ACGTTGAACA GCTCAGGCGG 
    AGCAAAGTGT CCATTGAGAT GTACCAGTCG CAGGTGGCAA AGCTGGAGGA TGATATCTAC 
    AAAGAGGCCG AAGAGAAGGC CCTGCTGAAG GAGGCCCTGG AGCGCATGGA GCACCAGCTG 
    TGCCAGGAGA AGAGGATCAA CAGGGCCATC CGGCAGCAGA AGGTTGGAAC CAGAAAAGCC 
    TCCCTAAAGA TGGACCAAGA AAGAGAGATG CTGAGGAAAG AGACCTCCAG CAAGTCCAGC 
    CAGAGCCTTT TGCATTCTAA GCCCAGTGGA AAGTACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_443161.1
    CDS139..4377
    Translation

    Target ORF information:

    RefSeq Version NM_052929.1
    Organism Homo sapiens(Human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_052929.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGAAGGCCT ATCTAAAGAG CGCAGAAGGC TTTTTTGTCC TAAATAAAAG TACCACAATT 
    GGAAGGCATG AAAATTCAGA CCTTGTTTTA CAGTCTCCTG ACATCGACAA CCACCATGCA 
    CTCATTGAAT ATAACGAGGC GGAGTGCAGC TTTGTTCTCC AGGACTTCAA TTCCCGCAAC 
    GGCACGTTTG TCAACGAGTG CCACATTCAA AACGTGGCTG TGAAGCTCAT CCCTGGAGAC 
    ATCCTGAGAT TTGGGTCTGC AGGGCTGACC TATGAACTGG TCATTGAAAA TCCACCTCCG 
    GTCTCTTTCC CATGGATGAG GGGCCCAGCA CCATGGCCAG GGCCACAGCC ACCTCGTGCC 
    ACACAGCAGC CAAACCAGGC CCCCCCACCA TCACATATCC CCTTCCACCA AGGTGTCCAG 
    CCAGCACCGA TGCAAAGGAG CTGGTCCCAG GCCTTTCCCA GACCCACCGT GGTCCTGCCG 
    GCCTCCCACA GGCGGCCTGT GAGCGCCAAC AAGGAGATGT TCTCGTTCGT GGTGGACGAC 
    GCCCGCAAGC CACCCGTCAT CAAGCAAGTG TGGACCAATG CCATGAAACT GTCAGAAAAA 
    TCAGTGGCCG AGGGGATTCC TGGGGCAGTT CCCCCTGCGG AGATTTATGT GGAGGAGGAC 
    TTGGCCCAGC AGGACAAGGA TGAAATAATT CTGCTGCTGG GAAAAGAGGT CAGCCGTCTC 
    TCAGATTATG AAATTGAATC CAAATACAAA GACGTCATAA TAGCAAACCT GCAGAATGAA 
    GTGGCTGAGC TGAGTCAGAA GGTGTCAGAG ACCACCACCT CCAGGCAGAA TGAGAAGGAG 
    ATCTCGCAGA AGTGTCAGGT TCTGGATGAA GACATCGATG CCAAACAGAA AGAGATCCAG 
    AGCTTGAAAA GCCAGATCAG TGCCCTACAG AAAGGCTACA GCAAGGTGCT GTGCCAGACC 
    CTGTCAGAGC GGAACTCAGA AATCACATCC CTGAAGAATG AGGGCGAGAA CTTAAAGAGA 
    GACAACGCTA TCACATCAGG GATGGTGTCA TCTTTGCAAA AAGACATATT AGCAAAGGAT 
    GAGCAAGTTC AACAACTAAA GGAAGAGGTC AGTCACCTAA AAAGTCAGAA CAAGGACAAG 
    GACCACCAGC TGGAAGCCCT TGGCTCTAGA TGCTCGGTGC TAAAGGAAGA GTTAAAACAG 
    GAAGATGCTC ACAGGGAGCT CAGGGAAGCC CAGGAGAAAG AGTTAAAACT CTGCAAAACC 
    CAAATCCAAG ACATGGAGAA AGAAATGAAG AAGCTTAGGG CAGAGCTGAG GAAGAGTTGT 
    ACTGAACAAA GCGTGATCTC TAGGACTCTG AGAGAAAAAA GCAAGGTTGA AGAGAAGCTT 
    CAGGAGGATT CCAGAAGGAA ATTGCTTCAG CTGCAAGAAA TGGGGAACAG AGAGAGCGTC 
    ATTAAAATCA ATTTGGAGAG GGCAGTAGGT CAGCTGGAGC ACTTCAGAAG TCAAGTCATC 
    AAGGCCACCT ATGGACGGGC GAAGCCGTTC CGGGACAAGC CCGTCACCGA CCAACAGTTA 
    ATAGAGAAAA TTACCCAGGT CACTGAGGAC AACATCAATT TTCAGCAGAA AAAGTGGACC 
    CTCCAGAAAG AGACCCAGCT GAGCAACTCC AAGCAGGAGG AGACCACCGA GAACATCGAG 
    AAGCTGAGGA CGTCGCTGGA CAGCTGCCAG GCTTGCATGA AAATATCCTG TTGCAGCCAT 
    GACCTGAAGA AGGAGGTCGA CCTTCTTCAG CACCTCCAGG TGAGCCCACC TGTCTCGGGG 
    CTCCAGAAGG TGGTGCTGGA CGTCCTGAGG CACGCGCTGT CCTGGCTGGA GGAGGTGGAG 
    CAGCTCCTCC GGGACCTCGG GATCCTGCCC TCCAGCCCCA ACAAAGATCA AGTTCAACAG 
    TTCTCAGGAA ACTCAGCAGT CTTTACTGCA GGAAAAGCTG CGGGAGCATC TGGCAGAGAA 
    GGAGAAGCTG AACGAGGAGA GGCTAGAGCA AGAGGAGAAG CTCAAAGCCA AAATCAGGCA 
    ACTGACGGAA GAGAAGGCGG TAAGGCTTTG GAGGAGTACA TTACTCAAGA GAGAAACAGA 
    GCGAAAGAGA CTTTAGAGGA AGAACGGAAG AGAATGCAAG AACTGGAGAG CCTCCTGGCC 
    CAGCAGAAGA AGGCTTTGGC GAAAAGCATT ACCCAGGAGA AGAACAGAGT GAAGGAAGCA 
    TTAGAGGAAG AGCAGACAAG AGTCCAAGAG CTGGAGGAAC GCTTGGCCCG CCAGAAGGAG 
    GTTTTGGAGA GCAGCATAGC CCATGAAAAA AGAAAAGCAA AGGAAGCCTT GGAGTCGGAA 
    AAGAGAAAAG TTCAGGATCT GGAGAACCAT TTAACCCAAC AGAAGGAGAT CTCAGAGAGC 
    AACATTGCGT ACGAGAAACG CAAAGCAAAG GAGGCCATGG AGAAGGAAAA GAAAAAGGTG 
    CAAGACCTGG AGAATCGCTT AACCAAGCAG AAAGAGGAAT TAGAATTAAA AGAGCAAAAA 
    GAGGACGTTT TAAATAATAA ATTAAGTGAC GCACTGGCCA TGGTTGAAGA GACTCAGAAA 
    ACAAAGGCAA CTGAAAGTCT AAAAGCAGAG AGCCTCGCCT TGAAATTAAA TGAAACATTA 
    GCCGAACTGG AAACTACCAA GACAAAAATG ATCATGGTGG AAGAGCGGCT AATCCTGCAG 
    CAGAAGATGG TAAAGGCCCT CCAGGATGAG CAGGAATCAC AGAGACACGG GTTTGAAGAA 
    GAGATCATGG AATATAAGGA GCAAATCAAA CAGCACGCCC AGACAATTGT GAGCCTCGAA 
    GAGAAACTCC AGAAAGTCAC TCAGCACCAT AAAAAAATAG AAGGCGAGAT TGCAACATTG 
    AAGGACAATG ACCCAGCCCC AAAGGAGGAA AGGCCGCAAG ACCCTCTGGT GGCTCCCATG 
    ACAGAGAGCA GTGCCAAAGA CATGGCGTAC GAACATCTGA TAGATGACTT ATTGGCTGCT 
    CAGAAGGAAA TTCTGTCTCA GCAGGAAGTC ATCATGAAGT TAAGGAAAGA CCTTACCGAA 
    GCCCACAGCA GAATGTCGGA TTTGAGAGGG GAGCTAAACG AGAAGCAGAA GATGGAACTG 
    GAGCAGAACG TGGTGCTGGT CCAGCAGCAG AGCAAGGAGC TGAGTGTGCT CAAGGAGAAG 
    ATGGCCCAGA TGAGCAGCCT GGTAGAAAAG AAAGATCGGG AGCTGAAGGC CCTTGAGGAG 
    GCACTCAGGG CTTCCCAAGA GAAACACAGA CTCCAGCTGA ACACAGAGAA GGAACAGAAG 
    CCCCGGAAGA AGACCCAGAC GTGTGACACC TCTGTGCAGA TAGAACCCGT CCACACTGAG 
    GCCTTCTCCA GCAGCCAAGA GCAGCAATCC TTCAGCGATC TAGGGGTCAG GTGCAAAGGG 
    TCCCGGCACG AGGAGGTCAT TCAGCGTCAG AAAAAGGCCT TATCTGAACT TCGAGCGCGA 
    ATTAAAGAAC TCGAGAAGGC GCGCTCACCA GATCATAAAG ACCACCAGAA TGAATCATTT 
    CTAGATTTAA AGAACCTCAG AATGGAAAAC AATGTCCAGA AAATACTACT GGATGCAAAA 
    CCGGATTTGC CAACTCTCTC AAGAATAGAG ATCCTAGCGC CTCAGAATGG CCTTTGCAAC 
    GCAAGGTTCG GCTCAGCCAT GGAGAAGTCA GGGAAGATGG ATGTGGCTGA GGCTTTAGAG 
    CTCAGTGAAA AGCTGTACCT GGATATGAGC AAAACCCTCG GAAGTCTCAT GAACATCAAG 
    AATATGTCAG GCCACGTGTC CATGAAATAC CTCTCCCGCC AGGAGAGGGA GAAGGTCAAC 
    CAGCTTCGAC AAAGGGACCT CGACCTGGTG TTTGATAAGA TCACCCAACT CAAGAACCAG 
    CTGGGGAGGA AAGAGGAGCT GTTGAGAGGA TATGAAAAGG ACGTTGAACA GCTCAGGCGG 
    AGCAAAGTGT CCATTGAGAT GTACCAGTCG CAGGTGGCAA AGCTGGAGGA TGATATCTAC 
    AAAGAGGCCG AAGAGAAGGC CCTGCTGAAG GAGGCCCTGG AGCGCATGGA GCACCAGCTG 
    TGCCAGGAGA AGAGGATCAA CAGGGCCATC CGGCAGCAGA AGGTTGGAAC CAGAAAAGCC 
    TCCCTAAAGA TGGACCAAGA AAGAGAGATG CTGAGGAAAG AGACCTCCAG CAAGTCCAGC 
    CAGAGCCTTT TGCATTCTAA GCCCAGTGGA AAGTACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( NM_052929.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_443161.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), mRNA.
    Price & Availability↑
    CloneID OHu13723
    Clone ID Related Accession (Same CDS sequence) NM_052929.1 , NM_052929.2
    Accession Version NM_052929.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4239bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-04-30
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AL391094.12, AK057963.1, AL031283.26, AK093300.1, AL833342.1, DA918616.1, AK093883.1 and AK096961.1. On Aug 29, 2017 this sequence version replaced NM_052929.1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data because no single transcript was available for the full length of the gene. The extent of this transcript is supported by transcript alignments. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA2151119, SAMEA2158188 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## inferred exon combination :: based on alignments, homology RefSeq Select criteria :: based on conservation ##RefSeq-Attributes-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGAAGGCCT ATCTAAAGAG CGCAGAAGGC TTTTTTGTCC TAAATAAAAG TACCACAATT 
    GGAAGGCATG AAAATTCAGA CCTTGTTTTA CAGTCTCCTG ACATCGACAA CCACCATGCA 
    CTCATTGAAT ATAACGAGGC GGAGTGCAGC TTTGTTCTCC AGGACTTCAA TTCCCGCAAC 
    GGCACGTTTG TCAACGAGTG CCACATTCAA AACGTGGCTG TGAAGCTCAT CCCTGGAGAC 
    ATCCTGAGAT TTGGGTCTGC AGGGCTGACC TATGAACTGG TCATTGAAAA TCCACCTCCG 
    GTCTCTTTCC CATGGATGAG GGGCCCAGCA CCATGGCCAG GGCCACAGCC ACCTCGTGCC 
    ACACAGCAGC CAAACCAGGC CCCCCCACCA TCACATATCC CCTTCCACCA AGGTGTCCAG 
    CCAGCACCGA TGCAAAGGAG CTGGTCCCAG GCCTTTCCCA GACCCACCGT GGTCCTGCCG 
    GCCTCCCACA GGCGGCCTGT GAGCGCCAAC AAGGAGATGT TCTCGTTCGT GGTGGACGAC 
    GCCCGCAAGC CACCCGTCAT CAAGCAAGTG TGGACCAATG CCATGAAACT GTCAGAAAAA 
    TCAGTGGCCG AGGGGATTCC TGGGGCAGTT CCCCCTGCGG AGATTTATGT GGAGGAGGAC 
    TTGGCCCAGC AGGACAAGGA TGAAATAATT CTGCTGCTGG GAAAAGAGGT CAGCCGTCTC 
    TCAGATTATG AAATTGAATC CAAATACAAA GACGTCATAA TAGCAAACCT GCAGAATGAA 
    GTGGCTGAGC TGAGTCAGAA GGTGTCAGAG ACCACCACCT CCAGGCAGAA TGAGAAGGAG 
    ATCTCGCAGA AGTGTCAGGT TCTGGATGAA GACATCGATG CCAAACAGAA AGAGATCCAG 
    AGCTTGAAAA GCCAGATCAG TGCCCTACAG AAAGGCTACA GCAAGGTGCT GTGCCAGACC 
    CTGTCAGAGC GGAACTCAGA AATCACATCC CTGAAGAATG AGGGCGAGAA CTTAAAGAGA 
    GACAACGCTA TCACATCAGG GATGGTGTCA TCTTTGCAAA AAGACATATT AGCAAAGGAT 
    GAGCAAGTTC AACAACTAAA GGAAGAGGTC AGTCACCTAA AAAGTCAGAA CAAGGACAAG 
    GACCACCAGC TGGAAGCCCT TGGCTCTAGA TGCTCGGTGC TAAAGGAAGA GTTAAAACAG 
    GAAGATGCTC ACAGGGAGCT CAGGGAAGCC CAGGAGAAAG AGTTAAAACT CTGCAAAACC 
    CAAATCCAAG ACATGGAGAA AGAAATGAAG AAGCTTAGGG CAGAGCTGAG GAAGAGTTGT 
    ACTGAACAAA GCGTGATCTC TAGGACTCTG AGAGAAAAAA GCAAGGTTGA AGAGAAGCTT 
    CAGGAGGATT CCAGAAGGAA ATTGCTTCAG CTGCAAGAAA TGGGGAACAG AGAGAGCGTC 
    ATTAAAATCA ATTTGGAGAG GGCAGTAGGT CAGCTGGAGC ACTTCAGAAG TCAAGTCATC 
    AAGGCCACCT ATGGACGGGC GAAGCCGTTC CGGGACAAGC CCGTCACCGA CCAACAGTTA 
    ATAGAGAAAA TTACCCAGGT CACTGAGGAC AACATCAATT TTCAGCAGAA AAAGTGGACC 
    CTCCAGAAAG AGACCCAGCT GAGCAACTCC AAGCAGGAGG AGACCACCGA GAACATCGAG 
    AAGCTGAGGA CGTCGCTGGA CAGCTGCCAG GCTTGCATGA AAATATCCTG TTGCAGCCAT 
    GACCTGAAGA AGGAGGTCGA CCTTCTTCAG CACCTCCAGG TGAGCCCACC TGTCTCGGGG 
    CTCCAGAAGG TGGTGCTGGA CGTCCTGAGG CACGCGCTGT CCTGGCTGGA GGAGGTGGAG 
    CAGCTCCTCC GGGACCTCGG GATCCTGCCC TCCAGCCCCA ACAAAGATCA AGTTCAACAG 
    TTCTCAGGAA ACTCAGCAGT CTTTACTGCA GGAAAAGCTG CGGGAGCATC TGGCAGAGAA 
    GGAGAAGCTG AACGAGGAGA GGCTAGAGCA AGAGGAGAAG CTCAAAGCCA AAATCAGGCA 
    ACTGACGGAA GAGAAGGCGG TAAGGCTTTG GAGGAGTACA TTACTCAAGA GAGAAACAGA 
    GCGAAAGAGA CTTTAGAGGA AGAACGGAAG AGAATGCAAG AACTGGAGAG CCTCCTGGCC 
    CAGCAGAAGA AGGCTTTGGC GAAAAGCATT ACCCAGGAGA AGAACAGAGT GAAGGAAGCA 
    TTAGAGGAAG AGCAGACAAG AGTCCAAGAG CTGGAGGAAC GCTTGGCCCG CCAGAAGGAG 
    GTTTTGGAGA GCAGCATAGC CCATGAAAAA AGAAAAGCAA AGGAAGCCTT GGAGTCGGAA 
    AAGAGAAAAG TTCAGGATCT GGAGAACCAT TTAACCCAAC AGAAGGAGAT CTCAGAGAGC 
    AACATTGCGT ACGAGAAACG CAAAGCAAAG GAGGCCATGG AGAAGGAAAA GAAAAAGGTG 
    CAAGACCTGG AGAATCGCTT AACCAAGCAG AAAGAGGAAT TAGAATTAAA AGAGCAAAAA 
    GAGGACGTTT TAAATAATAA ATTAAGTGAC GCACTGGCCA TGGTTGAAGA GACTCAGAAA 
    ACAAAGGCAA CTGAAAGTCT AAAAGCAGAG AGCCTCGCCT TGAAATTAAA TGAAACATTA 
    GCCGAACTGG AAACTACCAA GACAAAAATG ATCATGGTGG AAGAGCGGCT AATCCTGCAG 
    CAGAAGATGG TAAAGGCCCT CCAGGATGAG CAGGAATCAC AGAGACACGG GTTTGAAGAA 
    GAGATCATGG AATATAAGGA GCAAATCAAA CAGCACGCCC AGACAATTGT GAGCCTCGAA 
    GAGAAACTCC AGAAAGTCAC TCAGCACCAT AAAAAAATAG AAGGCGAGAT TGCAACATTG 
    AAGGACAATG ACCCAGCCCC AAAGGAGGAA AGGCCGCAAG ACCCTCTGGT GGCTCCCATG 
    ACAGAGAGCA GTGCCAAAGA CATGGCGTAC GAACATCTGA TAGATGACTT ATTGGCTGCT 
    CAGAAGGAAA TTCTGTCTCA GCAGGAAGTC ATCATGAAGT TAAGGAAAGA CCTTACCGAA 
    GCCCACAGCA GAATGTCGGA TTTGAGAGGG GAGCTAAACG AGAAGCAGAA GATGGAACTG 
    GAGCAGAACG TGGTGCTGGT CCAGCAGCAG AGCAAGGAGC TGAGTGTGCT CAAGGAGAAG 
    ATGGCCCAGA TGAGCAGCCT GGTAGAAAAG AAAGATCGGG AGCTGAAGGC CCTTGAGGAG 
    GCACTCAGGG CTTCCCAAGA GAAACACAGA CTCCAGCTGA ACACAGAGAA GGAACAGAAG 
    CCCCGGAAGA AGACCCAGAC GTGTGACACC TCTGTGCAGA TAGAACCCGT CCACACTGAG 
    GCCTTCTCCA GCAGCCAAGA GCAGCAATCC TTCAGCGATC TAGGGGTCAG GTGCAAAGGG 
    TCCCGGCACG AGGAGGTCAT TCAGCGTCAG AAAAAGGCCT TATCTGAACT TCGAGCGCGA 
    ATTAAAGAAC TCGAGAAGGC GCGCTCACCA GATCATAAAG ACCACCAGAA TGAATCATTT 
    CTAGATTTAA AGAACCTCAG AATGGAAAAC AATGTCCAGA AAATACTACT GGATGCAAAA 
    CCGGATTTGC CAACTCTCTC AAGAATAGAG ATCCTAGCGC CTCAGAATGG CCTTTGCAAC 
    GCAAGGTTCG GCTCAGCCAT GGAGAAGTCA GGGAAGATGG ATGTGGCTGA GGCTTTAGAG 
    CTCAGTGAAA AGCTGTACCT GGATATGAGC AAAACCCTCG GAAGTCTCAT GAACATCAAG 
    AATATGTCAG GCCACGTGTC CATGAAATAC CTCTCCCGCC AGGAGAGGGA GAAGGTCAAC 
    CAGCTTCGAC AAAGGGACCT CGACCTGGTG TTTGATAAGA TCACCCAACT CAAGAACCAG 
    CTGGGGAGGA AAGAGGAGCT GTTGAGAGGA TATGAAAAGG ACGTTGAACA GCTCAGGCGG 
    AGCAAAGTGT CCATTGAGAT GTACCAGTCG CAGGTGGCAA AGCTGGAGGA TGATATCTAC 
    AAAGAGGCCG AAGAGAAGGC CCTGCTGAAG GAGGCCCTGG AGCGCATGGA GCACCAGCTG 
    TGCCAGGAGA AGAGGATCAA CAGGGCCATC CGGCAGCAGA AGGTTGGAAC CAGAAAAGCC 
    TCCCTAAAGA TGGACCAAGA AAGAGAGATG CTGAGGAAAG AGACCTCCAG CAAGTCCAGC 
    CAGAGCCTTT TGCATTCTAA GCCCAGTGGA AAGTACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_443161.1
    CDS186..4424
    Translation

    Target ORF information:

    RefSeq Version NM_052929.2
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_052929.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGAAGGCCT ATCTAAAGAG CGCAGAAGGC TTTTTTGTCC TAAATAAAAG TACCACAATT 
    GGAAGGCATG AAAATTCAGA CCTTGTTTTA CAGTCTCCTG ACATCGACAA CCACCATGCA 
    CTCATTGAAT ATAACGAGGC GGAGTGCAGC TTTGTTCTCC AGGACTTCAA TTCCCGCAAC 
    GGCACGTTTG TCAACGAGTG CCACATTCAA AACGTGGCTG TGAAGCTCAT CCCTGGAGAC 
    ATCCTGAGAT TTGGGTCTGC AGGGCTGACC TATGAACTGG TCATTGAAAA TCCACCTCCG 
    GTCTCTTTCC CATGGATGAG GGGCCCAGCA CCATGGCCAG GGCCACAGCC ACCTCGTGCC 
    ACACAGCAGC CAAACCAGGC CCCCCCACCA TCACATATCC CCTTCCACCA AGGTGTCCAG 
    CCAGCACCGA TGCAAAGGAG CTGGTCCCAG GCCTTTCCCA GACCCACCGT GGTCCTGCCG 
    GCCTCCCACA GGCGGCCTGT GAGCGCCAAC AAGGAGATGT TCTCGTTCGT GGTGGACGAC 
    GCCCGCAAGC CACCCGTCAT CAAGCAAGTG TGGACCAATG CCATGAAACT GTCAGAAAAA 
    TCAGTGGCCG AGGGGATTCC TGGGGCAGTT CCCCCTGCGG AGATTTATGT GGAGGAGGAC 
    TTGGCCCAGC AGGACAAGGA TGAAATAATT CTGCTGCTGG GAAAAGAGGT CAGCCGTCTC 
    TCAGATTATG AAATTGAATC CAAATACAAA GACGTCATAA TAGCAAACCT GCAGAATGAA 
    GTGGCTGAGC TGAGTCAGAA GGTGTCAGAG ACCACCACCT CCAGGCAGAA TGAGAAGGAG 
    ATCTCGCAGA AGTGTCAGGT TCTGGATGAA GACATCGATG CCAAACAGAA AGAGATCCAG 
    AGCTTGAAAA GCCAGATCAG TGCCCTACAG AAAGGCTACA GCAAGGTGCT GTGCCAGACC 
    CTGTCAGAGC GGAACTCAGA AATCACATCC CTGAAGAATG AGGGCGAGAA CTTAAAGAGA 
    GACAACGCTA TCACATCAGG GATGGTGTCA TCTTTGCAAA AAGACATATT AGCAAAGGAT 
    GAGCAAGTTC AACAACTAAA GGAAGAGGTC AGTCACCTAA AAAGTCAGAA CAAGGACAAG 
    GACCACCAGC TGGAAGCCCT TGGCTCTAGA TGCTCGGTGC TAAAGGAAGA GTTAAAACAG 
    GAAGATGCTC ACAGGGAGCT CAGGGAAGCC CAGGAGAAAG AGTTAAAACT CTGCAAAACC 
    CAAATCCAAG ACATGGAGAA AGAAATGAAG AAGCTTAGGG CAGAGCTGAG GAAGAGTTGT 
    ACTGAACAAA GCGTGATCTC TAGGACTCTG AGAGAAAAAA GCAAGGTTGA AGAGAAGCTT 
    CAGGAGGATT CCAGAAGGAA ATTGCTTCAG CTGCAAGAAA TGGGGAACAG AGAGAGCGTC 
    ATTAAAATCA ATTTGGAGAG GGCAGTAGGT CAGCTGGAGC ACTTCAGAAG TCAAGTCATC 
    AAGGCCACCT ATGGACGGGC GAAGCCGTTC CGGGACAAGC CCGTCACCGA CCAACAGTTA 
    ATAGAGAAAA TTACCCAGGT CACTGAGGAC AACATCAATT TTCAGCAGAA AAAGTGGACC 
    CTCCAGAAAG AGACCCAGCT GAGCAACTCC AAGCAGGAGG AGACCACCGA GAACATCGAG 
    AAGCTGAGGA CGTCGCTGGA CAGCTGCCAG GCTTGCATGA AAATATCCTG TTGCAGCCAT 
    GACCTGAAGA AGGAGGTCGA CCTTCTTCAG CACCTCCAGG TGAGCCCACC TGTCTCGGGG 
    CTCCAGAAGG TGGTGCTGGA CGTCCTGAGG CACGCGCTGT CCTGGCTGGA GGAGGTGGAG 
    CAGCTCCTCC GGGACCTCGG GATCCTGCCC TCCAGCCCCA ACAAAGATCA AGTTCAACAG 
    TTCTCAGGAA ACTCAGCAGT CTTTACTGCA GGAAAAGCTG CGGGAGCATC TGGCAGAGAA 
    GGAGAAGCTG AACGAGGAGA GGCTAGAGCA AGAGGAGAAG CTCAAAGCCA AAATCAGGCA 
    ACTGACGGAA GAGAAGGCGG TAAGGCTTTG GAGGAGTACA TTACTCAAGA GAGAAACAGA 
    GCGAAAGAGA CTTTAGAGGA AGAACGGAAG AGAATGCAAG AACTGGAGAG CCTCCTGGCC 
    CAGCAGAAGA AGGCTTTGGC GAAAAGCATT ACCCAGGAGA AGAACAGAGT GAAGGAAGCA 
    TTAGAGGAAG AGCAGACAAG AGTCCAAGAG CTGGAGGAAC GCTTGGCCCG CCAGAAGGAG 
    GTTTTGGAGA GCAGCATAGC CCATGAAAAA AGAAAAGCAA AGGAAGCCTT GGAGTCGGAA 
    AAGAGAAAAG TTCAGGATCT GGAGAACCAT TTAACCCAAC AGAAGGAGAT CTCAGAGAGC 
    AACATTGCGT ACGAGAAACG CAAAGCAAAG GAGGCCATGG AGAAGGAAAA GAAAAAGGTG 
    CAAGACCTGG AGAATCGCTT AACCAAGCAG AAAGAGGAAT TAGAATTAAA AGAGCAAAAA 
    GAGGACGTTT TAAATAATAA ATTAAGTGAC GCACTGGCCA TGGTTGAAGA GACTCAGAAA 
    ACAAAGGCAA CTGAAAGTCT AAAAGCAGAG AGCCTCGCCT TGAAATTAAA TGAAACATTA 
    GCCGAACTGG AAACTACCAA GACAAAAATG ATCATGGTGG AAGAGCGGCT AATCCTGCAG 
    CAGAAGATGG TAAAGGCCCT CCAGGATGAG CAGGAATCAC AGAGACACGG GTTTGAAGAA 
    GAGATCATGG AATATAAGGA GCAAATCAAA CAGCACGCCC AGACAATTGT GAGCCTCGAA 
    GAGAAACTCC AGAAAGTCAC TCAGCACCAT AAAAAAATAG AAGGCGAGAT TGCAACATTG 
    AAGGACAATG ACCCAGCCCC AAAGGAGGAA AGGCCGCAAG ACCCTCTGGT GGCTCCCATG 
    ACAGAGAGCA GTGCCAAAGA CATGGCGTAC GAACATCTGA TAGATGACTT ATTGGCTGCT 
    CAGAAGGAAA TTCTGTCTCA GCAGGAAGTC ATCATGAAGT TAAGGAAAGA CCTTACCGAA 
    GCCCACAGCA GAATGTCGGA TTTGAGAGGG GAGCTAAACG AGAAGCAGAA GATGGAACTG 
    GAGCAGAACG TGGTGCTGGT CCAGCAGCAG AGCAAGGAGC TGAGTGTGCT CAAGGAGAAG 
    ATGGCCCAGA TGAGCAGCCT GGTAGAAAAG AAAGATCGGG AGCTGAAGGC CCTTGAGGAG 
    GCACTCAGGG CTTCCCAAGA GAAACACAGA CTCCAGCTGA ACACAGAGAA GGAACAGAAG 
    CCCCGGAAGA AGACCCAGAC GTGTGACACC TCTGTGCAGA TAGAACCCGT CCACACTGAG 
    GCCTTCTCCA GCAGCCAAGA GCAGCAATCC TTCAGCGATC TAGGGGTCAG GTGCAAAGGG 
    TCCCGGCACG AGGAGGTCAT TCAGCGTCAG AAAAAGGCCT TATCTGAACT TCGAGCGCGA 
    ATTAAAGAAC TCGAGAAGGC GCGCTCACCA GATCATAAAG ACCACCAGAA TGAATCATTT 
    CTAGATTTAA AGAACCTCAG AATGGAAAAC AATGTCCAGA AAATACTACT GGATGCAAAA 
    CCGGATTTGC CAACTCTCTC AAGAATAGAG ATCCTAGCGC CTCAGAATGG CCTTTGCAAC 
    GCAAGGTTCG GCTCAGCCAT GGAGAAGTCA GGGAAGATGG ATGTGGCTGA GGCTTTAGAG 
    CTCAGTGAAA AGCTGTACCT GGATATGAGC AAAACCCTCG GAAGTCTCAT GAACATCAAG 
    AATATGTCAG GCCACGTGTC CATGAAATAC CTCTCCCGCC AGGAGAGGGA GAAGGTCAAC 
    CAGCTTCGAC AAAGGGACCT CGACCTGGTG TTTGATAAGA TCACCCAACT CAAGAACCAG 
    CTGGGGAGGA AAGAGGAGCT GTTGAGAGGA TATGAAAAGG ACGTTGAACA GCTCAGGCGG 
    AGCAAAGTGT CCATTGAGAT GTACCAGTCG CAGGTGGCAA AGCTGGAGGA TGATATCTAC 
    AAAGAGGCCG AAGAGAAGGC CCTGCTGAAG GAGGCCCTGG AGCGCATGGA GCACCAGCTG 
    TGCCAGGAGA AGAGGATCAA CAGGGCCATC CGGCAGCAGA AGGTTGGAAC CAGAAAAGCC 
    TCCCTAAAGA TGGACCAAGA AAGAGAGATG CTGAGGAAAG AGACCTCCAG CAAGTCCAGC 
    CAGAGCCTTT TGCATTCTAA GCCCAGTGGA AAGTACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_011540598.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538900.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X38, mRNA.
    Price & Availability↑
    CloneID OHu74849
    Clone ID Related Accession (Same CDS sequence) XM_011540598.3 , XM_011540598.2
    Accession Version XM_011540598.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2352bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X28
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011540598.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGATC AAGTTCAACA GTTCTCAGGA 
    AACTCAGCAG TCTTTACTGC AGGAAAAGCT GCGGGAGCAT CTGGCAGAGA AGGAGAAGCT 
    GAACGAGGAG AGGCTAGAGC AAGAGGAGAA GCTCAAAGCC AAAATCAGGC AACTGACGGA 
    AGAGAAGGCG GCTTTGGAGG AGTACATTAC TCAAGAGAGA AACAGAGCGA AAGAGACTTT 
    AGAGGAAGAA CGGAAGAGAA TGCAAGAACT GGAGAGCCTC CTGGCCCAGC AGAAGAAGGC 
    TTTGGCGAAA AGCATTACCC AGGAGAAGAA CAGAGTGAAG GAAGCATTAG AGGAAGAGCA 
    GACAAGAGTC CAAGAGCTGG AGGAACGCTT GGCCCGCCAG AAGGAGGTTT TGGAGAGCAG 
    CATAGCCCAT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011538900.1
    CDS166..2517
    Translation

    Target ORF information:

    RefSeq Version XM_011540598.3
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X38, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540598.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGATC AAGTTCAACA GTTCTCAGGA 
    AACTCAGCAG TCTTTACTGC AGGAAAAGCT GCGGGAGCAT CTGGCAGAGA AGGAGAAGCT 
    GAACGAGGAG AGGCTAGAGC AAGAGGAGAA GCTCAAAGCC AAAATCAGGC AACTGACGGA 
    AGAGAAGGCG GCTTTGGAGG AGTACATTAC TCAAGAGAGA AACAGAGCGA AAGAGACTTT 
    AGAGGAAGAA CGGAAGAGAA TGCAAGAACT GGAGAGCCTC CTGGCCCAGC AGAAGAAGGC 
    TTTGGCGAAA AGCATTACCC AGGAGAAGAA CAGAGTGAAG GAAGCATTAG AGGAAGAGCA 
    GACAAGAGTC CAAGAGCTGG AGGAACGCTT GGCCCGCCAG AAGGAGGTTT TGGAGAGCAG 
    CATAGCCCAT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_011540598.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538900.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X33, mRNA.
    Price & Availability↑
    CloneID OHu74849
    Clone ID Related Accession (Same CDS sequence) XM_011540598.3 , XM_011540598.2
    Accession Version XM_011540598.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2352bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X28
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011540598.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGATC AAGTTCAACA GTTCTCAGGA 
    AACTCAGCAG TCTTTACTGC AGGAAAAGCT GCGGGAGCAT CTGGCAGAGA AGGAGAAGCT 
    GAACGAGGAG AGGCTAGAGC AAGAGGAGAA GCTCAAAGCC AAAATCAGGC AACTGACGGA 
    AGAGAAGGCG GCTTTGGAGG AGTACATTAC TCAAGAGAGA AACAGAGCGA AAGAGACTTT 
    AGAGGAAGAA CGGAAGAGAA TGCAAGAACT GGAGAGCCTC CTGGCCCAGC AGAAGAAGGC 
    TTTGGCGAAA AGCATTACCC AGGAGAAGAA CAGAGTGAAG GAAGCATTAG AGGAAGAGCA 
    GACAAGAGTC CAAGAGCTGG AGGAACGCTT GGCCCGCCAG AAGGAGGTTT TGGAGAGCAG 
    CATAGCCCAT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011538900.1
    CDS167..2518
    Translation

    Target ORF information:

    RefSeq Version XM_011540598.2
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X33, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540598.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGATC AAGTTCAACA GTTCTCAGGA 
    AACTCAGCAG TCTTTACTGC AGGAAAAGCT GCGGGAGCAT CTGGCAGAGA AGGAGAAGCT 
    GAACGAGGAG AGGCTAGAGC AAGAGGAGAA GCTCAAAGCC AAAATCAGGC AACTGACGGA 
    AGAGAAGGCG GCTTTGGAGG AGTACATTAC TCAAGAGAGA AACAGAGCGA AAGAGACTTT 
    AGAGGAAGAA CGGAAGAGAA TGCAAGAACT GGAGAGCCTC CTGGCCCAGC AGAAGAAGGC 
    TTTGGCGAAA AGCATTACCC AGGAGAAGAA CAGAGTGAAG GAAGCATTAG AGGAAGAGCA 
    GACAAGAGTC CAAGAGCTGG AGGAACGCTT GGCCCGCCAG AAGGAGGTTT TGGAGAGCAG 
    CATAGCCCAT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_024452916.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024308684.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X39, mRNA.
    Price & Availability↑
    CloneID OHu103582
    Clone ID Related Accession (Same CDS sequence) XM_024452916.1
    Accession Version XM_024452916.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2100bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X29
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    ATGGCACAGA TCTCAGAGAG CAACATTGCG TACGAGAAAC GCAAAGCAAA GGAGGCCATG 
    GAGAAGGAAA AGAAAAAGGT GCAAGACCTG GAGAATCGCT TAACCAAGCA GAAAGAGGAA 
    TTAGAATTAA AAGAGCAAAA AGAGGACGTT TTAAATAATA AATTAAGTGA CGCACTGGCC 
    ATGGTTGAAG AGACTCAGAA AACAAAGGCA ACTGAAAGTC TAAAAGCAGA GAGCCTCGCC 
    TTGAAATTAA ATGAAACATT AGCCGAACTG GAAACTACCA AGACAAAAAT GATCATGGTG 
    GAAGAGCGGC TAATCCTGCA GCAGAAGATG GTAAAGGCCC TCCAGGATGA GCAGGAATCA 
    CAGAGACACG GGTTTGAAGA AGAGATCATG GAATATAAGG AGCAAATCAA ACAGCACGCC 
    CAGACAATTG TGAGCCTCGA AGAGAAACTC CAGAAAGTCA CTCAGCACCA TAAAAAAATA 
    GAAGGCGAGA TTGCAACATT GAAGGACAAT GACCCAGCCC CAAAGGAGGA AAGGCCGCAA 
    GACCCTCTGG TGGCTCCCAT GACAGAGAGC AGTGCCAAAG ACATGGCGTA CGAACATCTG 
    ATAGATGACT TATTGGCTGC TCAGAAGGAA ATTCTGTCTC AGCAGGAAGT CATCATGAAG 
    TTAAGGAAAG ACCTTACCGA AGCCCACAGC AGAATGTCGG ATTTGAGAGG GGAGCTAAAC 
    GAGAAGCAGA AGATGGAACT GGAGCAGAAC GTGGTGCTGG TCCAGCAGCA GAGCAAGGAG 
    CTGAGTGTGC TCAAGGAGAA GATGGCCCAG ATGAGCAGCC TGGTAGAAAA GAAAGATCGG 
    GAGCTGAAGG CCCTTGAGGA GGCACTCAGG GCTTCCCAAG AGAAACACAG ACTCCAGCTG 
    AACACAGAGA AGGAACAGAA GCCCCGGAAG AAGACCCAGA CGTGTGACAC CTCTGTGCAG 
    ATAGAACCCG TCCACACTGA GGCCTTCTCC AGCAGCCAAG AGCAGCAATC CTTCAGCGAT 
    CTAGGGGTCA GGTGCAAAGG GTCCCGGCAC GAGGAGGTCA TTCAGCGTCA GAAAAAGGCC 
    TTATCTGAAC TTCGAGCGCG AATTAAAGAA CTCGAGAAGG CGCGCTCACC AGATCATAAA 
    GACCACCAGA ATGAATCATT TCTAGATTTA AAGAACCTCA GAATGGAAAA CAATGTCCAG 
    AAAATACTAC TGGATGCAAA ACCGGATTTG CCAACTCTCT CAAGAATAGA GATCCTAGCG 
    CCTCAGAATG GCCTTTGCAA CGCAAGGTTC GGCTCAGCCA TGGAGAAGTC AGGGAAGATG 
    GATGTGGCTG AGGCTTTAGA GCTCAGTGAA AAGCTGTACC TGGATATGAG CAAAACCCTC 
    GGAAGTCTCA TGAACATCAA GAATATGTCA GGCCACGTGT CCATGAAATA CCTCTCCCGC 
    CAGGAGAGGG AGAAGGTCAA CCAGCTTCGA CAAAGGGACC TCGACCTGGT GTTTGATAAG 
    ATCACCCAAC TCAAGAACCA GCTGGGGAGG AAAGAGGAGC TGTTGAGAGG ATATGAAAAG 
    GACGTTGAAC AGCTCAGGCG GAGCAAAGTG TCCATTGAGA TGTACCAGTC GCAGGTGGCA 
    AAGCTGGAGG ATGATATCTA CAAAGAGGCC GAAGAGAAGG CCCTGCTGAA GGAGGCCCTG 
    GAGCGCATGG AGCACCAGCT GTGCCAGGAG AAGAGGATCA ACAGGGCCAT CCGGCAGCAG 
    AAGATGAGGA AACTGCGCCT CAGAGAGTTA AGAGGCGCCC AAGTGCACAC AGCGGCTGGT 
    AAGGACAGCT GGGACCTGAC CCCAGATCCC TCTGACCCTG GTTCTCCTGC TGTCTGCAGG 
    GTTGGCCGAA AGTGTAGAGG AGCACGAACT GAGAAACGCA AAAGAATCGA CACCTTGCAA 
    CTGTGCCTTC AAAGAGAAAG ACAGGCAGAG ACGAGTATTT GTAGAGATGG TGAAGAACAG 
    GATGCAGAAC TCAAATTCCC AGGTTGGAAC CAGAAAAGCC TCCCTAAAGA TGGACCAAGA 
    AAGAGAGATG CTGAGGAAAG AGACCTCCAG CAAGTCCAGC CAGAGCCTTT TGCATTCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_024308684.1
    CDS508..2607
    Translation

    Target ORF information:

