WDR7 cDNA ORF clone, Homo sapiens(human)

The following WDR7 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the WDR7 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
OHu06923 NM_015285.2
Latest version!
Homo sapiens WD repeat domain 7 (WDR7), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$274.50-$384.30
$549.00
OHu06923 XM_006722431.2
Latest version!
Homo sapiens WD repeat domain 7 (WDR7), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$274.50-$384.30
$549.00
OHu51149 XM_017025683.1
Latest version!
Homo sapiens WD repeat domain 7 (WDR7), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $475.30
$679.00
OHu05506 NM_052834.2
Latest version!
Homo sapiens WD repeat domain 7 (WDR7), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $923.30
$1319.00
OHu05506 XM_017025682.1
Latest version!
Homo sapiens WD repeat domain 7 (WDR7), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $923.30
$1319.00
OHu66009 XM_011525888.2
Latest version!
Homo sapiens WD repeat domain 7 (WDR7), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
View Old Accession Versions >>
OHu06923 XM_006722431.1 Homo sapiens WD repeat domain 7 (WDR7), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$274.50-$384.30
$549.00
OHu66009 XM_011525888.1 Homo sapiens WD repeat domain 7 (WDR7), transcript variant X3, 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)
    CloneID OHu06923
    Clone ID Related Accession (Same CDS sequence) XM_006722431.1 , XM_006722431.2 , NM_015285.2
    Accession Version NM_015285.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4473bp)
    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 2019-02-16
    Organism Homo sapiens(human)
    Product WD repeat-containing protein 7 isoform 1
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AK057141.1, AF188125.1, AB011113.2, BC050352.1 and AC012301.5. On Aug 24, 2005 this sequence version replaced NM_015285.1. Transcript Variant: This variant (1) represents the longer transcript and encodes the longer isoform (1). ##Evidence-Data-START## Transcript exon combination :: SRR1660807.214095.1, SRR1660805.248318.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2145743, SAMEA2151741 [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
    4441
    ATGGCAGGAA ACAGCCTTGT TCTACCCATT GTTCTTTGGG GTCGAAAAGC GCCCACACAT 
    TGCATCTCAG CCGTACTTTT AACAGATGAT GGGGCCACGA TCGTAACAGG ATGTCACGAC
    GGACAAATAT GTCTCTGGGA TCTTTCAGTA GAACTGCAAA TTAATCCTCG AGCACTGTTG
    TTTGGTCATA CAGCATCAAT CACTTGTTTG TCTAAAGCTT GTGCTTCCAG TGACAAACAG
    TATATTGTGA GTGCATCTGA AAGTGGAGAG ATGTGCCTCT GGGATGTGAG TGATGGCAGA
    TGTATTGAAT TTACAAAATT AGCTTGCACA CATACTGGCA TACAGTTCTA CCAGTTCTCT
    GTTGGGAATC AGCGAGAAGG AAGGCTTTTA TGCCACGGAC ATTACCCTGA AATCCTTGTT
    GTGGATGCTA CCAGCCTTGA AGTATTATAC TCCTTAGTAT CAAAGATATC ACCAGACTGG
    ATTAGCTCCA TGAGTATTAT TCGATCCCAC CGAACACAAG AGGACACAGT GGTAGCACTC
