ORF » Species Summary » Homo sapiens » SCAF11 cDNA ORF clone

SCAF11 cDNA ORF clone, Homo sapiens(human)

The following SCAF11 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SCAF11 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
OHu04567 NM_004719.3
Latest version!		 Homo sapiens SR-related CTD associated factor 11 (SCAF11), mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK 		$519.50-$727.30
$1039.00
OHu84322 XM_017020219.1
Latest version!		 Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu84322 XM_017020217.1
Latest version!		 Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu84323 XM_017020218.1
Latest version!		 Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu84324 XM_017020220.1
Latest version!		 Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu84325 XM_017020221.1
Latest version!		 Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu84326 XM_024449274.1
Latest version!		 Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu84326 XM_017020222.1
Latest version!		 Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu04567 XM_011538985.1
Latest version!		 Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu04567 XM_005269230.2
Latest version!		 Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu62559 XM_011538984.2
Latest version!		 Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu62561 XM_024449275.1
Latest version!		 Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu62561 XM_017020223.1
Latest version!		 Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
View Old Accession Versions >>
OHu04567 NM_004719.2 Homo sapiens SR-related CTD associated factor 11 (SCAF11), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
Hide Old Accession Versions >>

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** 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)
    SCAF11 ( NM_004719.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_004710.2 Homo sapiens SR-related CTD associated factor 11 (SCAF11), mRNA.
    Price & Availability↑
    CloneID OHu04567
    Clone ID Related Accession (Same CDS sequence) XM_005269230.2 , NM_004719.3 , NM_004719.2 , XM_011538985.1
    Accession Version NM_004719.3 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 2019-11-16
    Organism Homo sapiens(human)
    Product protein SCAF11
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC084878.12, AF030234.1 and AC000015.2. On Nov 23, 2018 this sequence version replaced NM_004719.2. ##Evidence-Data-START## Transcript exon combination :: AF030234.1, SRR1660803.223614.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000369367.8/ ENSP00000358374.3 RefSeq Select criteria :: based on conservation, expression ##RefSeq-Attributes-END## COMPLETENESS: full length. 

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    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
    ATGAAGAAGA AAACTGTATG TACCCTAAAT ATGGGAGATA AGAAGTATGA AGACATGGAA 
    GGTGAAGAAA ACGGAGATAA TACTATTTCC ACTGGTCTGT TGTACAGTGA GGCTGACAGA 
    TGCCCAATAT GTCTTAATTG TCTATTAGAA AAGGAAGTTG GTTTTCCAGA AAGCTGTAAT 
    CATGTCTTCT GTATGACTTG TATTCTTAAA TGGGCAGAGA CACTGGCTTC ATGTCCTATT 
    GACCGTAAAC CTTTTCAGGC AGTGTTTAAA TTCAGTGCAT TGGAAGGTTA TGTTAAGGTT 
    CAAGTAAAAA AACAGCTGAG AGAAACAAAA GACAAGAAAA ATGAAAACTC ATTTGAGAAA 
    CAGGTCTCCT GTCATGAAAA TTCTAAAAGC TGTATAAGAA GAAAAGCCAT CGTAAGAGAA 
    GATCTATTAA GTGCAAAAGT TTGTGACTTG AAGTGGATAC ATAGAAACTC TTTATACAGT 
    GAAACAGGAG GAAAGAAAAA TGCAGCAATA AAGATAAATA AGCCTCAGAG ATCAAATTGG 
    AGTACAAATC AGTGCTTCAG AAATTTTTTC TCCAATATGT TTTCTTCTGT TAGCCACTCT 
    GGAGAATCTT CCTTTACCTA TAGAGCTTAT TGTACAGAAT TTATAGAAGC CAGTGAAATC 
    AGTGCATTGA TTAGGCAGAA GAGACATGAA CTGGAATTGT CATGGTTTCC TGATACATTA 
    CCTGGAATTG GAAGAATTGG TTTTATACCC TGGAATGTTG AAACAGAAGT CCTTCCTCTC 
    ATTTCTTCTG TGTTGCCAAG AACTATTTTT CCAACAAGTA CCATATCTTT CGAACATTTT 
    GGTACTTCTT GCAAGGGATA TGCATTAGCA CATACTCAAG AAGGGGAAGA AAAGAAGCAA 
    ACTTCTGGTA CATCAAATAC CAGAGGATCA AGACGAAAAC CTGCAATGAC AACTCCTACA 
    AGGAGGTCTA CACGTAACAC AAGAGCTGAA ACAGCCAGTC AGTCTCAGAG ATCCCCAATA 
    TCAGACAATT CTGGGTGTGA TGCCCCAGGT AACAGTAATC CATCTTTAAG TGTTCCCTCT 
    TCAGCTGAGT CAGAAAAGCA AACAAGACAG GCTCCAAAAC GGAAGTCTGT AAGAAGAGGA 
    AGAAAACCAC CTTTACTGAA AAAGAAACTT CGGAGCTCTG TAGCTGCCCC TGAAAAATCA 
    TCTTCCAATG ATTCAGTAGA TGAAGAAACA GCAGAATCTG ACACATCACC TGTGTTAGAA 
    AAAGAGCACC AACCAGATGT AGACAGTAGT AACATTTGTA CTGTGCAGAC TCATGTAGAA 
    AACCAGTCTG CTAATTGCTT GAAAAGTTGC AATGAGCAAA TAGAAGAAAG TGAGAAGCAT 
    ACTGCAAATT ATGATACAGA GGAAAGAGTA GGATCTTCAT CTTCTGAGTC TTGTGCTCAA 
    GATCTTCCTG TGCTAGTTGG TGAGGAAGGG GAAGTTAAAA AACTCGAGAA TACAGGTATA 
    GAGGCTAATG TTTTGTGTTT GGAAAGTGAG ATTTCTGAAA ATATTCTTGA AAAAGGAGGT 
    GATCCATTGG AAAAGCAAGA CCAGATATCT GGACTTTCAC AATCAGAGGT AAAGACAGAT 
    GTATGTACAG TTCATCTTCC AAATGATTTT CCTACATGTT TAACATCTGA AAGCAAAGTG 
    TACCAACCTG TATCTTGTCC CCTAAGTGAC TTATCTGAGA ATGTAGAGTC AGTGGTTAAT 
    GAAGAAAAAA TAACAGAGAG TTCCCTAGTA GAAATTACTG AACATAAAGA TTTTACACTA 
    AAAACAGAGG AGCTTATAGA GAGCCCCAAG TTAGAATCTT CTGAGGGTGA AATTATACAG 
    ACAGTGGACA GACAATCTGT TAAGAGCCCA GAGGTTCAAT TGCTTGGGCA TGTTGAAACT 
    GAAGATGTAG AAATAATTGC AACATGTGAT ACTTTTGGGA ATGAAGATTT CAATAATATT 
    CAAGACTCTG AAAATAACTT ACTAAAAAAT AATCTTCTGA ACACCAAATT GGAAAAATCT 
    TTAGAAGAAA AGAATGAATC GCTGACCGAA CATCCTAGAT CTACAGAGTT GCCTAAAACA 
    CACATTGAAC AGATTCAGAA GCATTTTAGT GAGGACAACA ATGAAATGAT ACCTATGGAG 
    TGTGATTCAT TTTGCAGTGA CCAAAATGAA TCTGAAGTTG AACCATCTGT AAATGCTGAT 
    CTTAAACAAA TGAATGAAAA TTCTGTGACA CACTGTTCTG AAAATAATAT GCCGTCTTCT 
    GATCTTGCGG ATGAAAAGGT TGAAACTGTT TCTCAACCAT CTGAAAGCCC AAAAGATACC 
    ATAGATAAAA CCAAAAAGCC TCGTACTCGA AGATCTAGAT TTCATTCTCC ATCTACAACT 
    TGGTCACCCA ACAAAGACAC TCCACAAGAA AAGAAGCGGC CCCAGTCTCC ATCTCCCAGA 
    AGAGAAACTG GGAAAGAAAG CAGGAAGTCT CAATCACCAT CTCCTAAGAA TGAGTCAGCC 
    AGAGGCCGGA AAAAATCCCG TTCTCAGTCC CCAAAAAAGG ATATTGCAAG AGAAAGGAGG 
    CAATCTCAGT CTCGGTCTCC AAAAAGGGAT ACTACTAGGG AAAGCAGAAG ATCTGAATCA 
    CTGTCCCCAA GAAGAGAAAC TTCTAGAGAG AACAAAAGAT CTCAGCCAAG AGTGAAAGAT 
    TCTTCCCCAG GAGAAAAATC CAGGTCCCAG AGCAGAGAAC GAGAAAGTGA TAGAGATGGG 
    CAGAGGAGAG AGAGAGAAAG GAGAACCAGA AAGTGGTCTA GGTCCAGATC TCATTCTAGG 
    TCCCCCTCAA GATGTAGAAC AAAAAGTAAG AGTTCATCAT TTGGTAGAAT TGACAGAGAT 
    AGTTACTCTC CCCGGTGGAA GGGAAGATGG GCAAATGATG GTTGGAGATG TCCACGAGGA 
    AATGATCGGT ACAGAAAGAA TGACCCAGAG AAACAGAATG AAAATACAAG AAAAGAAAAA 
    AATGACATCC ATCTAGATGC TGATGATCCA AATTCTGCTG ACAAACATAG AAATGACTGT 
    CCCAATTGGA TAACAGAAAA AATAAACTCT GGGCCTGATC CAAGAACCAG AAATCCAGAA 
    AAGTTGAAAG AGTCTCATTG GGAAGAAAAT AGAAATGAAA ATTCAGGAAA TTCTTGGAAT 
    AAAAACTTTG GTTCTGGTTG GGTATCTAAC CGTGGTAGAG GCAGAGGCAA CCGTGGCAGA 
    GGCACTTACA GAAGTAGTTT TGCCTATAAA GATCAGAATG AAAATCGGTG GCAAAATCGA 
    AAACCCCTCT CAGGGAATTC AAACAGTTCA GGGAGTGAAT CTTTCAAGTT TGTGGAACAG 
    CAATCCTATA AGCGAAAAAG TGAACAGGAG TTCTCATTTG ATACACCAGC AGATAGATCT 
    GGATGGACAT CTGCATCCAG CTGGGCCGTG AGAAAGACTT TGCCAGCAGA TGTACAAAAC 
    TACTACTCAC GACGAGGCAG AAATTCTTCA GGTCCACAGT CTGGATGGAT GAAACAAGAG 
    GAGGAAACAT CTGGACAGGA TTCTAGCCTA AAAGACCAAA CAAACCAGCA AGTTGATGGT 
    TCTCAGCTAC CTATAAATAT GATGCAACCG CAAATGAATG TAATGCAGCA ACAAATGAAT 
    GCACAACACC AGCCTATGAA TATCTTCCCA TATCCAGTGG GTGTTCATGC TCCTTTGATG 
    AACATCCAAC GCAATCCATT TAACATTCAT CCTCAGCTAC CCTTGCATCT CCACACAGGA 
    GTGCCCCTCA TGCAGGTAGC CACTCCTACC AGTGTATCTC AGGGACTACC ACCACCACCA 
    CCCCCTCCCC CACCATCCCA ACAAGTCAAC TACATTGCTT CACAACCAGA TGGAAAGCAA 
    TTGCAGGGTA TTCCTAGTTC TTCTCATGTA AGTAATAACA TGAGTACACC AGTTTTGCCT 
    GCTCCGACAG CAGCCCCAGG AAATACGGGA ATGGTTCAGG GACCAAGTTC TGGTAATACT 
    TCGTCATCAA GTCACAGCAA AGCCTCTAAT GCTGCTGTAA AATTGGCAGA AAGCAAAGTA 
    AGTGTTGCAG TGGAAGCCAG CGCAGATAGC TCGAAGACAG ACAAGAAATT GCAAATTCAA 
    GAAAAAGCAG CACAAGAGGT AAAATTGGCC ATCAAGCCAT TTTACCAAAA TAAAGATATC 
    ACCAAGGAAG AATATAAAGA AATTGTACGG AAAGCAGTAG ATAAAGTTTG TCATAGTAAG 
    AGTGGAGAAG TAAATTCTAC TAAAGTGGCA AATCTGGTTA AAGCCTATGT AGACAAATAC 
    AAATATTCAC GGAAGGGGAG CCAAAAGAAA ACTCTGGAAG AACCTGTGTC TACTGAAAAA 
    AACATAGGCT GA

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

    RefSeq NP_004710.2
    CDS244..4635
    Translation

    Target ORF information:

    RefSeq Version NM_004719.3
    Organism Homo sapiens(human)
    Definition Homo sapiens SR-related CTD associated factor 11 (SCAF11), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_004719.3

    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
    ATGAAGAAGA AAACTGTATG TACCCTAAAT ATGGGAGATA AGAAGTATGA AGACATGGAA 
    GGTGAAGAAA ACGGAGATAA TACTATTTCC ACTGGTCTGT TGTACAGTGA GGCTGACAGA 
    TGCCCAATAT GTCTTAATTG TCTATTAGAA AAGGAAGTTG GTTTTCCAGA AAGCTGTAAT 
    CATGTCTTCT GTATGACTTG TATTCTTAAA TGGGCAGAGA CACTGGCTTC ATGTCCTATT 
    GACCGTAAAC CTTTTCAGGC AGTGTTTAAA TTCAGTGCAT TGGAAGGTTA TGTTAAGGTT 
    CAAGTAAAAA AACAGCTGAG AGAAACAAAA GACAAGAAAA ATGAAAACTC ATTTGAGAAA 
    CAGGTCTCCT GTCATGAAAA TTCTAAAAGC TGTATAAGAA GAAAAGCCAT CGTAAGAGAA 
    GATCTATTAA GTGCAAAAGT TTGTGACTTG AAGTGGATAC ATAGAAACTC TTTATACAGT 
    GAAACAGGAG GAAAGAAAAA TGCAGCAATA AAGATAAATA AGCCTCAGAG ATCAAATTGG 
    AGTACAAATC AGTGCTTCAG AAATTTTTTC TCCAATATGT TTTCTTCTGT TAGCCACTCT 
    GGAGAATCTT CCTTTACCTA TAGAGCTTAT TGTACAGAAT TTATAGAAGC CAGTGAAATC 
    AGTGCATTGA TTAGGCAGAA GAGACATGAA CTGGAATTGT CATGGTTTCC TGATACATTA 
    CCTGGAATTG GAAGAATTGG TTTTATACCC TGGAATGTTG AAACAGAAGT CCTTCCTCTC 
    ATTTCTTCTG TGTTGCCAAG AACTATTTTT CCAACAAGTA CCATATCTTT CGAACATTTT 
    GGTACTTCTT GCAAGGGATA TGCATTAGCA CATACTCAAG AAGGGGAAGA AAAGAAGCAA 
    ACTTCTGGTA CATCAAATAC CAGAGGATCA AGACGAAAAC CTGCAATGAC AACTCCTACA 
    AGGAGGTCTA CACGTAACAC AAGAGCTGAA ACAGCCAGTC AGTCTCAGAG ATCCCCAATA 
    TCAGACAATT CTGGGTGTGA TGCCCCAGGT AACAGTAATC CATCTTTAAG TGTTCCCTCT 
    TCAGCTGAGT CAGAAAAGCA AACAAGACAG GCTCCAAAAC GGAAGTCTGT AAGAAGAGGA 
    AGAAAACCAC CTTTACTGAA AAAGAAACTT CGGAGCTCTG TAGCTGCCCC TGAAAAATCA 
    TCTTCCAATG ATTCAGTAGA TGAAGAAACA GCAGAATCTG ACACATCACC TGTGTTAGAA 
    AAAGAGCACC AACCAGATGT AGACAGTAGT AACATTTGTA CTGTGCAGAC TCATGTAGAA 
    AACCAGTCTG CTAATTGCTT GAAAAGTTGC AATGAGCAAA TAGAAGAAAG TGAGAAGCAT 
    ACTGCAAATT ATGATACAGA GGAAAGAGTA GGATCTTCAT CTTCTGAGTC TTGTGCTCAA 
    GATCTTCCTG TGCTAGTTGG TGAGGAAGGG GAAGTTAAAA AACTCGAGAA TACAGGTATA 
    GAGGCTAATG TTTTGTGTTT GGAAAGTGAG ATTTCTGAAA ATATTCTTGA AAAAGGAGGT 
    GATCCATTGG AAAAGCAAGA CCAGATATCT GGACTTTCAC AATCAGAGGT AAAGACAGAT 
    GTATGTACAG TTCATCTTCC AAATGATTTT CCTACATGTT TAACATCTGA AAGCAAAGTG 
    TACCAACCTG TATCTTGTCC CCTAAGTGAC TTATCTGAGA ATGTAGAGTC AGTGGTTAAT 
    GAAGAAAAAA TAACAGAGAG TTCCCTAGTA GAAATTACTG AACATAAAGA TTTTACACTA 
    AAAACAGAGG AGCTTATAGA GAGCCCCAAG TTAGAATCTT CTGAGGGTGA AATTATACAG 
    ACAGTGGACA GACAATCTGT TAAGAGCCCA GAGGTTCAAT TGCTTGGGCA TGTTGAAACT 
    GAAGATGTAG AAATAATTGC AACATGTGAT ACTTTTGGGA ATGAAGATTT CAATAATATT 
    CAAGACTCTG AAAATAACTT ACTAAAAAAT AATCTTCTGA ACACCAAATT GGAAAAATCT 
    TTAGAAGAAA AGAATGAATC GCTGACCGAA CATCCTAGAT CTACAGAGTT GCCTAAAACA 
    CACATTGAAC AGATTCAGAA GCATTTTAGT GAGGACAACA ATGAAATGAT ACCTATGGAG 
    TGTGATTCAT TTTGCAGTGA CCAAAATGAA TCTGAAGTTG AACCATCTGT AAATGCTGAT 
    CTTAAACAAA TGAATGAAAA TTCTGTGACA CACTGTTCTG AAAATAATAT GCCGTCTTCT 
    GATCTTGCGG ATGAAAAGGT TGAAACTGTT TCTCAACCAT CTGAAAGCCC AAAAGATACC 
    ATAGATAAAA CCAAAAAGCC TCGTACTCGA AGATCTAGAT TTCATTCTCC ATCTACAACT 
    TGGTCACCCA ACAAAGACAC TCCACAAGAA AAGAAGCGGC CCCAGTCTCC ATCTCCCAGA 
    AGAGAAACTG GGAAAGAAAG CAGGAAGTCT CAATCACCAT CTCCTAAGAA TGAGTCAGCC 
    AGAGGCCGGA AAAAATCCCG TTCTCAGTCC CCAAAAAAGG ATATTGCAAG AGAAAGGAGG 
    CAATCTCAGT CTCGGTCTCC AAAAAGGGAT ACTACTAGGG AAAGCAGAAG ATCTGAATCA 
    CTGTCCCCAA GAAGAGAAAC TTCTAGAGAG AACAAAAGAT CTCAGCCAAG AGTGAAAGAT 
    TCTTCCCCAG GAGAAAAATC CAGGTCCCAG AGCAGAGAAC GAGAAAGTGA TAGAGATGGG 
    CAGAGGAGAG AGAGAGAAAG GAGAACCAGA AAGTGGTCTA GGTCCAGATC TCATTCTAGG 
    TCCCCCTCAA GATGTAGAAC AAAAAGTAAG AGTTCATCAT TTGGTAGAAT TGACAGAGAT 
    AGTTACTCTC CCCGGTGGAA GGGAAGATGG GCAAATGATG GTTGGAGATG TCCACGAGGA 
    AATGATCGGT ACAGAAAGAA TGACCCAGAG AAACAGAATG AAAATACAAG AAAAGAAAAA 
    AATGACATCC ATCTAGATGC TGATGATCCA AATTCTGCTG ACAAACATAG AAATGACTGT 
    CCCAATTGGA TAACAGAAAA AATAAACTCT GGGCCTGATC CAAGAACCAG AAATCCAGAA 
    AAGTTGAAAG AGTCTCATTG GGAAGAAAAT AGAAATGAAA ATTCAGGAAA TTCTTGGAAT 
    AAAAACTTTG GTTCTGGTTG GGTATCTAAC CGTGGTAGAG GCAGAGGCAA CCGTGGCAGA 
    GGCACTTACA GAAGTAGTTT TGCCTATAAA GATCAGAATG AAAATCGGTG GCAAAATCGA 
    AAACCCCTCT CAGGGAATTC AAACAGTTCA GGGAGTGAAT CTTTCAAGTT TGTGGAACAG 
    CAATCCTATA AGCGAAAAAG TGAACAGGAG TTCTCATTTG ATACACCAGC AGATAGATCT 
    GGATGGACAT CTGCATCCAG CTGGGCCGTG AGAAAGACTT TGCCAGCAGA TGTACAAAAC 
    TACTACTCAC GACGAGGCAG AAATTCTTCA GGTCCACAGT CTGGATGGAT GAAACAAGAG 
    GAGGAAACAT CTGGACAGGA TTCTAGCCTA AAAGACCAAA CAAACCAGCA AGTTGATGGT 
    TCTCAGCTAC CTATAAATAT GATGCAACCG CAAATGAATG TAATGCAGCA ACAAATGAAT 
    GCACAACACC AGCCTATGAA TATCTTCCCA TATCCAGTGG GTGTTCATGC TCCTTTGATG 
    AACATCCAAC GCAATCCATT TAACATTCAT CCTCAGCTAC CCTTGCATCT CCACACAGGA 
    GTGCCCCTCA TGCAGGTAGC CACTCCTACC AGTGTATCTC AGGGACTACC ACCACCACCA 
    CCCCCTCCCC CACCATCCCA ACAAGTCAAC TACATTGCTT CACAACCAGA TGGAAAGCAA 
    TTGCAGGGTA TTCCTAGTTC TTCTCATGTA AGTAATAACA TGAGTACACC AGTTTTGCCT 
    GCTCCGACAG CAGCCCCAGG AAATACGGGA ATGGTTCAGG GACCAAGTTC TGGTAATACT 
    TCGTCATCAA GTCACAGCAA AGCCTCTAAT GCTGCTGTAA AATTGGCAGA AAGCAAAGTA 
    AGTGTTGCAG TGGAAGCCAG CGCAGATAGC TCGAAGACAG ACAAGAAATT GCAAATTCAA 
    GAAAAAGCAG CACAAGAGGT AAAATTGGCC ATCAAGCCAT TTTACCAAAA TAAAGATATC 
    ACCAAGGAAG AATATAAAGA AATTGTACGG AAAGCAGTAG ATAAAGTTTG TCATAGTAAG 
    AGTGGAGAAG TAAATTCTAC TAAAGTGGCA AATCTGGTTA AAGCCTATGT AGACAAATAC 
    AAATATTCAC GGAAGGGGAG CCAAAAGAAA ACTCTGGAAG AACCTGTGTC TACTGAAAAA 
    AACATAGGCT GA

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

    SCAF11 ( XM_017020217.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016875706.1 Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu84322
    Clone ID Related Accession (Same CDS sequence) XM_017020217.1 , XM_017020219.1
    Accession Version XM_017020217.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4422bp)
    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 protein SCAF11 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by mRNA and 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
    ATGAAGAAGA AAACTGTATG TACCCTAAAT ATGGGAGATA AGAAGTATGA AGACATGGAA 
    GGTGAAGAAA ACGGAGATAA TACTATTTCC ACTGGTCTGT TGTACAGTGA GGCTGACAGA 
    TGCCCAATAT GTCTTAATTG TCTATTAGAA AAGGAAGTTG GTTTTCCAGA AAGCTGTAAT 
    CATGTCTTCT GTATGACTTG TATTCTTAAA TGGGCAGAGG AATTATTTAT TCCCATAAAA 
    ACCTTAGAGA CACTGGCTTC ATGTCCTATT GACCGTAAAC CTTTTCAGGC AGTGTTTAAA 
    TTCAGTGCAT TGGAAGGTTA TGTTAAGGTT CAAGTAAAAA AACAGCTGAG AGAAACAAAA 
    GACAAGAAAA ATGAAAACTC ATTTGAGAAA CAGGTCTCCT GTCATGAAAA TTCTAAAAGC 
    TGTATAAGAA GAAAAGCCAT CGTAAGAGAA GATCTATTAA GTGCAAAAGT TTGTGACTTG 
    AAGTGGATAC ATAGAAACTC TTTATACAGT GAAACAGGAG GAAAGAAAAA TGCAGCAATA 
    AAGATAAATA AGCCTCAGAG ATCAAATTGG AGTACAAATC AGTGCTTCAG AAATTTTTTC 
    TCCAATATGT TTTCTTCTGT TAGCCACTCT GGAGAATCTT CCTTTACCTA TAGAGCTTAT 
    TGTACAGAAT TTATAGAAGC CAGTGAAATC AGTGCATTGA TTAGGCAGAA GAGACATGAA 
    CTGGAATTGT CATGGTTTCC TGATACATTA CCTGGAATTG GAAGAATTGG TTTTATACCC 
    TGGAATGTTG AAACAGAAGT CCTTCCTCTC ATTTCTTCTG TGTTGCCAAG AACTATTTTT 
    CCAACAAGTA CCATATCTTT CGAACATTTT GGTACTTCTT GCAAGGGATA TGCATTAGCA 
    CATACTCAAG AAGGGGAAGA AAAGAAGCAA ACTTCTGGTA CATCAAATAC CAGAGGATCA 
    AGACGAAAAC CTGCAATGAC AACTCCTACA AGGAGGTCTA CACGTAACAC AAGAGCTGAA 
    ACAGCCAGTC AGTCTCAGAG ATCCCCAATA TCAGACAATT CTGGGTGTGA TGCCCCAGGT 
    AACAGTAATC CATCTTTAAG TGTTCCCTCT TCAGCTGAGT CAGAAAAGCA AACAAGACAG 
    GCTCCAAAAC GGAAGTCTGT AAGAAGAGGA AGAAAACCAC CTTTACTGAA AAAGAAACTT 
    CGGAGCTCTG TAGCTGCCCC TGAAAAATCA TCTTCCAATG ATTCAGTAGA TGAAGAAACA 
    GCAGAATCTG ACACATCACC TGTGTTAGAA AAAGAGCACC AACCAGATGT AGACAGTAGT 
    AACATTTGTA CTGTGCAGAC TCATGTAGAA AACCAGTCTG CTAATTGCTT GAAAAGTTGC 
    AATGAGCAAA TAGAAGAAAG TGAGAAGCAT ACTGCAAATT ATGATACAGA GGAAAGAGTA 
    GGATCTTCAT CTTCTGAGTC TTGTGCTCAA GATCTTCCTG TGCTAGTTGG TGAGGAAGGG 
    GAAGTTAAAA AACTCGAGAA TACAGGTATA GAGGCTAATG TTTTGTGTTT GGAAAGTGAG 
    ATTTCTGAAA ATATTCTTGA AAAAGGAGGT GATCCATTGG AAAAGCAAGA CCAGATATCT 
    GGACTTTCAC AATCAGAGGT AAAGACAGAT GTATGTACAG TTCATCTTCC AAATGATTTT 
    CCTACATGTT TAACATCTGA AAGCAAAGTG TACCAACCTG TATCTTGTCC CCTAAGTGAC 
    TTATCTGAGA ATGTAGAGTC AGTGGTTAAT GAAGAAAAAA TAACAGAGAG TTCCCTAGTA 
    GAAATTACTG AACATAAAGA TTTTACACTA AAAACAGAGG AGCTTATAGA GAGCCCCAAG 
    TTAGAATCTT CTGAGGGTGA AATTATACAG ACAGTGGACA GACAATCTGT TAAGAGCCCA 
    GAGGTTCAAT TGCTTGGGCA TGTTGAAACT GAAGATGTAG AAATAATTGC AACATGTGAT 
    ACTTTTGGGA ATGAAGATTT CAATAATATT CAAGACTCTG AAAATAACTT ACTAAAAAAT 
    AATCTTCTGA ACACCAAATT GGAAAAATCT TTAGAAGAAA AGAATGAATC GCTGACCGAA 
    CATCCTAGAT CTACAGAGTT GCCTAAAACA CACATTGAAC AGATTCAGAA GCATTTTAGT 
    GAGGACAACA ATGAAATGAT ACCTATGGAG TGTGATTCAT TTTGCAGTGA CCAAAATGAA 
    TCTGAAGTTG AACCATCTGT AAATGCTGAT CTTAAACAAA TGAATGAAAA TTCTGTGACA 
    CACTGTTCTG AAAATAATAT GCCGTCTTCT GATCTTGCGG ATGAAAAGGT TGAAACTGTT 
    TCTCAACCAT CTGAAAGCCC AAAAGATACC ATAGATAAAA CCAAAAAGCC TCGTACTCGA 
    AGATCTAGAT TTCATTCTCC ATCTACAACT TGGTCACCCA ACAAAGACAC TCCACAAGAA 
    AAGAAGCGGC CCCAGTCTCC ATCTCCCAGA AGAGAAACTG GGAAAGAAAG CAGGAAGTCT 
    CAATCACCAT CTCCTAAGAA TGAGTCAGCC AGAGGCCGGA AAAAATCCCG TTCTCAGTCC 
    CCAAAAAAGG ATATTGCAAG AGAAAGGAGG CAATCTCAGT CTCGGTCTCC AAAAAGGGAT 
    ACTACTAGGG AAAGCAGAAG ATCTGAATCA CTGTCCCCAA GAAGAGAAAC TTCTAGAGAG 
    AACAAAAGAT CTCAGCCAAG AGTGAAAGAT TCTTCCCCAG GAGAAAAATC CAGGTCCCAG 
    AGCAGAGAAC GAGAAAGTGA TAGAGATGGG CAGAGGAGAG AGAGAGAAAG GAGAACCAGA 
    AAGTGGTCTA GGTCCAGATC TCATTCTAGG TCCCCCTCAA GATGTAGAAC AAAAAGTAAG 
    AGTTCATCAT TTGGTAGAAT TGACAGAGAT AGTTACTCTC CCCGGTGGAA GGGAAGATGG 
    GCAAATGATG GTTGGAGATG TCCACGAGGA AATGATCGGT ACAGAAAGAA TGACCCAGAG 
    AAACAGAATG AAAATACAAG AAAAGAAAAA AATGACATCC ATCTAGATGC TGATGATCCA 
    AATTCTGCTG ACAAACATAG AAATGACTGT CCCAATTGGA TAACAGAAAA AATAAACTCT 
    GGGCCTGATC CAAGAACCAG AAATCCAGAA AAGTTGAAAG AGTCTCATTG GGAAGAAAAT 
    AGAAATGAAA ATTCAGGAAA TTCTTGGAAT AAAAACTTTG GTTCTGGTTG GGTATCTAAC 
    CGTGGTAGAG GCAGAGGCAA CCGTGGCAGA GGCACTTACA GAAGTAGTTT TGCCTATAAA 
    GATCAGAATG AAAATCGGTG GCAAAATCGA AAACCCCTCT CAGGGAATTC AAACAGTTCA 
    GGGAGTGAAT CTTTCAAGTT TGTGGAACAG CAATCCTATA AGCGAAAAAG TGAACAGGAG 
    TTCTCATTTG ATACACCAGC AGATAGATCT GGATGGACAT CTGCATCCAG CTGGGCCGTG 
    AGAAAGACTT TGCCAGCAGA TGTACAAAAC TACTACTCAC GACGAGGCAG AAATTCTTCA 
    GGTCCACAGT CTGGATGGAT GAAACAAGAG GAGGAAACAT CTGGACAGGA TTCTAGCCTA 
    AAAGACCAAA CAAACCAGCA AGTTGATGGT TCTCAGCTAC CTATAAATAT GATGCAACCG 
    CAAATGAATG TAATGCAGCA ACAAATGAAT GCACAACACC AGCCTATGAA TATCTTCCCA 
    TATCCAGTGG GTGTTCATGC TCCTTTGATG AACATCCAAC GCAATCCATT TAACATTCAT 
    CCTCAGCTAC CCTTGCATCT CCACACAGGA GTGCCCCTCA TGCAGGTAGC CACTCCTACC 
    AGTGTATCTC AGGGACTACC ACCACCACCA CCCCCTCCCC CACCATCCCA ACAAGTCAAC 
    TACATTGCTT CACAACCAGA TGGAAAGCAA TTGCAGGGTA TTCCTAGTTC TTCTCATGTA 
    AGTAATAACA TGAGTACACC AGTTTTGCCT GCTCCGACAG CAGCCCCAGG AAATACGGGA 
    ATGGTTCAGG GACCAAGTTC TGGTAATACT TCGTCATCAA GTCACAGCAA AGCCTCTAAT 
    GCTGCTGTAA AATTGGCAGA AAGCAAAGTA AGTGTTGCAG TGGAAGCCAG CGCAGATAGC 
    TCGAAGACAG ACAAGAAATT GCAAATTCAA GAAAAAGCAG CACAAGAGGT AAAATTGGCC 
    ATCAAGCCAT TTTACCAAAA TAAAGATATC ACCAAGGAAG AATATAAAGA AATTGTACGG 
    AAAGCAGTAG ATAAAGTTTG TCATAGTAAG AGTGGAGAAG TAAATTCTAC TAAAGTGGCA 
    AATCTGGTTA AAGCCTATGT AGACAAATAC AAATATTCAC GGAAGGGGAG CCAAAAGAAA 
    ACTCTGGAAG AACCTGTGTC TACTGAAAAA AACATAGGCT GA

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

    RefSeq XP_016875706.1
    CDS136..4557
    Translation

    Target ORF information:

    RefSeq Version XM_017020217.1
    Organism Homo sapiens(human)
    Definition Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017020217.1