    RefSeq Version XM_024452916.1
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X39, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024452916.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    ATGGCACAGA TCTCAGAGAG CAACATTGCG TACGAGAAAC GCAAAGCAAA GGAGGCCATG 
    GAGAAGGAAA AGAAAAAGGT GCAAGACCTG GAGAATCGCT TAACCAAGCA GAAAGAGGAA 
    TTAGAATTAA AAGAGCAAAA AGAGGACGTT TTAAATAATA AATTAAGTGA CGCACTGGCC 
    ATGGTTGAAG AGACTCAGAA AACAAAGGCA ACTGAAAGTC TAAAAGCAGA GAGCCTCGCC 
    TTGAAATTAA ATGAAACATT AGCCGAACTG GAAACTACCA AGACAAAAAT GATCATGGTG 
    GAAGAGCGGC TAATCCTGCA GCAGAAGATG GTAAAGGCCC TCCAGGATGA GCAGGAATCA 
    CAGAGACACG GGTTTGAAGA AGAGATCATG GAATATAAGG AGCAAATCAA ACAGCACGCC 
    CAGACAATTG TGAGCCTCGA AGAGAAACTC CAGAAAGTCA CTCAGCACCA TAAAAAAATA 
    GAAGGCGAGA TTGCAACATT GAAGGACAAT GACCCAGCCC CAAAGGAGGA AAGGCCGCAA 
    GACCCTCTGG TGGCTCCCAT GACAGAGAGC AGTGCCAAAG ACATGGCGTA CGAACATCTG 
    ATAGATGACT TATTGGCTGC TCAGAAGGAA ATTCTGTCTC AGCAGGAAGT CATCATGAAG 
    TTAAGGAAAG ACCTTACCGA AGCCCACAGC AGAATGTCGG ATTTGAGAGG GGAGCTAAAC 
    GAGAAGCAGA AGATGGAACT GGAGCAGAAC GTGGTGCTGG TCCAGCAGCA GAGCAAGGAG 
    CTGAGTGTGC TCAAGGAGAA GATGGCCCAG ATGAGCAGCC TGGTAGAAAA GAAAGATCGG 
    GAGCTGAAGG CCCTTGAGGA GGCACTCAGG GCTTCCCAAG AGAAACACAG ACTCCAGCTG 
    AACACAGAGA AGGAACAGAA GCCCCGGAAG AAGACCCAGA CGTGTGACAC CTCTGTGCAG 
    ATAGAACCCG TCCACACTGA GGCCTTCTCC AGCAGCCAAG AGCAGCAATC CTTCAGCGAT 
    CTAGGGGTCA GGTGCAAAGG GTCCCGGCAC GAGGAGGTCA TTCAGCGTCA GAAAAAGGCC 
    TTATCTGAAC TTCGAGCGCG AATTAAAGAA CTCGAGAAGG CGCGCTCACC AGATCATAAA 
    GACCACCAGA ATGAATCATT TCTAGATTTA AAGAACCTCA GAATGGAAAA CAATGTCCAG 
    AAAATACTAC TGGATGCAAA ACCGGATTTG CCAACTCTCT CAAGAATAGA GATCCTAGCG 
    CCTCAGAATG GCCTTTGCAA CGCAAGGTTC GGCTCAGCCA TGGAGAAGTC AGGGAAGATG 
    GATGTGGCTG AGGCTTTAGA GCTCAGTGAA AAGCTGTACC TGGATATGAG CAAAACCCTC 
    GGAAGTCTCA TGAACATCAA GAATATGTCA GGCCACGTGT CCATGAAATA CCTCTCCCGC 
    CAGGAGAGGG AGAAGGTCAA CCAGCTTCGA CAAAGGGACC TCGACCTGGT GTTTGATAAG 
    ATCACCCAAC TCAAGAACCA GCTGGGGAGG AAAGAGGAGC TGTTGAGAGG ATATGAAAAG 
    GACGTTGAAC AGCTCAGGCG GAGCAAAGTG TCCATTGAGA TGTACCAGTC GCAGGTGGCA 
    AAGCTGGAGG ATGATATCTA CAAAGAGGCC GAAGAGAAGG CCCTGCTGAA GGAGGCCCTG 
    GAGCGCATGG AGCACCAGCT GTGCCAGGAG AAGAGGATCA ACAGGGCCAT CCGGCAGCAG 
    AAGATGAGGA AACTGCGCCT CAGAGAGTTA AGAGGCGCCC AAGTGCACAC AGCGGCTGGT 
    AAGGACAGCT GGGACCTGAC CCCAGATCCC TCTGACCCTG GTTCTCCTGC TGTCTGCAGG 
    GTTGGCCGAA AGTGTAGAGG AGCACGAACT GAGAAACGCA AAAGAATCGA CACCTTGCAA 
    CTGTGCCTTC AAAGAGAAAG ACAGGCAGAG ACGAGTATTT GTAGAGATGG TGAAGAACAG 
    GATGCAGAAC TCAAATTCCC AGGTTGGAAC CAGAAAAGCC TCCCTAAAGA TGGACCAAGA 
    AAGAGAGATG CTGAGGAAAG AGACCTCCAG CAAGTCCAGC CAGAGCCTTT TGCATTCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_024452898.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024308666.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X22, mRNA.
    Price & Availability↑
    CloneID OHu103581
    Clone ID Related Accession (Same CDS sequence) XM_024452898.1
    Accession Version XM_024452898.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4338bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X16
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGAAGGCCT ATCTAAAGAG CGCAGAAGGC TTTTTTGTCC TAAATAAAAG TACCACAATT 
    GGAAGGCATG AAAATTCAGA CCTTGTTTTA CAGGTCTCTT TCCCATGGAT GAGGGGCCCA 
    GCACCATGGC CAGGGCCACA GCCACCTCGT GCCACACAGC AGCCAAACCA GGCCCCCCCA 
    CCATCACATA TCCCCTTCCA CCAAGGTGTC CAGCCAGCAC CGATGCAAAG GAGCTGGTCC 
    CAGGCCTTTC CCAGACCCAC CGTGGTCCTG CCGGCCTCCC ACAGGCGGCC TGTGAGCGCC 
    AACAAGGAGA TGTTCTCGTT CGTGGTGGAC GACGCCCGCA AGCCACCCGT CATCAAGCAA 
    GTGTGGACCA ATGCCATGAA ACTGTCAGAA AAATCAGTGG CCGAGGGGAT TCCTGGGGCA 
    GTTCCCCCTG CGGAGATTTA TGTGGAGGAG GACTTGGCCC AGCAGGACAA GGATGAAATA 
    ATTCTGCTGC TGGGAAAAGA GGTCAGCCGT CTCTCAGATT ATGAAATTGA ATCCAAATAC 
    AAAGACGTCA TAATAGCAAA CCTGCAGAAT GAAGTGGCTG AGCTGAGTCA GAAGGTGTCA 
    GAGACCACCA CCTCCAGGCA GAATGAGAAG GAGATCTCGC AGAAGTGTCA GGTTCTGGAT 
    GAAGACATCG ATGCCAAACA GAAAGAGATC CAGAGCTTGA AAAGCCAGAT CAGTGCCCTA 
    CAGAAAGGCT ACAGCAAGGT GCTGTGCCAG ACCCTGTCAG AGCGGAACTC AGAAATCACA 
    TCCCTGAAGA ATGAGGGCGA GAACTTAAAG AGAGACAACG CTATCACATC AGGGATGGTG 
    TCATCTTTGC AAAAAGACAT ATTAGCAAAG GATGAGCAAG TTCAACAACT AAAGGAAGAG 
    GTCAGTCACC TAAAAAGTCA GAACAAGGAC AAGGACCACC AGCTGGAAGC CCTTGGCTCT 
    AGATGCTCGG TGCTAAAGGA AGAGTTAAAA CAGGAAGATG CTCACAGGGA GCTCAGGGAA 
    GCCCAGGAGA AAGAGTTAAA ACTCTGCAAA ACCCAAATCC AAGACATGGA GAAAGAAATG 
    AAGAAGCTTA GGGCAGAGCT GAGGAAGAGT TGTACTGAAC AAAGCGTGAT CTCTAGGACT 
    CTGAGAGAAA AAAGCAAGGT TGAAGAGAAG CTTCAGGAGG ATTCCAGAAG GAAATTGCTT 
    CAGCTGCAAG AAATGGGGAA CAGAGAGAGC GTCATTAAAA TCAATTTGGA GAGGGCAGTA 
    GGTCAGCTGG AGCACTTCAG AAGTCAAGTC ATCAAGGCCA CCTATGGACG GGCGAAGCCG 
    TTCCGGGACA AGCCCGTCAC CGACCAACAG TTAATAGAGA AAATTACCCA GGTCACTGAG 
    GACAACATCA ATTTTCAGCA GAAAAAGTGG ACCCTCCAGA AAGAGACCCA GCTGAGCAAC 
    TCCAAGCAGG AGGAGACCAC CGAGAACATC GAGAAGCTGA GGACGTCGCT GGACAGCTGC 
    CAGGCTTGCA TGAAAATATC CTGTTGCAGC CATGACCTGA AGAAGGAGGT CGACCTTCTT 
    CAGCACCTCC AGGTGAGCCC ACCTGTCTCG GGGCTCCAGA AGGTGGTGCT GGACGTCCTG 
    AGGCACGCGC TGTCCTGGCT GGAGGAGGTG GAGCAGCTCC TCCGGGACCT CGGGATCCTG 
    CCCTCCAGCC CCAACAAAGG GTTCTCTTTG TATCTGATAT ATCTTCTGGA ACATTATAAA 
    AAACTTATGA GCCAGGCCCA GGAACTTCAG ATCAAGTTCA ACAGTTCTCA GGAAACTCAG 
    CAGTCTTTAC TGCAGGAAAA GCTGCGGGAG CATCTGGCAG AGAAGGAGAA GCTGAACGAG 
    GAGAGGCTAG AGCAAGAGGA GAAGCTCAAA GCCAAAATCA GGCAACTGAC GGAAGAGAAG 
    GCGGCTTTGG AGGAGTACAT TACTCAAGAG AGAAACAGAG CGAAAGAGAC TTTAGAGGAA 
    GAACGGAAGA GAATGCAAGA ACTGGAGAGC CTCCTGGCCC AGCAGAAGAA GGCTTTGGCG 
    AAAAGCATTA CCCAGGAGAA GAACAGAGTG AAGGAAGCAT TAGAGGAAGA GCAGACAAGA 
    GTCCAAGAGC TGGAGGAACG CTTGGCCCGC CAGAAGGAGG TTTTGGAGAG CAGCATAGCC 
    CATGAAAAAA GAAAAGCAAA GGAAGCCTTG GAGTCGGAAA AGAGAAAAGT TCAGGATCTG 
    GAGAACCATT TAACCCAACA GAAGGAGATC TCAGAGAGCA ACATTGCGTA CGAGAAACGC 
    AAAGCAAAGG AGGCCATGGA GAAGGAAAAG AAAAAGGTGC AAGACCTGGA GAATCGCTTA 
    ACCAAGCAGA AAGAGGAATT AGAATTAAAA GAGCAAAAAG AGGACGTTTT AAATAATAAA 
    TTAAGTGACG CACTGGCCAT GGTTGAAGAG ACTCAGAAAA CAAAGGCAAC TGAAAGTCTA 
    AAAGCAGAGA GCCTCGCCTT GAAATTAAAT GAAACATTAG CCGAACTGGA AACTACCAAG 
    ACAAAAATGA TCATGGTGGA AGAGCGGCTA ATCCTGCAGC AGAAGATGGT AAAGGCCCTC 
    CAGGATGAGC AGGAATCACA GAGACACGGG TTTGAAGAAG AGATCATGGA ATATAAGGAG 
    CAAATCAAAC AGCACGCCCA GACAATTGTG AGCCTCGAAG AGAAACTCCA GAAAGTCACT 
    CAGCACCATA AAAAAATAGA AGGCGAGATT GCAACATTGA AGGACAATGA CCCAGCCCCA 
    AAGGAGGAAA GGCCGCAAGA CCCTCTGGTG GCTCCCATGA CAGAGAGCAG TGCCAAAGAC 
    ATGGCGTACG AACATCTGAT AGATGACTTA TTGGCTGCTC AGAAGGAAAT TCTGTCTCAG 
    CAGGAAGTCA TCATGAAGTT AAGGAAAGAC CTTACCGAAG CCCACAGCAG AATGTCGGAT 
    TTGAGAGGGG AGCTAAACGA GAAGCAGAAG ATGGAACTGG AGCAGAACGT GGTGCTGGTC 
    CAGCAGCAGA GCAAGGAGCT GAGTGTGCTC AAGGAGAAGA TGGCCCAGAT GAGCAGCCTG 
    GTAGAAAAGA AAGATCGGGA GCTGAAGGCC CTTGAGGAGG CACTCAGGGC TTCCCAAGAG 
    AAACACAGAC TCCAGCTGAA CACAGAGAAG GAACAGAAGC CCCGGAAGAA GACCCAGACG 
    TGTGACACCT CTGTGCAGAT AGAACCCGTC CACACTGAGG CCTTCTCCAG CAGCCAAGAG 
    CAGCAATCCT TCAGCGATCT AGGGGTCAGG TGCAAAGGGT CCCGGCACGA GGAGGTCATT 
    CAGCGTCAGA AAAAGGCCTT ATCTGAACTT CGAGCGCGAA TTAAAGAACT CGAGAAGGCG 
    CGCTCACCAG ATCATAAAGA CCACCAGAAT GAATCATTTC TAGATTTAAA GAACCTCAGA 
    ATGGAAAACA ATGTCCAGAA AATACTACTG GATGCAAAAC CGGATTTGCC AACTCTCTCA 
    AGAATAGAGA TCCTAGCGCC TCAGAATGGC CTTTGCAACG CAAGGTTCGG CTCAGCCATG 
    GAGAAGTCAG GGAAGATGGA TGTGGCTGAG GCTTTAGAGC TCAGTGAAAA GCTGTACCTG 
    GATATGAGCA AAACCCTCGG AAGTCTCATG AACATCAAGA ATATGTCAGG CCACGTGTCC 
    ATGAAATACC TCTCCCGCCA GGAGAGGGAG AAGGTCAACC AGCTTCGACA AAGGGACCTC 
    GACCTGGTGT TTGATAAGAT CACCCAACTC AAGAACCAGC TGGGGAGGAA AGAGGAGCTG 
    TTGAGAGGAT ATGAAAAGGA CGTTGAACAG CTCAGGCGGA GCAAAGTGTC CATTGAGATG 
    TACCAGTCGC AGGTGGCAAA GCTGGAGGAT GATATCTACA AAGAGGCCGA AGAGAAGGCC 
    CTGCTGAAGG AGGCCCTGGA GCGCATGGAG CACCAGCTGT GCCAGGAGAA GAGGATCAAC 
    AGGGCCATCC GGCAGCAGAA GATGAGGAAA CTGCGCCTCA GAGAGTTAAG AGGCGCCCAA 
    GTGCACACAG CGGCTGGTAA GGACAGCTGG GACCTGACCC CAGATCCCTC TGACCCTGGT 
    TCTCCTGCTG TCTGCAGGGT TGGCCGAAAG TGTAGAGGAG CACGAACTGA GAAACGCAAA 
    AGAATCGACA CCTTGCAACT GTGCCTTCAA AGAGAAAGAC AGGCAGAGAC GAGTATTTGT 
    AGAGATGGTG AAGAACAGGA TGCAGAACTC AAATTCCCAG GTTGGAACCA GAAAAGCCTC 
    CCTAAAGATG GACCAAGAAA GAGAGATGCT GAGGAAAGAG ACCTCCAGCA AGTCCAGCCA 
    GAGCCTTTTG CATTCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_024308666.1
    CDS137..4474
    Translation

    Target ORF information:

    RefSeq Version XM_024452898.1
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X22, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024452898.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGAAGGCCT ATCTAAAGAG CGCAGAAGGC TTTTTTGTCC TAAATAAAAG TACCACAATT 
    GGAAGGCATG AAAATTCAGA CCTTGTTTTA CAGGTCTCTT TCCCATGGAT GAGGGGCCCA 
    GCACCATGGC CAGGGCCACA GCCACCTCGT GCCACACAGC AGCCAAACCA GGCCCCCCCA 
    CCATCACATA TCCCCTTCCA CCAAGGTGTC CAGCCAGCAC CGATGCAAAG GAGCTGGTCC 
    CAGGCCTTTC CCAGACCCAC CGTGGTCCTG CCGGCCTCCC ACAGGCGGCC TGTGAGCGCC 
    AACAAGGAGA TGTTCTCGTT CGTGGTGGAC GACGCCCGCA AGCCACCCGT CATCAAGCAA 
    GTGTGGACCA ATGCCATGAA ACTGTCAGAA AAATCAGTGG CCGAGGGGAT TCCTGGGGCA 
    GTTCCCCCTG CGGAGATTTA TGTGGAGGAG GACTTGGCCC AGCAGGACAA GGATGAAATA 
    ATTCTGCTGC TGGGAAAAGA GGTCAGCCGT CTCTCAGATT ATGAAATTGA ATCCAAATAC 
    AAAGACGTCA TAATAGCAAA CCTGCAGAAT GAAGTGGCTG AGCTGAGTCA GAAGGTGTCA 
    GAGACCACCA CCTCCAGGCA GAATGAGAAG GAGATCTCGC AGAAGTGTCA GGTTCTGGAT 
    GAAGACATCG ATGCCAAACA GAAAGAGATC CAGAGCTTGA AAAGCCAGAT CAGTGCCCTA 
    CAGAAAGGCT ACAGCAAGGT GCTGTGCCAG ACCCTGTCAG AGCGGAACTC AGAAATCACA 
    TCCCTGAAGA ATGAGGGCGA GAACTTAAAG AGAGACAACG CTATCACATC AGGGATGGTG 
    TCATCTTTGC AAAAAGACAT ATTAGCAAAG GATGAGCAAG TTCAACAACT AAAGGAAGAG 
    GTCAGTCACC TAAAAAGTCA GAACAAGGAC AAGGACCACC AGCTGGAAGC CCTTGGCTCT 
    AGATGCTCGG TGCTAAAGGA AGAGTTAAAA CAGGAAGATG CTCACAGGGA GCTCAGGGAA 
    GCCCAGGAGA AAGAGTTAAA ACTCTGCAAA ACCCAAATCC AAGACATGGA GAAAGAAATG 
    AAGAAGCTTA GGGCAGAGCT GAGGAAGAGT TGTACTGAAC AAAGCGTGAT CTCTAGGACT 
    CTGAGAGAAA AAAGCAAGGT TGAAGAGAAG CTTCAGGAGG ATTCCAGAAG GAAATTGCTT 
    CAGCTGCAAG AAATGGGGAA CAGAGAGAGC GTCATTAAAA TCAATTTGGA GAGGGCAGTA 
    GGTCAGCTGG AGCACTTCAG AAGTCAAGTC ATCAAGGCCA CCTATGGACG GGCGAAGCCG 
    TTCCGGGACA AGCCCGTCAC CGACCAACAG TTAATAGAGA AAATTACCCA GGTCACTGAG 
    GACAACATCA ATTTTCAGCA GAAAAAGTGG ACCCTCCAGA AAGAGACCCA GCTGAGCAAC 
    TCCAAGCAGG AGGAGACCAC CGAGAACATC GAGAAGCTGA GGACGTCGCT GGACAGCTGC 
    CAGGCTTGCA TGAAAATATC CTGTTGCAGC CATGACCTGA AGAAGGAGGT CGACCTTCTT 
    CAGCACCTCC AGGTGAGCCC ACCTGTCTCG GGGCTCCAGA AGGTGGTGCT GGACGTCCTG 
    AGGCACGCGC TGTCCTGGCT GGAGGAGGTG GAGCAGCTCC TCCGGGACCT CGGGATCCTG 
    CCCTCCAGCC CCAACAAAGG GTTCTCTTTG TATCTGATAT ATCTTCTGGA ACATTATAAA 
    AAACTTATGA GCCAGGCCCA GGAACTTCAG ATCAAGTTCA ACAGTTCTCA GGAAACTCAG 
    CAGTCTTTAC TGCAGGAAAA GCTGCGGGAG CATCTGGCAG AGAAGGAGAA GCTGAACGAG 
    GAGAGGCTAG AGCAAGAGGA GAAGCTCAAA GCCAAAATCA GGCAACTGAC GGAAGAGAAG 
    GCGGCTTTGG AGGAGTACAT TACTCAAGAG AGAAACAGAG CGAAAGAGAC TTTAGAGGAA 
    GAACGGAAGA GAATGCAAGA ACTGGAGAGC CTCCTGGCCC AGCAGAAGAA GGCTTTGGCG 
    AAAAGCATTA CCCAGGAGAA GAACAGAGTG AAGGAAGCAT TAGAGGAAGA GCAGACAAGA 
    GTCCAAGAGC TGGAGGAACG CTTGGCCCGC CAGAAGGAGG TTTTGGAGAG CAGCATAGCC 
    CATGAAAAAA GAAAAGCAAA GGAAGCCTTG GAGTCGGAAA AGAGAAAAGT TCAGGATCTG 
    GAGAACCATT TAACCCAACA GAAGGAGATC TCAGAGAGCA ACATTGCGTA CGAGAAACGC 
    AAAGCAAAGG AGGCCATGGA GAAGGAAAAG AAAAAGGTGC AAGACCTGGA GAATCGCTTA 
    ACCAAGCAGA AAGAGGAATT AGAATTAAAA GAGCAAAAAG AGGACGTTTT AAATAATAAA 
    TTAAGTGACG CACTGGCCAT GGTTGAAGAG ACTCAGAAAA CAAAGGCAAC TGAAAGTCTA 
    AAAGCAGAGA GCCTCGCCTT GAAATTAAAT GAAACATTAG CCGAACTGGA AACTACCAAG 
    ACAAAAATGA TCATGGTGGA AGAGCGGCTA ATCCTGCAGC AGAAGATGGT AAAGGCCCTC 
    CAGGATGAGC AGGAATCACA GAGACACGGG TTTGAAGAAG AGATCATGGA ATATAAGGAG 
    CAAATCAAAC AGCACGCCCA GACAATTGTG AGCCTCGAAG AGAAACTCCA GAAAGTCACT 
    CAGCACCATA AAAAAATAGA AGGCGAGATT GCAACATTGA AGGACAATGA CCCAGCCCCA 
    AAGGAGGAAA GGCCGCAAGA CCCTCTGGTG GCTCCCATGA CAGAGAGCAG TGCCAAAGAC 
    ATGGCGTACG AACATCTGAT AGATGACTTA TTGGCTGCTC AGAAGGAAAT TCTGTCTCAG 
    CAGGAAGTCA TCATGAAGTT AAGGAAAGAC CTTACCGAAG CCCACAGCAG AATGTCGGAT 
    TTGAGAGGGG AGCTAAACGA GAAGCAGAAG ATGGAACTGG AGCAGAACGT GGTGCTGGTC 
    CAGCAGCAGA GCAAGGAGCT GAGTGTGCTC AAGGAGAAGA TGGCCCAGAT GAGCAGCCTG 
    GTAGAAAAGA AAGATCGGGA GCTGAAGGCC CTTGAGGAGG CACTCAGGGC TTCCCAAGAG 
    AAACACAGAC TCCAGCTGAA CACAGAGAAG GAACAGAAGC CCCGGAAGAA GACCCAGACG 
    TGTGACACCT CTGTGCAGAT AGAACCCGTC CACACTGAGG CCTTCTCCAG CAGCCAAGAG 
    CAGCAATCCT TCAGCGATCT AGGGGTCAGG TGCAAAGGGT CCCGGCACGA GGAGGTCATT 
    CAGCGTCAGA AAAAGGCCTT ATCTGAACTT CGAGCGCGAA TTAAAGAACT CGAGAAGGCG 
    CGCTCACCAG ATCATAAAGA CCACCAGAAT GAATCATTTC TAGATTTAAA GAACCTCAGA 
    ATGGAAAACA ATGTCCAGAA AATACTACTG GATGCAAAAC CGGATTTGCC AACTCTCTCA 
    AGAATAGAGA TCCTAGCGCC TCAGAATGGC CTTTGCAACG CAAGGTTCGG CTCAGCCATG 
    GAGAAGTCAG GGAAGATGGA TGTGGCTGAG GCTTTAGAGC TCAGTGAAAA GCTGTACCTG 
    GATATGAGCA AAACCCTCGG AAGTCTCATG AACATCAAGA ATATGTCAGG CCACGTGTCC 
    ATGAAATACC TCTCCCGCCA GGAGAGGGAG AAGGTCAACC AGCTTCGACA AAGGGACCTC 
    GACCTGGTGT TTGATAAGAT CACCCAACTC AAGAACCAGC TGGGGAGGAA AGAGGAGCTG 
    TTGAGAGGAT ATGAAAAGGA CGTTGAACAG CTCAGGCGGA GCAAAGTGTC CATTGAGATG 
    TACCAGTCGC AGGTGGCAAA GCTGGAGGAT GATATCTACA AAGAGGCCGA AGAGAAGGCC 
    CTGCTGAAGG AGGCCCTGGA GCGCATGGAG CACCAGCTGT GCCAGGAGAA GAGGATCAAC 
    AGGGCCATCC GGCAGCAGAA GATGAGGAAA CTGCGCCTCA GAGAGTTAAG AGGCGCCCAA 
    GTGCACACAG CGGCTGGTAA GGACAGCTGG GACCTGACCC CAGATCCCTC TGACCCTGGT 
    TCTCCTGCTG TCTGCAGGGT TGGCCGAAAG TGTAGAGGAG CACGAACTGA GAAACGCAAA 
    AGAATCGACA CCTTGCAACT GTGCCTTCAA AGAGAAAGAC AGGCAGAGAC GAGTATTTGT 
    AGAGATGGTG AAGAACAGGA TGCAGAACTC AAATTCCCAG GTTGGAACCA GAAAAGCCTC 
    CCTAAAGATG GACCAAGAAA GAGAGATGCT GAGGAAAGAG ACCTCCAGCA AGTCCAGCCA 
    GAGCCTTTTG CATTCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_024452918.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024308686.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X40, mRNA.
    Price & Availability↑
    CloneID OHu103583
    Clone ID Related Accession (Same CDS sequence) XM_024452918.1
    Accession Version XM_024452918.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4290bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X30
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGATC AAGTTCAACA GTTCTCAGGA 
    AACTCAGCAG TCTTTACTGC AGGAAAAGCT GCGGGAGCAT CTGGCAGAGA AGGAGAAGCT 
    GAACGAGGAG AGGCTAGAGC AAGAGGAGAA GCTCAAAGCC AAAATCAGGC AACTGACGGA 
    AGAGAAGGCG GTAAGGCTTT GGAGGAGTAC ATTACTCAAG AGAGAAACAG AGCGAAAGAG 
    ACTTTAGAGG AAGAACGGAA GAGAATGCAA GAACTGGAGA GCCTCCTGGC CCAGCAGAAG 
    AAGGCTTTGG CGAAAAGCAT TACCCAGGAG AAGAACAGAG TGAAGGAAGC ATTAGAGGAA 
    GAGCAGACAA GAGTCCAAGA GCTGGAGGAA CGCTTGGCCC GCCAGAAGGA GGTTTTGGAG 
    AGCAGCATAG CCCATGAAAA AAGAAAAGCA AAGGAAGCCT TGGAGTCGGA AAAGAGAAAA 
    GTTCAGGATC TGGAGAACCA TTTAACCCAA CAGAAGGAGA TCTCAGAGAG CAACATTGCG 
    TACGAGAAAC GCAAAGCAAA GGAGGCCATG GAGAAGGAAA AGAAAAAGGT GCAAGACCTG 
    GAGAATCGCT TAACCAAGCA GAAAGAGGAA TTAGAATTAA AAGAGCAAAA AGAGGACGTT 
    TTAAATAATA AATTAAGTGA CGCACTGGCC ATGGTTGAAG AGACTCAGAA AACAAAGGCA 
    ACTGAAAGTC TAAAAGCAGA GAGCCTCGCC TTGAAATTAA ATGAAACATT AGCCGAACTG 
    GAAACTACCA AGACAAAAAT GATCATGGTG GAAGAGCGGC TAATCCTGCA GCAGAAGATG 
    GTAAAGGCCC TCCAGGATGA GCAGGAATCA CAGAGACACG GGTTTGAAGA AGAGATCATG 
    GAATATAAGG AGCAAATCAA ACAGCACGCC CAGACAATTG TGAGCCTCGA AGAGAAACTC 
    CAGAAAGTCA CTCAGCACCA TAAAAAAATA GAAGGCGAGA TTGCAACATT GAAGGACAAT 
    GACCCAGCCC CAAAGGAGGA AAGGCCGCAA GACCCTCTGG TGGCTCCCAT GACAGAGAGC 
    AGTGCCAAAG ACATGGCGTA CGAACATCTG ATAGATGACT TATTGGCTGC TCAGAAGGAA 
    ATTCTGTCTC AGCAGGAAGT CATCATGAAG TTAAGGAAAG ACCTTACCGA AGCCCACAGC 
    AGAATGTCGG ATTTGAGAGG GGAGCTAAAC GAGAAGCAGA AGATGGAACT GGAGCAGAAC 
    GTGGTGCTGG TCCAGCAGCA GAGCAAGGAG CTGAGTGTGC TCAAGGAGAA GATGGCCCAG 
    ATGAGCAGCC TGGTAGAAAA GAAAGATCGG GAGCTGAAGG CCCTTGAGGA GGCACTCAGG 
    GCTTCCCAAG AGAAACACAG ACTCCAGCTG AACACAGAGA AGGAACAGAA GCCCCGGAAG 
    AAGACCCAGA CGTGTGACAC CTCTGTGCAG ATAGAACCCG TCCACACTGA GGCCTTCTCC 
    AGCAGCCAAG AGCAGCAATC CTTCAGCGAT CTAGGGGTCA GGTGCAAAGG GTCCCGGCAC 
    GAGGAGGTCA TTCAGCGTCA GAAAAAGGCC TTATCTGAAC TTCGAGCGCG AATTAAAGAA 
    CTCGAGAAGG CGCGCTCACC AGATCATAAA GACCACCAGA ATGAATCATT TCTAGATTTA 
    AAGAACCTCA GAATGGAAAA CAATGTCCAG AAAATACTAC TGGATGCAAA ACCGGATTTG 
    CCAACTCTCT CAAGAATAGA GATCCTAGCG CCTCAGAATG GCCTTTGCAA CGCAAGGTTC 
    GGCTCAGCCA TGGAGAAGTC AGGGAAGATG GATGTGGCTG AGGCTTTAGA GCTCAGTGAA 
    AAGCTGTACC TGGATATGAG CAAAACCCTC GGAAGTCTCA TGAACATCAA GAATATGTCA 
    GGCCACGTGT CCATGAAATA CCTCTCCCGC CAGGAGAGGG AGAAGGTCAA CCAGCTTCGA 
    CAAAGGGACC TCGACCTGGT GTTTGATAAG ATCACCCAAC TCAAGAACCA GCTGGGGAGG 
    AAAGAGGAGC TGTTGAGAGG ATATGAAAAG GACGTTGAAC AGCTCAGGCG GAGCAAAGTG 
    TCCATTGAGA TGTACCAGTC GCAGGTGGCA AAGCTGGAGG ATGATATCTA CAAAGAGGCC 
    GAAGAGAAGG CCCTGCTGAA GGAGGCCCTG GAGCGCATGG AGCACCAGCT GTGCCAGGAG 
    AAGAGGATCA ACAGGGCCAT CCGGCAGCAG AAGGTTGGAA CCAGAAAAGC CTCCCTAAAG 
    ATGGACCAAG AAAGAGAGAT GCTGAGGAAA GAGACCTCCA GCAAGTCCAG CCAGAGCCTT 
    TTGCATTCTA AGCCCAGTGG AAAGTACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_024308686.1
    CDS162..4451
    Translation

    Target ORF information:

    RefSeq Version XM_024452918.1
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X40, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024452918.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGATC AAGTTCAACA GTTCTCAGGA 
    AACTCAGCAG TCTTTACTGC AGGAAAAGCT GCGGGAGCAT CTGGCAGAGA AGGAGAAGCT 
    GAACGAGGAG AGGCTAGAGC AAGAGGAGAA GCTCAAAGCC AAAATCAGGC AACTGACGGA 
    AGAGAAGGCG GTAAGGCTTT GGAGGAGTAC ATTACTCAAG AGAGAAACAG AGCGAAAGAG 
    ACTTTAGAGG AAGAACGGAA GAGAATGCAA GAACTGGAGA GCCTCCTGGC CCAGCAGAAG 
    AAGGCTTTGG CGAAAAGCAT TACCCAGGAG AAGAACAGAG TGAAGGAAGC ATTAGAGGAA 
    GAGCAGACAA GAGTCCAAGA GCTGGAGGAA CGCTTGGCCC GCCAGAAGGA GGTTTTGGAG 
    AGCAGCATAG CCCATGAAAA AAGAAAAGCA AAGGAAGCCT TGGAGTCGGA AAAGAGAAAA 
    GTTCAGGATC TGGAGAACCA TTTAACCCAA CAGAAGGAGA TCTCAGAGAG CAACATTGCG 
    TACGAGAAAC GCAAAGCAAA GGAGGCCATG GAGAAGGAAA AGAAAAAGGT GCAAGACCTG 
    GAGAATCGCT TAACCAAGCA GAAAGAGGAA TTAGAATTAA AAGAGCAAAA AGAGGACGTT 
    TTAAATAATA AATTAAGTGA CGCACTGGCC ATGGTTGAAG AGACTCAGAA AACAAAGGCA 
    ACTGAAAGTC TAAAAGCAGA GAGCCTCGCC TTGAAATTAA ATGAAACATT AGCCGAACTG 
    GAAACTACCA AGACAAAAAT GATCATGGTG GAAGAGCGGC TAATCCTGCA GCAGAAGATG 
    GTAAAGGCCC TCCAGGATGA GCAGGAATCA CAGAGACACG GGTTTGAAGA AGAGATCATG 
    GAATATAAGG AGCAAATCAA ACAGCACGCC CAGACAATTG TGAGCCTCGA AGAGAAACTC 
    CAGAAAGTCA CTCAGCACCA TAAAAAAATA GAAGGCGAGA TTGCAACATT GAAGGACAAT 
    GACCCAGCCC CAAAGGAGGA AAGGCCGCAA GACCCTCTGG TGGCTCCCAT GACAGAGAGC 
    AGTGCCAAAG ACATGGCGTA CGAACATCTG ATAGATGACT TATTGGCTGC TCAGAAGGAA 
    ATTCTGTCTC AGCAGGAAGT CATCATGAAG TTAAGGAAAG ACCTTACCGA AGCCCACAGC 
    AGAATGTCGG ATTTGAGAGG GGAGCTAAAC GAGAAGCAGA AGATGGAACT GGAGCAGAAC 
    GTGGTGCTGG TCCAGCAGCA GAGCAAGGAG CTGAGTGTGC TCAAGGAGAA GATGGCCCAG 
    ATGAGCAGCC TGGTAGAAAA GAAAGATCGG GAGCTGAAGG CCCTTGAGGA GGCACTCAGG 
    GCTTCCCAAG AGAAACACAG ACTCCAGCTG AACACAGAGA AGGAACAGAA GCCCCGGAAG 
    AAGACCCAGA CGTGTGACAC CTCTGTGCAG ATAGAACCCG TCCACACTGA GGCCTTCTCC 
    AGCAGCCAAG AGCAGCAATC CTTCAGCGAT CTAGGGGTCA GGTGCAAAGG GTCCCGGCAC 
    GAGGAGGTCA TTCAGCGTCA GAAAAAGGCC TTATCTGAAC TTCGAGCGCG AATTAAAGAA 
    CTCGAGAAGG CGCGCTCACC AGATCATAAA GACCACCAGA ATGAATCATT TCTAGATTTA 
    AAGAACCTCA GAATGGAAAA CAATGTCCAG AAAATACTAC TGGATGCAAA ACCGGATTTG 
    CCAACTCTCT CAAGAATAGA GATCCTAGCG CCTCAGAATG GCCTTTGCAA CGCAAGGTTC 
    GGCTCAGCCA TGGAGAAGTC AGGGAAGATG GATGTGGCTG AGGCTTTAGA GCTCAGTGAA 
    AAGCTGTACC TGGATATGAG CAAAACCCTC GGAAGTCTCA TGAACATCAA GAATATGTCA 
    GGCCACGTGT CCATGAAATA CCTCTCCCGC CAGGAGAGGG AGAAGGTCAA CCAGCTTCGA 
    CAAAGGGACC TCGACCTGGT GTTTGATAAG ATCACCCAAC TCAAGAACCA GCTGGGGAGG 
    AAAGAGGAGC TGTTGAGAGG ATATGAAAAG GACGTTGAAC AGCTCAGGCG GAGCAAAGTG 
    TCCATTGAGA TGTACCAGTC GCAGGTGGCA AAGCTGGAGG ATGATATCTA CAAAGAGGCC 
    GAAGAGAAGG CCCTGCTGAA GGAGGCCCTG GAGCGCATGG AGCACCAGCT GTGCCAGGAG 
    AAGAGGATCA ACAGGGCCAT CCGGCAGCAG AAGGTTGGAA CCAGAAAAGC CTCCCTAAAG 
    ATGGACCAAG AAAGAGAGAT GCTGAGGAAA GAGACCTCCA GCAAGTCCAG CCAGAGCCTT 
    TTGCATTCTA AGCCCAGTGG AAAGTACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_017000205.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855694.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X16, mRNA.
    Price & Availability↑
    CloneID OHu83078
    Clone ID Related Accession (Same CDS sequence) XM_017000205.1
    Accession Version XM_017000205.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4401bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X11
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG AGTTGAAGAG AAGCTTCAGG AGGATTCCAG AAGGAAATTG 
    CTTCAGCTGC AAGAAATGGG GAACAGAGAG AGCGTCATTA AAATCAATTT GGAGAGGGCA 
    GTAGGTCAGC TGGAGCACTT CAGAAGTCAA GTCATCAAGG CCACCTATGG ACGGGCGAAG 
    CCGTTCCGGG ACAAGCCCGT CACCGACCAA CAGTTAATAG AGAAAATTAC CCAGGTCACT 
    GAGGACAACA TCAATTTTCA GCAGAAAAAG TGGACCCTCC AGAAAGAGAC CCAGCTGAGC 
    AACTCCAAGC AGGAGGAGAC CACCGAGAAC ATCGAGAAGC TGAGGACGTC GCTGGACAGC 
    TGCCAGGCTT GCATGAAAAT ATCCTGTTGC AGCCATGACC TGAAGAAGGA GGTCGACCTT 
    CTTCAGCACC TCCAGGTGAG CCCACCTGTC TCGGGGCTCC AGAAGGTGGT GCTGGACGTC 
    CTGAGGCACG CGCTGTCCTG GCTGGAGGAG GTGGAGCAGC TCCTCCGGGA CCTCGGGATC 
    CTGCCCTCCA GCCCCAACAA AGGGTTCTCT TTGTATCTGA TATATCTTCT GGAACATTAT 
    AAAAAACTTA TGAGCCAGGC CCAGGAACTT CAGATCAAGT TCAACAGTTC TCAGGAAACT 
    CAGCAGTCTT TACTGCAGGA AAAGCTGCGG GAGCATCTGG CAGAGAAGGA GAAGCTGAAC 
    GAGGAGAGGC TAGAGCAAGA GGAGAAGCTC AAAGCCAAAA TCAGGCAACT GACGGAAGAG 
    AAGGCGGCTT TGGAGGAGTA CATTACTCAA GAGAGAAACA GAGCGAAAGA GACTTTAGAG 
    GAAGAACGGA AGAGAATGCA AGAACTGGAG AGCCTCCTGG CCCAGCAGAA GAAGGCTTTG 
    GCGAAAAGCA TTACCCAGGA GAAGAACAGA GTGAAGGAAG CATTAGAGGA AGAGCAGACA 
    AGAGTCCAAG AGCTGGAGGA ACGCTTGGCC CGCCAGAAGG AGGTTTTGGA GAGCAGCATA 
    GCCCATGAAA AAAGAAAAGC AAAGGAAGCC TTGGAGTCGG AAAAGAGAAA AGTTCAGGAT 
    CTGGAGAACC ATTTAACCCA ACAGAAGGAG ATCTCAGAGA GCAACATTGC GTACGAGAAA 
    CGCAAAGCAA AGGAGGCCAT GGAGAAGGAA AAGAAAAAGG TGCAAGACCT GGAGAATCGC 
    TTAACCAAGC AGAAAGAGGA ATTAGAATTA AAAGAGCAAA AAGAGGACGT TTTAAATAAT 
    AAATTAAGTG ACGCACTGGC CATGGTTGAA GAGACTCAGA AAACAAAGGC AACTGAAAGT 
    CTAAAAGCAG AGAGCCTCGC CTTGAAATTA AATGAAACAT TAGCCGAACT GGAAACTACC 
    AAGACAAAAA TGATCATGGT GGAAGAGCGG CTAATCCTGC AGCAGAAGAT GGTAAAGGCC 
    CTCCAGGATG AGCAGGAATC ACAGAGACAC GGGTTTGAAG AAGAGATCAT GGAATATAAG 
    GAGCAAATCA AACAGCACGC CCAGACAATT GTGAGCCTCG AAGAGAAACT CCAGAAAGTC 
    ACTCAGCACC ATAAAAAAAT AGAAGGCGAG ATTGCAACAT TGAAGGACAA TGACCCAGCC 
    CCAAAGGAGG AAAGGCCGCA AGACCCTCTG GTGGCTCCCA TGACAGAGAG CAGTGCCAAA 
    GACATGGCGT ACGAACATCT GATAGATGAC TTATTGGCTG CTCAGAAGGA AATTCTGTCT 
    CAGCAGGAAG TCATCATGAA GTTAAGGAAA GACCTTACCG AAGCCCACAG CAGAATGTCG 
    GATTTGAGAG GGGAGCTAAA CGAGAAGCAG AAGATGGAAC TGGAGCAGAA CGTGGTGCTG 
    GTCCAGCAGC AGAGCAAGGA GCTGAGTGTG CTCAAGGAGA AGATGGCCCA GATGAGCAGC 
    CTGGTAGAAA AGAAAGATCG GGAGCTGAAG GCCCTTGAGG AGGCACTCAG GGCTTCCCAA 
    GAGAAACACA GACTCCAGCT GAACACAGAG AAGGAACAGA AGCCCCGGAA GAAGACCCAG 
    ACGTGTGACA CCTCTGTGCA GATAGAACCC GTCCACACTG AGGCCTTCTC CAGCAGCCAA 
    GAGCAGCAAT CCTTCAGCGA TCTAGGGGTC AGGTGCAAAG GGTCCCGGCA CGAGGAGGTC 
    ATTCAGCGTC AGAAAAAGGC CTTATCTGAA CTTCGAGCGC GAATTAAAGA ACTCGAGAAG 
    GCGCGCTCAC CAGATCATAA AGACCACCAG AATGAATCAT TTCTAGATTT AAAGAACCTC 
    AGAATGGAAA ACAATGTCCA GAAAATACTA CTGGATGCAA AACCGGATTT GCCAACTCTC 
    TCAAGAATAG AGATCCTAGC GCCTCAGAAT GGCCTTTGCA ACGCAAGGTT CGGCTCAGCC 
    ATGGAGAAGT CAGGGAAGAT GGATGTGGCT GAGGCTTTAG AGCTCAGTGA AAAGCTGTAC 
    CTGGATATGA GCAAAACCCT CGGAAGTCTC ATGAACATCA AGAATATGTC AGGCCACGTG 
    TCCATGAAAT ACCTCTCCCG CCAGGAGAGG GAGAAGGTCA ACCAGCTTCG ACAAAGGGAC 
    CTCGACCTGG TGTTTGATAA GATCACCCAA CTCAAGAACC AGCTGGGGAG GAAAGAGGAG 
    CTGTTGAGAG GATATGAAAA GGACGTTGAA CAGCTCAGGC GGAGCAAAGT GTCCATTGAG 
    ATGTACCAGT CGCAGGTGGC AAAGCTGGAG GATGATATCT ACAAAGAGGC CGAAGAGAAG 
    GCCCTGCTGA AGGAGGCCCT GGAGCGCATG GAGCACCAGC TGTGCCAGGA GAAGAGGATC 
    AACAGGGCCA TCCGGCAGCA GAAGATGAGG AAACTGCGCC TCAGAGAGTT AAGAGGCGCC 
    CAAGTGCACA CAGCGGCTGG TAAGGACAGC TGGGACCTGA CCCCAGATCC CTCTGACCCT 
    GGTTCTCCTG CTGTCTGCAG GGTTGGCCGA AAGTGTAGAG GAGCACGAAC TGAGAAACGC 
    AAAAGAATCG ACACCTTGCA ACTGTGCCTT CAAAGAGAAA GACAGGCAGA GACGAGTATT 
    TGTAGAGATG GTGAAGAACA GGATGCAGAA CTCAAATTCC CAGGTTGGAA CCAGAAAAGC 
    CTCCCTAAAG ATGGACCAAG AAAGAGAGAT GCTGAGGAAA GAGACCTCCA GCAAGTCCAG 
    CCAGAGCCTT TTGCATTCTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016855694.1
    CDS165..4565
    Translation