    TCGGTGACTG GCATCCTGAA GGTCTGGATT GTTACCTCGG AAATAAGTGA CATGCAGGAT
    ACTGAGCCAA TATTTGAGGA GGAATCCAAA CCAATTTATT GTCAGAATTG CCAAAGCATC
    TCTTTTTGTG CATTTACACA AAGGTCACTT TTGGTTGTGT GTTCCAAATA TTGGAGGGTG
    TTCGATGCCG GAGACTATTC CTTGTTGTGT TCAGGTCCTA GTGAAAATGG ACAGACATGG
    ACCGGGGGGG ACTTTGTCTC ATCAGATAAA GTCATCATTT GGACAGAAAA TGGGCAAAGT
    TATATTTACA AACTACCTGC CAGTTGCCTT CCAGCTAGTG ATTCATTCCG CAGTGATGTG
    GGGAAGGCAG TTGAAAATTT AATTCCTCCT GTACAACATA TCCTCTTGGA TCGAAAAGAT
    AAAGAGTTGC TAATTTGTCC TCCTGTTACT CGGTTCTTCT ATGGATGCAG AGAATATTTC
    CATAAACTGT TAATTCAGGG TGATTCTTCT GGAAGGTTGA ATATTTGGAA CATATCAGAC
    ACAGCTGATA AACAGGGAAG TGAAGAAGGG CTGGCAATGA CAACTTCTAT TAGTTTGCAA
    GAGGCATTTG ATAAACTGAA TCCTTGTCCT GCTGGAATTA TAGATCAGCT GAGTGTGATT
    CCCAATAGTA ATGAACCTCT TAAAGTAACT GCAAGTGTGT ACATACCAGC ACATGGACGA
    CTTGTTTGTG GTCGTGAAGA TGGAAGCATA GTTATTGTAC CTGCCACACA GACGGCCATA
    GTACAGCTGT TGCAAGGGGA ACACATGCTC AGAAGAGGTT GGCCACCTCA CAGAACACTC
    CGTGGTCATC GGAACAAAGT CACATGTTTG CTATATCCTC ATCAGGTCTC AGCTCGGTAT
    GATCAAAGAT ACCTGATATC TGGAGGTGTG GATTTTTCAG TCATAATTTG GGACATATTT
    TCTGGAGAAA TGAAACATAT CTTCTGTGTT CATGGTGGTG AGATTACTCA ACTTCTAGTT
    CCACCTGAAA ACTGTAGTGC AAGAGTACAG CACTGCATCT GCTCTGTAGC CAGTGACCAC
    TCAGTAGGAC TTCTAAGTTT GCGAGAGAAA AAATGCATAA TGTTGGCATC TCGTCACCTT
    TTTCCTATTC AAGTAATCAA ATGGAGGCCT TCTGATGATT ACCTGGTGGT GGGGTGTTCA
    GATGGTTCTG TGTACGTCTG GCAAATGGAT ACTGGTGCAT TGGATCGTTG TGTGATGGGG
    ATAACAGCAG TTGAGATTCT AAACGCTTGT GATGAAGCTG TTCCTGCTGC TGTTGATTCA
    CTTAGTCATC CAGCAGTCAA CCTAAAACAA GCTATGACGA GACGTAGTCT TGCTGCTCTT
    AAAAATATGG CCCATCATAA GCTACAAACC CTTGCAACTA ACCTCTTGGC TTCTGAGGCA
    TCTGACAAGG GAAATTTACC TAAATATTCT CATAACTCCC TGATGGTTCA AGCAATAAAG
    ACAAACCTAA CAGACCCGGA CATACATGTG CTATTCTTTG ATGTGGAAGC GTTGATTATT
    CAACTCCTGA CTGAAGAAGC CTCTAGGCCG AATACTGCTC TTATTTCCCC AGAGAATTTG
    CAAAAAGCAT CTGGCAGTTC AGACAAAGGG GGCTCTTTTT TAACTGGAAA ACGAGCAGCA
    GTTCTCTTCC AACAAGTGAA AGAAACGATC AAAGAGAACA TCAAGGAACA CCTCCTTGAT
    GATGAAGAGG AGGATGAGGA GATAATGAGG CAGAGAAGGG AAGAAAGTGA TCCTGAATAT
    CGGTCCAGCA AATCAAAGCC ATTGACCCTA TTAGAATATA ATTTAACTAT GGACACTGCA
    AAGCTGTTTA TGTCCTGCCT TCACGCCTGG GGTTTGAATG AAGTACTGGA TGAAGTTTGC
    CTGGATCGCC TTGGAATGCT GAAACCCCAC TGCACCGTAT CGTTTGGCCT CTTGTCAAGA
    GGAGGCCATA TGTCACTGAT GCTGCCGGGT TATAATCAGC CTGCTTGTAA ACTGTCACAT
    GGGAAAACAG AAGTAGGAAG GAAGCTGCCA GCGTCTGAGG GAGTAGGAAA GGGAACTTAC
    GGAGTGTCCC GTGCCGTCAC CACACAGCAT CTCCTGTCTA TCATTTCTTT GGCAAATACT
    TTAATGAGTA TGACCAATGC AACTTTTATT GGTGATCATA TGAAGAAGGG TCCTACCAGG
    CCACCTAGAC CAAGCACCCC AGACCTTTCT AAGGCAAGGG GTTCCCCTCC AACTTCCAGT
    AATATTGTGC AAGGACAGAT TAAACAAGTT GCTGCACCTG TCGTTTCCGC TCGGTCTGAT
    GCTGATCACT CTGGCTCTGA CCCTCCTTCT GCTCCTGCTT TACATACCTG TTTCTTAGTA
    AATGAAGGTT GGAGTCAGTT AGCTGCTATG CACTGTGTTA TGCTGCCAGA CCTACTGGGA
