FGD5 cDNA ORF clone, Homo sapiens(human)

The following FGD5 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the FGD5 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
OHu06830 NM_152536.4
Latest version!
Homo sapiens FYVE, RhoGEF and PH domain containing 5 (FGD5), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$659.50-$923.30
$1319.00
OHu76722 NM_001320276.1
Latest version!
Homo sapiens FYVE, RhoGEF and PH domain containing 5 (FGD5), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu76720 XM_011533422.1
Latest version!
Homo sapiens FYVE, RhoGEF and PH domain containing 5 (FGD5), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu76721 XM_011533423.1
Latest version!
Homo sapiens FYVE, RhoGEF and PH domain containing 5 (FGD5), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
View Old Accession Versions >>
OHu06830 NM_152536.3 Homo sapiens FYVE, RhoGEF and PH domain containing 5 (FGD5), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$659.50-$923.30
$1319.00
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)
    CloneID OHu06830
    Clone ID Related Accession (Same CDS sequence) NM_152536.3 , NM_152536.4
    Accession Version NM_152536.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4389bp)
    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 2018-06-16
    Organism Homo sapiens(human)
    Product FYVE, RhoGEF and PH domain-containing protein 5 isoform 1
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC087591.2 and AC090937.2. On Jul 10, 2008 this sequence version replaced NM_152536.2. Transcript Variant: This variant (1) represents the longer transcript and encodes the longer isoform (1). Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## Transcript exon combination :: AK131078.1, BC132816.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##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
    ATGTTCAGGG GTCCGAAGCC CCCCATTGCC CCCAAGCCCA GGCTGACTGC CCCAAACGAG 
    TGGAGAGCCA GTGTGTACCT GAATGACAGC TTGAACAAAT GCAGCAACGG GCGGCTGCCC
    TGTGTAGACA GGGGGCTTGA TGAGGGGCCC CGGTCCATCC CAAAGTGCTC TGAGTCGGAG
    ACCGACGAGG ATTACATCGT GGTCCCCAGG GTTCCGCTGA GGGAGGATGA ACCCAAGGAC
    GAGGGCAGTG TGGGGAACAA AGCCCTGGTG TCTCCCGAGT CCTCTGCGGA AGAGGAAGAG
    GAGCGTGAAG AGGGAGGCGA GGCATGTGGC CTGGAGGGTA CAGGAGCTGG TGAGGATTCA
    GTGGCCCCTG CTGCTCCGGG TGCAGGAGCG CTGAGCAGGG AGGGTGAGGA AGGCACAGAC
    CTTGCTCTTG AGGATGAAGG GGAGGGCTGC GCTGATGAGC CAGGGACACT GGAGCAGGTG
    TCCAGAAGTG AGGAGGAAGA GAAGCTAGTG CAGCCACACA GGGAGTGCAG CCTGGAGGAC
    AGTGGGCCTT GGGCTGGAGA GGGGGTCTTC CAGAGCGACC TCCTCCTGCC TCACATCCAT
    GGAGAGGACC AGGAGCCCCC CGACACCCCC GGGGAGGCAG AGGAGGATGA TGAGGAAGGC
    TGTGCCAGCA CAGACCCAGC AGGGGCAGAT GAGGGTTCGG GTCCTGACAG GCCCACGGAG
    GACATGGGAC AGGATGCTGA GGACACCAGT GAGGAGCCCC CTGAGAAGGA GGAGCTGGCC
    GGGGTCCAGG AGGCAGAGAC AGCCACAGAC TGCCCTGAAG TTCTTGAGGA GGGATGTGAA
    GAGGCCACGG GTGTCACAGG TGGGGAACAG GTTGACCTCA GTGAACCACC TGACCACGAG
    AAGAAAACCA ACCAAGAAGT GGCAGCCGCC ACCCTGGAGG ACCATGCACA GGATGAGTCC
    GCCGAGGAGA GCTGCCAGAT TGTCCCTTTT GAGAATGACT GCATGGAGGA CTTCGTGACT
    TCCCTCACAG GAAGCCCCTA TGAGTTCTTC CCAACTGAGA GCACCTCTTT TTGCAGCGAG
    AGCTGTTCTC CTCTTTCTGA ATCAGCGAAA GGTTTAGAAT CAGAGCAGGC ACCAAAGCTG
    GGGCTGCGTG CGGAGGAGAA CCCCATGGTG GGGGCTTTGT GTGGCCAGTG TGGCTCCCTA
    CAGGGTGGAG CGGCCGAGGG TCCCGCAGCC CCTGATGTGG TGGTCGTGCT GGAGGAGGAG
    GCCTTGGATG ATGCACTGGC CAACCCCTAT GTGATGGGAG TGGGCCTGCC CGGTCAGGCG
    GCCCCTGGAG AAGGAGGGCA GGCTGCATCG GACGCCCTGG GTGGTTATGG CTCGAAAGAA
    GAATTGAACT GTGAGGCAGA GGGTGGCCTG GTTCCCGCGG ACAGGAAGAA CACCAGCACG
    AGGGTCCGGC CCCACTCTGG GAAGGTGGCC GGCTATGTCC CAGAAACCGT CCCTGAAGAA
    ACCGGACCTG AGGCGGGCTC GTCAGCCCCT GGCATTGGAG GTGCCGCAGA GGAGGTGGGA
    AAGACGCTTT TGTCATTGGA GGGGAAGCCC TTGGAAGCCA GCAGGGCCTT GCCAGCAAAG
    CCCAGGGCCT TTACTTTATA CCCTCGGTCG TTCTCCGTGG AAGGCCGAGA GATTCCAGTG
    TCCGTGTACC AGGAGCCTGA GGGGTCAGGG TTGGATGACC ACAGGATAAA GAGGAAAGAG
    GACAATCTCT CTCTGTCGTG TGTAATTGGC TCCTCTGGGA GTTTCTCCCA GAGAAACCAC
    CTTCCGTCCA GCGGCACCTC CACGCCTTCT TCCATGGTCG ACATCCCACC TCCTTTCGAC
    CTGGCCTGCA TCACCAAGAA GCCCATCACA AAGAGCTCTC CCTCACTCCT GATCGAGAGC
    GACTCCCCGG ACAAGTACAA GAAGAAGAAG TCATCCTTTA AGCGCTTCCT GGCACTGACG
    TTTAAGAAGA AGACGGAGAA CAAATTGCAT GTGGATGTGA ACGTGTCTTC CTCTAGGTCC
    TCTTCAGAGT CCAGCTACCA CGGGCCTTCC AGGATTCTGG AAGTTGACCG GAGAAGCCTC
    AGCAACTCCC CTCAGCTTAA GTCTCGGACT GGGAAGCTCC GGGCTTCTGA ATCCCCCTCC
    TCCCTCATCT TTTATAGAGA TGGCAAGAGG AAAGGTGTCC CCTTCAGCAG GACGGTGTCC
    AGAGTGGAGT CCTTTGAAGA CCGCTCCCGG CCGCCCTTCC TGCCCTTGCC ACTGACCAAG
    CCACGGTCCA TCTCCTTCCC CAGCGCTGAC ACTTCAGACT ATGAGAACAT TCCAGCCATG
    AACTCGGACT ATGAGAATAT CCAGATTCCA CCCCGGAGAC CTGCCAGGGC TGGCGCGTTC
    ACGAAGCTGT TTGAAGATCA GAGCAGAGCC CTGTCCACAG CAAACGAAAA TGATGGCTAC
    GTGGACATGA GCAGCTTCAA CGCCTTTGAG AGCAAACAGC AGAGTGCAGA CCAGGACGCA
    GAAAGCGCCT ACACAGAGCC CTACAAAGTC TGTCCCATCT CGTCGGCAGC CCCCAAAGAG
    GACCTTACGT CGGATGAAGA GCAGAGAAGC TCGGAGGAGG AGGACAGTGC TTCAAGAGAC
    CCCAGTGTCA CCCACAAGGT GGAAGGACAG TCCAGAGCCC TTGTCATCGC ACAGGAACTG
    CTATCTTCAG AGAAAGCATA CGTGGAGATG CTCCAGCACT TAAATCTGGA TTTCCATGGA
    GCTGTCATGA GGGCCTTGGA TGACATGGAC CATGAAGGCA GAGACACATT GGCCCGGGAG
    GAGCTGAGGC AGGGCCTGAG TGAACTCCCA GCCATCCACG ACCTTCATCA AGGCATCCTG
    GAGGAGCTGG AGGAAAGGCT GTCAAATTGG GAGAGCCAGC AGAAGGTAGC TGACGTCTTC
    CTGGCCCGGG AGCAGGGGTT TGATCACCAC GCCACTCACA TCCTGCAGTT CGACAGGTAC
    CTAGGTCTGC TCAGTGAGAA TTGCCTCCAC TCTCCCCGGC TGGCAGCTGC TGTCCGTGAA
    TTTGAGCAGA GTGTACAAGG AGGCAGCCAG ACTGCGAAGC ATCGGCTGCT GCGGGTGGTT
    CAACGCCTCT TCCAGTACCA AGTGCTCCTC ACAGACTATT TAAACAACCT TTGTCCGGAC
    TCCGCCGAGT ACGACAACAC ACAGGGTGCA CTGAGCCTCA TCTCCAAAGT CACAGACCGT
    GCCAACGACA GCATGGAGCA AGGGGAAAAC CTGCAGAAGC TGGTCCACAT TGAGCACAGC
    GTCCGGGGCC AAGGGGATCT CCTCCAGCCA GGAAGGGAGT TTCTGAAGGA AGGGACGCTG
    ATGAAAGTAA CAGGGAAAAA CAGACGGCCC CGGCACCTAT TTCTGATGAA CGATGTGCTC
    CTGTACACCT ATCCCCAGAA GGATGGGAAG TACCGGCTGA AGAACACATT GGCTGTGGCC
    AACATGAAGG TCAGCCGCCC TGTGATGGAG AAAGTGCCCT ACGCTCTAAA GATTGAGACT
    TCCGAGTCCT GCCTGATGCT GTCTGCGAGC TCCTGTGCAG AGAGGGACGA GTGGTATGGC
    TGTCTGAGCA GAGCCCTCCC TGAGGACTAC AAGGCCCAGG CGCTGGCTGC ATTCCACCAT
    AGCGTGGAGA TACGAGAGAG GCTGGGGGTT AGCCTTGGGG AGAGGCCCCC CACCCTGGTG
    CCTGTCACAC ACGTCATGAT GTGCATGAAC TGCGGCTGCG ACTTCTCCCT CACCCTGCGG
    CGTCATCACT GTCACGCCTG TGGCAAGATC GTGTGCCGGA ACTGTTCGCG GAACAAGTAC
    CCGCTGAAGT ACCTGAAGGA CAGGATGGCC AAGGTCTGCG ACGGCTGCTT CGGGGAGCTG
    AAGAAGCGGG GCAGGGCTGT CCCGGGCCTG ATGAGAGAGC GGCCTGTGAG CATGAGCTTC
    CCGCTGTCTT CACCCCGCTT CTCGGGCAGT GCCTTTTCAT CCGTCTTCCA GAGCATTAAC
    CCCTCGACCT TCAAGAAGCA GAAGAAAGTC CCTTCAGCCC TGACAGAGGT GGCTGCCTCT
    GGAGAGGGCT CTGCCATCAG TGGCTATCTC AGCCGGTGTA AGAGGGGCAA GCGGCACTGG
    AAGAAGCTCT GGTTTGTCAT CAAAGGCAAA GTTCTCTACA CCTACATGGC CAGTGAGGAC
    AAAGTGGCCT TGGAGAGTAT GCCTCTGCTA GGCTTCACCA TTGCTCCAGA AAAGGAAGAG
    GGCAGCAGTG AAGTAGGACC TATTTTTCAC CTTTACCACA AGAAAACCCT ATTTTATAGC
    TTCAAAGCAG AAGATACCAA TTCAGCTCAG AGGTGGATCG AGGCCATGGA AGATGCGAGT
    GTGTTATAG

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

    RefSeq NP_689749.3
    CDS111..4499
    Translation

    Target ORF information:

    RefSeq Version NM_152536.3
    Organism Homo sapiens(human)
    Definition Homo sapiens FYVE, RhoGEF and PH domain containing 5 (FGD5), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_152536.3