    Target ORF information:

    RefSeq Version XM_017000205.1
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X16, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000205.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG AGTTGAAGAG AAGCTTCAGG AGGATTCCAG AAGGAAATTG 
    CTTCAGCTGC AAGAAATGGG GAACAGAGAG AGCGTCATTA AAATCAATTT GGAGAGGGCA 
    GTAGGTCAGC TGGAGCACTT CAGAAGTCAA GTCATCAAGG CCACCTATGG ACGGGCGAAG 
    CCGTTCCGGG ACAAGCCCGT CACCGACCAA CAGTTAATAG AGAAAATTAC CCAGGTCACT 
    GAGGACAACA TCAATTTTCA GCAGAAAAAG TGGACCCTCC AGAAAGAGAC CCAGCTGAGC 
    AACTCCAAGC AGGAGGAGAC CACCGAGAAC ATCGAGAAGC TGAGGACGTC GCTGGACAGC 
    TGCCAGGCTT GCATGAAAAT ATCCTGTTGC AGCCATGACC TGAAGAAGGA GGTCGACCTT 
    CTTCAGCACC TCCAGGTGAG CCCACCTGTC TCGGGGCTCC AGAAGGTGGT GCTGGACGTC 
    CTGAGGCACG CGCTGTCCTG GCTGGAGGAG GTGGAGCAGC TCCTCCGGGA CCTCGGGATC 
    CTGCCCTCCA GCCCCAACAA AGGGTTCTCT TTGTATCTGA TATATCTTCT GGAACATTAT 
    AAAAAACTTA TGAGCCAGGC CCAGGAACTT CAGATCAAGT TCAACAGTTC TCAGGAAACT 
    CAGCAGTCTT TACTGCAGGA AAAGCTGCGG GAGCATCTGG CAGAGAAGGA GAAGCTGAAC 
    GAGGAGAGGC TAGAGCAAGA GGAGAAGCTC AAAGCCAAAA TCAGGCAACT GACGGAAGAG 
    AAGGCGGCTT TGGAGGAGTA CATTACTCAA GAGAGAAACA GAGCGAAAGA GACTTTAGAG 
    GAAGAACGGA AGAGAATGCA AGAACTGGAG AGCCTCCTGG CCCAGCAGAA GAAGGCTTTG 
    GCGAAAAGCA TTACCCAGGA GAAGAACAGA GTGAAGGAAG CATTAGAGGA AGAGCAGACA 
    AGAGTCCAAG AGCTGGAGGA ACGCTTGGCC CGCCAGAAGG AGGTTTTGGA GAGCAGCATA 
    GCCCATGAAA AAAGAAAAGC AAAGGAAGCC TTGGAGTCGG AAAAGAGAAA AGTTCAGGAT 
    CTGGAGAACC ATTTAACCCA ACAGAAGGAG ATCTCAGAGA GCAACATTGC GTACGAGAAA 
    CGCAAAGCAA AGGAGGCCAT GGAGAAGGAA AAGAAAAAGG TGCAAGACCT GGAGAATCGC 
    TTAACCAAGC AGAAAGAGGA ATTAGAATTA AAAGAGCAAA AAGAGGACGT TTTAAATAAT 
    AAATTAAGTG ACGCACTGGC CATGGTTGAA GAGACTCAGA AAACAAAGGC AACTGAAAGT 
    CTAAAAGCAG AGAGCCTCGC CTTGAAATTA AATGAAACAT TAGCCGAACT GGAAACTACC 
    AAGACAAAAA TGATCATGGT GGAAGAGCGG CTAATCCTGC AGCAGAAGAT GGTAAAGGCC 
    CTCCAGGATG AGCAGGAATC ACAGAGACAC GGGTTTGAAG AAGAGATCAT GGAATATAAG 
    GAGCAAATCA AACAGCACGC CCAGACAATT GTGAGCCTCG AAGAGAAACT CCAGAAAGTC 
    ACTCAGCACC ATAAAAAAAT AGAAGGCGAG ATTGCAACAT TGAAGGACAA TGACCCAGCC 
    CCAAAGGAGG AAAGGCCGCA AGACCCTCTG GTGGCTCCCA TGACAGAGAG CAGTGCCAAA 
    GACATGGCGT ACGAACATCT GATAGATGAC TTATTGGCTG CTCAGAAGGA AATTCTGTCT 
    CAGCAGGAAG TCATCATGAA GTTAAGGAAA GACCTTACCG AAGCCCACAG CAGAATGTCG 
    GATTTGAGAG GGGAGCTAAA CGAGAAGCAG AAGATGGAAC TGGAGCAGAA CGTGGTGCTG 
    GTCCAGCAGC AGAGCAAGGA GCTGAGTGTG CTCAAGGAGA AGATGGCCCA GATGAGCAGC 
    CTGGTAGAAA AGAAAGATCG GGAGCTGAAG GCCCTTGAGG AGGCACTCAG GGCTTCCCAA 
    GAGAAACACA GACTCCAGCT GAACACAGAG AAGGAACAGA AGCCCCGGAA GAAGACCCAG 
    ACGTGTGACA CCTCTGTGCA GATAGAACCC GTCCACACTG AGGCCTTCTC CAGCAGCCAA 
    GAGCAGCAAT CCTTCAGCGA TCTAGGGGTC AGGTGCAAAG GGTCCCGGCA CGAGGAGGTC 
    ATTCAGCGTC AGAAAAAGGC CTTATCTGAA CTTCGAGCGC GAATTAAAGA ACTCGAGAAG 
    GCGCGCTCAC CAGATCATAA AGACCACCAG AATGAATCAT TTCTAGATTT AAAGAACCTC 
    AGAATGGAAA ACAATGTCCA GAAAATACTA CTGGATGCAA AACCGGATTT GCCAACTCTC 
    TCAAGAATAG AGATCCTAGC GCCTCAGAAT GGCCTTTGCA ACGCAAGGTT CGGCTCAGCC 
    ATGGAGAAGT CAGGGAAGAT GGATGTGGCT GAGGCTTTAG AGCTCAGTGA AAAGCTGTAC 
    CTGGATATGA GCAAAACCCT CGGAAGTCTC ATGAACATCA AGAATATGTC AGGCCACGTG 
    TCCATGAAAT ACCTCTCCCG CCAGGAGAGG GAGAAGGTCA ACCAGCTTCG ACAAAGGGAC 
    CTCGACCTGG TGTTTGATAA GATCACCCAA CTCAAGAACC AGCTGGGGAG GAAAGAGGAG 
    CTGTTGAGAG GATATGAAAA GGACGTTGAA CAGCTCAGGC GGAGCAAAGT GTCCATTGAG 
    ATGTACCAGT CGCAGGTGGC AAAGCTGGAG GATGATATCT ACAAAGAGGC CGAAGAGAAG 
    GCCCTGCTGA AGGAGGCCCT GGAGCGCATG GAGCACCAGC TGTGCCAGGA GAAGAGGATC 
    AACAGGGCCA TCCGGCAGCA GAAGATGAGG AAACTGCGCC TCAGAGAGTT AAGAGGCGCC 
    CAAGTGCACA CAGCGGCTGG TAAGGACAGC TGGGACCTGA CCCCAGATCC CTCTGACCCT 
    GGTTCTCCTG CTGTCTGCAG GGTTGGCCGA AAGTGTAGAG GAGCACGAAC TGAGAAACGC 
    AAAAGAATCG ACACCTTGCA ACTGTGCCTT CAAAGAGAAA GACAGGCAGA GACGAGTATT 
    TGTAGAGATG GTGAAGAACA GGATGCAGAA CTCAAATTCC CAGGTTGGAA CCAGAAAAGC 
    CTCCCTAAAG ATGGACCAAG AAAGAGAGAT GCTGAGGAAA GAGACCTCCA GCAAGTCCAG 
    CCAGAGCCTT TTGCATTCTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_017000206.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855695.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X16, mRNA.
    Price & Availability↑
    CloneID OHu83079
    Clone ID Related Accession (Same CDS sequence) XM_017000206.1 , XM_017000206.2
    Accession Version XM_017000206.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4392bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X12
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGAGGAAACT GCGCCTCAGA 
    GAGTTAAGAG GCGCCCAAGT GCACACAGCG GCTGGTTGGA ACCAGAAAAG CCTCCCTAAA 
    GATGGACCAA GAAAGAGAGA TGCTGAGGAA AGAGACCTCC AGCAAGTCCA GCCAGAGCCT 
    TTTGCATTCT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016855695.1
    CDS160..4551
    Translation

    Target ORF information:

    RefSeq Version XM_017000206.1
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X16, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000206.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGAGGAAACT GCGCCTCAGA 
    GAGTTAAGAG GCGCCCAAGT GCACACAGCG GCTGGTTGGA ACCAGAAAAG CCTCCCTAAA 
    GATGGACCAA GAAAGAGAGA TGCTGAGGAA AGAGACCTCC AGCAAGTCCA GCCAGAGCCT 
    TTTGCATTCT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_017000206.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855695.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X17, mRNA.
    Price & Availability↑
    CloneID OHu83079
    Clone ID Related Accession (Same CDS sequence) XM_017000206.1 , XM_017000206.2
    Accession Version XM_017000206.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4392bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X12
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017000206.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGAGGAAACT GCGCCTCAGA 
    GAGTTAAGAG GCGCCCAAGT GCACACAGCG GCTGGTTGGA ACCAGAAAAG CCTCCCTAAA 
    GATGGACCAA GAAAGAGAGA TGCTGAGGAA AGAGACCTCC AGCAAGTCCA GCCAGAGCCT 
    TTTGCATTCT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016855695.1
    CDS159..4550
    Translation

    Target ORF information:

    RefSeq Version XM_017000206.2
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X17, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000206.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGAGGAAACT GCGCCTCAGA 
    GAGTTAAGAG GCGCCCAAGT GCACACAGCG GCTGGTTGGA ACCAGAAAAG CCTCCCTAAA 
    GATGGACCAA GAAAGAGAGA TGCTGAGGAA AGAGACCTCC AGCAAGTCCA GCCAGAGCCT 
    TTTGCATTCT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_017000209.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855698.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X20, mRNA.
    Price & Availability↑
    CloneID OHu83080
    Clone ID Related Accession (Same CDS sequence) XM_017000209.1 , XM_024452892.1
    Accession Version XM_017000209.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4347bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X15
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG AAAGTGTAGA GGAGCACGAA 
    CTGAGAAACG CAAAAGAATC GACACCTTGC AACTGTGCCT TCAAAGAGAA AGACAGGCAG 
    GCCCTGCCCC ACCTGCCTGC AGTTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016855698.1
    CDS159..4505
    Translation

    Target ORF information:

    RefSeq Version XM_017000209.1
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X20, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000209.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG AAAGTGTAGA GGAGCACGAA 
    CTGAGAAACG CAAAAGAATC GACACCTTGC AACTGTGCCT TCAAAGAGAA AGACAGGCAG 
    GCCCTGCCCC ACCTGCCTGC AGTTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_024452892.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024308660.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X21, mRNA.
    Price & Availability↑
    CloneID OHu83080
    Clone ID Related Accession (Same CDS sequence) XM_017000209.1 , XM_024452892.1
    Accession Version XM_024452892.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4347bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X15
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG AAAGTGTAGA GGAGCACGAA 
    CTGAGAAACG CAAAAGAATC GACACCTTGC AACTGTGCCT TCAAAGAGAA AGACAGGCAG 
    GCCCTGCCCC ACCTGCCTGC AGTTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_024308660.1
    CDS158..4504
    Translation

    Target ORF information:

    RefSeq Version XM_024452892.1
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X21, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024452892.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG AAAGTGTAGA GGAGCACGAA 
    CTGAGAAACG CAAAAGAATC GACACCTTGC AACTGTGCCT TCAAAGAGAA AGACAGGCAG 
    GCCCTGCCCC ACCTGCCTGC AGTTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_017000210.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855699.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X28, mRNA.
    Price & Availability↑
    CloneID OHu83081
    Clone ID Related Accession (Same CDS sequence) XM_017000210.2 , XM_017000210.1
    Accession Version XM_017000210.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4263bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X18
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017000210.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG AGCCAAGTGC TTTTGGATGG 
    TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016855699.1
    CDS154..4416
    Translation

    Target ORF information:

    RefSeq Version XM_017000210.2
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X28, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000210.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG AGCCAAGTGC TTTTGGATGG 
    TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_017000210.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855699.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X23, mRNA.
    Price & Availability↑
    CloneID OHu83081
    Clone ID Related Accession (Same CDS sequence) XM_017000210.2 , XM_017000210.1
    Accession Version XM_017000210.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4263bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X18
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG AGCCAAGTGC TTTTGGATGG 
    TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016855699.1
    CDS155..4417
    Translation

    Target ORF information:

    RefSeq Version XM_017000210.1
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X23, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000210.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG AGCCAAGTGC TTTTGGATGG 
    TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_017000211.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855700.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X31, mRNA.
    Price & Availability↑
    CloneID OHu83082
    Clone ID Related Accession (Same CDS sequence) XM_017000211.2 , XM_017000211.1
    Accession Version XM_017000211.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4245bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X21
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017000211.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGATC 
    TCAGAGAGCA ACATTGCGTA CGAGAAACGC AAAGCAAAGG AGGCCATGGA GAAGGAAAAG 
    AAAAAGGTGC AAGACCTGGA GAATCGCTTA ACCAAGCAGA AAGAGGAATT AGAATTAAAA 
    GAGCAAAAAG AGGACGTTTT AAATAATAAA TTAAGTGACG CACTGGCCAT GGTTGAAGAG 
    ACTCAGAAAA CAAAGGCAAC TGAAAGTCTA AAAGCAGAGA GCCTCGCCTT GAAATTAAAT 
    GAAACATTAG CCGAACTGGA AACTACCAAG ACAAAAATGA TCATGGTGGA AGAGCGGCTA 
    ATCCTGCAGC AGAAGATGGT AAAGGCCCTC CAGGATGAGC AGGAATCACA GAGACACGGG 
    TTTGAAGAAG AGATCATGGA ATATAAGGAG CAAATCAAAC AGCACGCCCA GACAATTGTG 
    AGCCTCGAAG AGAAACTCCA GAAAGTCACT CAGCACCATA AAAAAATAGA AGGCGAGATT 
    GCAACATTGA AGGACAATGA CCCAGCCCCA AAGGAGGAAA GGCCGCAAGA CCCTCTGGTG 
    GCTCCCATGA CAGAGAGCAG TGCCAAAGAC ATGGCGTACG AACATCTGAT AGATGACTTA 
    TTGGCTGCTC AGAAGGAAAT TCTGTCTCAG CAGGAAGTCA TCATGAAGTT AAGGAAAGAC 
    CTTACCGAAG CCCACAGCAG AATGTCGGAT TTGAGAGGGG AGCTAAACGA GAAGCAGAAG 
    ATGGAACTGG AGCAGAACGT GGTGCTGGTC CAGCAGCAGA GCAAGGAGCT GAGTGTGCTC 
    AAGGAGAAGA TGGCCCAGAT GAGCAGCCTG GTAGAAAAGA AAGATCGGGA GCTGAAGGCC 
    CTTGAGGAGG CACTCAGGGC TTCCCAAGAG AAACACAGAC TCCAGCTGAA CACAGAGAAG 
    GAACAGAAGC CCCGGAAGAA GACCCAGACG TGTGACACCT CTGTGCAGAT AGAACCCGTC 
    CACACTGAGG CCTTCTCCAG CAGCCAAGAG CAATCCTTCA GCGATCTAGG GGTCAGGTGC 
    AAAGGGTCCC GGCACGAGGA GGTCATTCAG CGTCAGAAAA AGGCCTTATC TGAACTTCGA 
    GCGCGAATTA AAGAACTCGA GAAGGCGCGC TCACCAGATC ATAAAGACCA CCAGAATGAA 
    TCATTTCTAG ATTTAAAGAA CCTCAGAATG GAAAACAATG TCCAGAAAAT ACTACTGGAT 
    GCAAAACCGG ATTTGCCAAC TCTCTCAAGA ATAGAGATCC TAGCGCCTCA GAATGGCCTT 
    TGCAACGCAA GGTTCGGCTC AGCCATGGAG AAGTCAGGGA AGATGGATGT GGCTGAGGCT 
    TTAGAGCTCA GTGAAAAGCT GTACCTGGAT ATGAGCAAAA CCCTCGGAAG TCTCATGAAC 
    ATCAAGAATA TGTCAGGCCA CGTGTCCATG AAATACCTCT CCCGCCAGGA GAGGGAGAAG 
    GTCAACCAGC TTCGACAAAG GGACCTCGAC CTGGTGTTTG ATAAGATCAC CCAACTCAAG 
    AACCAGCTGG GGAGGAAAGA GGAGCTGTTG AGAGGATATG AAAAGGACGT TGAACAGCTC 
    AGGCGGAGCA AAGTGTCCAT TGAGATGTAC CAGTCGCAGG TGGCAAAGCT GGAGGATGAT 
    ATCTACAAAG AGGCCGAAGA GAAGGCCCTG CTGAAGGAGG CCCTGGAGCG CATGGAGCAC 
    CAGCTGTGCC AGGAGAAGAG GATCAACAGG GCCATCCGGC AGCAGAAGGT TGGAACCAGA 
    AAAGCCTCCC TAAAGATGGA CCAAGAAAGA GAGATGCTGA GGAAAGAGAC CTCCAGCAAG 
    TCCAGCCAGA GCCTTTTGCA TTCTAAGCCC AGTGGAAAGT ACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016855700.1
    CDS161..4405
    Translation

    Target ORF information:

    RefSeq Version XM_017000211.2
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X31, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000211.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGATC 
    TCAGAGAGCA ACATTGCGTA CGAGAAACGC AAAGCAAAGG AGGCCATGGA GAAGGAAAAG 
    AAAAAGGTGC AAGACCTGGA GAATCGCTTA ACCAAGCAGA AAGAGGAATT AGAATTAAAA 
    GAGCAAAAAG AGGACGTTTT AAATAATAAA TTAAGTGACG CACTGGCCAT GGTTGAAGAG 
    ACTCAGAAAA CAAAGGCAAC TGAAAGTCTA AAAGCAGAGA GCCTCGCCTT GAAATTAAAT 
    GAAACATTAG CCGAACTGGA AACTACCAAG ACAAAAATGA TCATGGTGGA AGAGCGGCTA 
    ATCCTGCAGC AGAAGATGGT AAAGGCCCTC CAGGATGAGC AGGAATCACA GAGACACGGG 
    TTTGAAGAAG AGATCATGGA ATATAAGGAG CAAATCAAAC AGCACGCCCA GACAATTGTG 
    AGCCTCGAAG AGAAACTCCA GAAAGTCACT CAGCACCATA AAAAAATAGA AGGCGAGATT 
    GCAACATTGA AGGACAATGA CCCAGCCCCA AAGGAGGAAA GGCCGCAAGA CCCTCTGGTG 
    GCTCCCATGA CAGAGAGCAG TGCCAAAGAC ATGGCGTACG AACATCTGAT AGATGACTTA 
    TTGGCTGCTC AGAAGGAAAT TCTGTCTCAG CAGGAAGTCA TCATGAAGTT AAGGAAAGAC 
    CTTACCGAAG CCCACAGCAG AATGTCGGAT TTGAGAGGGG AGCTAAACGA GAAGCAGAAG 
    ATGGAACTGG AGCAGAACGT GGTGCTGGTC CAGCAGCAGA GCAAGGAGCT GAGTGTGCTC 
    AAGGAGAAGA TGGCCCAGAT GAGCAGCCTG GTAGAAAAGA AAGATCGGGA GCTGAAGGCC 
    CTTGAGGAGG CACTCAGGGC TTCCCAAGAG AAACACAGAC TCCAGCTGAA CACAGAGAAG 
    GAACAGAAGC CCCGGAAGAA GACCCAGACG TGTGACACCT CTGTGCAGAT AGAACCCGTC 
    CACACTGAGG CCTTCTCCAG CAGCCAAGAG CAATCCTTCA GCGATCTAGG GGTCAGGTGC 
    AAAGGGTCCC GGCACGAGGA GGTCATTCAG CGTCAGAAAA AGGCCTTATC TGAACTTCGA 
    GCGCGAATTA AAGAACTCGA GAAGGCGCGC TCACCAGATC ATAAAGACCA CCAGAATGAA 
    TCATTTCTAG ATTTAAAGAA CCTCAGAATG GAAAACAATG TCCAGAAAAT ACTACTGGAT 
    GCAAAACCGG ATTTGCCAAC TCTCTCAAGA ATAGAGATCC TAGCGCCTCA GAATGGCCTT 
    TGCAACGCAA GGTTCGGCTC AGCCATGGAG AAGTCAGGGA AGATGGATGT GGCTGAGGCT 
    TTAGAGCTCA GTGAAAAGCT GTACCTGGAT ATGAGCAAAA CCCTCGGAAG TCTCATGAAC 
    ATCAAGAATA TGTCAGGCCA CGTGTCCATG AAATACCTCT CCCGCCAGGA GAGGGAGAAG 
    GTCAACCAGC TTCGACAAAG GGACCTCGAC CTGGTGTTTG ATAAGATCAC CCAACTCAAG 
    AACCAGCTGG GGAGGAAAGA GGAGCTGTTG AGAGGATATG AAAAGGACGT TGAACAGCTC 
    AGGCGGAGCA AAGTGTCCAT TGAGATGTAC CAGTCGCAGG TGGCAAAGCT GGAGGATGAT 
    ATCTACAAAG AGGCCGAAGA GAAGGCCCTG CTGAAGGAGG CCCTGGAGCG CATGGAGCAC 
    CAGCTGTGCC AGGAGAAGAG GATCAACAGG GCCATCCGGC AGCAGAAGGT TGGAACCAGA 
    AAAGCCTCCC TAAAGATGGA CCAAGAAAGA GAGATGCTGA GGAAAGAGAC CTCCAGCAAG 
    TCCAGCCAGA GCCTTTTGCA TTCTAAGCCC AGTGGAAAGT ACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_017000211.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855700.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X26, mRNA.
    Price & Availability↑
    CloneID OHu83082
    Clone ID Related Accession (Same CDS sequence) XM_017000211.2 , XM_017000211.1
    Accession Version XM_017000211.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4245bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X21
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGATC 
    TCAGAGAGCA ACATTGCGTA CGAGAAACGC AAAGCAAAGG AGGCCATGGA GAAGGAAAAG 
    AAAAAGGTGC AAGACCTGGA GAATCGCTTA ACCAAGCAGA AAGAGGAATT AGAATTAAAA 
    GAGCAAAAAG AGGACGTTTT AAATAATAAA TTAAGTGACG CACTGGCCAT GGTTGAAGAG 
    ACTCAGAAAA CAAAGGCAAC TGAAAGTCTA AAAGCAGAGA GCCTCGCCTT GAAATTAAAT 
    GAAACATTAG CCGAACTGGA AACTACCAAG ACAAAAATGA TCATGGTGGA AGAGCGGCTA 
    ATCCTGCAGC AGAAGATGGT AAAGGCCCTC CAGGATGAGC AGGAATCACA GAGACACGGG 
    TTTGAAGAAG AGATCATGGA ATATAAGGAG CAAATCAAAC AGCACGCCCA GACAATTGTG 
    AGCCTCGAAG AGAAACTCCA GAAAGTCACT CAGCACCATA AAAAAATAGA AGGCGAGATT 
    GCAACATTGA AGGACAATGA CCCAGCCCCA AAGGAGGAAA GGCCGCAAGA CCCTCTGGTG 
    GCTCCCATGA CAGAGAGCAG TGCCAAAGAC ATGGCGTACG AACATCTGAT AGATGACTTA 
    TTGGCTGCTC AGAAGGAAAT TCTGTCTCAG CAGGAAGTCA TCATGAAGTT AAGGAAAGAC 
    CTTACCGAAG CCCACAGCAG AATGTCGGAT TTGAGAGGGG AGCTAAACGA GAAGCAGAAG 
    ATGGAACTGG AGCAGAACGT GGTGCTGGTC CAGCAGCAGA GCAAGGAGCT GAGTGTGCTC 
    AAGGAGAAGA TGGCCCAGAT GAGCAGCCTG GTAGAAAAGA AAGATCGGGA GCTGAAGGCC 
    CTTGAGGAGG CACTCAGGGC TTCCCAAGAG AAACACAGAC TCCAGCTGAA CACAGAGAAG 
    GAACAGAAGC CCCGGAAGAA GACCCAGACG TGTGACACCT CTGTGCAGAT AGAACCCGTC 
    CACACTGAGG CCTTCTCCAG CAGCCAAGAG CAATCCTTCA GCGATCTAGG GGTCAGGTGC 
    AAAGGGTCCC GGCACGAGGA GGTCATTCAG CGTCAGAAAA AGGCCTTATC TGAACTTCGA 
    GCGCGAATTA AAGAACTCGA GAAGGCGCGC TCACCAGATC ATAAAGACCA CCAGAATGAA 
    TCATTTCTAG ATTTAAAGAA CCTCAGAATG GAAAACAATG TCCAGAAAAT ACTACTGGAT 
    GCAAAACCGG ATTTGCCAAC TCTCTCAAGA ATAGAGATCC TAGCGCCTCA GAATGGCCTT 
    TGCAACGCAA GGTTCGGCTC AGCCATGGAG AAGTCAGGGA AGATGGATGT GGCTGAGGCT 
    TTAGAGCTCA GTGAAAAGCT GTACCTGGAT ATGAGCAAAA CCCTCGGAAG TCTCATGAAC 
    ATCAAGAATA TGTCAGGCCA CGTGTCCATG AAATACCTCT CCCGCCAGGA GAGGGAGAAG 
    GTCAACCAGC TTCGACAAAG GGACCTCGAC CTGGTGTTTG ATAAGATCAC CCAACTCAAG 
    AACCAGCTGG GGAGGAAAGA GGAGCTGTTG AGAGGATATG AAAAGGACGT TGAACAGCTC 
    AGGCGGAGCA AAGTGTCCAT TGAGATGTAC CAGTCGCAGG TGGCAAAGCT GGAGGATGAT 
    ATCTACAAAG AGGCCGAAGA GAAGGCCCTG CTGAAGGAGG CCCTGGAGCG CATGGAGCAC 
    CAGCTGTGCC AGGAGAAGAG GATCAACAGG GCCATCCGGC AGCAGAAGGT TGGAACCAGA 
    AAAGCCTCCC TAAAGATGGA CCAAGAAAGA GAGATGCTGA GGAAAGAGAC CTCCAGCAAG 
    TCCAGCCAGA GCCTTTTGCA TTCTAAGCCC AGTGGAAAGT ACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016855700.1
    CDS163..4407
    Translation

    Target ORF information:

    RefSeq Version XM_017000211.1
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X26, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000211.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGATC 
    TCAGAGAGCA ACATTGCGTA CGAGAAACGC AAAGCAAAGG AGGCCATGGA GAAGGAAAAG 
    AAAAAGGTGC AAGACCTGGA GAATCGCTTA ACCAAGCAGA AAGAGGAATT AGAATTAAAA 
    GAGCAAAAAG AGGACGTTTT AAATAATAAA TTAAGTGACG CACTGGCCAT GGTTGAAGAG 
    ACTCAGAAAA CAAAGGCAAC TGAAAGTCTA AAAGCAGAGA GCCTCGCCTT GAAATTAAAT 
    GAAACATTAG CCGAACTGGA AACTACCAAG ACAAAAATGA TCATGGTGGA AGAGCGGCTA 
    ATCCTGCAGC AGAAGATGGT AAAGGCCCTC CAGGATGAGC AGGAATCACA GAGACACGGG 
    TTTGAAGAAG AGATCATGGA ATATAAGGAG CAAATCAAAC AGCACGCCCA GACAATTGTG 
    AGCCTCGAAG AGAAACTCCA GAAAGTCACT CAGCACCATA AAAAAATAGA AGGCGAGATT 
    GCAACATTGA AGGACAATGA CCCAGCCCCA AAGGAGGAAA GGCCGCAAGA CCCTCTGGTG 
    GCTCCCATGA CAGAGAGCAG TGCCAAAGAC ATGGCGTACG AACATCTGAT AGATGACTTA 
    TTGGCTGCTC AGAAGGAAAT TCTGTCTCAG CAGGAAGTCA TCATGAAGTT AAGGAAAGAC 
    CTTACCGAAG CCCACAGCAG AATGTCGGAT TTGAGAGGGG AGCTAAACGA GAAGCAGAAG 
    ATGGAACTGG AGCAGAACGT GGTGCTGGTC CAGCAGCAGA GCAAGGAGCT GAGTGTGCTC 
    AAGGAGAAGA TGGCCCAGAT GAGCAGCCTG GTAGAAAAGA AAGATCGGGA GCTGAAGGCC 
    CTTGAGGAGG CACTCAGGGC TTCCCAAGAG AAACACAGAC TCCAGCTGAA CACAGAGAAG 
    GAACAGAAGC CCCGGAAGAA GACCCAGACG TGTGACACCT CTGTGCAGAT AGAACCCGTC 
    CACACTGAGG CCTTCTCCAG CAGCCAAGAG CAATCCTTCA GCGATCTAGG GGTCAGGTGC 
    AAAGGGTCCC GGCACGAGGA GGTCATTCAG CGTCAGAAAA AGGCCTTATC TGAACTTCGA 
    GCGCGAATTA AAGAACTCGA GAAGGCGCGC TCACCAGATC ATAAAGACCA CCAGAATGAA 
    TCATTTCTAG ATTTAAAGAA CCTCAGAATG GAAAACAATG TCCAGAAAAT ACTACTGGAT 
    GCAAAACCGG ATTTGCCAAC TCTCTCAAGA ATAGAGATCC TAGCGCCTCA GAATGGCCTT 
    TGCAACGCAA GGTTCGGCTC AGCCATGGAG AAGTCAGGGA AGATGGATGT GGCTGAGGCT 
    TTAGAGCTCA GTGAAAAGCT GTACCTGGAT ATGAGCAAAA CCCTCGGAAG TCTCATGAAC 
    ATCAAGAATA TGTCAGGCCA CGTGTCCATG AAATACCTCT CCCGCCAGGA GAGGGAGAAG 
    GTCAACCAGC TTCGACAAAG GGACCTCGAC CTGGTGTTTG ATAAGATCAC CCAACTCAAG 
    AACCAGCTGG GGAGGAAAGA GGAGCTGTTG AGAGGATATG AAAAGGACGT TGAACAGCTC 
    AGGCGGAGCA AAGTGTCCAT TGAGATGTAC CAGTCGCAGG TGGCAAAGCT GGAGGATGAT 
    ATCTACAAAG AGGCCGAAGA GAAGGCCCTG CTGAAGGAGG CCCTGGAGCG CATGGAGCAC 
    CAGCTGTGCC AGGAGAAGAG GATCAACAGG GCCATCCGGC AGCAGAAGGT TGGAACCAGA 
    AAAGCCTCCC TAAAGATGGA CCAAGAAAGA GAGATGCTGA GGAAAGAGAC CTCCAGCAAG 
    TCCAGCCAGA GCCTTTTGCA TTCTAAGCCC AGTGGAAAGT ACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_017000212.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855701.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X27, mRNA.
    Price & Availability↑
    CloneID OHu83083
    Clone ID Related Accession (Same CDS sequence) XM_017000212.1 , XM_017000212.2
    Accession Version XM_017000212.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4242bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X22
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGT AG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016855701.1
    CDS154..4395
    Translation

    Target ORF information:

    RefSeq Version XM_017000212.1
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X27, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000212.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGT AG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_017000212.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855701.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X32, mRNA.
    Price & Availability↑
    CloneID OHu83083
    Clone ID Related Accession (Same CDS sequence) XM_017000212.1 , XM_017000212.2
    Accession Version XM_017000212.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4242bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X22
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017000212.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGT AG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016855701.1
    CDS153..4394
    Translation

    Target ORF information:

    RefSeq Version XM_017000212.2
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X32, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000212.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGT AG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_017000213.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855702.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X36, mRNA.
    Price & Availability↑
    CloneID OHu83084
    Clone ID Related Accession (Same CDS sequence) XM_017000213.1
    Accession Version XM_017000213.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3111bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X26
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATGA AGTCATCATG A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016855702.1
    CDS164..3274
    Translation

    Target ORF information:

    RefSeq Version XM_017000213.1
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X36, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000213.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATGA AGTCATCATG A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_017000214.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855703.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X32, mRNA.
    Price & Availability↑
    CloneID OHu83085
    Clone ID Related Accession (Same CDS sequence) XM_017000214.1 , XM_017000214.2
    Accession Version XM_017000214.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3069bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X27
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGAGATGAC TTATTGGCTG CTCAGAAGGA AATTCTGTCT CAGCAGGAAG 
    TCATCATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016855703.1
    CDS165..3233
    Translation

    Target ORF information:

    RefSeq Version XM_017000214.1
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X32, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000214.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGAGATGAC TTATTGGCTG CTCAGAAGGA AATTCTGTCT CAGCAGGAAG 
    TCATCATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_017000214.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855703.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X37, mRNA.
    Price & Availability↑
    CloneID OHu83085
    Clone ID Related Accession (Same CDS sequence) XM_017000214.1 , XM_017000214.2
    Accession Version XM_017000214.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3069bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X27
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017000214.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGAGATGAC TTATTGGCTG CTCAGAAGGA AATTCTGTCT CAGCAGGAAG 
    TCATCATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016855703.1
    CDS164..3232
    Translation

    Target ORF information:

    RefSeq Version XM_017000214.2
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X37, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000214.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGAGATGAC TTATTGGCTG CTCAGAAGGA AATTCTGTCT CAGCAGGAAG 
    TCATCATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_011540595.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538897.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X33, mRNA.
    Price & Availability↑
    CloneID OHu74846
    Clone ID Related Accession (Same CDS sequence) XM_011540595.2
    Accession Version XM_011540595.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3963bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X23
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011540595.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGAAACTGT CAGAAAAATC AGTGGCCGAG GGGATTCCTG GGGCAGTTCC CCCTGCGGAG 
    ATTTATGTGG AGGAGGACTT GGCCCAGCAG GACAAGGATG AAATAATTCT GCTGCTGGGA 
    AAAGAGGTCA GCCGTCTCTC AGATTATGAA ATTGAATCCA AATACAAAGA CGTCATAATA 
    GCAAACCTGC AGAATGAAGT GGCTGAGCTG AGTCAGAAGG TGTCAGAGAC CACCACCTCC 
    AGGCAGAATG AGAAGGAGAT CTCGCAGAAG TGTCAGGTTC TGGATGAAGA CATCGATGCC 
    AAACAGAAAG AGATCCAGAG CTTGAAAAGC CAGATCAGTG CCCTACAGAA AGGCTACAGC 
    AAGGTGCTGT GCCAGACCCT GTCAGAGCGG AACTCAGAAA TCACATCCCT GAAGAATGAG 
    GGCGAGAACT TAAAGAGAGA CAACGCTATC ACATCAGGGA TGGTGTCATC TTTGCAAAAA 
    GACATATTAG CAAAGGATGA GCAAGTTCAA CAACTAAAGG AAGAGGTCAG TCACCTAAAA 
    AGTCAGAACA AGGACAAGGA CCACCAGCTG GAAGCCCTTG GCTCTAGATG CTCGGTGCTA 
    AAGGAAGAGT TAAAACAGGA AGATGCTCAC AGGGAGCTCA GGGAAGCCCA GGAGAAAGAG 
    TTAAAACTCT GCAAAACCCA AATCCAAGAC ATGGAGAAAG AAATGAAGAA GCTTAGGGCA 
    GAGCTGAGGA AGAGTTGTAC TGAACAAAGC GTGATCTCTA GGACTCTGAG AGAAAAAAGC 
    AAGGTTGAAG AGAAGCTTCA GGAGGATTCC AGAAGGAAAT TGCTTCAGCT GCAAGAAATG 
    GGGAACAGAG AGAGCGTCAT TAAAATCAAT TTGGAGAGGG CAGTAGGTCA GCTGGAGCAC 
    TTCAGAAGTC AAGTCATCAA GGCCACCTAT GGACGGGCGA AGCCGTTCCG GGACAAGCCC 
    GTCACCGACC AACAGTTAAT AGAGAAAATT ACCCAGGTCA CTGAGGACAA CATCAATTTT 
    CAGCAGAAAA AGTGGACCCT CCAGAAAGAG ACCCAGCTGA GCAACTCCAA GCAGGAGGAG 
    ACCACCGAGA ACATCGAGAA GCTGAGGACG TCGCTGGACA GCTGCCAGGC TTGCATGAAA 
    ATATCCTGTT GCAGCCATGA CCTGAAGAAG GAGGTCGACC TTCTTCAGCA CCTCCAGGTG 
    AGCCCACCTG TCTCGGGGCT CCAGAAGGTG GTGCTGGACG TCCTGAGGCA CGCGCTGTCC 
    TGGCTGGAGG AGGTGGAGCA GCTCCTCCGG GACCTCGGGA TCCTGCCCTC CAGCCCCAAC 
    AAAGGGTTCT CTTTGTATCT GATATATCTT CTGGAACATT ATAAAAAACT TATGAGCCAG 
    GCCCAGGAAC TTCAGATCAA GTTCAACAGT TCTCAGGAAA CTCAGCAGTC TTTACTGCAG 
    GAAAAGCTGC GGGAGCATCT GGCAGAGAAG GAGAAGCTGA ACGAGGAGAG GCTAGAGCAA 
    GAGGAGAAGC TCAAAGCCAA AATCAGGCAA CTGACGGAAG AGAAGGCGGC TTTGGAGGAG 
    TACATTACTC AAGAGAGAAA CAGAGCGAAA GAGACTTTAG AGGAAGAACG GAAGAGAATG 
    CAAGAACTGG AGAGCCTCCT GGCCCAGCAG AAGAAGGCTT TGGCGAAAAG CATTACCCAG 
    GAGAAGAACA GAGTGAAGGA AGCATTAGAG GAAGAGCAGA CAAGAGTCCA AGAGCTGGAG 
    GAACGCTTGG CCCGCCAGAA GGAGGTTTTG GAGAGCAGCA TAGCCCATGA AAAAAGAAAA 
    GCAAAGGAAG CCTTGGAGTC GGAAAAGAGA AAAGTTCAGG ATCTGGAGAA CCATTTAACC 
    CAACAGAAGG AGATCTCAGA GAGCAACATT GCGTACGAGA AACGCAAAGC AAAGGAGGCC 
    ATGGAGAAGG AAAAGAAAAA GGTGCAAGAC CTGGAGAATC GCTTAACCAA GCAGAAAGAG 
    GAATTAGAAT TAAAAGAGCA AAAAGAGGAC GTTTTAAATA ATAAATTAAG TGACGCACTG 
    GCCATGGTTG AAGAGACTCA GAAAACAAAG GCAACTGAAA GTCTAAAAGC AGAGAGCCTC 
    GCCTTGAAAT TAAATGAAAC ATTAGCCGAA CTGGAAACTA CCAAGACAAA AATGATCATG 
    GTGGAAGAGC GGCTAATCCT GCAGCAGAAG ATGGTAAAGG CCCTCCAGGA TGAGCAGGAA 
    TCACAGAGAC ACGGGTTTGA AGAAGAGATC ATGGAATATA AGGAGCAAAT CAAACAGCAC 
    GCCCAGACAA TTGTGAGCCT CGAAGAGAAA CTCCAGAAAG TCACTCAGCA CCATAAAAAA 
    ATAGAAGGCG AGATTGCAAC ATTGAAGGAC AATGACCCAG CCCCAAAGGA GGAAAGGCCG 
    CAAGACCCTC TGGTGGCTCC CATGACAGAG AGCAGTGCCA AAGACATGGC GTACGAACAT 
    CTGATAGATG ACTTATTGGC TGCTCAGAAG GAAATTCTGT CTCAGCAGGA AGTCATCATG 
    AAGTTAAGGA AAGACCTTAC CGAAGCCCAC AGCAGAATGT CGGATTTGAG AGGGGAGCTA 
    AACGAGAAGC AGAAGATGGA ACTGGAGCAG AACGTGGTGC TGGTCCAGCA GCAGAGCAAG 
    GAGCTGAGTG TGCTCAAGGA GAAGATGGCC CAGATGAGCA GCCTGGTAGA AAAGAAAGAT 
    CGGGAGCTGA AGGCCCTTGA GGAGGCACTC AGGGCTTCCC AAGAGAAACA CAGACTCCAG 
    CTGAACACAG AGAAGGAACA GAAGCCCCGG AAGAAGACCC AGACGTGTGA CACCTCTGTG 
    CAGATAGAAC CCGTCCACAC TGAGGCCTTC TCCAGCAGCC AAGAGCAGCA ATCCTTCAGC 
    GATCTAGGGG TCAGGTGCAA AGGGTCCCGG CACGAGGAGG TCATTCAGCG TCAGAAAAAG 
    GCCTTATCTG AACTTCGAGC GCGAATTAAA GAACTCGAGA AGGCGCGCTC ACCAGATCAT 
    AAAGACCACC AGAATGAATC ATTTCTAGAT TTAAAGAACC TCAGAATGGA AAACAATGTC 
    CAGAAAATAC TACTGGATGC AAAACCGGAT TTGCCAACTC TCTCAAGAAT AGAGATCCTA 
    GCGCCTCAGA ATGGCCTTTG CAACGCAAGG TTCGGCTCAG CCATGGAGAA GTCAGGGAAG 
    ATGGATGTGG CTGAGGCTTT AGAGCTCAGT GAAAAGCTGT ACCTGGATAT GAGCAAAACC 
    CTCGGAAGTC TCATGAACAT CAAGAATATG TCAGGCCACG TGTCCATGAA ATACCTCTCC 
    CGCCAGGAGA GGGAGAAGGT CAACCAGCTT CGACAAAGGG ACCTCGACCT GGTGTTTGAT 
    AAGATCACCC AACTCAAGAA CCAGCTGGGG AGGAAAGAGG AGCTGTTGAG AGGATATGAA 
    AAGGACGTTG AACAGCTCAG GCGGAGCAAA GTGTCCATTG AGATGTACCA GTCGCAGGTG 
    GCAAAGCTGG AGGATGATAT CTACAAAGAG GCCGAAGAGA AGGCCCTGCT GAAGGAGGCC 
    CTGGAGCGCA TGGAGCACCA GCTGTGCCAG GAGAAGAGGA TCAACAGGGC CATCCGGCAG 
    CAGAAGATGA GGAAACTGCG CCTCAGAGAG TTAAGAGGCG CCCAAGTGCA CACAGCGGCT 
    GGTAAGGACA GCTGGGACCT GACCCCAGAT CCCTCTGACC CTGGTTCTCC TGCTGTCTGC 
    AGGGTTGGCC GAAAGTGTAG AGGAGCACGA ACTGAGAAAC GCAAAAGAAT CGACACCTTG 
    CAACTGTGCC TTCAAAGAGA AAGACAGGCA GAGACGAGTA TTTGTAGAGA TGGTGAAGAA 
    CAGGATGCAG AACTCAAATT CCCAGGTTGG AACCAGAAAA GCCTCCCTAA AGATGGACCA 
    AGAAAGAGAG ATGCTGAGGA AAGAGACCTC CAGCAAGTCC AGCCAGAGCC TTTTGCATTC 
    TAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011538897.1
    CDS141..4103
    Translation