    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
    ATGAAGAAGA AAACTGTATG TACCCTAAAT ATGGGAGATA AGAAGTATGA AGACATGGAA 
    GGTGAAGAAA ACGGAGATAA TACTATTTCC ACTGGTCTGT TGTACAGTGA GGCTGACAGA 
    TGCCCAATAT GTCTTAATTG TCTATTAGAA AAGGAAGTTG GTTTTCCAGA AAGCTGTAAT 
    CATGTCTTCT GTATGACTTG TATTCTTAAA TGGGCAGAGG AATTATTTAT TCCCATAAAA 
    ACCTTAGAGA CACTGGCTTC ATGTCCTATT GACCGTAAAC CTTTTCAGGC AGTGTTTAAA 
    TTCAGTGCAT TGGAAGGTTA TGTTAAGGTT CAAGTAAAAA AACAGCTGAG AGAAACAAAA 
    GACAAGAAAA ATGAAAACTC ATTTGAGAAA CAGGTCTCCT GTCATGAAAA TTCTAAAAGC 
    TGTATAAGAA GAAAAGCCAT CGTAAGAGAA GATCTATTAA GTGCAAAAGT TTGTGACTTG 
    AAGTGGATAC ATAGAAACTC TTTATACAGT GAAACAGGAG GAAAGAAAAA TGCAGCAATA 
    AAGATAAATA AGCCTCAGAG ATCAAATTGG AGTACAAATC AGTGCTTCAG AAATTTTTTC 
    TCCAATATGT TTTCTTCTGT TAGCCACTCT GGAGAATCTT CCTTTACCTA TAGAGCTTAT 
    TGTACAGAAT TTATAGAAGC CAGTGAAATC AGTGCATTGA TTAGGCAGAA GAGACATGAA 
    CTGGAATTGT CATGGTTTCC TGATACATTA CCTGGAATTG GAAGAATTGG TTTTATACCC 
    TGGAATGTTG AAACAGAAGT CCTTCCTCTC ATTTCTTCTG TGTTGCCAAG AACTATTTTT 
    CCAACAAGTA CCATATCTTT CGAACATTTT GGTACTTCTT GCAAGGGATA TGCATTAGCA 
    CATACTCAAG AAGGGGAAGA AAAGAAGCAA ACTTCTGGTA CATCAAATAC CAGAGGATCA 
    AGACGAAAAC CTGCAATGAC AACTCCTACA AGGAGGTCTA CACGTAACAC AAGAGCTGAA 
    ACAGCCAGTC AGTCTCAGAG ATCCCCAATA TCAGACAATT CTGGGTGTGA TGCCCCAGGT 
    AACAGTAATC CATCTTTAAG TGTTCCCTCT TCAGCTGAGT CAGAAAAGCA AACAAGACAG 
    GCTCCAAAAC GGAAGTCTGT AAGAAGAGGA AGAAAACCAC CTTTACTGAA AAAGAAACTT 
    CGGAGCTCTG TAGCTGCCCC TGAAAAATCA TCTTCCAATG ATTCAGTAGA TGAAGAAACA 
    GCAGAATCTG ACACATCACC TGTGTTAGAA AAAGAGCACC AACCAGATGT AGACAGTAGT 
    AACATTTGTA CTGTGCAGAC TCATGTAGAA AACCAGTCTG CTAATTGCTT GAAAAGTTGC 
    AATGAGCAAA TAGAAGAAAG TGAGAAGCAT ACTGCAAATT ATGATACAGA GGAAAGAGTA 
    GGATCTTCAT CTTCTGAGTC TTGTGCTCAA GATCTTCCTG TGCTAGTTGG TGAGGAAGGG 
    GAAGTTAAAA AACTCGAGAA TACAGGTATA GAGGCTAATG TTTTGTGTTT GGAAAGTGAG 
    ATTTCTGAAA ATATTCTTGA AAAAGGAGGT GATCCATTGG AAAAGCAAGA CCAGATATCT 
    GGACTTTCAC AATCAGAGGT AAAGACAGAT GTATGTACAG TTCATCTTCC AAATGATTTT 
    CCTACATGTT TAACATCTGA AAGCAAAGTG TACCAACCTG TATCTTGTCC CCTAAGTGAC 
    TTATCTGAGA ATGTAGAGTC AGTGGTTAAT GAAGAAAAAA TAACAGAGAG TTCCCTAGTA 
    GAAATTACTG AACATAAAGA TTTTACACTA AAAACAGAGG AGCTTATAGA GAGCCCCAAG 
    TTAGAATCTT CTGAGGGTGA AATTATACAG ACAGTGGACA GACAATCTGT TAAGAGCCCA 
    GAGGTTCAAT TGCTTGGGCA TGTTGAAACT GAAGATGTAG AAATAATTGC AACATGTGAT 
    ACTTTTGGGA ATGAAGATTT CAATAATATT CAAGACTCTG AAAATAACTT ACTAAAAAAT 
    AATCTTCTGA ACACCAAATT GGAAAAATCT TTAGAAGAAA AGAATGAATC GCTGACCGAA 
    CATCCTAGAT CTACAGAGTT GCCTAAAACA CACATTGAAC AGATTCAGAA GCATTTTAGT 
    GAGGACAACA ATGAAATGAT ACCTATGGAG TGTGATTCAT TTTGCAGTGA CCAAAATGAA 
    TCTGAAGTTG AACCATCTGT AAATGCTGAT CTTAAACAAA TGAATGAAAA TTCTGTGACA 
    CACTGTTCTG AAAATAATAT GCCGTCTTCT GATCTTGCGG ATGAAAAGGT TGAAACTGTT 
    TCTCAACCAT CTGAAAGCCC AAAAGATACC ATAGATAAAA CCAAAAAGCC TCGTACTCGA 
    AGATCTAGAT TTCATTCTCC ATCTACAACT TGGTCACCCA ACAAAGACAC TCCACAAGAA 
    AAGAAGCGGC CCCAGTCTCC ATCTCCCAGA AGAGAAACTG GGAAAGAAAG CAGGAAGTCT 
    CAATCACCAT CTCCTAAGAA TGAGTCAGCC AGAGGCCGGA AAAAATCCCG TTCTCAGTCC 
    CCAAAAAAGG ATATTGCAAG AGAAAGGAGG CAATCTCAGT CTCGGTCTCC AAAAAGGGAT 
    ACTACTAGGG AAAGCAGAAG ATCTGAATCA CTGTCCCCAA GAAGAGAAAC TTCTAGAGAG 
    AACAAAAGAT CTCAGCCAAG AGTGAAAGAT TCTTCCCCAG GAGAAAAATC CAGGTCCCAG 
    AGCAGAGAAC GAGAAAGTGA TAGAGATGGG CAGAGGAGAG AGAGAGAAAG GAGAACCAGA 
    AAGTGGTCTA GGTCCAGATC TCATTCTAGG TCCCCCTCAA GATGTAGAAC AAAAAGTAAG 
    AGTTCATCAT TTGGTAGAAT TGACAGAGAT AGTTACTCTC CCCGGTGGAA GGGAAGATGG 
    GCAAATGATG GTTGGAGATG TCCACGAGGA AATGATCGGT ACAGAAAGAA TGACCCAGAG 
    AAACAGAATG AAAATACAAG AAAAGAAAAA AATGACATCC ATCTAGATGC TGATGATCCA 
    AATTCTGCTG ACAAACATAG AAATGACTGT CCCAATTGGA TAACAGAAAA AATAAACTCT 
    GGGCCTGATC CAAGAACCAG AAATCCAGAA AAGTTGAAAG AGTCTCATTG GGAAGAAAAT 
    AGAAATGAAA ATTCAGGAAA TTCTTGGAAT AAAAACTTTG GTTCTGGTTG GGTATCTAAC 
    CGTGGTAGAG GCAGAGGCAA CCGTGGCAGA GGCACTTACA GAAGTAGTTT TGCCTATAAA 
    GATCAGAATG AAAATCGGTG GCAAAATCGA AAACCCCTCT CAGGGAATTC AAACAGTTCA 
    GGGAGTGAAT CTTTCAAGTT TGTGGAACAG CAATCCTATA AGCGAAAAAG TGAACAGGAG 
    TTCTCATTTG ATACACCAGC AGATAGATCT GGATGGACAT CTGCATCCAG CTGGGCCGTG 
    AGAAAGACTT TGCCAGCAGA TGTACAAAAC TACTACTCAC GACGAGGCAG AAATTCTTCA 
    GGTCCACAGT CTGGATGGAT GAAACAAGAG GAGGAAACAT CTGGACAGGA TTCTAGCCTA 
    AAAGACCAAA CAAACCAGCA AGTTGATGGT TCTCAGCTAC CTATAAATAT GATGCAACCG 
    CAAATGAATG TAATGCAGCA ACAAATGAAT GCACAACACC AGCCTATGAA TATCTTCCCA 
    TATCCAGTGG GTGTTCATGC TCCTTTGATG AACATCCAAC GCAATCCATT TAACATTCAT 
    CCTCAGCTAC CCTTGCATCT CCACACAGGA GTGCCCCTCA TGCAGGTAGC CACTCCTACC 
    AGTGTATCTC AGGGACTACC ACCACCACCA CCCCCTCCCC CACCATCCCA ACAAGTCAAC 
    TACATTGCTT CACAACCAGA TGGAAAGCAA TTGCAGGGTA TTCCTAGTTC TTCTCATGTA 
    AGTAATAACA TGAGTACACC AGTTTTGCCT GCTCCGACAG CAGCCCCAGG AAATACGGGA 
    ATGGTTCAGG GACCAAGTTC TGGTAATACT TCGTCATCAA GTCACAGCAA AGCCTCTAAT 
    GCTGCTGTAA AATTGGCAGA AAGCAAAGTA AGTGTTGCAG TGGAAGCCAG CGCAGATAGC 
    TCGAAGACAG ACAAGAAATT GCAAATTCAA GAAAAAGCAG CACAAGAGGT AAAATTGGCC 
    ATCAAGCCAT TTTACCAAAA TAAAGATATC ACCAAGGAAG AATATAAAGA AATTGTACGG 
    AAAGCAGTAG ATAAAGTTTG TCATAGTAAG AGTGGAGAAG TAAATTCTAC TAAAGTGGCA 
    AATCTGGTTA AAGCCTATGT AGACAAATAC AAATATTCAC GGAAGGGGAG CCAAAAGAAA 
    ACTCTGGAAG AACCTGTGTC TACTGAAAAA AACATAGGCT GA

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

    SCAF11 ( XM_017020219.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016875708.1 Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OHu84322
    Clone ID Related Accession (Same CDS sequence) XM_017020217.1 , XM_017020219.1
    Accession Version XM_017020219.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4422bp)
    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 protein SCAF11 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by mRNA and 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
    ATGAAGAAGA AAACTGTATG TACCCTAAAT ATGGGAGATA AGAAGTATGA AGACATGGAA 
    GGTGAAGAAA ACGGAGATAA TACTATTTCC ACTGGTCTGT TGTACAGTGA GGCTGACAGA 
    TGCCCAATAT GTCTTAATTG TCTATTAGAA AAGGAAGTTG GTTTTCCAGA AAGCTGTAAT 
    CATGTCTTCT GTATGACTTG TATTCTTAAA TGGGCAGAGG AATTATTTAT TCCCATAAAA 
    ACCTTAGAGA CACTGGCTTC ATGTCCTATT GACCGTAAAC CTTTTCAGGC AGTGTTTAAA 
    TTCAGTGCAT TGGAAGGTTA TGTTAAGGTT CAAGTAAAAA AACAGCTGAG AGAAACAAAA 
    GACAAGAAAA ATGAAAACTC ATTTGAGAAA CAGGTCTCCT GTCATGAAAA TTCTAAAAGC 
    TGTATAAGAA GAAAAGCCAT CGTAAGAGAA GATCTATTAA GTGCAAAAGT TTGTGACTTG 
    AAGTGGATAC ATAGAAACTC TTTATACAGT GAAACAGGAG GAAAGAAAAA TGCAGCAATA 
    AAGATAAATA AGCCTCAGAG ATCAAATTGG AGTACAAATC AGTGCTTCAG AAATTTTTTC 
    TCCAATATGT TTTCTTCTGT TAGCCACTCT GGAGAATCTT CCTTTACCTA TAGAGCTTAT 
    TGTACAGAAT TTATAGAAGC CAGTGAAATC AGTGCATTGA TTAGGCAGAA GAGACATGAA 
    CTGGAATTGT CATGGTTTCC TGATACATTA CCTGGAATTG GAAGAATTGG TTTTATACCC 
    TGGAATGTTG AAACAGAAGT CCTTCCTCTC ATTTCTTCTG TGTTGCCAAG AACTATTTTT 
    CCAACAAGTA CCATATCTTT CGAACATTTT GGTACTTCTT GCAAGGGATA TGCATTAGCA 
    CATACTCAAG AAGGGGAAGA AAAGAAGCAA ACTTCTGGTA CATCAAATAC CAGAGGATCA 
    AGACGAAAAC CTGCAATGAC AACTCCTACA AGGAGGTCTA CACGTAACAC AAGAGCTGAA 
    ACAGCCAGTC AGTCTCAGAG ATCCCCAATA TCAGACAATT CTGGGTGTGA TGCCCCAGGT 
    AACAGTAATC CATCTTTAAG TGTTCCCTCT TCAGCTGAGT CAGAAAAGCA AACAAGACAG 
    GCTCCAAAAC GGAAGTCTGT AAGAAGAGGA AGAAAACCAC CTTTACTGAA AAAGAAACTT 
    CGGAGCTCTG TAGCTGCCCC TGAAAAATCA TCTTCCAATG ATTCAGTAGA TGAAGAAACA 
    GCAGAATCTG ACACATCACC TGTGTTAGAA AAAGAGCACC AACCAGATGT AGACAGTAGT 
    AACATTTGTA CTGTGCAGAC TCATGTAGAA AACCAGTCTG CTAATTGCTT GAAAAGTTGC 
    AATGAGCAAA TAGAAGAAAG TGAGAAGCAT ACTGCAAATT ATGATACAGA GGAAAGAGTA 
    GGATCTTCAT CTTCTGAGTC TTGTGCTCAA GATCTTCCTG TGCTAGTTGG TGAGGAAGGG 
    GAAGTTAAAA AACTCGAGAA TACAGGTATA GAGGCTAATG TTTTGTGTTT GGAAAGTGAG 
    ATTTCTGAAA ATATTCTTGA AAAAGGAGGT GATCCATTGG AAAAGCAAGA CCAGATATCT 
    GGACTTTCAC AATCAGAGGT AAAGACAGAT GTATGTACAG TTCATCTTCC AAATGATTTT 
    CCTACATGTT TAACATCTGA AAGCAAAGTG TACCAACCTG TATCTTGTCC CCTAAGTGAC 
    TTATCTGAGA ATGTAGAGTC AGTGGTTAAT GAAGAAAAAA TAACAGAGAG TTCCCTAGTA 
    GAAATTACTG AACATAAAGA TTTTACACTA AAAACAGAGG AGCTTATAGA GAGCCCCAAG 
    TTAGAATCTT CTGAGGGTGA AATTATACAG ACAGTGGACA GACAATCTGT TAAGAGCCCA 
    GAGGTTCAAT TGCTTGGGCA TGTTGAAACT GAAGATGTAG AAATAATTGC AACATGTGAT 
    ACTTTTGGGA ATGAAGATTT CAATAATATT CAAGACTCTG AAAATAACTT ACTAAAAAAT 
    AATCTTCTGA ACACCAAATT GGAAAAATCT TTAGAAGAAA AGAATGAATC GCTGACCGAA 
    CATCCTAGAT CTACAGAGTT GCCTAAAACA CACATTGAAC AGATTCAGAA GCATTTTAGT 
    GAGGACAACA ATGAAATGAT ACCTATGGAG TGTGATTCAT TTTGCAGTGA CCAAAATGAA 
    TCTGAAGTTG AACCATCTGT AAATGCTGAT CTTAAACAAA TGAATGAAAA TTCTGTGACA 
    CACTGTTCTG AAAATAATAT GCCGTCTTCT GATCTTGCGG ATGAAAAGGT TGAAACTGTT 
    TCTCAACCAT CTGAAAGCCC AAAAGATACC ATAGATAAAA CCAAAAAGCC TCGTACTCGA 
    AGATCTAGAT TTCATTCTCC ATCTACAACT TGGTCACCCA ACAAAGACAC TCCACAAGAA 
    AAGAAGCGGC CCCAGTCTCC ATCTCCCAGA AGAGAAACTG GGAAAGAAAG CAGGAAGTCT 
    CAATCACCAT CTCCTAAGAA TGAGTCAGCC AGAGGCCGGA AAAAATCCCG TTCTCAGTCC 
    CCAAAAAAGG ATATTGCAAG AGAAAGGAGG CAATCTCAGT CTCGGTCTCC AAAAAGGGAT 
    ACTACTAGGG AAAGCAGAAG ATCTGAATCA CTGTCCCCAA GAAGAGAAAC TTCTAGAGAG 
    AACAAAAGAT CTCAGCCAAG AGTGAAAGAT TCTTCCCCAG GAGAAAAATC CAGGTCCCAG 
    AGCAGAGAAC GAGAAAGTGA TAGAGATGGG CAGAGGAGAG AGAGAGAAAG GAGAACCAGA 
    AAGTGGTCTA GGTCCAGATC TCATTCTAGG TCCCCCTCAA GATGTAGAAC AAAAAGTAAG 
    AGTTCATCAT TTGGTAGAAT TGACAGAGAT AGTTACTCTC CCCGGTGGAA GGGAAGATGG 
    GCAAATGATG GTTGGAGATG TCCACGAGGA AATGATCGGT ACAGAAAGAA TGACCCAGAG 
    AAACAGAATG AAAATACAAG AAAAGAAAAA AATGACATCC ATCTAGATGC TGATGATCCA 
    AATTCTGCTG ACAAACATAG AAATGACTGT CCCAATTGGA TAACAGAAAA AATAAACTCT 
    GGGCCTGATC CAAGAACCAG AAATCCAGAA AAGTTGAAAG AGTCTCATTG GGAAGAAAAT 
    AGAAATGAAA ATTCAGGAAA TTCTTGGAAT AAAAACTTTG GTTCTGGTTG GGTATCTAAC 
    CGTGGTAGAG GCAGAGGCAA CCGTGGCAGA GGCACTTACA GAAGTAGTTT TGCCTATAAA 
    GATCAGAATG AAAATCGGTG GCAAAATCGA AAACCCCTCT CAGGGAATTC AAACAGTTCA 
    GGGAGTGAAT CTTTCAAGTT TGTGGAACAG CAATCCTATA AGCGAAAAAG TGAACAGGAG 
    TTCTCATTTG ATACACCAGC AGATAGATCT GGATGGACAT CTGCATCCAG CTGGGCCGTG 
    AGAAAGACTT TGCCAGCAGA TGTACAAAAC TACTACTCAC GACGAGGCAG AAATTCTTCA 
    GGTCCACAGT CTGGATGGAT GAAACAAGAG GAGGAAACAT CTGGACAGGA TTCTAGCCTA 
    AAAGACCAAA CAAACCAGCA AGTTGATGGT TCTCAGCTAC CTATAAATAT GATGCAACCG 
    CAAATGAATG TAATGCAGCA ACAAATGAAT GCACAACACC AGCCTATGAA TATCTTCCCA 
    TATCCAGTGG GTGTTCATGC TCCTTTGATG AACATCCAAC GCAATCCATT TAACATTCAT 
    CCTCAGCTAC CCTTGCATCT CCACACAGGA GTGCCCCTCA TGCAGGTAGC CACTCCTACC 
    AGTGTATCTC AGGGACTACC ACCACCACCA CCCCCTCCCC CACCATCCCA ACAAGTCAAC 
    TACATTGCTT CACAACCAGA TGGAAAGCAA TTGCAGGGTA TTCCTAGTTC TTCTCATGTA 
    AGTAATAACA TGAGTACACC AGTTTTGCCT GCTCCGACAG CAGCCCCAGG AAATACGGGA 
    ATGGTTCAGG GACCAAGTTC TGGTAATACT TCGTCATCAA GTCACAGCAA AGCCTCTAAT 
    GCTGCTGTAA AATTGGCAGA AAGCAAAGTA AGTGTTGCAG TGGAAGCCAG CGCAGATAGC 
    TCGAAGACAG ACAAGAAATT GCAAATTCAA GAAAAAGCAG CACAAGAGGT AAAATTGGCC 
    ATCAAGCCAT TTTACCAAAA TAAAGATATC ACCAAGGAAG AATATAAAGA AATTGTACGG 
    AAAGCAGTAG ATAAAGTTTG TCATAGTAAG AGTGGAGAAG TAAATTCTAC TAAAGTGGCA 
    AATCTGGTTA AAGCCTATGT AGACAAATAC AAATATTCAC GGAAGGGGAG CCAAAAGAAA 
    ACTCTGGAAG AACCTGTGTC TACTGAAAAA AACATAGGCT GA

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

    RefSeq XP_016875708.1
    CDS335..4756
    Translation

    Target ORF information:

    RefSeq Version XM_017020219.1
    Organism Homo sapiens(human)
    Definition Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017020219.1

    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
    ATGAAGAAGA AAACTGTATG TACCCTAAAT ATGGGAGATA AGAAGTATGA AGACATGGAA 
    GGTGAAGAAA ACGGAGATAA TACTATTTCC ACTGGTCTGT TGTACAGTGA GGCTGACAGA 
    TGCCCAATAT GTCTTAATTG TCTATTAGAA AAGGAAGTTG GTTTTCCAGA AAGCTGTAAT 
    CATGTCTTCT GTATGACTTG TATTCTTAAA TGGGCAGAGG AATTATTTAT TCCCATAAAA 
    ACCTTAGAGA CACTGGCTTC ATGTCCTATT GACCGTAAAC CTTTTCAGGC AGTGTTTAAA 
    TTCAGTGCAT TGGAAGGTTA TGTTAAGGTT CAAGTAAAAA AACAGCTGAG AGAAACAAAA 
    GACAAGAAAA ATGAAAACTC ATTTGAGAAA CAGGTCTCCT GTCATGAAAA TTCTAAAAGC 
    TGTATAAGAA GAAAAGCCAT CGTAAGAGAA GATCTATTAA GTGCAAAAGT TTGTGACTTG 
    AAGTGGATAC ATAGAAACTC TTTATACAGT GAAACAGGAG GAAAGAAAAA TGCAGCAATA 
    AAGATAAATA AGCCTCAGAG ATCAAATTGG AGTACAAATC AGTGCTTCAG AAATTTTTTC 
    TCCAATATGT TTTCTTCTGT TAGCCACTCT GGAGAATCTT CCTTTACCTA TAGAGCTTAT 
    TGTACAGAAT TTATAGAAGC CAGTGAAATC AGTGCATTGA TTAGGCAGAA GAGACATGAA 
    CTGGAATTGT CATGGTTTCC TGATACATTA CCTGGAATTG GAAGAATTGG TTTTATACCC 
    TGGAATGTTG AAACAGAAGT CCTTCCTCTC ATTTCTTCTG TGTTGCCAAG AACTATTTTT 
    CCAACAAGTA CCATATCTTT CGAACATTTT GGTACTTCTT GCAAGGGATA TGCATTAGCA 
    CATACTCAAG AAGGGGAAGA AAAGAAGCAA ACTTCTGGTA CATCAAATAC CAGAGGATCA 
    AGACGAAAAC CTGCAATGAC AACTCCTACA AGGAGGTCTA CACGTAACAC AAGAGCTGAA 
    ACAGCCAGTC AGTCTCAGAG ATCCCCAATA TCAGACAATT CTGGGTGTGA TGCCCCAGGT 
    AACAGTAATC CATCTTTAAG TGTTCCCTCT TCAGCTGAGT CAGAAAAGCA AACAAGACAG 
    GCTCCAAAAC GGAAGTCTGT AAGAAGAGGA AGAAAACCAC CTTTACTGAA AAAGAAACTT 
    CGGAGCTCTG TAGCTGCCCC TGAAAAATCA TCTTCCAATG ATTCAGTAGA TGAAGAAACA 
    GCAGAATCTG ACACATCACC TGTGTTAGAA AAAGAGCACC AACCAGATGT AGACAGTAGT 
    AACATTTGTA CTGTGCAGAC TCATGTAGAA AACCAGTCTG CTAATTGCTT GAAAAGTTGC 
    AATGAGCAAA TAGAAGAAAG TGAGAAGCAT ACTGCAAATT ATGATACAGA GGAAAGAGTA 
    GGATCTTCAT CTTCTGAGTC TTGTGCTCAA GATCTTCCTG TGCTAGTTGG TGAGGAAGGG 
    GAAGTTAAAA AACTCGAGAA TACAGGTATA GAGGCTAATG TTTTGTGTTT GGAAAGTGAG 
    ATTTCTGAAA ATATTCTTGA AAAAGGAGGT GATCCATTGG AAAAGCAAGA CCAGATATCT 
    GGACTTTCAC AATCAGAGGT AAAGACAGAT GTATGTACAG TTCATCTTCC AAATGATTTT 
    CCTACATGTT TAACATCTGA AAGCAAAGTG TACCAACCTG TATCTTGTCC CCTAAGTGAC 
    TTATCTGAGA ATGTAGAGTC AGTGGTTAAT GAAGAAAAAA TAACAGAGAG TTCCCTAGTA 
    GAAATTACTG AACATAAAGA TTTTACACTA AAAACAGAGG AGCTTATAGA GAGCCCCAAG 
    TTAGAATCTT CTGAGGGTGA AATTATACAG ACAGTGGACA GACAATCTGT TAAGAGCCCA 
    GAGGTTCAAT TGCTTGGGCA TGTTGAAACT GAAGATGTAG AAATAATTGC AACATGTGAT 
    ACTTTTGGGA ATGAAGATTT CAATAATATT CAAGACTCTG AAAATAACTT ACTAAAAAAT 
    AATCTTCTGA ACACCAAATT GGAAAAATCT TTAGAAGAAA AGAATGAATC GCTGACCGAA 
    CATCCTAGAT CTACAGAGTT GCCTAAAACA CACATTGAAC AGATTCAGAA GCATTTTAGT 
    GAGGACAACA ATGAAATGAT ACCTATGGAG TGTGATTCAT TTTGCAGTGA CCAAAATGAA 
    TCTGAAGTTG AACCATCTGT AAATGCTGAT CTTAAACAAA TGAATGAAAA TTCTGTGACA 
    CACTGTTCTG AAAATAATAT GCCGTCTTCT GATCTTGCGG ATGAAAAGGT TGAAACTGTT 
    TCTCAACCAT CTGAAAGCCC AAAAGATACC ATAGATAAAA CCAAAAAGCC TCGTACTCGA 
    AGATCTAGAT TTCATTCTCC ATCTACAACT TGGTCACCCA ACAAAGACAC TCCACAAGAA 
    AAGAAGCGGC CCCAGTCTCC ATCTCCCAGA AGAGAAACTG GGAAAGAAAG CAGGAAGTCT 
    CAATCACCAT CTCCTAAGAA TGAGTCAGCC AGAGGCCGGA AAAAATCCCG TTCTCAGTCC 
    CCAAAAAAGG ATATTGCAAG AGAAAGGAGG CAATCTCAGT CTCGGTCTCC AAAAAGGGAT 
    ACTACTAGGG AAAGCAGAAG ATCTGAATCA CTGTCCCCAA GAAGAGAAAC TTCTAGAGAG 
    AACAAAAGAT CTCAGCCAAG AGTGAAAGAT TCTTCCCCAG GAGAAAAATC CAGGTCCCAG 
    AGCAGAGAAC GAGAAAGTGA TAGAGATGGG CAGAGGAGAG AGAGAGAAAG GAGAACCAGA 
    AAGTGGTCTA GGTCCAGATC TCATTCTAGG TCCCCCTCAA GATGTAGAAC AAAAAGTAAG 
    AGTTCATCAT TTGGTAGAAT TGACAGAGAT AGTTACTCTC CCCGGTGGAA GGGAAGATGG 
    GCAAATGATG GTTGGAGATG TCCACGAGGA AATGATCGGT ACAGAAAGAA TGACCCAGAG 
    AAACAGAATG AAAATACAAG AAAAGAAAAA AATGACATCC ATCTAGATGC TGATGATCCA 
    AATTCTGCTG ACAAACATAG AAATGACTGT CCCAATTGGA TAACAGAAAA AATAAACTCT 
    GGGCCTGATC CAAGAACCAG AAATCCAGAA AAGTTGAAAG AGTCTCATTG GGAAGAAAAT 
    AGAAATGAAA ATTCAGGAAA TTCTTGGAAT AAAAACTTTG GTTCTGGTTG GGTATCTAAC 
    CGTGGTAGAG GCAGAGGCAA CCGTGGCAGA GGCACTTACA GAAGTAGTTT TGCCTATAAA 
    GATCAGAATG AAAATCGGTG GCAAAATCGA AAACCCCTCT CAGGGAATTC AAACAGTTCA 
    GGGAGTGAAT CTTTCAAGTT TGTGGAACAG CAATCCTATA AGCGAAAAAG TGAACAGGAG 
    TTCTCATTTG ATACACCAGC AGATAGATCT GGATGGACAT CTGCATCCAG CTGGGCCGTG 
    AGAAAGACTT TGCCAGCAGA TGTACAAAAC TACTACTCAC GACGAGGCAG AAATTCTTCA 
    GGTCCACAGT CTGGATGGAT GAAACAAGAG GAGGAAACAT CTGGACAGGA TTCTAGCCTA 
    AAAGACCAAA CAAACCAGCA AGTTGATGGT TCTCAGCTAC CTATAAATAT GATGCAACCG 
    CAAATGAATG TAATGCAGCA ACAAATGAAT GCACAACACC AGCCTATGAA TATCTTCCCA 
    TATCCAGTGG GTGTTCATGC TCCTTTGATG AACATCCAAC GCAATCCATT TAACATTCAT 
    CCTCAGCTAC CCTTGCATCT CCACACAGGA GTGCCCCTCA TGCAGGTAGC CACTCCTACC 
    AGTGTATCTC AGGGACTACC ACCACCACCA CCCCCTCCCC CACCATCCCA ACAAGTCAAC 
    TACATTGCTT CACAACCAGA TGGAAAGCAA TTGCAGGGTA TTCCTAGTTC TTCTCATGTA 
    AGTAATAACA TGAGTACACC AGTTTTGCCT GCTCCGACAG CAGCCCCAGG AAATACGGGA 
    ATGGTTCAGG GACCAAGTTC TGGTAATACT TCGTCATCAA GTCACAGCAA AGCCTCTAAT 
    GCTGCTGTAA AATTGGCAGA AAGCAAAGTA AGTGTTGCAG TGGAAGCCAG CGCAGATAGC 
    TCGAAGACAG ACAAGAAATT GCAAATTCAA GAAAAAGCAG CACAAGAGGT AAAATTGGCC 
    ATCAAGCCAT TTTACCAAAA TAAAGATATC ACCAAGGAAG AATATAAAGA AATTGTACGG 
    AAAGCAGTAG ATAAAGTTTG TCATAGTAAG AGTGGAGAAG TAAATTCTAC TAAAGTGGCA 
    AATCTGGTTA AAGCCTATGT AGACAAATAC AAATATTCAC GGAAGGGGAG CCAAAAGAAA 
    ACTCTGGAAG AACCTGTGTC TACTGAAAAA AACATAGGCT GA

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

    SCAF11 ( XM_017020218.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016875707.1 Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OHu84323
    Clone ID Related Accession (Same CDS sequence) XM_017020218.1
    Accession Version XM_017020218.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4311bp)
    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 protein SCAF11 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by mRNA and 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
    ATGAAGAAGA AAACTGTATG TACCCTAAAT ATGGGAGATA AGAAGTATGA AGACATGGAA 
    GGTGAAGAAA ACGGAGATAA TACTATTTCC ACTGGTCTGT TGTACAGTGA GGCTGACAGA 
    TGCCCAATAT GTCTTAATTG TCTATTAGAA AAGGAAGTTG GTTTTCCAGA AAGCTGTAAT 
    CATGTCTTCT GTATGACTTG TATTCTTAAA TGGGCAGAGG AATTATTTAT TCCCATAAAA 
    ACCTTAGAGA CACTGGCTTC ATGTCCTATT GACCGTAAAC CTTTTCAGGC AGTGTTTAAA 
    TTCAGTGCAT TGGAAGGTTA TGTTAAGGTT CAAGTAAAAA AACAGCTGAG AGAAACAAAA 
    GACAAGAAAA ATGAAAACTC ATTTGAGAAA CAGGTCTCCT GTCATGAAAA TTCTAAAAGC 
    TGTATAAGAA GAAAAGCCAT CGTAAGAGAA GATCTATTAA GTGCAAAAGT TTGTGACTTG 
    AAGTGGATAC ATAGAAACTC TTTATACAGT GAAACAGGAG GAAAGAAAAA TGCAGCAATA 
    AAGATAAATA AGCCTCAGAG ATCAAATTGG AGTACAAATC AGTGCTTCAG AAATTTTTTC 
    TCCAATATGT TTTCTTCTGT TAGCCACTCT GGAGAATCTT CCTTTACCTA TAGAGCTTAT 
    TGTACAGAAT TTATAGAAGC CAGTGAAATC AGTGCATTGA TTAGGCAGAA GAGACATGAA 
    CTGGAATTGT CATGGTTTCC TGATACATTA CCTGGAATTG GAAGAATTGG TTTTATACCC 
    TGGAATGTTG AAACAGAAGT CCTTCCTCTC ATTTCTTCTG TGTTGCCAAG AACTATTTTT 
    CCAACAAGTA CCATATCTTT CGAACATTTT GGTACTTCTT GCAAGGGATA TGCATTAGCA 
    CATACTCAAG AAGGGGAAGA AAAGAAGCAA ACTTCTGGTA CATCAAATAC CAGAGGATCA 
    AGACGAAAAC CTGCAATGAC AACTCCTACA AGGAGGTCTA CACGTAACAC AAGAGCTGAA 
    ACAGCCAGTC AGTCTCAGAG ATCCCCAATA TCAGACAATT CTGGGTGTGA TGCCCCAGGT 
    AACAGTAATC CATCTTTAAG TGTTCCCTCT TCAGCTGAGT CAGAAAAGCA AACAAGACAG 
    GCTCCAAAAC GGAAGTCTGT AAGAAGAGGA AGAAAACCAC CTTTACTGAA AAAGAAACTT 
    CGGAGCTCTG TAGCTGCCCC TGAAAAATCA TCTTCCAATG ATTCAGTAGA TGAAGAAACA 
    GCAGAATCTG ACACATCACC TGTGTTAGAA AAAGAGCACC AACCAGATGT AGACAGTAGT 
    AACATTTGTA CTGTGCAGAC TCATGTAGAA AACCAGTCTG CTAATTGCTT GAAAAGTTGC 
    AATGAGCAAA TAGAAGAAAG TGAGAAGCAT ACTGCAAATT ATGATACAGA GGAAAGAGTA 
    GGATCTTCAT CTTCTGAGTC TTGTGCTCAA GATCTTCCTG TGCTAGTTGG TGAGGAAGGG 
    GAAGTTAAAA AACTCGAGAA TACAGGTATA GAGGCTAATG TTTTGTGTTT GGAAAGTGAG 
    ATTTCTGAAA ATATTCTTGA AAAAGGAGGT GATCCATTGG AAAAGCAAGA CCAGATATCT 
    GGACTTTCAC AATCAGAGGT AAAGACAGAT GTATGTACAG TTCATCTTCC AAATGATTTT 
    CCTACATGTT TAACATCTGA AAGCAAAGTG TACCAACCTG TATCTTGTCC CCTAAGTGAC 
    TTATCTGAGA ATGTAGAGTC AGTGGTTAAT GAAGAAAAAA TAACAGAGAG TTCCCTAGTA 
    GAAATTACTG AACATAAAGA TTTTACACTA AAAACAGAGG AGCTTATAGA GAGCCCCAAG 
    TTAGAATCTT CTGAGGGTGA AATTATACAG ACAGTGGACA GACAATCTGT TAAGAGCCCA 
    GAGGTTCAAT TGCTTGGGCA TGTTGAAACT GAAGATGTAG AAATAATTGC AACATGTGAT 
    ACTTTTGGGA ATGAAGATTT CAATAATATT CAAGACTCTG AAAATAACTT ACTAAAAAAT 
    AATCTTCTGA ACACCAAATT GGAAAAATCT TTAGAAGAAA AGAATGAATC GCTGACCGAA 
    CATCCTAGAT CTACAGAGTT GCCTAAAACA CACATTGAAC AGATTCAGAA GCATTTTAGT 
    GAGGACAACA ATGAAATGAT ACCTATGGAG TGTGATTCAT TTTGCAGTGA CCAAAATGAA 
    TCTGAAGTTG AACCATCTGT AAATGCTGAT CTTAAACAAA TGAATGAAAA TTCTGTGACA 
    CACTGTTCTG AAAATAATAT GCCGTCTTCT GATCTTGCGG ATGAAAAGGT TGAAACTGTT 
    TCTCAACCAT CTGAAAGCCC AAAAGATACC ATAGATAAAA CCAAAAAGCC TCGTACTCGA 
    AGATCTAGAT TTCATTCTCC ATCTACAACT TGGTCACCCA ACAAAGACAC TCCACAAGAA 
    AAGAAGCGGC CCCAGTCTCC ATCTCCCAGA AGAGAAACTG GGAAAGAAAG CAGGAAGTCT 
    CAATCACCAT CTCCTAAGAA TGAGTCAGCC AGAGGCCGGA AAAAATCCCG TTCTCAGTCC 
    CCAAAAAAGG ATATTGCAAG AGAAAGGAGG CAATCTCAGT CTCGGTCTCC AAAAAGGGAT 
    ACTACTAGGG AAAGCAGAAG ATCTGAATCA CTGTCCCCAA GAAGAGAAAC TTCTAGAGAG 
    AACAAAAGAT CTCAGCCAAG AGTGAAAGAT TCTTCCCCAG GAGAAAAATC CAGGTCCCAG 
    AGCAGAGAAC GAGAAAGTGA TAGAGATGGG CAGAGGAGAG AGAGAGAAAG GAGAACCAGA 
    AAGTGGTCTA GGTCCAGATC TCATTCTAGG TCCCCCTCAA GATGTAGAAC AAAAAGTAAG 
    AGTTCATCAT TTGGTAGAAT TGACAGAGAT AGTTACTCTC CCCGGTGGAA GGGAAGATGG 
    GCAAATGATG GTTGGAGATG TCCACGAGGA AATGATCGGT ACAGAAAGAA TGACCCAGAG 
    AAACAGAATG AAAATACAAG AAAAGAAAAA AATGACATCC ATCTAGATGC TGATGATCCA 
    AATTCTGCTG ACAAACATAG AAATGACTGT CCCAATTGGA TAACAGAAAA AATAAACTCT 
    GGGCCTGATC CAAGAACCAG AAATCCAGAA AAGTTGAAAG AGTCTCATTG GGAAGAAAAT 
    AGAAATGAAA ATTCAGGAAA TTCTTGGAAT AAAAACTTTG GTTCTGGTTG GGTATCTAAC 
    CGTGGTAGAG GCAGAGGCAA CCGTGGCAGA GGCACTTACA GAAGTAGTTT TGCCTATAAA 
    GATCAGAATG AAAATCGGTG GCAAAATCGA AAACCCCTCT CAGGGAATTC AAACAGTTCA 
    GGGAGTGAAT CTTTCAAGTT TGTGGAACAG CAATCCTATA AGCGAAAAAG TGAACAGGAG 
    TTCTCATTTG ATACACCAGC AGATAGATCT GGATGGACAT CTGCATCCAG CTGGGCCGTG 
    AGAAAGACTT TGCCAGCAGA TGTACAAAAC TACTACTCAC GACGAGGCAG AAATTCTTCA 
    GGTCCACAGT CTGGATGGAT GAAACAAGAG GAGGAAACAT CTGGACAGGA TTCTAGCCTA 
    AAAGACCAAA CAAACCAGCA AGTTGATGGT TCTCAGCTAC CTATAAATAT GATGCAACCG 
    CAAATGAATG TAATGCAGCA ACAAATGAAT GCACAACACC AGCCTATGAA TATCTTCCCA 
    TATCCAGTGG GTGTTCATGC TCCTTTGATG AACATCCAAC GCAATCCATT TAACATTCAT 
    CCTCAGCTAC CCTTGCATCT CCACACAGGA GTGCCCCTCA TGCAGGTAGC CACTCCTACC 
    AGTGTATCTC AGGGACTACC ACCACCACCA CCCCCTCCCC CACCATCCCA ACAAGTCAAC 
    TACATTGCTT CACAACCAGA TGGAAAGCAA TTGCAGGGTA TTCCTAGTTC TTCTCATGTA 
    AGTAATAACA TGAGTACACC AGTTTTGCCT GCTCCGACAG CAGCCCCAGG AAATACGGGA 
    ATGGTTCAGG GACCAAGTTC TGGTAATACT TCGTCATCAA GTCACAGCAA AGCCTCTAAT 
    GCTGCTGTAA AATTGGCAGA AAGCAAAGTA AGTGTTGCAG TGGAAGCCAG CGCAGATAGC 
    TCGAAGACAG ACAAGAAATT GCAAATTCAA GAAAAAGCAG CACAAGAGGT AAAATTGGCC 
    ATCAAGCCAT TTTACCAAAA TAAAGATATC ACCAAGGAAG AATATAAAGA AATTGTACGG 
    AAAGCAGTAG ATAAATGTGT ACTGCTGGAA TGTTCCATCC AAAAGATGTA G