    TTGGATAAAT TTAGGCCTCC CCTTCTGGAG ATGCTGGCCC GAAGATGGCA AGATCGATGC
    TTGGAGGTGA GAGAAGCCGC GCAGGCCCTG CTTCTGGCGG AACTGAGAAG AATTGAGCAG
    GCAGGCAGGA AGGAAGCCAT TGATGCCTGG GCTCCTTACT TACCTCAGTA CATAGACCAC
    GTCATATCAC CTGGAGTCAC ATCAGAAGCC GCGCAGACTA TCACCACGGC TCCTGATGCC
    TCAGGGCCTG AAGCAAAAGT CCAGGAGGAA GAGCATGACC TTGTTGACGA TGACATCACC
    ACTGGTTGCT TATCAAGTGT CCCACAAATG AAAAAAATTT CTACATCTTA CGAGGAAAGA
    CGGAAGCAAG CTACCGCTAT TGTTTTACTT GGAGTAATAG GAGCTGAATT TGGTGCTGAA
    ATTGAACCTC CTAAACTATT GACCAGACCT CGAAGCTCTA GCCAAATTCC TGAGGGATTC
    GGGTTGACTA GTGGTGGATC CAACTACTCG CTGGCCAGAC ATACTTGCAA GGCACTGACG
    TTTCTTCTGC TACAGCCTCC AAGCCCCAAA CTTCCTCCAC ACAGCACTAT CCGAAGAACA
    GCCATTGATC TGATTGGACG TGGGTTCACT GTTTGGGAGC CTTACATGGA TGTGTCCGCT
    GTTCTGATGG GGCTTCTCGA ACTTTGTGCC GATGCCGAGA AACAACTTGC CAACATCACA
    ATGGGGTTGC CTCTGAGCCC AGCAGCTGAC TCGGCCCGCT CTGCGAGGCA TGCCCTCTCG
    CTCATTGCCA CCGCCAGACC ACCCGCCTTC ATCACCACCA TAGCCAAAGA GGTACACAGA
    CATACGGCTC TTGCAGCAAA TACCCAATCA CAGCAGAATA TGCACACAAC AACTCTTGCA
    CGAGCTAAAG GGGAAATTTT GAGAGTCATT GAAATTCTTA TTGAAAAGAT GCCCACAGAT
    GTTGTGGATC TTCTCGTGGA GGTTATGGAC ATCATTATGT ACTGCCTTGA AGGATCTTTA
    GTTAAAAAGA AAGGTCTTCA AGAATGTTTC CCAGCCATCT GCAGGTTCTA CATGGTCAGC
    TATTATGAGC GGAATCACAG AATAGCAGTT GGAGCTCGCC ATGGTTCAGT GGCCCTGTAC
    GACATCCGGA CTGGAAAATG TCAGACAATC CATGGACACA AGGGACCAAT CACTGCAGTG
    GCTTTTGCTC CTGATGGAAG ATATCTTGCC ACCTACTCAA ACACTGACAG CCACATTTCT
    TTTTGGCAGA TGAACACGTC ACTGCTGGGA AGCATCGGCA TGCTGAACTC GGCACCTCAG
    CTGCGCTGCA TTAAAACCTA CCAGGTGCCC CCTGTGCAGC CCGCGTCCCC CGGCTCCCAC
    AATGCCCTCA AGCTGGCCCG GCTCATCTGG ACTTCCAACC GCAACGTCAT CCTCATGGCC
    CATGACGGGA AGGAGCACCG CTTCATGGTC TAA

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

    RefSeq NP_056100.2
    CDS212..4684
    Translation

    Target ORF information:

    RefSeq Version NM_015285.2
    Organism Homo sapiens(human)
    Definition Homo sapiens WD repeat domain 7 (WDR7), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_015285.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGCAGGAA ACAGCCTTGT TCTACCCATT GTTCTTTGGG GTCGAAAAGC GCCCACACAT 
    TGCATCTCAG CCGTACTTTT AACAGATGAT GGGGCCACGA TCGTAACAGG ATGTCACGAC
    GGACAAATAT GTCTCTGGGA TCTTTCAGTA GAACTGCAAA TTAATCCTCG AGCACTGTTG
    TTTGGTCATA CAGCATCAAT CACTTGTTTG TCTAAAGCTT GTGCTTCCAG TGACAAACAG
    TATATTGTGA GTGCATCTGA AAGTGGAGAG ATGTGCCTCT GGGATGTGAG TGATGGCAGA
    TGTATTGAAT TTACAAAATT AGCTTGCACA CATACTGGCA TACAGTTCTA CCAGTTCTCT
    GTTGGGAATC AGCGAGAAGG AAGGCTTTTA TGCCACGGAC ATTACCCTGA AATCCTTGTT
    GTGGATGCTA CCAGCCTTGA AGTATTATAC TCCTTAGTAT CAAAGATATC ACCAGACTGG
    ATTAGCTCCA TGAGTATTAT TCGATCCCAC CGAACACAAG AGGACACAGT GGTAGCACTC
    TCGGTGACTG GCATCCTGAA GGTCTGGATT GTTACCTCGG AAATAAGTGA CATGCAGGAT
    ACTGAGCCAA TATTTGAGGA GGAATCCAAA CCAATTTATT GTCAGAATTG CCAAAGCATC