    Target ORF information:

    RefSeq Version XM_011540595.2
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X33, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540595.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGAAACTGT CAGAAAAATC AGTGGCCGAG GGGATTCCTG GGGCAGTTCC CCCTGCGGAG 
    ATTTATGTGG AGGAGGACTT GGCCCAGCAG GACAAGGATG AAATAATTCT GCTGCTGGGA 
    AAAGAGGTCA GCCGTCTCTC AGATTATGAA ATTGAATCCA AATACAAAGA CGTCATAATA 
    GCAAACCTGC AGAATGAAGT GGCTGAGCTG AGTCAGAAGG TGTCAGAGAC CACCACCTCC 
    AGGCAGAATG AGAAGGAGAT CTCGCAGAAG TGTCAGGTTC TGGATGAAGA CATCGATGCC 
    AAACAGAAAG AGATCCAGAG CTTGAAAAGC CAGATCAGTG CCCTACAGAA AGGCTACAGC 
    AAGGTGCTGT GCCAGACCCT GTCAGAGCGG AACTCAGAAA TCACATCCCT GAAGAATGAG 
    GGCGAGAACT TAAAGAGAGA CAACGCTATC ACATCAGGGA TGGTGTCATC TTTGCAAAAA 
    GACATATTAG CAAAGGATGA GCAAGTTCAA CAACTAAAGG AAGAGGTCAG TCACCTAAAA 
    AGTCAGAACA AGGACAAGGA CCACCAGCTG GAAGCCCTTG GCTCTAGATG CTCGGTGCTA 
    AAGGAAGAGT TAAAACAGGA AGATGCTCAC AGGGAGCTCA GGGAAGCCCA GGAGAAAGAG 
    TTAAAACTCT GCAAAACCCA AATCCAAGAC ATGGAGAAAG AAATGAAGAA GCTTAGGGCA 
    GAGCTGAGGA AGAGTTGTAC TGAACAAAGC GTGATCTCTA GGACTCTGAG AGAAAAAAGC 
    AAGGTTGAAG AGAAGCTTCA GGAGGATTCC AGAAGGAAAT TGCTTCAGCT GCAAGAAATG 
    GGGAACAGAG AGAGCGTCAT TAAAATCAAT TTGGAGAGGG CAGTAGGTCA GCTGGAGCAC 
    TTCAGAAGTC AAGTCATCAA GGCCACCTAT GGACGGGCGA AGCCGTTCCG GGACAAGCCC 
    GTCACCGACC AACAGTTAAT AGAGAAAATT ACCCAGGTCA CTGAGGACAA CATCAATTTT 
    CAGCAGAAAA AGTGGACCCT CCAGAAAGAG ACCCAGCTGA GCAACTCCAA GCAGGAGGAG 
    ACCACCGAGA ACATCGAGAA GCTGAGGACG TCGCTGGACA GCTGCCAGGC TTGCATGAAA 
    ATATCCTGTT GCAGCCATGA CCTGAAGAAG GAGGTCGACC TTCTTCAGCA CCTCCAGGTG 
    AGCCCACCTG TCTCGGGGCT CCAGAAGGTG GTGCTGGACG TCCTGAGGCA CGCGCTGTCC 
    TGGCTGGAGG AGGTGGAGCA GCTCCTCCGG GACCTCGGGA TCCTGCCCTC CAGCCCCAAC 
    AAAGGGTTCT CTTTGTATCT GATATATCTT CTGGAACATT ATAAAAAACT TATGAGCCAG 
    GCCCAGGAAC TTCAGATCAA GTTCAACAGT TCTCAGGAAA CTCAGCAGTC TTTACTGCAG 
    GAAAAGCTGC GGGAGCATCT GGCAGAGAAG GAGAAGCTGA ACGAGGAGAG GCTAGAGCAA 
    GAGGAGAAGC TCAAAGCCAA AATCAGGCAA CTGACGGAAG AGAAGGCGGC TTTGGAGGAG 
    TACATTACTC AAGAGAGAAA CAGAGCGAAA GAGACTTTAG AGGAAGAACG GAAGAGAATG 
    CAAGAACTGG AGAGCCTCCT GGCCCAGCAG AAGAAGGCTT TGGCGAAAAG CATTACCCAG 
    GAGAAGAACA GAGTGAAGGA AGCATTAGAG GAAGAGCAGA CAAGAGTCCA AGAGCTGGAG 
    GAACGCTTGG CCCGCCAGAA GGAGGTTTTG GAGAGCAGCA TAGCCCATGA AAAAAGAAAA 
    GCAAAGGAAG CCTTGGAGTC GGAAAAGAGA AAAGTTCAGG ATCTGGAGAA CCATTTAACC 
    CAACAGAAGG AGATCTCAGA GAGCAACATT GCGTACGAGA AACGCAAAGC AAAGGAGGCC 
    ATGGAGAAGG AAAAGAAAAA GGTGCAAGAC CTGGAGAATC GCTTAACCAA GCAGAAAGAG 
    GAATTAGAAT TAAAAGAGCA AAAAGAGGAC GTTTTAAATA ATAAATTAAG TGACGCACTG 
    GCCATGGTTG AAGAGACTCA GAAAACAAAG GCAACTGAAA GTCTAAAAGC AGAGAGCCTC 
    GCCTTGAAAT TAAATGAAAC ATTAGCCGAA CTGGAAACTA CCAAGACAAA AATGATCATG 
    GTGGAAGAGC GGCTAATCCT GCAGCAGAAG ATGGTAAAGG CCCTCCAGGA TGAGCAGGAA 
    TCACAGAGAC ACGGGTTTGA AGAAGAGATC ATGGAATATA AGGAGCAAAT CAAACAGCAC 
    GCCCAGACAA TTGTGAGCCT CGAAGAGAAA CTCCAGAAAG TCACTCAGCA CCATAAAAAA 
    ATAGAAGGCG AGATTGCAAC ATTGAAGGAC AATGACCCAG CCCCAAAGGA GGAAAGGCCG 
    CAAGACCCTC TGGTGGCTCC CATGACAGAG AGCAGTGCCA AAGACATGGC GTACGAACAT 
    CTGATAGATG ACTTATTGGC TGCTCAGAAG GAAATTCTGT CTCAGCAGGA AGTCATCATG 
    AAGTTAAGGA AAGACCTTAC CGAAGCCCAC AGCAGAATGT CGGATTTGAG AGGGGAGCTA 
    AACGAGAAGC AGAAGATGGA ACTGGAGCAG AACGTGGTGC TGGTCCAGCA GCAGAGCAAG 
    GAGCTGAGTG TGCTCAAGGA GAAGATGGCC CAGATGAGCA GCCTGGTAGA AAAGAAAGAT 
    CGGGAGCTGA AGGCCCTTGA GGAGGCACTC AGGGCTTCCC AAGAGAAACA CAGACTCCAG 
    CTGAACACAG AGAAGGAACA GAAGCCCCGG AAGAAGACCC AGACGTGTGA CACCTCTGTG 
    CAGATAGAAC CCGTCCACAC TGAGGCCTTC TCCAGCAGCC AAGAGCAGCA ATCCTTCAGC 
    GATCTAGGGG TCAGGTGCAA AGGGTCCCGG CACGAGGAGG TCATTCAGCG TCAGAAAAAG 
    GCCTTATCTG AACTTCGAGC GCGAATTAAA GAACTCGAGA AGGCGCGCTC ACCAGATCAT 
    AAAGACCACC AGAATGAATC ATTTCTAGAT TTAAAGAACC TCAGAATGGA AAACAATGTC 
    CAGAAAATAC TACTGGATGC AAAACCGGAT TTGCCAACTC TCTCAAGAAT AGAGATCCTA 
    GCGCCTCAGA ATGGCCTTTG CAACGCAAGG TTCGGCTCAG CCATGGAGAA GTCAGGGAAG 
    ATGGATGTGG CTGAGGCTTT AGAGCTCAGT GAAAAGCTGT ACCTGGATAT GAGCAAAACC 
    CTCGGAAGTC TCATGAACAT CAAGAATATG TCAGGCCACG TGTCCATGAA ATACCTCTCC 
    CGCCAGGAGA GGGAGAAGGT CAACCAGCTT CGACAAAGGG ACCTCGACCT GGTGTTTGAT 
    AAGATCACCC AACTCAAGAA CCAGCTGGGG AGGAAAGAGG AGCTGTTGAG AGGATATGAA 
    AAGGACGTTG AACAGCTCAG GCGGAGCAAA GTGTCCATTG AGATGTACCA GTCGCAGGTG 
    GCAAAGCTGG AGGATGATAT CTACAAAGAG GCCGAAGAGA AGGCCCTGCT GAAGGAGGCC 
    CTGGAGCGCA TGGAGCACCA GCTGTGCCAG GAGAAGAGGA TCAACAGGGC CATCCGGCAG 
    CAGAAGATGA GGAAACTGCG CCTCAGAGAG TTAAGAGGCG CCCAAGTGCA CACAGCGGCT 
    GGTAAGGACA GCTGGGACCT GACCCCAGAT CCCTCTGACC CTGGTTCTCC TGCTGTCTGC 
    AGGGTTGGCC GAAAGTGTAG AGGAGCACGA ACTGAGAAAC GCAAAAGAAT CGACACCTTG 
    CAACTGTGCC TTCAAAGAGA AAGACAGGCA GAGACGAGTA TTTGTAGAGA TGGTGAAGAA 
    CAGGATGCAG AACTCAAATT CCCAGGTTGG AACCAGAAAA GCCTCCCTAA AGATGGACCA 
    AGAAAGAGAG ATGCTGAGGA AAGAGACCTC CAGCAAGTCC AGCCAGAGCC TTTTGCATTC 
    TAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_011540596.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538898.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X34, mRNA.
    Price & Availability↑
    CloneID OHu74847
    Clone ID Related Accession (Same CDS sequence) XM_011540596.2
    Accession Version XM_011540596.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3528bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X24
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011540596.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    ATGGGAACAA CAAAATCAGT TTTGAGAAGT GAGAGGCCGG TTTGCATTGT GCGCTTCCGC 
    CTCTGCGGCT GGTTAGCCCG CCTCGCCCAG CCCTCTGCAT CCGTCCCCCG AGCAGGGTCA 
    CCGCCTGGAT TACATGTGTT GTCGCCCTTT CAGTGCTCGG TGCTAAAGGA AGAGTTAAAA 
    CAGGAAGATG CTCACAGGGA GCTCAGGGAA GCCCAGGAGA AAGAGTTAAA ACTCTGCAAA 
    ACCCAAATCC AAGACATGGA GAAAGAAATG AAGAAGCTTA GGGCAGAGCT GAGGAAGAGT 
    TGTACTGAAC AAAGCGTGAT CTCTAGGACT CTGAGAGAAA AAAGCAAGGT TGAAGAGAAG 
    CTTCAGGAGG ATTCCAGAAG GAAATTGCTT CAGCTGCAAG AAATGGGGAA CAGAGAGAGC 
    GTCATTAAAA TCAATTTGGA GAGGGCAGTA GGTCAGCTGG AGCACTTCAG AAGTCAAGTC 
    ATCAAGGCCA CCTATGGACG GGCGAAGCCG TTCCGGGACA AGCCCGTCAC CGACCAACAG 
    TTAATAGAGA AAATTACCCA GGTCACTGAG GACAACATCA ATTTTCAGCA GAAAAAGTGG 
    ACCCTCCAGA AAGAGACCCA GCTGAGCAAC TCCAAGCAGG AGGAGACCAC CGAGAACATC 
    GAGAAGCTGA GGACGTCGCT GGACAGCTGC CAGGCTTGCA TGAAAATATC CTGTTGCAGC 
    CATGACCTGA AGAAGGAGGT CGACCTTCTT CAGCACCTCC AGGTGAGCCC ACCTGTCTCG 
    GGGCTCCAGA AGGTGGTGCT GGACGTCCTG AGGCACGCGC TGTCCTGGCT GGAGGAGGTG 
    GAGCAGCTCC TCCGGGACCT CGGGATCCTG CCCTCCAGCC CCAACAAAGG GTTCTCTTTG 
    TATCTGATAT ATCTTCTGGA ACATTATAAA AAACTTATGA GCCAGGCCCA GGAACTTCAG 
    ATCAAGTTCA ACAGTTCTCA GGAAACTCAG CAGTCTTTAC TGCAGGAAAA GCTGCGGGAG 
    CATCTGGCAG AGAAGGAGAA GCTGAACGAG GAGAGGCTAG AGCAAGAGGA GAAGCTCAAA 
    GCCAAAATCA GGCAACTGAC GGAAGAGAAG GCGGCTTTGG AGGAGTACAT TACTCAAGAG 
    AGAAACAGAG CGAAAGAGAC TTTAGAGGAA GAACGGAAGA GAATGCAAGA ACTGGAGAGC 
    CTCCTGGCCC AGCAGAAGAA GGCTTTGGCG AAAAGCATTA CCCAGGAGAA GAACAGAGTG 
    AAGGAAGCAT TAGAGGAAGA GCAGACAAGA GTCCAAGAGC TGGAGGAACG CTTGGCCCGC 
    CAGAAGGAGG TTTTGGAGAG CAGCATAGCC CATGAAAAAA GAAAAGCAAA GGAAGCCTTG 
    GAGTCGGAAA AGAGAAAAGT TCAGGATCTG GAGAACCATT TAACCCAACA GAAGGAGATC 
    TCAGAGAGCA ACATTGCGTA CGAGAAACGC AAAGCAAAGG AGGCCATGGA GAAGGAAAAG 
    AAAAAGGTGC AAGACCTGGA GAATCGCTTA ACCAAGCAGA AAGAGGAATT AGAATTAAAA 
    GAGCAAAAAG AGGACGTTTT AAATAATAAA TTAAGTGACG CACTGGCCAT GGTTGAAGAG 
    ACTCAGAAAA CAAAGGCAAC TGAAAGTCTA AAAGCAGAGA GCCTCGCCTT GAAATTAAAT 
    GAAACATTAG CCGAACTGGA AACTACCAAG ACAAAAATGA TCATGGTGGA AGAGCGGCTA 
    ATCCTGCAGC AGAAGATGGT AAAGGCCCTC CAGGATGAGC AGGAATCACA GAGACACGGG 
    TTTGAAGAAG AGATCATGGA ATATAAGGAG CAAATCAAAC AGCACGCCCA GACAATTGTG 
    AGCCTCGAAG AGAAACTCCA GAAAGTCACT CAGCACCATA AAAAAATAGA AGGCGAGATT 
    GCAACATTGA AGGACAATGA CCCAGCCCCA AAGGAGGAAA GGCCGCAAGA CCCTCTGGTG 
    GCTCCCATGA CAGAGAGCAG TGCCAAAGAC ATGGCGTACG AACATCTGAT AGATGACTTA 
    TTGGCTGCTC AGAAGGAAAT TCTGTCTCAG CAGGAAGTCA TCATGAAGTT AAGGAAAGAC 
    CTTACCGAAG CCCACAGCAG AATGTCGGAT TTGAGAGGGG AGCTAAACGA GAAGCAGAAG 
    ATGGAACTGG AGCAGAACGT GGTGCTGGTC CAGCAGCAGA GCAAGGAGCT GAGTGTGCTC 
    AAGGAGAAGA TGGCCCAGAT GAGCAGCCTG GTAGAAAAGA AAGATCGGGA GCTGAAGGCC 
    CTTGAGGAGG CACTCAGGGC TTCCCAAGAG AAACACAGAC TCCAGCTGAA CACAGAGAAG 
    GAACAGAAGC CCCGGAAGAA GACCCAGACG TGTGACACCT CTGTGCAGAT AGAACCCGTC 
    CACACTGAGG CCTTCTCCAG CAGCCAAGAG CAGCAATCCT TCAGCGATCT AGGGGTCAGG 
    TGCAAAGGGT CCCGGCACGA GGAGGTCATT CAGCGTCAGA AAAAGGCCTT ATCTGAACTT 
    CGAGCGCGAA TTAAAGAACT CGAGAAGGCG CGCTCACCAG ATCATAAAGA CCACCAGAAT 
    GAATCATTTC TAGATTTAAA GAACCTCAGA ATGGAAAACA ATGTCCAGAA AATACTACTG 
    GATGCAAAAC CGGATTTGCC AACTCTCTCA AGAATAGAGA TCCTAGCGCC TCAGAATGGC 
    CTTTGCAACG CAAGGTTCGG CTCAGCCATG GAGAAGTCAG GGAAGATGGA TGTGGCTGAG 
    GCTTTAGAGC TCAGTGAAAA GCTGTACCTG GATATGAGCA AAACCCTCGG AAGTCTCATG 
    AACATCAAGA ATATGTCAGG CCACGTGTCC ATGAAATACC TCTCCCGCCA GGAGAGGGAG 
    AAGGTCAACC AGCTTCGACA AAGGGACCTC GACCTGGTGT TTGATAAGAT CACCCAACTC 
    AAGAACCAGC TGGGGAGGAA AGAGGAGCTG TTGAGAGGAT ATGAAAAGGA CGTTGAACAG 
    CTCAGGCGGA GCAAAGTGTC CATTGAGATG TACCAGTCGC AGGTGGCAAA GCTGGAGGAT 
    GATATCTACA AAGAGGCCGA AGAGAAGGCC CTGCTGAAGG AGGCCCTGGA GCGCATGGAG 
    CACCAGCTGT GCCAGGAGAA GAGGATCAAC AGGGCCATCC GGCAGCAGAA GATGAGGAAA 
    CTGCGCCTCA GAGAGTTAAG AGGCGCCCAA GTGCACACAG CGGCTGGTAA GGACAGCTGG 
    GACCTGACCC CAGATCCCTC TGACCCTGGT TCTCCTGCTG TCTGCAGGGT TGGCCGAAAG 
    TGTAGAGGAG CACGAACTGA GAAACGCAAA AGAATCGACA CCTTGCAACT GTGCCTTCAA 
    AGAGAAAGAC AGGCAGAGAC GAGTATTTGT AGAGATGGTG AAGAACAGGA TGCAGAACTC 
    AAATTCCCAG GTTGGAACCA GAAAAGCCTC CCTAAAGATG GACCAAGAAA GAGAGATGCT 
    GAGGAAAGAG ACCTCCAGCA AGTCCAGCCA GAGCCTTTTG CATTCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011538898.1
    CDS136..3663
    Translation

    Target ORF information:

    RefSeq Version XM_011540596.2
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X34, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540596.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    ATGGGAACAA CAAAATCAGT TTTGAGAAGT GAGAGGCCGG TTTGCATTGT GCGCTTCCGC 
    CTCTGCGGCT GGTTAGCCCG CCTCGCCCAG CCCTCTGCAT CCGTCCCCCG AGCAGGGTCA 
    CCGCCTGGAT TACATGTGTT GTCGCCCTTT CAGTGCTCGG TGCTAAAGGA AGAGTTAAAA 
    CAGGAAGATG CTCACAGGGA GCTCAGGGAA GCCCAGGAGA AAGAGTTAAA ACTCTGCAAA 
    ACCCAAATCC AAGACATGGA GAAAGAAATG AAGAAGCTTA GGGCAGAGCT GAGGAAGAGT 
    TGTACTGAAC AAAGCGTGAT CTCTAGGACT CTGAGAGAAA AAAGCAAGGT TGAAGAGAAG 
    CTTCAGGAGG ATTCCAGAAG GAAATTGCTT CAGCTGCAAG AAATGGGGAA CAGAGAGAGC 
    GTCATTAAAA TCAATTTGGA GAGGGCAGTA GGTCAGCTGG AGCACTTCAG AAGTCAAGTC 
    ATCAAGGCCA CCTATGGACG GGCGAAGCCG TTCCGGGACA AGCCCGTCAC CGACCAACAG 
    TTAATAGAGA AAATTACCCA GGTCACTGAG GACAACATCA ATTTTCAGCA GAAAAAGTGG 
    ACCCTCCAGA AAGAGACCCA GCTGAGCAAC TCCAAGCAGG AGGAGACCAC CGAGAACATC 
    GAGAAGCTGA GGACGTCGCT GGACAGCTGC CAGGCTTGCA TGAAAATATC CTGTTGCAGC 
    CATGACCTGA AGAAGGAGGT CGACCTTCTT CAGCACCTCC AGGTGAGCCC ACCTGTCTCG 
    GGGCTCCAGA AGGTGGTGCT GGACGTCCTG AGGCACGCGC TGTCCTGGCT GGAGGAGGTG 
    GAGCAGCTCC TCCGGGACCT CGGGATCCTG CCCTCCAGCC CCAACAAAGG GTTCTCTTTG 
    TATCTGATAT ATCTTCTGGA ACATTATAAA AAACTTATGA GCCAGGCCCA GGAACTTCAG 
    ATCAAGTTCA ACAGTTCTCA GGAAACTCAG CAGTCTTTAC TGCAGGAAAA GCTGCGGGAG 
    CATCTGGCAG AGAAGGAGAA GCTGAACGAG GAGAGGCTAG AGCAAGAGGA GAAGCTCAAA 
    GCCAAAATCA GGCAACTGAC GGAAGAGAAG GCGGCTTTGG AGGAGTACAT TACTCAAGAG 
    AGAAACAGAG CGAAAGAGAC TTTAGAGGAA GAACGGAAGA GAATGCAAGA ACTGGAGAGC 
    CTCCTGGCCC AGCAGAAGAA GGCTTTGGCG AAAAGCATTA CCCAGGAGAA GAACAGAGTG 
    AAGGAAGCAT TAGAGGAAGA GCAGACAAGA GTCCAAGAGC TGGAGGAACG CTTGGCCCGC 
    CAGAAGGAGG TTTTGGAGAG CAGCATAGCC CATGAAAAAA GAAAAGCAAA GGAAGCCTTG 
    GAGTCGGAAA AGAGAAAAGT TCAGGATCTG GAGAACCATT TAACCCAACA GAAGGAGATC 
    TCAGAGAGCA ACATTGCGTA CGAGAAACGC AAAGCAAAGG AGGCCATGGA GAAGGAAAAG 
    AAAAAGGTGC AAGACCTGGA GAATCGCTTA ACCAAGCAGA AAGAGGAATT AGAATTAAAA 
    GAGCAAAAAG AGGACGTTTT AAATAATAAA TTAAGTGACG CACTGGCCAT GGTTGAAGAG 
    ACTCAGAAAA CAAAGGCAAC TGAAAGTCTA AAAGCAGAGA GCCTCGCCTT GAAATTAAAT 
    GAAACATTAG CCGAACTGGA AACTACCAAG ACAAAAATGA TCATGGTGGA AGAGCGGCTA 
    ATCCTGCAGC AGAAGATGGT AAAGGCCCTC CAGGATGAGC AGGAATCACA GAGACACGGG 
    TTTGAAGAAG AGATCATGGA ATATAAGGAG CAAATCAAAC AGCACGCCCA GACAATTGTG 
    AGCCTCGAAG AGAAACTCCA GAAAGTCACT CAGCACCATA AAAAAATAGA AGGCGAGATT 
    GCAACATTGA AGGACAATGA CCCAGCCCCA AAGGAGGAAA GGCCGCAAGA CCCTCTGGTG 
    GCTCCCATGA CAGAGAGCAG TGCCAAAGAC ATGGCGTACG AACATCTGAT AGATGACTTA 
    TTGGCTGCTC AGAAGGAAAT TCTGTCTCAG CAGGAAGTCA TCATGAAGTT AAGGAAAGAC 
    CTTACCGAAG CCCACAGCAG AATGTCGGAT TTGAGAGGGG AGCTAAACGA GAAGCAGAAG 
    ATGGAACTGG AGCAGAACGT GGTGCTGGTC CAGCAGCAGA GCAAGGAGCT GAGTGTGCTC 
    AAGGAGAAGA TGGCCCAGAT GAGCAGCCTG GTAGAAAAGA AAGATCGGGA GCTGAAGGCC 
    CTTGAGGAGG CACTCAGGGC TTCCCAAGAG AAACACAGAC TCCAGCTGAA CACAGAGAAG 
    GAACAGAAGC CCCGGAAGAA GACCCAGACG TGTGACACCT CTGTGCAGAT AGAACCCGTC 
    CACACTGAGG CCTTCTCCAG CAGCCAAGAG CAGCAATCCT TCAGCGATCT AGGGGTCAGG 
    TGCAAAGGGT CCCGGCACGA GGAGGTCATT CAGCGTCAGA AAAAGGCCTT ATCTGAACTT 
    CGAGCGCGAA TTAAAGAACT CGAGAAGGCG CGCTCACCAG ATCATAAAGA CCACCAGAAT 
    GAATCATTTC TAGATTTAAA GAACCTCAGA ATGGAAAACA ATGTCCAGAA AATACTACTG 
    GATGCAAAAC CGGATTTGCC AACTCTCTCA AGAATAGAGA TCCTAGCGCC TCAGAATGGC 
    CTTTGCAACG CAAGGTTCGG CTCAGCCATG GAGAAGTCAG GGAAGATGGA TGTGGCTGAG 
    GCTTTAGAGC TCAGTGAAAA GCTGTACCTG GATATGAGCA AAACCCTCGG AAGTCTCATG 
    AACATCAAGA ATATGTCAGG CCACGTGTCC ATGAAATACC TCTCCCGCCA GGAGAGGGAG 
    AAGGTCAACC AGCTTCGACA AAGGGACCTC GACCTGGTGT TTGATAAGAT CACCCAACTC 
    AAGAACCAGC TGGGGAGGAA AGAGGAGCTG TTGAGAGGAT ATGAAAAGGA CGTTGAACAG 
    CTCAGGCGGA GCAAAGTGTC CATTGAGATG TACCAGTCGC AGGTGGCAAA GCTGGAGGAT 
    GATATCTACA AAGAGGCCGA AGAGAAGGCC CTGCTGAAGG AGGCCCTGGA GCGCATGGAG 
    CACCAGCTGT GCCAGGAGAA GAGGATCAAC AGGGCCATCC GGCAGCAGAA GATGAGGAAA 
    CTGCGCCTCA GAGAGTTAAG AGGCGCCCAA GTGCACACAG CGGCTGGTAA GGACAGCTGG 
    GACCTGACCC CAGATCCCTC TGACCCTGGT TCTCCTGCTG TCTGCAGGGT TGGCCGAAAG 
    TGTAGAGGAG CACGAACTGA GAAACGCAAA AGAATCGACA CCTTGCAACT GTGCCTTCAA 
    AGAGAAAGAC AGGCAGAGAC GAGTATTTGT AGAGATGGTG AAGAACAGGA TGCAGAACTC 
    AAATTCCCAG GTTGGAACCA GAAAAGCCTC CCTAAAGATG GACCAAGAAA GAGAGATGCT 
    GAGGAAAGAG ACCTCCAGCA AGTCCAGCCA GAGCCTTTTG CATTCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_011540597.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538899.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X30, mRNA.
    Price & Availability↑
    CloneID OHu74848
    Clone ID Related Accession (Same CDS sequence) XM_011540597.2 , XM_011540597.3
    Accession Version XM_011540597.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3159bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X25
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011540597.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATTG AGTCTACAAA GAAGTCTATC 
    CTCAAAGAAC TGACAGTTTT CAGAGAAACA AACGTATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011538899.1
    CDS165..3323
    Translation

    Target ORF information:

    RefSeq Version XM_011540597.2
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X30, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540597.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATTG AGTCTACAAA GAAGTCTATC 
    CTCAAAGAAC TGACAGTTTT CAGAGAAACA AACGTATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_011540597.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538899.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X35, mRNA.
    Price & Availability↑
    CloneID OHu74848
    Clone ID Related Accession (Same CDS sequence) XM_011540597.2 , XM_011540597.3
    Accession Version XM_011540597.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3159bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X25
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011540597.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATTG AGTCTACAAA GAAGTCTATC 
    CTCAAAGAAC TGACAGTTTT CAGAGAAACA AACGTATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011538899.1
    CDS164..3322
    Translation

    Target ORF information:

    RefSeq Version XM_011540597.3
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X35, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540597.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATTG AGTCTACAAA GAAGTCTATC 
    CTCAAAGAAC TGACAGTTTT CAGAGAAACA AACGTATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_017000198.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855687.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu74829
    Clone ID Related Accession (Same CDS sequence) XM_017000198.2 , XM_017000199.2 , XM_011540575.2 , XM_017000198.1 , XM_017000199.1
    Accession Version XM_017000198.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4596bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017000198.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGAGGAAACT GCGCCTCAGA 
    GAGTTAAGAG GCGCCCAAGT GCACACAGCG GCTGGTAAGG ACAGCTGGGA CCTGACCCCA 
    GATCCCTCTG ACCCTGGTTC TCCTGCTGTC TGCAGGGTTG GCCGAAAGTG TAGAGGAGCA 
    CGAACTGAGA AACGCAAAAG AATCGACACC TTGCAACTGT GCCTTCAAAG AGAAAGACAG 
    GCAGAGACGA GTATTTGTAG AGATGGTGAA GAACAGGATG CAGAACTCAA ATTCCCAGGT 
    TGGAACCAGA AAAGCCTCCC TAAAGATGGA CCAAGAAAGA GAGATGCTGA GGAAAGAGAC 
    CTCCAGCAAG TCCAGCCAGA GCCTTTTGCA TTCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016855687.1
    CDS164..4759
    Translation

    Target ORF information:

    RefSeq Version XM_017000198.2
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000198.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGAGGAAACT GCGCCTCAGA 
    GAGTTAAGAG GCGCCCAAGT GCACACAGCG GCTGGTAAGG ACAGCTGGGA CCTGACCCCA 
    GATCCCTCTG ACCCTGGTTC TCCTGCTGTC TGCAGGGTTG GCCGAAAGTG TAGAGGAGCA 
    CGAACTGAGA AACGCAAAAG AATCGACACC TTGCAACTGT GCCTTCAAAG AGAAAGACAG 
    GCAGAGACGA GTATTTGTAG AGATGGTGAA GAACAGGATG CAGAACTCAA ATTCCCAGGT 
    TGGAACCAGA AAAGCCTCCC TAAAGATGGA CCAAGAAAGA GAGATGCTGA GGAAAGAGAC 
    CTCCAGCAAG TCCAGCCAGA GCCTTTTGCA TTCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_017000199.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855688.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OHu74829
    Clone ID Related Accession (Same CDS sequence) XM_017000198.2 , XM_017000199.2 , XM_011540575.2 , XM_017000198.1 , XM_017000199.1
    Accession Version XM_017000199.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4596bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017000199.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGAGGAAACT GCGCCTCAGA 
    GAGTTAAGAG GCGCCCAAGT GCACACAGCG GCTGGTAAGG ACAGCTGGGA CCTGACCCCA 
    GATCCCTCTG ACCCTGGTTC TCCTGCTGTC TGCAGGGTTG GCCGAAAGTG TAGAGGAGCA 
    CGAACTGAGA AACGCAAAAG AATCGACACC TTGCAACTGT GCCTTCAAAG AGAAAGACAG 
    GCAGAGACGA GTATTTGTAG AGATGGTGAA GAACAGGATG CAGAACTCAA ATTCCCAGGT 
    TGGAACCAGA AAAGCCTCCC TAAAGATGGA CCAAGAAAGA GAGATGCTGA GGAAAGAGAC 
    CTCCAGCAAG TCCAGCCAGA GCCTTTTGCA TTCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016855688.1
    CDS164..4759
    Translation

    Target ORF information:

    RefSeq Version XM_017000199.2
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000199.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGAGGAAACT GCGCCTCAGA 
    GAGTTAAGAG GCGCCCAAGT GCACACAGCG GCTGGTAAGG ACAGCTGGGA CCTGACCCCA 
    GATCCCTCTG ACCCTGGTTC TCCTGCTGTC TGCAGGGTTG GCCGAAAGTG TAGAGGAGCA 
    CGAACTGAGA AACGCAAAAG AATCGACACC TTGCAACTGT GCCTTCAAAG AGAAAGACAG 
    GCAGAGACGA GTATTTGTAG AGATGGTGAA GAACAGGATG CAGAACTCAA ATTCCCAGGT 
    TGGAACCAGA AAAGCCTCCC TAAAGATGGA CCAAGAAAGA GAGATGCTGA GGAAAGAGAC 
    CTCCAGCAAG TCCAGCCAGA GCCTTTTGCA TTCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_011540575.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538877.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OHu74829
    Clone ID Related Accession (Same CDS sequence) XM_017000198.2 , XM_017000199.2 , XM_011540575.2 , XM_017000198.1 , XM_017000199.1
    Accession Version XM_011540575.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4596bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011540575.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGAGGAAACT GCGCCTCAGA 
    GAGTTAAGAG GCGCCCAAGT GCACACAGCG GCTGGTAAGG ACAGCTGGGA CCTGACCCCA 
    GATCCCTCTG ACCCTGGTTC TCCTGCTGTC TGCAGGGTTG GCCGAAAGTG TAGAGGAGCA 
    CGAACTGAGA AACGCAAAAG AATCGACACC TTGCAACTGT GCCTTCAAAG AGAAAGACAG 
    GCAGAGACGA GTATTTGTAG AGATGGTGAA GAACAGGATG CAGAACTCAA ATTCCCAGGT 
    TGGAACCAGA AAAGCCTCCC TAAAGATGGA CCAAGAAAGA GAGATGCTGA GGAAAGAGAC 
    CTCCAGCAAG TCCAGCCAGA GCCTTTTGCA TTCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011538877.1
    CDS164..4759
    Translation

    Target ORF information:

    RefSeq Version XM_011540575.2
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540575.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGAGGAAACT GCGCCTCAGA 
    GAGTTAAGAG GCGCCCAAGT GCACACAGCG GCTGGTAAGG ACAGCTGGGA CCTGACCCCA 
    GATCCCTCTG ACCCTGGTTC TCCTGCTGTC TGCAGGGTTG GCCGAAAGTG TAGAGGAGCA 
    CGAACTGAGA AACGCAAAAG AATCGACACC TTGCAACTGT GCCTTCAAAG AGAAAGACAG 
    GCAGAGACGA GTATTTGTAG AGATGGTGAA GAACAGGATG CAGAACTCAA ATTCCCAGGT 
    TGGAACCAGA AAAGCCTCCC TAAAGATGGA CCAAGAAAGA GAGATGCTGA GGAAAGAGAC 
    CTCCAGCAAG TCCAGCCAGA GCCTTTTGCA TTCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_017000198.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855687.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu74829
    Clone ID Related Accession (Same CDS sequence) XM_017000198.2 , XM_017000199.2 , XM_011540575.2 , XM_017000198.1 , XM_017000199.1
    Accession Version XM_017000198.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4596bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGAGGAAACT GCGCCTCAGA 
    GAGTTAAGAG GCGCCCAAGT GCACACAGCG GCTGGTAAGG ACAGCTGGGA CCTGACCCCA 
    GATCCCTCTG ACCCTGGTTC TCCTGCTGTC TGCAGGGTTG GCCGAAAGTG TAGAGGAGCA 
    CGAACTGAGA AACGCAAAAG AATCGACACC TTGCAACTGT GCCTTCAAAG AGAAAGACAG 
    GCAGAGACGA GTATTTGTAG AGATGGTGAA GAACAGGATG CAGAACTCAA ATTCCCAGGT 
    TGGAACCAGA AAAGCCTCCC TAAAGATGGA CCAAGAAAGA GAGATGCTGA GGAAAGAGAC 
    CTCCAGCAAG TCCAGCCAGA GCCTTTTGCA TTCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016855687.1
    CDS165..4760
    Translation

    Target ORF information:

    RefSeq Version XM_017000198.1
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000198.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGAGGAAACT GCGCCTCAGA 
    GAGTTAAGAG GCGCCCAAGT GCACACAGCG GCTGGTAAGG ACAGCTGGGA CCTGACCCCA 
    GATCCCTCTG ACCCTGGTTC TCCTGCTGTC TGCAGGGTTG GCCGAAAGTG TAGAGGAGCA 
    CGAACTGAGA AACGCAAAAG AATCGACACC TTGCAACTGT GCCTTCAAAG AGAAAGACAG 
    GCAGAGACGA GTATTTGTAG AGATGGTGAA GAACAGGATG CAGAACTCAA ATTCCCAGGT 
    TGGAACCAGA AAAGCCTCCC TAAAGATGGA CCAAGAAAGA GAGATGCTGA GGAAAGAGAC 
    CTCCAGCAAG TCCAGCCAGA GCCTTTTGCA TTCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_017000199.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855688.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OHu74829
    Clone ID Related Accession (Same CDS sequence) XM_017000198.2 , XM_017000199.2 , XM_011540575.2 , XM_017000198.1 , XM_017000199.1
    Accession Version XM_017000199.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4596bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGAGGAAACT GCGCCTCAGA 
    GAGTTAAGAG GCGCCCAAGT GCACACAGCG GCTGGTAAGG ACAGCTGGGA CCTGACCCCA 
    GATCCCTCTG ACCCTGGTTC TCCTGCTGTC TGCAGGGTTG GCCGAAAGTG TAGAGGAGCA 
    CGAACTGAGA AACGCAAAAG AATCGACACC TTGCAACTGT GCCTTCAAAG AGAAAGACAG 
    GCAGAGACGA GTATTTGTAG AGATGGTGAA GAACAGGATG CAGAACTCAA ATTCCCAGGT 
    TGGAACCAGA AAAGCCTCCC TAAAGATGGA CCAAGAAAGA GAGATGCTGA GGAAAGAGAC 
    CTCCAGCAAG TCCAGCCAGA GCCTTTTGCA TTCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016855688.1
    CDS165..4760
    Translation