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

    RefSeq XP_016875707.1
    CDS136..4446
    Translation

    Target ORF information:

    RefSeq Version XM_017020218.1
    Organism Homo sapiens(human)
    Definition Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017020218.1

    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
    ATGAAGAAGA AAACTGTATG TACCCTAAAT ATGGGAGATA AGAAGTATGA AGACATGGAA 
    GGTGAAGAAA ACGGAGATAA TACTATTTCC ACTGGTCTGT TGTACAGTGA GGCTGACAGA 
    TGCCCAATAT GTCTTAATTG TCTATTAGAA AAGGAAGTTG GTTTTCCAGA AAGCTGTAAT 
    CATGTCTTCT GTATGACTTG TATTCTTAAA TGGGCAGAGG AATTATTTAT TCCCATAAAA 
    ACCTTAGAGA CACTGGCTTC ATGTCCTATT GACCGTAAAC CTTTTCAGGC AGTGTTTAAA 
    TTCAGTGCAT TGGAAGGTTA TGTTAAGGTT CAAGTAAAAA AACAGCTGAG AGAAACAAAA 
    GACAAGAAAA ATGAAAACTC ATTTGAGAAA CAGGTCTCCT GTCATGAAAA TTCTAAAAGC 
    TGTATAAGAA GAAAAGCCAT CGTAAGAGAA GATCTATTAA GTGCAAAAGT TTGTGACTTG 
    AAGTGGATAC ATAGAAACTC TTTATACAGT GAAACAGGAG GAAAGAAAAA TGCAGCAATA 
    AAGATAAATA AGCCTCAGAG ATCAAATTGG AGTACAAATC AGTGCTTCAG AAATTTTTTC 
    TCCAATATGT TTTCTTCTGT TAGCCACTCT GGAGAATCTT CCTTTACCTA TAGAGCTTAT 
    TGTACAGAAT TTATAGAAGC CAGTGAAATC AGTGCATTGA TTAGGCAGAA GAGACATGAA 
    CTGGAATTGT CATGGTTTCC TGATACATTA CCTGGAATTG GAAGAATTGG TTTTATACCC 
    TGGAATGTTG AAACAGAAGT CCTTCCTCTC ATTTCTTCTG TGTTGCCAAG AACTATTTTT 
    CCAACAAGTA CCATATCTTT CGAACATTTT GGTACTTCTT GCAAGGGATA TGCATTAGCA 
    CATACTCAAG AAGGGGAAGA AAAGAAGCAA ACTTCTGGTA CATCAAATAC CAGAGGATCA 
    AGACGAAAAC CTGCAATGAC AACTCCTACA AGGAGGTCTA CACGTAACAC AAGAGCTGAA 
    ACAGCCAGTC AGTCTCAGAG ATCCCCAATA TCAGACAATT CTGGGTGTGA TGCCCCAGGT 
    AACAGTAATC CATCTTTAAG TGTTCCCTCT TCAGCTGAGT CAGAAAAGCA AACAAGACAG 
    GCTCCAAAAC GGAAGTCTGT AAGAAGAGGA AGAAAACCAC CTTTACTGAA AAAGAAACTT 
    CGGAGCTCTG TAGCTGCCCC TGAAAAATCA TCTTCCAATG ATTCAGTAGA TGAAGAAACA 
    GCAGAATCTG ACACATCACC TGTGTTAGAA AAAGAGCACC AACCAGATGT AGACAGTAGT 
    AACATTTGTA CTGTGCAGAC TCATGTAGAA AACCAGTCTG CTAATTGCTT GAAAAGTTGC 
    AATGAGCAAA TAGAAGAAAG TGAGAAGCAT ACTGCAAATT ATGATACAGA GGAAAGAGTA 
    GGATCTTCAT CTTCTGAGTC TTGTGCTCAA GATCTTCCTG TGCTAGTTGG TGAGGAAGGG 
    GAAGTTAAAA AACTCGAGAA TACAGGTATA GAGGCTAATG TTTTGTGTTT GGAAAGTGAG 
    ATTTCTGAAA ATATTCTTGA AAAAGGAGGT GATCCATTGG AAAAGCAAGA CCAGATATCT 
    GGACTTTCAC AATCAGAGGT AAAGACAGAT GTATGTACAG TTCATCTTCC AAATGATTTT 
    CCTACATGTT TAACATCTGA AAGCAAAGTG TACCAACCTG TATCTTGTCC CCTAAGTGAC 
    TTATCTGAGA ATGTAGAGTC AGTGGTTAAT GAAGAAAAAA TAACAGAGAG TTCCCTAGTA 
    GAAATTACTG AACATAAAGA TTTTACACTA AAAACAGAGG AGCTTATAGA GAGCCCCAAG 
    TTAGAATCTT CTGAGGGTGA AATTATACAG ACAGTGGACA GACAATCTGT TAAGAGCCCA 
    GAGGTTCAAT TGCTTGGGCA TGTTGAAACT GAAGATGTAG AAATAATTGC AACATGTGAT 
    ACTTTTGGGA ATGAAGATTT CAATAATATT CAAGACTCTG AAAATAACTT ACTAAAAAAT 
    AATCTTCTGA ACACCAAATT GGAAAAATCT TTAGAAGAAA AGAATGAATC GCTGACCGAA 
    CATCCTAGAT CTACAGAGTT GCCTAAAACA CACATTGAAC AGATTCAGAA GCATTTTAGT 
    GAGGACAACA ATGAAATGAT ACCTATGGAG TGTGATTCAT TTTGCAGTGA CCAAAATGAA 
    TCTGAAGTTG AACCATCTGT AAATGCTGAT CTTAAACAAA TGAATGAAAA TTCTGTGACA 
    CACTGTTCTG AAAATAATAT GCCGTCTTCT GATCTTGCGG ATGAAAAGGT TGAAACTGTT 
    TCTCAACCAT CTGAAAGCCC AAAAGATACC ATAGATAAAA CCAAAAAGCC TCGTACTCGA 
    AGATCTAGAT TTCATTCTCC ATCTACAACT TGGTCACCCA ACAAAGACAC TCCACAAGAA 
    AAGAAGCGGC CCCAGTCTCC ATCTCCCAGA AGAGAAACTG GGAAAGAAAG CAGGAAGTCT 
    CAATCACCAT CTCCTAAGAA TGAGTCAGCC AGAGGCCGGA AAAAATCCCG TTCTCAGTCC 
    CCAAAAAAGG ATATTGCAAG AGAAAGGAGG CAATCTCAGT CTCGGTCTCC AAAAAGGGAT 
    ACTACTAGGG AAAGCAGAAG ATCTGAATCA CTGTCCCCAA GAAGAGAAAC TTCTAGAGAG 
    AACAAAAGAT CTCAGCCAAG AGTGAAAGAT TCTTCCCCAG GAGAAAAATC CAGGTCCCAG 
    AGCAGAGAAC GAGAAAGTGA TAGAGATGGG CAGAGGAGAG AGAGAGAAAG GAGAACCAGA 
    AAGTGGTCTA GGTCCAGATC TCATTCTAGG TCCCCCTCAA GATGTAGAAC AAAAAGTAAG 
    AGTTCATCAT TTGGTAGAAT TGACAGAGAT AGTTACTCTC CCCGGTGGAA GGGAAGATGG 
    GCAAATGATG GTTGGAGATG TCCACGAGGA AATGATCGGT ACAGAAAGAA TGACCCAGAG 
    AAACAGAATG AAAATACAAG AAAAGAAAAA AATGACATCC ATCTAGATGC TGATGATCCA 
    AATTCTGCTG ACAAACATAG AAATGACTGT CCCAATTGGA TAACAGAAAA AATAAACTCT 
    GGGCCTGATC CAAGAACCAG AAATCCAGAA AAGTTGAAAG AGTCTCATTG GGAAGAAAAT 
    AGAAATGAAA ATTCAGGAAA TTCTTGGAAT AAAAACTTTG GTTCTGGTTG GGTATCTAAC 
    CGTGGTAGAG GCAGAGGCAA CCGTGGCAGA GGCACTTACA GAAGTAGTTT TGCCTATAAA 
    GATCAGAATG AAAATCGGTG GCAAAATCGA AAACCCCTCT CAGGGAATTC AAACAGTTCA 
    GGGAGTGAAT CTTTCAAGTT TGTGGAACAG CAATCCTATA AGCGAAAAAG TGAACAGGAG 
    TTCTCATTTG ATACACCAGC AGATAGATCT GGATGGACAT CTGCATCCAG CTGGGCCGTG 
    AGAAAGACTT TGCCAGCAGA TGTACAAAAC TACTACTCAC GACGAGGCAG AAATTCTTCA 
    GGTCCACAGT CTGGATGGAT GAAACAAGAG GAGGAAACAT CTGGACAGGA TTCTAGCCTA 
    AAAGACCAAA CAAACCAGCA AGTTGATGGT TCTCAGCTAC CTATAAATAT GATGCAACCG 
    CAAATGAATG TAATGCAGCA ACAAATGAAT GCACAACACC AGCCTATGAA TATCTTCCCA 
    TATCCAGTGG GTGTTCATGC TCCTTTGATG AACATCCAAC GCAATCCATT TAACATTCAT 
    CCTCAGCTAC CCTTGCATCT CCACACAGGA GTGCCCCTCA TGCAGGTAGC CACTCCTACC 
    AGTGTATCTC AGGGACTACC ACCACCACCA CCCCCTCCCC CACCATCCCA ACAAGTCAAC 
    TACATTGCTT CACAACCAGA TGGAAAGCAA TTGCAGGGTA TTCCTAGTTC TTCTCATGTA 
    AGTAATAACA TGAGTACACC AGTTTTGCCT GCTCCGACAG CAGCCCCAGG AAATACGGGA 
    ATGGTTCAGG GACCAAGTTC TGGTAATACT TCGTCATCAA GTCACAGCAA AGCCTCTAAT 
    GCTGCTGTAA AATTGGCAGA AAGCAAAGTA AGTGTTGCAG TGGAAGCCAG CGCAGATAGC 
    TCGAAGACAG ACAAGAAATT GCAAATTCAA GAAAAAGCAG CACAAGAGGT AAAATTGGCC 
    ATCAAGCCAT TTTACCAAAA TAAAGATATC ACCAAGGAAG AATATAAAGA AATTGTACGG 
    AAAGCAGTAG ATAAATGTGT ACTGCTGGAA TGTTCCATCC AAAAGATGTA G

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

    SCAF11 ( XM_017020220.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016875709.1 Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OHu84324
    Clone ID Related Accession (Same CDS sequence) XM_017020220.1
    Accession Version XM_017020220.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4203bp)
    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 protein SCAF11 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by mRNA and 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
    ATGAAGAAGA AAACTGTATG TACCCTAAAT ATGGGAGATA AGAAGTATGA AGACATGGAA 
    GGTGAAGAAA ACGGAGATAA TACTATTTCC ACTGGTCTGT TGTACAGTGA GGCTGACAGA 
    TGCCCAATAT GTCTTAATTG TCTATTAGAA AAGGAAGTTG GTTTTCCAGA AAGCTGTAAT 
    CATGTCTTCT GTATGACTTG TATTCTTAAA TGGGCAGAGG AATTATTTAT TCCCATAAAA 
    ACCTTAGAGA CACTGGCTTC ATGTCCTATT GACCGTAAAC CTTTTCAGGC AGTGTTTAAA 
    TTCAGTGCAT TGGAAGGTTA TGTTAAGGTT CAAGTAAAAA AACAGCTGAG AGAAACAAAA 
    GACAAGAAAA ATGAAAACTC ATTTGAGAAA CAGGTCTCCT GTCATGAAAA TTCTAAAAGC 
    TGTATAAGAA GAAAAGCCAT CGTAAGAGAA GATCTATTAA GTGCAAAAGT TTGTGACTTG 
    AAGTGGATAC ATAGAAACTC TTTATACAGT GAAACAGGAG GAAAGAAAAA TGCAGCAATA 
    AAGATAAATA AGCCTCAGAG ATCAAATTGG AGTACAAATC AGTGCTTCAG AAATTTTTTC 
    TCCAATATGT TTTCTTCTGT TAGCCACTCT GGAGAATCTT CCTTTACCTA TAGAGCTTAT 
    TGTACAGAAT TTATAGAAGC CAGTGAAATC AGTGCATTGA TTAGGCAGAA GAGACATGAA 
    CTGGAATTGT CATGGTTTCC TGATACATTA CCTGGAATTG GAAGAATTGG TTTTATACCC 
    TGGAATGTTG AAACAGAAGT CCTTCCTCTC ATTTCTTCTG TGTTGCCAAG AACTATTTTT 
    CCAACAAGTA CCATATCTTT CGAACATTTT GGTACTTCTT GCAAGGGATA TGCATTAGCA 
    CATACTCAAG AAGGGGAAGA AAAGAAGCAA ACTTCTGGTA CATCAAATAC CAGAGGATCA 
    AGACGAAAAC CTGCAATGAC AACTCCTACA AGGAGGTCTA CACGTAACAC AAGAGCTGAA 
    ACAGCCAGTC AGTCTCAGAG ATCCCCAATA TCAGACAATT CTGGGTGTGA TGCCCCAGGT 
    AACAGTAATC CATCTTTAAG TGTTCCCTCT TCAGCTGAGT CAGAAAAGCA AACAAGACAG 
    GCTCCAAAAC GGAAGTCTGT AAGAAGAGGA AGAAAACCAC CTTTACTGAA AAAGAAACTT 
    CGGAGCTCTG TAGCTGCCCC TGAAAAATCA TCTTCCAATG ATTCAGTAGA TGAAGAAACA 
    GCAGAATCTG ACACATCACC TGTGTTAGAA AAAGAGCACC AACCAGATGT AGACAGTAGT 
    AACATTTGTA CTGTGCAGAC TCATGTAGAA AACCAGTCTG CTAATTGCTT GAAAAGTTGC 
    AATGAGCAAA TAGAAGAAAG TGAGAAGCAT ACTGCAAATT ATGATACAGA GGAAAGAGTA 
    GGATCTTCAT CTTCTGAGTC TTGTGCTCAA GATCTTCCTG TGCTAGTTGG TGAGGAAGGG 
    GAAGTTAAAA AACTCGAGAA TACAGGTATA GAGGCTAATG TTTTGTGTTT GGAAAGTGAG 
    ATTTCTGAAA ATATTCTTGA AAAAGGAGGT GATCCATTGG AAAAGCAAGA CCAGATATCT 
    GGACTTTCAC AATCAGAGGT AAAGACAGAT GTATGTACAG TTCATCTTCC AAATGATTTT 
    CCTACATGTT TAACATCTGA AAGCAAAGTG TACCAACCTG TATCTTGTCC CCTAAGTGAC 
    TTATCTGAGA ATGTAGAGTC AGTGGTTAAT GAAGAAAAAA TAACAGAGAG TTCCCTAGTA 
    GAAATTACTG AACATAAAGA TTTTACACTA AAAACAGAGG AGCTTATAGA GAGCCCCAAG 
    TTAGAATCTT CTGAGGGTGA AATTATACAG ACAGTGGACA GACAATCTGT TAAGAGCCCA 
    GAGGTTCAAT TGCTTGGGCA TGTTGAAACT GAAGATGTAG AAATAATTGC AACATGTGAT 
    ACTTTTGGGA ATGAAGATTT CAATAATATT CAAGACTCTG AAAATAACTT ACTAAAAAAT 
    AATCTTCTGA ACACCAAATT GGAAAAATCT TTAGAAGAAA AGAATGAATC GCTGACCGAA 
    CATCCTAGAT CTACAGAGTT GCCTAAAACA CACATTGAAC AGATTCAGAA GCATTTTAGT 
    GAGGACAACA ATGAAATGAT ACCTATGGAG TGTGATTCAT TTTGCAGTGA CCAAAATGAA 
    TCTGAAGTTG AACCATCTGT AAATGCTGAT CTTAAACAAA TGAATGAAAA TTCTGTGACA 
    CACTGTTCTG AAAATAATAT GCCGTCTTCT GATCTTGCGG ATGAAAAGGT TGAAACTGTT 
    TCTCAACCAT CTGAAAGCCC AAAAGATACC ATAGATAAAA CCAAAAAGCC TCGTACTCGA 
    AGATCTAGAT TTCATTCTCC ATCTACAACT TGGTCACCCA ACAAAGACAC TCCACAAGAA 
    AAGAAGCGGC CCCAGTCTCC ATCTCCCAGA AGAGAAACTG GGAAAGAAAG CAGGAAGTCT 
    CAATCACCAT CTCCTAAGAA TGAGTCAGCC AGAGGCCGGA AAAAATCCCG TTCTCAGTCC 
    CCAAAAAAGG ATATTGCAAG AGAAAGGAGG CAATCTCAGT CTCGGTCTCC AAAAAGGGAT 
    ACTACTAGGG AAAGCAGAAG ATCTGAATCA CTGTCCCCAA GAAGAGAAAC TTCTAGAGAG 
    AACAAAAGAT CTCAGCCAAG AGTGAAAGAT TCTTCCCCAG GAGAAAAATC CAGGTCCCAG 
    AGCAGAGAAC GAGAAAGTGA TAGAGATGGG CAGAGGAGAG AGAGAGAAAG GAGAACCAGA 
    AAGTGGTCTA GGTCCAGATC TCATTCTAGG TCCCCCTCAA GATGTAGAAC AAAAAGTAAG 
    AGTTCATCAT TTGGTAGAAT TGACAGAGAT AGTTACTCTC CCCGGTGGAA GGGAAGATGG 
    GCAAATGATG GTTGGAGATG TCCACGAGGA AATGATCGGT ACAGAAAGAA TGACCCAGAG 
    AAACAGAATG AAAATACAAG AAAAGAAAAA AATGACATCC ATCTAGATGC TGATGATCCA 
    AATTCTGCTG ACAAACATAG AAATGACTGT CCCAATTGGA TAACAGAAAA AATAAACTCT 
    GGGCCTGATC CAAGAACCAG AAATCCAGAA AAGTTGAAAG AGTCTCATTG GGAAGAAAAT 
    AGAAATGAAA ATTCAGGAAA TTCTTGGAAT AAAAACTTTG GTTCTGGTTG GGTATCTAAC 
    CGTGGTAGAG GCAGAGGCAA CCGTGGCAGA GGCACTTACA GAAGTAGTTT TGCCTATAAA 
    GATCAGAATG AAAATCGGTG GCAAAATCGA AAACCCCTCT CAGGGAATTC AAACAGTTCA 
    GGGAGTGAAT CTTTCAAGTT TGTGGAACAG CAATCCTATA AGCGAAAAAG TGAACAGGAG 
    TTCTCATTTG ATACACCAGC AGATAGATCT GGATGGACAT CTGCATCCAG CTGGGCCGTG 
    AGAAAGACTT TGCCAGCAGA TGTACAAAAC TACTACTCAC GACGAGGCAG AAATTCTTCA 
    GGTCCACAGT CTGGATGGAT GAAACAAGAG GAGGAAACAT CTGGACAGGA TTCTAGCCTA 
    AAAGACCAAA CAAACCAGCA AGTTGATGGT TCTCAGCTAC CTATAAATAT GATGCAACCG 
    CAAATGAATG TAATGCAGCA ACAAATGAAT GCACAACACC AGCCTATGAA TATCTTCCCA 
    TATCCAGTGG GTGTTCATGC TCCTTTGATG AACATCCAAC GCAATCCATT TAACATTCAT 
    CCTCAGCTAC CCTTGCATCT CCACACAGGA GTGCCCCTCA TGCAGGTAGC CACTCCTACC 
    AGTGTATCTC AGGGACTACC ACCACCACCA CCCCCTCCCC CACCATCCCA ACAAGTCAAC 
    TACATTGCTT CACAACCAGA TGGAAAGCAA TTGCAGAAAT TGCAAATTCA AGAAAAAGCA 
    GCACAAGAGG TAAAATTGGC CATCAAGCCA TTTTACCAAA ATAAAGATAT CACCAAGGAA 
    GAATATAAAG AAATTGTACG GAAAGCAGTA GATAAAGTTT GTCATAGTAA GAGTGGAGAA 
    GTAAATTCTA CTAAAGTGGC AAATCTGGTT AAAGCCTATG TAGACAAATA CAAATATTCA 
    CGGAAGGGGA GCCAAAAGAA AACTCTGGAA GAACCTGTGT CTACTGAAAA AAACATAGGC 
    TGA

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

    RefSeq XP_016875709.1
    CDS136..4338
    Translation

    Target ORF information:

    RefSeq Version XM_017020220.1
    Organism Homo sapiens(human)
    Definition Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017020220.1

    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
    ATGAAGAAGA AAACTGTATG TACCCTAAAT ATGGGAGATA AGAAGTATGA AGACATGGAA 
    GGTGAAGAAA ACGGAGATAA TACTATTTCC ACTGGTCTGT TGTACAGTGA GGCTGACAGA 
    TGCCCAATAT GTCTTAATTG TCTATTAGAA AAGGAAGTTG GTTTTCCAGA AAGCTGTAAT 
    CATGTCTTCT GTATGACTTG TATTCTTAAA TGGGCAGAGG AATTATTTAT TCCCATAAAA 
    ACCTTAGAGA CACTGGCTTC ATGTCCTATT GACCGTAAAC CTTTTCAGGC AGTGTTTAAA 
    TTCAGTGCAT TGGAAGGTTA TGTTAAGGTT CAAGTAAAAA AACAGCTGAG AGAAACAAAA 
    GACAAGAAAA ATGAAAACTC ATTTGAGAAA CAGGTCTCCT GTCATGAAAA TTCTAAAAGC 
    TGTATAAGAA GAAAAGCCAT CGTAAGAGAA GATCTATTAA GTGCAAAAGT TTGTGACTTG 
    AAGTGGATAC ATAGAAACTC TTTATACAGT GAAACAGGAG GAAAGAAAAA TGCAGCAATA 
    AAGATAAATA AGCCTCAGAG ATCAAATTGG AGTACAAATC AGTGCTTCAG AAATTTTTTC 
    TCCAATATGT TTTCTTCTGT TAGCCACTCT GGAGAATCTT CCTTTACCTA TAGAGCTTAT 
    TGTACAGAAT TTATAGAAGC CAGTGAAATC AGTGCATTGA TTAGGCAGAA GAGACATGAA 
    CTGGAATTGT CATGGTTTCC TGATACATTA CCTGGAATTG GAAGAATTGG TTTTATACCC 
    TGGAATGTTG AAACAGAAGT CCTTCCTCTC ATTTCTTCTG TGTTGCCAAG AACTATTTTT 
    CCAACAAGTA CCATATCTTT CGAACATTTT GGTACTTCTT GCAAGGGATA TGCATTAGCA 
    CATACTCAAG AAGGGGAAGA AAAGAAGCAA ACTTCTGGTA CATCAAATAC CAGAGGATCA 
    AGACGAAAAC CTGCAATGAC AACTCCTACA AGGAGGTCTA CACGTAACAC AAGAGCTGAA 
    ACAGCCAGTC AGTCTCAGAG ATCCCCAATA TCAGACAATT CTGGGTGTGA TGCCCCAGGT 
    AACAGTAATC CATCTTTAAG TGTTCCCTCT TCAGCTGAGT CAGAAAAGCA AACAAGACAG 
    GCTCCAAAAC GGAAGTCTGT AAGAAGAGGA AGAAAACCAC CTTTACTGAA AAAGAAACTT 
    CGGAGCTCTG TAGCTGCCCC TGAAAAATCA TCTTCCAATG ATTCAGTAGA TGAAGAAACA 
    GCAGAATCTG ACACATCACC TGTGTTAGAA AAAGAGCACC AACCAGATGT AGACAGTAGT 
    AACATTTGTA CTGTGCAGAC TCATGTAGAA AACCAGTCTG CTAATTGCTT GAAAAGTTGC 
    AATGAGCAAA TAGAAGAAAG TGAGAAGCAT ACTGCAAATT ATGATACAGA GGAAAGAGTA 
    GGATCTTCAT CTTCTGAGTC TTGTGCTCAA GATCTTCCTG TGCTAGTTGG TGAGGAAGGG 
    GAAGTTAAAA AACTCGAGAA TACAGGTATA GAGGCTAATG TTTTGTGTTT GGAAAGTGAG 
    ATTTCTGAAA ATATTCTTGA AAAAGGAGGT GATCCATTGG AAAAGCAAGA CCAGATATCT 
    GGACTTTCAC AATCAGAGGT AAAGACAGAT GTATGTACAG TTCATCTTCC AAATGATTTT 
    CCTACATGTT TAACATCTGA AAGCAAAGTG TACCAACCTG TATCTTGTCC CCTAAGTGAC 
    TTATCTGAGA ATGTAGAGTC AGTGGTTAAT GAAGAAAAAA TAACAGAGAG TTCCCTAGTA 
    GAAATTACTG AACATAAAGA TTTTACACTA AAAACAGAGG AGCTTATAGA GAGCCCCAAG 
    TTAGAATCTT CTGAGGGTGA AATTATACAG ACAGTGGACA GACAATCTGT TAAGAGCCCA 
    GAGGTTCAAT TGCTTGGGCA TGTTGAAACT GAAGATGTAG AAATAATTGC AACATGTGAT 
    ACTTTTGGGA ATGAAGATTT CAATAATATT CAAGACTCTG AAAATAACTT ACTAAAAAAT 
    AATCTTCTGA ACACCAAATT GGAAAAATCT TTAGAAGAAA AGAATGAATC GCTGACCGAA 
    CATCCTAGAT CTACAGAGTT GCCTAAAACA CACATTGAAC AGATTCAGAA GCATTTTAGT 
    GAGGACAACA ATGAAATGAT ACCTATGGAG TGTGATTCAT TTTGCAGTGA CCAAAATGAA 
    TCTGAAGTTG AACCATCTGT AAATGCTGAT CTTAAACAAA TGAATGAAAA TTCTGTGACA 
    CACTGTTCTG AAAATAATAT GCCGTCTTCT GATCTTGCGG ATGAAAAGGT TGAAACTGTT 
    TCTCAACCAT CTGAAAGCCC AAAAGATACC ATAGATAAAA CCAAAAAGCC TCGTACTCGA 
    AGATCTAGAT TTCATTCTCC ATCTACAACT TGGTCACCCA ACAAAGACAC TCCACAAGAA 
    AAGAAGCGGC CCCAGTCTCC ATCTCCCAGA AGAGAAACTG GGAAAGAAAG CAGGAAGTCT 
    CAATCACCAT CTCCTAAGAA TGAGTCAGCC AGAGGCCGGA AAAAATCCCG TTCTCAGTCC 
    CCAAAAAAGG ATATTGCAAG AGAAAGGAGG CAATCTCAGT CTCGGTCTCC AAAAAGGGAT 
    ACTACTAGGG AAAGCAGAAG ATCTGAATCA CTGTCCCCAA GAAGAGAAAC TTCTAGAGAG 
    AACAAAAGAT CTCAGCCAAG AGTGAAAGAT TCTTCCCCAG GAGAAAAATC CAGGTCCCAG 
    AGCAGAGAAC GAGAAAGTGA TAGAGATGGG CAGAGGAGAG AGAGAGAAAG GAGAACCAGA 
    AAGTGGTCTA GGTCCAGATC TCATTCTAGG TCCCCCTCAA GATGTAGAAC AAAAAGTAAG 
    AGTTCATCAT TTGGTAGAAT TGACAGAGAT AGTTACTCTC CCCGGTGGAA GGGAAGATGG 
    GCAAATGATG GTTGGAGATG TCCACGAGGA AATGATCGGT ACAGAAAGAA TGACCCAGAG 
    AAACAGAATG AAAATACAAG AAAAGAAAAA AATGACATCC ATCTAGATGC TGATGATCCA 
    AATTCTGCTG ACAAACATAG AAATGACTGT CCCAATTGGA TAACAGAAAA AATAAACTCT 
    GGGCCTGATC CAAGAACCAG AAATCCAGAA AAGTTGAAAG AGTCTCATTG GGAAGAAAAT 
    AGAAATGAAA ATTCAGGAAA TTCTTGGAAT AAAAACTTTG GTTCTGGTTG GGTATCTAAC 
    CGTGGTAGAG GCAGAGGCAA CCGTGGCAGA GGCACTTACA GAAGTAGTTT TGCCTATAAA 
    GATCAGAATG AAAATCGGTG GCAAAATCGA AAACCCCTCT CAGGGAATTC AAACAGTTCA 
    GGGAGTGAAT CTTTCAAGTT TGTGGAACAG CAATCCTATA AGCGAAAAAG TGAACAGGAG 
    TTCTCATTTG ATACACCAGC AGATAGATCT GGATGGACAT CTGCATCCAG CTGGGCCGTG 
    AGAAAGACTT TGCCAGCAGA TGTACAAAAC TACTACTCAC GACGAGGCAG AAATTCTTCA 
    GGTCCACAGT CTGGATGGAT GAAACAAGAG GAGGAAACAT CTGGACAGGA TTCTAGCCTA 
    AAAGACCAAA CAAACCAGCA AGTTGATGGT TCTCAGCTAC CTATAAATAT GATGCAACCG 
    CAAATGAATG TAATGCAGCA ACAAATGAAT GCACAACACC AGCCTATGAA TATCTTCCCA 
    TATCCAGTGG GTGTTCATGC TCCTTTGATG AACATCCAAC GCAATCCATT TAACATTCAT 
    CCTCAGCTAC CCTTGCATCT CCACACAGGA GTGCCCCTCA TGCAGGTAGC CACTCCTACC 
    AGTGTATCTC AGGGACTACC ACCACCACCA CCCCCTCCCC CACCATCCCA ACAAGTCAAC 
    TACATTGCTT CACAACCAGA TGGAAAGCAA TTGCAGAAAT TGCAAATTCA AGAAAAAGCA 
    GCACAAGAGG TAAAATTGGC CATCAAGCCA TTTTACCAAA ATAAAGATAT CACCAAGGAA 
    GAATATAAAG AAATTGTACG GAAAGCAGTA GATAAAGTTT GTCATAGTAA GAGTGGAGAA 
    GTAAATTCTA CTAAAGTGGC AAATCTGGTT AAAGCCTATG TAGACAAATA CAAATATTCA 
    CGGAAGGGGA GCCAAAAGAA AACTCTGGAA GAACCTGTGT CTACTGAAAA AAACATAGGC 
    TGA