    TCTTTTTGTG CATTTACACA AAGGTCACTT TTGGTTGTGT GTTCCAAATA TTGGAGGGTG
    TTCGATGCCG GAGACTATTC CTTGTTGTGT TCAGGTCCTA GTGAAAATGG ACAGACATGG
    ACCGGGGGGG ACTTTGTCTC ATCAGATAAA GTCATCATTT GGACAGAAAA TGGGCAAAGT
    TATATTTACA AACTACCTGC CAGTTGCCTT CCAGCTAGTG ATTCATTCCG CAGTGATGTG
    GGGAAGGCAG TTGAAAATTT AATTCCTCCT GTACAACATA TCCTCTTGGA TCGAAAAGAT
    AAAGAGTTGC TAATTTGTCC TCCTGTTACT CGGTTCTTCT ATGGATGCAG AGAATATTTC
    CATAAACTGT TAATTCAGGG TGATTCTTCT GGAAGGTTGA ATATTTGGAA CATATCAGAC
    ACAGCTGATA AACAGGGAAG TGAAGAAGGG CTGGCAATGA CAACTTCTAT TAGTTTGCAA
    GAGGCATTTG ATAAACTGAA TCCTTGTCCT GCTGGAATTA TAGATCAGCT GAGTGTGATT
    CCCAATAGTA ATGAACCTCT TAAAGTAACT GCAAGTGTGT ACATACCAGC ACATGGACGA
    CTTGTTTGTG GTCGTGAAGA TGGAAGCATA GTTATTGTAC CTGCCACACA GACGGCCATA
    GTACAGCTGT TGCAAGGGGA ACACATGCTC AGAAGAGGTT GGCCACCTCA CAGAACACTC
    CGTGGTCATC GGAACAAAGT CACATGTTTG CTATATCCTC ATCAGGTCTC AGCTCGGTAT
    GATCAAAGAT ACCTGATATC TGGAGGTGTG GATTTTTCAG TCATAATTTG GGACATATTT
    TCTGGAGAAA TGAAACATAT CTTCTGTGTT CATGGTGGTG AGATTACTCA ACTTCTAGTT
    CCACCTGAAA ACTGTAGTGC AAGAGTACAG CACTGCATCT GCTCTGTAGC CAGTGACCAC
    TCAGTAGGAC TTCTAAGTTT GCGAGAGAAA AAATGCATAA TGTTGGCATC TCGTCACCTT
    TTTCCTATTC AAGTAATCAA ATGGAGGCCT TCTGATGATT ACCTGGTGGT GGGGTGTTCA
    GATGGTTCTG TGTACGTCTG GCAAATGGAT ACTGGTGCAT TGGATCGTTG TGTGATGGGG
    ATAACAGCAG TTGAGATTCT AAACGCTTGT GATGAAGCTG TTCCTGCTGC TGTTGATTCA
    CTTAGTCATC CAGCAGTCAA CCTAAAACAA GCTATGACGA GACGTAGTCT TGCTGCTCTT
    AAAAATATGG CCCATCATAA GCTACAAACC CTTGCAACTA ACCTCTTGGC TTCTGAGGCA
    TCTGACAAGG GAAATTTACC TAAATATTCT CATAACTCCC TGATGGTTCA AGCAATAAAG
    ACAAACCTAA CAGACCCGGA CATACATGTG CTATTCTTTG ATGTGGAAGC GTTGATTATT
    CAACTCCTGA CTGAAGAAGC CTCTAGGCCG AATACTGCTC TTATTTCCCC AGAGAATTTG
    CAAAAAGCAT CTGGCAGTTC AGACAAAGGG GGCTCTTTTT TAACTGGAAA ACGAGCAGCA
    GTTCTCTTCC AACAAGTGAA AGAAACGATC AAAGAGAACA TCAAGGAACA CCTCCTTGAT
    GATGAAGAGG AGGATGAGGA GATAATGAGG CAGAGAAGGG AAGAAAGTGA TCCTGAATAT
    CGGTCCAGCA AATCAAAGCC ATTGACCCTA TTAGAATATA ATTTAACTAT GGACACTGCA
    AAGCTGTTTA TGTCCTGCCT TCACGCCTGG GGTTTGAATG AAGTACTGGA TGAAGTTTGC
    CTGGATCGCC TTGGAATGCT GAAACCCCAC TGCACCGTAT CGTTTGGCCT CTTGTCAAGA
    GGAGGCCATA TGTCACTGAT GCTGCCGGGT TATAATCAGC CTGCTTGTAA ACTGTCACAT
    GGGAAAACAG AAGTAGGAAG GAAGCTGCCA GCGTCTGAGG GAGTAGGAAA GGGAACTTAC
    GGAGTGTCCC GTGCCGTCAC CACACAGCAT CTCCTGTCTA TCATTTCTTT GGCAAATACT
    TTAATGAGTA TGACCAATGC AACTTTTATT GGTGATCATA TGAAGAAGGG TCCTACCAGG
    CCACCTAGAC CAAGCACCCC AGACCTTTCT AAGGCAAGGG GTTCCCCTCC AACTTCCAGT
    AATATTGTGC AAGGACAGAT TAAACAAGTT GCTGCACCTG TCGTTTCCGC TCGGTCTGAT
    GCTGATCACT CTGGCTCTGA CCCTCCTTCT GCTCCTGCTT TACATACCTG TTTCTTAGTA
    AATGAAGGTT GGAGTCAGTT AGCTGCTATG CACTGTGTTA TGCTGCCAGA CCTACTGGGA
    TTGGATAAAT TTAGGCCTCC CCTTCTGGAG ATGCTGGCCC GAAGATGGCA AGATCGATGC
    TTGGAGGTGA GAGAAGCCGC GCAGGCCCTG CTTCTGGCGG AACTGAGAAG AATTGAGCAG