    Target ORF information:

    RefSeq Version XM_017000199.1
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000199.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGAGGAAACT GCGCCTCAGA 
    GAGTTAAGAG GCGCCCAAGT GCACACAGCG GCTGGTAAGG ACAGCTGGGA CCTGACCCCA 
    GATCCCTCTG ACCCTGGTTC TCCTGCTGTC TGCAGGGTTG GCCGAAAGTG TAGAGGAGCA 
    CGAACTGAGA AACGCAAAAG AATCGACACC TTGCAACTGT GCCTTCAAAG AGAAAGACAG 
    GCAGAGACGA GTATTTGTAG AGATGGTGAA GAACAGGATG CAGAACTCAA ATTCCCAGGT 
    TGGAACCAGA AAAGCCTCCC TAAAGATGGA CCAAGAAAGA GAGATGCTGA GGAAAGAGAC 
    CTCCAGCAAG TCCAGCCAGA GCCTTTTGCA TTCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_011540576.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538878.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OHu74830
    Clone ID Related Accession (Same CDS sequence) XM_011540576.2
    Accession Version XM_011540576.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4593bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011540576.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA ATCCTTCAGC GATCTAGGGG TCAGGTGCAA AGGGTCCCGG 
    CACGAGGAGG TCATTCAGCG TCAGAAAAAG GCCTTATCTG AACTTCGAGC GCGAATTAAA 
    GAACTCGAGA AGGCGCGCTC ACCAGATCAT AAAGACCACC AGAATGAATC ATTTCTAGAT 
    TTAAAGAACC TCAGAATGGA AAACAATGTC CAGAAAATAC TACTGGATGC AAAACCGGAT 
    TTGCCAACTC TCTCAAGAAT AGAGATCCTA GCGCCTCAGA ATGGCCTTTG CAACGCAAGG 
    TTCGGCTCAG CCATGGAGAA GTCAGGGAAG ATGGATGTGG CTGAGGCTTT AGAGCTCAGT 
    GAAAAGCTGT ACCTGGATAT GAGCAAAACC CTCGGAAGTC TCATGAACAT CAAGAATATG 
    TCAGGCCACG TGTCCATGAA ATACCTCTCC CGCCAGGAGA GGGAGAAGGT CAACCAGCTT 
    CGACAAAGGG ACCTCGACCT GGTGTTTGAT AAGATCACCC AACTCAAGAA CCAGCTGGGG 
    AGGAAAGAGG AGCTGTTGAG AGGATATGAA AAGGACGTTG AACAGCTCAG GCGGAGCAAA 
    GTGTCCATTG AGATGTACCA GTCGCAGGTG GCAAAGCTGG AGGATGATAT CTACAAAGAG 
    GCCGAAGAGA AGGCCCTGCT GAAGGAGGCC CTGGAGCGCA TGGAGCACCA GCTGTGCCAG 
    GAGAAGAGGA TCAACAGGGC CATCCGGCAG CAGAAGATGA GGAAACTGCG CCTCAGAGAG 
    TTAAGAGGCG CCCAAGTGCA CACAGCGGCT GGTAAGGACA GCTGGGACCT GACCCCAGAT 
    CCCTCTGACC CTGGTTCTCC TGCTGTCTGC AGGGTTGGCC GAAAGTGTAG AGGAGCACGA 
    ACTGAGAAAC GCAAAAGAAT CGACACCTTG CAACTGTGCC TTCAAAGAGA AAGACAGGCA 
    GAGACGAGTA TTTGTAGAGA TGGTGAAGAA CAGGATGCAG AACTCAAATT CCCAGGTTGG 
    AACCAGAAAA GCCTCCCTAA AGATGGACCA AGAAAGAGAG ATGCTGAGGA AAGAGACCTC 
    CAGCAAGTCC AGCCAGAGCC TTTTGCATTC TAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011538878.1
    CDS165..4757
    Translation

    Target ORF information:

    RefSeq Version XM_011540576.2
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540576.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA ATCCTTCAGC GATCTAGGGG TCAGGTGCAA AGGGTCCCGG 
    CACGAGGAGG TCATTCAGCG TCAGAAAAAG GCCTTATCTG AACTTCGAGC GCGAATTAAA 
    GAACTCGAGA AGGCGCGCTC ACCAGATCAT AAAGACCACC AGAATGAATC ATTTCTAGAT 
    TTAAAGAACC TCAGAATGGA AAACAATGTC CAGAAAATAC TACTGGATGC AAAACCGGAT 
    TTGCCAACTC TCTCAAGAAT AGAGATCCTA GCGCCTCAGA ATGGCCTTTG CAACGCAAGG 
    TTCGGCTCAG CCATGGAGAA GTCAGGGAAG ATGGATGTGG CTGAGGCTTT AGAGCTCAGT 
    GAAAAGCTGT ACCTGGATAT GAGCAAAACC CTCGGAAGTC TCATGAACAT CAAGAATATG 
    TCAGGCCACG TGTCCATGAA ATACCTCTCC CGCCAGGAGA GGGAGAAGGT CAACCAGCTT 
    CGACAAAGGG ACCTCGACCT GGTGTTTGAT AAGATCACCC AACTCAAGAA CCAGCTGGGG 
    AGGAAAGAGG AGCTGTTGAG AGGATATGAA AAGGACGTTG AACAGCTCAG GCGGAGCAAA 
    GTGTCCATTG AGATGTACCA GTCGCAGGTG GCAAAGCTGG AGGATGATAT CTACAAAGAG 
    GCCGAAGAGA AGGCCCTGCT GAAGGAGGCC CTGGAGCGCA TGGAGCACCA GCTGTGCCAG 
    GAGAAGAGGA TCAACAGGGC CATCCGGCAG CAGAAGATGA GGAAACTGCG CCTCAGAGAG 
    TTAAGAGGCG CCCAAGTGCA CACAGCGGCT GGTAAGGACA GCTGGGACCT GACCCCAGAT 
    CCCTCTGACC CTGGTTCTCC TGCTGTCTGC AGGGTTGGCC GAAAGTGTAG AGGAGCACGA 
    ACTGAGAAAC GCAAAAGAAT CGACACCTTG CAACTGTGCC TTCAAAGAGA AAGACAGGCA 
    GAGACGAGTA TTTGTAGAGA TGGTGAAGAA CAGGATGCAG AACTCAAATT CCCAGGTTGG 
    AACCAGAAAA GCCTCCCTAA AGATGGACCA AGAAAGAGAG ATGCTGAGGA AAGAGACCTC 
    CAGCAAGTCC AGCCAGAGCC TTTTGCATTC TAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_011540577.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538879.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OHu74831
    Clone ID Related Accession (Same CDS sequence) XM_011540577.2
    Accession Version XM_011540577.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4545bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011540577.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGAAGGCCT ATCTAAAGAG CGCAGAAGGC TTTTTTGTCC TAAATAAAAG TACCACAATT 
    GGAAGGCATG AAAATTCAGA CCTTGTTTTA CAGTCTCCTG ACATCGACAA CCACCATGCA 
    CTCATTGAAT ATAACGAGGC GGAGTGCAGC TTTGTTCTCC AGGACTTCAA TTCCCGCAAC 
    GGCACGTTTG TCAACGAGTG CCACATTCAA AACGTGGCTG TGAAGCTCAT CCCTGGAGAC 
    ATCCTGAGAT TTGGGTCTGC AGGGCTGACC TATGAACTGG TCATTGAAAA TCCACCTCCG 
    GTCTCTTTCC CATGGATGAG GGGCCCAGCA CCATGGCCAG GGCCACAGCC ACCTCGTGCC 
    ACACAGCAGC CAAACCAGGC CCCCCCACCA TCACATATCC CCTTCCACCA AGGTGTCCAG 
    CCAGCACCGA TGCAAAGGAG CTGGTCCCAG GCCTTTCCCA GACCCACCGT GGTCCTGCCG 
    GCCTCCCACA GGCGGCCTGT GAGCGCCAAC AAGGAGATGT TCTCGTTCGT GGTGGACGAC 
    GCCCGCAAGC CACCCGTCAT CAAGCAAGTG TGGACCAATG CCATGAAACT GTCAGAAAAA 
    TCAGTGGCCG AGGGGATTCC TGGGGCAGTT CCCCCTGCGG AGATTTATGT GGAGGAGGAC 
    TTGGCCCAGC AGGACAAGGA TGAAATAATT CTGCTGCTGG GAAAAGAGGT CAGCCGTCTC 
    TCAGATTATG AAATTGAATC CAAATACAAA GACGTCATAA TAGCAAACCT GCAGAATGAA 
    GTGGCTGAGC TGAGTCAGAA GGTGTCAGAG ACCACCACCT CCAGGCAGAA TGAGAAGGAG 
    ATCTCGCAGA AGTGTCAGGT TCTGGATGAA GACATCGATG CCAAACAGAA AGAGATCCAG 
    AGCTTGAAAA GCCAGATCAG TGCCCTACAG AAAGGCTACA GCAAGGTGCT GTGCCAGACC 
    CTGTCAGAGC GGAACTCAGA AATCACATCC CTGAAGAATG AGGGCGAGAA CTTAAAGAGA 
    GACAACGCTA TCACATCAGG GATGGTGTCA TCTTTGCAAA AAGACATATT AGCAAAGGAT 
    GAGCAAGTTC AACAACTAAA GGAAGAGGTC AGTCACCTAA AAAGTCAGAA CAAGGACAAG 
    GACCACCAGC TGGAAGCCCT TGGCTCTAGA TGCTCGGTGC TAAAGGAAGA GTTAAAACAG 
    GAAGATGCTC ACAGGGAGCT CAGGGAAGCC CAGGAGAAAG AGTTAAAACT CTGCAAAACC 
    CAAATCCAAG ACATGGAGAA AGAAATGAAG AAGCTTAGGG CAGAGCTGAG GAAGAGTTGT 
    ACTGAACAAA GCGTGATCTC TAGGACTCTG AGAGAAAAAA GCAAGGTTGA AGAGAAGCTT 
    CAGGAGGATT CCAGAAGGAA ATTGCTTCAG CTGCAAGAAA TGGGGAACAG AGAGAGCGTC 
    ATTAAAATCA ATTTGGAGAG GGCAGTAGGT CAGCTGGAGC ACTTCAGAAG TCAAGTCATC 
    AAGGCCACCT ATGGACGGGC GAAGCCGTTC CGGGACAAGC CCGTCACCGA CCAACAGTTA 
    ATAGAGAAAA TTACCCAGGT CACTGAGGAC AACATCAATT TTCAGCAGAA AAAGTGGACC 
    CTCCAGAAAG AGACCCAGCT GAGCAACTCC AAGCAGGAGG AGACCACCGA GAACATCGAG 
    AAGCTGAGGA CGTCGCTGGA CAGCTGCCAG GCTTGCATGA AAATATCCTG TTGCAGCCAT 
    GACCTGAAGA AGGAGGTCGA CCTTCTTCAG CACCTCCAGG TGAGCCCACC TGTCTCGGGG 
    CTCCAGAAGG TGGTGCTGGA CGTCCTGAGG CACGCGCTGT CCTGGCTGGA GGAGGTGGAG 
    CAGCTCCTCC GGGACCTCGG GATCCTGCCC TCCAGCCCCA ACAAAGGGTT CTCTTTGTAT 
    CTGATATATC TTCTGGAACA TTATAAAAAA CTTATGAGCC AGGCCCAGGA ACTTCAGATC 
    AAGTTCAACA GTTCTCAGGA AACTCAGCAG TCTTTACTGC AGGAAAAGCT GCGGGAGCAT 
    CTGGCAGAGA AGGAGAAGCT GAACGAGGAG AGGCTAGAGC AAGAGGAGAA GCTCAAAGCC 
    AAAATCAGGC AACTGACGGA AGAGAAGGCG GCTTTGGAGG AGTACATTAC TCAAGAGAGA 
    AACAGAGCGA AAGAGACTTT AGAGGAAGAA CGGAAGAGAA TGCAAGAACT GGAGAGCCTC 
    CTGGCCCAGC AGAAGAAGGC TTTGGCGAAA AGCATTACCC AGGAGAAGAA CAGAGTGAAG 
    GAAGCATTAG AGGAAGAGCA GACAAGAGTC CAAGAGCTGG AGGAACGCTT GGCCCGCCAG 
    AAGGAGGTTT TGGAGAGCAG CATAGCCCAT GAAAAAAGAA AAGCAAAGGA AGCCTTGGAG 
    TCGGAAAAGA GAAAAGTTCA GGATCTGGAG AACCATTTAA CCCAACAGAA GGAGATCTCA 
    GAGAGCAACA TTGCGTACGA GAAACGCAAA GCAAAGGAGG CCATGGAGAA GGAAAAGAAA 
    AAGGTGCAAG ACCTGGAGAA TCGCTTAACC AAGCAGAAAG AGGAATTAGA ATTAAAAGAG 
    CAAAAAGAGG ACGTTTTAAA TAATAAATTA AGTGACGCAC TGGCCATGGT TGAAGAGACT 
    CAGAAAACAA AGGCAACTGA AAGTCTAAAA GCAGAGAGCC TCGCCTTGAA ATTAAATGAA 
    ACATTAGCCG AACTGGAAAC TACCAAGACA AAAATGATCA TGGTGGAAGA GCGGCTAATC 
    CTGCAGCAGA AGATGGTAAA GGCCCTCCAG GATGAGCAGG AATCACAGAG ACACGGGTTT 
    GAAGAAGAGA TCATGGAATA TAAGGAGCAA ATCAAACAGC ACGCCCAGAC AATTGTGAGC 
    CTCGAAGAGA AACTCCAGAA AGTCACTCAG CACCATAAAA AAATAGAAGG CGAGATTGCA 
    ACATTGAAGG ACAATGACCC AGCCCCAAAG GAGGAAAGGC CGCAAGACCC TCTGGTGGCT 
    CCCATGACAG AGAGCAGTGC CAAAGACATG GCGTACGAAC ATCTGATAGA TGACTTATTG 
    GCTGCTCAGA AGGAAATTCT GTCTCAGCAG GAAGTCATCA TGAAGTTAAG GAAAGACCTT 
    ACCGAAGCCC ACAGCAGAAT GTCGGATTTG AGAGGGGAGC TAAACGAGAA GCAGAAGATG 
    GAACTGGAGC AGAACGTGGT GCTGGTCCAG CAGCAGAGCA AGGAGCTGAG TGTGCTCAAG 
    GAGAAGATGG CCCAGATGAG CAGCCTGGTA GAAAAGAAAG ATCGGGAGCT GAAGGCCCTT 
    GAGGAGGCAC TCAGGGCTTC CCAAGAGAAA CACAGACTCC AGCTGAACAC AGAGAAGGAA 
    CAGAAGCCCC GGAAGAAGAC CCAGACGTGT GACACCTCTG TGCAGATAGA ACCCGTCCAC 
    ACTGAGGCCT TCTCCAGCAG CCAAGAGCAG CAATCCTTCA GCGATCTAGG GGTCAGGTGC 
    AAAGGGTCCC GGCACGAGGA GGTCATTCAG CGTCAGAAAA AGGCCTTATC TGAACTTCGA 
    GCGCGAATTA AAGAACTCGA GAAGGCGCGC TCACCAGATC ATAAAGACCA CCAGAATGAA 
    TCATTTCTAG ATTTAAAGAA CCTCAGAATG GAAAACAATG TCCAGAAAAT ACTACTGGAT 
    GCAAAACCGG ATTTGCCAAC TCTCTCAAGA ATAGAGATCC TAGCGCCTCA GAATGGCCTT 
    TGCAACGCAA GGTTCGGCTC AGCCATGGAG AAGTCAGGGA AGATGGATGT GGCTGAGGCT 
    TTAGAGCTCA GTGAAAAGCT GTACCTGGAT ATGAGCAAAA CCCTCGGAAG TCTCATGAAC 
    ATCAAGAATA TGTCAGGCCA CGTGTCCATG AAATACCTCT CCCGCCAGGA GAGGGAGAAG 
    GTCAACCAGC TTCGACAAAG GGACCTCGAC CTGGTGTTTG ATAAGATCAC CCAACTCAAG 
    AACCAGCTGG GGAGGAAAGA GGAGCTGTTG AGAGGATATG AAAAGGACGT TGAACAGCTC 
    AGGCGGAGCA AAGTGTCCAT TGAGATGTAC CAGTCGCAGG TGGCAAAGCT GGAGGATGAT 
    ATCTACAAAG AGGCCGAAGA GAAGGCCCTG CTGAAGGAGG CCCTGGAGCG CATGGAGCAC 
    CAGCTGTGCC AGGAGAAGAG GATCAACAGG GCCATCCGGC AGCAGAAGAT GAGGAAACTG 
    CGCCTCAGAG AGTTAAGAGG CGCCCAAGTG CACACAGCGG CTGGTAAGGA CAGCTGGGAC 
    CTGACCCCAG ATCCCTCTGA CCCTGGTTCT CCTGCTGTCT GCAGGGTTGG CCGAAAGTGT 
    AGAGGAGCAC GAACTGAGAA ACGCAAAAGA ATCGACACCT TGCAACTGTG CCTTCAAAGA 
    GAAAGACAGG CAGAGACGAG TATTTGTAGA GATGGTGAAG AACAGGATGC AGAACTCAAA 
    TTCCCAGGTT GGAACCAGAA AAGCCTCCCT AAAGATGGAC CAAGAAAGAG AGATGCTGAG 
    GAAAGAGACC TCCAGCAAGT CCAGCCAGAG CCTTTTGCAT TCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011538879.1
    CDS177..4721
    Translation

    Target ORF information:

    RefSeq Version XM_011540577.2
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540577.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGAAGGCCT ATCTAAAGAG CGCAGAAGGC TTTTTTGTCC TAAATAAAAG TACCACAATT 
    GGAAGGCATG AAAATTCAGA CCTTGTTTTA CAGTCTCCTG ACATCGACAA CCACCATGCA 
    CTCATTGAAT ATAACGAGGC GGAGTGCAGC TTTGTTCTCC AGGACTTCAA TTCCCGCAAC 
    GGCACGTTTG TCAACGAGTG CCACATTCAA AACGTGGCTG TGAAGCTCAT CCCTGGAGAC 
    ATCCTGAGAT TTGGGTCTGC AGGGCTGACC TATGAACTGG TCATTGAAAA TCCACCTCCG 
    GTCTCTTTCC CATGGATGAG GGGCCCAGCA CCATGGCCAG GGCCACAGCC ACCTCGTGCC 
    ACACAGCAGC CAAACCAGGC CCCCCCACCA TCACATATCC CCTTCCACCA AGGTGTCCAG 
    CCAGCACCGA TGCAAAGGAG CTGGTCCCAG GCCTTTCCCA GACCCACCGT GGTCCTGCCG 
    GCCTCCCACA GGCGGCCTGT GAGCGCCAAC AAGGAGATGT TCTCGTTCGT GGTGGACGAC 
    GCCCGCAAGC CACCCGTCAT CAAGCAAGTG TGGACCAATG CCATGAAACT GTCAGAAAAA 
    TCAGTGGCCG AGGGGATTCC TGGGGCAGTT CCCCCTGCGG AGATTTATGT GGAGGAGGAC 
    TTGGCCCAGC AGGACAAGGA TGAAATAATT CTGCTGCTGG GAAAAGAGGT CAGCCGTCTC 
    TCAGATTATG AAATTGAATC CAAATACAAA GACGTCATAA TAGCAAACCT GCAGAATGAA 
    GTGGCTGAGC TGAGTCAGAA GGTGTCAGAG ACCACCACCT CCAGGCAGAA TGAGAAGGAG 
    ATCTCGCAGA AGTGTCAGGT TCTGGATGAA GACATCGATG CCAAACAGAA AGAGATCCAG 
    AGCTTGAAAA GCCAGATCAG TGCCCTACAG AAAGGCTACA GCAAGGTGCT GTGCCAGACC 
    CTGTCAGAGC GGAACTCAGA AATCACATCC CTGAAGAATG AGGGCGAGAA CTTAAAGAGA 
    GACAACGCTA TCACATCAGG GATGGTGTCA TCTTTGCAAA AAGACATATT AGCAAAGGAT 
    GAGCAAGTTC AACAACTAAA GGAAGAGGTC AGTCACCTAA AAAGTCAGAA CAAGGACAAG 
    GACCACCAGC TGGAAGCCCT TGGCTCTAGA TGCTCGGTGC TAAAGGAAGA GTTAAAACAG 
    GAAGATGCTC ACAGGGAGCT CAGGGAAGCC CAGGAGAAAG AGTTAAAACT CTGCAAAACC 
    CAAATCCAAG ACATGGAGAA AGAAATGAAG AAGCTTAGGG CAGAGCTGAG GAAGAGTTGT 
    ACTGAACAAA GCGTGATCTC TAGGACTCTG AGAGAAAAAA GCAAGGTTGA AGAGAAGCTT 
    CAGGAGGATT CCAGAAGGAA ATTGCTTCAG CTGCAAGAAA TGGGGAACAG AGAGAGCGTC 
    ATTAAAATCA ATTTGGAGAG GGCAGTAGGT CAGCTGGAGC ACTTCAGAAG TCAAGTCATC 
    AAGGCCACCT ATGGACGGGC GAAGCCGTTC CGGGACAAGC CCGTCACCGA CCAACAGTTA 
    ATAGAGAAAA TTACCCAGGT CACTGAGGAC AACATCAATT TTCAGCAGAA AAAGTGGACC 
    CTCCAGAAAG AGACCCAGCT GAGCAACTCC AAGCAGGAGG AGACCACCGA GAACATCGAG 
    AAGCTGAGGA CGTCGCTGGA CAGCTGCCAG GCTTGCATGA AAATATCCTG TTGCAGCCAT 
    GACCTGAAGA AGGAGGTCGA CCTTCTTCAG CACCTCCAGG TGAGCCCACC TGTCTCGGGG 
    CTCCAGAAGG TGGTGCTGGA CGTCCTGAGG CACGCGCTGT CCTGGCTGGA GGAGGTGGAG 
    CAGCTCCTCC GGGACCTCGG GATCCTGCCC TCCAGCCCCA ACAAAGGGTT CTCTTTGTAT 
    CTGATATATC TTCTGGAACA TTATAAAAAA CTTATGAGCC AGGCCCAGGA ACTTCAGATC 
    AAGTTCAACA GTTCTCAGGA AACTCAGCAG TCTTTACTGC AGGAAAAGCT GCGGGAGCAT 
    CTGGCAGAGA AGGAGAAGCT GAACGAGGAG AGGCTAGAGC AAGAGGAGAA GCTCAAAGCC 
    AAAATCAGGC AACTGACGGA AGAGAAGGCG GCTTTGGAGG AGTACATTAC TCAAGAGAGA 
    AACAGAGCGA AAGAGACTTT AGAGGAAGAA CGGAAGAGAA TGCAAGAACT GGAGAGCCTC 
    CTGGCCCAGC AGAAGAAGGC TTTGGCGAAA AGCATTACCC AGGAGAAGAA CAGAGTGAAG 
    GAAGCATTAG AGGAAGAGCA GACAAGAGTC CAAGAGCTGG AGGAACGCTT GGCCCGCCAG 
    AAGGAGGTTT TGGAGAGCAG CATAGCCCAT GAAAAAAGAA AAGCAAAGGA AGCCTTGGAG 
    TCGGAAAAGA GAAAAGTTCA GGATCTGGAG AACCATTTAA CCCAACAGAA GGAGATCTCA 
    GAGAGCAACA TTGCGTACGA GAAACGCAAA GCAAAGGAGG CCATGGAGAA GGAAAAGAAA 
    AAGGTGCAAG ACCTGGAGAA TCGCTTAACC AAGCAGAAAG AGGAATTAGA ATTAAAAGAG 
    CAAAAAGAGG ACGTTTTAAA TAATAAATTA AGTGACGCAC TGGCCATGGT TGAAGAGACT 
    CAGAAAACAA AGGCAACTGA AAGTCTAAAA GCAGAGAGCC TCGCCTTGAA ATTAAATGAA 
    ACATTAGCCG AACTGGAAAC TACCAAGACA AAAATGATCA TGGTGGAAGA GCGGCTAATC 
    CTGCAGCAGA AGATGGTAAA GGCCCTCCAG GATGAGCAGG AATCACAGAG ACACGGGTTT 
    GAAGAAGAGA TCATGGAATA TAAGGAGCAA ATCAAACAGC ACGCCCAGAC AATTGTGAGC 
    CTCGAAGAGA AACTCCAGAA AGTCACTCAG CACCATAAAA AAATAGAAGG CGAGATTGCA 
    ACATTGAAGG ACAATGACCC AGCCCCAAAG GAGGAAAGGC CGCAAGACCC TCTGGTGGCT 
    CCCATGACAG AGAGCAGTGC CAAAGACATG GCGTACGAAC ATCTGATAGA TGACTTATTG 
    GCTGCTCAGA AGGAAATTCT GTCTCAGCAG GAAGTCATCA TGAAGTTAAG GAAAGACCTT 
    ACCGAAGCCC ACAGCAGAAT GTCGGATTTG AGAGGGGAGC TAAACGAGAA GCAGAAGATG 
    GAACTGGAGC AGAACGTGGT GCTGGTCCAG CAGCAGAGCA AGGAGCTGAG TGTGCTCAAG 
    GAGAAGATGG CCCAGATGAG CAGCCTGGTA GAAAAGAAAG ATCGGGAGCT GAAGGCCCTT 
    GAGGAGGCAC TCAGGGCTTC CCAAGAGAAA CACAGACTCC AGCTGAACAC AGAGAAGGAA 
    CAGAAGCCCC GGAAGAAGAC CCAGACGTGT GACACCTCTG TGCAGATAGA ACCCGTCCAC 
    ACTGAGGCCT TCTCCAGCAG CCAAGAGCAG CAATCCTTCA GCGATCTAGG GGTCAGGTGC 
    AAAGGGTCCC GGCACGAGGA GGTCATTCAG CGTCAGAAAA AGGCCTTATC TGAACTTCGA 
    GCGCGAATTA AAGAACTCGA GAAGGCGCGC TCACCAGATC ATAAAGACCA CCAGAATGAA 
    TCATTTCTAG ATTTAAAGAA CCTCAGAATG GAAAACAATG TCCAGAAAAT ACTACTGGAT 
    GCAAAACCGG ATTTGCCAAC TCTCTCAAGA ATAGAGATCC TAGCGCCTCA GAATGGCCTT 
    TGCAACGCAA GGTTCGGCTC AGCCATGGAG AAGTCAGGGA AGATGGATGT GGCTGAGGCT 
    TTAGAGCTCA GTGAAAAGCT GTACCTGGAT ATGAGCAAAA CCCTCGGAAG TCTCATGAAC 
    ATCAAGAATA TGTCAGGCCA CGTGTCCATG AAATACCTCT CCCGCCAGGA GAGGGAGAAG 
    GTCAACCAGC TTCGACAAAG GGACCTCGAC CTGGTGTTTG ATAAGATCAC CCAACTCAAG 
    AACCAGCTGG GGAGGAAAGA GGAGCTGTTG AGAGGATATG AAAAGGACGT TGAACAGCTC 
    AGGCGGAGCA AAGTGTCCAT TGAGATGTAC CAGTCGCAGG TGGCAAAGCT GGAGGATGAT 
    ATCTACAAAG AGGCCGAAGA GAAGGCCCTG CTGAAGGAGG CCCTGGAGCG CATGGAGCAC 
    CAGCTGTGCC AGGAGAAGAG GATCAACAGG GCCATCCGGC AGCAGAAGAT GAGGAAACTG 
    CGCCTCAGAG AGTTAAGAGG CGCCCAAGTG CACACAGCGG CTGGTAAGGA CAGCTGGGAC 
    CTGACCCCAG ATCCCTCTGA CCCTGGTTCT CCTGCTGTCT GCAGGGTTGG CCGAAAGTGT 
    AGAGGAGCAC GAACTGAGAA ACGCAAAAGA ATCGACACCT TGCAACTGTG CCTTCAAAGA 
    GAAAGACAGG CAGAGACGAG TATTTGTAGA GATGGTGAAG AACAGGATGC AGAACTCAAA 
    TTCCCAGGTT GGAACCAGAA AAGCCTCCCT AAAGATGGAC CAAGAAAGAG AGATGCTGAG 
    GAAAGAGACC TCCAGCAAGT CCAGCCAGAG CCTTTTGCAT TCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_017000200.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855689.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OHu74832
    Clone ID Related Accession (Same CDS sequence) XM_017000200.1
    Accession Version XM_017000200.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4542bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGAGGAAACT GCGCCTCAGA 
    GAGTTAAGAG GCGCCCAAGT GCACACAGCG GCTGGTAAGG ACAGCTGGGA CCTGACCCCA 
    GATCCCTCTG ACCCTGGTTC TCCTGCTGTC TGCAGGGTTG GCCGAAAGTG TAGAGGAGCA 
    CGAACTGAGA AACGCAAAAG AATCGACACC TTGCAACTGT GCCTTCAAAG AGAAAGACAG 
    GCAGGTTGGA ACCAGAAAAG CCTCCCTAAA GATGGACCAA GAAAGAGAGA TGCTGAGGAA 
    AGAGACCTCC AGCAAGTCCA GCCAGAGCCT TTTGCATTCT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016855689.1
    CDS164..4705
    Translation

    Target ORF information:

    RefSeq Version XM_017000200.1
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000200.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGAGGAAACT GCGCCTCAGA 
    GAGTTAAGAG GCGCCCAAGT GCACACAGCG GCTGGTAAGG ACAGCTGGGA CCTGACCCCA 
    GATCCCTCTG ACCCTGGTTC TCCTGCTGTC TGCAGGGTTG GCCGAAAGTG TAGAGGAGCA 
    CGAACTGAGA AACGCAAAAG AATCGACACC TTGCAACTGT GCCTTCAAAG AGAAAGACAG 
    GCAGGTTGGA ACCAGAAAAG CCTCCCTAAA GATGGACCAA GAAAGAGAGA TGCTGAGGAA 
    AGAGACCTCC AGCAAGTCCA GCCAGAGCCT TTTGCATTCT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_017000201.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855690.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OHu74833
    Clone ID Related Accession (Same CDS sequence) XM_017000201.1
    Accession Version XM_017000201.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4527bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGAGGAAACT GCGCCTCAGA 
    GAGTTAAGAG GCGCCCAAGT GCACACAGCG GCTGGAAAGT GTAGAGGAGC ACGAACTGAG 
    AAACGCAAAA GAATCGACAC CTTGCAACTG TGCCTTCAAA GAGAAAGACA GGCAGAGACG 
    AGTATTTGTA GAGATGGTGA AGAACAGGAT GCAGAACTCA AATTCCCAGG TTGGAACCAG 
    AAAAGCCTCC CTAAAGATGG ACCAAGAAAG AGAGATGCTG AGGAAAGAGA CCTCCAGCAA 
    GTCCAGCCAG AGCCTTTTGC ATTCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016855690.1
    CDS164..4690
    Translation

    Target ORF information:

    RefSeq Version XM_017000201.1
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000201.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGAGGAAACT GCGCCTCAGA 
    GAGTTAAGAG GCGCCCAAGT GCACACAGCG GCTGGAAAGT GTAGAGGAGC ACGAACTGAG 
    AAACGCAAAA GAATCGACAC CTTGCAACTG TGCCTTCAAA GAGAAAGACA GGCAGAGACG 
    AGTATTTGTA GAGATGGTGA AGAACAGGAT GCAGAACTCA AATTCCCAGG TTGGAACCAG 
    AAAAGCCTCC CTAAAGATGG ACCAAGAAAG AGAGATGCTG AGGAAAGAGA CCTCCAGCAA 
    GTCCAGCCAG AGCCTTTTGC ATTCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_011540582.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538884.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X10, mRNA.
    Price & Availability↑
    CloneID OHu74834
    Clone ID Related Accession (Same CDS sequence) XM_011540582.2 , XM_011540580.2 , XM_011540580.3 , XM_011540581.2 , XM_011540581.3 , XM_011540582.3
    Accession Version XM_011540582.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4491bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011540582.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG AAAGTGTAGA GGAGCACGAA 
    CTGAGAAACG CAAAAGAATC GACACCTTGC AACTGTGCCT TCAAAGAGAA AGACAGGCAG 
    AGACGAGTAT TTGTAGAGAT GGTGAAGAAC AGGATGCAGA ACTCAAATTC CCAGGTTGGA 
    ACCAGAAAAG CCTCCCTAAA GATGGACCAA GAAAGAGAGA TGCTGAGGAA AGAGACCTCC 
    AGCAAGTCCA GCCAGAGCCT TTTGCATTCT AAGCCCAGTG GAAAGTACTA G

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011538884.1
    CDS163..4653
    Translation

    Target ORF information:

    RefSeq Version XM_011540582.2
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540582.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG AAAGTGTAGA GGAGCACGAA 
    CTGAGAAACG CAAAAGAATC GACACCTTGC AACTGTGCCT TCAAAGAGAA AGACAGGCAG 
    AGACGAGTAT TTGTAGAGAT GGTGAAGAAC AGGATGCAGA ACTCAAATTC CCAGGTTGGA 
    ACCAGAAAAG CCTCCCTAAA GATGGACCAA GAAAGAGAGA TGCTGAGGAA AGAGACCTCC 
    AGCAAGTCCA GCCAGAGCCT TTTGCATTCT AAGCCCAGTG GAAAGTACTA G

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_011540580.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538882.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OHu74834
    Clone ID Related Accession (Same CDS sequence) XM_011540582.2 , XM_011540580.2 , XM_011540580.3 , XM_011540581.2 , XM_011540581.3 , XM_011540582.3
    Accession Version XM_011540580.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4491bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011540580.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG AAAGTGTAGA GGAGCACGAA 
    CTGAGAAACG CAAAAGAATC GACACCTTGC AACTGTGCCT TCAAAGAGAA AGACAGGCAG 
    AGACGAGTAT TTGTAGAGAT GGTGAAGAAC AGGATGCAGA ACTCAAATTC CCAGGTTGGA 
    ACCAGAAAAG CCTCCCTAAA GATGGACCAA GAAAGAGAGA TGCTGAGGAA AGAGACCTCC 
    AGCAAGTCCA GCCAGAGCCT TTTGCATTCT AAGCCCAGTG GAAAGTACTA G

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011538882.1
    CDS163..4653
    Translation

    Target ORF information:

    RefSeq Version XM_011540580.2
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540580.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG AAAGTGTAGA GGAGCACGAA 
    CTGAGAAACG CAAAAGAATC GACACCTTGC AACTGTGCCT TCAAAGAGAA AGACAGGCAG 
    AGACGAGTAT TTGTAGAGAT GGTGAAGAAC AGGATGCAGA ACTCAAATTC CCAGGTTGGA 
    ACCAGAAAAG CCTCCCTAAA GATGGACCAA GAAAGAGAGA TGCTGAGGAA AGAGACCTCC 
    AGCAAGTCCA GCCAGAGCCT TTTGCATTCT AAGCCCAGTG GAAAGTACTA G

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_011540580.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538882.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OHu74834
    Clone ID Related Accession (Same CDS sequence) XM_011540582.2 , XM_011540580.2 , XM_011540580.3 , XM_011540581.2 , XM_011540581.3 , XM_011540582.3
    Accession Version XM_011540580.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4491bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011540580.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG AAAGTGTAGA GGAGCACGAA 
    CTGAGAAACG CAAAAGAATC GACACCTTGC AACTGTGCCT TCAAAGAGAA AGACAGGCAG 
    AGACGAGTAT TTGTAGAGAT GGTGAAGAAC AGGATGCAGA ACTCAAATTC CCAGGTTGGA 
    ACCAGAAAAG CCTCCCTAAA GATGGACCAA GAAAGAGAGA TGCTGAGGAA AGAGACCTCC 
    AGCAAGTCCA GCCAGAGCCT TTTGCATTCT AAGCCCAGTG GAAAGTACTA G

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011538882.1
    CDS161..4651
    Translation

    Target ORF information:

    RefSeq Version XM_011540580.3
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540580.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG AAAGTGTAGA GGAGCACGAA 
    CTGAGAAACG CAAAAGAATC GACACCTTGC AACTGTGCCT TCAAAGAGAA AGACAGGCAG 
    AGACGAGTAT TTGTAGAGAT GGTGAAGAAC AGGATGCAGA ACTCAAATTC CCAGGTTGGA 
    ACCAGAAAAG CCTCCCTAAA GATGGACCAA GAAAGAGAGA TGCTGAGGAA AGAGACCTCC 
    AGCAAGTCCA GCCAGAGCCT TTTGCATTCT AAGCCCAGTG GAAAGTACTA G

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_011540581.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538883.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OHu74834
    Clone ID Related Accession (Same CDS sequence) XM_011540582.2 , XM_011540580.2 , XM_011540580.3 , XM_011540581.2 , XM_011540581.3 , XM_011540582.3
    Accession Version XM_011540581.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4491bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011540581.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG AAAGTGTAGA GGAGCACGAA 
    CTGAGAAACG CAAAAGAATC GACACCTTGC AACTGTGCCT TCAAAGAGAA AGACAGGCAG 
    AGACGAGTAT TTGTAGAGAT GGTGAAGAAC AGGATGCAGA ACTCAAATTC CCAGGTTGGA 
    ACCAGAAAAG CCTCCCTAAA GATGGACCAA GAAAGAGAGA TGCTGAGGAA AGAGACCTCC 
    AGCAAGTCCA GCCAGAGCCT TTTGCATTCT AAGCCCAGTG GAAAGTACTA G

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011538883.1
    CDS163..4653
    Translation

    Target ORF information:

    RefSeq Version XM_011540581.2
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540581.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG AAAGTGTAGA GGAGCACGAA 
    CTGAGAAACG CAAAAGAATC GACACCTTGC AACTGTGCCT TCAAAGAGAA AGACAGGCAG 
    AGACGAGTAT TTGTAGAGAT GGTGAAGAAC AGGATGCAGA ACTCAAATTC CCAGGTTGGA 
    ACCAGAAAAG CCTCCCTAAA GATGGACCAA GAAAGAGAGA TGCTGAGGAA AGAGACCTCC 
    AGCAAGTCCA GCCAGAGCCT TTTGCATTCT AAGCCCAGTG GAAAGTACTA G

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_011540581.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538883.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OHu74834
    Clone ID Related Accession (Same CDS sequence) XM_011540582.2 , XM_011540580.2 , XM_011540580.3 , XM_011540581.2 , XM_011540581.3 , XM_011540582.3
    Accession Version XM_011540581.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4491bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011540581.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG AAAGTGTAGA GGAGCACGAA 
    CTGAGAAACG CAAAAGAATC GACACCTTGC AACTGTGCCT TCAAAGAGAA AGACAGGCAG 
    AGACGAGTAT TTGTAGAGAT GGTGAAGAAC AGGATGCAGA ACTCAAATTC CCAGGTTGGA 
    ACCAGAAAAG CCTCCCTAAA GATGGACCAA GAAAGAGAGA TGCTGAGGAA AGAGACCTCC 
    AGCAAGTCCA GCCAGAGCCT TTTGCATTCT AAGCCCAGTG GAAAGTACTA G

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011538883.1
    CDS162..4652
    Translation

    Target ORF information:

    RefSeq Version XM_011540581.3
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540581.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG AAAGTGTAGA GGAGCACGAA 
    CTGAGAAACG CAAAAGAATC GACACCTTGC AACTGTGCCT TCAAAGAGAA AGACAGGCAG 
    AGACGAGTAT TTGTAGAGAT GGTGAAGAAC AGGATGCAGA ACTCAAATTC CCAGGTTGGA 
    ACCAGAAAAG CCTCCCTAAA GATGGACCAA GAAAGAGAGA TGCTGAGGAA AGAGACCTCC 
    AGCAAGTCCA GCCAGAGCCT TTTGCATTCT AAGCCCAGTG GAAAGTACTA G

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_011540582.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538884.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X10, mRNA.
    Price & Availability↑
    CloneID OHu74834
    Clone ID Related Accession (Same CDS sequence) XM_011540582.2 , XM_011540580.2 , XM_011540580.3 , XM_011540581.2 , XM_011540581.3 , XM_011540582.3
    Accession Version XM_011540582.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4491bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011540582.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG AAAGTGTAGA GGAGCACGAA 
    CTGAGAAACG CAAAAGAATC GACACCTTGC AACTGTGCCT TCAAAGAGAA AGACAGGCAG 
    AGACGAGTAT TTGTAGAGAT GGTGAAGAAC AGGATGCAGA ACTCAAATTC CCAGGTTGGA 
    ACCAGAAAAG CCTCCCTAAA GATGGACCAA GAAAGAGAGA TGCTGAGGAA AGAGACCTCC 
    AGCAAGTCCA GCCAGAGCCT TTTGCATTCT AAGCCCAGTG GAAAGTACTA G

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011538884.1
    CDS162..4652
    Translation

    Target ORF information:

    RefSeq Version XM_011540582.3
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540582.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG AAAGTGTAGA GGAGCACGAA 
    CTGAGAAACG CAAAAGAATC GACACCTTGC AACTGTGCCT TCAAAGAGAA AGACAGGCAG 
    AGACGAGTAT TTGTAGAGAT GGTGAAGAAC AGGATGCAGA ACTCAAATTC CCAGGTTGGA 
    ACCAGAAAAG CCTCCCTAAA GATGGACCAA GAAAGAGAGA TGCTGAGGAA AGAGACCTCC 
    AGCAAGTCCA GCCAGAGCCT TTTGCATTCT AAGCCCAGTG GAAAGTACTA G