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

    SCAF11 ( XM_017020221.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016875710.1 Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OHu84325
    Clone ID Related Accession (Same CDS sequence) XM_017020221.1
    Accession Version XM_017020221.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4287bp)
    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 protein SCAF11 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by mRNA and 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
    ATGGTTCTCC ATCCTTTCTT TCAACTTCAA GTGCATCTTT CACACAACCT TTACCCTGAT 
    GTACATGTTC CAGGTTTCTC TAGGGAATTA TTTATTCCCA TAAAAACCTT AGAGACACTG 
    GCTTCATGTC CTATTGACCG TAAACCTTTT CAGGCAGTGT TTAAATTCAG TGCATTGGAA 
    GGTTATGTTA AGGTTCAAGT AAAAAAACAG CTGAGAGAAA CAAAAGACAA GAAAAATGAA 
    AACTCATTTG AGAAACAGGT CTCCTGTCAT GAAAATTCTA AAAGCTGTAT AAGAAGAAAA 
    GCCATCGTAA GAGAAGATCT ATTAAGTGCA AAAGTTTGTG ACTTGAAGTG GATACATAGA 
    AACTCTTTAT ACAGTGAAAC AGGAGGAAAG AAAAATGCAG CAATAAAGAT AAATAAGCCT 
    CAGAGATCAA ATTGGAGTAC AAATCAGTGC TTCAGAAATT TTTTCTCCAA TATGTTTTCT 
    TCTGTTAGCC ACTCTGGAGA ATCTTCCTTT ACCTATAGAG CTTATTGTAC AGAATTTATA 
    GAAGCCAGTG AAATCAGTGC ATTGATTAGG CAGAAGAGAC ATGAACTGGA ATTGTCATGG 
    TTTCCTGATA CATTACCTGG AATTGGAAGA ATTGGTTTTA TACCCTGGAA TGTTGAAACA 
    GAAGTCCTTC CTCTCATTTC TTCTGTGTTG CCAAGAACTA TTTTTCCAAC AAGTACCATA 
    TCTTTCGAAC ATTTTGGTAC TTCTTGCAAG GGATATGCAT TAGCACATAC TCAAGAAGGG 
    GAAGAAAAGA AGCAAACTTC TGGTACATCA AATACCAGAG GATCAAGACG AAAACCTGCA 
    ATGACAACTC CTACAAGGAG GTCTACACGT AACACAAGAG CTGAAACAGC CAGTCAGTCT 
    CAGAGATCCC CAATATCAGA CAATTCTGGG TGTGATGCCC CAGGTAACAG TAATCCATCT 
    TTAAGTGTTC CCTCTTCAGC TGAGTCAGAA AAGCAAACAA GACAGGCTCC AAAACGGAAG 
    TCTGTAAGAA GAGGAAGAAA ACCACCTTTA CTGAAAAAGA AACTTCGGAG CTCTGTAGCT 
    GCCCCTGAAA AATCATCTTC CAATGATTCA GTAGATGAAG AAACAGCAGA ATCTGACACA 
    TCACCTGTGT TAGAAAAAGA GCACCAACCA GATGTAGACA GTAGTAACAT TTGTACTGTG 
    CAGACTCATG TAGAAAACCA GTCTGCTAAT TGCTTGAAAA GTTGCAATGA GCAAATAGAA 
    GAAAGTGAGA AGCATACTGC AAATTATGAT ACAGAGGAAA GAGTAGGATC TTCATCTTCT 
    GAGTCTTGTG CTCAAGATCT TCCTGTGCTA GTTGGTGAGG AAGGGGAAGT TAAAAAACTC 
    GAGAATACAG GTATAGAGGC TAATGTTTTG TGTTTGGAAA GTGAGATTTC TGAAAATATT 
    CTTGAAAAAG GAGGTGATCC ATTGGAAAAG CAAGACCAGA TATCTGGACT TTCACAATCA 
    GAGGTAAAGA CAGATGTATG TACAGTTCAT CTTCCAAATG ATTTTCCTAC ATGTTTAACA 
    TCTGAAAGCA AAGTGTACCA ACCTGTATCT TGTCCCCTAA GTGACTTATC TGAGAATGTA 
    GAGTCAGTGG TTAATGAAGA AAAAATAACA GAGAGTTCCC TAGTAGAAAT TACTGAACAT 
    AAAGATTTTA CACTAAAAAC AGAGGAGCTT ATAGAGAGCC CCAAGTTAGA ATCTTCTGAG 
    GGTGAAATTA TACAGACAGT GGACAGACAA TCTGTTAAGA GCCCAGAGGT TCAATTGCTT 
    GGGCATGTTG AAACTGAAGA TGTAGAAATA ATTGCAACAT GTGATACTTT TGGGAATGAA 
    GATTTCAATA ATATTCAAGA CTCTGAAAAT AACTTACTAA AAAATAATCT TCTGAACACC 
    AAATTGGAAA AATCTTTAGA AGAAAAGAAT GAATCGCTGA CCGAACATCC TAGATCTACA 
    GAGTTGCCTA AAACACACAT TGAACAGATT CAGAAGCATT TTAGTGAGGA CAACAATGAA 
    ATGATACCTA TGGAGTGTGA TTCATTTTGC AGTGACCAAA ATGAATCTGA AGTTGAACCA 
    TCTGTAAATG CTGATCTTAA ACAAATGAAT GAAAATTCTG TGACACACTG TTCTGAAAAT 
    AATATGCCGT CTTCTGATCT TGCGGATGAA AAGGTTGAAA CTGTTTCTCA ACCATCTGAA 
    AGCCCAAAAG ATACCATAGA TAAAACCAAA AAGCCTCGTA CTCGAAGATC TAGATTTCAT 
    TCTCCATCTA CAACTTGGTC ACCCAACAAA GACACTCCAC AAGAAAAGAA GCGGCCCCAG 
    TCTCCATCTC CCAGAAGAGA AACTGGGAAA GAAAGCAGGA AGTCTCAATC ACCATCTCCT 
    AAGAATGAGT CAGCCAGAGG CCGGAAAAAA TCCCGTTCTC AGTCCCCAAA AAAGGATATT 
    GCAAGAGAAA GGAGGCAATC TCAGTCTCGG TCTCCAAAAA GGGATACTAC TAGGGAAAGC 
    AGAAGATCTG AATCACTGTC CCCAAGAAGA GAAACTTCTA GAGAGAACAA AAGATCTCAG 
    CCAAGAGTGA AAGATTCTTC CCCAGGAGAA AAATCCAGGT CCCAGAGCAG AGAACGAGAA 
    AGTGATAGAG ATGGGCAGAG GAGAGAGAGA GAAAGGAGAA CCAGAAAGTG GTCTAGGTCC 
    AGATCTCATT CTAGGTCCCC CTCAAGATGT AGAACAAAAA GTAAGAGTTC ATCATTTGGT 
    AGAATTGACA GAGATAGTTA CTCTCCCCGG TGGAAGGGAA GATGGGCAAA TGATGGTTGG 
    AGATGTCCAC GAGGAAATGA TCGGTACAGA AAGAATGACC CAGAGAAACA GAATGAAAAT 
    ACAAGAAAAG AAAAAAATGA CATCCATCTA GATGCTGATG ATCCAAATTC TGCTGACAAA 
    CATAGAAATG ACTGTCCCAA TTGGATAACA GAAAAAATAA ACTCTGGGCC TGATCCAAGA 
    ACCAGAAATC CAGAAAAGTT GAAAGAGTCT CATTGGGAAG AAAATAGAAA TGAAAATTCA 
    GGAAATTCTT GGAATAAAAA CTTTGGTTCT GGTTGGGTAT CTAACCGTGG TAGAGGCAGA 
    GGCAACCGTG GCAGAGGCAC TTACAGAAGT AGTTTTGCCT ATAAAGATCA GAATGAAAAT 
    CGGTGGCAAA ATCGAAAACC CCTCTCAGGG AATTCAAACA GTTCAGGGAG TGAATCTTTC 
    AAGTTTGTGG AACAGCAATC CTATAAGCGA AAAAGTGAAC AGGAGTTCTC ATTTGATACA 
    CCAGCAGATA GATCTGGATG GACATCTGCA TCCAGCTGGG CCGTGAGAAA GACTTTGCCA 
    GCAGATGTAC AAAACTACTA CTCACGACGA GGCAGAAATT CTTCAGGTCC ACAGTCTGGA 
    TGGATGAAAC AAGAGGAGGA AACATCTGGA CAGGATTCTA GCCTAAAAGA CCAAACAAAC 
    CAGCAAGTTG ATGGTTCTCA GCTACCTATA AATATGATGC AACCGCAAAT GAATGTAATG 
    CAGCAACAAA TGAATGCACA ACACCAGCCT ATGAATATCT TCCCATATCC AGTGGGTGTT 
    CATGCTCCTT TGATGAACAT CCAACGCAAT CCATTTAACA TTCATCCTCA GCTACCCTTG 
    CATCTCCACA CAGGAGTGCC CCTCATGCAG GTAGCCACTC CTACCAGTGT ATCTCAGGGA 
    CTACCACCAC CACCACCCCC TCCCCCACCA TCCCAACAAG TCAACTACAT TGCTTCACAA 
    CCAGATGGAA AGCAATTGCA GGGTATTCCT AGTTCTTCTC ATGTAAGTAA TAACATGAGT 
    ACACCAGTTT TGCCTGCTCC GACAGCAGCC CCAGGAAATA CGGGAATGGT TCAGGGACCA 
    AGTTCTGGTA ATACTTCGTC ATCAAGTCAC AGCAAAGCCT CTAATGCTGC TGTAAAATTG 
    GCAGAAAGCA AAGTAAGTGT TGCAGTGGAA GCCAGCGCAG ATAGCTCGAA GACAGACAAG 
    AAATTGCAAA TTCAAGAAAA AGCAGCACAA GAGGTAAAAT TGGCCATCAA GCCATTTTAC 
    CAAAATAAAG ATATCACCAA GGAAGAATAT AAAGAAATTG TACGGAAAGC AGTAGATAAA 
    GTTTGTCATA GTAAGAGTGG AGAAGTAAAT TCTACTAAAG TGGCAAATCT GGTTAAAGCC 
    TATGTAGACA AATACAAATA TTCACGGAAG GGGAGCCAAA AGAAAACTCT GGAAGAACCT 
    GTGTCTACTG AAAAAAACAT AGGCTGA

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

    RefSeq XP_016875710.1
    CDS600..4886
    Translation

    Target ORF information:

    RefSeq Version XM_017020221.1
    Organism Homo sapiens(human)
    Definition Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017020221.1

    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
    ATGGTTCTCC ATCCTTTCTT TCAACTTCAA GTGCATCTTT CACACAACCT TTACCCTGAT 
    GTACATGTTC CAGGTTTCTC TAGGGAATTA TTTATTCCCA TAAAAACCTT AGAGACACTG 
    GCTTCATGTC CTATTGACCG TAAACCTTTT CAGGCAGTGT TTAAATTCAG TGCATTGGAA 
    GGTTATGTTA AGGTTCAAGT AAAAAAACAG CTGAGAGAAA CAAAAGACAA GAAAAATGAA 
    AACTCATTTG AGAAACAGGT CTCCTGTCAT GAAAATTCTA AAAGCTGTAT AAGAAGAAAA 
    GCCATCGTAA GAGAAGATCT ATTAAGTGCA AAAGTTTGTG ACTTGAAGTG GATACATAGA 
    AACTCTTTAT ACAGTGAAAC AGGAGGAAAG AAAAATGCAG CAATAAAGAT AAATAAGCCT 
    CAGAGATCAA ATTGGAGTAC AAATCAGTGC TTCAGAAATT TTTTCTCCAA TATGTTTTCT 
    TCTGTTAGCC ACTCTGGAGA ATCTTCCTTT ACCTATAGAG CTTATTGTAC AGAATTTATA 
    GAAGCCAGTG AAATCAGTGC ATTGATTAGG CAGAAGAGAC ATGAACTGGA ATTGTCATGG 
    TTTCCTGATA CATTACCTGG AATTGGAAGA ATTGGTTTTA TACCCTGGAA TGTTGAAACA 
    GAAGTCCTTC CTCTCATTTC TTCTGTGTTG CCAAGAACTA TTTTTCCAAC AAGTACCATA 
    TCTTTCGAAC ATTTTGGTAC TTCTTGCAAG GGATATGCAT TAGCACATAC TCAAGAAGGG 
    GAAGAAAAGA AGCAAACTTC TGGTACATCA AATACCAGAG GATCAAGACG AAAACCTGCA 
    ATGACAACTC CTACAAGGAG GTCTACACGT AACACAAGAG CTGAAACAGC CAGTCAGTCT 
    CAGAGATCCC CAATATCAGA CAATTCTGGG TGTGATGCCC CAGGTAACAG TAATCCATCT 
    TTAAGTGTTC CCTCTTCAGC TGAGTCAGAA AAGCAAACAA GACAGGCTCC AAAACGGAAG 
    TCTGTAAGAA GAGGAAGAAA ACCACCTTTA CTGAAAAAGA AACTTCGGAG CTCTGTAGCT 
    GCCCCTGAAA AATCATCTTC CAATGATTCA GTAGATGAAG AAACAGCAGA ATCTGACACA 
    TCACCTGTGT TAGAAAAAGA GCACCAACCA GATGTAGACA GTAGTAACAT TTGTACTGTG 
    CAGACTCATG TAGAAAACCA GTCTGCTAAT TGCTTGAAAA GTTGCAATGA GCAAATAGAA 
    GAAAGTGAGA AGCATACTGC AAATTATGAT ACAGAGGAAA GAGTAGGATC TTCATCTTCT 
    GAGTCTTGTG CTCAAGATCT TCCTGTGCTA GTTGGTGAGG AAGGGGAAGT TAAAAAACTC 
    GAGAATACAG GTATAGAGGC TAATGTTTTG TGTTTGGAAA GTGAGATTTC TGAAAATATT 
    CTTGAAAAAG GAGGTGATCC ATTGGAAAAG CAAGACCAGA TATCTGGACT TTCACAATCA 
    GAGGTAAAGA CAGATGTATG TACAGTTCAT CTTCCAAATG ATTTTCCTAC ATGTTTAACA 
    TCTGAAAGCA AAGTGTACCA ACCTGTATCT TGTCCCCTAA GTGACTTATC TGAGAATGTA 
    GAGTCAGTGG TTAATGAAGA AAAAATAACA GAGAGTTCCC TAGTAGAAAT TACTGAACAT 
    AAAGATTTTA CACTAAAAAC AGAGGAGCTT ATAGAGAGCC CCAAGTTAGA ATCTTCTGAG 
    GGTGAAATTA TACAGACAGT GGACAGACAA TCTGTTAAGA GCCCAGAGGT TCAATTGCTT 
    GGGCATGTTG AAACTGAAGA TGTAGAAATA ATTGCAACAT GTGATACTTT TGGGAATGAA 
    GATTTCAATA ATATTCAAGA CTCTGAAAAT AACTTACTAA AAAATAATCT TCTGAACACC 
    AAATTGGAAA AATCTTTAGA AGAAAAGAAT GAATCGCTGA CCGAACATCC TAGATCTACA 
    GAGTTGCCTA AAACACACAT TGAACAGATT CAGAAGCATT TTAGTGAGGA CAACAATGAA 
    ATGATACCTA TGGAGTGTGA TTCATTTTGC AGTGACCAAA ATGAATCTGA AGTTGAACCA 
    TCTGTAAATG CTGATCTTAA ACAAATGAAT GAAAATTCTG TGACACACTG TTCTGAAAAT 
    AATATGCCGT CTTCTGATCT TGCGGATGAA AAGGTTGAAA CTGTTTCTCA ACCATCTGAA 
    AGCCCAAAAG ATACCATAGA TAAAACCAAA AAGCCTCGTA CTCGAAGATC TAGATTTCAT 
    TCTCCATCTA CAACTTGGTC ACCCAACAAA GACACTCCAC AAGAAAAGAA GCGGCCCCAG 
    TCTCCATCTC CCAGAAGAGA AACTGGGAAA GAAAGCAGGA AGTCTCAATC ACCATCTCCT 
    AAGAATGAGT CAGCCAGAGG CCGGAAAAAA TCCCGTTCTC AGTCCCCAAA AAAGGATATT 
    GCAAGAGAAA GGAGGCAATC TCAGTCTCGG TCTCCAAAAA GGGATACTAC TAGGGAAAGC 
    AGAAGATCTG AATCACTGTC CCCAAGAAGA GAAACTTCTA GAGAGAACAA AAGATCTCAG 
    CCAAGAGTGA AAGATTCTTC CCCAGGAGAA AAATCCAGGT CCCAGAGCAG AGAACGAGAA 
    AGTGATAGAG ATGGGCAGAG GAGAGAGAGA GAAAGGAGAA CCAGAAAGTG GTCTAGGTCC 
    AGATCTCATT CTAGGTCCCC CTCAAGATGT AGAACAAAAA GTAAGAGTTC ATCATTTGGT 
    AGAATTGACA GAGATAGTTA CTCTCCCCGG TGGAAGGGAA GATGGGCAAA TGATGGTTGG 
    AGATGTCCAC GAGGAAATGA TCGGTACAGA AAGAATGACC CAGAGAAACA GAATGAAAAT 
    ACAAGAAAAG AAAAAAATGA CATCCATCTA GATGCTGATG ATCCAAATTC TGCTGACAAA 
    CATAGAAATG ACTGTCCCAA TTGGATAACA GAAAAAATAA ACTCTGGGCC TGATCCAAGA 
    ACCAGAAATC CAGAAAAGTT GAAAGAGTCT CATTGGGAAG AAAATAGAAA TGAAAATTCA 
    GGAAATTCTT GGAATAAAAA CTTTGGTTCT GGTTGGGTAT CTAACCGTGG TAGAGGCAGA 
    GGCAACCGTG GCAGAGGCAC TTACAGAAGT AGTTTTGCCT ATAAAGATCA GAATGAAAAT 
    CGGTGGCAAA ATCGAAAACC CCTCTCAGGG AATTCAAACA GTTCAGGGAG TGAATCTTTC 
    AAGTTTGTGG AACAGCAATC CTATAAGCGA AAAAGTGAAC AGGAGTTCTC ATTTGATACA 
    CCAGCAGATA GATCTGGATG GACATCTGCA TCCAGCTGGG CCGTGAGAAA GACTTTGCCA 
    GCAGATGTAC AAAACTACTA CTCACGACGA GGCAGAAATT CTTCAGGTCC ACAGTCTGGA 
    TGGATGAAAC AAGAGGAGGA AACATCTGGA CAGGATTCTA GCCTAAAAGA CCAAACAAAC 
    CAGCAAGTTG ATGGTTCTCA GCTACCTATA AATATGATGC AACCGCAAAT GAATGTAATG 
    CAGCAACAAA TGAATGCACA ACACCAGCCT ATGAATATCT TCCCATATCC AGTGGGTGTT 
    CATGCTCCTT TGATGAACAT CCAACGCAAT CCATTTAACA TTCATCCTCA GCTACCCTTG 
    CATCTCCACA CAGGAGTGCC CCTCATGCAG GTAGCCACTC CTACCAGTGT ATCTCAGGGA 
    CTACCACCAC CACCACCCCC TCCCCCACCA TCCCAACAAG TCAACTACAT TGCTTCACAA 
    CCAGATGGAA AGCAATTGCA GGGTATTCCT AGTTCTTCTC ATGTAAGTAA TAACATGAGT 
    ACACCAGTTT TGCCTGCTCC GACAGCAGCC CCAGGAAATA CGGGAATGGT TCAGGGACCA 
    AGTTCTGGTA ATACTTCGTC ATCAAGTCAC AGCAAAGCCT CTAATGCTGC TGTAAAATTG 
    GCAGAAAGCA AAGTAAGTGT TGCAGTGGAA GCCAGCGCAG ATAGCTCGAA GACAGACAAG 
    AAATTGCAAA TTCAAGAAAA AGCAGCACAA GAGGTAAAAT TGGCCATCAA GCCATTTTAC 
    CAAAATAAAG ATATCACCAA GGAAGAATAT AAAGAAATTG TACGGAAAGC AGTAGATAAA 
    GTTTGTCATA GTAAGAGTGG AGAAGTAAAT TCTACTAAAG TGGCAAATCT GGTTAAAGCC 
    TATGTAGACA AATACAAATA TTCACGGAAG GGGAGCCAAA AGAAAACTCT GGAAGAACCT 
    GTGTCTACTG AAAAAAACAT AGGCTGA

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

    SCAF11 ( XM_024449274.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024305042.1 Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OHu84326
    Clone ID Related Accession (Same CDS sequence) XM_024449274.1 , XM_017020222.1
    Accession Version XM_024449274.1 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 protein SCAF11 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by mRNA and 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
    ATGGTTCTCC ATCCTTTCTT TCAACTTCAA GTGCATCTTT CACACAACCT TTACCCTGAT 
    GTACATGTTC CAGGTTTCTC TAGGACACTG GCTTCATGTC CTATTGACCG TAAACCTTTT 
    CAGGCAGTGT TTAAATTCAG TGCATTGGAA GGTTATGTTA AGGTTCAAGT AAAAAAACAG 
    CTGAGAGAAA CAAAAGACAA GAAAAATGAA AACTCATTTG AGAAACAGGT CTCCTGTCAT 
    GAAAATTCTA AAAGCTGTAT AAGAAGAAAA GCCATCGTAA GAGAAGATCT ATTAAGTGCA 
    AAAGTTTGTG ACTTGAAGTG GATACATAGA AACTCTTTAT ACAGTGAAAC AGGAGGAAAG 
    AAAAATGCAG CAATAAAGAT AAATAAGCCT CAGAGATCAA ATTGGAGTAC AAATCAGTGC 
    TTCAGAAATT TTTTCTCCAA TATGTTTTCT TCTGTTAGCC ACTCTGGAGA ATCTTCCTTT 
    ACCTATAGAG CTTATTGTAC AGAATTTATA GAAGCCAGTG AAATCAGTGC ATTGATTAGG 
    CAGAAGAGAC ATGAACTGGA ATTGTCATGG TTTCCTGATA CATTACCTGG AATTGGAAGA 
    ATTGGTTTTA TACCCTGGAA TGTTGAAACA GAAGTCCTTC CTCTCATTTC TTCTGTGTTG 
    CCAAGAACTA TTTTTCCAAC AAGTACCATA TCTTTCGAAC ATTTTGGTAC TTCTTGCAAG 
    GGATATGCAT TAGCACATAC TCAAGAAGGG GAAGAAAAGA AGCAAACTTC TGGTACATCA 
    AATACCAGAG GATCAAGACG AAAACCTGCA ATGACAACTC CTACAAGGAG GTCTACACGT 
    AACACAAGAG CTGAAACAGC CAGTCAGTCT CAGAGATCCC CAATATCAGA CAATTCTGGG 
    TGTGATGCCC CAGGTAACAG TAATCCATCT TTAAGTGTTC CCTCTTCAGC TGAGTCAGAA 
    AAGCAAACAA GACAGGCTCC AAAACGGAAG TCTGTAAGAA GAGGAAGAAA ACCACCTTTA 
    CTGAAAAAGA AACTTCGGAG CTCTGTAGCT GCCCCTGAAA AATCATCTTC CAATGATTCA 
    GTAGATGAAG AAACAGCAGA ATCTGACACA TCACCTGTGT TAGAAAAAGA GCACCAACCA 
    GATGTAGACA GTAGTAACAT TTGTACTGTG CAGACTCATG TAGAAAACCA GTCTGCTAAT 
    TGCTTGAAAA GTTGCAATGA GCAAATAGAA GAAAGTGAGA AGCATACTGC AAATTATGAT 
    ACAGAGGAAA GAGTAGGATC TTCATCTTCT GAGTCTTGTG CTCAAGATCT TCCTGTGCTA 
    GTTGGTGAGG AAGGGGAAGT TAAAAAACTC GAGAATACAG GTATAGAGGC TAATGTTTTG 
    TGTTTGGAAA GTGAGATTTC TGAAAATATT CTTGAAAAAG GAGGTGATCC ATTGGAAAAG 
    CAAGACCAGA TATCTGGACT TTCACAATCA GAGGTAAAGA CAGATGTATG TACAGTTCAT 
    CTTCCAAATG ATTTTCCTAC ATGTTTAACA TCTGAAAGCA AAGTGTACCA ACCTGTATCT 
    TGTCCCCTAA GTGACTTATC TGAGAATGTA GAGTCAGTGG TTAATGAAGA AAAAATAACA 
    GAGAGTTCCC TAGTAGAAAT TACTGAACAT AAAGATTTTA CACTAAAAAC AGAGGAGCTT 
    ATAGAGAGCC CCAAGTTAGA ATCTTCTGAG GGTGAAATTA TACAGACAGT GGACAGACAA 
    TCTGTTAAGA GCCCAGAGGT TCAATTGCTT GGGCATGTTG AAACTGAAGA TGTAGAAATA 
    ATTGCAACAT GTGATACTTT TGGGAATGAA GATTTCAATA ATATTCAAGA CTCTGAAAAT 
    AACTTACTAA AAAATAATCT TCTGAACACC AAATTGGAAA AATCTTTAGA AGAAAAGAAT 
    GAATCGCTGA CCGAACATCC TAGATCTACA GAGTTGCCTA AAACACACAT TGAACAGATT 
    CAGAAGCATT TTAGTGAGGA CAACAATGAA ATGATACCTA TGGAGTGTGA TTCATTTTGC 
    AGTGACCAAA ATGAATCTGA AGTTGAACCA TCTGTAAATG CTGATCTTAA ACAAATGAAT 
    GAAAATTCTG TGACACACTG TTCTGAAAAT AATATGCCGT CTTCTGATCT TGCGGATGAA 
    AAGGTTGAAA CTGTTTCTCA ACCATCTGAA AGCCCAAAAG ATACCATAGA TAAAACCAAA 
    AAGCCTCGTA CTCGAAGATC TAGATTTCAT TCTCCATCTA CAACTTGGTC ACCCAACAAA 
    GACACTCCAC AAGAAAAGAA GCGGCCCCAG TCTCCATCTC CCAGAAGAGA AACTGGGAAA 
    GAAAGCAGGA AGTCTCAATC ACCATCTCCT AAGAATGAGT CAGCCAGAGG CCGGAAAAAA 
    TCCCGTTCTC AGTCCCCAAA AAAGGATATT GCAAGAGAAA GGAGGCAATC TCAGTCTCGG 
    TCTCCAAAAA GGGATACTAC TAGGGAAAGC AGAAGATCTG AATCACTGTC CCCAAGAAGA 
    GAAACTTCTA GAGAGAACAA AAGATCTCAG CCAAGAGTGA AAGATTCTTC CCCAGGAGAA 
    AAATCCAGGT CCCAGAGCAG AGAACGAGAA AGTGATAGAG ATGGGCAGAG GAGAGAGAGA 
    GAAAGGAGAA CCAGAAAGTG GTCTAGGTCC AGATCTCATT CTAGGTCCCC CTCAAGATGT 
    AGAACAAAAA GTAAGAGTTC ATCATTTGGT AGAATTGACA GAGATAGTTA CTCTCCCCGG 
    TGGAAGGGAA GATGGGCAAA TGATGGTTGG AGATGTCCAC GAGGAAATGA TCGGTACAGA 
    AAGAATGACC CAGAGAAACA GAATGAAAAT ACAAGAAAAG AAAAAAATGA CATCCATCTA 
    GATGCTGATG ATCCAAATTC TGCTGACAAA CATAGAAATG ACTGTCCCAA TTGGATAACA 
    GAAAAAATAA ACTCTGGGCC TGATCCAAGA ACCAGAAATC CAGAAAAGTT GAAAGAGTCT 
    CATTGGGAAG AAAATAGAAA TGAAAATTCA GGAAATTCTT GGAATAAAAA CTTTGGTTCT 
    GGTTGGGTAT CTAACCGTGG TAGAGGCAGA GGCAACCGTG GCAGAGGCAC TTACAGAAGT 
    AGTTTTGCCT ATAAAGATCA GAATGAAAAT CGGTGGCAAA ATCGAAAACC CCTCTCAGGG 
    AATTCAAACA GTTCAGGGAG TGAATCTTTC AAGTTTGTGG AACAGCAATC CTATAAGCGA 
    AAAAGTGAAC AGGAGTTCTC ATTTGATACA CCAGCAGATA GATCTGGATG GACATCTGCA 
    TCCAGCTGGG CCGTGAGAAA GACTTTGCCA GCAGATGTAC AAAACTACTA CTCACGACGA 
    GGCAGAAATT CTTCAGGTCC ACAGTCTGGA TGGATGAAAC AAGAGGAGGA AACATCTGGA 
    CAGGATTCTA GCCTAAAAGA CCAAACAAAC CAGCAAGTTG ATGGTTCTCA GCTACCTATA 
    AATATGATGC AACCGCAAAT GAATGTAATG CAGCAACAAA TGAATGCACA ACACCAGCCT 
    ATGAATATCT TCCCATATCC AGTGGGTGTT CATGCTCCTT TGATGAACAT CCAACGCAAT 
    CCATTTAACA TTCATCCTCA GCTACCCTTG CATCTCCACA CAGGAGTGCC CCTCATGCAG 
    GTAGCCACTC CTACCAGTGT ATCTCAGGGA CTACCACCAC CACCACCCCC TCCCCCACCA 
    TCCCAACAAG TCAACTACAT TGCTTCACAA CCAGATGGAA AGCAATTGCA GGGTATTCCT 
    AGTTCTTCTC ATGTAAGTAA TAACATGAGT ACACCAGTTT TGCCTGCTCC GACAGCAGCC 
    CCAGGAAATA CGGGAATGGT TCAGGGACCA AGTTCTGGTA ATACTTCGTC ATCAAGTCAC 
    AGCAAAGCCT CTAATGCTGC TGTAAAATTG GCAGAAAGCA AAGTAAGTGT TGCAGTGGAA 
    GCCAGCGCAG ATAGCTCGAA GACAGACAAG AAATTGCAAA TTCAAGAAAA AGCAGCACAA 
    GAGGTAAAAT TGGCCATCAA GCCATTTTAC CAAAATAAAG ATATCACCAA GGAAGAATAT 
    AAAGAAATTG TACGGAAAGC AGTAGATAAA GTTTGTCATA GTAAGAGTGG AGAAGTAAAT 
    TCTACTAAAG TGGCAAATCT GGTTAAAGCC TATGTAGACA AATACAAATA TTCACGGAAG 
    GGGAGCCAAA AGAAAACTCT GGAAGAACCT GTGTCTACTG AAAAAAACAT AGGCTGA

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

    RefSeq XP_024305042.1
    CDS1585..5841
    Translation

    Target ORF information:

    RefSeq Version XM_024449274.1
    Organism Homo sapiens(human)
    Definition Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024449274.1

    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
    ATGGTTCTCC ATCCTTTCTT TCAACTTCAA GTGCATCTTT CACACAACCT TTACCCTGAT 
    GTACATGTTC CAGGTTTCTC TAGGACACTG GCTTCATGTC CTATTGACCG TAAACCTTTT 
    CAGGCAGTGT TTAAATTCAG TGCATTGGAA GGTTATGTTA AGGTTCAAGT AAAAAAACAG 
    CTGAGAGAAA CAAAAGACAA GAAAAATGAA AACTCATTTG AGAAACAGGT CTCCTGTCAT 
    GAAAATTCTA AAAGCTGTAT AAGAAGAAAA GCCATCGTAA GAGAAGATCT ATTAAGTGCA 
    AAAGTTTGTG ACTTGAAGTG GATACATAGA AACTCTTTAT ACAGTGAAAC AGGAGGAAAG 
    AAAAATGCAG CAATAAAGAT AAATAAGCCT CAGAGATCAA ATTGGAGTAC AAATCAGTGC 
    TTCAGAAATT TTTTCTCCAA TATGTTTTCT TCTGTTAGCC ACTCTGGAGA ATCTTCCTTT 
    ACCTATAGAG CTTATTGTAC AGAATTTATA GAAGCCAGTG AAATCAGTGC ATTGATTAGG 
    CAGAAGAGAC ATGAACTGGA ATTGTCATGG TTTCCTGATA CATTACCTGG AATTGGAAGA 
    ATTGGTTTTA TACCCTGGAA TGTTGAAACA GAAGTCCTTC CTCTCATTTC TTCTGTGTTG 
    CCAAGAACTA TTTTTCCAAC AAGTACCATA TCTTTCGAAC ATTTTGGTAC TTCTTGCAAG 
    GGATATGCAT TAGCACATAC TCAAGAAGGG GAAGAAAAGA AGCAAACTTC TGGTACATCA 
    AATACCAGAG GATCAAGACG AAAACCTGCA ATGACAACTC CTACAAGGAG GTCTACACGT 
    AACACAAGAG CTGAAACAGC CAGTCAGTCT CAGAGATCCC CAATATCAGA CAATTCTGGG 
    TGTGATGCCC CAGGTAACAG TAATCCATCT TTAAGTGTTC CCTCTTCAGC TGAGTCAGAA 
    AAGCAAACAA GACAGGCTCC AAAACGGAAG TCTGTAAGAA GAGGAAGAAA ACCACCTTTA 
    CTGAAAAAGA AACTTCGGAG CTCTGTAGCT GCCCCTGAAA AATCATCTTC CAATGATTCA 
    GTAGATGAAG AAACAGCAGA ATCTGACACA TCACCTGTGT TAGAAAAAGA GCACCAACCA 
    GATGTAGACA GTAGTAACAT TTGTACTGTG CAGACTCATG TAGAAAACCA GTCTGCTAAT 
    TGCTTGAAAA GTTGCAATGA GCAAATAGAA GAAAGTGAGA AGCATACTGC AAATTATGAT 
    ACAGAGGAAA GAGTAGGATC TTCATCTTCT GAGTCTTGTG CTCAAGATCT TCCTGTGCTA 
    GTTGGTGAGG AAGGGGAAGT TAAAAAACTC GAGAATACAG GTATAGAGGC TAATGTTTTG 
    TGTTTGGAAA GTGAGATTTC TGAAAATATT CTTGAAAAAG GAGGTGATCC ATTGGAAAAG 
    CAAGACCAGA TATCTGGACT TTCACAATCA GAGGTAAAGA CAGATGTATG TACAGTTCAT 
    CTTCCAAATG ATTTTCCTAC ATGTTTAACA TCTGAAAGCA AAGTGTACCA ACCTGTATCT 
    TGTCCCCTAA GTGACTTATC TGAGAATGTA GAGTCAGTGG TTAATGAAGA AAAAATAACA 
    GAGAGTTCCC TAGTAGAAAT TACTGAACAT AAAGATTTTA CACTAAAAAC AGAGGAGCTT 
    ATAGAGAGCC CCAAGTTAGA ATCTTCTGAG GGTGAAATTA TACAGACAGT GGACAGACAA 
    TCTGTTAAGA GCCCAGAGGT TCAATTGCTT GGGCATGTTG AAACTGAAGA TGTAGAAATA 
    ATTGCAACAT GTGATACTTT TGGGAATGAA GATTTCAATA ATATTCAAGA CTCTGAAAAT 
    AACTTACTAA AAAATAATCT TCTGAACACC AAATTGGAAA AATCTTTAGA AGAAAAGAAT 
    GAATCGCTGA CCGAACATCC TAGATCTACA GAGTTGCCTA AAACACACAT TGAACAGATT 
    CAGAAGCATT TTAGTGAGGA CAACAATGAA ATGATACCTA TGGAGTGTGA TTCATTTTGC 
    AGTGACCAAA ATGAATCTGA AGTTGAACCA TCTGTAAATG CTGATCTTAA ACAAATGAAT 
    GAAAATTCTG TGACACACTG TTCTGAAAAT AATATGCCGT CTTCTGATCT TGCGGATGAA 
    AAGGTTGAAA CTGTTTCTCA ACCATCTGAA AGCCCAAAAG ATACCATAGA TAAAACCAAA 
    AAGCCTCGTA CTCGAAGATC TAGATTTCAT TCTCCATCTA CAACTTGGTC ACCCAACAAA 
    GACACTCCAC AAGAAAAGAA GCGGCCCCAG TCTCCATCTC CCAGAAGAGA AACTGGGAAA 
    GAAAGCAGGA AGTCTCAATC ACCATCTCCT AAGAATGAGT CAGCCAGAGG CCGGAAAAAA 
    TCCCGTTCTC AGTCCCCAAA AAAGGATATT GCAAGAGAAA GGAGGCAATC TCAGTCTCGG 
    TCTCCAAAAA GGGATACTAC TAGGGAAAGC AGAAGATCTG AATCACTGTC CCCAAGAAGA 
    GAAACTTCTA GAGAGAACAA AAGATCTCAG CCAAGAGTGA AAGATTCTTC CCCAGGAGAA 
    AAATCCAGGT CCCAGAGCAG AGAACGAGAA AGTGATAGAG ATGGGCAGAG GAGAGAGAGA 
    GAAAGGAGAA CCAGAAAGTG GTCTAGGTCC AGATCTCATT CTAGGTCCCC CTCAAGATGT 
    AGAACAAAAA GTAAGAGTTC ATCATTTGGT AGAATTGACA GAGATAGTTA CTCTCCCCGG 
    TGGAAGGGAA GATGGGCAAA TGATGGTTGG AGATGTCCAC GAGGAAATGA TCGGTACAGA 
    AAGAATGACC CAGAGAAACA GAATGAAAAT ACAAGAAAAG AAAAAAATGA CATCCATCTA 
    GATGCTGATG ATCCAAATTC TGCTGACAAA CATAGAAATG ACTGTCCCAA TTGGATAACA 
    GAAAAAATAA ACTCTGGGCC TGATCCAAGA ACCAGAAATC CAGAAAAGTT GAAAGAGTCT 
    CATTGGGAAG AAAATAGAAA TGAAAATTCA GGAAATTCTT GGAATAAAAA CTTTGGTTCT 
    GGTTGGGTAT CTAACCGTGG TAGAGGCAGA GGCAACCGTG GCAGAGGCAC TTACAGAAGT 
    AGTTTTGCCT ATAAAGATCA GAATGAAAAT CGGTGGCAAA ATCGAAAACC CCTCTCAGGG 
    AATTCAAACA GTTCAGGGAG TGAATCTTTC AAGTTTGTGG AACAGCAATC CTATAAGCGA 
    AAAAGTGAAC AGGAGTTCTC ATTTGATACA CCAGCAGATA GATCTGGATG GACATCTGCA 
    TCCAGCTGGG CCGTGAGAAA GACTTTGCCA GCAGATGTAC AAAACTACTA CTCACGACGA 
    GGCAGAAATT CTTCAGGTCC ACAGTCTGGA TGGATGAAAC AAGAGGAGGA AACATCTGGA 
    CAGGATTCTA GCCTAAAAGA CCAAACAAAC CAGCAAGTTG ATGGTTCTCA GCTACCTATA 
    AATATGATGC AACCGCAAAT GAATGTAATG CAGCAACAAA TGAATGCACA ACACCAGCCT 
    ATGAATATCT TCCCATATCC AGTGGGTGTT CATGCTCCTT TGATGAACAT CCAACGCAAT 
    CCATTTAACA TTCATCCTCA GCTACCCTTG CATCTCCACA CAGGAGTGCC CCTCATGCAG 
    GTAGCCACTC CTACCAGTGT ATCTCAGGGA CTACCACCAC CACCACCCCC TCCCCCACCA 
    TCCCAACAAG TCAACTACAT TGCTTCACAA CCAGATGGAA AGCAATTGCA GGGTATTCCT 
    AGTTCTTCTC ATGTAAGTAA TAACATGAGT ACACCAGTTT TGCCTGCTCC GACAGCAGCC 
    CCAGGAAATA CGGGAATGGT TCAGGGACCA AGTTCTGGTA ATACTTCGTC ATCAAGTCAC 
    AGCAAAGCCT CTAATGCTGC TGTAAAATTG GCAGAAAGCA AAGTAAGTGT TGCAGTGGAA 
    GCCAGCGCAG ATAGCTCGAA GACAGACAAG AAATTGCAAA TTCAAGAAAA AGCAGCACAA 
    GAGGTAAAAT TGGCCATCAA GCCATTTTAC CAAAATAAAG ATATCACCAA GGAAGAATAT 
    AAAGAAATTG TACGGAAAGC AGTAGATAAA GTTTGTCATA GTAAGAGTGG AGAAGTAAAT 
    TCTACTAAAG TGGCAAATCT GGTTAAAGCC TATGTAGACA AATACAAATA TTCACGGAAG 
    GGGAGCCAAA AGAAAACTCT GGAAGAACCT GTGTCTACTG AAAAAAACAT AGGCTGA