    GCAGGCAGGA AGGAAGCCAT TGATGCCTGG GCTCCTTACT TACCTCAGTA CATAGACCAC
    GTCATATCAC CTGGAGTCAC ATCAGAAGCC GCGCAGACTA TCACCACGGC TCCTGATGCC
    TCAGGGCCTG AAGCAAAAGT CCAGGAGGAA GAGCATGACC TTGTTGACGA TGACATCACC
    ACTGGTTGCT TATCAAGTGT CCCACAAATG AAAAAAATTT CTACATCTTA CGAGGAAAGA
    CGGAAGCAAG CTACCGCTAT TGTTTTACTT GGAGTAATAG GAGCTGAATT TGGTGCTGAA
    ATTGAACCTC CTAAACTATT GACCAGACCT CGAAGCTCTA GCCAAATTCC TGAGGGATTC
    GGGTTGACTA GTGGTGGATC CAACTACTCG CTGGCCAGAC ATACTTGCAA GGCACTGACG
    TTTCTTCTGC TACAGCCTCC AAGCCCCAAA CTTCCTCCAC ACAGCACTAT CCGAAGAACA
    GCCATTGATC TGATTGGACG TGGGTTCACT GTTTGGGAGC CTTACATGGA TGTGTCCGCT
    GTTCTGATGG GGCTTCTCGA ACTTTGTGCC GATGCCGAGA AACAACTTGC CAACATCACA
    ATGGGGTTGC CTCTGAGCCC AGCAGCTGAC TCGGCCCGCT CTGCGAGGCA TGCCCTCTCG
    CTCATTGCCA CCGCCAGACC ACCCGCCTTC ATCACCACCA TAGCCAAAGA GGTACACAGA
    CATACGGCTC TTGCAGCAAA TACCCAATCA CAGCAGAATA TGCACACAAC AACTCTTGCA
    CGAGCTAAAG GGGAAATTTT GAGAGTCATT GAAATTCTTA TTGAAAAGAT GCCCACAGAT
    GTTGTGGATC TTCTCGTGGA GGTTATGGAC ATCATTATGT ACTGCCTTGA AGGATCTTTA
    GTTAAAAAGA AAGGTCTTCA AGAATGTTTC CCAGCCATCT GCAGGTTCTA CATGGTCAGC
    TATTATGAGC GGAATCACAG AATAGCAGTT GGAGCTCGCC ATGGTTCAGT GGCCCTGTAC
    GACATCCGGA CTGGAAAATG TCAGACAATC CATGGACACA AGGGACCAAT CACTGCAGTG
    GCTTTTGCTC CTGATGGAAG ATATCTTGCC ACCTACTCAA ACACTGACAG CCACATTTCT
    TTTTGGCAGA TGAACACGTC ACTGCTGGGA AGCATCGGCA TGCTGAACTC GGCACCTCAG
    CTGCGCTGCA TTAAAACCTA CCAGGTGCCC CCTGTGCAGC CCGCGTCCCC CGGCTCCCAC
    AATGCCCTCA AGCTGGCCCG GCTCATCTGG ACTTCCAACC GCAACGTCAT CCTCATGGCC
    CATGACGGGA AGGAGCACCG CTTCATGGTC TAA

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

    CloneID OHu06923
    Clone ID Related Accession (Same CDS sequence) XM_006722431.1 , XM_006722431.2 , NM_015285.2
    Accession Version XM_006722431.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4473bp)
    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 2015-03-11
    Organism Homo sapiens(Human)
    Product WD repeat-containing protein 7 isoform X1
    Comment

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGCAGGAA ACAGCCTTGT TCTACCCATT GTTCTTTGGG GTCGAAAAGC GCCCACACAT 
    TGCATCTCAG CCGTACTTTT AACAGATGAT GGGGCCACGA TCGTAACAGG ATGTCACGAC
    GGACAAATAT GTCTCTGGGA TCTTTCAGTA GAACTGCAAA TTAATCCTCG AGCACTGTTG
    TTTGGTCATA CAGCATCAAT CACTTGTTTG TCTAAAGCTT GTGCTTCCAG TGACAAACAG
    TATATTGTGA GTGCATCTGA AAGTGGAGAG ATGTGCCTCT GGGATGTGAG TGATGGCAGA
    TGTATTGAAT TTACAAAATT AGCTTGCACA CATACTGGCA TACAGTTCTA CCAGTTCTCT
    GTTGGGAATC AGCGAGAAGG AAGGCTTTTA TGCCACGGAC ATTACCCTGA AATCCTTGTT
    GTGGATGCTA CCAGCCTTGA AGTATTATAC TCCTTAGTAT CAAAGATATC ACCAGACTGG
    ATTAGCTCCA TGAGTATTAT TCGATCCCAC CGAACACAAG AGGACACAGT GGTAGCACTC
    TCGGTGACTG GCATCCTGAA GGTCTGGATT GTTACCTCGG AAATAAGTGA CATGCAGGAT
    ACTGAGCCAA TATTTGAGGA GGAATCCAAA CCAATTTATT GTCAGAATTG CCAAAGCATC
    TCTTTTTGTG CATTTACACA AAGGTCACTT TTGGTTGTGT GTTCCAAATA TTGGAGGGTG