    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
    ATGTTCAGGG GTCCGAAGCC CCCCATTGCC CCCAAGCCCA GGCTGACTGC CCCAAACGAG 
    TGGAGAGCCA GTGTGTACCT GAATGACAGC TTGAACAAAT GCAGCAACGG GCGGCTGCCC
    TGTGTAGACA GGGGGCTTGA TGAGGGGCCC CGGTCCATCC CAAAGTGCTC TGAGTCGGAG
    ACCGACGAGG ATTACATCGT GGTCCCCAGG GTTCCGCTGA GGGAGGATGA ACCCAAGGAC
    GAGGGCAGTG TGGGGAACAA AGCCCTGGTG TCTCCCGAGT CCTCTGCGGA AGAGGAAGAG
    GAGCGTGAAG AGGGAGGCGA GGCATGTGGC CTGGAGGGTA CAGGAGCTGG TGAGGATTCA
    GTGGCCCCTG CTGCTCCGGG TGCAGGAGCG CTGAGCAGGG AGGGTGAGGA AGGCACAGAC
    CTTGCTCTTG AGGATGAAGG GGAGGGCTGC GCTGATGAGC CAGGGACACT GGAGCAGGTG
    TCCAGAAGTG AGGAGGAAGA GAAGCTAGTG CAGCCACACA GGGAGTGCAG CCTGGAGGAC
    AGTGGGCCTT GGGCTGGAGA GGGGGTCTTC CAGAGCGACC TCCTCCTGCC TCACATCCAT
    GGAGAGGACC AGGAGCCCCC CGACACCCCC GGGGAGGCAG AGGAGGATGA TGAGGAAGGC
    TGTGCCAGCA CAGACCCAGC AGGGGCAGAT GAGGGTTCGG GTCCTGACAG GCCCACGGAG
    GACATGGGAC AGGATGCTGA GGACACCAGT GAGGAGCCCC CTGAGAAGGA GGAGCTGGCC
    GGGGTCCAGG AGGCAGAGAC AGCCACAGAC TGCCCTGAAG TTCTTGAGGA GGGATGTGAA
    GAGGCCACGG GTGTCACAGG TGGGGAACAG GTTGACCTCA GTGAACCACC TGACCACGAG
    AAGAAAACCA ACCAAGAAGT GGCAGCCGCC ACCCTGGAGG ACCATGCACA GGATGAGTCC
    GCCGAGGAGA GCTGCCAGAT TGTCCCTTTT GAGAATGACT GCATGGAGGA CTTCGTGACT
    TCCCTCACAG GAAGCCCCTA TGAGTTCTTC CCAACTGAGA GCACCTCTTT TTGCAGCGAG
    AGCTGTTCTC CTCTTTCTGA ATCAGCGAAA GGTTTAGAAT CAGAGCAGGC ACCAAAGCTG
    GGGCTGCGTG CGGAGGAGAA CCCCATGGTG GGGGCTTTGT GTGGCCAGTG TGGCTCCCTA
    CAGGGTGGAG CGGCCGAGGG TCCCGCAGCC CCTGATGTGG TGGTCGTGCT GGAGGAGGAG
    GCCTTGGATG ATGCACTGGC CAACCCCTAT GTGATGGGAG TGGGCCTGCC CGGTCAGGCG
    GCCCCTGGAG AAGGAGGGCA GGCTGCATCG GACGCCCTGG GTGGTTATGG CTCGAAAGAA
    GAATTGAACT GTGAGGCAGA GGGTGGCCTG GTTCCCGCGG ACAGGAAGAA CACCAGCACG
    AGGGTCCGGC CCCACTCTGG GAAGGTGGCC GGCTATGTCC CAGAAACCGT CCCTGAAGAA
    ACCGGACCTG AGGCGGGCTC GTCAGCCCCT GGCATTGGAG GTGCCGCAGA GGAGGTGGGA
    AAGACGCTTT TGTCATTGGA GGGGAAGCCC TTGGAAGCCA GCAGGGCCTT GCCAGCAAAG
    CCCAGGGCCT TTACTTTATA CCCTCGGTCG TTCTCCGTGG AAGGCCGAGA GATTCCAGTG
    TCCGTGTACC AGGAGCCTGA GGGGTCAGGG TTGGATGACC ACAGGATAAA GAGGAAAGAG
    GACAATCTCT CTCTGTCGTG TGTAATTGGC TCCTCTGGGA GTTTCTCCCA GAGAAACCAC
    CTTCCGTCCA GCGGCACCTC CACGCCTTCT TCCATGGTCG ACATCCCACC TCCTTTCGAC
    CTGGCCTGCA TCACCAAGAA GCCCATCACA AAGAGCTCTC CCTCACTCCT GATCGAGAGC
    GACTCCCCGG ACAAGTACAA GAAGAAGAAG TCATCCTTTA AGCGCTTCCT GGCACTGACG
    TTTAAGAAGA AGACGGAGAA CAAATTGCAT GTGGATGTGA ACGTGTCTTC CTCTAGGTCC
    TCTTCAGAGT CCAGCTACCA CGGGCCTTCC AGGATTCTGG AAGTTGACCG GAGAAGCCTC
    AGCAACTCCC CTCAGCTTAA GTCTCGGACT GGGAAGCTCC GGGCTTCTGA ATCCCCCTCC
    TCCCTCATCT TTTATAGAGA TGGCAAGAGG AAAGGTGTCC CCTTCAGCAG GACGGTGTCC
    AGAGTGGAGT CCTTTGAAGA CCGCTCCCGG CCGCCCTTCC TGCCCTTGCC ACTGACCAAG
    CCACGGTCCA TCTCCTTCCC CAGCGCTGAC ACTTCAGACT ATGAGAACAT TCCAGCCATG
    AACTCGGACT ATGAGAATAT CCAGATTCCA CCCCGGAGAC CTGCCAGGGC TGGCGCGTTC
    ACGAAGCTGT TTGAAGATCA GAGCAGAGCC CTGTCCACAG CAAACGAAAA TGATGGCTAC
    GTGGACATGA GCAGCTTCAA CGCCTTTGAG AGCAAACAGC AGAGTGCAGA CCAGGACGCA
    GAAAGCGCCT ACACAGAGCC CTACAAAGTC TGTCCCATCT CGTCGGCAGC CCCCAAAGAG
    GACCTTACGT CGGATGAAGA GCAGAGAAGC TCGGAGGAGG AGGACAGTGC TTCAAGAGAC
    CCCAGTGTCA CCCACAAGGT GGAAGGACAG TCCAGAGCCC TTGTCATCGC ACAGGAACTG
    CTATCTTCAG AGAAAGCATA CGTGGAGATG CTCCAGCACT TAAATCTGGA TTTCCATGGA
    GCTGTCATGA GGGCCTTGGA TGACATGGAC CATGAAGGCA GAGACACATT GGCCCGGGAG
    GAGCTGAGGC AGGGCCTGAG TGAACTCCCA GCCATCCACG ACCTTCATCA AGGCATCCTG
    GAGGAGCTGG AGGAAAGGCT GTCAAATTGG GAGAGCCAGC AGAAGGTAGC TGACGTCTTC
    CTGGCCCGGG AGCAGGGGTT TGATCACCAC GCCACTCACA TCCTGCAGTT CGACAGGTAC
    CTAGGTCTGC TCAGTGAGAA TTGCCTCCAC TCTCCCCGGC TGGCAGCTGC TGTCCGTGAA
    TTTGAGCAGA GTGTACAAGG AGGCAGCCAG ACTGCGAAGC ATCGGCTGCT GCGGGTGGTT
    CAACGCCTCT TCCAGTACCA AGTGCTCCTC ACAGACTATT TAAACAACCT TTGTCCGGAC
    TCCGCCGAGT ACGACAACAC ACAGGGTGCA CTGAGCCTCA TCTCCAAAGT CACAGACCGT
    GCCAACGACA GCATGGAGCA AGGGGAAAAC CTGCAGAAGC TGGTCCACAT TGAGCACAGC
    GTCCGGGGCC AAGGGGATCT CCTCCAGCCA GGAAGGGAGT TTCTGAAGGA AGGGACGCTG
    ATGAAAGTAA CAGGGAAAAA CAGACGGCCC CGGCACCTAT TTCTGATGAA CGATGTGCTC
    CTGTACACCT ATCCCCAGAA GGATGGGAAG TACCGGCTGA AGAACACATT GGCTGTGGCC
    AACATGAAGG TCAGCCGCCC TGTGATGGAG AAAGTGCCCT ACGCTCTAAA GATTGAGACT
    TCCGAGTCCT GCCTGATGCT GTCTGCGAGC TCCTGTGCAG AGAGGGACGA GTGGTATGGC
    TGTCTGAGCA GAGCCCTCCC TGAGGACTAC AAGGCCCAGG CGCTGGCTGC ATTCCACCAT
    AGCGTGGAGA TACGAGAGAG GCTGGGGGTT AGCCTTGGGG AGAGGCCCCC CACCCTGGTG
    CCTGTCACAC ACGTCATGAT GTGCATGAAC TGCGGCTGCG ACTTCTCCCT CACCCTGCGG
    CGTCATCACT GTCACGCCTG TGGCAAGATC GTGTGCCGGA ACTGTTCGCG GAACAAGTAC
    CCGCTGAAGT ACCTGAAGGA CAGGATGGCC AAGGTCTGCG ACGGCTGCTT CGGGGAGCTG
    AAGAAGCGGG GCAGGGCTGT CCCGGGCCTG ATGAGAGAGC GGCCTGTGAG CATGAGCTTC
    CCGCTGTCTT CACCCCGCTT CTCGGGCAGT GCCTTTTCAT CCGTCTTCCA GAGCATTAAC
    CCCTCGACCT TCAAGAAGCA GAAGAAAGTC CCTTCAGCCC TGACAGAGGT GGCTGCCTCT
    GGAGAGGGCT CTGCCATCAG TGGCTATCTC AGCCGGTGTA AGAGGGGCAA GCGGCACTGG
    AAGAAGCTCT GGTTTGTCAT CAAAGGCAAA GTTCTCTACA CCTACATGGC CAGTGAGGAC
    AAAGTGGCCT TGGAGAGTAT GCCTCTGCTA GGCTTCACCA TTGCTCCAGA AAAGGAAGAG
    GGCAGCAGTG AAGTAGGACC TATTTTTCAC CTTTACCACA AGAAAACCCT ATTTTATAGC
    TTCAAAGCAG AAGATACCAA TTCAGCTCAG AGGTGGATCG AGGCCATGGA AGATGCGAGT
    GTGTTATAG