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

    SCAF11 ( XM_017020222.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016875711.1 Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OHu84326
    Clone ID Related Accession (Same CDS sequence) XM_024449274.1 , XM_017020222.1
    Accession Version XM_017020222.1 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 2016-06-05
    Organism Homo sapiens(human)
    Product protein SCAF11 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by mRNA and 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
    ATGGTTCTCC ATCCTTTCTT TCAACTTCAA GTGCATCTTT CACACAACCT TTACCCTGAT 
    GTACATGTTC CAGGTTTCTC TAGGACACTG GCTTCATGTC CTATTGACCG TAAACCTTTT 
    CAGGCAGTGT TTAAATTCAG TGCATTGGAA GGTTATGTTA AGGTTCAAGT AAAAAAACAG 
    CTGAGAGAAA CAAAAGACAA GAAAAATGAA AACTCATTTG AGAAACAGGT CTCCTGTCAT 
    GAAAATTCTA AAAGCTGTAT AAGAAGAAAA GCCATCGTAA GAGAAGATCT ATTAAGTGCA 
    AAAGTTTGTG ACTTGAAGTG GATACATAGA AACTCTTTAT ACAGTGAAAC AGGAGGAAAG 
    AAAAATGCAG CAATAAAGAT AAATAAGCCT CAGAGATCAA ATTGGAGTAC AAATCAGTGC 
    TTCAGAAATT TTTTCTCCAA TATGTTTTCT TCTGTTAGCC ACTCTGGAGA ATCTTCCTTT 
    ACCTATAGAG CTTATTGTAC AGAATTTATA GAAGCCAGTG AAATCAGTGC ATTGATTAGG 
    CAGAAGAGAC ATGAACTGGA ATTGTCATGG TTTCCTGATA CATTACCTGG AATTGGAAGA 
    ATTGGTTTTA TACCCTGGAA TGTTGAAACA GAAGTCCTTC CTCTCATTTC TTCTGTGTTG 
    CCAAGAACTA TTTTTCCAAC AAGTACCATA TCTTTCGAAC ATTTTGGTAC TTCTTGCAAG 
    GGATATGCAT TAGCACATAC TCAAGAAGGG GAAGAAAAGA AGCAAACTTC TGGTACATCA 
    AATACCAGAG GATCAAGACG AAAACCTGCA ATGACAACTC CTACAAGGAG GTCTACACGT 
    AACACAAGAG CTGAAACAGC CAGTCAGTCT CAGAGATCCC CAATATCAGA CAATTCTGGG 
    TGTGATGCCC CAGGTAACAG TAATCCATCT TTAAGTGTTC CCTCTTCAGC TGAGTCAGAA 
    AAGCAAACAA GACAGGCTCC AAAACGGAAG TCTGTAAGAA GAGGAAGAAA ACCACCTTTA 
    CTGAAAAAGA AACTTCGGAG CTCTGTAGCT GCCCCTGAAA AATCATCTTC CAATGATTCA 
    GTAGATGAAG AAACAGCAGA ATCTGACACA TCACCTGTGT TAGAAAAAGA GCACCAACCA 
    GATGTAGACA GTAGTAACAT TTGTACTGTG CAGACTCATG TAGAAAACCA GTCTGCTAAT 
    TGCTTGAAAA GTTGCAATGA GCAAATAGAA GAAAGTGAGA AGCATACTGC AAATTATGAT 
    ACAGAGGAAA GAGTAGGATC TTCATCTTCT GAGTCTTGTG CTCAAGATCT TCCTGTGCTA 
    GTTGGTGAGG AAGGGGAAGT TAAAAAACTC GAGAATACAG GTATAGAGGC TAATGTTTTG 
    TGTTTGGAAA GTGAGATTTC TGAAAATATT CTTGAAAAAG GAGGTGATCC ATTGGAAAAG 
    CAAGACCAGA TATCTGGACT TTCACAATCA GAGGTAAAGA CAGATGTATG TACAGTTCAT 
    CTTCCAAATG ATTTTCCTAC ATGTTTAACA TCTGAAAGCA AAGTGTACCA ACCTGTATCT 
    TGTCCCCTAA GTGACTTATC TGAGAATGTA GAGTCAGTGG TTAATGAAGA AAAAATAACA 
    GAGAGTTCCC TAGTAGAAAT TACTGAACAT AAAGATTTTA CACTAAAAAC AGAGGAGCTT 
    ATAGAGAGCC CCAAGTTAGA ATCTTCTGAG GGTGAAATTA TACAGACAGT GGACAGACAA 
    TCTGTTAAGA GCCCAGAGGT TCAATTGCTT GGGCATGTTG AAACTGAAGA TGTAGAAATA 
    ATTGCAACAT GTGATACTTT TGGGAATGAA GATTTCAATA ATATTCAAGA CTCTGAAAAT 
    AACTTACTAA AAAATAATCT TCTGAACACC AAATTGGAAA AATCTTTAGA AGAAAAGAAT 
    GAATCGCTGA CCGAACATCC TAGATCTACA GAGTTGCCTA AAACACACAT TGAACAGATT 
    CAGAAGCATT TTAGTGAGGA CAACAATGAA ATGATACCTA TGGAGTGTGA TTCATTTTGC 
    AGTGACCAAA ATGAATCTGA AGTTGAACCA TCTGTAAATG CTGATCTTAA ACAAATGAAT 
    GAAAATTCTG TGACACACTG TTCTGAAAAT AATATGCCGT CTTCTGATCT TGCGGATGAA 
    AAGGTTGAAA CTGTTTCTCA ACCATCTGAA AGCCCAAAAG ATACCATAGA TAAAACCAAA 
    AAGCCTCGTA CTCGAAGATC TAGATTTCAT TCTCCATCTA CAACTTGGTC ACCCAACAAA 
    GACACTCCAC AAGAAAAGAA GCGGCCCCAG TCTCCATCTC CCAGAAGAGA AACTGGGAAA 
    GAAAGCAGGA AGTCTCAATC ACCATCTCCT AAGAATGAGT CAGCCAGAGG CCGGAAAAAA 
    TCCCGTTCTC AGTCCCCAAA AAAGGATATT GCAAGAGAAA GGAGGCAATC TCAGTCTCGG 
    TCTCCAAAAA GGGATACTAC TAGGGAAAGC AGAAGATCTG AATCACTGTC CCCAAGAAGA 
    GAAACTTCTA GAGAGAACAA AAGATCTCAG CCAAGAGTGA AAGATTCTTC CCCAGGAGAA 
    AAATCCAGGT CCCAGAGCAG AGAACGAGAA AGTGATAGAG ATGGGCAGAG GAGAGAGAGA 
    GAAAGGAGAA CCAGAAAGTG GTCTAGGTCC AGATCTCATT CTAGGTCCCC CTCAAGATGT 
    AGAACAAAAA GTAAGAGTTC ATCATTTGGT AGAATTGACA GAGATAGTTA CTCTCCCCGG 
    TGGAAGGGAA GATGGGCAAA TGATGGTTGG AGATGTCCAC GAGGAAATGA TCGGTACAGA 
    AAGAATGACC CAGAGAAACA GAATGAAAAT ACAAGAAAAG AAAAAAATGA CATCCATCTA 
    GATGCTGATG ATCCAAATTC TGCTGACAAA CATAGAAATG ACTGTCCCAA TTGGATAACA 
    GAAAAAATAA ACTCTGGGCC TGATCCAAGA ACCAGAAATC CAGAAAAGTT GAAAGAGTCT 
    CATTGGGAAG AAAATAGAAA TGAAAATTCA GGAAATTCTT GGAATAAAAA CTTTGGTTCT 
    GGTTGGGTAT CTAACCGTGG TAGAGGCAGA GGCAACCGTG GCAGAGGCAC TTACAGAAGT 
    AGTTTTGCCT ATAAAGATCA GAATGAAAAT CGGTGGCAAA ATCGAAAACC CCTCTCAGGG 
    AATTCAAACA GTTCAGGGAG TGAATCTTTC AAGTTTGTGG AACAGCAATC CTATAAGCGA 
    AAAAGTGAAC AGGAGTTCTC ATTTGATACA CCAGCAGATA GATCTGGATG GACATCTGCA 
    TCCAGCTGGG CCGTGAGAAA GACTTTGCCA GCAGATGTAC AAAACTACTA CTCACGACGA 
    GGCAGAAATT CTTCAGGTCC ACAGTCTGGA TGGATGAAAC AAGAGGAGGA AACATCTGGA 
    CAGGATTCTA GCCTAAAAGA CCAAACAAAC CAGCAAGTTG ATGGTTCTCA GCTACCTATA 
    AATATGATGC AACCGCAAAT GAATGTAATG CAGCAACAAA TGAATGCACA ACACCAGCCT 
    ATGAATATCT TCCCATATCC AGTGGGTGTT CATGCTCCTT TGATGAACAT CCAACGCAAT 
    CCATTTAACA TTCATCCTCA GCTACCCTTG CATCTCCACA CAGGAGTGCC CCTCATGCAG 
    GTAGCCACTC CTACCAGTGT ATCTCAGGGA CTACCACCAC CACCACCCCC TCCCCCACCA 
    TCCCAACAAG TCAACTACAT TGCTTCACAA CCAGATGGAA AGCAATTGCA GGGTATTCCT 
    AGTTCTTCTC ATGTAAGTAA TAACATGAGT ACACCAGTTT TGCCTGCTCC GACAGCAGCC 
    CCAGGAAATA CGGGAATGGT TCAGGGACCA AGTTCTGGTA ATACTTCGTC ATCAAGTCAC 
    AGCAAAGCCT CTAATGCTGC TGTAAAATTG GCAGAAAGCA AAGTAAGTGT TGCAGTGGAA 
    GCCAGCGCAG ATAGCTCGAA GACAGACAAG AAATTGCAAA TTCAAGAAAA AGCAGCACAA 
    GAGGTAAAAT TGGCCATCAA GCCATTTTAC CAAAATAAAG ATATCACCAA GGAAGAATAT 
    AAAGAAATTG TACGGAAAGC AGTAGATAAA GTTTGTCATA GTAAGAGTGG AGAAGTAAAT 
    TCTACTAAAG TGGCAAATCT GGTTAAAGCC TATGTAGACA AATACAAATA TTCACGGAAG 
    GGGAGCCAAA AGAAAACTCT GGAAGAACCT GTGTCTACTG AAAAAAACAT AGGCTGA

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

    RefSeq XP_016875711.1
    CDS600..4856
    Translation

    Target ORF information:

    RefSeq Version XM_017020222.1
    Organism Homo sapiens(human)
    Definition Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017020222.1

    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
    ATGGTTCTCC ATCCTTTCTT TCAACTTCAA GTGCATCTTT CACACAACCT TTACCCTGAT 
    GTACATGTTC CAGGTTTCTC TAGGACACTG GCTTCATGTC CTATTGACCG TAAACCTTTT 
    CAGGCAGTGT TTAAATTCAG TGCATTGGAA GGTTATGTTA AGGTTCAAGT AAAAAAACAG 
    CTGAGAGAAA CAAAAGACAA GAAAAATGAA AACTCATTTG AGAAACAGGT CTCCTGTCAT 
    GAAAATTCTA AAAGCTGTAT AAGAAGAAAA GCCATCGTAA GAGAAGATCT ATTAAGTGCA 
    AAAGTTTGTG ACTTGAAGTG GATACATAGA AACTCTTTAT ACAGTGAAAC AGGAGGAAAG 
    AAAAATGCAG CAATAAAGAT AAATAAGCCT CAGAGATCAA ATTGGAGTAC AAATCAGTGC 
    TTCAGAAATT TTTTCTCCAA TATGTTTTCT TCTGTTAGCC ACTCTGGAGA ATCTTCCTTT 
    ACCTATAGAG CTTATTGTAC AGAATTTATA GAAGCCAGTG AAATCAGTGC ATTGATTAGG 
    CAGAAGAGAC ATGAACTGGA ATTGTCATGG TTTCCTGATA CATTACCTGG AATTGGAAGA 
    ATTGGTTTTA TACCCTGGAA TGTTGAAACA GAAGTCCTTC CTCTCATTTC TTCTGTGTTG 
    CCAAGAACTA TTTTTCCAAC AAGTACCATA TCTTTCGAAC ATTTTGGTAC TTCTTGCAAG 
    GGATATGCAT TAGCACATAC TCAAGAAGGG GAAGAAAAGA AGCAAACTTC TGGTACATCA 
    AATACCAGAG GATCAAGACG AAAACCTGCA ATGACAACTC CTACAAGGAG GTCTACACGT 
    AACACAAGAG CTGAAACAGC CAGTCAGTCT CAGAGATCCC CAATATCAGA CAATTCTGGG 
    TGTGATGCCC CAGGTAACAG TAATCCATCT TTAAGTGTTC CCTCTTCAGC TGAGTCAGAA 
    AAGCAAACAA GACAGGCTCC AAAACGGAAG TCTGTAAGAA GAGGAAGAAA ACCACCTTTA 
    CTGAAAAAGA AACTTCGGAG CTCTGTAGCT GCCCCTGAAA AATCATCTTC CAATGATTCA 
    GTAGATGAAG AAACAGCAGA ATCTGACACA TCACCTGTGT TAGAAAAAGA GCACCAACCA 
    GATGTAGACA GTAGTAACAT TTGTACTGTG CAGACTCATG TAGAAAACCA GTCTGCTAAT 
    TGCTTGAAAA GTTGCAATGA GCAAATAGAA GAAAGTGAGA AGCATACTGC AAATTATGAT 
    ACAGAGGAAA GAGTAGGATC TTCATCTTCT GAGTCTTGTG CTCAAGATCT TCCTGTGCTA 
    GTTGGTGAGG AAGGGGAAGT TAAAAAACTC GAGAATACAG GTATAGAGGC TAATGTTTTG 
    TGTTTGGAAA GTGAGATTTC TGAAAATATT CTTGAAAAAG GAGGTGATCC ATTGGAAAAG 
    CAAGACCAGA TATCTGGACT TTCACAATCA GAGGTAAAGA CAGATGTATG TACAGTTCAT 
    CTTCCAAATG ATTTTCCTAC ATGTTTAACA TCTGAAAGCA AAGTGTACCA ACCTGTATCT 
    TGTCCCCTAA GTGACTTATC TGAGAATGTA GAGTCAGTGG TTAATGAAGA AAAAATAACA 
    GAGAGTTCCC TAGTAGAAAT TACTGAACAT AAAGATTTTA CACTAAAAAC AGAGGAGCTT 
    ATAGAGAGCC CCAAGTTAGA ATCTTCTGAG GGTGAAATTA TACAGACAGT GGACAGACAA 
    TCTGTTAAGA GCCCAGAGGT TCAATTGCTT GGGCATGTTG AAACTGAAGA TGTAGAAATA 
    ATTGCAACAT GTGATACTTT TGGGAATGAA GATTTCAATA ATATTCAAGA CTCTGAAAAT 
    AACTTACTAA AAAATAATCT TCTGAACACC AAATTGGAAA AATCTTTAGA AGAAAAGAAT 
    GAATCGCTGA CCGAACATCC TAGATCTACA GAGTTGCCTA AAACACACAT TGAACAGATT 
    CAGAAGCATT TTAGTGAGGA CAACAATGAA ATGATACCTA TGGAGTGTGA TTCATTTTGC 
    AGTGACCAAA ATGAATCTGA AGTTGAACCA TCTGTAAATG CTGATCTTAA ACAAATGAAT 
    GAAAATTCTG TGACACACTG TTCTGAAAAT AATATGCCGT CTTCTGATCT TGCGGATGAA 
    AAGGTTGAAA CTGTTTCTCA ACCATCTGAA AGCCCAAAAG ATACCATAGA TAAAACCAAA 
    AAGCCTCGTA CTCGAAGATC TAGATTTCAT TCTCCATCTA CAACTTGGTC ACCCAACAAA 
    GACACTCCAC AAGAAAAGAA GCGGCCCCAG TCTCCATCTC CCAGAAGAGA AACTGGGAAA 
    GAAAGCAGGA AGTCTCAATC ACCATCTCCT AAGAATGAGT CAGCCAGAGG CCGGAAAAAA 
    TCCCGTTCTC AGTCCCCAAA AAAGGATATT GCAAGAGAAA GGAGGCAATC TCAGTCTCGG 
    TCTCCAAAAA GGGATACTAC TAGGGAAAGC AGAAGATCTG AATCACTGTC CCCAAGAAGA 
    GAAACTTCTA GAGAGAACAA AAGATCTCAG CCAAGAGTGA AAGATTCTTC CCCAGGAGAA 
    AAATCCAGGT CCCAGAGCAG AGAACGAGAA AGTGATAGAG ATGGGCAGAG GAGAGAGAGA 
    GAAAGGAGAA CCAGAAAGTG GTCTAGGTCC AGATCTCATT CTAGGTCCCC CTCAAGATGT 
    AGAACAAAAA GTAAGAGTTC ATCATTTGGT AGAATTGACA GAGATAGTTA CTCTCCCCGG 
    TGGAAGGGAA GATGGGCAAA TGATGGTTGG AGATGTCCAC GAGGAAATGA TCGGTACAGA 
    AAGAATGACC CAGAGAAACA GAATGAAAAT ACAAGAAAAG AAAAAAATGA CATCCATCTA 
    GATGCTGATG ATCCAAATTC TGCTGACAAA CATAGAAATG ACTGTCCCAA TTGGATAACA 
    GAAAAAATAA ACTCTGGGCC TGATCCAAGA ACCAGAAATC CAGAAAAGTT GAAAGAGTCT 
    CATTGGGAAG AAAATAGAAA TGAAAATTCA GGAAATTCTT GGAATAAAAA CTTTGGTTCT 
    GGTTGGGTAT CTAACCGTGG TAGAGGCAGA GGCAACCGTG GCAGAGGCAC TTACAGAAGT 
    AGTTTTGCCT ATAAAGATCA GAATGAAAAT CGGTGGCAAA ATCGAAAACC CCTCTCAGGG 
    AATTCAAACA GTTCAGGGAG TGAATCTTTC AAGTTTGTGG AACAGCAATC CTATAAGCGA 
    AAAAGTGAAC AGGAGTTCTC ATTTGATACA CCAGCAGATA GATCTGGATG GACATCTGCA 
    TCCAGCTGGG CCGTGAGAAA GACTTTGCCA GCAGATGTAC AAAACTACTA CTCACGACGA 
    GGCAGAAATT CTTCAGGTCC ACAGTCTGGA TGGATGAAAC AAGAGGAGGA AACATCTGGA 
    CAGGATTCTA GCCTAAAAGA CCAAACAAAC CAGCAAGTTG ATGGTTCTCA GCTACCTATA 
    AATATGATGC AACCGCAAAT GAATGTAATG CAGCAACAAA TGAATGCACA ACACCAGCCT 
    ATGAATATCT TCCCATATCC AGTGGGTGTT CATGCTCCTT TGATGAACAT CCAACGCAAT 
    CCATTTAACA TTCATCCTCA GCTACCCTTG CATCTCCACA CAGGAGTGCC CCTCATGCAG 
    GTAGCCACTC CTACCAGTGT ATCTCAGGGA CTACCACCAC CACCACCCCC TCCCCCACCA 
    TCCCAACAAG TCAACTACAT TGCTTCACAA CCAGATGGAA AGCAATTGCA GGGTATTCCT 
    AGTTCTTCTC ATGTAAGTAA TAACATGAGT ACACCAGTTT TGCCTGCTCC GACAGCAGCC 
    CCAGGAAATA CGGGAATGGT TCAGGGACCA AGTTCTGGTA ATACTTCGTC ATCAAGTCAC 
    AGCAAAGCCT CTAATGCTGC TGTAAAATTG GCAGAAAGCA AAGTAAGTGT TGCAGTGGAA 
    GCCAGCGCAG ATAGCTCGAA GACAGACAAG AAATTGCAAA TTCAAGAAAA AGCAGCACAA 
    GAGGTAAAAT TGGCCATCAA GCCATTTTAC CAAAATAAAG ATATCACCAA GGAAGAATAT 
    AAAGAAATTG TACGGAAAGC AGTAGATAAA GTTTGTCATA GTAAGAGTGG AGAAGTAAAT 
    TCTACTAAAG TGGCAAATCT GGTTAAAGCC TATGTAGACA AATACAAATA TTCACGGAAG 
    GGGAGCCAAA AGAAAACTCT GGAAGAACCT GTGTCTACTG AAAAAAACAT AGGCTGA

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

    SCAF11 ( NM_004719.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_004710.2 Homo sapiens SR-related CTD associated factor 11 (SCAF11), mRNA.
    Price & Availability↑
    CloneID OHu04567
    Clone ID Related Accession (Same CDS sequence) XM_005269230.2 , NM_004719.3 , NM_004719.2 , XM_011538985.1
    Accession Version NM_004719.2 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 2017-10-01
    Organism Homo sapiens(human)
    Product protein SCAF11
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC084878.12, AF030234.1 and AC000015.2. On Nov 10, 2006 this sequence version replaced NM_004719.1. ##Evidence-Data-START## Transcript exon combination :: AF030234.1, SRR1660803.223614.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGAAGAAGA AAACTGTATG TACCCTAAAT ATGGGAGATA AGAAGTATGA AGACATGGAA 
    GGTGAAGAAA ACGGAGATAA TACTATTTCC ACTGGTCTGT TGTACAGTGA GGCTGACAGA 
    TGCCCAATAT GTCTTAATTG TCTATTAGAA AAGGAAGTTG GTTTTCCAGA AAGCTGTAAT 
    CATGTCTTCT GTATGACTTG TATTCTTAAA TGGGCAGAGA CACTGGCTTC ATGTCCTATT 
    GACCGTAAAC CTTTTCAGGC AGTGTTTAAA TTCAGTGCAT TGGAAGGTTA TGTTAAGGTT 
    CAAGTAAAAA AACAGCTGAG AGAAACAAAA GACAAGAAAA ATGAAAACTC ATTTGAGAAA 
    CAGGTCTCCT GTCATGAAAA TTCTAAAAGC TGTATAAGAA GAAAAGCCAT CGTAAGAGAA 
    GATCTATTAA GTGCAAAAGT TTGTGACTTG AAGTGGATAC ATAGAAACTC TTTATACAGT 
    GAAACAGGAG GAAAGAAAAA TGCAGCAATA AAGATAAATA AGCCTCAGAG ATCAAATTGG 
    AGTACAAATC AGTGCTTCAG AAATTTTTTC TCCAATATGT TTTCTTCTGT TAGCCACTCT 
    GGAGAATCTT CCTTTACCTA TAGAGCTTAT TGTACAGAAT TTATAGAAGC CAGTGAAATC 
    AGTGCATTGA TTAGGCAGAA GAGACATGAA CTGGAATTGT CATGGTTTCC TGATACATTA 
    CCTGGAATTG GAAGAATTGG TTTTATACCC TGGAATGTTG AAACAGAAGT CCTTCCTCTC 
    ATTTCTTCTG TGTTGCCAAG AACTATTTTT CCAACAAGTA CCATATCTTT CGAACATTTT 
    GGTACTTCTT GCAAGGGATA TGCATTAGCA CATACTCAAG AAGGGGAAGA AAAGAAGCAA 
    ACTTCTGGTA CATCAAATAC CAGAGGATCA AGACGAAAAC CTGCAATGAC AACTCCTACA 
    AGGAGGTCTA CACGTAACAC AAGAGCTGAA ACAGCCAGTC AGTCTCAGAG ATCCCCAATA 
    TCAGACAATT CTGGGTGTGA TGCCCCAGGT AACAGTAATC CATCTTTAAG TGTTCCCTCT 
    TCAGCTGAGT CAGAAAAGCA AACAAGACAG GCTCCAAAAC GGAAGTCTGT AAGAAGAGGA 
    AGAAAACCAC CTTTACTGAA AAAGAAACTT CGGAGCTCTG TAGCTGCCCC TGAAAAATCA 
    TCTTCCAATG ATTCAGTAGA TGAAGAAACA GCAGAATCTG ACACATCACC TGTGTTAGAA 
    AAAGAGCACC AACCAGATGT AGACAGTAGT AACATTTGTA CTGTGCAGAC TCATGTAGAA 
    AACCAGTCTG CTAATTGCTT GAAAAGTTGC AATGAGCAAA TAGAAGAAAG TGAGAAGCAT 
    ACTGCAAATT ATGATACAGA GGAAAGAGTA GGATCTTCAT CTTCTGAGTC TTGTGCTCAA 
    GATCTTCCTG TGCTAGTTGG TGAGGAAGGG GAAGTTAAAA AACTCGAGAA TACAGGTATA 
    GAGGCTAATG TTTTGTGTTT GGAAAGTGAG ATTTCTGAAA ATATTCTTGA AAAAGGAGGT 
    GATCCATTGG AAAAGCAAGA CCAGATATCT GGACTTTCAC AATCAGAGGT AAAGACAGAT 
    GTATGTACAG TTCATCTTCC AAATGATTTT CCTACATGTT TAACATCTGA AAGCAAAGTG 
    TACCAACCTG TATCTTGTCC CCTAAGTGAC TTATCTGAGA ATGTAGAGTC AGTGGTTAAT 
    GAAGAAAAAA TAACAGAGAG TTCCCTAGTA GAAATTACTG AACATAAAGA TTTTACACTA 
    AAAACAGAGG AGCTTATAGA GAGCCCCAAG TTAGAATCTT CTGAGGGTGA AATTATACAG 
    ACAGTGGACA GACAATCTGT TAAGAGCCCA GAGGTTCAAT TGCTTGGGCA TGTTGAAACT 
    GAAGATGTAG AAATAATTGC AACATGTGAT ACTTTTGGGA ATGAAGATTT CAATAATATT 
    CAAGACTCTG AAAATAACTT ACTAAAAAAT AATCTTCTGA ACACCAAATT GGAAAAATCT 
    TTAGAAGAAA AGAATGAATC GCTGACCGAA CATCCTAGAT CTACAGAGTT GCCTAAAACA 
    CACATTGAAC AGATTCAGAA GCATTTTAGT GAGGACAACA ATGAAATGAT ACCTATGGAG 
    TGTGATTCAT TTTGCAGTGA CCAAAATGAA TCTGAAGTTG AACCATCTGT AAATGCTGAT 
    CTTAAACAAA TGAATGAAAA TTCTGTGACA CACTGTTCTG AAAATAATAT GCCGTCTTCT 
    GATCTTGCGG ATGAAAAGGT TGAAACTGTT TCTCAACCAT CTGAAAGCCC AAAAGATACC 
    ATAGATAAAA CCAAAAAGCC TCGTACTCGA AGATCTAGAT TTCATTCTCC ATCTACAACT 
    TGGTCACCCA ACAAAGACAC TCCACAAGAA AAGAAGCGGC CCCAGTCTCC ATCTCCCAGA 
    AGAGAAACTG GGAAAGAAAG CAGGAAGTCT CAATCACCAT CTCCTAAGAA TGAGTCAGCC 
    AGAGGCCGGA AAAAATCCCG TTCTCAGTCC CCAAAAAAGG ATATTGCAAG AGAAAGGAGG 
    CAATCTCAGT CTCGGTCTCC AAAAAGGGAT ACTACTAGGG AAAGCAGAAG ATCTGAATCA 
    CTGTCCCCAA GAAGAGAAAC TTCTAGAGAG AACAAAAGAT CTCAGCCAAG AGTGAAAGAT 
    TCTTCCCCAG GAGAAAAATC CAGGTCCCAG AGCAGAGAAC GAGAAAGTGA TAGAGATGGG 
    CAGAGGAGAG AGAGAGAAAG GAGAACCAGA AAGTGGTCTA GGTCCAGATC TCATTCTAGG 
    TCCCCCTCAA GATGTAGAAC AAAAAGTAAG AGTTCATCAT TTGGTAGAAT TGACAGAGAT 
    AGTTACTCTC CCCGGTGGAA GGGAAGATGG GCAAATGATG GTTGGAGATG TCCACGAGGA 
    AATGATCGGT ACAGAAAGAA TGACCCAGAG AAACAGAATG AAAATACAAG AAAAGAAAAA 
    AATGACATCC ATCTAGATGC TGATGATCCA AATTCTGCTG ACAAACATAG AAATGACTGT 
    CCCAATTGGA TAACAGAAAA AATAAACTCT GGGCCTGATC CAAGAACCAG AAATCCAGAA 
    AAGTTGAAAG AGTCTCATTG GGAAGAAAAT AGAAATGAAA ATTCAGGAAA TTCTTGGAAT 
    AAAAACTTTG GTTCTGGTTG GGTATCTAAC CGTGGTAGAG GCAGAGGCAA CCGTGGCAGA 
    GGCACTTACA GAAGTAGTTT TGCCTATAAA GATCAGAATG AAAATCGGTG GCAAAATCGA 
    AAACCCCTCT CAGGGAATTC AAACAGTTCA GGGAGTGAAT CTTTCAAGTT TGTGGAACAG 
    CAATCCTATA AGCGAAAAAG TGAACAGGAG TTCTCATTTG ATACACCAGC AGATAGATCT 
    GGATGGACAT CTGCATCCAG CTGGGCCGTG AGAAAGACTT TGCCAGCAGA TGTACAAAAC 
    TACTACTCAC GACGAGGCAG AAATTCTTCA GGTCCACAGT CTGGATGGAT GAAACAAGAG 
    GAGGAAACAT CTGGACAGGA TTCTAGCCTA AAAGACCAAA CAAACCAGCA AGTTGATGGT 
    TCTCAGCTAC CTATAAATAT GATGCAACCG CAAATGAATG TAATGCAGCA ACAAATGAAT 
    GCACAACACC AGCCTATGAA TATCTTCCCA TATCCAGTGG GTGTTCATGC TCCTTTGATG 
    AACATCCAAC GCAATCCATT TAACATTCAT CCTCAGCTAC CCTTGCATCT CCACACAGGA 
    GTGCCCCTCA TGCAGGTAGC CACTCCTACC AGTGTATCTC AGGGACTACC ACCACCACCA 
    CCCCCTCCCC CACCATCCCA ACAAGTCAAC TACATTGCTT CACAACCAGA TGGAAAGCAA 
    TTGCAGGGTA TTCCTAGTTC TTCTCATGTA AGTAATAACA TGAGTACACC AGTTTTGCCT 
    GCTCCGACAG CAGCCCCAGG AAATACGGGA ATGGTTCAGG GACCAAGTTC TGGTAATACT 
    TCGTCATCAA GTCACAGCAA AGCCTCTAAT GCTGCTGTAA AATTGGCAGA AAGCAAAGTA 
    AGTGTTGCAG TGGAAGCCAG CGCAGATAGC TCGAAGACAG ACAAGAAATT GCAAATTCAA 
    GAAAAAGCAG CACAAGAGGT AAAATTGGCC ATCAAGCCAT TTTACCAAAA TAAAGATATC 
    ACCAAGGAAG AATATAAAGA AATTGTACGG AAAGCAGTAG ATAAAGTTTG TCATAGTAAG 
    AGTGGAGAAG TAAATTCTAC TAAAGTGGCA AATCTGGTTA AAGCCTATGT AGACAAATAC 
    AAATATTCAC GGAAGGGGAG CCAAAAGAAA ACTCTGGAAG AACCTGTGTC TACTGAAAAA 
    AACATAGGCT GA

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

    RefSeq NP_004710.2
    CDS288..4679
    Translation

    Target ORF information:

    RefSeq Version NM_004719.2
    Organism Homo sapiens(human)
    Definition Homo sapiens SR-related CTD associated factor 11 (SCAF11), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_004719.2