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_017000202.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855691.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X11, mRNA.
    Price & Availability↑
    CloneID OHu74835
    Clone ID Related Accession (Same CDS sequence) XM_017000202.1
    Accession Version XM_017000202.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4488bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGCTGG AGCACTTCAG AAGTCAAGTC 
    ATCAAGGCCA CCTATGGACG GGCGAAGCCG TTCCGGGACA AGCCCGTCAC CGACCAACAG 
    TTAATAGAGA AAATTACCCA GGTCACTGAG GACAACATCA ATTTTCAGCA GAAAAAGTGG 
    ACCCTCCAGA AAGAGACCCA GCTGAGCAAC TCCAAGCAGG AGGAGACCAC CGAGAACATC 
    GAGAAGCTGA GGACGTCGCT GGACAGCTGC CAGGCTTGCA TGAAAATATC CTGTTGCAGC 
    CATGACCTGA AGAAGGAGGT CGACCTTCTT CAGCACCTCC AGGTGAGCCC ACCTGTCTCG 
    GGGCTCCAGA AGGTGGTGCT GGACGTCCTG AGGCACGCGC TGTCCTGGCT GGAGGAGGTG 
    GAGCAGCTCC TCCGGGACCT CGGGATCCTG CCCTCCAGCC CCAACAAAGG GTTCTCTTTG 
    TATCTGATAT ATCTTCTGGA ACATTATAAA AAACTTATGA GCCAGGCCCA GGAACTTCAG 
    ATCAAGTTCA ACAGTTCTCA GGAAACTCAG CAGTCTTTAC TGCAGGAAAA GCTGCGGGAG 
    CATCTGGCAG AGAAGGAGAA GCTGAACGAG GAGAGGCTAG AGCAAGAGGA GAAGCTCAAA 
    GCCAAAATCA GGCAACTGAC GGAAGAGAAG GCGGCTTTGG AGGAGTACAT TACTCAAGAG 
    AGAAACAGAG CGAAAGAGAC TTTAGAGGAA GAACGGAAGA GAATGCAAGA ACTGGAGAGC 
    CTCCTGGCCC AGCAGAAGAA GGCTTTGGCG AAAAGCATTA CCCAGGAGAA GAACAGAGTG 
    AAGGAAGCAT TAGAGGAAGA GCAGACAAGA GTCCAAGAGC TGGAGGAACG CTTGGCCCGC 
    CAGAAGGAGG TTTTGGAGAG CAGCATAGCC CATGAAAAAA GAAAAGCAAA GGAAGCCTTG 
    GAGTCGGAAA AGAGAAAAGT TCAGGATCTG GAGAACCATT TAACCCAACA GAAGGAGATC 
    TCAGAGAGCA ACATTGCGTA CGAGAAACGC AAAGCAAAGG AGGCCATGGA GAAGGAAAAG 
    AAAAAGGTGC AAGACCTGGA GAATCGCTTA ACCAAGCAGA AAGAGGAATT AGAATTAAAA 
    GAGCAAAAAG AGGACGTTTT AAATAATAAA TTAAGTGACG CACTGGCCAT GGTTGAAGAG 
    ACTCAGAAAA CAAAGGCAAC TGAAAGTCTA AAAGCAGAGA GCCTCGCCTT GAAATTAAAT 
    GAAACATTAG CCGAACTGGA AACTACCAAG ACAAAAATGA TCATGGTGGA AGAGCGGCTA 
    ATCCTGCAGC AGAAGATGGT AAAGGCCCTC CAGGATGAGC AGGAATCACA GAGACACGGG 
    TTTGAAGAAG AGATCATGGA ATATAAGGAG CAAATCAAAC AGCACGCCCA GACAATTGTG 
    AGCCTCGAAG AGAAACTCCA GAAAGTCACT CAGCACCATA AAAAAATAGA AGGCGAGATT 
    GCAACATTGA AGGACAATGA CCCAGCCCCA AAGGAGGAAA GGCCGCAAGA CCCTCTGGTG 
    GCTCCCATGA CAGAGAGCAG TGCCAAAGAC ATGGCGTACG AACATCTGAT AGATGACTTA 
    TTGGCTGCTC AGAAGGAAAT TCTGTCTCAG CAGGAAGTCA TCATGAAGTT AAGGAAAGAC 
    CTTACCGAAG CCCACAGCAG AATGTCGGAT TTGAGAGGGG AGCTAAACGA GAAGCAGAAG 
    ATGGAACTGG AGCAGAACGT GGTGCTGGTC CAGCAGCAGA GCAAGGAGCT GAGTGTGCTC 
    AAGGAGAAGA TGGCCCAGAT GAGCAGCCTG GTAGAAAAGA AAGATCGGGA GCTGAAGGCC 
    CTTGAGGAGG CACTCAGGGC TTCCCAAGAG AAACACAGAC TCCAGCTGAA CACAGAGAAG 
    GAACAGAAGC CCCGGAAGAA GACCCAGACG TGTGACACCT CTGTGCAGAT AGAACCCGTC 
    CACACTGAGG CCTTCTCCAG CAGCCAAGAG CAGCAATCCT TCAGCGATCT AGGGGTCAGG 
    TGCAAAGGGT CCCGGCACGA GGAGGTCATT CAGCGTCAGA AAAAGGCCTT ATCTGAACTT 
    CGAGCGCGAA TTAAAGAACT CGAGAAGGCG CGCTCACCAG ATCATAAAGA CCACCAGAAT 
    GAATCATTTC TAGATTTAAA GAACCTCAGA ATGGAAAACA ATGTCCAGAA AATACTACTG 
    GATGCAAAAC CGGATTTGCC AACTCTCTCA AGAATAGAGA TCCTAGCGCC TCAGAATGGC 
    CTTTGCAACG CAAGGTTCGG CTCAGCCATG GAGAAGTCAG GGAAGATGGA TGTGGCTGAG 
    GCTTTAGAGC TCAGTGAAAA GCTGTACCTG GATATGAGCA AAACCCTCGG AAGTCTCATG 
    AACATCAAGA ATATGTCAGG CCACGTGTCC ATGAAATACC TCTCCCGCCA GGAGAGGGAG 
    AAGGTCAACC AGCTTCGACA AAGGGACCTC GACCTGGTGT TTGATAAGAT CACCCAACTC 
    AAGAACCAGC TGGGGAGGAA AGAGGAGCTG TTGAGAGGAT ATGAAAAGGA CGTTGAACAG 
    CTCAGGCGGA GCAAAGTGTC CATTGAGATG TACCAGTCGC AGGTGGCAAA GCTGGAGGAT 
    GATATCTACA AAGAGGCCGA AGAGAAGGCC CTGCTGAAGG AGGCCCTGGA GCGCATGGAG 
    CACCAGCTGT GCCAGGAGAA GAGGATCAAC AGGGCCATCC GGCAGCAGAA GATGAGGAAA 
    CTGCGCCTCA GAGAGTTAAG AGGCGCCCAA GTGCACACAG CGGCTGGTAA GGACAGCTGG 
    GACCTGACCC CAGATCCCTC TGACCCTGGT TCTCCTGCTG TCTGCAGGGT TGGCCGAAAG 
    TGTAGAGGAG CACGAACTGA GAAACGCAAA AGAATCGACA CCTTGCAACT GTGCCTTCAA 
    AGAGAAAGAC AGGCAGAGAC GAGTATTTGT AGAGATGGTG AAGAACAGGA TGCAGAACTC 
    AAATTCCCAG GTTGGAACCA GAAAAGCCTC CCTAAAGATG GACCAAGAAA GAGAGATGCT 
    GAGGAAAGAG ACCTCCAGCA AGTCCAGCCA GAGCCTTTTG CATTCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016855691.1
    CDS165..4652
    Translation

    Target ORF information:

    RefSeq Version XM_017000202.1
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000202.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGCTGG AGCACTTCAG AAGTCAAGTC 
    ATCAAGGCCA CCTATGGACG GGCGAAGCCG TTCCGGGACA AGCCCGTCAC CGACCAACAG 
    TTAATAGAGA AAATTACCCA GGTCACTGAG GACAACATCA ATTTTCAGCA GAAAAAGTGG 
    ACCCTCCAGA AAGAGACCCA GCTGAGCAAC TCCAAGCAGG AGGAGACCAC CGAGAACATC 
    GAGAAGCTGA GGACGTCGCT GGACAGCTGC CAGGCTTGCA TGAAAATATC CTGTTGCAGC 
    CATGACCTGA AGAAGGAGGT CGACCTTCTT CAGCACCTCC AGGTGAGCCC ACCTGTCTCG 
    GGGCTCCAGA AGGTGGTGCT GGACGTCCTG AGGCACGCGC TGTCCTGGCT GGAGGAGGTG 
    GAGCAGCTCC TCCGGGACCT CGGGATCCTG CCCTCCAGCC CCAACAAAGG GTTCTCTTTG 
    TATCTGATAT ATCTTCTGGA ACATTATAAA AAACTTATGA GCCAGGCCCA GGAACTTCAG 
    ATCAAGTTCA ACAGTTCTCA GGAAACTCAG CAGTCTTTAC TGCAGGAAAA GCTGCGGGAG 
    CATCTGGCAG AGAAGGAGAA GCTGAACGAG GAGAGGCTAG AGCAAGAGGA GAAGCTCAAA 
    GCCAAAATCA GGCAACTGAC GGAAGAGAAG GCGGCTTTGG AGGAGTACAT TACTCAAGAG 
    AGAAACAGAG CGAAAGAGAC TTTAGAGGAA GAACGGAAGA GAATGCAAGA ACTGGAGAGC 
    CTCCTGGCCC AGCAGAAGAA GGCTTTGGCG AAAAGCATTA CCCAGGAGAA GAACAGAGTG 
    AAGGAAGCAT TAGAGGAAGA GCAGACAAGA GTCCAAGAGC TGGAGGAACG CTTGGCCCGC 
    CAGAAGGAGG TTTTGGAGAG CAGCATAGCC CATGAAAAAA GAAAAGCAAA GGAAGCCTTG 
    GAGTCGGAAA AGAGAAAAGT TCAGGATCTG GAGAACCATT TAACCCAACA GAAGGAGATC 
    TCAGAGAGCA ACATTGCGTA CGAGAAACGC AAAGCAAAGG AGGCCATGGA GAAGGAAAAG 
    AAAAAGGTGC AAGACCTGGA GAATCGCTTA ACCAAGCAGA AAGAGGAATT AGAATTAAAA 
    GAGCAAAAAG AGGACGTTTT AAATAATAAA TTAAGTGACG CACTGGCCAT GGTTGAAGAG 
    ACTCAGAAAA CAAAGGCAAC TGAAAGTCTA AAAGCAGAGA GCCTCGCCTT GAAATTAAAT 
    GAAACATTAG CCGAACTGGA AACTACCAAG ACAAAAATGA TCATGGTGGA AGAGCGGCTA 
    ATCCTGCAGC AGAAGATGGT AAAGGCCCTC CAGGATGAGC AGGAATCACA GAGACACGGG 
    TTTGAAGAAG AGATCATGGA ATATAAGGAG CAAATCAAAC AGCACGCCCA GACAATTGTG 
    AGCCTCGAAG AGAAACTCCA GAAAGTCACT CAGCACCATA AAAAAATAGA AGGCGAGATT 
    GCAACATTGA AGGACAATGA CCCAGCCCCA AAGGAGGAAA GGCCGCAAGA CCCTCTGGTG 
    GCTCCCATGA CAGAGAGCAG TGCCAAAGAC ATGGCGTACG AACATCTGAT AGATGACTTA 
    TTGGCTGCTC AGAAGGAAAT TCTGTCTCAG CAGGAAGTCA TCATGAAGTT AAGGAAAGAC 
    CTTACCGAAG CCCACAGCAG AATGTCGGAT TTGAGAGGGG AGCTAAACGA GAAGCAGAAG 
    ATGGAACTGG AGCAGAACGT GGTGCTGGTC CAGCAGCAGA GCAAGGAGCT GAGTGTGCTC 
    AAGGAGAAGA TGGCCCAGAT GAGCAGCCTG GTAGAAAAGA AAGATCGGGA GCTGAAGGCC 
    CTTGAGGAGG CACTCAGGGC TTCCCAAGAG AAACACAGAC TCCAGCTGAA CACAGAGAAG 
    GAACAGAAGC CCCGGAAGAA GACCCAGACG TGTGACACCT CTGTGCAGAT AGAACCCGTC 
    CACACTGAGG CCTTCTCCAG CAGCCAAGAG CAGCAATCCT TCAGCGATCT AGGGGTCAGG 
    TGCAAAGGGT CCCGGCACGA GGAGGTCATT CAGCGTCAGA AAAAGGCCTT ATCTGAACTT 
    CGAGCGCGAA TTAAAGAACT CGAGAAGGCG CGCTCACCAG ATCATAAAGA CCACCAGAAT 
    GAATCATTTC TAGATTTAAA GAACCTCAGA ATGGAAAACA ATGTCCAGAA AATACTACTG 
    GATGCAAAAC CGGATTTGCC AACTCTCTCA AGAATAGAGA TCCTAGCGCC TCAGAATGGC 
    CTTTGCAACG CAAGGTTCGG CTCAGCCATG GAGAAGTCAG GGAAGATGGA TGTGGCTGAG 
    GCTTTAGAGC TCAGTGAAAA GCTGTACCTG GATATGAGCA AAACCCTCGG AAGTCTCATG 
    AACATCAAGA ATATGTCAGG CCACGTGTCC ATGAAATACC TCTCCCGCCA GGAGAGGGAG 
    AAGGTCAACC AGCTTCGACA AAGGGACCTC GACCTGGTGT TTGATAAGAT CACCCAACTC 
    AAGAACCAGC TGGGGAGGAA AGAGGAGCTG TTGAGAGGAT ATGAAAAGGA CGTTGAACAG 
    CTCAGGCGGA GCAAAGTGTC CATTGAGATG TACCAGTCGC AGGTGGCAAA GCTGGAGGAT 
    GATATCTACA AAGAGGCCGA AGAGAAGGCC CTGCTGAAGG AGGCCCTGGA GCGCATGGAG 
    CACCAGCTGT GCCAGGAGAA GAGGATCAAC AGGGCCATCC GGCAGCAGAA GATGAGGAAA 
    CTGCGCCTCA GAGAGTTAAG AGGCGCCCAA GTGCACACAG CGGCTGGTAA GGACAGCTGG 
    GACCTGACCC CAGATCCCTC TGACCCTGGT TCTCCTGCTG TCTGCAGGGT TGGCCGAAAG 
    TGTAGAGGAG CACGAACTGA GAAACGCAAA AGAATCGACA CCTTGCAACT GTGCCTTCAA 
    AGAGAAAGAC AGGCAGAGAC GAGTATTTGT AGAGATGGTG AAGAACAGGA TGCAGAACTC 
    AAATTCCCAG GTTGGAACCA GAAAAGCCTC CCTAAAGATG GACCAAGAAA GAGAGATGCT 
    GAGGAAAGAG ACCTCCAGCA AGTCCAGCCA GAGCCTTTTG CATTCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_011540584.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538886.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X12, mRNA.
    Price & Availability↑
    CloneID OHu74836
    Clone ID Related Accession (Same CDS sequence) XM_011540584.2 , XM_011540584.3
    Accession Version XM_011540584.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4479bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011540584.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGAGGAAACT GCGCCTCAGA 
    GAGTTAAGAG GCGCCCAAGT GCACACAGCG GCTGGTAAGG ACAGCTGGGA CCTGACCCCA 
    GATCCCTCTG ACCCTGGTTC TCCTGCTGTC TGCAGGGTTG GCCGAAAGTG TAGAGGAGCA 
    CGAACTGAGA AACGCAAAAG AATCGACACC TTGCAACTGT GCCTTCAAAG AGAAAGACAG 
    GCAGGCCCTG CCCCACCTGC CTGCAGTTTG AACGGATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011538886.1
    CDS164..4642
    Translation

    Target ORF information:

    RefSeq Version XM_011540584.2
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540584.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGAGGAAACT GCGCCTCAGA 
    GAGTTAAGAG GCGCCCAAGT GCACACAGCG GCTGGTAAGG ACAGCTGGGA CCTGACCCCA 
    GATCCCTCTG ACCCTGGTTC TCCTGCTGTC TGCAGGGTTG GCCGAAAGTG TAGAGGAGCA 
    CGAACTGAGA AACGCAAAAG AATCGACACC TTGCAACTGT GCCTTCAAAG AGAAAGACAG 
    GCAGGCCCTG CCCCACCTGC CTGCAGTTTG AACGGATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_011540584.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538886.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X12, mRNA.
    Price & Availability↑
    CloneID OHu74836
    Clone ID Related Accession (Same CDS sequence) XM_011540584.2 , XM_011540584.3
    Accession Version XM_011540584.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4479bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011540584.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGAGGAAACT GCGCCTCAGA 
    GAGTTAAGAG GCGCCCAAGT GCACACAGCG GCTGGTAAGG ACAGCTGGGA CCTGACCCCA 
    GATCCCTCTG ACCCTGGTTC TCCTGCTGTC TGCAGGGTTG GCCGAAAGTG TAGAGGAGCA 
    CGAACTGAGA AACGCAAAAG AATCGACACC TTGCAACTGT GCCTTCAAAG AGAAAGACAG 
    GCAGGCCCTG CCCCACCTGC CTGCAGTTTG AACGGATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011538886.1
    CDS164..4642
    Translation

    Target ORF information:

    RefSeq Version XM_011540584.3
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540584.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGAGGAAACT GCGCCTCAGA 
    GAGTTAAGAG GCGCCCAAGT GCACACAGCG GCTGGTAAGG ACAGCTGGGA CCTGACCCCA 
    GATCCCTCTG ACCCTGGTTC TCCTGCTGTC TGCAGGGTTG GCCGAAAGTG TAGAGGAGCA 
    CGAACTGAGA AACGCAAAAG AATCGACACC TTGCAACTGT GCCTTCAAAG AGAAAGACAG 
    GCAGGCCCTG CCCCACCTGC CTGCAGTTTG AACGGATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_017000203.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855692.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X13, mRNA.
    Price & Availability↑
    CloneID OHu74837
    Clone ID Related Accession (Same CDS sequence) XM_017000203.1 , XM_017000203.2
    Accession Version XM_017000203.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4437bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG AAAGTGTAGA GGAGCACGAA 
    CTGAGAAACG CAAAAGAATC GACACCTTGC AACTGTGCCT TCAAAGAGAA AGACAGGCAG 
    GTTGGAACCA GAAAAGCCTC CCTAAAGATG GACCAAGAAA GAGAGATGCT GAGGAAAGAG 
    ACCTCCAGCA AGTCCAGCCA GAGCCTTTTG CATTCTAAGC CCAGTGGAAA GTACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016855692.1
    CDS161..4597
    Translation

    Target ORF information:

    RefSeq Version XM_017000203.1
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X13, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000203.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG AAAGTGTAGA GGAGCACGAA 
    CTGAGAAACG CAAAAGAATC GACACCTTGC AACTGTGCCT TCAAAGAGAA AGACAGGCAG 
    GTTGGAACCA GAAAAGCCTC CCTAAAGATG GACCAAGAAA GAGAGATGCT GAGGAAAGAG 
    ACCTCCAGCA AGTCCAGCCA GAGCCTTTTG CATTCTAAGC CCAGTGGAAA GTACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_017000203.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855692.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X13, mRNA.
    Price & Availability↑
    CloneID OHu74837
    Clone ID Related Accession (Same CDS sequence) XM_017000203.1 , XM_017000203.2
    Accession Version XM_017000203.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4437bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017000203.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG AAAGTGTAGA GGAGCACGAA 
    CTGAGAAACG CAAAAGAATC GACACCTTGC AACTGTGCCT TCAAAGAGAA AGACAGGCAG 
    GTTGGAACCA GAAAAGCCTC CCTAAAGATG GACCAAGAAA GAGAGATGCT GAGGAAAGAG 
    ACCTCCAGCA AGTCCAGCCA GAGCCTTTTG CATTCTAAGC CCAGTGGAAA GTACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016855692.1
    CDS160..4596
    Translation

    Target ORF information:

    RefSeq Version XM_017000203.2
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X13, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000203.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG AAAGTGTAGA GGAGCACGAA 
    CTGAGAAACG CAAAAGAATC GACACCTTGC AACTGTGCCT TCAAAGAGAA AGACAGGCAG 
    GTTGGAACCA GAAAAGCCTC CCTAAAGATG GACCAAGAAA GAGAGATGCT GAGGAAAGAG 
    ACCTCCAGCA AGTCCAGCCA GAGCCTTTTG CATTCTAAGC CCAGTGGAAA GTACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_017000204.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855693.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X14, mRNA.
    Price & Availability↑
    CloneID OHu74838
    Clone ID Related Accession (Same CDS sequence) XM_017000204.1 , XM_017000204.2 , XM_024452887.1
    Accession Version XM_017000204.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4410bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA GACGAGTATT TGTAGAGATG 
    GTGAAGAACA GGATGCAGAA CTCAAATTCC CAGGTTGGAA CCAGAAAAGC CTCCCTAAAG 
    ATGGACCAAG AAAGAGAGAT GCTGAGGAAA GAGACCTCCA GCAAGTCCAG CCAGAGCCTT 
    TTGCATTCTA AGCCCAGTGG AAAGTACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016855693.1
    CDS160..4569
    Translation

    Target ORF information:

    RefSeq Version XM_017000204.1
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000204.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA GACGAGTATT TGTAGAGATG 
    GTGAAGAACA GGATGCAGAA CTCAAATTCC CAGGTTGGAA CCAGAAAAGC CTCCCTAAAG 
    ATGGACCAAG AAAGAGAGAT GCTGAGGAAA GAGACCTCCA GCAAGTCCAG CCAGAGCCTT 
    TTGCATTCTA AGCCCAGTGG AAAGTACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_017000204.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855693.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X14, mRNA.
    Price & Availability↑
    CloneID OHu74838
    Clone ID Related Accession (Same CDS sequence) XM_017000204.1 , XM_017000204.2 , XM_024452887.1
    Accession Version XM_017000204.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4410bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017000204.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA GACGAGTATT TGTAGAGATG 
    GTGAAGAACA GGATGCAGAA CTCAAATTCC CAGGTTGGAA CCAGAAAAGC CTCCCTAAAG 
    ATGGACCAAG AAAGAGAGAT GCTGAGGAAA GAGACCTCCA GCAAGTCCAG CCAGAGCCTT 
    TTGCATTCTA AGCCCAGTGG AAAGTACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016855693.1
    CDS158..4567
    Translation

    Target ORF information:

    RefSeq Version XM_017000204.2
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000204.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA GACGAGTATT TGTAGAGATG 
    GTGAAGAACA GGATGCAGAA CTCAAATTCC CAGGTTGGAA CCAGAAAAGC CTCCCTAAAG 
    ATGGACCAAG AAAGAGAGAT GCTGAGGAAA GAGACCTCCA GCAAGTCCAG CCAGAGCCTT 
    TTGCATTCTA AGCCCAGTGG AAAGTACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_024452887.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024308655.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X15, mRNA.
    Price & Availability↑
    CloneID OHu74838
    Clone ID Related Accession (Same CDS sequence) XM_017000204.1 , XM_017000204.2 , XM_024452887.1
    Accession Version XM_024452887.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4410bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA GACGAGTATT TGTAGAGATG 
    GTGAAGAACA GGATGCAGAA CTCAAATTCC CAGGTTGGAA CCAGAAAAGC CTCCCTAAAG 
    ATGGACCAAG AAAGAGAGAT GCTGAGGAAA GAGACCTCCA GCAAGTCCAG CCAGAGCCTT 
    TTGCATTCTA AGCCCAGTGG AAAGTACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_024308655.1
    CDS158..4567
    Translation

    Target ORF information:

    RefSeq Version XM_024452887.1
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X15, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024452887.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA GACGAGTATT TGTAGAGATG 
    GTGAAGAACA GGATGCAGAA CTCAAATTCC CAGGTTGGAA CCAGAAAAGC CTCCCTAAAG 
    ATGGACCAAG AAAGAGAGAT GCTGAGGAAA GAGACCTCCA GCAAGTCCAG CCAGAGCCTT 
    TTGCATTCTA AGCCCAGTGG AAAGTACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_017000207.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855696.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X17, mRNA.
    Price & Availability↑
    CloneID OHu74839
    Clone ID Related Accession (Same CDS sequence) XM_017000207.1 , XM_017000207.2
    Accession Version XM_017000207.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4359bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X13
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGA TCAGTGCCCT ACAGAAAGGC TACAGCAAGG TGCTGTGCCA GACCCTGTCA 
    GAGCGGAACT CAGAAATCAC ATCCCTGAAG AATGAGGGCG AGAACTTAAA GAGAGACAAC 
    GCTATCACAT CAGGGATGGT GTCATCTTTG CAAAAAGACA TATTAGCAAA GGATGAGCAA 
    GTTCAACAAC TAAAGGAAGA GGTCAGTCAC CTAAAAAGTC AGAACAAGGA CAAGGACCAC 
    CAGCTGGAAG CCCTTGGCTC TAGATGCTCG GTGCTAAAGG AAGAGTTAAA ACAGGAAGAT 
    GCTCACAGGG AGCTCAGGGA AGCCCAGGAG AAAGAGTTAA AACTCTGCAA AACCCAAATC 
    CAAGACATGG AGAAAGAAAT GAAGAAGCTT AGGGCAGAGC TGAGGAAGAG TTGTACTGAA 
    CAAAGCGTGA TCTCTAGGAC TCTGAGAGAA AAAAGCAAGG TTGAAGAGAA GCTTCAGGAG 
    GATTCCAGAA GGAAATTGCT TCAGCTGCAA GAAATGGGGA ACAGAGAGAG CGTCATTAAA 
    ATCAATTTGG AGAGGGCAGT AGGTCAGCTG GAGCACTTCA GAAGTCAAGT CATCAAGGCC 
    ACCTATGGAC GGGCGAAGCC GTTCCGGGAC AAGCCCGTCA CCGACCAACA GTTAATAGAG 
    AAAATTACCC AGGTCACTGA GGACAACATC AATTTTCAGC AGAAAAAGTG GACCCTCCAG 
    AAAGAGACCC AGCTGAGCAA CTCCAAGCAG GAGGAGACCA CCGAGAACAT CGAGAAGCTG 
    AGGACGTCGC TGGACAGCTG CCAGGCTTGC ATGAAAATAT CCTGTTGCAG CCATGACCTG 
    AAGAAGGAGG TCGACCTTCT TCAGCACCTC CAGGTGAGCC CACCTGTCTC GGGGCTCCAG 
    AAGGTGGTGC TGGACGTCCT GAGGCACGCG CTGTCCTGGC TGGAGGAGGT GGAGCAGCTC 
    CTCCGGGACC TCGGGATCCT GCCCTCCAGC CCCAACAAAG GGTTCTCTTT GTATCTGATA 
    TATCTTCTGG AACATTATAA AAAACTTATG AGCCAGGCCC AGGAACTTCA GATCAAGTTC 
    AACAGTTCTC AGGAAACTCA GCAGTCTTTA CTGCAGGAAA AGCTGCGGGA GCATCTGGCA 
    GAGAAGGAGA AGCTGAACGA GGAGAGGCTA GAGCAAGAGG AGAAGCTCAA AGCCAAAATC 
    AGGCAACTGA CGGAAGAGAA GGCGGCTTTG GAGGAGTACA TTACTCAAGA GAGAAACAGA 
    GCGAAAGAGA CTTTAGAGGA AGAACGGAAG AGAATGCAAG AACTGGAGAG CCTCCTGGCC 
    CAGCAGAAGA AGGCTTTGGC GAAAAGCATT ACCCAGGAGA AGAACAGAGT GAAGGAAGCA 
    TTAGAGGAAG AGCAGACAAG AGTCCAAGAG CTGGAGGAAC GCTTGGCCCG CCAGAAGGAG 
    GTTTTGGAGA GCAGCATAGC CCATGAAAAA AGAAAAGCAA AGGAAGCCTT GGAGTCGGAA 
    AAGAGAAAAG TTCAGGATCT GGAGAACCAT TTAACCCAAC AGAAGGAGAT CTCAGAGAGC 
    AACATTGCGT ACGAGAAACG CAAAGCAAAG GAGGCCATGG AGAAGGAAAA GAAAAAGGTG 
    CAAGACCTGG AGAATCGCTT AACCAAGCAG AAAGAGGAAT TAGAATTAAA AGAGCAAAAA 
    GAGGACGTTT TAAATAATAA ATTAAGTGAC GCACTGGCCA TGGTTGAAGA GACTCAGAAA 
    ACAAAGGCAA CTGAAAGTCT AAAAGCAGAG AGCCTCGCCT TGAAATTAAA TGAAACATTA 
    GCCGAACTGG AAACTACCAA GACAAAAATG ATCATGGTGG AAGAGCGGCT AATCCTGCAG 
    CAGAAGATGG TAAAGGCCCT CCAGGATGAG CAGGAATCAC AGAGACACGG GTTTGAAGAA 
    GAGATCATGG AATATAAGGA GCAAATCAAA CAGCACGCCC AGACAATTGT GAGCCTCGAA 
    GAGAAACTCC AGAAAGTCAC TCAGCACCAT AAAAAAATAG AAGGCGAGAT TGCAACATTG 
    AAGGACAATG ACCCAGCCCC AAAGGAGGAA AGGCCGCAAG ACCCTCTGGT GGCTCCCATG 
    ACAGAGAGCA GTGCCAAAGA CATGGCGTAC GAACATCTGA TAGATGACTT ATTGGCTGCT 
    CAGAAGGAAA TTCTGTCTCA GCAGGAAGTC ATCATGAAGT TAAGGAAAGA CCTTACCGAA 
    GCCCACAGCA GAATGTCGGA TTTGAGAGGG GAGCTAAACG AGAAGCAGAA GATGGAACTG 
    GAGCAGAACG TGGTGCTGGT CCAGCAGCAG AGCAAGGAGC TGAGTGTGCT CAAGGAGAAG 
    ATGGCCCAGA TGAGCAGCCT GGTAGAAAAG AAAGATCGGG AGCTGAAGGC CCTTGAGGAG 
    GCACTCAGGG CTTCCCAAGA GAAACACAGA CTCCAGCTGA ACACAGAGAA GGAACAGAAG 
    CCCCGGAAGA AGACCCAGAC GTGTGACACC TCTGTGCAGA TAGAACCCGT CCACACTGAG 
    GCCTTCTCCA GCAGCCAAGA GCAGCAATCC TTCAGCGATC TAGGGGTCAG GTGCAAAGGG 
    TCCCGGCACG AGGAGGTCAT TCAGCGTCAG AAAAAGGCCT TATCTGAACT TCGAGCGCGA 
    ATTAAAGAAC TCGAGAAGGC GCGCTCACCA GATCATAAAG ACCACCAGAA TGAATCATTT 
    CTAGATTTAA AGAACCTCAG AATGGAAAAC AATGTCCAGA AAATACTACT GGATGCAAAA 
    CCGGATTTGC CAACTCTCTC AAGAATAGAG ATCCTAGCGC CTCAGAATGG CCTTTGCAAC 
    GCAAGGTTCG GCTCAGCCAT GGAGAAGTCA GGGAAGATGG ATGTGGCTGA GGCTTTAGAG 
    CTCAGTGAAA AGCTGTACCT GGATATGAGC AAAACCCTCG GAAGTCTCAT GAACATCAAG 
    AATATGTCAG GCCACGTGTC CATGAAATAC CTCTCCCGCC AGGAGAGGGA GAAGGTCAAC 
    CAGCTTCGAC AAAGGGACCT CGACCTGGTG TTTGATAAGA TCACCCAACT CAAGAACCAG 
    CTGGGGAGGA AAGAGGAGCT GTTGAGAGGA TATGAAAAGG ACGTTGAACA GCTCAGGCGG 
    AGCAAAGTGT CCATTGAGAT GTACCAGTCG CAGGTGGCAA AGCTGGAGGA TGATATCTAC 
    AAAGAGGCCG AAGAGAAGGC CCTGCTGAAG GAGGCCCTGG AGCGCATGGA GCACCAGCTG 
    TGCCAGGAGA AGAGGATCAA CAGGGCCATC CGGCAGCAGA AGATGAGGAA ACTGCGCCTC 
    AGAGAGTTAA GAGGCGCCCA AGTGCACACA GCGGCTGGTA AGGACAGCTG GGACCTGACC 
    CCAGATCCCT CTGACCCTGG TTCTCCTGCT GTCTGCAGGG TTGGCCGAAA GTGTAGAGGA 
    GCACGAACTG AGAAACGCAA AAGAATCGAC ACCTTGCAAC TGTGCCTTCA AAGAGAAAGA 
    CAGGCAGAGA CGAGTATTTG TAGAGATGGT GAAGAACAGG ATGCAGAACT CAAATTCCCA 
    GGTTGGAACC AGAAAAGCCT CCCTAAAGAT GGACCAAGAA AGAGAGATGC TGAGGAAAGA 
    GACCTCCAGC AAGTCCAGCC AGAGCCTTTT GCATTCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016855696.1
    CDS166..4524
    Translation

    Target ORF information:

    RefSeq Version XM_017000207.1
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X17, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000207.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGA TCAGTGCCCT ACAGAAAGGC TACAGCAAGG TGCTGTGCCA GACCCTGTCA 
    GAGCGGAACT CAGAAATCAC ATCCCTGAAG AATGAGGGCG AGAACTTAAA GAGAGACAAC 
    GCTATCACAT CAGGGATGGT GTCATCTTTG CAAAAAGACA TATTAGCAAA GGATGAGCAA 
    GTTCAACAAC TAAAGGAAGA GGTCAGTCAC CTAAAAAGTC AGAACAAGGA CAAGGACCAC 
    CAGCTGGAAG CCCTTGGCTC TAGATGCTCG GTGCTAAAGG AAGAGTTAAA ACAGGAAGAT 
    GCTCACAGGG AGCTCAGGGA AGCCCAGGAG AAAGAGTTAA AACTCTGCAA AACCCAAATC 
    CAAGACATGG AGAAAGAAAT GAAGAAGCTT AGGGCAGAGC TGAGGAAGAG TTGTACTGAA 
    CAAAGCGTGA TCTCTAGGAC TCTGAGAGAA AAAAGCAAGG TTGAAGAGAA GCTTCAGGAG 
    GATTCCAGAA GGAAATTGCT TCAGCTGCAA GAAATGGGGA ACAGAGAGAG CGTCATTAAA 
    ATCAATTTGG AGAGGGCAGT AGGTCAGCTG GAGCACTTCA GAAGTCAAGT CATCAAGGCC 
    ACCTATGGAC GGGCGAAGCC GTTCCGGGAC AAGCCCGTCA CCGACCAACA GTTAATAGAG 
    AAAATTACCC AGGTCACTGA GGACAACATC AATTTTCAGC AGAAAAAGTG GACCCTCCAG 
    AAAGAGACCC AGCTGAGCAA CTCCAAGCAG GAGGAGACCA CCGAGAACAT CGAGAAGCTG 
    AGGACGTCGC TGGACAGCTG CCAGGCTTGC ATGAAAATAT CCTGTTGCAG CCATGACCTG 
    AAGAAGGAGG TCGACCTTCT TCAGCACCTC CAGGTGAGCC CACCTGTCTC GGGGCTCCAG 
    AAGGTGGTGC TGGACGTCCT GAGGCACGCG CTGTCCTGGC TGGAGGAGGT GGAGCAGCTC 
    CTCCGGGACC TCGGGATCCT GCCCTCCAGC CCCAACAAAG GGTTCTCTTT GTATCTGATA 
    TATCTTCTGG AACATTATAA AAAACTTATG AGCCAGGCCC AGGAACTTCA GATCAAGTTC 
    AACAGTTCTC AGGAAACTCA GCAGTCTTTA CTGCAGGAAA AGCTGCGGGA GCATCTGGCA 
    GAGAAGGAGA AGCTGAACGA GGAGAGGCTA GAGCAAGAGG AGAAGCTCAA AGCCAAAATC 
    AGGCAACTGA CGGAAGAGAA GGCGGCTTTG GAGGAGTACA TTACTCAAGA GAGAAACAGA 
    GCGAAAGAGA CTTTAGAGGA AGAACGGAAG AGAATGCAAG AACTGGAGAG CCTCCTGGCC 
    CAGCAGAAGA AGGCTTTGGC GAAAAGCATT ACCCAGGAGA AGAACAGAGT GAAGGAAGCA 
    TTAGAGGAAG AGCAGACAAG AGTCCAAGAG CTGGAGGAAC GCTTGGCCCG CCAGAAGGAG 
    GTTTTGGAGA GCAGCATAGC CCATGAAAAA AGAAAAGCAA AGGAAGCCTT GGAGTCGGAA 
    AAGAGAAAAG TTCAGGATCT GGAGAACCAT TTAACCCAAC AGAAGGAGAT CTCAGAGAGC 
    AACATTGCGT ACGAGAAACG CAAAGCAAAG GAGGCCATGG AGAAGGAAAA GAAAAAGGTG 
    CAAGACCTGG AGAATCGCTT AACCAAGCAG AAAGAGGAAT TAGAATTAAA AGAGCAAAAA 
    GAGGACGTTT TAAATAATAA ATTAAGTGAC GCACTGGCCA TGGTTGAAGA GACTCAGAAA 
    ACAAAGGCAA CTGAAAGTCT AAAAGCAGAG AGCCTCGCCT TGAAATTAAA TGAAACATTA 
    GCCGAACTGG AAACTACCAA GACAAAAATG ATCATGGTGG AAGAGCGGCT AATCCTGCAG 
    CAGAAGATGG TAAAGGCCCT CCAGGATGAG CAGGAATCAC AGAGACACGG GTTTGAAGAA 
    GAGATCATGG AATATAAGGA GCAAATCAAA CAGCACGCCC AGACAATTGT GAGCCTCGAA 
    GAGAAACTCC AGAAAGTCAC TCAGCACCAT AAAAAAATAG AAGGCGAGAT TGCAACATTG 
    AAGGACAATG ACCCAGCCCC AAAGGAGGAA AGGCCGCAAG ACCCTCTGGT GGCTCCCATG 
    ACAGAGAGCA GTGCCAAAGA CATGGCGTAC GAACATCTGA TAGATGACTT ATTGGCTGCT 
    CAGAAGGAAA TTCTGTCTCA GCAGGAAGTC ATCATGAAGT TAAGGAAAGA CCTTACCGAA 
    GCCCACAGCA GAATGTCGGA TTTGAGAGGG GAGCTAAACG AGAAGCAGAA GATGGAACTG 
    GAGCAGAACG TGGTGCTGGT CCAGCAGCAG AGCAAGGAGC TGAGTGTGCT CAAGGAGAAG 
    ATGGCCCAGA TGAGCAGCCT GGTAGAAAAG AAAGATCGGG AGCTGAAGGC CCTTGAGGAG 
    GCACTCAGGG CTTCCCAAGA GAAACACAGA CTCCAGCTGA ACACAGAGAA GGAACAGAAG 
    CCCCGGAAGA AGACCCAGAC GTGTGACACC TCTGTGCAGA TAGAACCCGT CCACACTGAG 
    GCCTTCTCCA GCAGCCAAGA GCAGCAATCC TTCAGCGATC TAGGGGTCAG GTGCAAAGGG 
    TCCCGGCACG AGGAGGTCAT TCAGCGTCAG AAAAAGGCCT TATCTGAACT TCGAGCGCGA 
    ATTAAAGAAC TCGAGAAGGC GCGCTCACCA GATCATAAAG ACCACCAGAA TGAATCATTT 
    CTAGATTTAA AGAACCTCAG AATGGAAAAC AATGTCCAGA AAATACTACT GGATGCAAAA 
    CCGGATTTGC CAACTCTCTC AAGAATAGAG ATCCTAGCGC CTCAGAATGG CCTTTGCAAC 
    GCAAGGTTCG GCTCAGCCAT GGAGAAGTCA GGGAAGATGG ATGTGGCTGA GGCTTTAGAG 
    CTCAGTGAAA AGCTGTACCT GGATATGAGC AAAACCCTCG GAAGTCTCAT GAACATCAAG 
    AATATGTCAG GCCACGTGTC CATGAAATAC CTCTCCCGCC AGGAGAGGGA GAAGGTCAAC 
    CAGCTTCGAC AAAGGGACCT CGACCTGGTG TTTGATAAGA TCACCCAACT CAAGAACCAG 
    CTGGGGAGGA AAGAGGAGCT GTTGAGAGGA TATGAAAAGG ACGTTGAACA GCTCAGGCGG 
    AGCAAAGTGT CCATTGAGAT GTACCAGTCG CAGGTGGCAA AGCTGGAGGA TGATATCTAC 
    AAAGAGGCCG AAGAGAAGGC CCTGCTGAAG GAGGCCCTGG AGCGCATGGA GCACCAGCTG 
    TGCCAGGAGA AGAGGATCAA CAGGGCCATC CGGCAGCAGA AGATGAGGAA ACTGCGCCTC 
    AGAGAGTTAA GAGGCGCCCA AGTGCACACA GCGGCTGGTA AGGACAGCTG GGACCTGACC 
    CCAGATCCCT CTGACCCTGG TTCTCCTGCT GTCTGCAGGG TTGGCCGAAA GTGTAGAGGA 
    GCACGAACTG AGAAACGCAA AAGAATCGAC ACCTTGCAAC TGTGCCTTCA AAGAGAAAGA 
    CAGGCAGAGA CGAGTATTTG TAGAGATGGT GAAGAACAGG ATGCAGAACT CAAATTCCCA 
    GGTTGGAACC AGAAAAGCCT CCCTAAAGAT GGACCAAGAA AGAGAGATGC TGAGGAAAGA 
    GACCTCCAGC AAGTCCAGCC AGAGCCTTTT GCATTCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_017000207.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855696.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X18, mRNA.
    Price & Availability↑
    CloneID OHu74839
    Clone ID Related Accession (Same CDS sequence) XM_017000207.1 , XM_017000207.2
    Accession Version XM_017000207.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4359bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X13
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017000207.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGA TCAGTGCCCT ACAGAAAGGC TACAGCAAGG TGCTGTGCCA GACCCTGTCA 
    GAGCGGAACT CAGAAATCAC ATCCCTGAAG AATGAGGGCG AGAACTTAAA GAGAGACAAC 
    GCTATCACAT CAGGGATGGT GTCATCTTTG CAAAAAGACA TATTAGCAAA GGATGAGCAA 
    GTTCAACAAC TAAAGGAAGA GGTCAGTCAC CTAAAAAGTC AGAACAAGGA CAAGGACCAC 
    CAGCTGGAAG CCCTTGGCTC TAGATGCTCG GTGCTAAAGG AAGAGTTAAA ACAGGAAGAT 
    GCTCACAGGG AGCTCAGGGA AGCCCAGGAG AAAGAGTTAA AACTCTGCAA AACCCAAATC 
    CAAGACATGG AGAAAGAAAT GAAGAAGCTT AGGGCAGAGC TGAGGAAGAG TTGTACTGAA 
    CAAAGCGTGA TCTCTAGGAC TCTGAGAGAA AAAAGCAAGG TTGAAGAGAA GCTTCAGGAG 
    GATTCCAGAA GGAAATTGCT TCAGCTGCAA GAAATGGGGA ACAGAGAGAG CGTCATTAAA 
    ATCAATTTGG AGAGGGCAGT AGGTCAGCTG GAGCACTTCA GAAGTCAAGT CATCAAGGCC 
    ACCTATGGAC GGGCGAAGCC GTTCCGGGAC AAGCCCGTCA CCGACCAACA GTTAATAGAG 
    AAAATTACCC AGGTCACTGA GGACAACATC AATTTTCAGC AGAAAAAGTG GACCCTCCAG 
    AAAGAGACCC AGCTGAGCAA CTCCAAGCAG GAGGAGACCA CCGAGAACAT CGAGAAGCTG 
    AGGACGTCGC TGGACAGCTG CCAGGCTTGC ATGAAAATAT CCTGTTGCAG CCATGACCTG 
    AAGAAGGAGG TCGACCTTCT TCAGCACCTC CAGGTGAGCC CACCTGTCTC GGGGCTCCAG 
    AAGGTGGTGC TGGACGTCCT GAGGCACGCG CTGTCCTGGC TGGAGGAGGT GGAGCAGCTC 
    CTCCGGGACC TCGGGATCCT GCCCTCCAGC CCCAACAAAG GGTTCTCTTT GTATCTGATA 
    TATCTTCTGG AACATTATAA AAAACTTATG AGCCAGGCCC AGGAACTTCA GATCAAGTTC 
    AACAGTTCTC AGGAAACTCA GCAGTCTTTA CTGCAGGAAA AGCTGCGGGA GCATCTGGCA 
    GAGAAGGAGA AGCTGAACGA GGAGAGGCTA GAGCAAGAGG AGAAGCTCAA AGCCAAAATC 
    AGGCAACTGA CGGAAGAGAA GGCGGCTTTG GAGGAGTACA TTACTCAAGA GAGAAACAGA 
    GCGAAAGAGA CTTTAGAGGA AGAACGGAAG AGAATGCAAG AACTGGAGAG CCTCCTGGCC 
    CAGCAGAAGA AGGCTTTGGC GAAAAGCATT ACCCAGGAGA AGAACAGAGT GAAGGAAGCA 
    TTAGAGGAAG AGCAGACAAG AGTCCAAGAG CTGGAGGAAC GCTTGGCCCG CCAGAAGGAG 
    GTTTTGGAGA GCAGCATAGC CCATGAAAAA AGAAAAGCAA AGGAAGCCTT GGAGTCGGAA 
    AAGAGAAAAG TTCAGGATCT GGAGAACCAT TTAACCCAAC AGAAGGAGAT CTCAGAGAGC 
    AACATTGCGT ACGAGAAACG CAAAGCAAAG GAGGCCATGG AGAAGGAAAA GAAAAAGGTG 
    CAAGACCTGG AGAATCGCTT AACCAAGCAG AAAGAGGAAT TAGAATTAAA AGAGCAAAAA 
    GAGGACGTTT TAAATAATAA ATTAAGTGAC GCACTGGCCA TGGTTGAAGA GACTCAGAAA 
    ACAAAGGCAA CTGAAAGTCT AAAAGCAGAG AGCCTCGCCT TGAAATTAAA TGAAACATTA 
    GCCGAACTGG AAACTACCAA GACAAAAATG ATCATGGTGG AAGAGCGGCT AATCCTGCAG 
    CAGAAGATGG TAAAGGCCCT CCAGGATGAG CAGGAATCAC AGAGACACGG GTTTGAAGAA 
    GAGATCATGG AATATAAGGA GCAAATCAAA CAGCACGCCC AGACAATTGT GAGCCTCGAA 
    GAGAAACTCC AGAAAGTCAC TCAGCACCAT AAAAAAATAG AAGGCGAGAT TGCAACATTG 
    AAGGACAATG ACCCAGCCCC AAAGGAGGAA AGGCCGCAAG ACCCTCTGGT GGCTCCCATG 
    ACAGAGAGCA GTGCCAAAGA CATGGCGTAC GAACATCTGA TAGATGACTT ATTGGCTGCT 
    CAGAAGGAAA TTCTGTCTCA GCAGGAAGTC ATCATGAAGT TAAGGAAAGA CCTTACCGAA 
    GCCCACAGCA GAATGTCGGA TTTGAGAGGG GAGCTAAACG AGAAGCAGAA GATGGAACTG 
    GAGCAGAACG TGGTGCTGGT CCAGCAGCAG AGCAAGGAGC TGAGTGTGCT CAAGGAGAAG 
    ATGGCCCAGA TGAGCAGCCT GGTAGAAAAG AAAGATCGGG AGCTGAAGGC CCTTGAGGAG 
    GCACTCAGGG CTTCCCAAGA GAAACACAGA CTCCAGCTGA ACACAGAGAA GGAACAGAAG 
    CCCCGGAAGA AGACCCAGAC GTGTGACACC TCTGTGCAGA TAGAACCCGT CCACACTGAG 
    GCCTTCTCCA GCAGCCAAGA GCAGCAATCC TTCAGCGATC TAGGGGTCAG GTGCAAAGGG 
    TCCCGGCACG AGGAGGTCAT TCAGCGTCAG AAAAAGGCCT TATCTGAACT TCGAGCGCGA 
    ATTAAAGAAC TCGAGAAGGC GCGCTCACCA GATCATAAAG ACCACCAGAA TGAATCATTT 
    CTAGATTTAA AGAACCTCAG AATGGAAAAC AATGTCCAGA AAATACTACT GGATGCAAAA 
    CCGGATTTGC CAACTCTCTC AAGAATAGAG ATCCTAGCGC CTCAGAATGG CCTTTGCAAC 
    GCAAGGTTCG GCTCAGCCAT GGAGAAGTCA GGGAAGATGG ATGTGGCTGA GGCTTTAGAG 
    CTCAGTGAAA AGCTGTACCT GGATATGAGC AAAACCCTCG GAAGTCTCAT GAACATCAAG 
    AATATGTCAG GCCACGTGTC CATGAAATAC CTCTCCCGCC AGGAGAGGGA GAAGGTCAAC 
    CAGCTTCGAC AAAGGGACCT CGACCTGGTG TTTGATAAGA TCACCCAACT CAAGAACCAG 
    CTGGGGAGGA AAGAGGAGCT GTTGAGAGGA TATGAAAAGG ACGTTGAACA GCTCAGGCGG 
    AGCAAAGTGT CCATTGAGAT GTACCAGTCG CAGGTGGCAA AGCTGGAGGA TGATATCTAC 
    AAAGAGGCCG AAGAGAAGGC CCTGCTGAAG GAGGCCCTGG AGCGCATGGA GCACCAGCTG 
    TGCCAGGAGA AGAGGATCAA CAGGGCCATC CGGCAGCAGA AGATGAGGAA ACTGCGCCTC 
    AGAGAGTTAA GAGGCGCCCA AGTGCACACA GCGGCTGGTA AGGACAGCTG GGACCTGACC 
    CCAGATCCCT CTGACCCTGG TTCTCCTGCT GTCTGCAGGG TTGGCCGAAA GTGTAGAGGA 
    GCACGAACTG AGAAACGCAA AAGAATCGAC ACCTTGCAAC TGTGCCTTCA AAGAGAAAGA 
    CAGGCAGAGA CGAGTATTTG TAGAGATGGT GAAGAACAGG ATGCAGAACT CAAATTCCCA 
    GGTTGGAACC AGAAAAGCCT CCCTAAAGAT GGACCAAGAA AGAGAGATGC TGAGGAAAGA 
    GACCTCCAGC AAGTCCAGCC AGAGCCTTTT GCATTCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016855696.1
    CDS165..4523
    Translation