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

    CloneID OHu06830
    Clone ID Related Accession (Same CDS sequence) NM_152536.3 , NM_152536.4
    Accession Version NM_152536.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4389bp)
    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 2019-11-18
    Organism Homo sapiens(human)
    Product FYVE, RhoGEF and PH domain-containing protein 5 isoform 1
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC087591.2 and AC090937.2. On May 17, 2019 this sequence version replaced NM_152536.3. Transcript Variant: This variant (1) represents the longer transcript and encodes the longer isoform (1). Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## Transcript exon combination :: BC132816.1, AK131078.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000285046.10/ ENSP00000285046.5 RefSeq Select criteria :: based on conservation, expression ##RefSeq-Attributes-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
    ATGTTCAGGG GTCCGAAGCC CCCCATTGCC CCCAAGCCCA GGCTGACTGC CCCAAACGAG 
    TGGAGAGCCA GTGTGTACCT GAATGACAGC TTGAACAAAT GCAGCAACGG GCGGCTGCCC
    TGTGTAGACA GGGGGCTTGA TGAGGGGCCC CGGTCCATCC CAAAGTGCTC TGAGTCGGAG
    ACCGACGAGG ATTACATCGT GGTCCCCAGG GTTCCGCTGA GGGAGGATGA ACCCAAGGAC
    GAGGGCAGTG TGGGGAACAA AGCCCTGGTG TCTCCCGAGT CCTCTGCGGA AGAGGAAGAG
    GAGCGTGAAG AGGGAGGCGA GGCATGTGGC CTGGAGGGTA CAGGAGCTGG TGAGGATTCA
    GTGGCCCCTG CTGCTCCGGG TGCAGGAGCG CTGAGCAGGG AGGGTGAGGA AGGCACAGAC
    CTTGCTCTTG AGGATGAAGG GGAGGGCTGC GCTGATGAGC CAGGGACACT GGAGCAGGTG
    TCCAGAAGTG AGGAGGAAGA GAAGCTAGTG CAGCCACACA GGGAGTGCAG CCTGGAGGAC
    AGTGGGCCTT GGGCTGGAGA GGGGGTCTTC CAGAGCGACC TCCTCCTGCC TCACATCCAT
    GGAGAGGACC AGGAGCCCCC CGACACCCCC GGGGAGGCAG AGGAGGATGA TGAGGAAGGC
    TGTGCCAGCA CAGACCCAGC AGGGGCAGAT GAGGGTTCGG GTCCTGACAG GCCCACGGAG
    GACATGGGAC AGGATGCTGA GGACACCAGT GAGGAGCCCC CTGAGAAGGA GGAGCTGGCC
    GGGGTCCAGG AGGCAGAGAC AGCCACAGAC TGCCCTGAAG TTCTTGAGGA GGGATGTGAA
    GAGGCCACGG GTGTCACAGG TGGGGAACAG GTTGACCTCA GTGAACCACC TGACCACGAG
    AAGAAAACCA ACCAAGAAGT GGCAGCCGCC ACCCTGGAGG ACCATGCACA GGATGAGTCC
    GCCGAGGAGA GCTGCCAGAT TGTCCCTTTT GAGAATGACT GCATGGAGGA CTTCGTGACT
    TCCCTCACAG GAAGCCCCTA TGAGTTCTTC CCAACTGAGA GCACCTCTTT TTGCAGCGAG
    AGCTGTTCTC CTCTTTCTGA ATCAGCGAAA GGTTTAGAAT CAGAGCAGGC ACCAAAGCTG
    GGGCTGCGTG CGGAGGAGAA CCCCATGGTG GGGGCTTTGT GTGGCCAGTG TGGCTCCCTA
    CAGGGTGGAG CGGCCGAGGG TCCCGCAGCC CCTGATGTGG TGGTCGTGCT GGAGGAGGAG
    GCCTTGGATG ATGCACTGGC CAACCCCTAT GTGATGGGAG TGGGCCTGCC CGGTCAGGCG
    GCCCCTGGAG AAGGAGGGCA GGCTGCATCG GACGCCCTGG GTGGTTATGG CTCGAAAGAA
    GAATTGAACT GTGAGGCAGA GGGTGGCCTG GTTCCCGCGG ACAGGAAGAA CACCAGCACG
    AGGGTCCGGC CCCACTCTGG GAAGGTGGCC GGCTATGTCC CAGAAACCGT CCCTGAAGAA
    ACCGGACCTG AGGCGGGCTC GTCAGCCCCT GGCATTGGAG GTGCCGCAGA GGAGGTGGGA
    AAGACGCTTT TGTCATTGGA GGGGAAGCCC TTGGAAGCCA GCAGGGCCTT GCCAGCAAAG
    CCCAGGGCCT TTACTTTATA CCCTCGGTCG TTCTCCGTGG AAGGCCGAGA GATTCCAGTG
    TCCGTGTACC AGGAGCCTGA GGGGTCAGGG TTGGATGACC ACAGGATAAA GAGGAAAGAG
    GACAATCTCT CTCTGTCGTG TGTAATTGGC TCCTCTGGGA GTTTCTCCCA GAGAAACCAC
    CTTCCGTCCA GCGGCACCTC CACGCCTTCT TCCATGGTCG ACATCCCACC TCCTTTCGAC
    CTGGCCTGCA TCACCAAGAA GCCCATCACA AAGAGCTCTC CCTCACTCCT GATCGAGAGC
    GACTCCCCGG ACAAGTACAA GAAGAAGAAG TCATCCTTTA AGCGCTTCCT GGCACTGACG
    TTTAAGAAGA AGACGGAGAA CAAATTGCAT GTGGATGTGA ACGTGTCTTC CTCTAGGTCC
    TCTTCAGAGT CCAGCTACCA CGGGCCTTCC AGGATTCTGG AAGTTGACCG GAGAAGCCTC
    AGCAACTCCC CTCAGCTTAA GTCTCGGACT GGGAAGCTCC GGGCTTCTGA ATCCCCCTCC
    TCCCTCATCT TTTATAGAGA TGGCAAGAGG AAAGGTGTCC CCTTCAGCAG GACGGTGTCC
    AGAGTGGAGT CCTTTGAAGA CCGCTCCCGG CCGCCCTTCC TGCCCTTGCC ACTGACCAAG
    CCACGGTCCA TCTCCTTCCC CAGCGCTGAC ACTTCAGACT ATGAGAACAT TCCAGCCATG
    AACTCGGACT ATGAGAATAT CCAGATTCCA CCCCGGAGAC CTGCCAGGGC TGGCGCGTTC
    ACGAAGCTGT TTGAAGATCA GAGCAGAGCC CTGTCCACAG CAAACGAAAA TGATGGCTAC
    GTGGACATGA GCAGCTTCAA CGCCTTTGAG AGCAAACAGC AGAGTGCAGA CCAGGACGCA
    GAAAGCGCCT ACACAGAGCC CTACAAAGTC TGTCCCATCT CGTCGGCAGC CCCCAAAGAG
    GACCTTACGT CGGATGAAGA GCAGAGAAGC TCGGAGGAGG AGGACAGTGC TTCAAGAGAC
    CCCAGTGTCA CCCACAAGGT GGAAGGACAG TCCAGAGCCC TTGTCATCGC ACAGGAACTG
    CTATCTTCAG AGAAAGCATA CGTGGAGATG CTCCAGCACT TAAATCTGGA TTTCCATGGA
    GCTGTCATGA GGGCCTTGGA TGACATGGAC CATGAAGGCA GAGACACATT GGCCCGGGAG
    GAGCTGAGGC AGGGCCTGAG TGAACTCCCA GCCATCCACG ACCTTCATCA AGGCATCCTG
    GAGGAGCTGG AGGAAAGGCT GTCAAATTGG GAGAGCCAGC AGAAGGTAGC TGACGTCTTC
    CTGGCCCGGG AGCAGGGGTT TGATCACCAC GCCACTCACA TCCTGCAGTT CGACAGGTAC
    CTAGGTCTGC TCAGTGAGAA TTGCCTCCAC TCTCCCCGGC TGGCAGCTGC TGTCCGTGAA
    TTTGAGCAGA GTGTACAAGG AGGCAGCCAG ACTGCGAAGC ATCGGCTGCT GCGGGTGGTT
    CAACGCCTCT TCCAGTACCA AGTGCTCCTC ACAGACTATT TAAACAACCT TTGTCCGGAC
    TCCGCCGAGT ACGACAACAC ACAGGGTGCA CTGAGCCTCA TCTCCAAAGT CACAGACCGT
    GCCAACGACA GCATGGAGCA AGGGGAAAAC CTGCAGAAGC TGGTCCACAT TGAGCACAGC
    GTCCGGGGCC AAGGGGATCT CCTCCAGCCA GGAAGGGAGT TTCTGAAGGA AGGGACGCTG
    ATGAAAGTAA CAGGGAAAAA CAGACGGCCC CGGCACCTAT TTCTGATGAA CGATGTGCTC
    CTGTACACCT ATCCCCAGAA GGATGGGAAG TACCGGCTGA AGAACACATT GGCTGTGGCC
    AACATGAAGG TCAGCCGCCC TGTGATGGAG AAAGTGCCCT ACGCTCTAAA GATTGAGACT
    TCCGAGTCCT GCCTGATGCT GTCTGCGAGC TCCTGTGCAG AGAGGGACGA GTGGTATGGC
    TGTCTGAGCA GAGCCCTCCC TGAGGACTAC AAGGCCCAGG CGCTGGCTGC ATTCCACCAT
    AGCGTGGAGA TACGAGAGAG GCTGGGGGTT AGCCTTGGGG AGAGGCCCCC CACCCTGGTG
    CCTGTCACAC ACGTCATGAT GTGCATGAAC TGCGGCTGCG ACTTCTCCCT CACCCTGCGG
    CGTCATCACT GTCACGCCTG TGGCAAGATC GTGTGCCGGA ACTGTTCGCG GAACAAGTAC
    CCGCTGAAGT ACCTGAAGGA CAGGATGGCC AAGGTCTGCG ACGGCTGCTT CGGGGAGCTG
    AAGAAGCGGG GCAGGGCTGT CCCGGGCCTG ATGAGAGAGC GGCCTGTGAG CATGAGCTTC
    CCGCTGTCTT CACCCCGCTT CTCGGGCAGT GCCTTTTCAT CCGTCTTCCA GAGCATTAAC
    CCCTCGACCT TCAAGAAGCA GAAGAAAGTC CCTTCAGCCC TGACAGAGGT GGCTGCCTCT
    GGAGAGGGCT CTGCCATCAG TGGCTATCTC AGCCGGTGTA AGAGGGGCAA GCGGCACTGG
    AAGAAGCTCT GGTTTGTCAT CAAAGGCAAA GTTCTCTACA CCTACATGGC CAGTGAGGAC
    AAAGTGGCCT TGGAGAGTAT GCCTCTGCTA GGCTTCACCA TTGCTCCAGA AAAGGAAGAG
    GGCAGCAGTG AAGTAGGACC TATTTTTCAC CTTTACCACA AGAAAACCCT ATTTTATAGC
    TTCAAAGCAG AAGATACCAA TTCAGCTCAG AGGTGGATCG AGGCCATGGA AGATGCGAGT
    GTGTTATAG

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

    RefSeq NP_689749.3
    CDS111..4499
    Translation

    Target ORF information:

    RefSeq Version NM_152536.4
    Organism Homo sapiens(human)
    Definition Homo sapiens FYVE, RhoGEF and PH domain containing 5 (FGD5), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_152536.4

    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
    ATGTTCAGGG GTCCGAAGCC CCCCATTGCC CCCAAGCCCA GGCTGACTGC CCCAAACGAG 
    TGGAGAGCCA GTGTGTACCT GAATGACAGC TTGAACAAAT GCAGCAACGG GCGGCTGCCC
    TGTGTAGACA GGGGGCTTGA TGAGGGGCCC CGGTCCATCC CAAAGTGCTC TGAGTCGGAG
    ACCGACGAGG ATTACATCGT GGTCCCCAGG GTTCCGCTGA GGGAGGATGA ACCCAAGGAC
    GAGGGCAGTG TGGGGAACAA AGCCCTGGTG TCTCCCGAGT CCTCTGCGGA AGAGGAAGAG
    GAGCGTGAAG AGGGAGGCGA GGCATGTGGC CTGGAGGGTA CAGGAGCTGG TGAGGATTCA
    GTGGCCCCTG CTGCTCCGGG TGCAGGAGCG CTGAGCAGGG AGGGTGAGGA AGGCACAGAC
    CTTGCTCTTG AGGATGAAGG GGAGGGCTGC GCTGATGAGC CAGGGACACT GGAGCAGGTG
    TCCAGAAGTG AGGAGGAAGA GAAGCTAGTG CAGCCACACA GGGAGTGCAG CCTGGAGGAC
    AGTGGGCCTT GGGCTGGAGA GGGGGTCTTC CAGAGCGACC TCCTCCTGCC TCACATCCAT
    GGAGAGGACC AGGAGCCCCC CGACACCCCC GGGGAGGCAG AGGAGGATGA TGAGGAAGGC
    TGTGCCAGCA CAGACCCAGC AGGGGCAGAT GAGGGTTCGG GTCCTGACAG GCCCACGGAG
    GACATGGGAC AGGATGCTGA GGACACCAGT GAGGAGCCCC CTGAGAAGGA GGAGCTGGCC
    GGGGTCCAGG AGGCAGAGAC AGCCACAGAC TGCCCTGAAG TTCTTGAGGA GGGATGTGAA
    GAGGCCACGG GTGTCACAGG TGGGGAACAG GTTGACCTCA GTGAACCACC TGACCACGAG
    AAGAAAACCA ACCAAGAAGT GGCAGCCGCC ACCCTGGAGG ACCATGCACA GGATGAGTCC
    GCCGAGGAGA GCTGCCAGAT TGTCCCTTTT GAGAATGACT GCATGGAGGA CTTCGTGACT
    TCCCTCACAG GAAGCCCCTA TGAGTTCTTC CCAACTGAGA GCACCTCTTT TTGCAGCGAG
    AGCTGTTCTC CTCTTTCTGA ATCAGCGAAA GGTTTAGAAT CAGAGCAGGC ACCAAAGCTG
    GGGCTGCGTG CGGAGGAGAA CCCCATGGTG GGGGCTTTGT GTGGCCAGTG TGGCTCCCTA
    CAGGGTGGAG CGGCCGAGGG TCCCGCAGCC CCTGATGTGG TGGTCGTGCT GGAGGAGGAG
    GCCTTGGATG ATGCACTGGC CAACCCCTAT GTGATGGGAG TGGGCCTGCC CGGTCAGGCG
    GCCCCTGGAG AAGGAGGGCA GGCTGCATCG GACGCCCTGG GTGGTTATGG CTCGAAAGAA
    GAATTGAACT GTGAGGCAGA GGGTGGCCTG GTTCCCGCGG ACAGGAAGAA CACCAGCACG
    AGGGTCCGGC CCCACTCTGG GAAGGTGGCC GGCTATGTCC CAGAAACCGT CCCTGAAGAA
    ACCGGACCTG AGGCGGGCTC GTCAGCCCCT GGCATTGGAG GTGCCGCAGA GGAGGTGGGA
    AAGACGCTTT TGTCATTGGA GGGGAAGCCC TTGGAAGCCA GCAGGGCCTT GCCAGCAAAG
    CCCAGGGCCT TTACTTTATA CCCTCGGTCG TTCTCCGTGG AAGGCCGAGA GATTCCAGTG
    TCCGTGTACC AGGAGCCTGA GGGGTCAGGG TTGGATGACC ACAGGATAAA GAGGAAAGAG
    GACAATCTCT CTCTGTCGTG TGTAATTGGC TCCTCTGGGA GTTTCTCCCA GAGAAACCAC
    CTTCCGTCCA GCGGCACCTC CACGCCTTCT TCCATGGTCG ACATCCCACC TCCTTTCGAC
    CTGGCCTGCA TCACCAAGAA GCCCATCACA AAGAGCTCTC CCTCACTCCT GATCGAGAGC
    GACTCCCCGG ACAAGTACAA GAAGAAGAAG TCATCCTTTA AGCGCTTCCT GGCACTGACG
    TTTAAGAAGA AGACGGAGAA CAAATTGCAT GTGGATGTGA ACGTGTCTTC CTCTAGGTCC
    TCTTCAGAGT CCAGCTACCA CGGGCCTTCC AGGATTCTGG AAGTTGACCG GAGAAGCCTC
    AGCAACTCCC CTCAGCTTAA GTCTCGGACT GGGAAGCTCC GGGCTTCTGA ATCCCCCTCC
    TCCCTCATCT TTTATAGAGA TGGCAAGAGG AAAGGTGTCC CCTTCAGCAG GACGGTGTCC
    AGAGTGGAGT CCTTTGAAGA CCGCTCCCGG CCGCCCTTCC TGCCCTTGCC ACTGACCAAG
    CCACGGTCCA TCTCCTTCCC CAGCGCTGAC ACTTCAGACT ATGAGAACAT TCCAGCCATG
    AACTCGGACT ATGAGAATAT CCAGATTCCA CCCCGGAGAC CTGCCAGGGC TGGCGCGTTC
    ACGAAGCTGT TTGAAGATCA GAGCAGAGCC CTGTCCACAG CAAACGAAAA TGATGGCTAC
    GTGGACATGA GCAGCTTCAA CGCCTTTGAG AGCAAACAGC AGAGTGCAGA CCAGGACGCA
    GAAAGCGCCT ACACAGAGCC CTACAAAGTC TGTCCCATCT CGTCGGCAGC CCCCAAAGAG
    GACCTTACGT CGGATGAAGA GCAGAGAAGC TCGGAGGAGG AGGACAGTGC TTCAAGAGAC
    CCCAGTGTCA CCCACAAGGT GGAAGGACAG TCCAGAGCCC TTGTCATCGC ACAGGAACTG
    CTATCTTCAG AGAAAGCATA CGTGGAGATG CTCCAGCACT TAAATCTGGA TTTCCATGGA
    GCTGTCATGA GGGCCTTGGA TGACATGGAC CATGAAGGCA GAGACACATT GGCCCGGGAG
    GAGCTGAGGC AGGGCCTGAG TGAACTCCCA GCCATCCACG ACCTTCATCA AGGCATCCTG
    GAGGAGCTGG AGGAAAGGCT GTCAAATTGG GAGAGCCAGC AGAAGGTAGC TGACGTCTTC
    CTGGCCCGGG AGCAGGGGTT TGATCACCAC GCCACTCACA TCCTGCAGTT CGACAGGTAC
    CTAGGTCTGC TCAGTGAGAA TTGCCTCCAC TCTCCCCGGC TGGCAGCTGC TGTCCGTGAA
    TTTGAGCAGA GTGTACAAGG AGGCAGCCAG ACTGCGAAGC ATCGGCTGCT GCGGGTGGTT
    CAACGCCTCT TCCAGTACCA AGTGCTCCTC ACAGACTATT TAAACAACCT TTGTCCGGAC
    TCCGCCGAGT ACGACAACAC ACAGGGTGCA CTGAGCCTCA TCTCCAAAGT CACAGACCGT
    GCCAACGACA GCATGGAGCA AGGGGAAAAC CTGCAGAAGC TGGTCCACAT TGAGCACAGC
    GTCCGGGGCC AAGGGGATCT CCTCCAGCCA GGAAGGGAGT TTCTGAAGGA AGGGACGCTG
    ATGAAAGTAA CAGGGAAAAA CAGACGGCCC CGGCACCTAT TTCTGATGAA CGATGTGCTC
    CTGTACACCT ATCCCCAGAA GGATGGGAAG TACCGGCTGA AGAACACATT GGCTGTGGCC
    AACATGAAGG TCAGCCGCCC TGTGATGGAG AAAGTGCCCT ACGCTCTAAA GATTGAGACT
    TCCGAGTCCT GCCTGATGCT GTCTGCGAGC TCCTGTGCAG AGAGGGACGA GTGGTATGGC
    TGTCTGAGCA GAGCCCTCCC TGAGGACTAC AAGGCCCAGG CGCTGGCTGC ATTCCACCAT
    AGCGTGGAGA TACGAGAGAG GCTGGGGGTT AGCCTTGGGG AGAGGCCCCC CACCCTGGTG
    CCTGTCACAC ACGTCATGAT GTGCATGAAC TGCGGCTGCG ACTTCTCCCT CACCCTGCGG
    CGTCATCACT GTCACGCCTG TGGCAAGATC GTGTGCCGGA ACTGTTCGCG GAACAAGTAC
    CCGCTGAAGT ACCTGAAGGA CAGGATGGCC AAGGTCTGCG ACGGCTGCTT CGGGGAGCTG
    AAGAAGCGGG GCAGGGCTGT CCCGGGCCTG ATGAGAGAGC GGCCTGTGAG CATGAGCTTC
    CCGCTGTCTT CACCCCGCTT CTCGGGCAGT GCCTTTTCAT CCGTCTTCCA GAGCATTAAC
    CCCTCGACCT TCAAGAAGCA GAAGAAAGTC CCTTCAGCCC TGACAGAGGT GGCTGCCTCT
    GGAGAGGGCT CTGCCATCAG TGGCTATCTC AGCCGGTGTA AGAGGGGCAA GCGGCACTGG
    AAGAAGCTCT GGTTTGTCAT CAAAGGCAAA GTTCTCTACA CCTACATGGC CAGTGAGGAC
    AAAGTGGCCT TGGAGAGTAT GCCTCTGCTA GGCTTCACCA TTGCTCCAGA AAAGGAAGAG
    GGCAGCAGTG AAGTAGGACC TATTTTTCAC CTTTACCACA AGAAAACCCT ATTTTATAGC
    TTCAAAGCAG AAGATACCAA TTCAGCTCAG AGGTGGATCG AGGCCATGGA AGATGCGAGT
    GTGTTATAG