    TTCGATGCCG GAGACTATTC CTTGTTGTGT TCAGGTCCTA GTGAAAATGG ACAGACATGG
    ACCGGGGGGG ACTTTGTCTC ATCAGATAAA GTCATCATTT GGACAGAAAA TGGGCAAAGT
    TATATTTACA AACTACCTGC CAGTTGCCTT CCAGCTAGTG ATTCATTCCG CAGTGATGTG
    GGGAAGGCAG TTGAAAATTT AATTCCTCCT GTACAACATA TCCTCTTGGA TCGAAAAGAT
    AAAGAGTTGC TAATTTGTCC TCCTGTTACT CGGTTCTTCT ATGGATGCAG AGAATATTTC
    CATAAACTGT TAATTCAGGG TGATTCTTCT GGAAGGTTGA ATATTTGGAA CATATCAGAC
    ACAGCTGATA AACAGGGAAG TGAAGAAGGG CTGGCAATGA CAACTTCTAT TAGTTTGCAA
    GAGGCATTTG ATAAACTGAA TCCTTGTCCT GCTGGAATTA TAGATCAGCT GAGTGTGATT
    CCCAATAGTA ATGAACCTCT TAAAGTAACT GCAAGTGTGT ACATACCAGC ACATGGACGA
    CTTGTTTGTG GTCGTGAAGA TGGAAGCATA GTTATTGTAC CTGCCACACA GACGGCCATA
    GTACAGCTGT TGCAAGGGGA ACACATGCTC AGAAGAGGTT GGCCACCTCA CAGAACACTC
    CGTGGTCATC GGAACAAAGT CACATGTTTG CTATATCCTC ATCAGGTCTC AGCTCGGTAT
    GATCAAAGAT ACCTGATATC TGGAGGTGTG GATTTTTCAG TCATAATTTG GGACATATTT
    TCTGGAGAAA TGAAACATAT CTTCTGTGTT CATGGTGGTG AGATTACTCA ACTTCTAGTT
    CCACCTGAAA ACTGTAGTGC AAGAGTACAG CACTGCATCT GCTCTGTAGC CAGTGACCAC
    TCAGTAGGAC TTCTAAGTTT GCGAGAGAAA AAATGCATAA TGTTGGCATC TCGTCACCTT
    TTTCCTATTC AAGTAATCAA ATGGAGGCCT TCTGATGATT ACCTGGTGGT GGGGTGTTCA
    GATGGTTCTG TGTACGTCTG GCAAATGGAT ACTGGTGCAT TGGATCGTTG TGTGATGGGG
    ATAACAGCAG TTGAGATTCT AAACGCTTGT GATGAAGCTG TTCCTGCTGC TGTTGATTCA
    CTTAGTCATC CAGCAGTCAA CCTAAAACAA GCTATGACGA GACGTAGTCT TGCTGCTCTT
    AAAAATATGG CCCATCATAA GCTACAAACC CTTGCAACTA ACCTCTTGGC TTCTGAGGCA
    TCTGACAAGG GAAATTTACC TAAATATTCT CATAACTCCC TGATGGTTCA AGCAATAAAG
    ACAAACCTAA CAGACCCGGA CATACATGTG CTATTCTTTG ATGTGGAAGC GTTGATTATT
    CAACTCCTGA CTGAAGAAGC CTCTAGGCCG AATACTGCTC TTATTTCCCC AGAGAATTTG
    CAAAAAGCAT CTGGCAGTTC AGACAAAGGG GGCTCTTTTT TAACTGGAAA ACGAGCAGCA
    GTTCTCTTCC AACAAGTGAA AGAAACGATC AAAGAGAACA TCAAGGAACA CCTCCTTGAT
    GATGAAGAGG AGGATGAGGA GATAATGAGG CAGAGAAGGG AAGAAAGTGA TCCTGAATAT
    CGGTCCAGCA AATCAAAGCC ATTGACCCTA TTAGAATATA ATTTAACTAT GGACACTGCA
    AAGCTGTTTA TGTCCTGCCT TCACGCCTGG GGTTTGAATG AAGTACTGGA TGAAGTTTGC
    CTGGATCGCC TTGGAATGCT GAAACCCCAC TGCACCGTAT CGTTTGGCCT CTTGTCAAGA
    GGAGGCCATA TGTCACTGAT GCTGCCGGGT TATAATCAGC CTGCTTGTAA ACTGTCACAT
    GGGAAAACAG AAGTAGGAAG GAAGCTGCCA GCGTCTGAGG GAGTAGGAAA GGGAACTTAC
    GGAGTGTCCC GTGCCGTCAC CACACAGCAT CTCCTGTCTA TCATTTCTTT GGCAAATACT
    TTAATGAGTA TGACCAATGC AACTTTTATT GGTGATCATA TGAAGAAGGG TCCTACCAGG
    CCACCTAGAC CAAGCACCCC AGACCTTTCT AAGGCAAGGG GTTCCCCTCC AACTTCCAGT
    AATATTGTGC AAGGACAGAT TAAACAAGTT GCTGCACCTG TCGTTTCCGC TCGGTCTGAT
    GCTGATCACT CTGGCTCTGA CCCTCCTTCT GCTCCTGCTT TACATACCTG TTTCTTAGTA
    AATGAAGGTT GGAGTCAGTT AGCTGCTATG CACTGTGTTA TGCTGCCAGA CCTACTGGGA
    TTGGATAAAT TTAGGCCTCC CCTTCTGGAG ATGCTGGCCC GAAGATGGCA AGATCGATGC
    TTGGAGGTGA GAGAAGCCGC GCAGGCCCTG CTTCTGGCGG AACTGAGAAG AATTGAGCAG
    GCAGGCAGGA AGGAAGCCAT TGATGCCTGG GCTCCTTACT TACCTCAGTA CATAGACCAC