    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
    ATGAAGAAGA AAACTGTATG TACCCTAAAT ATGGGAGATA AGAAGTATGA AGACATGGAA 
    GGTGAAGAAA ACGGAGATAA TACTATTTCC ACTGGTCTGT TGTACAGTGA GGCTGACAGA 
    TGCCCAATAT GTCTTAATTG TCTATTAGAA AAGGAAGTTG GTTTTCCAGA AAGCTGTAAT 
    CATGTCTTCT GTATGACTTG TATTCTTAAA TGGGCAGAGA CACTGGCTTC ATGTCCTATT 
    GACCGTAAAC CTTTTCAGGC AGTGTTTAAA TTCAGTGCAT TGGAAGGTTA TGTTAAGGTT 
    CAAGTAAAAA AACAGCTGAG AGAAACAAAA GACAAGAAAA ATGAAAACTC ATTTGAGAAA 
    CAGGTCTCCT GTCATGAAAA TTCTAAAAGC TGTATAAGAA GAAAAGCCAT CGTAAGAGAA 
    GATCTATTAA GTGCAAAAGT TTGTGACTTG AAGTGGATAC ATAGAAACTC TTTATACAGT 
    GAAACAGGAG GAAAGAAAAA TGCAGCAATA AAGATAAATA AGCCTCAGAG ATCAAATTGG 
    AGTACAAATC AGTGCTTCAG AAATTTTTTC TCCAATATGT TTTCTTCTGT TAGCCACTCT 
    GGAGAATCTT CCTTTACCTA TAGAGCTTAT TGTACAGAAT TTATAGAAGC CAGTGAAATC 
    AGTGCATTGA TTAGGCAGAA GAGACATGAA CTGGAATTGT CATGGTTTCC TGATACATTA 
    CCTGGAATTG GAAGAATTGG TTTTATACCC TGGAATGTTG AAACAGAAGT CCTTCCTCTC 
    ATTTCTTCTG TGTTGCCAAG AACTATTTTT CCAACAAGTA CCATATCTTT CGAACATTTT 
    GGTACTTCTT GCAAGGGATA TGCATTAGCA CATACTCAAG AAGGGGAAGA AAAGAAGCAA 
    ACTTCTGGTA CATCAAATAC CAGAGGATCA AGACGAAAAC CTGCAATGAC AACTCCTACA 
    AGGAGGTCTA CACGTAACAC AAGAGCTGAA ACAGCCAGTC AGTCTCAGAG ATCCCCAATA 
    TCAGACAATT CTGGGTGTGA TGCCCCAGGT AACAGTAATC CATCTTTAAG TGTTCCCTCT 
    TCAGCTGAGT CAGAAAAGCA AACAAGACAG GCTCCAAAAC GGAAGTCTGT AAGAAGAGGA 
    AGAAAACCAC CTTTACTGAA AAAGAAACTT CGGAGCTCTG TAGCTGCCCC TGAAAAATCA 
    TCTTCCAATG ATTCAGTAGA TGAAGAAACA GCAGAATCTG ACACATCACC TGTGTTAGAA 
    AAAGAGCACC AACCAGATGT AGACAGTAGT AACATTTGTA CTGTGCAGAC TCATGTAGAA 
    AACCAGTCTG CTAATTGCTT GAAAAGTTGC AATGAGCAAA TAGAAGAAAG TGAGAAGCAT 
    ACTGCAAATT ATGATACAGA GGAAAGAGTA GGATCTTCAT CTTCTGAGTC TTGTGCTCAA 
    GATCTTCCTG TGCTAGTTGG TGAGGAAGGG GAAGTTAAAA AACTCGAGAA TACAGGTATA 
    GAGGCTAATG TTTTGTGTTT GGAAAGTGAG ATTTCTGAAA ATATTCTTGA AAAAGGAGGT 
    GATCCATTGG AAAAGCAAGA CCAGATATCT GGACTTTCAC AATCAGAGGT AAAGACAGAT 
    GTATGTACAG TTCATCTTCC AAATGATTTT CCTACATGTT TAACATCTGA AAGCAAAGTG 
    TACCAACCTG TATCTTGTCC CCTAAGTGAC TTATCTGAGA ATGTAGAGTC AGTGGTTAAT 
    GAAGAAAAAA TAACAGAGAG TTCCCTAGTA GAAATTACTG AACATAAAGA TTTTACACTA 
    AAAACAGAGG AGCTTATAGA GAGCCCCAAG TTAGAATCTT CTGAGGGTGA AATTATACAG 
    ACAGTGGACA GACAATCTGT TAAGAGCCCA GAGGTTCAAT TGCTTGGGCA TGTTGAAACT 
    GAAGATGTAG AAATAATTGC AACATGTGAT ACTTTTGGGA ATGAAGATTT CAATAATATT 
    CAAGACTCTG AAAATAACTT ACTAAAAAAT AATCTTCTGA ACACCAAATT GGAAAAATCT 
    TTAGAAGAAA AGAATGAATC GCTGACCGAA CATCCTAGAT CTACAGAGTT GCCTAAAACA 
    CACATTGAAC AGATTCAGAA GCATTTTAGT GAGGACAACA ATGAAATGAT ACCTATGGAG 
    TGTGATTCAT TTTGCAGTGA CCAAAATGAA TCTGAAGTTG AACCATCTGT AAATGCTGAT 
    CTTAAACAAA TGAATGAAAA TTCTGTGACA CACTGTTCTG AAAATAATAT GCCGTCTTCT 
    GATCTTGCGG ATGAAAAGGT TGAAACTGTT TCTCAACCAT CTGAAAGCCC AAAAGATACC 
    ATAGATAAAA CCAAAAAGCC TCGTACTCGA AGATCTAGAT TTCATTCTCC ATCTACAACT 
    TGGTCACCCA ACAAAGACAC TCCACAAGAA AAGAAGCGGC CCCAGTCTCC ATCTCCCAGA 
    AGAGAAACTG GGAAAGAAAG CAGGAAGTCT CAATCACCAT CTCCTAAGAA TGAGTCAGCC 
    AGAGGCCGGA AAAAATCCCG TTCTCAGTCC CCAAAAAAGG ATATTGCAAG AGAAAGGAGG 
    CAATCTCAGT CTCGGTCTCC AAAAAGGGAT ACTACTAGGG AAAGCAGAAG ATCTGAATCA 
    CTGTCCCCAA GAAGAGAAAC TTCTAGAGAG AACAAAAGAT CTCAGCCAAG AGTGAAAGAT 
    TCTTCCCCAG GAGAAAAATC CAGGTCCCAG AGCAGAGAAC GAGAAAGTGA TAGAGATGGG 
    CAGAGGAGAG AGAGAGAAAG GAGAACCAGA AAGTGGTCTA GGTCCAGATC TCATTCTAGG 
    TCCCCCTCAA GATGTAGAAC AAAAAGTAAG AGTTCATCAT TTGGTAGAAT TGACAGAGAT 
    AGTTACTCTC CCCGGTGGAA GGGAAGATGG GCAAATGATG GTTGGAGATG TCCACGAGGA 
    AATGATCGGT ACAGAAAGAA TGACCCAGAG AAACAGAATG AAAATACAAG AAAAGAAAAA 
    AATGACATCC ATCTAGATGC TGATGATCCA AATTCTGCTG ACAAACATAG AAATGACTGT 
    CCCAATTGGA TAACAGAAAA AATAAACTCT GGGCCTGATC CAAGAACCAG AAATCCAGAA 
    AAGTTGAAAG AGTCTCATTG GGAAGAAAAT AGAAATGAAA ATTCAGGAAA TTCTTGGAAT 
    AAAAACTTTG GTTCTGGTTG GGTATCTAAC CGTGGTAGAG GCAGAGGCAA CCGTGGCAGA 
    GGCACTTACA GAAGTAGTTT TGCCTATAAA GATCAGAATG AAAATCGGTG GCAAAATCGA 
    AAACCCCTCT CAGGGAATTC AAACAGTTCA GGGAGTGAAT CTTTCAAGTT TGTGGAACAG 
    CAATCCTATA AGCGAAAAAG TGAACAGGAG TTCTCATTTG ATACACCAGC AGATAGATCT 
    GGATGGACAT CTGCATCCAG CTGGGCCGTG AGAAAGACTT TGCCAGCAGA TGTACAAAAC 
    TACTACTCAC GACGAGGCAG AAATTCTTCA GGTCCACAGT CTGGATGGAT GAAACAAGAG 
    GAGGAAACAT CTGGACAGGA TTCTAGCCTA AAAGACCAAA CAAACCAGCA AGTTGATGGT 
    TCTCAGCTAC CTATAAATAT GATGCAACCG CAAATGAATG TAATGCAGCA ACAAATGAAT 
    GCACAACACC AGCCTATGAA TATCTTCCCA TATCCAGTGG GTGTTCATGC TCCTTTGATG 
    AACATCCAAC GCAATCCATT TAACATTCAT CCTCAGCTAC CCTTGCATCT CCACACAGGA 
    GTGCCCCTCA TGCAGGTAGC CACTCCTACC AGTGTATCTC AGGGACTACC ACCACCACCA 
    CCCCCTCCCC CACCATCCCA ACAAGTCAAC TACATTGCTT CACAACCAGA TGGAAAGCAA 
    TTGCAGGGTA TTCCTAGTTC TTCTCATGTA AGTAATAACA TGAGTACACC AGTTTTGCCT 
    GCTCCGACAG CAGCCCCAGG AAATACGGGA ATGGTTCAGG GACCAAGTTC TGGTAATACT 
    TCGTCATCAA GTCACAGCAA AGCCTCTAAT GCTGCTGTAA AATTGGCAGA AAGCAAAGTA 
    AGTGTTGCAG TGGAAGCCAG CGCAGATAGC TCGAAGACAG ACAAGAAATT GCAAATTCAA 
    GAAAAAGCAG CACAAGAGGT AAAATTGGCC ATCAAGCCAT TTTACCAAAA TAAAGATATC 
    ACCAAGGAAG AATATAAAGA AATTGTACGG AAAGCAGTAG ATAAAGTTTG TCATAGTAAG 
    AGTGGAGAAG TAAATTCTAC TAAAGTGGCA AATCTGGTTA AAGCCTATGT AGACAAATAC 
    AAATATTCAC GGAAGGGGAG CCAAAAGAAA ACTCTGGAAG AACCTGTGTC TACTGAAAAA 
    AACATAGGCT GA

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

    SCAF11 ( XM_005269230.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_005269287.2 Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OHu04567
    Clone ID Related Accession (Same CDS sequence) XM_005269230.2 , NM_004719.3 , NM_004719.2 , XM_011538985.1
    Accession Version XM_005269230.2 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 protein SCAF11 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 12, 2015 this sequence version replaced XM_005269230.1. ##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
    ATGAAGAAGA AAACTGTATG TACCCTAAAT ATGGGAGATA AGAAGTATGA AGACATGGAA 
    GGTGAAGAAA ACGGAGATAA TACTATTTCC ACTGGTCTGT TGTACAGTGA GGCTGACAGA 
    TGCCCAATAT GTCTTAATTG TCTATTAGAA AAGGAAGTTG GTTTTCCAGA AAGCTGTAAT 
    CATGTCTTCT GTATGACTTG TATTCTTAAA TGGGCAGAGA CACTGGCTTC ATGTCCTATT 
    GACCGTAAAC CTTTTCAGGC AGTGTTTAAA TTCAGTGCAT TGGAAGGTTA TGTTAAGGTT 
    CAAGTAAAAA AACAGCTGAG AGAAACAAAA GACAAGAAAA ATGAAAACTC ATTTGAGAAA 
    CAGGTCTCCT GTCATGAAAA TTCTAAAAGC TGTATAAGAA GAAAAGCCAT CGTAAGAGAA 
    GATCTATTAA GTGCAAAAGT TTGTGACTTG AAGTGGATAC ATAGAAACTC TTTATACAGT 
    GAAACAGGAG GAAAGAAAAA TGCAGCAATA AAGATAAATA AGCCTCAGAG ATCAAATTGG 
    AGTACAAATC AGTGCTTCAG AAATTTTTTC TCCAATATGT TTTCTTCTGT TAGCCACTCT 
    GGAGAATCTT CCTTTACCTA TAGAGCTTAT TGTACAGAAT TTATAGAAGC CAGTGAAATC 
    AGTGCATTGA TTAGGCAGAA GAGACATGAA CTGGAATTGT CATGGTTTCC TGATACATTA 
    CCTGGAATTG GAAGAATTGG TTTTATACCC TGGAATGTTG AAACAGAAGT CCTTCCTCTC 
    ATTTCTTCTG TGTTGCCAAG AACTATTTTT CCAACAAGTA CCATATCTTT CGAACATTTT 
    GGTACTTCTT GCAAGGGATA TGCATTAGCA CATACTCAAG AAGGGGAAGA AAAGAAGCAA 
    ACTTCTGGTA CATCAAATAC CAGAGGATCA AGACGAAAAC CTGCAATGAC AACTCCTACA 
    AGGAGGTCTA CACGTAACAC AAGAGCTGAA ACAGCCAGTC AGTCTCAGAG ATCCCCAATA 
    TCAGACAATT CTGGGTGTGA TGCCCCAGGT AACAGTAATC CATCTTTAAG TGTTCCCTCT 
    TCAGCTGAGT CAGAAAAGCA AACAAGACAG GCTCCAAAAC GGAAGTCTGT AAGAAGAGGA 
    AGAAAACCAC CTTTACTGAA AAAGAAACTT CGGAGCTCTG TAGCTGCCCC TGAAAAATCA 
    TCTTCCAATG ATTCAGTAGA TGAAGAAACA GCAGAATCTG ACACATCACC TGTGTTAGAA 
    AAAGAGCACC AACCAGATGT AGACAGTAGT AACATTTGTA CTGTGCAGAC TCATGTAGAA 
    AACCAGTCTG CTAATTGCTT GAAAAGTTGC AATGAGCAAA TAGAAGAAAG TGAGAAGCAT 
    ACTGCAAATT ATGATACAGA GGAAAGAGTA GGATCTTCAT CTTCTGAGTC TTGTGCTCAA 
    GATCTTCCTG TGCTAGTTGG TGAGGAAGGG GAAGTTAAAA AACTCGAGAA TACAGGTATA 
    GAGGCTAATG TTTTGTGTTT GGAAAGTGAG ATTTCTGAAA ATATTCTTGA AAAAGGAGGT 
    GATCCATTGG AAAAGCAAGA CCAGATATCT GGACTTTCAC AATCAGAGGT AAAGACAGAT 
    GTATGTACAG TTCATCTTCC AAATGATTTT CCTACATGTT TAACATCTGA AAGCAAAGTG 
    TACCAACCTG TATCTTGTCC CCTAAGTGAC TTATCTGAGA ATGTAGAGTC AGTGGTTAAT 
    GAAGAAAAAA TAACAGAGAG TTCCCTAGTA GAAATTACTG AACATAAAGA TTTTACACTA 
    AAAACAGAGG AGCTTATAGA GAGCCCCAAG TTAGAATCTT CTGAGGGTGA AATTATACAG 
    ACAGTGGACA GACAATCTGT TAAGAGCCCA GAGGTTCAAT TGCTTGGGCA TGTTGAAACT 
    GAAGATGTAG AAATAATTGC AACATGTGAT ACTTTTGGGA ATGAAGATTT CAATAATATT 
    CAAGACTCTG AAAATAACTT ACTAAAAAAT AATCTTCTGA ACACCAAATT GGAAAAATCT 
    TTAGAAGAAA AGAATGAATC GCTGACCGAA CATCCTAGAT CTACAGAGTT GCCTAAAACA 
    CACATTGAAC AGATTCAGAA GCATTTTAGT GAGGACAACA ATGAAATGAT ACCTATGGAG 
    TGTGATTCAT TTTGCAGTGA CCAAAATGAA TCTGAAGTTG AACCATCTGT AAATGCTGAT 
    CTTAAACAAA TGAATGAAAA TTCTGTGACA CACTGTTCTG AAAATAATAT GCCGTCTTCT 
    GATCTTGCGG ATGAAAAGGT TGAAACTGTT TCTCAACCAT CTGAAAGCCC AAAAGATACC 
    ATAGATAAAA CCAAAAAGCC TCGTACTCGA AGATCTAGAT TTCATTCTCC ATCTACAACT 
    TGGTCACCCA ACAAAGACAC TCCACAAGAA AAGAAGCGGC CCCAGTCTCC ATCTCCCAGA 
    AGAGAAACTG GGAAAGAAAG CAGGAAGTCT CAATCACCAT CTCCTAAGAA TGAGTCAGCC 
    AGAGGCCGGA AAAAATCCCG TTCTCAGTCC CCAAAAAAGG ATATTGCAAG AGAAAGGAGG 
    CAATCTCAGT CTCGGTCTCC AAAAAGGGAT ACTACTAGGG AAAGCAGAAG ATCTGAATCA 
    CTGTCCCCAA GAAGAGAAAC TTCTAGAGAG AACAAAAGAT CTCAGCCAAG AGTGAAAGAT 
    TCTTCCCCAG GAGAAAAATC CAGGTCCCAG AGCAGAGAAC GAGAAAGTGA TAGAGATGGG 
    CAGAGGAGAG AGAGAGAAAG GAGAACCAGA AAGTGGTCTA GGTCCAGATC TCATTCTAGG 
    TCCCCCTCAA GATGTAGAAC AAAAAGTAAG AGTTCATCAT TTGGTAGAAT TGACAGAGAT 
    AGTTACTCTC CCCGGTGGAA GGGAAGATGG GCAAATGATG GTTGGAGATG TCCACGAGGA 
    AATGATCGGT ACAGAAAGAA TGACCCAGAG AAACAGAATG AAAATACAAG AAAAGAAAAA 
    AATGACATCC ATCTAGATGC TGATGATCCA AATTCTGCTG ACAAACATAG AAATGACTGT 
    CCCAATTGGA TAACAGAAAA AATAAACTCT GGGCCTGATC CAAGAACCAG AAATCCAGAA 
    AAGTTGAAAG AGTCTCATTG GGAAGAAAAT AGAAATGAAA ATTCAGGAAA TTCTTGGAAT 
    AAAAACTTTG GTTCTGGTTG GGTATCTAAC CGTGGTAGAG GCAGAGGCAA CCGTGGCAGA 
    GGCACTTACA GAAGTAGTTT TGCCTATAAA GATCAGAATG AAAATCGGTG GCAAAATCGA 
    AAACCCCTCT CAGGGAATTC AAACAGTTCA GGGAGTGAAT CTTTCAAGTT TGTGGAACAG 
    CAATCCTATA AGCGAAAAAG TGAACAGGAG TTCTCATTTG ATACACCAGC AGATAGATCT 
    GGATGGACAT CTGCATCCAG CTGGGCCGTG AGAAAGACTT TGCCAGCAGA TGTACAAAAC 
    TACTACTCAC GACGAGGCAG AAATTCTTCA GGTCCACAGT CTGGATGGAT GAAACAAGAG 
    GAGGAAACAT CTGGACAGGA TTCTAGCCTA AAAGACCAAA CAAACCAGCA AGTTGATGGT 
    TCTCAGCTAC CTATAAATAT GATGCAACCG CAAATGAATG TAATGCAGCA ACAAATGAAT 
    GCACAACACC AGCCTATGAA TATCTTCCCA TATCCAGTGG GTGTTCATGC TCCTTTGATG 
    AACATCCAAC GCAATCCATT TAACATTCAT CCTCAGCTAC CCTTGCATCT CCACACAGGA 
    GTGCCCCTCA TGCAGGTAGC CACTCCTACC AGTGTATCTC AGGGACTACC ACCACCACCA 
    CCCCCTCCCC CACCATCCCA ACAAGTCAAC TACATTGCTT CACAACCAGA TGGAAAGCAA 
    TTGCAGGGTA TTCCTAGTTC TTCTCATGTA AGTAATAACA TGAGTACACC AGTTTTGCCT 
    GCTCCGACAG CAGCCCCAGG AAATACGGGA ATGGTTCAGG GACCAAGTTC TGGTAATACT 
    TCGTCATCAA GTCACAGCAA AGCCTCTAAT GCTGCTGTAA AATTGGCAGA AAGCAAAGTA 
    AGTGTTGCAG TGGAAGCCAG CGCAGATAGC TCGAAGACAG ACAAGAAATT GCAAATTCAA 
    GAAAAAGCAG CACAAGAGGT AAAATTGGCC ATCAAGCCAT TTTACCAAAA TAAAGATATC 
    ACCAAGGAAG AATATAAAGA AATTGTACGG AAAGCAGTAG ATAAAGTTTG TCATAGTAAG 
    AGTGGAGAAG TAAATTCTAC TAAAGTGGCA AATCTGGTTA AAGCCTATGT AGACAAATAC 
    AAATATTCAC GGAAGGGGAG CCAAAAGAAA ACTCTGGAAG AACCTGTGTC TACTGAAAAA 
    AACATAGGCT GA

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

    RefSeq XP_005269287.2
    CDS178..4569
    Translation

    Target ORF information:

    RefSeq Version XM_005269230.2
    Organism Homo sapiens(human)
    Definition Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005269230.2

    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
    ATGAAGAAGA AAACTGTATG TACCCTAAAT ATGGGAGATA AGAAGTATGA AGACATGGAA 
    GGTGAAGAAA ACGGAGATAA TACTATTTCC ACTGGTCTGT TGTACAGTGA GGCTGACAGA 
    TGCCCAATAT GTCTTAATTG TCTATTAGAA AAGGAAGTTG GTTTTCCAGA AAGCTGTAAT 
    CATGTCTTCT GTATGACTTG TATTCTTAAA TGGGCAGAGA CACTGGCTTC ATGTCCTATT 
    GACCGTAAAC CTTTTCAGGC AGTGTTTAAA TTCAGTGCAT TGGAAGGTTA TGTTAAGGTT 
    CAAGTAAAAA AACAGCTGAG AGAAACAAAA GACAAGAAAA ATGAAAACTC ATTTGAGAAA 
    CAGGTCTCCT GTCATGAAAA TTCTAAAAGC TGTATAAGAA GAAAAGCCAT CGTAAGAGAA 
    GATCTATTAA GTGCAAAAGT TTGTGACTTG AAGTGGATAC ATAGAAACTC TTTATACAGT 
    GAAACAGGAG GAAAGAAAAA TGCAGCAATA AAGATAAATA AGCCTCAGAG ATCAAATTGG 
    AGTACAAATC AGTGCTTCAG AAATTTTTTC TCCAATATGT TTTCTTCTGT TAGCCACTCT 
    GGAGAATCTT CCTTTACCTA TAGAGCTTAT TGTACAGAAT TTATAGAAGC CAGTGAAATC 
    AGTGCATTGA TTAGGCAGAA GAGACATGAA CTGGAATTGT CATGGTTTCC TGATACATTA 
    CCTGGAATTG GAAGAATTGG TTTTATACCC TGGAATGTTG AAACAGAAGT CCTTCCTCTC 
    ATTTCTTCTG TGTTGCCAAG AACTATTTTT CCAACAAGTA CCATATCTTT CGAACATTTT 
    GGTACTTCTT GCAAGGGATA TGCATTAGCA CATACTCAAG AAGGGGAAGA AAAGAAGCAA 
    ACTTCTGGTA CATCAAATAC CAGAGGATCA AGACGAAAAC CTGCAATGAC AACTCCTACA 
    AGGAGGTCTA CACGTAACAC AAGAGCTGAA ACAGCCAGTC AGTCTCAGAG ATCCCCAATA 
    TCAGACAATT CTGGGTGTGA TGCCCCAGGT AACAGTAATC CATCTTTAAG TGTTCCCTCT 
    TCAGCTGAGT CAGAAAAGCA AACAAGACAG GCTCCAAAAC GGAAGTCTGT AAGAAGAGGA 
    AGAAAACCAC CTTTACTGAA AAAGAAACTT CGGAGCTCTG TAGCTGCCCC TGAAAAATCA 
    TCTTCCAATG ATTCAGTAGA TGAAGAAACA GCAGAATCTG ACACATCACC TGTGTTAGAA 
    AAAGAGCACC AACCAGATGT AGACAGTAGT AACATTTGTA CTGTGCAGAC TCATGTAGAA 
    AACCAGTCTG CTAATTGCTT GAAAAGTTGC AATGAGCAAA TAGAAGAAAG TGAGAAGCAT 
    ACTGCAAATT ATGATACAGA GGAAAGAGTA GGATCTTCAT CTTCTGAGTC TTGTGCTCAA 
    GATCTTCCTG TGCTAGTTGG TGAGGAAGGG GAAGTTAAAA AACTCGAGAA TACAGGTATA 
    GAGGCTAATG TTTTGTGTTT GGAAAGTGAG ATTTCTGAAA ATATTCTTGA AAAAGGAGGT 
    GATCCATTGG AAAAGCAAGA CCAGATATCT GGACTTTCAC AATCAGAGGT AAAGACAGAT 
    GTATGTACAG TTCATCTTCC AAATGATTTT CCTACATGTT TAACATCTGA AAGCAAAGTG 
    TACCAACCTG TATCTTGTCC CCTAAGTGAC TTATCTGAGA ATGTAGAGTC AGTGGTTAAT 
    GAAGAAAAAA TAACAGAGAG TTCCCTAGTA GAAATTACTG AACATAAAGA TTTTACACTA 
    AAAACAGAGG AGCTTATAGA GAGCCCCAAG TTAGAATCTT CTGAGGGTGA AATTATACAG 
    ACAGTGGACA GACAATCTGT TAAGAGCCCA GAGGTTCAAT TGCTTGGGCA TGTTGAAACT 
    GAAGATGTAG AAATAATTGC AACATGTGAT ACTTTTGGGA ATGAAGATTT CAATAATATT 
    CAAGACTCTG AAAATAACTT ACTAAAAAAT AATCTTCTGA ACACCAAATT GGAAAAATCT 
    TTAGAAGAAA AGAATGAATC GCTGACCGAA CATCCTAGAT CTACAGAGTT GCCTAAAACA 
    CACATTGAAC AGATTCAGAA GCATTTTAGT GAGGACAACA ATGAAATGAT ACCTATGGAG 
    TGTGATTCAT TTTGCAGTGA CCAAAATGAA TCTGAAGTTG AACCATCTGT AAATGCTGAT 
    CTTAAACAAA TGAATGAAAA TTCTGTGACA CACTGTTCTG AAAATAATAT GCCGTCTTCT 
    GATCTTGCGG ATGAAAAGGT TGAAACTGTT TCTCAACCAT CTGAAAGCCC AAAAGATACC 
    ATAGATAAAA CCAAAAAGCC TCGTACTCGA AGATCTAGAT TTCATTCTCC ATCTACAACT 
    TGGTCACCCA ACAAAGACAC TCCACAAGAA AAGAAGCGGC CCCAGTCTCC ATCTCCCAGA 
    AGAGAAACTG GGAAAGAAAG CAGGAAGTCT CAATCACCAT CTCCTAAGAA TGAGTCAGCC 
    AGAGGCCGGA AAAAATCCCG TTCTCAGTCC CCAAAAAAGG ATATTGCAAG AGAAAGGAGG 
    CAATCTCAGT CTCGGTCTCC AAAAAGGGAT ACTACTAGGG AAAGCAGAAG ATCTGAATCA 
    CTGTCCCCAA GAAGAGAAAC TTCTAGAGAG AACAAAAGAT CTCAGCCAAG AGTGAAAGAT 
    TCTTCCCCAG GAGAAAAATC CAGGTCCCAG AGCAGAGAAC GAGAAAGTGA TAGAGATGGG 
    CAGAGGAGAG AGAGAGAAAG GAGAACCAGA AAGTGGTCTA GGTCCAGATC TCATTCTAGG 
    TCCCCCTCAA GATGTAGAAC AAAAAGTAAG AGTTCATCAT TTGGTAGAAT TGACAGAGAT 
    AGTTACTCTC CCCGGTGGAA GGGAAGATGG GCAAATGATG GTTGGAGATG TCCACGAGGA 
    AATGATCGGT ACAGAAAGAA TGACCCAGAG AAACAGAATG AAAATACAAG AAAAGAAAAA 
    AATGACATCC ATCTAGATGC TGATGATCCA AATTCTGCTG ACAAACATAG AAATGACTGT 
    CCCAATTGGA TAACAGAAAA AATAAACTCT GGGCCTGATC CAAGAACCAG AAATCCAGAA 
    AAGTTGAAAG AGTCTCATTG GGAAGAAAAT AGAAATGAAA ATTCAGGAAA TTCTTGGAAT 
    AAAAACTTTG GTTCTGGTTG GGTATCTAAC CGTGGTAGAG GCAGAGGCAA CCGTGGCAGA 
    GGCACTTACA GAAGTAGTTT TGCCTATAAA GATCAGAATG AAAATCGGTG GCAAAATCGA 
    AAACCCCTCT CAGGGAATTC AAACAGTTCA GGGAGTGAAT CTTTCAAGTT TGTGGAACAG 
    CAATCCTATA AGCGAAAAAG TGAACAGGAG TTCTCATTTG ATACACCAGC AGATAGATCT 
    GGATGGACAT CTGCATCCAG CTGGGCCGTG AGAAAGACTT TGCCAGCAGA TGTACAAAAC 
    TACTACTCAC GACGAGGCAG AAATTCTTCA GGTCCACAGT CTGGATGGAT GAAACAAGAG 
    GAGGAAACAT CTGGACAGGA TTCTAGCCTA AAAGACCAAA CAAACCAGCA AGTTGATGGT 
    TCTCAGCTAC CTATAAATAT GATGCAACCG CAAATGAATG TAATGCAGCA ACAAATGAAT 
    GCACAACACC AGCCTATGAA TATCTTCCCA TATCCAGTGG GTGTTCATGC TCCTTTGATG 
    AACATCCAAC GCAATCCATT TAACATTCAT CCTCAGCTAC CCTTGCATCT CCACACAGGA 
    GTGCCCCTCA TGCAGGTAGC CACTCCTACC AGTGTATCTC AGGGACTACC ACCACCACCA 
    CCCCCTCCCC CACCATCCCA ACAAGTCAAC TACATTGCTT CACAACCAGA TGGAAAGCAA 
    TTGCAGGGTA TTCCTAGTTC TTCTCATGTA AGTAATAACA TGAGTACACC AGTTTTGCCT 
    GCTCCGACAG CAGCCCCAGG AAATACGGGA ATGGTTCAGG GACCAAGTTC TGGTAATACT 
    TCGTCATCAA GTCACAGCAA AGCCTCTAAT GCTGCTGTAA AATTGGCAGA AAGCAAAGTA 
    AGTGTTGCAG TGGAAGCCAG CGCAGATAGC TCGAAGACAG ACAAGAAATT GCAAATTCAA 
    GAAAAAGCAG CACAAGAGGT AAAATTGGCC ATCAAGCCAT TTTACCAAAA TAAAGATATC 
    ACCAAGGAAG AATATAAAGA AATTGTACGG AAAGCAGTAG ATAAAGTTTG TCATAGTAAG 
    AGTGGAGAAG TAAATTCTAC TAAAGTGGCA AATCTGGTTA AAGCCTATGT AGACAAATAC 
    AAATATTCAC GGAAGGGGAG CCAAAAGAAA ACTCTGGAAG AACCTGTGTC TACTGAAAAA 
    AACATAGGCT GA

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

    SCAF11 ( XM_011538985.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011537287.1 Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OHu04567
    Clone ID Related Accession (Same CDS sequence) XM_005269230.2 , NM_004719.3 , NM_004719.2 , XM_011538985.1
    Accession Version XM_011538985.1 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 protein SCAF11 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by mRNA and 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
    ATGAAGAAGA AAACTGTATG TACCCTAAAT ATGGGAGATA AGAAGTATGA AGACATGGAA 
    GGTGAAGAAA ACGGAGATAA TACTATTTCC ACTGGTCTGT TGTACAGTGA GGCTGACAGA 
    TGCCCAATAT GTCTTAATTG TCTATTAGAA AAGGAAGTTG GTTTTCCAGA AAGCTGTAAT 
    CATGTCTTCT GTATGACTTG TATTCTTAAA TGGGCAGAGA CACTGGCTTC ATGTCCTATT 
    GACCGTAAAC CTTTTCAGGC AGTGTTTAAA TTCAGTGCAT TGGAAGGTTA TGTTAAGGTT 
    CAAGTAAAAA AACAGCTGAG AGAAACAAAA GACAAGAAAA ATGAAAACTC ATTTGAGAAA 
    CAGGTCTCCT GTCATGAAAA TTCTAAAAGC TGTATAAGAA GAAAAGCCAT CGTAAGAGAA 
    GATCTATTAA GTGCAAAAGT TTGTGACTTG AAGTGGATAC ATAGAAACTC TTTATACAGT 
    GAAACAGGAG GAAAGAAAAA TGCAGCAATA AAGATAAATA AGCCTCAGAG ATCAAATTGG 
    AGTACAAATC AGTGCTTCAG AAATTTTTTC TCCAATATGT TTTCTTCTGT TAGCCACTCT 
    GGAGAATCTT CCTTTACCTA TAGAGCTTAT TGTACAGAAT TTATAGAAGC CAGTGAAATC 
    AGTGCATTGA TTAGGCAGAA GAGACATGAA CTGGAATTGT CATGGTTTCC TGATACATTA 
    CCTGGAATTG GAAGAATTGG TTTTATACCC TGGAATGTTG AAACAGAAGT CCTTCCTCTC 
    ATTTCTTCTG TGTTGCCAAG AACTATTTTT CCAACAAGTA CCATATCTTT CGAACATTTT 
    GGTACTTCTT GCAAGGGATA TGCATTAGCA CATACTCAAG AAGGGGAAGA AAAGAAGCAA 
    ACTTCTGGTA CATCAAATAC CAGAGGATCA AGACGAAAAC CTGCAATGAC AACTCCTACA 
    AGGAGGTCTA CACGTAACAC AAGAGCTGAA ACAGCCAGTC AGTCTCAGAG ATCCCCAATA 
    TCAGACAATT CTGGGTGTGA TGCCCCAGGT AACAGTAATC CATCTTTAAG TGTTCCCTCT 
    TCAGCTGAGT CAGAAAAGCA AACAAGACAG GCTCCAAAAC GGAAGTCTGT AAGAAGAGGA 
    AGAAAACCAC CTTTACTGAA AAAGAAACTT CGGAGCTCTG TAGCTGCCCC TGAAAAATCA 
    TCTTCCAATG ATTCAGTAGA TGAAGAAACA GCAGAATCTG ACACATCACC TGTGTTAGAA 
    AAAGAGCACC AACCAGATGT AGACAGTAGT AACATTTGTA CTGTGCAGAC TCATGTAGAA 
    AACCAGTCTG CTAATTGCTT GAAAAGTTGC AATGAGCAAA TAGAAGAAAG TGAGAAGCAT 
    ACTGCAAATT ATGATACAGA GGAAAGAGTA GGATCTTCAT CTTCTGAGTC TTGTGCTCAA 
    GATCTTCCTG TGCTAGTTGG TGAGGAAGGG GAAGTTAAAA AACTCGAGAA TACAGGTATA 
    GAGGCTAATG TTTTGTGTTT GGAAAGTGAG ATTTCTGAAA ATATTCTTGA AAAAGGAGGT 
    GATCCATTGG AAAAGCAAGA CCAGATATCT GGACTTTCAC AATCAGAGGT AAAGACAGAT 
    GTATGTACAG TTCATCTTCC AAATGATTTT CCTACATGTT TAACATCTGA AAGCAAAGTG 
    TACCAACCTG TATCTTGTCC CCTAAGTGAC TTATCTGAGA ATGTAGAGTC AGTGGTTAAT 
    GAAGAAAAAA TAACAGAGAG TTCCCTAGTA GAAATTACTG AACATAAAGA TTTTACACTA 
    AAAACAGAGG AGCTTATAGA GAGCCCCAAG TTAGAATCTT CTGAGGGTGA AATTATACAG 
    ACAGTGGACA GACAATCTGT TAAGAGCCCA GAGGTTCAAT TGCTTGGGCA TGTTGAAACT 
    GAAGATGTAG AAATAATTGC AACATGTGAT ACTTTTGGGA ATGAAGATTT CAATAATATT 
    CAAGACTCTG AAAATAACTT ACTAAAAAAT AATCTTCTGA ACACCAAATT GGAAAAATCT 
    TTAGAAGAAA AGAATGAATC GCTGACCGAA CATCCTAGAT CTACAGAGTT GCCTAAAACA 
    CACATTGAAC AGATTCAGAA GCATTTTAGT GAGGACAACA ATGAAATGAT ACCTATGGAG 
    TGTGATTCAT TTTGCAGTGA CCAAAATGAA TCTGAAGTTG AACCATCTGT AAATGCTGAT 
    CTTAAACAAA TGAATGAAAA TTCTGTGACA CACTGTTCTG AAAATAATAT GCCGTCTTCT 
    GATCTTGCGG ATGAAAAGGT TGAAACTGTT TCTCAACCAT CTGAAAGCCC AAAAGATACC 
    ATAGATAAAA CCAAAAAGCC TCGTACTCGA AGATCTAGAT TTCATTCTCC ATCTACAACT 
    TGGTCACCCA ACAAAGACAC TCCACAAGAA AAGAAGCGGC CCCAGTCTCC ATCTCCCAGA 
    AGAGAAACTG GGAAAGAAAG CAGGAAGTCT CAATCACCAT CTCCTAAGAA TGAGTCAGCC 
    AGAGGCCGGA AAAAATCCCG TTCTCAGTCC CCAAAAAAGG ATATTGCAAG AGAAAGGAGG 
    CAATCTCAGT CTCGGTCTCC AAAAAGGGAT ACTACTAGGG AAAGCAGAAG ATCTGAATCA 
    CTGTCCCCAA GAAGAGAAAC TTCTAGAGAG AACAAAAGAT CTCAGCCAAG AGTGAAAGAT 
    TCTTCCCCAG GAGAAAAATC CAGGTCCCAG AGCAGAGAAC GAGAAAGTGA TAGAGATGGG 
    CAGAGGAGAG AGAGAGAAAG GAGAACCAGA AAGTGGTCTA GGTCCAGATC TCATTCTAGG 
    TCCCCCTCAA GATGTAGAAC AAAAAGTAAG AGTTCATCAT TTGGTAGAAT TGACAGAGAT 
    AGTTACTCTC CCCGGTGGAA GGGAAGATGG GCAAATGATG GTTGGAGATG TCCACGAGGA 
    AATGATCGGT ACAGAAAGAA TGACCCAGAG AAACAGAATG AAAATACAAG AAAAGAAAAA 
    AATGACATCC ATCTAGATGC TGATGATCCA AATTCTGCTG ACAAACATAG AAATGACTGT 
    CCCAATTGGA TAACAGAAAA AATAAACTCT GGGCCTGATC CAAGAACCAG AAATCCAGAA 
    AAGTTGAAAG AGTCTCATTG GGAAGAAAAT AGAAATGAAA ATTCAGGAAA TTCTTGGAAT 
    AAAAACTTTG GTTCTGGTTG GGTATCTAAC CGTGGTAGAG GCAGAGGCAA CCGTGGCAGA 
    GGCACTTACA GAAGTAGTTT TGCCTATAAA GATCAGAATG AAAATCGGTG GCAAAATCGA 
    AAACCCCTCT CAGGGAATTC AAACAGTTCA GGGAGTGAAT CTTTCAAGTT TGTGGAACAG 
    CAATCCTATA AGCGAAAAAG TGAACAGGAG TTCTCATTTG ATACACCAGC AGATAGATCT 
    GGATGGACAT CTGCATCCAG CTGGGCCGTG AGAAAGACTT TGCCAGCAGA TGTACAAAAC 
    TACTACTCAC GACGAGGCAG AAATTCTTCA GGTCCACAGT CTGGATGGAT GAAACAAGAG 
    GAGGAAACAT CTGGACAGGA TTCTAGCCTA AAAGACCAAA CAAACCAGCA AGTTGATGGT 
    TCTCAGCTAC CTATAAATAT GATGCAACCG CAAATGAATG TAATGCAGCA ACAAATGAAT 
    GCACAACACC AGCCTATGAA TATCTTCCCA TATCCAGTGG GTGTTCATGC TCCTTTGATG 
    AACATCCAAC GCAATCCATT TAACATTCAT CCTCAGCTAC CCTTGCATCT CCACACAGGA 
    GTGCCCCTCA TGCAGGTAGC CACTCCTACC AGTGTATCTC AGGGACTACC ACCACCACCA 
    CCCCCTCCCC CACCATCCCA ACAAGTCAAC TACATTGCTT CACAACCAGA TGGAAAGCAA 
    TTGCAGGGTA TTCCTAGTTC TTCTCATGTA AGTAATAACA TGAGTACACC AGTTTTGCCT 
    GCTCCGACAG CAGCCCCAGG AAATACGGGA ATGGTTCAGG GACCAAGTTC TGGTAATACT 
    TCGTCATCAA GTCACAGCAA AGCCTCTAAT GCTGCTGTAA AATTGGCAGA AAGCAAAGTA 
    AGTGTTGCAG TGGAAGCCAG CGCAGATAGC TCGAAGACAG ACAAGAAATT GCAAATTCAA 
    GAAAAAGCAG CACAAGAGGT AAAATTGGCC ATCAAGCCAT TTTACCAAAA TAAAGATATC 
    ACCAAGGAAG AATATAAAGA AATTGTACGG AAAGCAGTAG ATAAAGTTTG TCATAGTAAG 
    AGTGGAGAAG TAAATTCTAC TAAAGTGGCA AATCTGGTTA AAGCCTATGT AGACAAATAC 
    AAATATTCAC GGAAGGGGAG CCAAAAGAAA ACTCTGGAAG AACCTGTGTC TACTGAAAAA 
    AACATAGGCT GA