    Target ORF information:

    RefSeq Version XM_017000207.2
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X18, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000207.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGA TCAGTGCCCT ACAGAAAGGC TACAGCAAGG TGCTGTGCCA GACCCTGTCA 
    GAGCGGAACT CAGAAATCAC ATCCCTGAAG AATGAGGGCG AGAACTTAAA GAGAGACAAC 
    GCTATCACAT CAGGGATGGT GTCATCTTTG CAAAAAGACA TATTAGCAAA GGATGAGCAA 
    GTTCAACAAC TAAAGGAAGA GGTCAGTCAC CTAAAAAGTC AGAACAAGGA CAAGGACCAC 
    CAGCTGGAAG CCCTTGGCTC TAGATGCTCG GTGCTAAAGG AAGAGTTAAA ACAGGAAGAT 
    GCTCACAGGG AGCTCAGGGA AGCCCAGGAG AAAGAGTTAA AACTCTGCAA AACCCAAATC 
    CAAGACATGG AGAAAGAAAT GAAGAAGCTT AGGGCAGAGC TGAGGAAGAG TTGTACTGAA 
    CAAAGCGTGA TCTCTAGGAC TCTGAGAGAA AAAAGCAAGG TTGAAGAGAA GCTTCAGGAG 
    GATTCCAGAA GGAAATTGCT TCAGCTGCAA GAAATGGGGA ACAGAGAGAG CGTCATTAAA 
    ATCAATTTGG AGAGGGCAGT AGGTCAGCTG GAGCACTTCA GAAGTCAAGT CATCAAGGCC 
    ACCTATGGAC GGGCGAAGCC GTTCCGGGAC AAGCCCGTCA CCGACCAACA GTTAATAGAG 
    AAAATTACCC AGGTCACTGA GGACAACATC AATTTTCAGC AGAAAAAGTG GACCCTCCAG 
    AAAGAGACCC AGCTGAGCAA CTCCAAGCAG GAGGAGACCA CCGAGAACAT CGAGAAGCTG 
    AGGACGTCGC TGGACAGCTG CCAGGCTTGC ATGAAAATAT CCTGTTGCAG CCATGACCTG 
    AAGAAGGAGG TCGACCTTCT TCAGCACCTC CAGGTGAGCC CACCTGTCTC GGGGCTCCAG 
    AAGGTGGTGC TGGACGTCCT GAGGCACGCG CTGTCCTGGC TGGAGGAGGT GGAGCAGCTC 
    CTCCGGGACC TCGGGATCCT GCCCTCCAGC CCCAACAAAG GGTTCTCTTT GTATCTGATA 
    TATCTTCTGG AACATTATAA AAAACTTATG AGCCAGGCCC AGGAACTTCA GATCAAGTTC 
    AACAGTTCTC AGGAAACTCA GCAGTCTTTA CTGCAGGAAA AGCTGCGGGA GCATCTGGCA 
    GAGAAGGAGA AGCTGAACGA GGAGAGGCTA GAGCAAGAGG AGAAGCTCAA AGCCAAAATC 
    AGGCAACTGA CGGAAGAGAA GGCGGCTTTG GAGGAGTACA TTACTCAAGA GAGAAACAGA 
    GCGAAAGAGA CTTTAGAGGA AGAACGGAAG AGAATGCAAG AACTGGAGAG CCTCCTGGCC 
    CAGCAGAAGA AGGCTTTGGC GAAAAGCATT ACCCAGGAGA AGAACAGAGT GAAGGAAGCA 
    TTAGAGGAAG AGCAGACAAG AGTCCAAGAG CTGGAGGAAC GCTTGGCCCG CCAGAAGGAG 
    GTTTTGGAGA GCAGCATAGC CCATGAAAAA AGAAAAGCAA AGGAAGCCTT GGAGTCGGAA 
    AAGAGAAAAG TTCAGGATCT GGAGAACCAT TTAACCCAAC AGAAGGAGAT CTCAGAGAGC 
    AACATTGCGT ACGAGAAACG CAAAGCAAAG GAGGCCATGG AGAAGGAAAA GAAAAAGGTG 
    CAAGACCTGG AGAATCGCTT AACCAAGCAG AAAGAGGAAT TAGAATTAAA AGAGCAAAAA 
    GAGGACGTTT TAAATAATAA ATTAAGTGAC GCACTGGCCA TGGTTGAAGA GACTCAGAAA 
    ACAAAGGCAA CTGAAAGTCT AAAAGCAGAG AGCCTCGCCT TGAAATTAAA TGAAACATTA 
    GCCGAACTGG AAACTACCAA GACAAAAATG ATCATGGTGG AAGAGCGGCT AATCCTGCAG 
    CAGAAGATGG TAAAGGCCCT CCAGGATGAG CAGGAATCAC AGAGACACGG GTTTGAAGAA 
    GAGATCATGG AATATAAGGA GCAAATCAAA CAGCACGCCC AGACAATTGT GAGCCTCGAA 
    GAGAAACTCC AGAAAGTCAC TCAGCACCAT AAAAAAATAG AAGGCGAGAT TGCAACATTG 
    AAGGACAATG ACCCAGCCCC AAAGGAGGAA AGGCCGCAAG ACCCTCTGGT GGCTCCCATG 
    ACAGAGAGCA GTGCCAAAGA CATGGCGTAC GAACATCTGA TAGATGACTT ATTGGCTGCT 
    CAGAAGGAAA TTCTGTCTCA GCAGGAAGTC ATCATGAAGT TAAGGAAAGA CCTTACCGAA 
    GCCCACAGCA GAATGTCGGA TTTGAGAGGG GAGCTAAACG AGAAGCAGAA GATGGAACTG 
    GAGCAGAACG TGGTGCTGGT CCAGCAGCAG AGCAAGGAGC TGAGTGTGCT CAAGGAGAAG 
    ATGGCCCAGA TGAGCAGCCT GGTAGAAAAG AAAGATCGGG AGCTGAAGGC CCTTGAGGAG 
    GCACTCAGGG CTTCCCAAGA GAAACACAGA CTCCAGCTGA ACACAGAGAA GGAACAGAAG 
    CCCCGGAAGA AGACCCAGAC GTGTGACACC TCTGTGCAGA TAGAACCCGT CCACACTGAG 
    GCCTTCTCCA GCAGCCAAGA GCAGCAATCC TTCAGCGATC TAGGGGTCAG GTGCAAAGGG 
    TCCCGGCACG AGGAGGTCAT TCAGCGTCAG AAAAAGGCCT TATCTGAACT TCGAGCGCGA 
    ATTAAAGAAC TCGAGAAGGC GCGCTCACCA GATCATAAAG ACCACCAGAA TGAATCATTT 
    CTAGATTTAA AGAACCTCAG AATGGAAAAC AATGTCCAGA AAATACTACT GGATGCAAAA 
    CCGGATTTGC CAACTCTCTC AAGAATAGAG ATCCTAGCGC CTCAGAATGG CCTTTGCAAC 
    GCAAGGTTCG GCTCAGCCAT GGAGAAGTCA GGGAAGATGG ATGTGGCTGA GGCTTTAGAG 
    CTCAGTGAAA AGCTGTACCT GGATATGAGC AAAACCCTCG GAAGTCTCAT GAACATCAAG 
    AATATGTCAG GCCACGTGTC CATGAAATAC CTCTCCCGCC AGGAGAGGGA GAAGGTCAAC 
    CAGCTTCGAC AAAGGGACCT CGACCTGGTG TTTGATAAGA TCACCCAACT CAAGAACCAG 
    CTGGGGAGGA AAGAGGAGCT GTTGAGAGGA TATGAAAAGG ACGTTGAACA GCTCAGGCGG 
    AGCAAAGTGT CCATTGAGAT GTACCAGTCG CAGGTGGCAA AGCTGGAGGA TGATATCTAC 
    AAAGAGGCCG AAGAGAAGGC CCTGCTGAAG GAGGCCCTGG AGCGCATGGA GCACCAGCTG 
    TGCCAGGAGA AGAGGATCAA CAGGGCCATC CGGCAGCAGA AGATGAGGAA ACTGCGCCTC 
    AGAGAGTTAA GAGGCGCCCA AGTGCACACA GCGGCTGGTA AGGACAGCTG GGACCTGACC 
    CCAGATCCCT CTGACCCTGG TTCTCCTGCT GTCTGCAGGG TTGGCCGAAA GTGTAGAGGA 
    GCACGAACTG AGAAACGCAA AAGAATCGAC ACCTTGCAAC TGTGCCTTCA AAGAGAAAGA 
    CAGGCAGAGA CGAGTATTTG TAGAGATGGT GAAGAACAGG ATGCAGAACT CAAATTCCCA 
    GGTTGGAACC AGAAAAGCCT CCCTAAAGAT GGACCAAGAA AGAGAGATGC TGAGGAAAGA 
    GACCTCCAGC AAGTCCAGCC AGAGCCTTTT GCATTCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_017000208.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855697.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X19, mRNA.
    Price & Availability↑
    CloneID OHu74840
    Clone ID Related Accession (Same CDS sequence) XM_017000208.2 , XM_017000208.1 , XM_011540588.2 , XM_011540588.3
    Accession Version XM_017000208.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4356bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X14
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017000208.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG TTGGAACCAG AAAAGCCTCC 
    CTAAAGATGG ACCAAGAAAG AGAGATGCTG AGGAAAGAGA CCTCCAGCAA GTCCAGCCAG 
    AGCCTTTTGC ATTCTAAGCC CAGTGGAAAG TACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016855697.1
    CDS154..4509
    Translation

    Target ORF information:

    RefSeq Version XM_017000208.2
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X19, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000208.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG TTGGAACCAG AAAAGCCTCC 
    CTAAAGATGG ACCAAGAAAG AGAGATGCTG AGGAAAGAGA CCTCCAGCAA GTCCAGCCAG 
    AGCCTTTTGC ATTCTAAGCC CAGTGGAAAG TACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_017000208.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855697.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X18, mRNA.
    Price & Availability↑
    CloneID OHu74840
    Clone ID Related Accession (Same CDS sequence) XM_017000208.2 , XM_017000208.1 , XM_011540588.2 , XM_011540588.3
    Accession Version XM_017000208.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4356bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X14
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG TTGGAACCAG AAAAGCCTCC 
    CTAAAGATGG ACCAAGAAAG AGAGATGCTG AGGAAAGAGA CCTCCAGCAA GTCCAGCCAG 
    AGCCTTTTGC ATTCTAAGCC CAGTGGAAAG TACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016855697.1
    CDS155..4510
    Translation

    Target ORF information:

    RefSeq Version XM_017000208.1
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X18, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000208.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG TTGGAACCAG AAAAGCCTCC 
    CTAAAGATGG ACCAAGAAAG AGAGATGCTG AGGAAAGAGA CCTCCAGCAA GTCCAGCCAG 
    AGCCTTTTGC ATTCTAAGCC CAGTGGAAAG TACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_011540588.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538890.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X19, mRNA.
    Price & Availability↑
    CloneID OHu74840
    Clone ID Related Accession (Same CDS sequence) XM_017000208.2 , XM_017000208.1 , XM_011540588.2 , XM_011540588.3
    Accession Version XM_011540588.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4356bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X14
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011540588.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG TTGGAACCAG AAAAGCCTCC 
    CTAAAGATGG ACCAAGAAAG AGAGATGCTG AGGAAAGAGA CCTCCAGCAA GTCCAGCCAG 
    AGCCTTTTGC ATTCTAAGCC CAGTGGAAAG TACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011538890.1
    CDS155..4510
    Translation

    Target ORF information:

    RefSeq Version XM_011540588.2
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X19, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540588.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG TTGGAACCAG AAAAGCCTCC 
    CTAAAGATGG ACCAAGAAAG AGAGATGCTG AGGAAAGAGA CCTCCAGCAA GTCCAGCCAG 
    AGCCTTTTGC ATTCTAAGCC CAGTGGAAAG TACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_011540588.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538890.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X20, mRNA.
    Price & Availability↑
    CloneID OHu74840
    Clone ID Related Accession (Same CDS sequence) XM_017000208.2 , XM_017000208.1 , XM_011540588.2 , XM_011540588.3
    Accession Version XM_011540588.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4356bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X14
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011540588.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG TTGGAACCAG AAAAGCCTCC 
    CTAAAGATGG ACCAAGAAAG AGAGATGCTG AGGAAAGAGA CCTCCAGCAA GTCCAGCCAG 
    AGCCTTTTGC ATTCTAAGCC CAGTGGAAAG TACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011538890.1
    CDS153..4508
    Translation

    Target ORF information:

    RefSeq Version XM_011540588.3
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X20, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540588.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGG TTGGAACCAG AAAAGCCTCC 
    CTAAAGATGG ACCAAGAAAG AGAGATGCTG AGGAAAGAGA CCTCCAGCAA GTCCAGCCAG 
    AGCCTTTTGC ATTCTAAGCC CAGTGGAAAG TACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_011540589.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538891.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X21, mRNA.
    Price & Availability↑
    CloneID OHu74841
    Clone ID Related Accession (Same CDS sequence) XM_011540589.2
    Accession Version XM_011540589.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4302bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X16
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011540589.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGATC 
    TCAGAGAGCA ACATTGCGTA CGAGAAACGC AAAGCAAAGG AGGCCATGGA GAAGGAAAAG 
    AAAAAGGTGC AAGACCTGGA GAATCGCTTA ACCAAGCAGA AAGAGGAATT AGAATTAAAA 
    GAGCAAAAAG AGGACGTTTT AAATAATAAA TTAAGTGACG CACTGGCCAT GGTTGAAGAG 
    ACTCAGAAAA CAAAGGCAAC TGAAAGTCTA AAAGCAGAGA GCCTCGCCTT GAAATTAAAT 
    GAAACATTAG CCGAACTGGA AACTACCAAG ACAAAAATGA TCATGGTGGA AGAGCGGCTA 
    ATCCTGCAGC AGAAGATGGT AAAGGCCCTC CAGGATGAGC AGGAATCACA GAGACACGGG 
    TTTGAAGAAG AGATCATGGA ATATAAGGAG CAAATCAAAC AGCACGCCCA GACAATTGTG 
    AGCCTCGAAG AGAAACTCCA GAAAGTCACT CAGCACCATA AAAAAATAGA AGGCGAGATT 
    GCAACATTGA AGGACAATGA CCCAGCCCCA AAGGAGGAAA GGCCGCAAGA CCCTCTGGTG 
    GCTCCCATGA CAGAGAGCAG TGCCAAAGAC ATGGCGTACG AACATCTGAT AGATGACTTA 
    TTGGCTGCTC AGAAGGAAAT TCTGTCTCAG CAGGAAGTCA TCATGAAGTT AAGGAAAGAC 
    CTTACCGAAG CCCACAGCAG AATGTCGGAT TTGAGAGGGG AGCTAAACGA GAAGCAGAAG 
    ATGGAACTGG AGCAGAACGT GGTGCTGGTC CAGCAGCAGA GCAAGGAGCT GAGTGTGCTC 
    AAGGAGAAGA TGGCCCAGAT GAGCAGCCTG GTAGAAAAGA AAGATCGGGA GCTGAAGGCC 
    CTTGAGGAGG CACTCAGGGC TTCCCAAGAG AAACACAGAC TCCAGCTGAA CACAGAGAAG 
    GAACAGAAGC CCCGGAAGAA GACCCAGACG TGTGACACCT CTGTGCAGAT AGAACCCGTC 
    CACACTGAGG CCTTCTCCAG CAGCCAAGAG CAGCAATCCT TCAGCGATCT AGGGGTCAGG 
    TGCAAAGGGT CCCGGCACGA GGAGGTCATT CAGCGTCAGA AAAAGGCCTT ATCTGAACTT 
    CGAGCGCGAA TTAAAGAACT CGAGAAGGCG CGCTCACCAG ATCATAAAGA CCACCAGAAT 
    GAATCATTTC TAGATTTAAA GAACCTCAGA ATGGAAAACA ATGTCCAGAA AATACTACTG 
    GATGCAAAAC CGGATTTGCC AACTCTCTCA AGAATAGAGA TCCTAGCGCC TCAGAATGGC 
    CTTTGCAACG CAAGGTTCGG CTCAGCCATG GAGAAGTCAG GGAAGATGGA TGTGGCTGAG 
    GCTTTAGAGC TCAGTGAAAA GCTGTACCTG GATATGAGCA AAACCCTCGG AAGTCTCATG 
    AACATCAAGA ATATGTCAGG CCACGTGTCC ATGAAATACC TCTCCCGCCA GGAGAGGGAG 
    AAGGTCAACC AGCTTCGACA AAGGGACCTC GACCTGGTGT TTGATAAGAT CACCCAACTC 
    AAGAACCAGC TGGGGAGGAA AGAGGAGCTG TTGAGAGGAT ATGAAAAGGA CGTTGAACAG 
    CTCAGGCGGA GCAAAGTGTC CATTGAGATG TACCAGTCGC AGGTGGCAAA GCTGGAGGAT 
    GATATCTACA AAGAGGCCGA AGAGAAGGCC CTGCTGAAGG AGGCCCTGGA GCGCATGGAG 
    CACCAGCTGT GCCAGGAGAA GAGGATCAAC AGGGCCATCC GGCAGCAGAA GAGACGAGTA 
    TTTGTAGAGA TGGTGAAGAA CAGGATGCAG AACTCAAATT CCCAGGTTGG AACCAGAAAA 
    GCCTCCCTAA AGATGGACCA AGAAAGAGAG ATGCTGAGGA AAGAGACCTC CAGCAAGTCC 
    AGCCAGAGCC TTTTGCATTC TAAGCCCAGT GGAAAGTACT AG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011538891.1
    CDS164..4465
    Translation

    Target ORF information:

    RefSeq Version XM_011540589.2
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X21, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540589.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGATC 
    TCAGAGAGCA ACATTGCGTA CGAGAAACGC AAAGCAAAGG AGGCCATGGA GAAGGAAAAG 
    AAAAAGGTGC AAGACCTGGA GAATCGCTTA ACCAAGCAGA AAGAGGAATT AGAATTAAAA 
    GAGCAAAAAG AGGACGTTTT AAATAATAAA TTAAGTGACG CACTGGCCAT GGTTGAAGAG 
    ACTCAGAAAA CAAAGGCAAC TGAAAGTCTA AAAGCAGAGA GCCTCGCCTT GAAATTAAAT 
    GAAACATTAG CCGAACTGGA AACTACCAAG ACAAAAATGA TCATGGTGGA AGAGCGGCTA 
    ATCCTGCAGC AGAAGATGGT AAAGGCCCTC CAGGATGAGC AGGAATCACA GAGACACGGG 
    TTTGAAGAAG AGATCATGGA ATATAAGGAG CAAATCAAAC AGCACGCCCA GACAATTGTG 
    AGCCTCGAAG AGAAACTCCA GAAAGTCACT CAGCACCATA AAAAAATAGA AGGCGAGATT 
    GCAACATTGA AGGACAATGA CCCAGCCCCA AAGGAGGAAA GGCCGCAAGA CCCTCTGGTG 
    GCTCCCATGA CAGAGAGCAG TGCCAAAGAC ATGGCGTACG AACATCTGAT AGATGACTTA 
    TTGGCTGCTC AGAAGGAAAT TCTGTCTCAG CAGGAAGTCA TCATGAAGTT AAGGAAAGAC 
    CTTACCGAAG CCCACAGCAG AATGTCGGAT TTGAGAGGGG AGCTAAACGA GAAGCAGAAG 
    ATGGAACTGG AGCAGAACGT GGTGCTGGTC CAGCAGCAGA GCAAGGAGCT GAGTGTGCTC 
    AAGGAGAAGA TGGCCCAGAT GAGCAGCCTG GTAGAAAAGA AAGATCGGGA GCTGAAGGCC 
    CTTGAGGAGG CACTCAGGGC TTCCCAAGAG AAACACAGAC TCCAGCTGAA CACAGAGAAG 
    GAACAGAAGC CCCGGAAGAA GACCCAGACG TGTGACACCT CTGTGCAGAT AGAACCCGTC 
    CACACTGAGG CCTTCTCCAG CAGCCAAGAG CAGCAATCCT TCAGCGATCT AGGGGTCAGG 
    TGCAAAGGGT CCCGGCACGA GGAGGTCATT CAGCGTCAGA AAAAGGCCTT ATCTGAACTT 
    CGAGCGCGAA TTAAAGAACT CGAGAAGGCG CGCTCACCAG ATCATAAAGA CCACCAGAAT 
    GAATCATTTC TAGATTTAAA GAACCTCAGA ATGGAAAACA ATGTCCAGAA AATACTACTG 
    GATGCAAAAC CGGATTTGCC AACTCTCTCA AGAATAGAGA TCCTAGCGCC TCAGAATGGC 
    CTTTGCAACG CAAGGTTCGG CTCAGCCATG GAGAAGTCAG GGAAGATGGA TGTGGCTGAG 
    GCTTTAGAGC TCAGTGAAAA GCTGTACCTG GATATGAGCA AAACCCTCGG AAGTCTCATG 
    AACATCAAGA ATATGTCAGG CCACGTGTCC ATGAAATACC TCTCCCGCCA GGAGAGGGAG 
    AAGGTCAACC AGCTTCGACA AAGGGACCTC GACCTGGTGT TTGATAAGAT CACCCAACTC 
    AAGAACCAGC TGGGGAGGAA AGAGGAGCTG TTGAGAGGAT ATGAAAAGGA CGTTGAACAG 
    CTCAGGCGGA GCAAAGTGTC CATTGAGATG TACCAGTCGC AGGTGGCAAA GCTGGAGGAT 
    GATATCTACA AAGAGGCCGA AGAGAAGGCC CTGCTGAAGG AGGCCCTGGA GCGCATGGAG 
    CACCAGCTGT GCCAGGAGAA GAGGATCAAC AGGGCCATCC GGCAGCAGAA GAGACGAGTA 
    TTTGTAGAGA TGGTGAAGAA CAGGATGCAG AACTCAAATT CCCAGGTTGG AACCAGAAAA 
    GCCTCCCTAA AGATGGACCA AGAAAGAGAG ATGCTGAGGA AAGAGACCTC CAGCAAGTCC 
    AGCCAGAGCC TTTTGCATTC TAAGCCCAGT GGAAAGTACT AG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_024452912.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024308680.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X26, mRNA.
    Price & Availability↑
    CloneID OHu74842
    Clone ID Related Accession (Same CDS sequence) XM_024452912.1 , XM_011540590.3 , XM_024452908.1 , XM_024452903.1 , XM_011540590.2 , XM_024452909.1
    Accession Version XM_024452912.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4278bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X17
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGGGAGCTTC CAGCCCCTGC 
    CTCGCAGACA GATGGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_024308680.1
    CDS154..4431
    Translation

    Target ORF information:

    RefSeq Version XM_024452912.1
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X26, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024452912.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGGGAGCTTC CAGCCCCTGC 
    CTCGCAGACA GATGGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_011540590.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538892.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X27, mRNA.
    Price & Availability↑
    CloneID OHu74842
    Clone ID Related Accession (Same CDS sequence) XM_024452912.1 , XM_011540590.3 , XM_024452908.1 , XM_024452903.1 , XM_011540590.2 , XM_024452909.1
    Accession Version XM_011540590.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4278bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X17
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011540590.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGGGAGCTTC CAGCCCCTGC 
    CTCGCAGACA GATGGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011538892.1
    CDS155..4432
    Translation

    Target ORF information:

    RefSeq Version XM_011540590.3
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X27, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540590.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGGGAGCTTC CAGCCCCTGC 
    CTCGCAGACA GATGGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_024452908.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024308676.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X24, mRNA.
    Price & Availability↑
    CloneID OHu74842
    Clone ID Related Accession (Same CDS sequence) XM_024452912.1 , XM_011540590.3 , XM_024452908.1 , XM_024452903.1 , XM_011540590.2 , XM_024452909.1
    Accession Version XM_024452908.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4278bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X17
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGGGAGCTTC CAGCCCCTGC 
    CTCGCAGACA GATGGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_024308676.1
    CDS154..4431
    Translation

    Target ORF information:

    RefSeq Version XM_024452908.1
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X24, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024452908.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGGGAGCTTC CAGCCCCTGC 
    CTCGCAGACA GATGGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_024452903.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024308671.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X23, mRNA.
    Price & Availability↑
    CloneID OHu74842
    Clone ID Related Accession (Same CDS sequence) XM_024452912.1 , XM_011540590.3 , XM_024452908.1 , XM_024452903.1 , XM_011540590.2 , XM_024452909.1
    Accession Version XM_024452903.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4278bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X17
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGGGAGCTTC CAGCCCCTGC 
    CTCGCAGACA GATGGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_024308671.1
    CDS154..4431
    Translation

    Target ORF information:

    RefSeq Version XM_024452903.1
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X23, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024452903.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGGGAGCTTC CAGCCCCTGC 
    CTCGCAGACA GATGGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_011540590.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538892.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X22, mRNA.
    Price & Availability↑
    CloneID OHu74842
    Clone ID Related Accession (Same CDS sequence) XM_024452912.1 , XM_011540590.3 , XM_024452908.1 , XM_024452903.1 , XM_011540590.2 , XM_024452909.1
    Accession Version XM_011540590.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4278bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X17
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011540590.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGGGAGCTTC CAGCCCCTGC 
    CTCGCAGACA GATGGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011538892.1
    CDS156..4433
    Translation

    Target ORF information:

    RefSeq Version XM_011540590.2
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X22, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540590.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGGGAGCTTC CAGCCCCTGC 
    CTCGCAGACA GATGGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_024452909.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024308677.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X25, mRNA.
    Price & Availability↑
    CloneID OHu74842
    Clone ID Related Accession (Same CDS sequence) XM_024452912.1 , XM_011540590.3 , XM_024452908.1 , XM_024452903.1 , XM_011540590.2 , XM_024452909.1
    Accession Version XM_024452909.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4278bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X17
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGGGAGCTTC CAGCCCCTGC 
    CTCGCAGACA GATGGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_024308677.1
    CDS154..4431
    Translation

    Target ORF information:

    RefSeq Version XM_024452909.1
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X25, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024452909.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGGTT 
    TTGGAGAGCA GCATAGCCCA TGAAAAAAGA AAAGCAAAGG AAGCCTTGGA GTCGGAAAAG 
    AGAAAAGTTC AGGATCTGGA GAACCATTTA ACCCAACAGA AGGAGATCTC AGAGAGCAAC 
    ATTGCGTACG AGAAACGCAA AGCAAAGGAG GCCATGGAGA AGGAAAAGAA AAAGGTGCAA 
    GACCTGGAGA ATCGCTTAAC CAAGCAGAAA GAGGAATTAG AATTAAAAGA GCAAAAAGAG 
    GACGTTTTAA ATAATAAATT AAGTGACGCA CTGGCCATGG TTGAAGAGAC TCAGAAAACA 
    AAGGCAACTG AAAGTCTAAA AGCAGAGAGC CTCGCCTTGA AATTAAATGA AACATTAGCC 
    GAACTGGAAA CTACCAAGAC AAAAATGATC ATGGTGGAAG AGCGGCTAAT CCTGCAGCAG 
    AAGATGGTAA AGGCCCTCCA GGATGAGCAG GAATCACAGA GACACGGGTT TGAAGAAGAG 
    ATCATGGAAT ATAAGGAGCA AATCAAACAG CACGCCCAGA CAATTGTGAG CCTCGAAGAG 
    AAACTCCAGA AAGTCACTCA GCACCATAAA AAAATAGAAG GCGAGATTGC AACATTGAAG 
    GACAATGACC CAGCCCCAAA GGAGGAAAGG CCGCAAGACC CTCTGGTGGC TCCCATGACA 
    GAGAGCAGTG CCAAAGACAT GGCGTACGAA CATCTGATAG ATGACTTATT GGCTGCTCAG 
    AAGGAAATTC TGTCTCAGCA GGAAGTCATC ATGAAGTTAA GGAAAGACCT TACCGAAGCC 
    CACAGCAGAA TGTCGGATTT GAGAGGGGAG CTAAACGAGA AGCAGAAGAT GGAACTGGAG 
    CAGAACGTGG TGCTGGTCCA GCAGCAGAGC AAGGAGCTGA GTGTGCTCAA GGAGAAGATG 
    GCCCAGATGA GCAGCCTGGT AGAAAAGAAA GATCGGGAGC TGAAGGCCCT TGAGGAGGCA 
    CTCAGGGCTT CCCAAGAGAA ACACAGACTC CAGCTGAACA CAGAGAAGGA ACAGAAGCCC 
    CGGAAGAAGA CCCAGACGTG TGACACCTCT GTGCAGATAG AACCCGTCCA CACTGAGGCC 
    TTCTCCAGCA GCCAAGAGCA GCAATCCTTC AGCGATCTAG GGGTCAGGTG CAAAGGGTCC 
    CGGCACGAGG AGGTCATTCA GCGTCAGAAA AAGGCCTTAT CTGAACTTCG AGCGCGAATT 
    AAAGAACTCG AGAAGGCGCG CTCACCAGAT CATAAAGACC ACCAGAATGA ATCATTTCTA 
    GATTTAAAGA ACCTCAGAAT GGAAAACAAT GTCCAGAAAA TACTACTGGA TGCAAAACCG 
    GATTTGCCAA CTCTCTCAAG AATAGAGATC CTAGCGCCTC AGAATGGCCT TTGCAACGCA 
    AGGTTCGGCT CAGCCATGGA GAAGTCAGGG AAGATGGATG TGGCTGAGGC TTTAGAGCTC 
    AGTGAAAAGC TGTACCTGGA TATGAGCAAA ACCCTCGGAA GTCTCATGAA CATCAAGAAT 
    ATGTCAGGCC ACGTGTCCAT GAAATACCTC TCCCGCCAGG AGAGGGAGAA GGTCAACCAG 
    CTTCGACAAA GGGACCTCGA CCTGGTGTTT GATAAGATCA CCCAACTCAA GAACCAGCTG 
    GGGAGGAAAG AGGAGCTGTT GAGAGGATAT GAAAAGGACG TTGAACAGCT CAGGCGGAGC 
    AAAGTGTCCA TTGAGATGTA CCAGTCGCAG GTGGCAAAGC TGGAGGATGA TATCTACAAA 
    GAGGCCGAAG AGAAGGCCCT GCTGAAGGAG GCCCTGGAGC GCATGGAGCA CCAGCTGTGC 
    CAGGAGAAGA GGATCAACAG GGCCATCCGG CAGCAGAAGA TGGGAGCTTC CAGCCCCTGC 
    CTCGCAGACA GATGGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_011540592.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538894.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X29, mRNA.
    Price & Availability↑
    CloneID OHu74843
    Clone ID Related Accession (Same CDS sequence) XM_011540592.2
    Accession Version XM_011540592.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4257bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X19
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011540592.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGGAAAAGA GGGTCTCTTT CCCATGGATG AGGGGCCCAG CACCATGGCC AGGGCCACAG 
    CCACCTCGTG CCACACAGCA GCCAAACCAG GCCCCCCCAC CATCACATAT CCCCTTCCAC 
    CAAGGTGTCC AGCCAGCACC GATGCAAAGG AGCTGGTCCC AGGCCTTTCC CAGACCCACC 
    GTGGTCCTGC CGGCCTCCCA CAGGCGGCCT GTGAGCGCCA ACAAGGAGAT GTTCTCGTTC 
    GTGGTGGACG ACGCCCGCAA GCCACCCGTC ATCAAGCAAG TGTGGACCAA TGCCATGAAA 
    CTGTCAGAAA AATCAGTGGC CGAGGGGATT CCTGGGGCAG TTCCCCCTGC GGAGATTTAT 
    GTGGAGGAGG ACTTGGCCCA GCAGGACAAG GATGAAATAA TTCTGCTGCT GGGAAAAGAG 
    GTCAGCCGTC TCTCAGATTA TGAAATTGAA TCCAAATACA AAGACGTCAT AATAGCAAAC 
    CTGCAGAATG AAGTGGCTGA GCTGAGTCAG AAGGTGTCAG AGACCACCAC CTCCAGGCAG 
    AATGAGAAGG AGATCTCGCA GAAGTGTCAG GTTCTGGATG AAGACATCGA TGCCAAACAG 
    AAAGAGATCC AGAGCTTGAA AAGCCAGATC AGTGCCCTAC AGAAAGGCTA CAGCAAGGTG 
    CTGTGCCAGA CCCTGTCAGA GCGGAACTCA GAAATCACAT CCCTGAAGAA TGAGGGCGAG 
    AACTTAAAGA GAGACAACGC TATCACATCA GGGATGGTGT CATCTTTGCA AAAAGACATA 
    TTAGCAAAGG ATGAGCAAGT TCAACAACTA AAGGAAGAGG TCAGTCACCT AAAAAGTCAG 
    AACAAGGACA AGGACCACCA GCTGGAAGCC CTTGGCTCTA GATGCTCGGT GCTAAAGGAA 
    GAGTTAAAAC AGGAAGATGC TCACAGGGAG CTCAGGGAAG CCCAGGAGAA AGAGTTAAAA 
    CTCTGCAAAA CCCAAATCCA AGACATGGAG AAAGAAATGA AGAAGCTTAG GGCAGAGCTG 
    AGGAAGAGTT GTACTGAACA AAGCGTGATC TCTAGGACTC TGAGAGAAAA AAGCAAGGTT 
    GAAGAGAAGC TTCAGGAGGA TTCCAGAAGG AAATTGCTTC AGCTGCAAGA AATGGGGAAC 
    AGAGAGAGCG TCATTAAAAT CAATTTGGAG AGGGCAGTAG GTCAGCTGGA GCACTTCAGA 
    AGTCAAGTCA TCAAGGCCAC CTATGGACGG GCGAAGCCGT TCCGGGACAA GCCCGTCACC 
    GACCAACAGT TAATAGAGAA AATTACCCAG GTCACTGAGG ACAACATCAA TTTTCAGCAG 
    AAAAAGTGGA CCCTCCAGAA AGAGACCCAG CTGAGCAACT CCAAGCAGGA GGAGACCACC 
    GAGAACATCG AGAAGCTGAG GACGTCGCTG GACAGCTGCC AGGCTTGCAT GAAAATATCC 
    TGTTGCAGCC ATGACCTGAA GAAGGAGGTC GACCTTCTTC AGCACCTCCA GGTGAGCCCA 
    CCTGTCTCGG GGCTCCAGAA GGTGGTGCTG GACGTCCTGA GGCACGCGCT GTCCTGGCTG 
    GAGGAGGTGG AGCAGCTCCT CCGGGACCTC GGGATCCTGC CCTCCAGCCC CAACAAAGGG 
    TTCTCTTTGT ATCTGATATA TCTTCTGGAA CATTATAAAA AACTTATGAG CCAGGCCCAG 
    GAACTTCAGA TCAAGTTCAA CAGTTCTCAG GAAACTCAGC AGTCTTTACT GCAGGAAAAG 
    CTGCGGGAGC ATCTGGCAGA GAAGGAGAAG CTGAACGAGG AGAGGCTAGA GCAAGAGGAG 
    AAGCTCAAAG CCAAAATCAG GCAACTGACG GAAGAGAAGG CGGCTTTGGA GGAGTACATT 
    ACTCAAGAGA GAAACAGAGC GAAAGAGACT TTAGAGGAAG AACGGAAGAG AATGCAAGAA 
    CTGGAGAGCC TCCTGGCCCA GCAGAAGAAG GCTTTGGCGA AAAGCATTAC CCAGGAGAAG 
    AACAGAGTGA AGGAAGCATT AGAGGAAGAG CAGACAAGAG TCCAAGAGCT GGAGGAACGC 
    TTGGCCCGCC AGAAGGAGGT TTTGGAGAGC AGCATAGCCC ATGAAAAAAG AAAAGCAAAG 
    GAAGCCTTGG AGTCGGAAAA GAGAAAAGTT CAGGATCTGG AGAACCATTT AACCCAACAG 
    AAGGAGATCT CAGAGAGCAA CATTGCGTAC GAGAAACGCA AAGCAAAGGA GGCCATGGAG 
    AAGGAAAAGA AAAAGGTGCA AGACCTGGAG AATCGCTTAA CCAAGCAGAA AGAGGAATTA 
    GAATTAAAAG AGCAAAAAGA GGACGTTTTA AATAATAAAT TAAGTGACGC ACTGGCCATG 
    GTTGAAGAGA CTCAGAAAAC AAAGGCAACT GAAAGTCTAA AAGCAGAGAG CCTCGCCTTG 
    AAATTAAATG AAACATTAGC CGAACTGGAA ACTACCAAGA CAAAAATGAT CATGGTGGAA 
    GAGCGGCTAA TCCTGCAGCA GAAGATGGTA AAGGCCCTCC AGGATGAGCA GGAATCACAG 
    AGACACGGGT TTGAAGAAGA GATCATGGAA TATAAGGAGC AAATCAAACA GCACGCCCAG 
    ACAATTGTGA GCCTCGAAGA GAAACTCCAG AAAGTCACTC AGCACCATAA AAAAATAGAA 
    GGCGAGATTG CAACATTGAA GGACAATGAC CCAGCCCCAA AGGAGGAAAG GCCGCAAGAC 
    CCTCTGGTGG CTCCCATGAC AGAGAGCAGT GCCAAAGACA TGGCGTACGA ACATCTGATA 
    GATGACTTAT TGGCTGCTCA GAAGGAAATT CTGTCTCAGC AGGAAGTCAT CATGAAGTTA 
    AGGAAAGACC TTACCGAAGC CCACAGCAGA ATGTCGGATT TGAGAGGGGA GCTAAACGAG 
    AAGCAGAAGA TGGAACTGGA GCAGAACGTG GTGCTGGTCC AGCAGCAGAG CAAGGAGCTG 
    AGTGTGCTCA AGGAGAAGAT GGCCCAGATG AGCAGCCTGG TAGAAAAGAA AGATCGGGAG 
    CTGAAGGCCC TTGAGGAGGC ACTCAGGGCT TCCCAAGAGA AACACAGACT CCAGCTGAAC 
    ACAGAGAAGG AACAGAAGCC CCGGAAGAAG ACCCAGACGT GTGACACCTC TGTGCAGATA 
    GAACCCGTCC ACACTGAGGC CTTCTCCAGC AGCCAAGAGC AGCAATCCTT CAGCGATCTA 
    GGGGTCAGGT GCAAAGGGTC CCGGCACGAG GAGGTCATTC AGCGTCAGAA AAAGGCCTTA 
    TCTGAACTTC GAGCGCGAAT TAAAGAACTC GAGAAGGCGC GCTCACCAGA TCATAAAGAC 
    CACCAGAATG AATCATTTCT AGATTTAAAG AACCTCAGAA TGGAAAACAA TGTCCAGAAA 
    ATACTACTGG ATGCAAAACC GGATTTGCCA ACTCTCTCAA GAATAGAGAT CCTAGCGCCT 
    CAGAATGGCC TTTGCAACGC AAGGTTCGGC TCAGCCATGG AGAAGTCAGG GAAGATGGAT 
    GTGGCTGAGG CTTTAGAGCT CAGTGAAAAG CTGTACCTGG ATATGAGCAA AACCCTCGGA 
    AGTCTCATGA ACATCAAGAA TATGTCAGGC CACGTGTCCA TGAAATACCT CTCCCGCCAG 
    GAGAGGGAGA AGGTCAACCA GCTTCGACAA AGGGACCTCG ACCTGGTGTT TGATAAGATC 
    ACCCAACTCA AGAACCAGCT GGGGAGGAAA GAGGAGCTGT TGAGAGGATA TGAAAAGGAC 
    GTTGAACAGC TCAGGCGGAG CAAAGTGTCC ATTGAGATGT ACCAGTCGCA GGTGGCAAAG 
    CTGGAGGATG ATATCTACAA AGAGGCCGAA GAGAAGGCCC TGCTGAAGGA GGCCCTGGAG 
    CGCATGGAGC ACCAGCTGTG CCAGGAGAAG AGGATCAACA GGGCCATCCG GCAGCAGAAG 
    ATGAGGAAAC TGCGCCTCAG AGAGTTAAGA GGCGCCCAAG TGCACACAGC GGCTGGTAAG 
    GACAGCTGGG ACCTGACCCC AGATCCCTCT GACCCTGGTT CTCCTGCTGT CTGCAGGGTT 
    GGCCGAAAGT GTAGAGGAGC ACGAACTGAG AAACGCAAAA GAATCGACAC CTTGCAACTG 
    TGCCTTCAAA GAGAAAGACA GGCAGAGACG AGTATTTGTA GAGATGGTGA AGAACAGGAT 
    GCAGAACTCA AATTCCCAGG TTGGAACCAG AAAAGCCTCC CTAAAGATGG ACCAAGAAAG 
    AGAGATGCTG AGGAAAGAGA CCTCCAGCAA GTCCAGCCAG AGCCTTTTGC ATTCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011538894.1
    CDS204..4460
    Translation