    GTCATATCAC CTGGAGTCAC ATCAGAAGCC GCGCAGACTA TCACCACGGC TCCTGATGCC
    TCAGGGCCTG AAGCAAAAGT CCAGGAGGAA GAGCATGACC TTGTTGACGA TGACATCACC
    ACTGGTTGCT TATCAAGTGT CCCACAAATG AAAAAAATTT CTACATCTTA CGAGGAAAGA
    CGGAAGCAAG CTACCGCTAT TGTTTTACTT GGAGTAATAG GAGCTGAATT TGGTGCTGAA
    ATTGAACCTC CTAAACTATT GACCAGACCT CGAAGCTCTA GCCAAATTCC TGAGGGATTC
    GGGTTGACTA GTGGTGGATC CAACTACTCG CTGGCCAGAC ATACTTGCAA GGCACTGACG
    TTTCTTCTGC TACAGCCTCC AAGCCCCAAA CTTCCTCCAC ACAGCACTAT CCGAAGAACA
    GCCATTGATC TGATTGGACG TGGGTTCACT GTTTGGGAGC CTTACATGGA TGTGTCCGCT
    GTTCTGATGG GGCTTCTCGA ACTTTGTGCC GATGCCGAGA AACAACTTGC CAACATCACA
    ATGGGGTTGC CTCTGAGCCC AGCAGCTGAC TCGGCCCGCT CTGCGAGGCA TGCCCTCTCG
    CTCATTGCCA CCGCCAGACC ACCCGCCTTC ATCACCACCA TAGCCAAAGA GGTACACAGA
    CATACGGCTC TTGCAGCAAA TACCCAATCA CAGCAGAATA TGCACACAAC AACTCTTGCA
    CGAGCTAAAG GGGAAATTTT GAGAGTCATT GAAATTCTTA TTGAAAAGAT GCCCACAGAT
    GTTGTGGATC TTCTCGTGGA GGTTATGGAC ATCATTATGT ACTGCCTTGA AGGATCTTTA
    GTTAAAAAGA AAGGTCTTCA AGAATGTTTC CCAGCCATCT GCAGGTTCTA CATGGTCAGC
    TATTATGAGC GGAATCACAG AATAGCAGTT GGAGCTCGCC ATGGTTCAGT GGCCCTGTAC
    GACATCCGGA CTGGAAAATG TCAGACAATC CATGGACACA AGGGACCAAT CACTGCAGTG
    GCTTTTGCTC CTGATGGAAG ATATCTTGCC ACCTACTCAA ACACTGACAG CCACATTTCT
    TTTTGGCAGA TGAACACGTC ACTGCTGGGA AGCATCGGCA TGCTGAACTC GGCACCTCAG
    CTGCGCTGCA TTAAAACCTA CCAGGTGCCC CCTGTGCAGC CCGCGTCCCC CGGCTCCCAC
    AATGCCCTCA AGCTGGCCCG GCTCATCTGG ACTTCCAACC GCAACGTCAT CCTCATGGCC
    CATGACGGGA AGGAGCACCG CTTCATGGTC TAA

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

    RefSeq XP_006722494.1
    Translation

    Target ORF information:

    RefSeq Version XM_006722431.1
    Organism Homo sapiens(Human)
    Definition Homo sapiens WD repeat domain 7 (WDR7), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006722431.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGCAGGAA ACAGCCTTGT TCTACCCATT GTTCTTTGGG GTCGAAAAGC GCCCACACAT 
    TGCATCTCAG CCGTACTTTT AACAGATGAT GGGGCCACGA TCGTAACAGG ATGTCACGAC
    GGACAAATAT GTCTCTGGGA TCTTTCAGTA GAACTGCAAA TTAATCCTCG AGCACTGTTG
    TTTGGTCATA CAGCATCAAT CACTTGTTTG TCTAAAGCTT GTGCTTCCAG TGACAAACAG
    TATATTGTGA GTGCATCTGA AAGTGGAGAG ATGTGCCTCT GGGATGTGAG TGATGGCAGA
    TGTATTGAAT TTACAAAATT AGCTTGCACA CATACTGGCA TACAGTTCTA CCAGTTCTCT
    GTTGGGAATC AGCGAGAAGG AAGGCTTTTA TGCCACGGAC ATTACCCTGA AATCCTTGTT
    GTGGATGCTA CCAGCCTTGA AGTATTATAC TCCTTAGTAT CAAAGATATC ACCAGACTGG
    ATTAGCTCCA TGAGTATTAT TCGATCCCAC CGAACACAAG AGGACACAGT GGTAGCACTC
    TCGGTGACTG GCATCCTGAA GGTCTGGATT GTTACCTCGG AAATAAGTGA CATGCAGGAT
    ACTGAGCCAA TATTTGAGGA GGAATCCAAA CCAATTTATT GTCAGAATTG CCAAAGCATC
    TCTTTTTGTG CATTTACACA AAGGTCACTT TTGGTTGTGT GTTCCAAATA TTGGAGGGTG
    TTCGATGCCG GAGACTATTC CTTGTTGTGT TCAGGTCCTA GTGAAAATGG ACAGACATGG
    ACCGGGGGGG ACTTTGTCTC ATCAGATAAA GTCATCATTT GGACAGAAAA TGGGCAAAGT