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

    RefSeq XP_011537287.1
    CDS122..4513
    Translation

    Target ORF information:

    RefSeq Version XM_011538985.1
    Organism Homo sapiens(human)
    Definition Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011538985.1

    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
    ATGAAGAAGA AAACTGTATG TACCCTAAAT ATGGGAGATA AGAAGTATGA AGACATGGAA 
    GGTGAAGAAA ACGGAGATAA TACTATTTCC ACTGGTCTGT TGTACAGTGA GGCTGACAGA 
    TGCCCAATAT GTCTTAATTG TCTATTAGAA AAGGAAGTTG GTTTTCCAGA AAGCTGTAAT 
    CATGTCTTCT GTATGACTTG TATTCTTAAA TGGGCAGAGA CACTGGCTTC ATGTCCTATT 
    GACCGTAAAC CTTTTCAGGC AGTGTTTAAA TTCAGTGCAT TGGAAGGTTA TGTTAAGGTT 
    CAAGTAAAAA AACAGCTGAG AGAAACAAAA GACAAGAAAA ATGAAAACTC ATTTGAGAAA 
    CAGGTCTCCT GTCATGAAAA TTCTAAAAGC TGTATAAGAA GAAAAGCCAT CGTAAGAGAA 
    GATCTATTAA GTGCAAAAGT TTGTGACTTG AAGTGGATAC ATAGAAACTC TTTATACAGT 
    GAAACAGGAG GAAAGAAAAA TGCAGCAATA AAGATAAATA AGCCTCAGAG ATCAAATTGG 
    AGTACAAATC AGTGCTTCAG AAATTTTTTC TCCAATATGT TTTCTTCTGT TAGCCACTCT 
    GGAGAATCTT CCTTTACCTA TAGAGCTTAT TGTACAGAAT TTATAGAAGC CAGTGAAATC 
    AGTGCATTGA TTAGGCAGAA GAGACATGAA CTGGAATTGT CATGGTTTCC TGATACATTA 
    CCTGGAATTG GAAGAATTGG TTTTATACCC TGGAATGTTG AAACAGAAGT CCTTCCTCTC 
    ATTTCTTCTG TGTTGCCAAG AACTATTTTT CCAACAAGTA CCATATCTTT CGAACATTTT 
    GGTACTTCTT GCAAGGGATA TGCATTAGCA CATACTCAAG AAGGGGAAGA AAAGAAGCAA 
    ACTTCTGGTA CATCAAATAC CAGAGGATCA AGACGAAAAC CTGCAATGAC AACTCCTACA 
    AGGAGGTCTA CACGTAACAC AAGAGCTGAA ACAGCCAGTC AGTCTCAGAG ATCCCCAATA 
    TCAGACAATT CTGGGTGTGA TGCCCCAGGT AACAGTAATC CATCTTTAAG TGTTCCCTCT 
    TCAGCTGAGT CAGAAAAGCA AACAAGACAG GCTCCAAAAC GGAAGTCTGT AAGAAGAGGA 
    AGAAAACCAC CTTTACTGAA AAAGAAACTT CGGAGCTCTG TAGCTGCCCC TGAAAAATCA 
    TCTTCCAATG ATTCAGTAGA TGAAGAAACA GCAGAATCTG ACACATCACC TGTGTTAGAA 
    AAAGAGCACC AACCAGATGT AGACAGTAGT AACATTTGTA CTGTGCAGAC TCATGTAGAA 
    AACCAGTCTG CTAATTGCTT GAAAAGTTGC AATGAGCAAA TAGAAGAAAG TGAGAAGCAT 
    ACTGCAAATT ATGATACAGA GGAAAGAGTA GGATCTTCAT CTTCTGAGTC TTGTGCTCAA 
    GATCTTCCTG TGCTAGTTGG TGAGGAAGGG GAAGTTAAAA AACTCGAGAA TACAGGTATA 
    GAGGCTAATG TTTTGTGTTT GGAAAGTGAG ATTTCTGAAA ATATTCTTGA AAAAGGAGGT 
    GATCCATTGG AAAAGCAAGA CCAGATATCT GGACTTTCAC AATCAGAGGT AAAGACAGAT 
    GTATGTACAG TTCATCTTCC AAATGATTTT CCTACATGTT TAACATCTGA AAGCAAAGTG 
    TACCAACCTG TATCTTGTCC CCTAAGTGAC TTATCTGAGA ATGTAGAGTC AGTGGTTAAT 
    GAAGAAAAAA TAACAGAGAG TTCCCTAGTA GAAATTACTG AACATAAAGA TTTTACACTA 
    AAAACAGAGG AGCTTATAGA GAGCCCCAAG TTAGAATCTT CTGAGGGTGA AATTATACAG 
    ACAGTGGACA GACAATCTGT TAAGAGCCCA GAGGTTCAAT TGCTTGGGCA TGTTGAAACT 
    GAAGATGTAG AAATAATTGC AACATGTGAT ACTTTTGGGA ATGAAGATTT CAATAATATT 
    CAAGACTCTG AAAATAACTT ACTAAAAAAT AATCTTCTGA ACACCAAATT GGAAAAATCT 
    TTAGAAGAAA AGAATGAATC GCTGACCGAA CATCCTAGAT CTACAGAGTT GCCTAAAACA 
    CACATTGAAC AGATTCAGAA GCATTTTAGT GAGGACAACA ATGAAATGAT ACCTATGGAG 
    TGTGATTCAT TTTGCAGTGA CCAAAATGAA TCTGAAGTTG AACCATCTGT AAATGCTGAT 
    CTTAAACAAA TGAATGAAAA TTCTGTGACA CACTGTTCTG AAAATAATAT GCCGTCTTCT 
    GATCTTGCGG ATGAAAAGGT TGAAACTGTT TCTCAACCAT CTGAAAGCCC AAAAGATACC 
    ATAGATAAAA CCAAAAAGCC TCGTACTCGA AGATCTAGAT TTCATTCTCC ATCTACAACT 
    TGGTCACCCA ACAAAGACAC TCCACAAGAA AAGAAGCGGC CCCAGTCTCC ATCTCCCAGA 
    AGAGAAACTG GGAAAGAAAG CAGGAAGTCT CAATCACCAT CTCCTAAGAA TGAGTCAGCC 
    AGAGGCCGGA AAAAATCCCG TTCTCAGTCC CCAAAAAAGG ATATTGCAAG AGAAAGGAGG 
    CAATCTCAGT CTCGGTCTCC AAAAAGGGAT ACTACTAGGG AAAGCAGAAG ATCTGAATCA 
    CTGTCCCCAA GAAGAGAAAC TTCTAGAGAG AACAAAAGAT CTCAGCCAAG AGTGAAAGAT 
    TCTTCCCCAG GAGAAAAATC CAGGTCCCAG AGCAGAGAAC GAGAAAGTGA TAGAGATGGG 
    CAGAGGAGAG AGAGAGAAAG GAGAACCAGA AAGTGGTCTA GGTCCAGATC TCATTCTAGG 
    TCCCCCTCAA GATGTAGAAC AAAAAGTAAG AGTTCATCAT TTGGTAGAAT TGACAGAGAT 
    AGTTACTCTC CCCGGTGGAA GGGAAGATGG GCAAATGATG GTTGGAGATG TCCACGAGGA 
    AATGATCGGT ACAGAAAGAA TGACCCAGAG AAACAGAATG AAAATACAAG AAAAGAAAAA 
    AATGACATCC ATCTAGATGC TGATGATCCA AATTCTGCTG ACAAACATAG AAATGACTGT 
    CCCAATTGGA TAACAGAAAA AATAAACTCT GGGCCTGATC CAAGAACCAG AAATCCAGAA 
    AAGTTGAAAG AGTCTCATTG GGAAGAAAAT AGAAATGAAA ATTCAGGAAA TTCTTGGAAT 
    AAAAACTTTG GTTCTGGTTG GGTATCTAAC CGTGGTAGAG GCAGAGGCAA CCGTGGCAGA 
    GGCACTTACA GAAGTAGTTT TGCCTATAAA GATCAGAATG AAAATCGGTG GCAAAATCGA 
    AAACCCCTCT CAGGGAATTC AAACAGTTCA GGGAGTGAAT CTTTCAAGTT TGTGGAACAG 
    CAATCCTATA AGCGAAAAAG TGAACAGGAG TTCTCATTTG ATACACCAGC AGATAGATCT 
    GGATGGACAT CTGCATCCAG CTGGGCCGTG AGAAAGACTT TGCCAGCAGA TGTACAAAAC 
    TACTACTCAC GACGAGGCAG AAATTCTTCA GGTCCACAGT CTGGATGGAT GAAACAAGAG 
    GAGGAAACAT CTGGACAGGA TTCTAGCCTA AAAGACCAAA CAAACCAGCA AGTTGATGGT 
    TCTCAGCTAC CTATAAATAT GATGCAACCG CAAATGAATG TAATGCAGCA ACAAATGAAT 
    GCACAACACC AGCCTATGAA TATCTTCCCA TATCCAGTGG GTGTTCATGC TCCTTTGATG 
    AACATCCAAC GCAATCCATT TAACATTCAT CCTCAGCTAC CCTTGCATCT CCACACAGGA 
    GTGCCCCTCA TGCAGGTAGC CACTCCTACC AGTGTATCTC AGGGACTACC ACCACCACCA 
    CCCCCTCCCC CACCATCCCA ACAAGTCAAC TACATTGCTT CACAACCAGA TGGAAAGCAA 
    TTGCAGGGTA TTCCTAGTTC TTCTCATGTA AGTAATAACA TGAGTACACC AGTTTTGCCT 
    GCTCCGACAG CAGCCCCAGG AAATACGGGA ATGGTTCAGG GACCAAGTTC TGGTAATACT 
    TCGTCATCAA GTCACAGCAA AGCCTCTAAT GCTGCTGTAA AATTGGCAGA AAGCAAAGTA 
    AGTGTTGCAG TGGAAGCCAG CGCAGATAGC TCGAAGACAG ACAAGAAATT GCAAATTCAA 
    GAAAAAGCAG CACAAGAGGT AAAATTGGCC ATCAAGCCAT TTTACCAAAA TAAAGATATC 
    ACCAAGGAAG AATATAAAGA AATTGTACGG AAAGCAGTAG ATAAAGTTTG TCATAGTAAG 
    AGTGGAGAAG TAAATTCTAC TAAAGTGGCA AATCTGGTTA AAGCCTATGT AGACAAATAC 
    AAATATTCAC GGAAGGGGAG CCAAAAGAAA ACTCTGGAAG AACCTGTGTC TACTGAAAAA 
    AACATAGGCT GA

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

    SCAF11 ( XM_011538984.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011537286.1 Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OHu62559
    Clone ID Related Accession (Same CDS sequence) XM_011538984.2
    Accession Version XM_011538984.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4440bp)
    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 protein SCAF11 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) 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_011538984.1. ##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
    ATGATTGTTA GCATTTTTAG CAATAAGGAA ACCCTTTTCC AAAGAGAAAT GAAGAAGAAA 
    ACTGTATGTA CCCTAAATAT GGGAGATAAG AAGTATGAAG ACATGGAAGG TGAAGAAAAC 
    GGAGATAATA CTATTTCCAC TGGTCTGTTG TACAGTGAGG CTGACAGATG CCCAATATGT 
    CTTAATTGTC TATTAGAAAA GGAAGTTGGT TTTCCAGAAA GCTGTAATCA TGTCTTCTGT 
    ATGACTTGTA TTCTTAAATG GGCAGAGACA CTGGCTTCAT GTCCTATTGA CCGTAAACCT 
    TTTCAGGCAG TGTTTAAATT CAGTGCATTG GAAGGTTATG TTAAGGTTCA AGTAAAAAAA 
    CAGCTGAGAG AAACAAAAGA CAAGAAAAAT GAAAACTCAT TTGAGAAACA GGTCTCCTGT 
    CATGAAAATT CTAAAAGCTG TATAAGAAGA AAAGCCATCG TAAGAGAAGA TCTATTAAGT 
    GCAAAAGTTT GTGACTTGAA GTGGATACAT AGAAACTCTT TATACAGTGA AACAGGAGGA 
    AAGAAAAATG CAGCAATAAA GATAAATAAG CCTCAGAGAT CAAATTGGAG TACAAATCAG 
    TGCTTCAGAA ATTTTTTCTC CAATATGTTT TCTTCTGTTA GCCACTCTGG AGAATCTTCC 
    TTTACCTATA GAGCTTATTG TACAGAATTT ATAGAAGCCA GTGAAATCAG TGCATTGATT 
    AGGCAGAAGA GACATGAACT GGAATTGTCA TGGTTTCCTG ATACATTACC TGGAATTGGA 
    AGAATTGGTT TTATACCCTG GAATGTTGAA ACAGAAGTCC TTCCTCTCAT TTCTTCTGTG 
    TTGCCAAGAA CTATTTTTCC AACAAGTACC ATATCTTTCG AACATTTTGG TACTTCTTGC 
    AAGGGATATG CATTAGCACA TACTCAAGAA GGGGAAGAAA AGAAGCAAAC TTCTGGTACA 
    TCAAATACCA GAGGATCAAG ACGAAAACCT GCAATGACAA CTCCTACAAG GAGGTCTACA 
    CGTAACACAA GAGCTGAAAC AGCCAGTCAG TCTCAGAGAT CCCCAATATC AGACAATTCT 
    GGGTGTGATG CCCCAGGTAA CAGTAATCCA TCTTTAAGTG TTCCCTCTTC AGCTGAGTCA 
    GAAAAGCAAA CAAGACAGGC TCCAAAACGG AAGTCTGTAA GAAGAGGAAG AAAACCACCT 
    TTACTGAAAA AGAAACTTCG GAGCTCTGTA GCTGCCCCTG AAAAATCATC TTCCAATGAT 
    TCAGTAGATG AAGAAACAGC AGAATCTGAC ACATCACCTG TGTTAGAAAA AGAGCACCAA 
    CCAGATGTAG ACAGTAGTAA CATTTGTACT GTGCAGACTC ATGTAGAAAA CCAGTCTGCT 
    AATTGCTTGA AAAGTTGCAA TGAGCAAATA GAAGAAAGTG AGAAGCATAC TGCAAATTAT 
    GATACAGAGG AAAGAGTAGG ATCTTCATCT TCTGAGTCTT GTGCTCAAGA TCTTCCTGTG 
    CTAGTTGGTG AGGAAGGGGA AGTTAAAAAA CTCGAGAATA CAGGTATAGA GGCTAATGTT 
    TTGTGTTTGG AAAGTGAGAT TTCTGAAAAT ATTCTTGAAA AAGGAGGTGA TCCATTGGAA 
    AAGCAAGACC AGATATCTGG ACTTTCACAA TCAGAGGTAA AGACAGATGT ATGTACAGTT 
    CATCTTCCAA ATGATTTTCC TACATGTTTA ACATCTGAAA GCAAAGTGTA CCAACCTGTA 
    TCTTGTCCCC TAAGTGACTT ATCTGAGAAT GTAGAGTCAG TGGTTAATGA AGAAAAAATA 
    ACAGAGAGTT CCCTAGTAGA AATTACTGAA CATAAAGATT TTACACTAAA AACAGAGGAG 
    CTTATAGAGA GCCCCAAGTT AGAATCTTCT GAGGGTGAAA TTATACAGAC AGTGGACAGA 
    CAATCTGTTA AGAGCCCAGA GGTTCAATTG CTTGGGCATG TTGAAACTGA AGATGTAGAA 
    ATAATTGCAA CATGTGATAC TTTTGGGAAT GAAGATTTCA ATAATATTCA AGACTCTGAA 
    AATAACTTAC TAAAAAATAA TCTTCTGAAC ACCAAATTGG AAAAATCTTT AGAAGAAAAG 
    AATGAATCGC TGACCGAACA TCCTAGATCT ACAGAGTTGC CTAAAACACA CATTGAACAG 
    ATTCAGAAGC ATTTTAGTGA GGACAACAAT GAAATGATAC CTATGGAGTG TGATTCATTT 
    TGCAGTGACC AAAATGAATC TGAAGTTGAA CCATCTGTAA ATGCTGATCT TAAACAAATG 
    AATGAAAATT CTGTGACACA CTGTTCTGAA AATAATATGC CGTCTTCTGA TCTTGCGGAT 
    GAAAAGGTTG AAACTGTTTC TCAACCATCT GAAAGCCCAA AAGATACCAT AGATAAAACC 
    AAAAAGCCTC GTACTCGAAG ATCTAGATTT CATTCTCCAT CTACAACTTG GTCACCCAAC 
    AAAGACACTC CACAAGAAAA GAAGCGGCCC CAGTCTCCAT CTCCCAGAAG AGAAACTGGG 
    AAAGAAAGCA GGAAGTCTCA ATCACCATCT CCTAAGAATG AGTCAGCCAG AGGCCGGAAA 
    AAATCCCGTT CTCAGTCCCC AAAAAAGGAT ATTGCAAGAG AAAGGAGGCA ATCTCAGTCT 
    CGGTCTCCAA AAAGGGATAC TACTAGGGAA AGCAGAAGAT CTGAATCACT GTCCCCAAGA 
    AGAGAAACTT CTAGAGAGAA CAAAAGATCT CAGCCAAGAG TGAAAGATTC TTCCCCAGGA 
    GAAAAATCCA GGTCCCAGAG CAGAGAACGA GAAAGTGATA GAGATGGGCA GAGGAGAGAG 
    AGAGAAAGGA GAACCAGAAA GTGGTCTAGG TCCAGATCTC ATTCTAGGTC CCCCTCAAGA 
    TGTAGAACAA AAAGTAAGAG TTCATCATTT GGTAGAATTG ACAGAGATAG TTACTCTCCC 
    CGGTGGAAGG GAAGATGGGC AAATGATGGT TGGAGATGTC CACGAGGAAA TGATCGGTAC 
    AGAAAGAATG ACCCAGAGAA ACAGAATGAA AATACAAGAA AAGAAAAAAA TGACATCCAT 
    CTAGATGCTG ATGATCCAAA TTCTGCTGAC AAACATAGAA ATGACTGTCC CAATTGGATA 
    ACAGAAAAAA TAAACTCTGG GCCTGATCCA AGAACCAGAA ATCCAGAAAA GTTGAAAGAG 
    TCTCATTGGG AAGAAAATAG AAATGAAAAT TCAGGAAATT CTTGGAATAA AAACTTTGGT 
    TCTGGTTGGG TATCTAACCG TGGTAGAGGC AGAGGCAACC GTGGCAGAGG CACTTACAGA 
    AGTAGTTTTG CCTATAAAGA TCAGAATGAA AATCGGTGGC AAAATCGAAA ACCCCTCTCA 
    GGGAATTCAA ACAGTTCAGG GAGTGAATCT TTCAAGTTTG TGGAACAGCA ATCCTATAAG 
    CGAAAAAGTG AACAGGAGTT CTCATTTGAT ACACCAGCAG ATAGATCTGG ATGGACATCT 
    GCATCCAGCT GGGCCGTGAG AAAGACTTTG CCAGCAGATG TACAAAACTA CTACTCACGA 
    CGAGGCAGAA ATTCTTCAGG TCCACAGTCT GGATGGATGA AACAAGAGGA GGAAACATCT 
    GGACAGGATT CTAGCCTAAA AGACCAAACA AACCAGCAAG TTGATGGTTC TCAGCTACCT 
    ATAAATATGA TGCAACCGCA AATGAATGTA ATGCAGCAAC AAATGAATGC ACAACACCAG 
    CCTATGAATA TCTTCCCATA TCCAGTGGGT GTTCATGCTC CTTTGATGAA CATCCAACGC 
    AATCCATTTA ACATTCATCC TCAGCTACCC TTGCATCTCC ACACAGGAGT GCCCCTCATG 
    CAGGTAGCCA CTCCTACCAG TGTATCTCAG GGACTACCAC CACCACCACC CCCTCCCCCA 
    CCATCCCAAC AAGTCAACTA CATTGCTTCA CAACCAGATG GAAAGCAATT GCAGGGTATT 
    CCTAGTTCTT CTCATGTAAG TAATAACATG AGTACACCAG TTTTGCCTGC TCCGACAGCA 
    GCCCCAGGAA ATACGGGAAT GGTTCAGGGA CCAAGTTCTG GTAATACTTC GTCATCAAGT 
    CACAGCAAAG CCTCTAATGC TGCTGTAAAA TTGGCAGAAA GCAAAGTAAG TGTTGCAGTG 
    GAAGCCAGCG CAGATAGCTC GAAGACAGAC AAGAAATTGC AAATTCAAGA AAAAGCAGCA 
    CAAGAGGTAA AATTGGCCAT CAAGCCATTT TACCAAAATA AAGATATCAC CAAGGAAGAA 
    TATAAAGAAA TTGTACGGAA AGCAGTAGAT AAAGTTTGTC ATAGTAAGAG TGGAGAAGTA 
    AATTCTACTA AAGTGGCAAA TCTGGTTAAA GCCTATGTAG ACAAATACAA ATATTCACGG 
    AAGGGGAGCC AAAAGAAAAC TCTGGAAGAA CCTGTGTCTA CTGAAAAAAA CATAGGCTGA

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

    RefSeq XP_011537286.1
    CDS1759..6198
    Translation

    Target ORF information:

    RefSeq Version XM_011538984.2
    Organism Homo sapiens(human)
    Definition Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011538984.2

    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
    ATGATTGTTA GCATTTTTAG CAATAAGGAA ACCCTTTTCC AAAGAGAAAT GAAGAAGAAA 
    ACTGTATGTA CCCTAAATAT GGGAGATAAG AAGTATGAAG ACATGGAAGG TGAAGAAAAC 
    GGAGATAATA CTATTTCCAC TGGTCTGTTG TACAGTGAGG CTGACAGATG CCCAATATGT 
    CTTAATTGTC TATTAGAAAA GGAAGTTGGT TTTCCAGAAA GCTGTAATCA TGTCTTCTGT 
    ATGACTTGTA TTCTTAAATG GGCAGAGACA CTGGCTTCAT GTCCTATTGA CCGTAAACCT 
    TTTCAGGCAG TGTTTAAATT CAGTGCATTG GAAGGTTATG TTAAGGTTCA AGTAAAAAAA 
    CAGCTGAGAG AAACAAAAGA CAAGAAAAAT GAAAACTCAT TTGAGAAACA GGTCTCCTGT 
    CATGAAAATT CTAAAAGCTG TATAAGAAGA AAAGCCATCG TAAGAGAAGA TCTATTAAGT 
    GCAAAAGTTT GTGACTTGAA GTGGATACAT AGAAACTCTT TATACAGTGA AACAGGAGGA 
    AAGAAAAATG CAGCAATAAA GATAAATAAG CCTCAGAGAT CAAATTGGAG TACAAATCAG 
    TGCTTCAGAA ATTTTTTCTC CAATATGTTT TCTTCTGTTA GCCACTCTGG AGAATCTTCC 
    TTTACCTATA GAGCTTATTG TACAGAATTT ATAGAAGCCA GTGAAATCAG TGCATTGATT 
    AGGCAGAAGA GACATGAACT GGAATTGTCA TGGTTTCCTG ATACATTACC TGGAATTGGA 
    AGAATTGGTT TTATACCCTG GAATGTTGAA ACAGAAGTCC TTCCTCTCAT TTCTTCTGTG 
    TTGCCAAGAA CTATTTTTCC AACAAGTACC ATATCTTTCG AACATTTTGG TACTTCTTGC 
    AAGGGATATG CATTAGCACA TACTCAAGAA GGGGAAGAAA AGAAGCAAAC TTCTGGTACA 
    TCAAATACCA GAGGATCAAG ACGAAAACCT GCAATGACAA CTCCTACAAG GAGGTCTACA 
    CGTAACACAA GAGCTGAAAC AGCCAGTCAG TCTCAGAGAT CCCCAATATC AGACAATTCT 
    GGGTGTGATG CCCCAGGTAA CAGTAATCCA TCTTTAAGTG TTCCCTCTTC AGCTGAGTCA 
    GAAAAGCAAA CAAGACAGGC TCCAAAACGG AAGTCTGTAA GAAGAGGAAG AAAACCACCT 
    TTACTGAAAA AGAAACTTCG GAGCTCTGTA GCTGCCCCTG AAAAATCATC TTCCAATGAT 
    TCAGTAGATG AAGAAACAGC AGAATCTGAC ACATCACCTG TGTTAGAAAA AGAGCACCAA 
    CCAGATGTAG ACAGTAGTAA CATTTGTACT GTGCAGACTC ATGTAGAAAA CCAGTCTGCT 
    AATTGCTTGA AAAGTTGCAA TGAGCAAATA GAAGAAAGTG AGAAGCATAC TGCAAATTAT 
    GATACAGAGG AAAGAGTAGG ATCTTCATCT TCTGAGTCTT GTGCTCAAGA TCTTCCTGTG 
    CTAGTTGGTG AGGAAGGGGA AGTTAAAAAA CTCGAGAATA CAGGTATAGA GGCTAATGTT 
    TTGTGTTTGG AAAGTGAGAT TTCTGAAAAT ATTCTTGAAA AAGGAGGTGA TCCATTGGAA 
    AAGCAAGACC AGATATCTGG ACTTTCACAA TCAGAGGTAA AGACAGATGT ATGTACAGTT 
    CATCTTCCAA ATGATTTTCC TACATGTTTA ACATCTGAAA GCAAAGTGTA CCAACCTGTA 
    TCTTGTCCCC TAAGTGACTT ATCTGAGAAT GTAGAGTCAG TGGTTAATGA AGAAAAAATA 
    ACAGAGAGTT CCCTAGTAGA AATTACTGAA CATAAAGATT TTACACTAAA AACAGAGGAG 
    CTTATAGAGA GCCCCAAGTT AGAATCTTCT GAGGGTGAAA TTATACAGAC AGTGGACAGA 
    CAATCTGTTA AGAGCCCAGA GGTTCAATTG CTTGGGCATG TTGAAACTGA AGATGTAGAA 
    ATAATTGCAA CATGTGATAC TTTTGGGAAT GAAGATTTCA ATAATATTCA AGACTCTGAA 
    AATAACTTAC TAAAAAATAA TCTTCTGAAC ACCAAATTGG AAAAATCTTT AGAAGAAAAG 
    AATGAATCGC TGACCGAACA TCCTAGATCT ACAGAGTTGC CTAAAACACA CATTGAACAG 
    ATTCAGAAGC ATTTTAGTGA GGACAACAAT GAAATGATAC CTATGGAGTG TGATTCATTT 
    TGCAGTGACC AAAATGAATC TGAAGTTGAA CCATCTGTAA ATGCTGATCT TAAACAAATG 
    AATGAAAATT CTGTGACACA CTGTTCTGAA AATAATATGC CGTCTTCTGA TCTTGCGGAT 
    GAAAAGGTTG AAACTGTTTC TCAACCATCT GAAAGCCCAA AAGATACCAT AGATAAAACC 
    AAAAAGCCTC GTACTCGAAG ATCTAGATTT CATTCTCCAT CTACAACTTG GTCACCCAAC 
    AAAGACACTC CACAAGAAAA GAAGCGGCCC CAGTCTCCAT CTCCCAGAAG AGAAACTGGG 
    AAAGAAAGCA GGAAGTCTCA ATCACCATCT CCTAAGAATG AGTCAGCCAG AGGCCGGAAA 
    AAATCCCGTT CTCAGTCCCC AAAAAAGGAT ATTGCAAGAG AAAGGAGGCA ATCTCAGTCT 
    CGGTCTCCAA AAAGGGATAC TACTAGGGAA AGCAGAAGAT CTGAATCACT GTCCCCAAGA 
    AGAGAAACTT CTAGAGAGAA CAAAAGATCT CAGCCAAGAG TGAAAGATTC TTCCCCAGGA 
    GAAAAATCCA GGTCCCAGAG CAGAGAACGA GAAAGTGATA GAGATGGGCA GAGGAGAGAG 
    AGAGAAAGGA GAACCAGAAA GTGGTCTAGG TCCAGATCTC ATTCTAGGTC CCCCTCAAGA 
    TGTAGAACAA AAAGTAAGAG TTCATCATTT GGTAGAATTG ACAGAGATAG TTACTCTCCC 
    CGGTGGAAGG GAAGATGGGC AAATGATGGT TGGAGATGTC CACGAGGAAA TGATCGGTAC 
    AGAAAGAATG ACCCAGAGAA ACAGAATGAA AATACAAGAA AAGAAAAAAA TGACATCCAT 
    CTAGATGCTG ATGATCCAAA TTCTGCTGAC AAACATAGAA ATGACTGTCC CAATTGGATA 
    ACAGAAAAAA TAAACTCTGG GCCTGATCCA AGAACCAGAA ATCCAGAAAA GTTGAAAGAG 
    TCTCATTGGG AAGAAAATAG AAATGAAAAT TCAGGAAATT CTTGGAATAA AAACTTTGGT 
    TCTGGTTGGG TATCTAACCG TGGTAGAGGC AGAGGCAACC GTGGCAGAGG CACTTACAGA 
    AGTAGTTTTG CCTATAAAGA TCAGAATGAA AATCGGTGGC AAAATCGAAA ACCCCTCTCA 
    GGGAATTCAA ACAGTTCAGG GAGTGAATCT TTCAAGTTTG TGGAACAGCA ATCCTATAAG 
    CGAAAAAGTG AACAGGAGTT CTCATTTGAT ACACCAGCAG ATAGATCTGG ATGGACATCT 
    GCATCCAGCT GGGCCGTGAG AAAGACTTTG CCAGCAGATG TACAAAACTA CTACTCACGA 
    CGAGGCAGAA ATTCTTCAGG TCCACAGTCT GGATGGATGA AACAAGAGGA GGAAACATCT 
    GGACAGGATT CTAGCCTAAA AGACCAAACA AACCAGCAAG TTGATGGTTC TCAGCTACCT 
    ATAAATATGA TGCAACCGCA AATGAATGTA ATGCAGCAAC AAATGAATGC ACAACACCAG 
    CCTATGAATA TCTTCCCATA TCCAGTGGGT GTTCATGCTC CTTTGATGAA CATCCAACGC 
    AATCCATTTA ACATTCATCC TCAGCTACCC TTGCATCTCC ACACAGGAGT GCCCCTCATG 
    CAGGTAGCCA CTCCTACCAG TGTATCTCAG GGACTACCAC CACCACCACC CCCTCCCCCA 
    CCATCCCAAC AAGTCAACTA CATTGCTTCA CAACCAGATG GAAAGCAATT GCAGGGTATT 
    CCTAGTTCTT CTCATGTAAG TAATAACATG AGTACACCAG TTTTGCCTGC TCCGACAGCA 
    GCCCCAGGAA ATACGGGAAT GGTTCAGGGA CCAAGTTCTG GTAATACTTC GTCATCAAGT 
    CACAGCAAAG CCTCTAATGC TGCTGTAAAA TTGGCAGAAA GCAAAGTAAG TGTTGCAGTG 
    GAAGCCAGCG CAGATAGCTC GAAGACAGAC AAGAAATTGC AAATTCAAGA AAAAGCAGCA 
    CAAGAGGTAA AATTGGCCAT CAAGCCATTT TACCAAAATA AAGATATCAC CAAGGAAGAA 
    TATAAAGAAA TTGTACGGAA AGCAGTAGAT AAAGTTTGTC ATAGTAAGAG TGGAGAAGTA 
    AATTCTACTA AAGTGGCAAA TCTGGTTAAA GCCTATGTAG ACAAATACAA ATATTCACGG 
    AAGGGGAGCC AAAAGAAAAC TCTGGAAGAA CCTGTGTCTA CTGAAAAAAA CATAGGCTGA