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

    CloneID OHu76722
    Clone ID Related Accession (Same CDS sequence) NM_001320276.1
    Accession Version NM_001320276.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4260bp)
    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 FYVE, RhoGEF and PH domain-containing protein 5 isoform 2
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from DB293373.1, BC144300.1, AC090937.2 and AW589887.1. On Feb 18, 2016 this sequence version replaced XM_011533424.1. Transcript Variant: This variant (2) lacks an in-frame exon in the 3' coding region, compared to variant 1. The encoded isoform (2) is shorter than isoform 1. ##Evidence-Data-START## Transcript exon combination :: BC144300.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968189, SAMEA1968540 [ECO:0000348] ##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
    ATGTTCAGGG GTCCGAAGCC CCCCATTGCC CCCAAGCCCA GGCTGACTGC CCCAAACGAG 
    TGGAGAGCCA GTGTGTACCT GAATGACAGC TTGAACAAAT GCAGCAACGG GCGGCTGCCC
    TGTGTAGACA GGGGGCTTGA TGAGGGGCCC CGGTCCATCC CAAAGTGCTC TGAGTCGGAG
    ACCGACGAGG ATTACATCGT GGTCCCCAGG GTTCCGCTGA GGGAGGATGA ACCCAAGGAC
    GAGGGCAGTG TGGGGAACAA AGCCCTGGTG TCTCCCGAGT CCTCTGCGGA AGAGGAAGAG
    GAGCGTGAAG AGGGAGGCGA GGCATGTGGC CTGGAGGGTA CAGGAGCTGG TGAGGATTCA
    GTGGCCCCTG CTGCTCCGGG TGCAGGAGCG CTGAGCAGGG AGGGTGAGGA AGGCACAGAC
    CTTGCTCTTG AGGATGAAGG GGAGGGCTGC GCTGATGAGC CAGGGACACT GGAGCAGGTG
    TCCAGAAGTG AGGAGGAAGA GAAGCTAGTG CAGCCACACA GGGAGTGCAG CCTGGAGGAC
    AGTGGGCCTT GGGCTGGAGA GGGGGTCTTC CAGAGCGACC TCCTCCTGCC TCACATCCAT
    GGAGAGGACC AGGAGCCCCC CGACACCCCC GGGGAGGCAG AGGAGGATGA TGAGGAAGGC
    TGTGCCAGCA CAGACCCAGC AGGGGCAGAT GAGGGTTCGG GTCCTGACAG GCCCACGGAG
    GACATGGGAC AGGATGCTGA GGACACCAGT GAGGAGCCCC CTGAGAAGGA GGAGCTGGCC
    GGGGTCCAGG AGGCAGAGAC AGCCACAGAC TGCCCTGAAG TTCTTGAGGA GGGATGTGAA
    GAGGCCACGG GTGTCACAGG TGGGGAACAG GTTGACCTCA GTGAACCACC TGACCACGAG
    AAGAAAACCA ACCAAGAAGT GGCAGCCGCC ACCCTGGAGG ACCATGCACA GGATGAGTCC
    GCCGAGGAGA GCTGCCAGAT TGTCCCTTTT GAGAATGACT GCATGGAGGA CTTCGTGACT
    TCCCTCACAG GAAGCCCCTA TGAGTTCTTC CCAACTGAGA GCACCTCTTT TTGCAGCGAG
    AGCTGTTCTC CTCTTTCTGA ATCAGCGAAA GGTTTAGAAT CAGAGCAGGC ACCAAAGCTG
    GGGCTGCGTG CGGAGGAGAA CCCCATGGTG GGGGCTTTGT GTGGCCAGTG TGGCTCCCTA
    CAGGGTGGAG CGGCCGAGGG TCCCGCAGCC CCTGATGTGG TGGTCGTGCT GGAGGAGGAG
    GCCTTGGATG ATGCACTGGC CAACCCCTAT GTGATGGGAG TGGGCCTGCC CGGTCAGGCG
    GCCCCTGGAG AAGGAGGGCA GGCTGCATCG GACGCCCTGG GTGGTTATGG CTCGAAAGAA
    GAATTGAACT GTGAGGCAGA GGGTGGCCTG GTTCCCGCGG ACAGGAAGAA CACCAGCACG
    AGGGTCCGGC CCCACTCTGG GAAGGTGGCC GGCTATGTCC CAGAAACCGT CCCTGAAGAA
    ACCGGACCTG AGGCGGGCTC GTCAGCCCCT GGCATTGGAG GTGCCGCAGA GGAGGTGGGA
    AAGACGCTTT TGTCATTGGA GGGGAAGCCC TTGGAAGCCA GCAGGGCCTT GCCAGCAAAG
    CCCAGGGCCT TTACTTTATA CCCTCGGTCG TTCTCCGTGG AAGGCCGAGA GATTCCAGTG
    TCCGTGTACC AGGAGCCTGA GGGGTCAGGG TTGGATGACC ACAGGATAAA GAGGAAAGAG
    GACAATCTCT CTCTGTCGTG TGTAATTGGC TCCTCTGGGA GTTTCTCCCA GAGAAACCAC
    CTTCCGTCCA GCGGCACCTC CACGCCTTCT TCCATGGTCG ACATCCCACC TCCTTTCGAC
    CTGGCCTGCA TCACCAAGAA GCCCATCACA AAGAGCTCTC CCTCACTCCT GATCGAGAGC
    GACTCCCCGG ACAAGTACAA GAAGAAGAAG TCATCCTTTA AGCGCTTCCT GGCACTGACG
    TTTAAGAAGA AGACGGAGAA CAAATTGCAT GTGGATGTGA ACGTGTCTTC CTCTAGGTCC
    TCTTCAGAGT CCAGCTACCA CGGGCCTTCC AGGATTCTGG AAGTTGACCG GAGAAGCCTC
    AGCAACTCCC CTCAGCTTAA GTCTCGGACT GGGAAGCTCC GGGCTTCTGA ATCCCCCTCC
    TCCCTCATCT TTTATAGAGA TGGCAAGAGG AAAGGTGTCC CCTTCAGCAG GACGGTGTCC
    AGAGTGGAGT CCTTTGAAGA CCGCTCCCGG CCGCCCTTCC TGCCCTTGCC ACTGACCAAG
    CCACGGTCCA TCTCCTTCCC CAGCGCTGAC ACTTCAGACT ATGAGAACAT TCCAGCCATG
    AACTCGGACT ATGAGAATAT CCAGATTCCA CCCCGGAGAC CTGCCAGGGC TGGCGCGTTC
    ACGAAGCTGT TTGAAGATCA GAGCAGAGCC CTGTCCACAG CAAACGAAAA TGATGGCTAC
    GTGGACATGA GCAGCTTCAA CGCCTTTGAG AGCAAACAGC AGAGTGCAGA CCAGGACGCA
    GAAAGCGCCT ACACAGAGCC CTACAAAGTC TGTCCCATCT CGTCGGCAGC CCCCAAAGAG
    GACCTTACGT CGGATGAAGA GCAGAGAAGC TCGGAGGAGG AGGACAGTGC TTCAAGAGAC
    CCCAGTGTCA CCCACAAGGT GGAAGGACAG TCCAGAGCCC TTGTCATCGC ACAGGAACTG
    CTATCTTCAG AGAAAGCATA CGTGGAGATG CTCCAGCACT TAAATCTGGA TTTCCATGGA
    GCTGTCATGA GGGCCTTGGA TGACATGGAC CATGAAGGCA GAGACACATT GGCCCGGGAG
    GAGCTGAGGC AGGGCCTGAG TGAACTCCCA GCCATCCACG ACCTTCATCA AGGCATCCTG
    GAGGAGCTGG AGGAAAGGCT GTCAAATTGG GAGAGCCAGC AGAAGGTAGC TGACGTCTTC
    CTGGCCCGGG AGCAGGGGTT TGATCACCAC GCCACTCACA TCCTGCAGTT CGACAGGTAC
    CTAGGTCTGC TCAGTGAGAA TTGCCTCCAC TCTCCCCGGC TGGCAGCTGC TGTCCGTGAA
    TTTGAGCAGA GTGTACAAGG AGGCAGCCAG ACTGCGAAGC ATCGGCTGCT GCGGGTGGTT
    CAACGCCTCT TCCAGTACCA AGTGCTCCTC ACAGACTATT TAAACAACCT TTGTCCGGAC
    TCCGCCGAGT ACGACAACAC ACAGGGTGCA CTGAGCCTCA TCTCCAAAGT CACAGACCGT
    GCCAACGACA GCATGGAGCA AGGGGAAAAC CTGCAGAAGC TGGTCCACAT TGAGCACAGC
    GTCCGGGGCC AAGGGGATCT CCTCCAGCCA GGAAGGGAGT TTCTGAAGGA AGGGACGCTG
    ATGAAAGTAA CAGGGAAAAA CAGACGGCCC CGGCACCTAT TTCTGATGAA CGATGTGCTC
    CTGTACACCT ATCCCCAGAA GGATGGGAAG TACCGGCTGA AGAACACATT GGCTGTGGCC
    AACATGAAGG TCAGCCGCCC TGTGATGGAG AAAGTGCCCT ACGCTCTAAA GATTGAGACT
    TCCGAGTCCT GCCTGATGCT GTCTGCGAGC TCCTGTGCAG AGAGGGACGA GTGGTATGGC
    TGTCTGAGCA GAGCCCTCCC TGAGGACTAC AAGGCCCAGG CGCTGGCTGC ATTCCACCAT
    AGCGTGGAGA TACGAGAGAG GCTGGGGGTT AGCCTTGGGG AGAGGCCCCC CACCCTGGTG
    CCTGTCACAC ACGTCATGAT GTGCATGAAC TGCGGCTGCG ACTTCTCCCT CACCCTGCGG
    CGTCATCACT GTCACGCCTG TGGCAAGATC GTGTGCCGGA ACTGTTCGCG GAACAAGTAC
    CCGCTGAAGT ACCTGAAGGA CAGGATGGCC AAGGTCTGCG ACGGCTGCTT CGGGGAGCTG
    AAGAAGCGGG GCAGGGCTGT CCCGGGCCTG ATGAGAGAGC GGCCTGTGAG CATGAGCTTC
    CCGCTGTCTT CACCCCGCTT CTCGGGCAGT GCCTTTTCAT CCGTCTTCCA GAGCATTAAC
    CCCTCGACCT TCAAGAAGCA GAAGAAAGTC CCTTCAGCCC TGACAGAGGA CAAAGTGGCC
    TTGGAGAGTA TGCCTCTGCT AGGCTTCACC ATTGCTCCAG AAAAGGAAGA GGGCAGCAGT
    GAAGTAGGAC CTATTTTTCA CCTTTACCAC AAGAAAACCC TATTTTATAG CTTCAAAGCA
    GAAGATACCA ATTCAGCTCA GAGGTGGATC GAGGCCATGG AAGATGCGAG TGTGTTATAG