    Target ORF information:

    RefSeq Version XM_011540592.2
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X29, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540592.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGGAAAAGA GGGTCTCTTT CCCATGGATG AGGGGCCCAG CACCATGGCC AGGGCCACAG 
    CCACCTCGTG CCACACAGCA GCCAAACCAG GCCCCCCCAC CATCACATAT CCCCTTCCAC 
    CAAGGTGTCC AGCCAGCACC GATGCAAAGG AGCTGGTCCC AGGCCTTTCC CAGACCCACC 
    GTGGTCCTGC CGGCCTCCCA CAGGCGGCCT GTGAGCGCCA ACAAGGAGAT GTTCTCGTTC 
    GTGGTGGACG ACGCCCGCAA GCCACCCGTC ATCAAGCAAG TGTGGACCAA TGCCATGAAA 
    CTGTCAGAAA AATCAGTGGC CGAGGGGATT CCTGGGGCAG TTCCCCCTGC GGAGATTTAT 
    GTGGAGGAGG ACTTGGCCCA GCAGGACAAG GATGAAATAA TTCTGCTGCT GGGAAAAGAG 
    GTCAGCCGTC TCTCAGATTA TGAAATTGAA TCCAAATACA AAGACGTCAT AATAGCAAAC 
    CTGCAGAATG AAGTGGCTGA GCTGAGTCAG AAGGTGTCAG AGACCACCAC CTCCAGGCAG 
    AATGAGAAGG AGATCTCGCA GAAGTGTCAG GTTCTGGATG AAGACATCGA TGCCAAACAG 
    AAAGAGATCC AGAGCTTGAA AAGCCAGATC AGTGCCCTAC AGAAAGGCTA CAGCAAGGTG 
    CTGTGCCAGA CCCTGTCAGA GCGGAACTCA GAAATCACAT CCCTGAAGAA TGAGGGCGAG 
    AACTTAAAGA GAGACAACGC TATCACATCA GGGATGGTGT CATCTTTGCA AAAAGACATA 
    TTAGCAAAGG ATGAGCAAGT TCAACAACTA AAGGAAGAGG TCAGTCACCT AAAAAGTCAG 
    AACAAGGACA AGGACCACCA GCTGGAAGCC CTTGGCTCTA GATGCTCGGT GCTAAAGGAA 
    GAGTTAAAAC AGGAAGATGC TCACAGGGAG CTCAGGGAAG CCCAGGAGAA AGAGTTAAAA 
    CTCTGCAAAA CCCAAATCCA AGACATGGAG AAAGAAATGA AGAAGCTTAG GGCAGAGCTG 
    AGGAAGAGTT GTACTGAACA AAGCGTGATC TCTAGGACTC TGAGAGAAAA AAGCAAGGTT 
    GAAGAGAAGC TTCAGGAGGA TTCCAGAAGG AAATTGCTTC AGCTGCAAGA AATGGGGAAC 
    AGAGAGAGCG TCATTAAAAT CAATTTGGAG AGGGCAGTAG GTCAGCTGGA GCACTTCAGA 
    AGTCAAGTCA TCAAGGCCAC CTATGGACGG GCGAAGCCGT TCCGGGACAA GCCCGTCACC 
    GACCAACAGT TAATAGAGAA AATTACCCAG GTCACTGAGG ACAACATCAA TTTTCAGCAG 
    AAAAAGTGGA CCCTCCAGAA AGAGACCCAG CTGAGCAACT CCAAGCAGGA GGAGACCACC 
    GAGAACATCG AGAAGCTGAG GACGTCGCTG GACAGCTGCC AGGCTTGCAT GAAAATATCC 
    TGTTGCAGCC ATGACCTGAA GAAGGAGGTC GACCTTCTTC AGCACCTCCA GGTGAGCCCA 
    CCTGTCTCGG GGCTCCAGAA GGTGGTGCTG GACGTCCTGA GGCACGCGCT GTCCTGGCTG 
    GAGGAGGTGG AGCAGCTCCT CCGGGACCTC GGGATCCTGC CCTCCAGCCC CAACAAAGGG 
    TTCTCTTTGT ATCTGATATA TCTTCTGGAA CATTATAAAA AACTTATGAG CCAGGCCCAG 
    GAACTTCAGA TCAAGTTCAA CAGTTCTCAG GAAACTCAGC AGTCTTTACT GCAGGAAAAG 
    CTGCGGGAGC ATCTGGCAGA GAAGGAGAAG CTGAACGAGG AGAGGCTAGA GCAAGAGGAG 
    AAGCTCAAAG CCAAAATCAG GCAACTGACG GAAGAGAAGG CGGCTTTGGA GGAGTACATT 
    ACTCAAGAGA GAAACAGAGC GAAAGAGACT TTAGAGGAAG AACGGAAGAG AATGCAAGAA 
    CTGGAGAGCC TCCTGGCCCA GCAGAAGAAG GCTTTGGCGA AAAGCATTAC CCAGGAGAAG 
    AACAGAGTGA AGGAAGCATT AGAGGAAGAG CAGACAAGAG TCCAAGAGCT GGAGGAACGC 
    TTGGCCCGCC AGAAGGAGGT TTTGGAGAGC AGCATAGCCC ATGAAAAAAG AAAAGCAAAG 
    GAAGCCTTGG AGTCGGAAAA GAGAAAAGTT CAGGATCTGG AGAACCATTT AACCCAACAG 
    AAGGAGATCT CAGAGAGCAA CATTGCGTAC GAGAAACGCA AAGCAAAGGA GGCCATGGAG 
    AAGGAAAAGA AAAAGGTGCA AGACCTGGAG AATCGCTTAA CCAAGCAGAA AGAGGAATTA 
    GAATTAAAAG AGCAAAAAGA GGACGTTTTA AATAATAAAT TAAGTGACGC ACTGGCCATG 
    GTTGAAGAGA CTCAGAAAAC AAAGGCAACT GAAAGTCTAA AAGCAGAGAG CCTCGCCTTG 
    AAATTAAATG AAACATTAGC CGAACTGGAA ACTACCAAGA CAAAAATGAT CATGGTGGAA 
    GAGCGGCTAA TCCTGCAGCA GAAGATGGTA AAGGCCCTCC AGGATGAGCA GGAATCACAG 
    AGACACGGGT TTGAAGAAGA GATCATGGAA TATAAGGAGC AAATCAAACA GCACGCCCAG 
    ACAATTGTGA GCCTCGAAGA GAAACTCCAG AAAGTCACTC AGCACCATAA AAAAATAGAA 
    GGCGAGATTG CAACATTGAA GGACAATGAC CCAGCCCCAA AGGAGGAAAG GCCGCAAGAC 
    CCTCTGGTGG CTCCCATGAC AGAGAGCAGT GCCAAAGACA TGGCGTACGA ACATCTGATA 
    GATGACTTAT TGGCTGCTCA GAAGGAAATT CTGTCTCAGC AGGAAGTCAT CATGAAGTTA 
    AGGAAAGACC TTACCGAAGC CCACAGCAGA ATGTCGGATT TGAGAGGGGA GCTAAACGAG 
    AAGCAGAAGA TGGAACTGGA GCAGAACGTG GTGCTGGTCC AGCAGCAGAG CAAGGAGCTG 
    AGTGTGCTCA AGGAGAAGAT GGCCCAGATG AGCAGCCTGG TAGAAAAGAA AGATCGGGAG 
    CTGAAGGCCC TTGAGGAGGC ACTCAGGGCT TCCCAAGAGA AACACAGACT CCAGCTGAAC 
    ACAGAGAAGG AACAGAAGCC CCGGAAGAAG ACCCAGACGT GTGACACCTC TGTGCAGATA 
    GAACCCGTCC ACACTGAGGC CTTCTCCAGC AGCCAAGAGC AGCAATCCTT CAGCGATCTA 
    GGGGTCAGGT GCAAAGGGTC CCGGCACGAG GAGGTCATTC AGCGTCAGAA AAAGGCCTTA 
    TCTGAACTTC GAGCGCGAAT TAAAGAACTC GAGAAGGCGC GCTCACCAGA TCATAAAGAC 
    CACCAGAATG AATCATTTCT AGATTTAAAG AACCTCAGAA TGGAAAACAA TGTCCAGAAA 
    ATACTACTGG ATGCAAAACC GGATTTGCCA ACTCTCTCAA GAATAGAGAT CCTAGCGCCT 
    CAGAATGGCC TTTGCAACGC AAGGTTCGGC TCAGCCATGG AGAAGTCAGG GAAGATGGAT 
    GTGGCTGAGG CTTTAGAGCT CAGTGAAAAG CTGTACCTGG ATATGAGCAA AACCCTCGGA 
    AGTCTCATGA ACATCAAGAA TATGTCAGGC CACGTGTCCA TGAAATACCT CTCCCGCCAG 
    GAGAGGGAGA AGGTCAACCA GCTTCGACAA AGGGACCTCG ACCTGGTGTT TGATAAGATC 
    ACCCAACTCA AGAACCAGCT GGGGAGGAAA GAGGAGCTGT TGAGAGGATA TGAAAAGGAC 
    GTTGAACAGC TCAGGCGGAG CAAAGTGTCC ATTGAGATGT ACCAGTCGCA GGTGGCAAAG 
    CTGGAGGATG ATATCTACAA AGAGGCCGAA GAGAAGGCCC TGCTGAAGGA GGCCCTGGAG 
    CGCATGGAGC ACCAGCTGTG CCAGGAGAAG AGGATCAACA GGGCCATCCG GCAGCAGAAG 
    ATGAGGAAAC TGCGCCTCAG AGAGTTAAGA GGCGCCCAAG TGCACACAGC GGCTGGTAAG 
    GACAGCTGGG ACCTGACCCC AGATCCCTCT GACCCTGGTT CTCCTGCTGT CTGCAGGGTT 
    GGCCGAAAGT GTAGAGGAGC ACGAACTGAG AAACGCAAAA GAATCGACAC CTTGCAACTG 
    TGCCTTCAAA GAGAAAGACA GGCAGAGACG AGTATTTGTA GAGATGGTGA AGAACAGGAT 
    GCAGAACTCA AATTCCCAGG TTGGAACCAG AAAAGCCTCC CTAAAGATGG ACCAAGAAAG 
    AGAGATGCTG AGGAAAGAGA CCTCCAGCAA GTCCAGCCAG AGCCTTTTGC ATTCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_011540593.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538895.1 Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X25, mRNA.
    Price & Availability↑
    CloneID OHu74844
    Clone ID Related Accession (Same CDS sequence) XM_011540593.2 , XM_011540593.3
    Accession Version XM_011540593.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4248bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X20
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011540593.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGATC 
    TCAGAGAGCA ACATTGCGTA CGAGAAACGC AAAGCAAAGG AGGCCATGGA GAAGGAAAAG 
    AAAAAGGTGC AAGACCTGGA GAATCGCTTA ACCAAGCAGA AAGAGGAATT AGAATTAAAA 
    GAGCAAAAAG AGGACGTTTT AAATAATAAA TTAAGTGACG CACTGGCCAT GGTTGAAGAG 
    ACTCAGAAAA CAAAGGCAAC TGAAAGTCTA AAAGCAGAGA GCCTCGCCTT GAAATTAAAT 
    GAAACATTAG CCGAACTGGA AACTACCAAG ACAAAAATGA TCATGGTGGA AGAGCGGCTA 
    ATCCTGCAGC AGAAGATGGT AAAGGCCCTC CAGGATGAGC AGGAATCACA GAGACACGGG 
    TTTGAAGAAG AGATCATGGA ATATAAGGAG CAAATCAAAC AGCACGCCCA GACAATTGTG 
    AGCCTCGAAG AGAAACTCCA GAAAGTCACT CAGCACCATA AAAAAATAGA AGGCGAGATT 
    GCAACATTGA AGGACAATGA CCCAGCCCCA AAGGAGGAAA GGCCGCAAGA CCCTCTGGTG 
    GCTCCCATGA CAGAGAGCAG TGCCAAAGAC ATGGCGTACG AACATCTGAT AGATGACTTA 
    TTGGCTGCTC AGAAGGAAAT TCTGTCTCAG CAGGAAGTCA TCATGAAGTT AAGGAAAGAC 
    CTTACCGAAG CCCACAGCAG AATGTCGGAT TTGAGAGGGG AGCTAAACGA GAAGCAGAAG 
    ATGGAACTGG AGCAGAACGT GGTGCTGGTC CAGCAGCAGA GCAAGGAGCT GAGTGTGCTC 
    AAGGAGAAGA TGGCCCAGAT GAGCAGCCTG GTAGAAAAGA AAGATCGGGA GCTGAAGGCC 
    CTTGAGGAGG CACTCAGGGC TTCCCAAGAG AAACACAGAC TCCAGCTGAA CACAGAGAAG 
    GAACAGAAGC CCCGGAAGAA GACCCAGACG TGTGACACCT CTGTGCAGAT AGAACCCGTC 
    CACACTGAGG CCTTCTCCAG CAGCCAAGAG CAGCAATCCT TCAGCGATCT AGGGGTCAGG 
    TGCAAAGGGT CCCGGCACGA GGAGGTCATT CAGCGTCAGA AAAAGGCCTT ATCTGAACTT 
    CGAGCGCGAA TTAAAGAACT CGAGAAGGCG CGCTCACCAG ATCATAAAGA CCACCAGAAT 
    GAATCATTTC TAGATTTAAA GAACCTCAGA ATGGAAAACA ATGTCCAGAA AATACTACTG 
    GATGCAAAAC CGGATTTGCC AACTCTCTCA AGAATAGAGA TCCTAGCGCC TCAGAATGGC 
    CTTTGCAACG CAAGGTTCGG CTCAGCCATG GAGAAGTCAG GGAAGATGGA TGTGGCTGAG 
    GCTTTAGAGC TCAGTGAAAA GCTGTACCTG GATATGAGCA AAACCCTCGG AAGTCTCATG 
    AACATCAAGA ATATGTCAGG CCACGTGTCC ATGAAATACC TCTCCCGCCA GGAGAGGGAG 
    AAGGTCAACC AGCTTCGACA AAGGGACCTC GACCTGGTGT TTGATAAGAT CACCCAACTC 
    AAGAACCAGC TGGGGAGGAA AGAGGAGCTG TTGAGAGGAT ATGAAAAGGA CGTTGAACAG 
    CTCAGGCGGA GCAAAGTGTC CATTGAGATG TACCAGTCGC AGGTGGCAAA GCTGGAGGAT 
    GATATCTACA AAGAGGCCGA AGAGAAGGCC CTGCTGAAGG AGGCCCTGGA GCGCATGGAG 
    CACCAGCTGT GCCAGGAGAA GAGGATCAAC AGGGCCATCC GGCAGCAGAA GGTTGGAACC 
    AGAAAAGCCT CCCTAAAGAT GGACCAAGAA AGAGAGATGC TGAGGAAAGA GACCTCCAGC 
    AAGTCCAGCC AGAGCCTTTT GCATTCTAAG CCCAGTGGAA AGTACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011538895.1
    CDS160..4407
    Translation

    Target ORF information:

    RefSeq Version XM_011540593.2
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead-associated (FHA) phosphopeptide binding domain 1 (FHAD1), transcript variant X25, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540593.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGATC 
    TCAGAGAGCA ACATTGCGTA CGAGAAACGC AAAGCAAAGG AGGCCATGGA GAAGGAAAAG 
    AAAAAGGTGC AAGACCTGGA GAATCGCTTA ACCAAGCAGA AAGAGGAATT AGAATTAAAA 
    GAGCAAAAAG AGGACGTTTT AAATAATAAA TTAAGTGACG CACTGGCCAT GGTTGAAGAG 
    ACTCAGAAAA CAAAGGCAAC TGAAAGTCTA AAAGCAGAGA GCCTCGCCTT GAAATTAAAT 
    GAAACATTAG CCGAACTGGA AACTACCAAG ACAAAAATGA TCATGGTGGA AGAGCGGCTA 
    ATCCTGCAGC AGAAGATGGT AAAGGCCCTC CAGGATGAGC AGGAATCACA GAGACACGGG 
    TTTGAAGAAG AGATCATGGA ATATAAGGAG CAAATCAAAC AGCACGCCCA GACAATTGTG 
    AGCCTCGAAG AGAAACTCCA GAAAGTCACT CAGCACCATA AAAAAATAGA AGGCGAGATT 
    GCAACATTGA AGGACAATGA CCCAGCCCCA AAGGAGGAAA GGCCGCAAGA CCCTCTGGTG 
    GCTCCCATGA CAGAGAGCAG TGCCAAAGAC ATGGCGTACG AACATCTGAT AGATGACTTA 
    TTGGCTGCTC AGAAGGAAAT TCTGTCTCAG CAGGAAGTCA TCATGAAGTT AAGGAAAGAC 
    CTTACCGAAG CCCACAGCAG AATGTCGGAT TTGAGAGGGG AGCTAAACGA GAAGCAGAAG 
    ATGGAACTGG AGCAGAACGT GGTGCTGGTC CAGCAGCAGA GCAAGGAGCT GAGTGTGCTC 
    AAGGAGAAGA TGGCCCAGAT GAGCAGCCTG GTAGAAAAGA AAGATCGGGA GCTGAAGGCC 
    CTTGAGGAGG CACTCAGGGC TTCCCAAGAG AAACACAGAC TCCAGCTGAA CACAGAGAAG 
    GAACAGAAGC CCCGGAAGAA GACCCAGACG TGTGACACCT CTGTGCAGAT AGAACCCGTC 
    CACACTGAGG CCTTCTCCAG CAGCCAAGAG CAGCAATCCT TCAGCGATCT AGGGGTCAGG 
    TGCAAAGGGT CCCGGCACGA GGAGGTCATT CAGCGTCAGA AAAAGGCCTT ATCTGAACTT 
    CGAGCGCGAA TTAAAGAACT CGAGAAGGCG CGCTCACCAG ATCATAAAGA CCACCAGAAT 
    GAATCATTTC TAGATTTAAA GAACCTCAGA ATGGAAAACA ATGTCCAGAA AATACTACTG 
    GATGCAAAAC CGGATTTGCC AACTCTCTCA AGAATAGAGA TCCTAGCGCC TCAGAATGGC 
    CTTTGCAACG CAAGGTTCGG CTCAGCCATG GAGAAGTCAG GGAAGATGGA TGTGGCTGAG 
    GCTTTAGAGC TCAGTGAAAA GCTGTACCTG GATATGAGCA AAACCCTCGG AAGTCTCATG 
    AACATCAAGA ATATGTCAGG CCACGTGTCC ATGAAATACC TCTCCCGCCA GGAGAGGGAG 
    AAGGTCAACC AGCTTCGACA AAGGGACCTC GACCTGGTGT TTGATAAGAT CACCCAACTC 
    AAGAACCAGC TGGGGAGGAA AGAGGAGCTG TTGAGAGGAT ATGAAAAGGA CGTTGAACAG 
    CTCAGGCGGA GCAAAGTGTC CATTGAGATG TACCAGTCGC AGGTGGCAAA GCTGGAGGAT 
    GATATCTACA AAGAGGCCGA AGAGAAGGCC CTGCTGAAGG AGGCCCTGGA GCGCATGGAG 
    CACCAGCTGT GCCAGGAGAA GAGGATCAAC AGGGCCATCC GGCAGCAGAA GGTTGGAACC 
    AGAAAAGCCT CCCTAAAGAT GGACCAAGAA AGAGAGATGC TGAGGAAAGA GACCTCCAGC 
    AAGTCCAGCC AGAGCCTTTT GCATTCTAAG CCCAGTGGAA AGTACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    FHAD1 ( XM_011540593.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538895.1 Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X30, mRNA.
    Price & Availability↑
    CloneID OHu74844
    Clone ID Related Accession (Same CDS sequence) XM_011540593.2 , XM_011540593.3
    Accession Version XM_011540593.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4248bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product forkhead-associated domain-containing protein 1 isoform X20
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011540593.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGATC 
    TCAGAGAGCA ACATTGCGTA CGAGAAACGC AAAGCAAAGG AGGCCATGGA GAAGGAAAAG 
    AAAAAGGTGC AAGACCTGGA GAATCGCTTA ACCAAGCAGA AAGAGGAATT AGAATTAAAA 
    GAGCAAAAAG AGGACGTTTT AAATAATAAA TTAAGTGACG CACTGGCCAT GGTTGAAGAG 
    ACTCAGAAAA CAAAGGCAAC TGAAAGTCTA AAAGCAGAGA GCCTCGCCTT GAAATTAAAT 
    GAAACATTAG CCGAACTGGA AACTACCAAG ACAAAAATGA TCATGGTGGA AGAGCGGCTA 
    ATCCTGCAGC AGAAGATGGT AAAGGCCCTC CAGGATGAGC AGGAATCACA GAGACACGGG 
    TTTGAAGAAG AGATCATGGA ATATAAGGAG CAAATCAAAC AGCACGCCCA GACAATTGTG 
    AGCCTCGAAG AGAAACTCCA GAAAGTCACT CAGCACCATA AAAAAATAGA AGGCGAGATT 
    GCAACATTGA AGGACAATGA CCCAGCCCCA AAGGAGGAAA GGCCGCAAGA CCCTCTGGTG 
    GCTCCCATGA CAGAGAGCAG TGCCAAAGAC ATGGCGTACG AACATCTGAT AGATGACTTA 
    TTGGCTGCTC AGAAGGAAAT TCTGTCTCAG CAGGAAGTCA TCATGAAGTT AAGGAAAGAC 
    CTTACCGAAG CCCACAGCAG AATGTCGGAT TTGAGAGGGG AGCTAAACGA GAAGCAGAAG 
    ATGGAACTGG AGCAGAACGT GGTGCTGGTC CAGCAGCAGA GCAAGGAGCT GAGTGTGCTC 
    AAGGAGAAGA TGGCCCAGAT GAGCAGCCTG GTAGAAAAGA AAGATCGGGA GCTGAAGGCC 
    CTTGAGGAGG CACTCAGGGC TTCCCAAGAG AAACACAGAC TCCAGCTGAA CACAGAGAAG 
    GAACAGAAGC CCCGGAAGAA GACCCAGACG TGTGACACCT CTGTGCAGAT AGAACCCGTC 
    CACACTGAGG CCTTCTCCAG CAGCCAAGAG CAGCAATCCT TCAGCGATCT AGGGGTCAGG 
    TGCAAAGGGT CCCGGCACGA GGAGGTCATT CAGCGTCAGA AAAAGGCCTT ATCTGAACTT 
    CGAGCGCGAA TTAAAGAACT CGAGAAGGCG CGCTCACCAG ATCATAAAGA CCACCAGAAT 
    GAATCATTTC TAGATTTAAA GAACCTCAGA ATGGAAAACA ATGTCCAGAA AATACTACTG 
    GATGCAAAAC CGGATTTGCC AACTCTCTCA AGAATAGAGA TCCTAGCGCC TCAGAATGGC 
    CTTTGCAACG CAAGGTTCGG CTCAGCCATG GAGAAGTCAG GGAAGATGGA TGTGGCTGAG 
    GCTTTAGAGC TCAGTGAAAA GCTGTACCTG GATATGAGCA AAACCCTCGG AAGTCTCATG 
    AACATCAAGA ATATGTCAGG CCACGTGTCC ATGAAATACC TCTCCCGCCA GGAGAGGGAG 
    AAGGTCAACC AGCTTCGACA AAGGGACCTC GACCTGGTGT TTGATAAGAT CACCCAACTC 
    AAGAACCAGC TGGGGAGGAA AGAGGAGCTG TTGAGAGGAT ATGAAAAGGA CGTTGAACAG 
    CTCAGGCGGA GCAAAGTGTC CATTGAGATG TACCAGTCGC AGGTGGCAAA GCTGGAGGAT 
    GATATCTACA AAGAGGCCGA AGAGAAGGCC CTGCTGAAGG AGGCCCTGGA GCGCATGGAG 
    CACCAGCTGT GCCAGGAGAA GAGGATCAAC AGGGCCATCC GGCAGCAGAA GGTTGGAACC 
    AGAAAAGCCT CCCTAAAGAT GGACCAAGAA AGAGAGATGC TGAGGAAAGA GACCTCCAGC 
    AAGTCCAGCC AGAGCCTTTT GCATTCTAAG CCCAGTGGAA AGTACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011538895.1
    CDS159..4406
    Translation

    Target ORF information:

    RefSeq Version XM_011540593.3
    Organism Homo sapiens(human)
    Definition Homo sapiens forkhead associated phosphopeptide binding domain 1 (FHAD1), transcript variant X30, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540593.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGACATCAC TTGAGCCCTG CAGACTTTTC ATTTACGGGA AAACAGAGAG GATGAAGGCC 
    TATCTAAAGA GCGCAGAAGG CTTTTTTGTC CTAAATAAAA GTACCACAAT TGGAAGGCAT 
    GAAAATTCAG ACCTTGTTTT ACAGTCTCCT GACATCGACA ACCACCATGC ACTCATTGAA 
    TATAACGAGG CGGAGTGCAG CTTTGTTCTC CAGGACTTCA ATTCCCGCAA CGGCACGTTT 
    GTCAACGAGT GCCACATTCA AAACGTGGCT GTGAAGCTCA TCCCTGGAGA CATCCTGAGA 
    TTTGGGTCTG CAGGGCTGAC CTATGAACTG GTCATTGAAA ATCCACCTCC GGTCTCTTTC 
    CCATGGATGA GGGGCCCAGC ACCATGGCCA GGGCCACAGC CACCTCGTGC CACACAGCAG 
    CCAAACCAGG CCCCCCCACC ATCACATATC CCCTTCCACC AAGGTGTCCA GCCAGCACCG 
    ATGCAAAGGA GCTGGTCCCA GGCCTTTCCC AGACCCACCG TGGTCCTGCC GGCCTCCCAC 
    AGGCGGCCTG TGAGCGCCAA CAAGGAGATG TTCTCGTTCG TGGTGGACGA CGCCCGCAAG 
    CCACCCGTCA TCAAGCAAGT GTGGACCAAT GCCATGAAAC TGTCAGAAAA ATCAGTGGCC 
    GAGGGGATTC CTGGGGCAGT TCCCCCTGCG GAGATTTATG TGGAGGAGGA CTTGGCCCAG 
    CAGGACAAGG ATGAAATAAT TCTGCTGCTG GGAAAAGAGG TCAGCCGTCT CTCAGATTAT 
    GAAATTGAAT CCAAATACAA AGACGTCATA ATAGCAAACC TGCAGAATGA AGTGGCTGAG 
    CTGAGTCAGA AGGTGTCAGA GACCACCACC TCCAGGCAGA ATGAGAAGGA GATCTCGCAG 
    AAGTGTCAGG TTCTGGATGA AGACATCGAT GCCAAACAGA AAGAGATCCA GAGCTTGAAA 
    AGCCAGATCA GTGCCCTACA GAAAGGCTAC AGCAAGGTGC TGTGCCAGAC CCTGTCAGAG 
    CGGAACTCAG AAATCACATC CCTGAAGAAT GAGGGCGAGA ACTTAAAGAG AGACAACGCT 
    ATCACATCAG GGATGGTGTC ATCTTTGCAA AAAGACATAT TAGCAAAGGA TGAGCAAGTT 
    CAACAACTAA AGGAAGAGGT CAGTCACCTA AAAAGTCAGA ACAAGGACAA GGACCACCAG 
    CTGGAAGCCC TTGGCTCTAG ATGCTCGGTG CTAAAGGAAG AGTTAAAACA GGAAGATGCT 
    CACAGGGAGC TCAGGGAAGC CCAGGAGAAA GAGTTAAAAC TCTGCAAAAC CCAAATCCAA 
    GACATGGAGA AAGAAATGAA GAAGCTTAGG GCAGAGCTGA GGAAGAGTTG TACTGAACAA 
    AGCGTGATCT CTAGGACTCT GAGAGAAAAA AGCAAGGTTG AAGAGAAGCT TCAGGAGGAT 
    TCCAGAAGGA AATTGCTTCA GCTGCAAGAA ATGGGGAACA GAGAGAGCGT CATTAAAATC 
    AATTTGGAGA GGGCAGTAGG TCAGCTGGAG CACTTCAGAA GTCAAGTCAT CAAGGCCACC 
    TATGGACGGG CGAAGCCGTT CCGGGACAAG CCCGTCACCG ACCAACAGTT AATAGAGAAA 
    ATTACCCAGG TCACTGAGGA CAACATCAAT TTTCAGCAGA AAAAGTGGAC CCTCCAGAAA 
    GAGACCCAGC TGAGCAACTC CAAGCAGGAG GAGACCACCG AGAACATCGA GAAGCTGAGG 
    ACGTCGCTGG ACAGCTGCCA GGCTTGCATG AAAATATCCT GTTGCAGCCA TGACCTGAAG 
    AAGGAGGTCG ACCTTCTTCA GCACCTCCAG GTGAGCCCAC CTGTCTCGGG GCTCCAGAAG 
    GTGGTGCTGG ACGTCCTGAG GCACGCGCTG TCCTGGCTGG AGGAGGTGGA GCAGCTCCTC 
    CGGGACCTCG GGATCCTGCC CTCCAGCCCC AACAAAGGGT TCTCTTTGTA TCTGATATAT 
    CTTCTGGAAC ATTATAAAAA ACTTATGAGC CAGGCCCAGG AACTTCAGAT CAAGTTCAAC 
    AGTTCTCAGG AAACTCAGCA GTCTTTACTG CAGGAAAAGC TGCGGGAGCA TCTGGCAGAG 
    AAGGAGAAGC TGAACGAGGA GAGGCTAGAG CAAGAGGAGA AGCTCAAAGC CAAAATCAGG 
    CAACTGACGG AAGAGAAGGC GGCTTTGGAG GAGTACATTA CTCAAGAGAG AAACAGAGCG 
    AAAGAGACTT TAGAGGAAGA ACGGAAGAGA ATGCAAGAAC TGGAGAGCCT CCTGGCCCAG 
    CAGAAGAAGG CTTTGGCGAA AAGCATTACC CAGGAGAAGA ACAGAGTGAA GGAAGCATTA 
    GAGGAAGAGC AGACAAGAGT CCAAGAGCTG GAGGAACGCT TGGCCCGCCA GAAGGAGATC 
    TCAGAGAGCA ACATTGCGTA CGAGAAACGC AAAGCAAAGG AGGCCATGGA GAAGGAAAAG 
    AAAAAGGTGC AAGACCTGGA GAATCGCTTA ACCAAGCAGA AAGAGGAATT AGAATTAAAA 
    GAGCAAAAAG AGGACGTTTT AAATAATAAA TTAAGTGACG CACTGGCCAT GGTTGAAGAG 
    ACTCAGAAAA CAAAGGCAAC TGAAAGTCTA AAAGCAGAGA GCCTCGCCTT GAAATTAAAT 
    GAAACATTAG CCGAACTGGA AACTACCAAG ACAAAAATGA TCATGGTGGA AGAGCGGCTA 
    ATCCTGCAGC AGAAGATGGT AAAGGCCCTC CAGGATGAGC AGGAATCACA GAGACACGGG 
    TTTGAAGAAG AGATCATGGA ATATAAGGAG CAAATCAAAC AGCACGCCCA GACAATTGTG 
    AGCCTCGAAG AGAAACTCCA GAAAGTCACT CAGCACCATA AAAAAATAGA AGGCGAGATT 
    GCAACATTGA AGGACAATGA CCCAGCCCCA AAGGAGGAAA GGCCGCAAGA CCCTCTGGTG 
    GCTCCCATGA CAGAGAGCAG TGCCAAAGAC ATGGCGTACG AACATCTGAT AGATGACTTA 
    TTGGCTGCTC AGAAGGAAAT TCTGTCTCAG CAGGAAGTCA TCATGAAGTT AAGGAAAGAC 
    CTTACCGAAG CCCACAGCAG AATGTCGGAT TTGAGAGGGG AGCTAAACGA GAAGCAGAAG 
    ATGGAACTGG AGCAGAACGT GGTGCTGGTC CAGCAGCAGA GCAAGGAGCT GAGTGTGCTC 
    AAGGAGAAGA TGGCCCAGAT GAGCAGCCTG GTAGAAAAGA AAGATCGGGA GCTGAAGGCC 
    CTTGAGGAGG CACTCAGGGC TTCCCAAGAG AAACACAGAC TCCAGCTGAA CACAGAGAAG 
    GAACAGAAGC CCCGGAAGAA GACCCAGACG TGTGACACCT CTGTGCAGAT AGAACCCGTC 
    CACACTGAGG CCTTCTCCAG CAGCCAAGAG CAGCAATCCT TCAGCGATCT AGGGGTCAGG 
    TGCAAAGGGT CCCGGCACGA GGAGGTCATT CAGCGTCAGA AAAAGGCCTT ATCTGAACTT 
    CGAGCGCGAA TTAAAGAACT CGAGAAGGCG CGCTCACCAG ATCATAAAGA CCACCAGAAT 
    GAATCATTTC TAGATTTAAA GAACCTCAGA ATGGAAAACA ATGTCCAGAA AATACTACTG 
    GATGCAAAAC CGGATTTGCC AACTCTCTCA AGAATAGAGA TCCTAGCGCC TCAGAATGGC 
    CTTTGCAACG CAAGGTTCGG CTCAGCCATG GAGAAGTCAG GGAAGATGGA TGTGGCTGAG 
    GCTTTAGAGC TCAGTGAAAA GCTGTACCTG GATATGAGCA AAACCCTCGG AAGTCTCATG 
    AACATCAAGA ATATGTCAGG CCACGTGTCC ATGAAATACC TCTCCCGCCA GGAGAGGGAG 
    AAGGTCAACC AGCTTCGACA AAGGGACCTC GACCTGGTGT TTGATAAGAT CACCCAACTC 
    AAGAACCAGC TGGGGAGGAA AGAGGAGCTG TTGAGAGGAT ATGAAAAGGA CGTTGAACAG 
    CTCAGGCGGA GCAAAGTGTC CATTGAGATG TACCAGTCGC AGGTGGCAAA GCTGGAGGAT 
    GATATCTACA AAGAGGCCGA AGAGAAGGCC CTGCTGAAGG AGGCCCTGGA GCGCATGGAG 
    CACCAGCTGT GCCAGGAGAA GAGGATCAAC AGGGCCATCC GGCAGCAGAA GGTTGGAACC 
    AGAAAAGCCT CCCTAAAGAT GGACCAAGAA AGAGAGATGC TGAGGAAAGA GACCTCCAGC 
    AAGTCCAGCC AGAGCCTTTT GCATTCTAAG CCCAGTGGAA AGTACTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

見積依頼

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