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

    SCAF11 ( XM_017020223.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016875712.1 Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X10, mRNA.
    Price & Availability↑
    CloneID OHu62561
    Clone ID Related Accession (Same CDS sequence) XM_017020223.1 , XM_024449275.1
    Accession Version XM_017020223.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4236bp)
    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 protein SCAF11 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by mRNA and 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
    ATGGGCAGAG TGCATCTTTC ACACAACCTT TACCCTGATG TACATGTTCC AGGTTTCTCT 
    AGGACACTGG CTTCATGTCC TATTGACCGT AAACCTTTTC AGGCAGTGTT TAAATTCAGT 
    GCATTGGAAG GTTATGTTAA GGTTCAAGTA AAAAAACAGC TGAGAGAAAC AAAAGACAAG 
    AAAAATGAAA ACTCATTTGA GAAACAGGTC TCCTGTCATG AAAATTCTAA AAGCTGTATA 
    AGAAGAAAAG CCATCGTAAG AGAAGATCTA TTAAGTGCAA AAGTTTGTGA CTTGAAGTGG 
    ATACATAGAA ACTCTTTATA CAGTGAAACA GGAGGAAAGA AAAATGCAGC AATAAAGATA 
    AATAAGCCTC AGAGATCAAA TTGGAGTACA AATCAGTGCT TCAGAAATTT TTTCTCCAAT 
    ATGTTTTCTT CTGTTAGCCA CTCTGGAGAA TCTTCCTTTA CCTATAGAGC TTATTGTACA 
    GAATTTATAG AAGCCAGTGA AATCAGTGCA TTGATTAGGC AGAAGAGACA TGAACTGGAA 
    TTGTCATGGT TTCCTGATAC ATTACCTGGA ATTGGAAGAA TTGGTTTTAT ACCCTGGAAT 
    GTTGAAACAG AAGTCCTTCC TCTCATTTCT TCTGTGTTGC CAAGAACTAT TTTTCCAACA 
    AGTACCATAT CTTTCGAACA TTTTGGTACT TCTTGCAAGG GATATGCATT AGCACATACT 
    CAAGAAGGGG AAGAAAAGAA GCAAACTTCT GGTACATCAA ATACCAGAGG ATCAAGACGA 
    AAACCTGCAA TGACAACTCC TACAAGGAGG TCTACACGTA ACACAAGAGC TGAAACAGCC 
    AGTCAGTCTC AGAGATCCCC AATATCAGAC AATTCTGGGT GTGATGCCCC AGGTAACAGT 
    AATCCATCTT TAAGTGTTCC CTCTTCAGCT GAGTCAGAAA AGCAAACAAG ACAGGCTCCA 
    AAACGGAAGT CTGTAAGAAG AGGAAGAAAA CCACCTTTAC TGAAAAAGAA ACTTCGGAGC 
    TCTGTAGCTG CCCCTGAAAA ATCATCTTCC AATGATTCAG TAGATGAAGA AACAGCAGAA 
    TCTGACACAT CACCTGTGTT AGAAAAAGAG CACCAACCAG ATGTAGACAG TAGTAACATT 
    TGTACTGTGC AGACTCATGT AGAAAACCAG TCTGCTAATT GCTTGAAAAG TTGCAATGAG 
    CAAATAGAAG AAAGTGAGAA GCATACTGCA AATTATGATA CAGAGGAAAG AGTAGGATCT 
    TCATCTTCTG AGTCTTGTGC TCAAGATCTT CCTGTGCTAG TTGGTGAGGA AGGGGAAGTT 
    AAAAAACTCG AGAATACAGG TATAGAGGCT AATGTTTTGT GTTTGGAAAG TGAGATTTCT 
    GAAAATATTC TTGAAAAAGG AGGTGATCCA TTGGAAAAGC AAGACCAGAT ATCTGGACTT 
    TCACAATCAG AGGTAAAGAC AGATGTATGT ACAGTTCATC TTCCAAATGA TTTTCCTACA 
    TGTTTAACAT CTGAAAGCAA AGTGTACCAA CCTGTATCTT GTCCCCTAAG TGACTTATCT 
    GAGAATGTAG AGTCAGTGGT TAATGAAGAA AAAATAACAG AGAGTTCCCT AGTAGAAATT 
    ACTGAACATA AAGATTTTAC ACTAAAAACA GAGGAGCTTA TAGAGAGCCC CAAGTTAGAA 
    TCTTCTGAGG GTGAAATTAT ACAGACAGTG GACAGACAAT CTGTTAAGAG CCCAGAGGTT 
    CAATTGCTTG GGCATGTTGA AACTGAAGAT GTAGAAATAA TTGCAACATG TGATACTTTT 
    GGGAATGAAG ATTTCAATAA TATTCAAGAC TCTGAAAATA ACTTACTAAA AAATAATCTT 
    CTGAACACCA AATTGGAAAA ATCTTTAGAA GAAAAGAATG AATCGCTGAC CGAACATCCT 
    AGATCTACAG AGTTGCCTAA AACACACATT GAACAGATTC AGAAGCATTT TAGTGAGGAC 
    AACAATGAAA TGATACCTAT GGAGTGTGAT TCATTTTGCA GTGACCAAAA TGAATCTGAA 
    GTTGAACCAT CTGTAAATGC TGATCTTAAA CAAATGAATG AAAATTCTGT GACACACTGT 
    TCTGAAAATA ATATGCCGTC TTCTGATCTT GCGGATGAAA AGGTTGAAAC TGTTTCTCAA 
    CCATCTGAAA GCCCAAAAGA TACCATAGAT AAAACCAAAA AGCCTCGTAC TCGAAGATCT 
    AGATTTCATT CTCCATCTAC AACTTGGTCA CCCAACAAAG ACACTCCACA AGAAAAGAAG 
    CGGCCCCAGT CTCCATCTCC CAGAAGAGAA ACTGGGAAAG AAAGCAGGAA GTCTCAATCA 
    CCATCTCCTA AGAATGAGTC AGCCAGAGGC CGGAAAAAAT CCCGTTCTCA GTCCCCAAAA 
    AAGGATATTG CAAGAGAAAG GAGGCAATCT CAGTCTCGGT CTCCAAAAAG GGATACTACT 
    AGGGAAAGCA GAAGATCTGA ATCACTGTCC CCAAGAAGAG AAACTTCTAG AGAGAACAAA 
    AGATCTCAGC CAAGAGTGAA AGATTCTTCC CCAGGAGAAA AATCCAGGTC CCAGAGCAGA 
    GAACGAGAAA GTGATAGAGA TGGGCAGAGG AGAGAGAGAG AAAGGAGAAC CAGAAAGTGG 
    TCTAGGTCCA GATCTCATTC TAGGTCCCCC TCAAGATGTA GAACAAAAAG TAAGAGTTCA 
    TCATTTGGTA GAATTGACAG AGATAGTTAC TCTCCCCGGT GGAAGGGAAG ATGGGCAAAT 
    GATGGTTGGA GATGTCCACG AGGAAATGAT CGGTACAGAA AGAATGACCC AGAGAAACAG 
    AATGAAAATA CAAGAAAAGA AAAAAATGAC ATCCATCTAG ATGCTGATGA TCCAAATTCT 
    GCTGACAAAC ATAGAAATGA CTGTCCCAAT TGGATAACAG AAAAAATAAA CTCTGGGCCT 
    GATCCAAGAA CCAGAAATCC AGAAAAGTTG AAAGAGTCTC ATTGGGAAGA AAATAGAAAT 
    GAAAATTCAG GAAATTCTTG GAATAAAAAC TTTGGTTCTG GTTGGGTATC TAACCGTGGT 
    AGAGGCAGAG GCAACCGTGG CAGAGGCACT TACAGAAGTA GTTTTGCCTA TAAAGATCAG 
    AATGAAAATC GGTGGCAAAA TCGAAAACCC CTCTCAGGGA ATTCAAACAG TTCAGGGAGT 
    GAATCTTTCA AGTTTGTGGA ACAGCAATCC TATAAGCGAA AAAGTGAACA GGAGTTCTCA 
    TTTGATACAC CAGCAGATAG ATCTGGATGG ACATCTGCAT CCAGCTGGGC CGTGAGAAAG 
    ACTTTGCCAG CAGATGTACA AAACTACTAC TCACGACGAG GCAGAAATTC TTCAGGTCCA 
    CAGTCTGGAT GGATGAAACA AGAGGAGGAA ACATCTGGAC AGGATTCTAG CCTAAAAGAC 
    CAAACAAACC AGCAAGTTGA TGGTTCTCAG CTACCTATAA ATATGATGCA ACCGCAAATG 
    AATGTAATGC AGCAACAAAT GAATGCACAA CACCAGCCTA TGAATATCTT CCCATATCCA 
    GTGGGTGTTC ATGCTCCTTT GATGAACATC CAACGCAATC CATTTAACAT TCATCCTCAG 
    CTACCCTTGC ATCTCCACAC AGGAGTGCCC CTCATGCAGG TAGCCACTCC TACCAGTGTA 
    TCTCAGGGAC TACCACCACC ACCACCCCCT CCCCCACCAT CCCAACAAGT CAACTACATT 
    GCTTCACAAC CAGATGGAAA GCAATTGCAG GGTATTCCTA GTTCTTCTCA TGTAAGTAAT 
    AACATGAGTA CACCAGTTTT GCCTGCTCCG ACAGCAGCCC CAGGAAATAC GGGAATGGTT 
    CAGGGACCAA GTTCTGGTAA TACTTCGTCA TCAAGTCACA GCAAAGCCTC TAATGCTGCT 
    GTAAAATTGG CAGAAAGCAA AGTAAGTGTT GCAGTGGAAG CCAGCGCAGA TAGCTCGAAG 
    ACAGACAAGA AATTGCAAAT TCAAGAAAAA GCAGCACAAG AGGTAAAATT GGCCATCAAG 
    CCATTTTACC AAAATAAAGA TATCACCAAG GAAGAATATA AAGAAATTGT ACGGAAAGCA 
    GTAGATAAAG TTTGTCATAG TAAGAGTGGA GAAGTAAATT CTACTAAAGT GGCAAATCTG 
    GTTAAAGCCT ATGTAGACAA ATACAAATAT TCACGGAAGG GGAGCCAAAA GAAAACTCTG 
    GAAGAACCTG TGTCTACTGA AAAAAACATA GGCTGA

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

    RefSeq XP_016875712.1
    CDS544..4779
    Translation

    Target ORF information:

    RefSeq Version XM_017020223.1
    Organism Homo sapiens(human)
    Definition Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017020223.1

    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
    ATGGGCAGAG TGCATCTTTC ACACAACCTT TACCCTGATG TACATGTTCC AGGTTTCTCT 
    AGGACACTGG CTTCATGTCC TATTGACCGT AAACCTTTTC AGGCAGTGTT TAAATTCAGT 
    GCATTGGAAG GTTATGTTAA GGTTCAAGTA AAAAAACAGC TGAGAGAAAC AAAAGACAAG 
    AAAAATGAAA ACTCATTTGA GAAACAGGTC TCCTGTCATG AAAATTCTAA AAGCTGTATA 
    AGAAGAAAAG CCATCGTAAG AGAAGATCTA TTAAGTGCAA AAGTTTGTGA CTTGAAGTGG 
    ATACATAGAA ACTCTTTATA CAGTGAAACA GGAGGAAAGA AAAATGCAGC AATAAAGATA 
    AATAAGCCTC AGAGATCAAA TTGGAGTACA AATCAGTGCT TCAGAAATTT TTTCTCCAAT 
    ATGTTTTCTT CTGTTAGCCA CTCTGGAGAA TCTTCCTTTA CCTATAGAGC TTATTGTACA 
    GAATTTATAG AAGCCAGTGA AATCAGTGCA TTGATTAGGC AGAAGAGACA TGAACTGGAA 
    TTGTCATGGT TTCCTGATAC ATTACCTGGA ATTGGAAGAA TTGGTTTTAT ACCCTGGAAT 
    GTTGAAACAG AAGTCCTTCC TCTCATTTCT TCTGTGTTGC CAAGAACTAT TTTTCCAACA 
    AGTACCATAT CTTTCGAACA TTTTGGTACT TCTTGCAAGG GATATGCATT AGCACATACT 
    CAAGAAGGGG AAGAAAAGAA GCAAACTTCT GGTACATCAA ATACCAGAGG ATCAAGACGA 
    AAACCTGCAA TGACAACTCC TACAAGGAGG TCTACACGTA ACACAAGAGC TGAAACAGCC 
    AGTCAGTCTC AGAGATCCCC AATATCAGAC AATTCTGGGT GTGATGCCCC AGGTAACAGT 
    AATCCATCTT TAAGTGTTCC CTCTTCAGCT GAGTCAGAAA AGCAAACAAG ACAGGCTCCA 
    AAACGGAAGT CTGTAAGAAG AGGAAGAAAA CCACCTTTAC TGAAAAAGAA ACTTCGGAGC 
    TCTGTAGCTG CCCCTGAAAA ATCATCTTCC AATGATTCAG TAGATGAAGA AACAGCAGAA 
    TCTGACACAT CACCTGTGTT AGAAAAAGAG CACCAACCAG ATGTAGACAG TAGTAACATT 
    TGTACTGTGC AGACTCATGT AGAAAACCAG TCTGCTAATT GCTTGAAAAG TTGCAATGAG 
    CAAATAGAAG AAAGTGAGAA GCATACTGCA AATTATGATA CAGAGGAAAG AGTAGGATCT 
    TCATCTTCTG AGTCTTGTGC TCAAGATCTT CCTGTGCTAG TTGGTGAGGA AGGGGAAGTT 
    AAAAAACTCG AGAATACAGG TATAGAGGCT AATGTTTTGT GTTTGGAAAG TGAGATTTCT 
    GAAAATATTC TTGAAAAAGG AGGTGATCCA TTGGAAAAGC AAGACCAGAT ATCTGGACTT 
    TCACAATCAG AGGTAAAGAC AGATGTATGT ACAGTTCATC TTCCAAATGA TTTTCCTACA 
    TGTTTAACAT CTGAAAGCAA AGTGTACCAA CCTGTATCTT GTCCCCTAAG TGACTTATCT 
    GAGAATGTAG AGTCAGTGGT TAATGAAGAA AAAATAACAG AGAGTTCCCT AGTAGAAATT 
    ACTGAACATA AAGATTTTAC ACTAAAAACA GAGGAGCTTA TAGAGAGCCC CAAGTTAGAA 
    TCTTCTGAGG GTGAAATTAT ACAGACAGTG GACAGACAAT CTGTTAAGAG CCCAGAGGTT 
    CAATTGCTTG GGCATGTTGA AACTGAAGAT GTAGAAATAA TTGCAACATG TGATACTTTT 
    GGGAATGAAG ATTTCAATAA TATTCAAGAC TCTGAAAATA ACTTACTAAA AAATAATCTT 
    CTGAACACCA AATTGGAAAA ATCTTTAGAA GAAAAGAATG AATCGCTGAC CGAACATCCT 
    AGATCTACAG AGTTGCCTAA AACACACATT GAACAGATTC AGAAGCATTT TAGTGAGGAC 
    AACAATGAAA TGATACCTAT GGAGTGTGAT TCATTTTGCA GTGACCAAAA TGAATCTGAA 
    GTTGAACCAT CTGTAAATGC TGATCTTAAA CAAATGAATG AAAATTCTGT GACACACTGT 
    TCTGAAAATA ATATGCCGTC TTCTGATCTT GCGGATGAAA AGGTTGAAAC TGTTTCTCAA 
    CCATCTGAAA GCCCAAAAGA TACCATAGAT AAAACCAAAA AGCCTCGTAC TCGAAGATCT 
    AGATTTCATT CTCCATCTAC AACTTGGTCA CCCAACAAAG ACACTCCACA AGAAAAGAAG 
    CGGCCCCAGT CTCCATCTCC CAGAAGAGAA ACTGGGAAAG AAAGCAGGAA GTCTCAATCA 
    CCATCTCCTA AGAATGAGTC AGCCAGAGGC CGGAAAAAAT CCCGTTCTCA GTCCCCAAAA 
    AAGGATATTG CAAGAGAAAG GAGGCAATCT CAGTCTCGGT CTCCAAAAAG GGATACTACT 
    AGGGAAAGCA GAAGATCTGA ATCACTGTCC CCAAGAAGAG AAACTTCTAG AGAGAACAAA 
    AGATCTCAGC CAAGAGTGAA AGATTCTTCC CCAGGAGAAA AATCCAGGTC CCAGAGCAGA 
    GAACGAGAAA GTGATAGAGA TGGGCAGAGG AGAGAGAGAG AAAGGAGAAC CAGAAAGTGG 
    TCTAGGTCCA GATCTCATTC TAGGTCCCCC TCAAGATGTA GAACAAAAAG TAAGAGTTCA 
    TCATTTGGTA GAATTGACAG AGATAGTTAC TCTCCCCGGT GGAAGGGAAG ATGGGCAAAT 
    GATGGTTGGA GATGTCCACG AGGAAATGAT CGGTACAGAA AGAATGACCC AGAGAAACAG 
    AATGAAAATA CAAGAAAAGA AAAAAATGAC ATCCATCTAG ATGCTGATGA TCCAAATTCT 
    GCTGACAAAC ATAGAAATGA CTGTCCCAAT TGGATAACAG AAAAAATAAA CTCTGGGCCT 
    GATCCAAGAA CCAGAAATCC AGAAAAGTTG AAAGAGTCTC ATTGGGAAGA AAATAGAAAT 
    GAAAATTCAG GAAATTCTTG GAATAAAAAC TTTGGTTCTG GTTGGGTATC TAACCGTGGT 
    AGAGGCAGAG GCAACCGTGG CAGAGGCACT TACAGAAGTA GTTTTGCCTA TAAAGATCAG 
    AATGAAAATC GGTGGCAAAA TCGAAAACCC CTCTCAGGGA ATTCAAACAG TTCAGGGAGT 
    GAATCTTTCA AGTTTGTGGA ACAGCAATCC TATAAGCGAA AAAGTGAACA GGAGTTCTCA 
    TTTGATACAC CAGCAGATAG ATCTGGATGG ACATCTGCAT CCAGCTGGGC CGTGAGAAAG 
    ACTTTGCCAG CAGATGTACA AAACTACTAC TCACGACGAG GCAGAAATTC TTCAGGTCCA 
    CAGTCTGGAT GGATGAAACA AGAGGAGGAA ACATCTGGAC AGGATTCTAG CCTAAAAGAC 
    CAAACAAACC AGCAAGTTGA TGGTTCTCAG CTACCTATAA ATATGATGCA ACCGCAAATG 
    AATGTAATGC AGCAACAAAT GAATGCACAA CACCAGCCTA TGAATATCTT CCCATATCCA 
    GTGGGTGTTC ATGCTCCTTT GATGAACATC CAACGCAATC CATTTAACAT TCATCCTCAG 
    CTACCCTTGC ATCTCCACAC AGGAGTGCCC CTCATGCAGG TAGCCACTCC TACCAGTGTA 
    TCTCAGGGAC TACCACCACC ACCACCCCCT CCCCCACCAT CCCAACAAGT CAACTACATT 
    GCTTCACAAC CAGATGGAAA GCAATTGCAG GGTATTCCTA GTTCTTCTCA TGTAAGTAAT 
    AACATGAGTA CACCAGTTTT GCCTGCTCCG ACAGCAGCCC CAGGAAATAC GGGAATGGTT 
    CAGGGACCAA GTTCTGGTAA TACTTCGTCA TCAAGTCACA GCAAAGCCTC TAATGCTGCT 
    GTAAAATTGG CAGAAAGCAA AGTAAGTGTT GCAGTGGAAG CCAGCGCAGA TAGCTCGAAG 
    ACAGACAAGA AATTGCAAAT TCAAGAAAAA GCAGCACAAG AGGTAAAATT GGCCATCAAG 
    CCATTTTACC AAAATAAAGA TATCACCAAG GAAGAATATA AAGAAATTGT ACGGAAAGCA 
    GTAGATAAAG TTTGTCATAG TAAGAGTGGA GAAGTAAATT CTACTAAAGT GGCAAATCTG 
    GTTAAAGCCT ATGTAGACAA ATACAAATAT TCACGGAAGG GGAGCCAAAA GAAAACTCTG 
    GAAGAACCTG TGTCTACTGA AAAAAACATA GGCTGA

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

    SCAF11 ( XM_024449275.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024305043.1 Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OHu62561
    Clone ID Related Accession (Same CDS sequence) XM_017020223.1 , XM_024449275.1
    Accession Version XM_024449275.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4236bp)
    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 protein SCAF11 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by mRNA and 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
    ATGGGCAGAG TGCATCTTTC ACACAACCTT TACCCTGATG TACATGTTCC AGGTTTCTCT 
    AGGACACTGG CTTCATGTCC TATTGACCGT AAACCTTTTC AGGCAGTGTT TAAATTCAGT 
    GCATTGGAAG GTTATGTTAA GGTTCAAGTA AAAAAACAGC TGAGAGAAAC AAAAGACAAG 
    AAAAATGAAA ACTCATTTGA GAAACAGGTC TCCTGTCATG AAAATTCTAA AAGCTGTATA 
    AGAAGAAAAG CCATCGTAAG AGAAGATCTA TTAAGTGCAA AAGTTTGTGA CTTGAAGTGG 
    ATACATAGAA ACTCTTTATA CAGTGAAACA GGAGGAAAGA AAAATGCAGC AATAAAGATA 
    AATAAGCCTC AGAGATCAAA TTGGAGTACA AATCAGTGCT TCAGAAATTT TTTCTCCAAT 
    ATGTTTTCTT CTGTTAGCCA CTCTGGAGAA TCTTCCTTTA CCTATAGAGC TTATTGTACA 
    GAATTTATAG AAGCCAGTGA AATCAGTGCA TTGATTAGGC AGAAGAGACA TGAACTGGAA 
    TTGTCATGGT TTCCTGATAC ATTACCTGGA ATTGGAAGAA TTGGTTTTAT ACCCTGGAAT 
    GTTGAAACAG AAGTCCTTCC TCTCATTTCT TCTGTGTTGC CAAGAACTAT TTTTCCAACA 
    AGTACCATAT CTTTCGAACA TTTTGGTACT TCTTGCAAGG GATATGCATT AGCACATACT 
    CAAGAAGGGG AAGAAAAGAA GCAAACTTCT GGTACATCAA ATACCAGAGG ATCAAGACGA 
    AAACCTGCAA TGACAACTCC TACAAGGAGG TCTACACGTA ACACAAGAGC TGAAACAGCC 
    AGTCAGTCTC AGAGATCCCC AATATCAGAC AATTCTGGGT GTGATGCCCC AGGTAACAGT 
    AATCCATCTT TAAGTGTTCC CTCTTCAGCT GAGTCAGAAA AGCAAACAAG ACAGGCTCCA 
    AAACGGAAGT CTGTAAGAAG AGGAAGAAAA CCACCTTTAC TGAAAAAGAA ACTTCGGAGC 
    TCTGTAGCTG CCCCTGAAAA ATCATCTTCC AATGATTCAG TAGATGAAGA AACAGCAGAA 
    TCTGACACAT CACCTGTGTT AGAAAAAGAG CACCAACCAG ATGTAGACAG TAGTAACATT 
    TGTACTGTGC AGACTCATGT AGAAAACCAG TCTGCTAATT GCTTGAAAAG TTGCAATGAG 
    CAAATAGAAG AAAGTGAGAA GCATACTGCA AATTATGATA CAGAGGAAAG AGTAGGATCT 
    TCATCTTCTG AGTCTTGTGC TCAAGATCTT CCTGTGCTAG TTGGTGAGGA AGGGGAAGTT 
    AAAAAACTCG AGAATACAGG TATAGAGGCT AATGTTTTGT GTTTGGAAAG TGAGATTTCT 
    GAAAATATTC TTGAAAAAGG AGGTGATCCA TTGGAAAAGC AAGACCAGAT ATCTGGACTT 
    TCACAATCAG AGGTAAAGAC AGATGTATGT ACAGTTCATC TTCCAAATGA TTTTCCTACA 
    TGTTTAACAT CTGAAAGCAA AGTGTACCAA CCTGTATCTT GTCCCCTAAG TGACTTATCT 
    GAGAATGTAG AGTCAGTGGT TAATGAAGAA AAAATAACAG AGAGTTCCCT AGTAGAAATT 
    ACTGAACATA AAGATTTTAC ACTAAAAACA GAGGAGCTTA TAGAGAGCCC CAAGTTAGAA 
    TCTTCTGAGG GTGAAATTAT ACAGACAGTG GACAGACAAT CTGTTAAGAG CCCAGAGGTT 
    CAATTGCTTG GGCATGTTGA AACTGAAGAT GTAGAAATAA TTGCAACATG TGATACTTTT 
    GGGAATGAAG ATTTCAATAA TATTCAAGAC TCTGAAAATA ACTTACTAAA AAATAATCTT 
    CTGAACACCA AATTGGAAAA ATCTTTAGAA GAAAAGAATG AATCGCTGAC CGAACATCCT 
    AGATCTACAG AGTTGCCTAA AACACACATT GAACAGATTC AGAAGCATTT TAGTGAGGAC 
    AACAATGAAA TGATACCTAT GGAGTGTGAT TCATTTTGCA GTGACCAAAA TGAATCTGAA 
    GTTGAACCAT CTGTAAATGC TGATCTTAAA CAAATGAATG AAAATTCTGT GACACACTGT 
    TCTGAAAATA ATATGCCGTC TTCTGATCTT GCGGATGAAA AGGTTGAAAC TGTTTCTCAA 
    CCATCTGAAA GCCCAAAAGA TACCATAGAT AAAACCAAAA AGCCTCGTAC TCGAAGATCT 
    AGATTTCATT CTCCATCTAC AACTTGGTCA CCCAACAAAG ACACTCCACA AGAAAAGAAG 
    CGGCCCCAGT CTCCATCTCC CAGAAGAGAA ACTGGGAAAG AAAGCAGGAA GTCTCAATCA 
    CCATCTCCTA AGAATGAGTC AGCCAGAGGC CGGAAAAAAT CCCGTTCTCA GTCCCCAAAA 
    AAGGATATTG CAAGAGAAAG GAGGCAATCT CAGTCTCGGT CTCCAAAAAG GGATACTACT 
    AGGGAAAGCA GAAGATCTGA ATCACTGTCC CCAAGAAGAG AAACTTCTAG AGAGAACAAA 
    AGATCTCAGC CAAGAGTGAA AGATTCTTCC CCAGGAGAAA AATCCAGGTC CCAGAGCAGA 
    GAACGAGAAA GTGATAGAGA TGGGCAGAGG AGAGAGAGAG AAAGGAGAAC CAGAAAGTGG 
    TCTAGGTCCA GATCTCATTC TAGGTCCCCC TCAAGATGTA GAACAAAAAG TAAGAGTTCA 
    TCATTTGGTA GAATTGACAG AGATAGTTAC TCTCCCCGGT GGAAGGGAAG ATGGGCAAAT 
    GATGGTTGGA GATGTCCACG AGGAAATGAT CGGTACAGAA AGAATGACCC AGAGAAACAG 
    AATGAAAATA CAAGAAAAGA AAAAAATGAC ATCCATCTAG ATGCTGATGA TCCAAATTCT 
    GCTGACAAAC ATAGAAATGA CTGTCCCAAT TGGATAACAG AAAAAATAAA CTCTGGGCCT 
    GATCCAAGAA CCAGAAATCC AGAAAAGTTG AAAGAGTCTC ATTGGGAAGA AAATAGAAAT 
    GAAAATTCAG GAAATTCTTG GAATAAAAAC TTTGGTTCTG GTTGGGTATC TAACCGTGGT 
    AGAGGCAGAG GCAACCGTGG CAGAGGCACT TACAGAAGTA GTTTTGCCTA TAAAGATCAG 
    AATGAAAATC GGTGGCAAAA TCGAAAACCC CTCTCAGGGA ATTCAAACAG TTCAGGGAGT 
    GAATCTTTCA AGTTTGTGGA ACAGCAATCC TATAAGCGAA AAAGTGAACA GGAGTTCTCA 
    TTTGATACAC CAGCAGATAG ATCTGGATGG ACATCTGCAT CCAGCTGGGC CGTGAGAAAG 
    ACTTTGCCAG CAGATGTACA AAACTACTAC TCACGACGAG GCAGAAATTC TTCAGGTCCA 
    CAGTCTGGAT GGATGAAACA AGAGGAGGAA ACATCTGGAC AGGATTCTAG CCTAAAAGAC 
    CAAACAAACC AGCAAGTTGA TGGTTCTCAG CTACCTATAA ATATGATGCA ACCGCAAATG 
    AATGTAATGC AGCAACAAAT GAATGCACAA CACCAGCCTA TGAATATCTT CCCATATCCA 
    GTGGGTGTTC ATGCTCCTTT GATGAACATC CAACGCAATC CATTTAACAT TCATCCTCAG 
    CTACCCTTGC ATCTCCACAC AGGAGTGCCC CTCATGCAGG TAGCCACTCC TACCAGTGTA 
    TCTCAGGGAC TACCACCACC ACCACCCCCT CCCCCACCAT CCCAACAAGT CAACTACATT 
    GCTTCACAAC CAGATGGAAA GCAATTGCAG GGTATTCCTA GTTCTTCTCA TGTAAGTAAT 
    AACATGAGTA CACCAGTTTT GCCTGCTCCG ACAGCAGCCC CAGGAAATAC GGGAATGGTT 
    CAGGGACCAA GTTCTGGTAA TACTTCGTCA TCAAGTCACA GCAAAGCCTC TAATGCTGCT 
    GTAAAATTGG CAGAAAGCAA AGTAAGTGTT GCAGTGGAAG CCAGCGCAGA TAGCTCGAAG 
    ACAGACAAGA AATTGCAAAT TCAAGAAAAA GCAGCACAAG AGGTAAAATT GGCCATCAAG 
    CCATTTTACC AAAATAAAGA TATCACCAAG GAAGAATATA AAGAAATTGT ACGGAAAGCA 
    GTAGATAAAG TTTGTCATAG TAAGAGTGGA GAAGTAAATT CTACTAAAGT GGCAAATCTG 
    GTTAAAGCCT ATGTAGACAA ATACAAATAT TCACGGAAGG GGAGCCAAAA GAAAACTCTG 
    GAAGAACCTG TGTCTACTGA AAAAAACATA GGCTGA

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

    RefSeq XP_024305043.1
    CDS102..4337
    Translation

    Target ORF information:

    RefSeq Version XM_024449275.1
    Organism Homo sapiens(human)
    Definition Homo sapiens SR-related CTD associated factor 11 (SCAF11), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024449275.1

    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
    ATGGGCAGAG TGCATCTTTC ACACAACCTT TACCCTGATG TACATGTTCC AGGTTTCTCT 
    AGGACACTGG CTTCATGTCC TATTGACCGT AAACCTTTTC AGGCAGTGTT TAAATTCAGT 
    GCATTGGAAG GTTATGTTAA GGTTCAAGTA AAAAAACAGC TGAGAGAAAC AAAAGACAAG 
    AAAAATGAAA ACTCATTTGA GAAACAGGTC TCCTGTCATG AAAATTCTAA AAGCTGTATA 
    AGAAGAAAAG CCATCGTAAG AGAAGATCTA TTAAGTGCAA AAGTTTGTGA CTTGAAGTGG 
    ATACATAGAA ACTCTTTATA CAGTGAAACA GGAGGAAAGA AAAATGCAGC AATAAAGATA 
    AATAAGCCTC AGAGATCAAA TTGGAGTACA AATCAGTGCT TCAGAAATTT TTTCTCCAAT 
    ATGTTTTCTT CTGTTAGCCA CTCTGGAGAA TCTTCCTTTA CCTATAGAGC TTATTGTACA 
    GAATTTATAG AAGCCAGTGA AATCAGTGCA TTGATTAGGC AGAAGAGACA TGAACTGGAA 
    TTGTCATGGT TTCCTGATAC ATTACCTGGA ATTGGAAGAA TTGGTTTTAT ACCCTGGAAT 
    GTTGAAACAG AAGTCCTTCC TCTCATTTCT TCTGTGTTGC CAAGAACTAT TTTTCCAACA 
    AGTACCATAT CTTTCGAACA TTTTGGTACT TCTTGCAAGG GATATGCATT AGCACATACT 
    CAAGAAGGGG AAGAAAAGAA GCAAACTTCT GGTACATCAA ATACCAGAGG ATCAAGACGA 
    AAACCTGCAA TGACAACTCC TACAAGGAGG TCTACACGTA ACACAAGAGC TGAAACAGCC 
    AGTCAGTCTC AGAGATCCCC AATATCAGAC AATTCTGGGT GTGATGCCCC AGGTAACAGT 
    AATCCATCTT TAAGTGTTCC CTCTTCAGCT GAGTCAGAAA AGCAAACAAG ACAGGCTCCA 
    AAACGGAAGT CTGTAAGAAG AGGAAGAAAA CCACCTTTAC TGAAAAAGAA ACTTCGGAGC 
    TCTGTAGCTG CCCCTGAAAA ATCATCTTCC AATGATTCAG TAGATGAAGA AACAGCAGAA 
    TCTGACACAT CACCTGTGTT AGAAAAAGAG CACCAACCAG ATGTAGACAG TAGTAACATT 
    TGTACTGTGC AGACTCATGT AGAAAACCAG TCTGCTAATT GCTTGAAAAG TTGCAATGAG 
    CAAATAGAAG AAAGTGAGAA GCATACTGCA AATTATGATA CAGAGGAAAG AGTAGGATCT 
    TCATCTTCTG AGTCTTGTGC TCAAGATCTT CCTGTGCTAG TTGGTGAGGA AGGGGAAGTT 
    AAAAAACTCG AGAATACAGG TATAGAGGCT AATGTTTTGT GTTTGGAAAG TGAGATTTCT 
    GAAAATATTC TTGAAAAAGG AGGTGATCCA TTGGAAAAGC AAGACCAGAT ATCTGGACTT 
    TCACAATCAG AGGTAAAGAC AGATGTATGT ACAGTTCATC TTCCAAATGA TTTTCCTACA 
    TGTTTAACAT CTGAAAGCAA AGTGTACCAA CCTGTATCTT GTCCCCTAAG TGACTTATCT 
    GAGAATGTAG AGTCAGTGGT TAATGAAGAA AAAATAACAG AGAGTTCCCT AGTAGAAATT 
    ACTGAACATA AAGATTTTAC ACTAAAAACA GAGGAGCTTA TAGAGAGCCC CAAGTTAGAA 
    TCTTCTGAGG GTGAAATTAT ACAGACAGTG GACAGACAAT CTGTTAAGAG CCCAGAGGTT 
    CAATTGCTTG GGCATGTTGA AACTGAAGAT GTAGAAATAA TTGCAACATG TGATACTTTT 
    GGGAATGAAG ATTTCAATAA TATTCAAGAC TCTGAAAATA ACTTACTAAA AAATAATCTT 
    CTGAACACCA AATTGGAAAA ATCTTTAGAA GAAAAGAATG AATCGCTGAC CGAACATCCT 
    AGATCTACAG AGTTGCCTAA AACACACATT GAACAGATTC AGAAGCATTT TAGTGAGGAC 
    AACAATGAAA TGATACCTAT GGAGTGTGAT TCATTTTGCA GTGACCAAAA TGAATCTGAA 
    GTTGAACCAT CTGTAAATGC TGATCTTAAA CAAATGAATG AAAATTCTGT GACACACTGT 
    TCTGAAAATA ATATGCCGTC TTCTGATCTT GCGGATGAAA AGGTTGAAAC TGTTTCTCAA 
    CCATCTGAAA GCCCAAAAGA TACCATAGAT AAAACCAAAA AGCCTCGTAC TCGAAGATCT 
    AGATTTCATT CTCCATCTAC AACTTGGTCA CCCAACAAAG ACACTCCACA AGAAAAGAAG 
    CGGCCCCAGT CTCCATCTCC CAGAAGAGAA ACTGGGAAAG AAAGCAGGAA GTCTCAATCA 
    CCATCTCCTA AGAATGAGTC AGCCAGAGGC CGGAAAAAAT CCCGTTCTCA GTCCCCAAAA 
    AAGGATATTG CAAGAGAAAG GAGGCAATCT CAGTCTCGGT CTCCAAAAAG GGATACTACT 
    AGGGAAAGCA GAAGATCTGA ATCACTGTCC CCAAGAAGAG AAACTTCTAG AGAGAACAAA 
    AGATCTCAGC CAAGAGTGAA AGATTCTTCC CCAGGAGAAA AATCCAGGTC CCAGAGCAGA 
    GAACGAGAAA GTGATAGAGA TGGGCAGAGG AGAGAGAGAG AAAGGAGAAC CAGAAAGTGG 
    TCTAGGTCCA GATCTCATTC TAGGTCCCCC TCAAGATGTA GAACAAAAAG TAAGAGTTCA 
    TCATTTGGTA GAATTGACAG AGATAGTTAC TCTCCCCGGT GGAAGGGAAG ATGGGCAAAT 
    GATGGTTGGA GATGTCCACG AGGAAATGAT CGGTACAGAA AGAATGACCC AGAGAAACAG 
    AATGAAAATA CAAGAAAAGA AAAAAATGAC ATCCATCTAG ATGCTGATGA TCCAAATTCT 
    GCTGACAAAC ATAGAAATGA CTGTCCCAAT TGGATAACAG AAAAAATAAA CTCTGGGCCT 
    GATCCAAGAA CCAGAAATCC AGAAAAGTTG AAAGAGTCTC ATTGGGAAGA AAATAGAAAT 
    GAAAATTCAG GAAATTCTTG GAATAAAAAC TTTGGTTCTG GTTGGGTATC TAACCGTGGT 
    AGAGGCAGAG GCAACCGTGG CAGAGGCACT TACAGAAGTA GTTTTGCCTA TAAAGATCAG 
    AATGAAAATC GGTGGCAAAA TCGAAAACCC CTCTCAGGGA ATTCAAACAG TTCAGGGAGT 
    GAATCTTTCA AGTTTGTGGA ACAGCAATCC TATAAGCGAA AAAGTGAACA GGAGTTCTCA 
    TTTGATACAC CAGCAGATAG ATCTGGATGG ACATCTGCAT CCAGCTGGGC CGTGAGAAAG 
    ACTTTGCCAG CAGATGTACA AAACTACTAC TCACGACGAG GCAGAAATTC TTCAGGTCCA 
    CAGTCTGGAT GGATGAAACA AGAGGAGGAA ACATCTGGAC AGGATTCTAG CCTAAAAGAC 
    CAAACAAACC AGCAAGTTGA TGGTTCTCAG CTACCTATAA ATATGATGCA ACCGCAAATG 
    AATGTAATGC AGCAACAAAT GAATGCACAA CACCAGCCTA TGAATATCTT CCCATATCCA 
    GTGGGTGTTC ATGCTCCTTT GATGAACATC CAACGCAATC CATTTAACAT TCATCCTCAG 
    CTACCCTTGC ATCTCCACAC AGGAGTGCCC CTCATGCAGG TAGCCACTCC TACCAGTGTA 
    TCTCAGGGAC TACCACCACC ACCACCCCCT CCCCCACCAT CCCAACAAGT CAACTACATT 
    GCTTCACAAC CAGATGGAAA GCAATTGCAG GGTATTCCTA GTTCTTCTCA TGTAAGTAAT 
    AACATGAGTA CACCAGTTTT GCCTGCTCCG ACAGCAGCCC CAGGAAATAC GGGAATGGTT 
    CAGGGACCAA GTTCTGGTAA TACTTCGTCA TCAAGTCACA GCAAAGCCTC TAATGCTGCT 
    GTAAAATTGG CAGAAAGCAA AGTAAGTGTT GCAGTGGAAG CCAGCGCAGA TAGCTCGAAG 
    ACAGACAAGA AATTGCAAAT TCAAGAAAAA GCAGCACAAG AGGTAAAATT GGCCATCAAG 
    CCATTTTACC AAAATAAAGA TATCACCAAG GAAGAATATA AAGAAATTGT ACGGAAAGCA 
    GTAGATAAAG TTTGTCATAG TAAGAGTGGA GAAGTAAATT CTACTAAAGT GGCAAATCTG 
    GTTAAAGCCT ATGTAGACAA ATACAAATAT TCACGGAAGG GGAGCCAAAA GAAAACTCTG 
    GAAGAACCTG TGTCTACTGA AAAAAACATA GGCTGA

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

見積依頼

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