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

    RefSeq NP_001307205.1
    CDS111..4370
    Translation

    Target ORF information:

    RefSeq Version NM_001320276.1
    Organism Homo sapiens(human)
    Definition Homo sapiens FYVE, RhoGEF and PH domain containing 5 (FGD5), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001320276.1

    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
    ATGTTCAGGG GTCCGAAGCC CCCCATTGCC CCCAAGCCCA GGCTGACTGC CCCAAACGAG 
    TGGAGAGCCA GTGTGTACCT GAATGACAGC TTGAACAAAT GCAGCAACGG GCGGCTGCCC
    TGTGTAGACA GGGGGCTTGA TGAGGGGCCC CGGTCCATCC CAAAGTGCTC TGAGTCGGAG
    ACCGACGAGG ATTACATCGT GGTCCCCAGG GTTCCGCTGA GGGAGGATGA ACCCAAGGAC
    GAGGGCAGTG TGGGGAACAA AGCCCTGGTG TCTCCCGAGT CCTCTGCGGA AGAGGAAGAG
    GAGCGTGAAG AGGGAGGCGA GGCATGTGGC CTGGAGGGTA CAGGAGCTGG TGAGGATTCA
    GTGGCCCCTG CTGCTCCGGG TGCAGGAGCG CTGAGCAGGG AGGGTGAGGA AGGCACAGAC
    CTTGCTCTTG AGGATGAAGG GGAGGGCTGC GCTGATGAGC CAGGGACACT GGAGCAGGTG
    TCCAGAAGTG AGGAGGAAGA GAAGCTAGTG CAGCCACACA GGGAGTGCAG CCTGGAGGAC
    AGTGGGCCTT GGGCTGGAGA GGGGGTCTTC CAGAGCGACC TCCTCCTGCC TCACATCCAT
    GGAGAGGACC AGGAGCCCCC CGACACCCCC GGGGAGGCAG AGGAGGATGA TGAGGAAGGC
    TGTGCCAGCA CAGACCCAGC AGGGGCAGAT GAGGGTTCGG GTCCTGACAG GCCCACGGAG
    GACATGGGAC AGGATGCTGA GGACACCAGT GAGGAGCCCC CTGAGAAGGA GGAGCTGGCC
    GGGGTCCAGG AGGCAGAGAC AGCCACAGAC TGCCCTGAAG TTCTTGAGGA GGGATGTGAA
    GAGGCCACGG GTGTCACAGG TGGGGAACAG GTTGACCTCA GTGAACCACC TGACCACGAG
    AAGAAAACCA ACCAAGAAGT GGCAGCCGCC ACCCTGGAGG ACCATGCACA GGATGAGTCC
    GCCGAGGAGA GCTGCCAGAT TGTCCCTTTT GAGAATGACT GCATGGAGGA CTTCGTGACT
    TCCCTCACAG GAAGCCCCTA TGAGTTCTTC CCAACTGAGA GCACCTCTTT TTGCAGCGAG
    AGCTGTTCTC CTCTTTCTGA ATCAGCGAAA GGTTTAGAAT CAGAGCAGGC ACCAAAGCTG
    GGGCTGCGTG CGGAGGAGAA CCCCATGGTG GGGGCTTTGT GTGGCCAGTG TGGCTCCCTA
    CAGGGTGGAG CGGCCGAGGG TCCCGCAGCC CCTGATGTGG TGGTCGTGCT GGAGGAGGAG
    GCCTTGGATG ATGCACTGGC CAACCCCTAT GTGATGGGAG TGGGCCTGCC CGGTCAGGCG
    GCCCCTGGAG AAGGAGGGCA GGCTGCATCG GACGCCCTGG GTGGTTATGG CTCGAAAGAA
    GAATTGAACT GTGAGGCAGA GGGTGGCCTG GTTCCCGCGG ACAGGAAGAA CACCAGCACG
    AGGGTCCGGC CCCACTCTGG GAAGGTGGCC GGCTATGTCC CAGAAACCGT CCCTGAAGAA
    ACCGGACCTG AGGCGGGCTC GTCAGCCCCT GGCATTGGAG GTGCCGCAGA GGAGGTGGGA
    AAGACGCTTT TGTCATTGGA GGGGAAGCCC TTGGAAGCCA GCAGGGCCTT GCCAGCAAAG
    CCCAGGGCCT TTACTTTATA CCCTCGGTCG TTCTCCGTGG AAGGCCGAGA GATTCCAGTG
    TCCGTGTACC AGGAGCCTGA GGGGTCAGGG TTGGATGACC ACAGGATAAA GAGGAAAGAG
    GACAATCTCT CTCTGTCGTG TGTAATTGGC TCCTCTGGGA GTTTCTCCCA GAGAAACCAC
    CTTCCGTCCA GCGGCACCTC CACGCCTTCT TCCATGGTCG ACATCCCACC TCCTTTCGAC
    CTGGCCTGCA TCACCAAGAA GCCCATCACA AAGAGCTCTC CCTCACTCCT GATCGAGAGC
    GACTCCCCGG ACAAGTACAA GAAGAAGAAG TCATCCTTTA AGCGCTTCCT GGCACTGACG
    TTTAAGAAGA AGACGGAGAA CAAATTGCAT GTGGATGTGA ACGTGTCTTC CTCTAGGTCC
    TCTTCAGAGT CCAGCTACCA CGGGCCTTCC AGGATTCTGG AAGTTGACCG GAGAAGCCTC
    AGCAACTCCC CTCAGCTTAA GTCTCGGACT GGGAAGCTCC GGGCTTCTGA ATCCCCCTCC
    TCCCTCATCT TTTATAGAGA TGGCAAGAGG AAAGGTGTCC CCTTCAGCAG GACGGTGTCC
    AGAGTGGAGT CCTTTGAAGA CCGCTCCCGG CCGCCCTTCC TGCCCTTGCC ACTGACCAAG
    CCACGGTCCA TCTCCTTCCC CAGCGCTGAC ACTTCAGACT ATGAGAACAT TCCAGCCATG
    AACTCGGACT ATGAGAATAT CCAGATTCCA CCCCGGAGAC CTGCCAGGGC TGGCGCGTTC
    ACGAAGCTGT TTGAAGATCA GAGCAGAGCC CTGTCCACAG CAAACGAAAA TGATGGCTAC
    GTGGACATGA GCAGCTTCAA CGCCTTTGAG AGCAAACAGC AGAGTGCAGA CCAGGACGCA
    GAAAGCGCCT ACACAGAGCC CTACAAAGTC TGTCCCATCT CGTCGGCAGC CCCCAAAGAG
    GACCTTACGT CGGATGAAGA GCAGAGAAGC TCGGAGGAGG AGGACAGTGC TTCAAGAGAC
    CCCAGTGTCA CCCACAAGGT GGAAGGACAG TCCAGAGCCC TTGTCATCGC ACAGGAACTG
    CTATCTTCAG AGAAAGCATA CGTGGAGATG CTCCAGCACT TAAATCTGGA TTTCCATGGA
    GCTGTCATGA GGGCCTTGGA TGACATGGAC CATGAAGGCA GAGACACATT GGCCCGGGAG
    GAGCTGAGGC AGGGCCTGAG TGAACTCCCA GCCATCCACG ACCTTCATCA AGGCATCCTG
    GAGGAGCTGG AGGAAAGGCT GTCAAATTGG GAGAGCCAGC AGAAGGTAGC TGACGTCTTC
    CTGGCCCGGG AGCAGGGGTT TGATCACCAC GCCACTCACA TCCTGCAGTT CGACAGGTAC
    CTAGGTCTGC TCAGTGAGAA TTGCCTCCAC TCTCCCCGGC TGGCAGCTGC TGTCCGTGAA
    TTTGAGCAGA GTGTACAAGG AGGCAGCCAG ACTGCGAAGC ATCGGCTGCT GCGGGTGGTT
    CAACGCCTCT TCCAGTACCA AGTGCTCCTC ACAGACTATT TAAACAACCT TTGTCCGGAC
    TCCGCCGAGT ACGACAACAC ACAGGGTGCA CTGAGCCTCA TCTCCAAAGT CACAGACCGT
    GCCAACGACA GCATGGAGCA AGGGGAAAAC CTGCAGAAGC TGGTCCACAT TGAGCACAGC
    GTCCGGGGCC AAGGGGATCT CCTCCAGCCA GGAAGGGAGT TTCTGAAGGA AGGGACGCTG
    ATGAAAGTAA CAGGGAAAAA CAGACGGCCC CGGCACCTAT TTCTGATGAA CGATGTGCTC
    CTGTACACCT ATCCCCAGAA GGATGGGAAG TACCGGCTGA AGAACACATT GGCTGTGGCC
    AACATGAAGG TCAGCCGCCC TGTGATGGAG AAAGTGCCCT ACGCTCTAAA GATTGAGACT
    TCCGAGTCCT GCCTGATGCT GTCTGCGAGC TCCTGTGCAG AGAGGGACGA GTGGTATGGC
    TGTCTGAGCA GAGCCCTCCC TGAGGACTAC AAGGCCCAGG CGCTGGCTGC ATTCCACCAT
    AGCGTGGAGA TACGAGAGAG GCTGGGGGTT AGCCTTGGGG AGAGGCCCCC CACCCTGGTG
    CCTGTCACAC ACGTCATGAT GTGCATGAAC TGCGGCTGCG ACTTCTCCCT CACCCTGCGG
    CGTCATCACT GTCACGCCTG TGGCAAGATC GTGTGCCGGA ACTGTTCGCG GAACAAGTAC
    CCGCTGAAGT ACCTGAAGGA CAGGATGGCC AAGGTCTGCG ACGGCTGCTT CGGGGAGCTG
    AAGAAGCGGG GCAGGGCTGT CCCGGGCCTG ATGAGAGAGC GGCCTGTGAG CATGAGCTTC
    CCGCTGTCTT CACCCCGCTT CTCGGGCAGT GCCTTTTCAT CCGTCTTCCA GAGCATTAAC
    CCCTCGACCT TCAAGAAGCA GAAGAAAGTC CCTTCAGCCC TGACAGAGGA CAAAGTGGCC
    TTGGAGAGTA TGCCTCTGCT AGGCTTCACC ATTGCTCCAG AAAAGGAAGA GGGCAGCAGT
    GAAGTAGGAC CTATTTTTCA CCTTTACCAC AAGAAAACCC TATTTTATAG CTTCAAAGCA
    GAAGATACCA ATTCAGCTCA GAGGTGGATC GAGGCCATGG AAGATGCGAG TGTGTTATAG

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

    CloneID OHu76720
    Clone ID Related Accession (Same CDS sequence) XM_011533422.1
    Accession Version XM_011533422.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4395bp)
    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 FYVE, RhoGEF and PH domain-containing protein 5 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000003.12) 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
    ATGTTCAGGG GTCCGAAGCC CCCCATTGCC CCCAAGCCCA GGCTGACTGC CCCAAACGAG 
    TGGAGAGCCA GTGTGTACCT GAATGACAGC TTGAACAAAT GCAGCAACGG GCGGCTGCCC
    TGTGTAGACA GGGGGCTTGA TGAGGGGCCC CGGTCCATCC CAAAGTGCTC TGAGTCGGAG
    ACCGACGAGG ATTACATCGT GGTCCCCAGG GTTCCGCTGA GGGAGGATGA ACCCAAGGAC
    GAGGGCAGTG TGGGGAACAA AGCCCTGGTG TCTCCCGAGT CCTCTGCGGA AGAGGAAGAG
    GAGCGTGAAG AGGGAGGCGA GGCATGTGGC CTGGAGGGTA CAGGAGCTGG TGAGGATTCA
    GTGGCCCCTG CTGCTCCGGG TGCAGGAGCG CTGAGCAGGG AGGGTGAGGA AGGCACAGAC
    CTTGCTCTTG AGGATGAAGG GGAGGGCTGC GCTGATGAGC CAGGGACACT GGAGCAGGTG
    TCCAGAAGTG AGGAGGAAGA GAAGCTAGTG CAGCCACACA GGGAGTGCAG CCTGGAGGAC
    AGTGGGCCTT GGGCTGGAGA GGGGGTCTTC CAGAGCGACC TCCTCCTGCC TCACATCCAT
    GGAGAGGACC AGGAGCCCCC CGACACCCCC GGGGAGGCAG AGGAGGATGA TGAGGAAGGC
    TGTGCCAGCA CAGACCCAGC AGGGGCAGAT GAGGGTTCGG GTCCTGACAG GCCCACGGAG
    GACATGGGAC AGGATGCTGA GGACACCAGT GAGGAGCCCC CTGAGAAGGA GGAGCTGGCC
    GGGGTCCAGG AGGCAGAGAC AGCCACAGAC TGCCCTGAAG TTCTTGAGGA GGGATGTGAA
    GAGGCCACGG GTGTCACAGG TGGGGAACAG GTTGACCTCA GTGAACCACC TGACCACGAG
    AAGAAAACCA ACCAAGAAGT GGCAGCCGCC ACCCTGGAGG ACCATGCACA GGATGAGTCC
    GCCGAGGAGA GCTGCCAGAT TGTCCCTTTT GAGAATGACT GCATGGAGGA CTTCGTGACT
    TCCCTCACAG GAAGCCCCTA TGAGTTCTTC CCAACTGAGA GCACCTCTTT TTGCAGCGAG
    AGCTGTTCTC CTCTTTCTGA ATCAGCGAAA GGTTTAGAAT CAGAGCAGGC ACCAAAGCTG
    GGGCTGCGTG CGGAGGAGAA CCCCATGGTG GGGGCTTTGT GTGGCCAGTG TGGCTCCCTA
    CAGGGTGGAG CGGCCGAGGG TCCCGCAGCC CCTGATGTGG TGGTCGTGCT GGAGGAGGAG
    GCCTTGGATG ATGCACTGGC CAACCCCTAT GTGATGGGAG TGGGCCTGCC CGGTCAGGCG
    GCCCCTGGAG AAGGAGGGCA GGCTGCATCG GACGCCCTGG GTGGTTATGG CTCGAAAGAA
    GAATTGAACT GTGAGGCAGA GGGTGGCCTG GTTCCCGCGG ACAGGAAGAA CACCAGCACG
    AGGGTCCGGC CCCACTCTGG GAAGGTGGCC GGCTATGTCC CAGAAACCGT CCCTGAAGAA
    ACCGGACCTG AGGCGGGCTC GTCAGCCCCT GGCATTGGAG GTGCCGCAGA GGAGGTGGGA
    AAGACGCTTT TGTCATTGGA GGGGAAGCCC TTGGAAGCCA GCAGGGCCTT GCCAGCAAAG
    CCCAGGGCCT TTACTTTATA CCCTCGGTCG TTCTCCGTGG AAGGCCGAGA GATTCCAGTG
    TCCGTGTACC AGGAGCCTGA GGGGTCAGGG TTGGATGACC ACAGGATAAA GAGGAAAGAG
    GACAATCTCT CTCTGTCGTG TGTAATTGGC TCCTCTGGGA GTTTCTCCCA GAGAAACCAC
    CTTCCGTCCA GCGGCACCTC CACGCCTTCT TCCATGGTCG ACATCCCACC TCCTTTCGAC
    CTGGCCTGCA TCACCAAGAA GCCCATCACA AAGAGCTCTC CCTCACTCCT GATCGAGAGC
    GACTCCCCGG ACAAGTACAA GAAGAAGAAG TCATCCTTTA AGCGCTTCCT GGCACTGACG
    TTTAAGAAGA AGACGGAGAA CAAATTGCAT GTGGATGTGA ACGTGTCTTC CTCTAGGTCC
    TCTTCAGAGT CCAGCTACCA CGGGCCTTCC AGGATTCTGG AAGTTGACCG GAGAAGCCTC
    AGCAACTCCC CTCAGCTTAA GTCTCGGACT GGGAAGCTCC GGGCTTCTGA ATCCCCCTCC
    TCCCTCATCT TTTATAGAGA TGGCAAGAGG AAAGGTGTCC CCTTCAGCAG GACGGTGTCC
    AGAGTGGAGT CCTTTGAAGA CCGCTCCCGG CCGCCCTTCC TGCCCTTGCC ACTGACCAAG
    CCACGGTCCA TCTCCTTCCC CAGCGCTGAC ACTTCAGACT ATGAGAACAT TCCAGCCATG
    AACTCGGACT ATGAGAATAT CCAGATTCCA CCCCGGAGAC CTGCCAGGGC TGGCGCGTTC
    ACGAAGCTGT TTGAAGATCA GAGCAGAGCC CTGTCCACAG CAAACGAAAA TGATGGCTAC
    GTGGACATGA GCAGCTTCAA CGCCTTTGAG AGCAAACAGC AGAGTGCAGA CCAGGACGCA
    GAAAGCGCCT ACACAGAGCC CTACAAAGTC TGTCCCATCT CGTCGGCAGC CCCCAAAGAG
    GACCTTACGT CGGATGAAGA GCAGAGAAGC TCGGAGGAGG AGGACAGTGC TTCAAGAGAC
    CCCAGTGTCA CCCACAAGGT GGAAGGACAG TCCAGAGCCC TTGTCATCGC ACAGGAACTG
    CTATCTTCAG AGAAAGCATA CGTGGAGATG CTCCAGCACT TAAATCTGGA TTTCCATGGA
    GCTGTCATGA GGGCCTTGGA TGACATGGAC CATGAAGGCA GAGACACATT GGCCCGGGAG
    GAGCTGAGGC AGGGCCTGAG TGAACTCCCA GCCATCCACG ACCTTCATCA AGGCATCCTG
    GAGGAGCTGG AGGAAAGGCT GTCAAATTGG GAGAGCCAGC AGAAGGTAGC TGACGTCTTC
    CTGGCCCGGG AGCAGGGGTT TGATCACCAC GCCACTCACA TCCTGCAGTT CGACAGGTAC
    CTAGGTCTGC TCAGTGAGAA TTGCCTCCAC TCTCCCCGGC TGGCAGCTGC TGTCCGTGAA
    TTTGAGCAGA GTGTACAAGG AGGCAGCCAG ACTGCGAAGC ATCGGCTGCT GCGGGTGGTT
    CAACGCCTCT TCCAGTACCA AGTGCTCCTC ACAGACTATT TAAACAACCT TTGTCCGGAC
    TCCGCCGAGT ACGACAACAC ACAGGGTGCA CTGAGCCTCA TCTCCAAAGT CACAGACCGT
    GCCAACGACA GCATGGAGCA AGGGGAAAAC CTGCAGAAGC TGGTCCACAT TGAGCACAGC
    GTCCGGGGCC AAGGGGATCT CCTCCAGCCA GGAAGGGAGT TTCTGAAGGA AGGGACGCTG
    ATGAAAGTAA CAGGGAAAAA CAGACGGCCC CGGCACCTAT TTCTGATGAA CGATGTGCTC
    CTGTACACCT ATCCCCAGAA GGATGGGAAG TACCGGCTGA AGAACACATT GGCTGTGGCC
    AACATGAAGG TCAGCCGCCC TGTGATGGAG AAAGTGCCCT ACGCTCTAAA GATTGAGACT
    TCCGAGTCCT GCCTGATGCT GTCTGCGAGC TCCTGTGCAG AGAGGGACGA GTGGTATGGC
    TGTCTGAGCA GAGCCCTCCC TGAGGACTAC AAGGCCCAGG CGCTGGCTGC ATTCCACCAT
    AGCGTGGAGA TACGAGAGAG GCTGGGGGTT AGCCTTGGGG AGAGGCCCCC CACCCTGGTG
    CCTGTCACAC ACGTCATGAT GTGCATGAAC TGCGGCTGCG ACTTCTCCCT CACCCTGCGG
    CGTCATCACT GTCACGCCTG TGGCAAGATC GTGTGCCGGA ACTGTTCGCG GAACAAGTAC
    CCGCTGAAGT ACCTGAAGGA CAGGATGGCC AAGGTCTGCG ACGGCTGCTT CGGGGAGCTG
    AAGAAGCGGG GCAGGGCTGT CCCGGGCCTG ATGAGAGTTA CAGAGCGGCC TGTGAGCATG
    AGCTTCCCGC TGTCTTCACC CCGCTTCTCG GGCAGTGCCT TTTCATCCGT CTTCCAGAGC
    ATTAACCCCT CGACCTTCAA GAAGCAGAAG AAAGTCCCTT CAGCCCTGAC AGAGGTGGCT
    GCCTCTGGAG AGGGCTCTGC CATCAGTGGC TATCTCAGCC GGTGTAAGAG GGGCAAGCGG
    CACTGGAAGA AGCTCTGGTT TGTCATCAAA GGCAAAGTTC TCTACACCTA CATGGCCAGT
    GAGGACAAAG TGGCCTTGGA GAGTATGCCT CTGCTAGGCT TCACCATTGC TCCAGAAAAG
    GAAGAGGGCA GCAGTGAAGT AGGACCTATT TTTCACCTTT ACCACAAGAA AACCCTATTT
    TATAGCTTCA AAGCAGAAGA TACCAATTCA GCTCAGAGGT GGATCGAGGC CATGGAAGAT
    GCGAGTGTGT TATAG

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

    RefSeq XP_011531724.1
    CDS111..4505
    Translation

    Target ORF information:

    RefSeq Version XM_011533422.1
    Organism Homo sapiens(human)
    Definition Homo sapiens FYVE, RhoGEF and PH domain containing 5 (FGD5), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011533422.1

    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
    ATGTTCAGGG GTCCGAAGCC CCCCATTGCC CCCAAGCCCA GGCTGACTGC CCCAAACGAG 
    TGGAGAGCCA GTGTGTACCT GAATGACAGC TTGAACAAAT GCAGCAACGG GCGGCTGCCC
    TGTGTAGACA GGGGGCTTGA TGAGGGGCCC CGGTCCATCC CAAAGTGCTC TGAGTCGGAG
    ACCGACGAGG ATTACATCGT GGTCCCCAGG GTTCCGCTGA GGGAGGATGA ACCCAAGGAC
    GAGGGCAGTG TGGGGAACAA AGCCCTGGTG TCTCCCGAGT CCTCTGCGGA AGAGGAAGAG
    GAGCGTGAAG AGGGAGGCGA GGCATGTGGC CTGGAGGGTA CAGGAGCTGG TGAGGATTCA
    GTGGCCCCTG CTGCTCCGGG TGCAGGAGCG CTGAGCAGGG AGGGTGAGGA AGGCACAGAC
    CTTGCTCTTG AGGATGAAGG GGAGGGCTGC GCTGATGAGC CAGGGACACT GGAGCAGGTG
    TCCAGAAGTG AGGAGGAAGA GAAGCTAGTG CAGCCACACA GGGAGTGCAG CCTGGAGGAC
    AGTGGGCCTT GGGCTGGAGA GGGGGTCTTC CAGAGCGACC TCCTCCTGCC TCACATCCAT
    GGAGAGGACC AGGAGCCCCC CGACACCCCC GGGGAGGCAG AGGAGGATGA TGAGGAAGGC
    TGTGCCAGCA CAGACCCAGC AGGGGCAGAT GAGGGTTCGG GTCCTGACAG GCCCACGGAG
    GACATGGGAC AGGATGCTGA GGACACCAGT GAGGAGCCCC CTGAGAAGGA GGAGCTGGCC
    GGGGTCCAGG AGGCAGAGAC AGCCACAGAC TGCCCTGAAG TTCTTGAGGA GGGATGTGAA
    GAGGCCACGG GTGTCACAGG TGGGGAACAG GTTGACCTCA GTGAACCACC TGACCACGAG
    AAGAAAACCA ACCAAGAAGT GGCAGCCGCC ACCCTGGAGG ACCATGCACA GGATGAGTCC
    GCCGAGGAGA GCTGCCAGAT TGTCCCTTTT GAGAATGACT GCATGGAGGA CTTCGTGACT
    TCCCTCACAG GAAGCCCCTA TGAGTTCTTC CCAACTGAGA GCACCTCTTT TTGCAGCGAG
    AGCTGTTCTC CTCTTTCTGA ATCAGCGAAA GGTTTAGAAT CAGAGCAGGC ACCAAAGCTG
    GGGCTGCGTG CGGAGGAGAA CCCCATGGTG GGGGCTTTGT GTGGCCAGTG TGGCTCCCTA
    CAGGGTGGAG CGGCCGAGGG TCCCGCAGCC CCTGATGTGG TGGTCGTGCT GGAGGAGGAG
    GCCTTGGATG ATGCACTGGC CAACCCCTAT GTGATGGGAG TGGGCCTGCC CGGTCAGGCG
    GCCCCTGGAG AAGGAGGGCA GGCTGCATCG GACGCCCTGG GTGGTTATGG CTCGAAAGAA
    GAATTGAACT GTGAGGCAGA GGGTGGCCTG GTTCCCGCGG ACAGGAAGAA CACCAGCACG
    AGGGTCCGGC CCCACTCTGG GAAGGTGGCC GGCTATGTCC CAGAAACCGT CCCTGAAGAA
    ACCGGACCTG AGGCGGGCTC GTCAGCCCCT GGCATTGGAG GTGCCGCAGA GGAGGTGGGA
    AAGACGCTTT TGTCATTGGA GGGGAAGCCC TTGGAAGCCA GCAGGGCCTT GCCAGCAAAG
    CCCAGGGCCT TTACTTTATA CCCTCGGTCG TTCTCCGTGG AAGGCCGAGA GATTCCAGTG
    TCCGTGTACC AGGAGCCTGA GGGGTCAGGG TTGGATGACC ACAGGATAAA GAGGAAAGAG
    GACAATCTCT CTCTGTCGTG TGTAATTGGC TCCTCTGGGA GTTTCTCCCA GAGAAACCAC
    CTTCCGTCCA GCGGCACCTC CACGCCTTCT TCCATGGTCG ACATCCCACC TCCTTTCGAC
    CTGGCCTGCA TCACCAAGAA GCCCATCACA AAGAGCTCTC CCTCACTCCT GATCGAGAGC
    GACTCCCCGG ACAAGTACAA GAAGAAGAAG TCATCCTTTA AGCGCTTCCT GGCACTGACG
    TTTAAGAAGA AGACGGAGAA CAAATTGCAT GTGGATGTGA ACGTGTCTTC CTCTAGGTCC
    TCTTCAGAGT CCAGCTACCA CGGGCCTTCC AGGATTCTGG AAGTTGACCG GAGAAGCCTC
    AGCAACTCCC CTCAGCTTAA GTCTCGGACT GGGAAGCTCC GGGCTTCTGA ATCCCCCTCC
    TCCCTCATCT TTTATAGAGA TGGCAAGAGG AAAGGTGTCC CCTTCAGCAG GACGGTGTCC
    AGAGTGGAGT CCTTTGAAGA CCGCTCCCGG CCGCCCTTCC TGCCCTTGCC ACTGACCAAG
    CCACGGTCCA TCTCCTTCCC CAGCGCTGAC ACTTCAGACT ATGAGAACAT TCCAGCCATG
    AACTCGGACT ATGAGAATAT CCAGATTCCA CCCCGGAGAC CTGCCAGGGC TGGCGCGTTC
    ACGAAGCTGT TTGAAGATCA GAGCAGAGCC CTGTCCACAG CAAACGAAAA TGATGGCTAC
    GTGGACATGA GCAGCTTCAA CGCCTTTGAG AGCAAACAGC AGAGTGCAGA CCAGGACGCA
    GAAAGCGCCT ACACAGAGCC CTACAAAGTC TGTCCCATCT CGTCGGCAGC CCCCAAAGAG
    GACCTTACGT CGGATGAAGA GCAGAGAAGC TCGGAGGAGG AGGACAGTGC TTCAAGAGAC
    CCCAGTGTCA CCCACAAGGT GGAAGGACAG TCCAGAGCCC TTGTCATCGC ACAGGAACTG
    CTATCTTCAG AGAAAGCATA CGTGGAGATG CTCCAGCACT TAAATCTGGA TTTCCATGGA
    GCTGTCATGA GGGCCTTGGA TGACATGGAC CATGAAGGCA GAGACACATT GGCCCGGGAG
    GAGCTGAGGC AGGGCCTGAG TGAACTCCCA GCCATCCACG ACCTTCATCA AGGCATCCTG
    GAGGAGCTGG AGGAAAGGCT GTCAAATTGG GAGAGCCAGC AGAAGGTAGC TGACGTCTTC
    CTGGCCCGGG AGCAGGGGTT TGATCACCAC GCCACTCACA TCCTGCAGTT CGACAGGTAC
    CTAGGTCTGC TCAGTGAGAA TTGCCTCCAC TCTCCCCGGC TGGCAGCTGC TGTCCGTGAA
    TTTGAGCAGA GTGTACAAGG AGGCAGCCAG ACTGCGAAGC ATCGGCTGCT GCGGGTGGTT
    CAACGCCTCT TCCAGTACCA AGTGCTCCTC ACAGACTATT TAAACAACCT TTGTCCGGAC
    TCCGCCGAGT ACGACAACAC ACAGGGTGCA CTGAGCCTCA TCTCCAAAGT CACAGACCGT
    GCCAACGACA GCATGGAGCA AGGGGAAAAC CTGCAGAAGC TGGTCCACAT TGAGCACAGC
    GTCCGGGGCC AAGGGGATCT CCTCCAGCCA GGAAGGGAGT TTCTGAAGGA AGGGACGCTG
    ATGAAAGTAA CAGGGAAAAA CAGACGGCCC CGGCACCTAT TTCTGATGAA CGATGTGCTC
    CTGTACACCT ATCCCCAGAA GGATGGGAAG TACCGGCTGA AGAACACATT GGCTGTGGCC
    AACATGAAGG TCAGCCGCCC TGTGATGGAG AAAGTGCCCT ACGCTCTAAA GATTGAGACT
    TCCGAGTCCT GCCTGATGCT GTCTGCGAGC TCCTGTGCAG AGAGGGACGA GTGGTATGGC
    TGTCTGAGCA GAGCCCTCCC TGAGGACTAC AAGGCCCAGG CGCTGGCTGC ATTCCACCAT
    AGCGTGGAGA TACGAGAGAG GCTGGGGGTT AGCCTTGGGG AGAGGCCCCC CACCCTGGTG
    CCTGTCACAC ACGTCATGAT GTGCATGAAC TGCGGCTGCG ACTTCTCCCT CACCCTGCGG
    CGTCATCACT GTCACGCCTG TGGCAAGATC GTGTGCCGGA ACTGTTCGCG GAACAAGTAC
    CCGCTGAAGT ACCTGAAGGA CAGGATGGCC AAGGTCTGCG ACGGCTGCTT CGGGGAGCTG
    AAGAAGCGGG GCAGGGCTGT CCCGGGCCTG ATGAGAGTTA CAGAGCGGCC TGTGAGCATG
    AGCTTCCCGC TGTCTTCACC CCGCTTCTCG GGCAGTGCCT TTTCATCCGT CTTCCAGAGC
    ATTAACCCCT CGACCTTCAA GAAGCAGAAG AAAGTCCCTT CAGCCCTGAC AGAGGTGGCT
    GCCTCTGGAG AGGGCTCTGC CATCAGTGGC TATCTCAGCC GGTGTAAGAG GGGCAAGCGG
    CACTGGAAGA AGCTCTGGTT TGTCATCAAA GGCAAAGTTC TCTACACCTA CATGGCCAGT
    GAGGACAAAG TGGCCTTGGA GAGTATGCCT CTGCTAGGCT TCACCATTGC TCCAGAAAAG
    GAAGAGGGCA GCAGTGAAGT AGGACCTATT TTTCACCTTT ACCACAAGAA AACCCTATTT
    TATAGCTTCA AAGCAGAAGA TACCAATTCA GCTCAGAGGT GGATCGAGGC CATGGAAGAT
    GCGAGTGTGT TATAG

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

    CloneID OHu76721
    Clone ID Related Accession (Same CDS sequence) XM_011533423.1
    Accession Version XM_011533423.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4266bp)
    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 FYVE, RhoGEF and PH domain-containing protein 5 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000003.12) 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
    ATGTTCAGGG GTCCGAAGCC CCCCATTGCC CCCAAGCCCA GGCTGACTGC CCCAAACGAG 
    TGGAGAGCCA GTGTGTACCT GAATGACAGC TTGAACAAAT GCAGCAACGG GCGGCTGCCC
    TGTGTAGACA GGGGGCTTGA TGAGGGGCCC CGGTCCATCC CAAAGTGCTC TGAGTCGGAG
    ACCGACGAGG ATTACATCGT GGTCCCCAGG GTTCCGCTGA GGGAGGATGA ACCCAAGGAC
    GAGGGCAGTG TGGGGAACAA AGCCCTGGTG TCTCCCGAGT CCTCTGCGGA AGAGGAAGAG
    GAGCGTGAAG AGGGAGGCGA GGCATGTGGC CTGGAGGGTA CAGGAGCTGG TGAGGATTCA
    GTGGCCCCTG CTGCTCCGGG TGCAGGAGCG CTGAGCAGGG AGGGTGAGGA AGGCACAGAC
    CTTGCTCTTG AGGATGAAGG GGAGGGCTGC GCTGATGAGC CAGGGACACT GGAGCAGGTG
    TCCAGAAGTG AGGAGGAAGA GAAGCTAGTG CAGCCACACA GGGAGTGCAG CCTGGAGGAC
    AGTGGGCCTT GGGCTGGAGA GGGGGTCTTC CAGAGCGACC TCCTCCTGCC TCACATCCAT
    GGAGAGGACC AGGAGCCCCC CGACACCCCC GGGGAGGCAG AGGAGGATGA TGAGGAAGGC
    TGTGCCAGCA CAGACCCAGC AGGGGCAGAT GAGGGTTCGG GTCCTGACAG GCCCACGGAG
    GACATGGGAC AGGATGCTGA GGACACCAGT GAGGAGCCCC CTGAGAAGGA GGAGCTGGCC
    GGGGTCCAGG AGGCAGAGAC AGCCACAGAC TGCCCTGAAG TTCTTGAGGA GGGATGTGAA
    GAGGCCACGG GTGTCACAGG TGGGGAACAG GTTGACCTCA GTGAACCACC TGACCACGAG
    AAGAAAACCA ACCAAGAAGT GGCAGCCGCC ACCCTGGAGG ACCATGCACA GGATGAGTCC
    GCCGAGGAGA GCTGCCAGAT TGTCCCTTTT GAGAATGACT GCATGGAGGA CTTCGTGACT
    TCCCTCACAG GAAGCCCCTA TGAGTTCTTC CCAACTGAGA GCACCTCTTT TTGCAGCGAG
    AGCTGTTCTC CTCTTTCTGA ATCAGCGAAA GGTTTAGAAT CAGAGCAGGC ACCAAAGCTG
    GGGCTGCGTG CGGAGGAGAA CCCCATGGTG GGGGCTTTGT GTGGCCAGTG TGGCTCCCTA
    CAGGGTGGAG CGGCCGAGGG TCCCGCAGCC CCTGATGTGG TGGTCGTGCT GGAGGAGGAG
    GCCTTGGATG ATGCACTGGC CAACCCCTAT GTGATGGGAG TGGGCCTGCC CGGTCAGGCG
    GCCCCTGGAG AAGGAGGGCA GGCTGCATCG GACGCCCTGG GTGGTTATGG CTCGAAAGAA
    GAATTGAACT GTGAGGCAGA GGGTGGCCTG GTTCCCGCGG ACAGGAAGAA CACCAGCACG
    AGGGTCCGGC CCCACTCTGG GAAGGTGGCC GGCTATGTCC CAGAAACCGT CCCTGAAGAA
    ACCGGACCTG AGGCGGGCTC GTCAGCCCCT GGCATTGGAG GTGCCGCAGA GGAGGTGGGA
    AAGACGCTTT TGTCATTGGA GGGGAAGCCC TTGGAAGCCA GCAGGGCCTT GCCAGCAAAG
    CCCAGGGCCT TTACTTTATA CCCTCGGTCG TTCTCCGTGG AAGGCCGAGA GATTCCAGTG
    TCCGTGTACC AGGAGCCTGA GGGGTCAGGG TTGGATGACC ACAGGATAAA GAGGAAAGAG
    GACAATCTCT CTCTGTCGTG TGTAATTGGC TCCTCTGGGA GTTTCTCCCA GAGAAACCAC
    CTTCCGTCCA GCGGCACCTC CACGCCTTCT TCCATGGTCG ACATCCCACC TCCTTTCGAC
    CTGGCCTGCA TCACCAAGAA GCCCATCACA AAGAGCTCTC CCTCACTCCT GATCGAGAGC
    GACTCCCCGG ACAAGTACAA GAAGAAGAAG TCATCCTTTA AGCGCTTCCT GGCACTGACG
    TTTAAGAAGA AGACGGAGAA CAAATTGCAT GTGGATGTGA ACGTGTCTTC CTCTAGGTCC
    TCTTCAGAGT CCAGCTACCA CGGGCCTTCC AGGATTCTGG AAGTTGACCG GAGAAGCCTC
    AGCAACTCCC CTCAGCTTAA GTCTCGGACT GGGAAGCTCC GGGCTTCTGA ATCCCCCTCC
    TCCCTCATCT TTTATAGAGA TGGCAAGAGG AAAGGTGTCC CCTTCAGCAG GACGGTGTCC
    AGAGTGGAGT CCTTTGAAGA CCGCTCCCGG CCGCCCTTCC TGCCCTTGCC ACTGACCAAG
    CCACGGTCCA TCTCCTTCCC CAGCGCTGAC ACTTCAGACT ATGAGAACAT TCCAGCCATG
    AACTCGGACT ATGAGAATAT CCAGATTCCA CCCCGGAGAC CTGCCAGGGC TGGCGCGTTC
    ACGAAGCTGT TTGAAGATCA GAGCAGAGCC CTGTCCACAG CAAACGAAAA TGATGGCTAC
    GTGGACATGA GCAGCTTCAA CGCCTTTGAG AGCAAACAGC AGAGTGCAGA CCAGGACGCA
    GAAAGCGCCT ACACAGAGCC CTACAAAGTC TGTCCCATCT CGTCGGCAGC CCCCAAAGAG
    GACCTTACGT CGGATGAAGA GCAGAGAAGC TCGGAGGAGG AGGACAGTGC TTCAAGAGAC
    CCCAGTGTCA CCCACAAGGT GGAAGGACAG TCCAGAGCCC TTGTCATCGC ACAGGAACTG
    CTATCTTCAG AGAAAGCATA CGTGGAGATG CTCCAGCACT TAAATCTGGA TTTCCATGGA
    GCTGTCATGA GGGCCTTGGA TGACATGGAC CATGAAGGCA GAGACACATT GGCCCGGGAG
    GAGCTGAGGC AGGGCCTGAG TGAACTCCCA GCCATCCACG ACCTTCATCA AGGCATCCTG
    GAGGAGCTGG AGGAAAGGCT GTCAAATTGG GAGAGCCAGC AGAAGGTAGC TGACGTCTTC
    CTGGCCCGGG AGCAGGGGTT TGATCACCAC GCCACTCACA TCCTGCAGTT CGACAGGTAC
    CTAGGTCTGC TCAGTGAGAA TTGCCTCCAC TCTCCCCGGC TGGCAGCTGC TGTCCGTGAA
    TTTGAGCAGA GTGTACAAGG AGGCAGCCAG ACTGCGAAGC ATCGGCTGCT GCGGGTGGTT
    CAACGCCTCT TCCAGTACCA AGTGCTCCTC ACAGACTATT TAAACAACCT TTGTCCGGAC
    TCCGCCGAGT ACGACAACAC ACAGGGTGCA CTGAGCCTCA TCTCCAAAGT CACAGACCGT
    GCCAACGACA GCATGGAGCA AGGGGAAAAC CTGCAGAAGC TGGTCCACAT TGAGCACAGC
    GTCCGGGGCC AAGGGGATCT CCTCCAGCCA GGAAGGGAGT TTCTGAAGGA AGGGACGCTG
    ATGAAAGTAA CAGGGAAAAA CAGACGGCCC CGGCACCTAT TTCTGATGAA CGATGTGCTC
    CTGTACACCT ATCCCCAGAA GGATGGGAAG TACCGGCTGA AGAACACATT GGCTGTGGCC
    AACATGAAGG TCAGCCGCCC TGTGATGGAG AAAGTGCCCT ACGCTCTAAA GATTGAGACT
    TCCGAGTCCT GCCTGATGCT GTCTGCGAGC TCCTGTGCAG AGAGGGACGA GTGGTATGGC
    TGTCTGAGCA GAGCCCTCCC TGAGGACTAC AAGGCCCAGG CGCTGGCTGC ATTCCACCAT
    AGCGTGGAGA TACGAGAGAG GCTGGGGGTT AGCCTTGGGG AGAGGCCCCC CACCCTGGTG
    CCTGTCACAC ACGTCATGAT GTGCATGAAC TGCGGCTGCG ACTTCTCCCT CACCCTGCGG
    CGTCATCACT GTCACGCCTG TGGCAAGATC GTGTGCCGGA ACTGTTCGCG GAACAAGTAC
    CCGCTGAAGT ACCTGAAGGA CAGGATGGCC AAGGTCTGCG ACGGCTGCTT CGGGGAGCTG
    AAGAAGCGGG GCAGGGCTGT CCCGGGCCTG ATGAGAGTTA CAGAGCGGCC TGTGAGCATG
    AGCTTCCCGC TGTCTTCACC CCGCTTCTCG GGCAGTGCCT TTTCATCCGT CTTCCAGAGC
    ATTAACCCCT CGACCTTCAA GAAGCAGAAG AAAGTCCCTT CAGCCCTGAC AGAGGACAAA
    GTGGCCTTGG AGAGTATGCC TCTGCTAGGC TTCACCATTG CTCCAGAAAA GGAAGAGGGC
    AGCAGTGAAG TAGGACCTAT TTTTCACCTT TACCACAAGA AAACCCTATT TTATAGCTTC
    AAAGCAGAAG ATACCAATTC AGCTCAGAGG TGGATCGAGG CCATGGAAGA TGCGAGTGTG
    TTATAG

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

    RefSeq XP_011531725.1
    CDS111..4376
    Translation

    Target ORF information:

    RefSeq Version XM_011533423.1
    Organism Homo sapiens(human)
    Definition Homo sapiens FYVE, RhoGEF and PH domain containing 5 (FGD5), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011533423.1

    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
    ATGTTCAGGG GTCCGAAGCC CCCCATTGCC CCCAAGCCCA GGCTGACTGC CCCAAACGAG 
    TGGAGAGCCA GTGTGTACCT GAATGACAGC TTGAACAAAT GCAGCAACGG GCGGCTGCCC
    TGTGTAGACA GGGGGCTTGA TGAGGGGCCC CGGTCCATCC CAAAGTGCTC TGAGTCGGAG
    ACCGACGAGG ATTACATCGT GGTCCCCAGG GTTCCGCTGA GGGAGGATGA ACCCAAGGAC
    GAGGGCAGTG TGGGGAACAA AGCCCTGGTG TCTCCCGAGT CCTCTGCGGA AGAGGAAGAG
    GAGCGTGAAG AGGGAGGCGA GGCATGTGGC CTGGAGGGTA CAGGAGCTGG TGAGGATTCA
    GTGGCCCCTG CTGCTCCGGG TGCAGGAGCG CTGAGCAGGG AGGGTGAGGA AGGCACAGAC
    CTTGCTCTTG AGGATGAAGG GGAGGGCTGC GCTGATGAGC CAGGGACACT GGAGCAGGTG
    TCCAGAAGTG AGGAGGAAGA GAAGCTAGTG CAGCCACACA GGGAGTGCAG CCTGGAGGAC
    AGTGGGCCTT GGGCTGGAGA GGGGGTCTTC CAGAGCGACC TCCTCCTGCC TCACATCCAT
    GGAGAGGACC AGGAGCCCCC CGACACCCCC GGGGAGGCAG AGGAGGATGA TGAGGAAGGC
    TGTGCCAGCA CAGACCCAGC AGGGGCAGAT GAGGGTTCGG GTCCTGACAG GCCCACGGAG
    GACATGGGAC AGGATGCTGA GGACACCAGT GAGGAGCCCC CTGAGAAGGA GGAGCTGGCC
    GGGGTCCAGG AGGCAGAGAC AGCCACAGAC TGCCCTGAAG TTCTTGAGGA GGGATGTGAA
    GAGGCCACGG GTGTCACAGG TGGGGAACAG GTTGACCTCA GTGAACCACC TGACCACGAG
    AAGAAAACCA ACCAAGAAGT GGCAGCCGCC ACCCTGGAGG ACCATGCACA GGATGAGTCC
    GCCGAGGAGA GCTGCCAGAT TGTCCCTTTT GAGAATGACT GCATGGAGGA CTTCGTGACT
    TCCCTCACAG GAAGCCCCTA TGAGTTCTTC CCAACTGAGA GCACCTCTTT TTGCAGCGAG
    AGCTGTTCTC CTCTTTCTGA ATCAGCGAAA GGTTTAGAAT CAGAGCAGGC ACCAAAGCTG
    GGGCTGCGTG CGGAGGAGAA CCCCATGGTG GGGGCTTTGT GTGGCCAGTG TGGCTCCCTA
    CAGGGTGGAG CGGCCGAGGG TCCCGCAGCC CCTGATGTGG TGGTCGTGCT GGAGGAGGAG
    GCCTTGGATG ATGCACTGGC CAACCCCTAT GTGATGGGAG TGGGCCTGCC CGGTCAGGCG
    GCCCCTGGAG AAGGAGGGCA GGCTGCATCG GACGCCCTGG GTGGTTATGG CTCGAAAGAA
    GAATTGAACT GTGAGGCAGA GGGTGGCCTG GTTCCCGCGG ACAGGAAGAA CACCAGCACG
    AGGGTCCGGC CCCACTCTGG GAAGGTGGCC GGCTATGTCC CAGAAACCGT CCCTGAAGAA
    ACCGGACCTG AGGCGGGCTC GTCAGCCCCT GGCATTGGAG GTGCCGCAGA GGAGGTGGGA
    AAGACGCTTT TGTCATTGGA GGGGAAGCCC TTGGAAGCCA GCAGGGCCTT GCCAGCAAAG
    CCCAGGGCCT TTACTTTATA CCCTCGGTCG TTCTCCGTGG AAGGCCGAGA GATTCCAGTG
    TCCGTGTACC AGGAGCCTGA GGGGTCAGGG TTGGATGACC ACAGGATAAA GAGGAAAGAG
    GACAATCTCT CTCTGTCGTG TGTAATTGGC TCCTCTGGGA GTTTCTCCCA GAGAAACCAC
    CTTCCGTCCA GCGGCACCTC CACGCCTTCT TCCATGGTCG ACATCCCACC TCCTTTCGAC
    CTGGCCTGCA TCACCAAGAA GCCCATCACA AAGAGCTCTC CCTCACTCCT GATCGAGAGC
    GACTCCCCGG ACAAGTACAA GAAGAAGAAG TCATCCTTTA AGCGCTTCCT GGCACTGACG
    TTTAAGAAGA AGACGGAGAA CAAATTGCAT GTGGATGTGA ACGTGTCTTC CTCTAGGTCC
    TCTTCAGAGT CCAGCTACCA CGGGCCTTCC AGGATTCTGG AAGTTGACCG GAGAAGCCTC
    AGCAACTCCC CTCAGCTTAA GTCTCGGACT GGGAAGCTCC GGGCTTCTGA ATCCCCCTCC
    TCCCTCATCT TTTATAGAGA TGGCAAGAGG AAAGGTGTCC CCTTCAGCAG GACGGTGTCC
    AGAGTGGAGT CCTTTGAAGA CCGCTCCCGG CCGCCCTTCC TGCCCTTGCC ACTGACCAAG
    CCACGGTCCA TCTCCTTCCC CAGCGCTGAC ACTTCAGACT ATGAGAACAT TCCAGCCATG
    AACTCGGACT ATGAGAATAT CCAGATTCCA CCCCGGAGAC CTGCCAGGGC TGGCGCGTTC
    ACGAAGCTGT TTGAAGATCA GAGCAGAGCC CTGTCCACAG CAAACGAAAA TGATGGCTAC
    GTGGACATGA GCAGCTTCAA CGCCTTTGAG AGCAAACAGC AGAGTGCAGA CCAGGACGCA
    GAAAGCGCCT ACACAGAGCC CTACAAAGTC TGTCCCATCT CGTCGGCAGC CCCCAAAGAG
    GACCTTACGT CGGATGAAGA GCAGAGAAGC TCGGAGGAGG AGGACAGTGC TTCAAGAGAC
    CCCAGTGTCA CCCACAAGGT GGAAGGACAG TCCAGAGCCC TTGTCATCGC ACAGGAACTG
    CTATCTTCAG AGAAAGCATA CGTGGAGATG CTCCAGCACT TAAATCTGGA TTTCCATGGA
    GCTGTCATGA GGGCCTTGGA TGACATGGAC CATGAAGGCA GAGACACATT GGCCCGGGAG
    GAGCTGAGGC AGGGCCTGAG TGAACTCCCA GCCATCCACG ACCTTCATCA AGGCATCCTG
    GAGGAGCTGG AGGAAAGGCT GTCAAATTGG GAGAGCCAGC AGAAGGTAGC TGACGTCTTC
    CTGGCCCGGG AGCAGGGGTT TGATCACCAC GCCACTCACA TCCTGCAGTT CGACAGGTAC
    CTAGGTCTGC TCAGTGAGAA TTGCCTCCAC TCTCCCCGGC TGGCAGCTGC TGTCCGTGAA
    TTTGAGCAGA GTGTACAAGG AGGCAGCCAG ACTGCGAAGC ATCGGCTGCT GCGGGTGGTT
    CAACGCCTCT TCCAGTACCA AGTGCTCCTC ACAGACTATT TAAACAACCT TTGTCCGGAC
    TCCGCCGAGT ACGACAACAC ACAGGGTGCA CTGAGCCTCA TCTCCAAAGT CACAGACCGT
    GCCAACGACA GCATGGAGCA AGGGGAAAAC CTGCAGAAGC TGGTCCACAT TGAGCACAGC
    GTCCGGGGCC AAGGGGATCT CCTCCAGCCA GGAAGGGAGT TTCTGAAGGA AGGGACGCTG
    ATGAAAGTAA CAGGGAAAAA CAGACGGCCC CGGCACCTAT TTCTGATGAA CGATGTGCTC
    CTGTACACCT ATCCCCAGAA GGATGGGAAG TACCGGCTGA AGAACACATT GGCTGTGGCC
    AACATGAAGG TCAGCCGCCC TGTGATGGAG AAAGTGCCCT ACGCTCTAAA GATTGAGACT
    TCCGAGTCCT GCCTGATGCT GTCTGCGAGC TCCTGTGCAG AGAGGGACGA GTGGTATGGC
    TGTCTGAGCA GAGCCCTCCC TGAGGACTAC AAGGCCCAGG CGCTGGCTGC ATTCCACCAT
    AGCGTGGAGA TACGAGAGAG GCTGGGGGTT AGCCTTGGGG AGAGGCCCCC CACCCTGGTG
    CCTGTCACAC ACGTCATGAT GTGCATGAAC TGCGGCTGCG ACTTCTCCCT CACCCTGCGG
    CGTCATCACT GTCACGCCTG TGGCAAGATC GTGTGCCGGA ACTGTTCGCG GAACAAGTAC
    CCGCTGAAGT ACCTGAAGGA CAGGATGGCC AAGGTCTGCG ACGGCTGCTT CGGGGAGCTG
    AAGAAGCGGG GCAGGGCTGT CCCGGGCCTG ATGAGAGTTA CAGAGCGGCC TGTGAGCATG
    AGCTTCCCGC TGTCTTCACC CCGCTTCTCG GGCAGTGCCT TTTCATCCGT CTTCCAGAGC
    ATTAACCCCT CGACCTTCAA GAAGCAGAAG AAAGTCCCTT CAGCCCTGAC AGAGGACAAA
    GTGGCCTTGG AGAGTATGCC TCTGCTAGGC TTCACCATTG CTCCAGAAAA GGAAGAGGGC
    AGCAGTGAAG TAGGACCTAT TTTTCACCTT TACCACAAGA AAACCCTATT TTATAGCTTC
    AAAGCAGAAG ATACCAATTC AGCTCAGAGG TGGATCGAGG CCATGGAAGA TGCGAGTGTG
    TTATAG

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