    TATATTTACA AACTACCTGC CAGTTGCCTT CCAGCTAGTG ATTCATTCCG CAGTGATGTG
    GGGAAGGCAG TTGAAAATTT AATTCCTCCT GTACAACATA TCCTCTTGGA TCGAAAAGAT
    AAAGAGTTGC TAATTTGTCC TCCTGTTACT CGGTTCTTCT ATGGATGCAG AGAATATTTC
    CATAAACTGT TAATTCAGGG TGATTCTTCT GGAAGGTTGA ATATTTGGAA CATATCAGAC
    ACAGCTGATA AACAGGGAAG TGAAGAAGGG CTGGCAATGA CAACTTCTAT TAGTTTGCAA
    GAGGCATTTG ATAAACTGAA TCCTTGTCCT GCTGGAATTA TAGATCAGCT GAGTGTGATT
    CCCAATAGTA ATGAACCTCT TAAAGTAACT GCAAGTGTGT ACATACCAGC ACATGGACGA
    CTTGTTTGTG GTCGTGAAGA TGGAAGCATA GTTATTGTAC CTGCCACACA GACGGCCATA
    GTACAGCTGT TGCAAGGGGA ACACATGCTC AGAAGAGGTT GGCCACCTCA CAGAACACTC
    CGTGGTCATC GGAACAAAGT CACATGTTTG CTATATCCTC ATCAGGTCTC AGCTCGGTAT
    GATCAAAGAT ACCTGATATC TGGAGGTGTG GATTTTTCAG TCATAATTTG GGACATATTT
    TCTGGAGAAA TGAAACATAT CTTCTGTGTT CATGGTGGTG AGATTACTCA ACTTCTAGTT
    CCACCTGAAA ACTGTAGTGC AAGAGTACAG CACTGCATCT GCTCTGTAGC CAGTGACCAC
    TCAGTAGGAC TTCTAAGTTT GCGAGAGAAA AAATGCATAA TGTTGGCATC TCGTCACCTT
    TTTCCTATTC AAGTAATCAA ATGGAGGCCT TCTGATGATT ACCTGGTGGT GGGGTGTTCA
    GATGGTTCTG TGTACGTCTG GCAAATGGAT ACTGGTGCAT TGGATCGTTG TGTGATGGGG
    ATAACAGCAG TTGAGATTCT AAACGCTTGT GATGAAGCTG TTCCTGCTGC TGTTGATTCA
    CTTAGTCATC CAGCAGTCAA CCTAAAACAA GCTATGACGA GACGTAGTCT TGCTGCTCTT
    AAAAATATGG CCCATCATAA GCTACAAACC CTTGCAACTA ACCTCTTGGC TTCTGAGGCA
    TCTGACAAGG GAAATTTACC TAAATATTCT CATAACTCCC TGATGGTTCA AGCAATAAAG
    ACAAACCTAA CAGACCCGGA CATACATGTG CTATTCTTTG ATGTGGAAGC GTTGATTATT
    CAACTCCTGA CTGAAGAAGC CTCTAGGCCG AATACTGCTC TTATTTCCCC AGAGAATTTG
    CAAAAAGCAT CTGGCAGTTC AGACAAAGGG GGCTCTTTTT TAACTGGAAA ACGAGCAGCA
    GTTCTCTTCC AACAAGTGAA AGAAACGATC AAAGAGAACA TCAAGGAACA CCTCCTTGAT
    GATGAAGAGG AGGATGAGGA GATAATGAGG CAGAGAAGGG AAGAAAGTGA TCCTGAATAT
    CGGTCCAGCA AATCAAAGCC ATTGACCCTA TTAGAATATA ATTTAACTAT GGACACTGCA
    AAGCTGTTTA TGTCCTGCCT TCACGCCTGG GGTTTGAATG AAGTACTGGA TGAAGTTTGC
    CTGGATCGCC TTGGAATGCT GAAACCCCAC TGCACCGTAT CGTTTGGCCT CTTGTCAAGA
    GGAGGCCATA TGTCACTGAT GCTGCCGGGT TATAATCAGC CTGCTTGTAA ACTGTCACAT
    GGGAAAACAG AAGTAGGAAG GAAGCTGCCA GCGTCTGAGG GAGTAGGAAA GGGAACTTAC
    GGAGTGTCCC GTGCCGTCAC CACACAGCAT CTCCTGTCTA TCATTTCTTT GGCAAATACT
    TTAATGAGTA TGACCAATGC AACTTTTATT GGTGATCATA TGAAGAAGGG TCCTACCAGG
    CCACCTAGAC CAAGCACCCC AGACCTTTCT AAGGCAAGGG GTTCCCCTCC AACTTCCAGT
    AATATTGTGC AAGGACAGAT TAAACAAGTT GCTGCACCTG TCGTTTCCGC TCGGTCTGAT
    GCTGATCACT CTGGCTCTGA CCCTCCTTCT GCTCCTGCTT TACATACCTG TTTCTTAGTA
    AATGAAGGTT GGAGTCAGTT AGCTGCTATG CACTGTGTTA TGCTGCCAGA CCTACTGGGA
    TTGGATAAAT TTAGGCCTCC CCTTCTGGAG ATGCTGGCCC GAAGATGGCA AGATCGATGC
    TTGGAGGTGA GAGAAGCCGC GCAGGCCCTG CTTCTGGCGG AACTGAGAAG AATTGAGCAG
    GCAGGCAGGA AGGAAGCCAT TGATGCCTGG GCTCCTTACT TACCTCAGTA CATAGACCAC
    GTCATATCAC CTGGAGTCAC ATCAGAAGCC GCGCAGACTA TCACCACGGC TCCTGATGCC
    TCAGGGCCTG AAGCAAAAGT CCAGGAGGAA GAGCATGACC TTGTTGACGA TGACATCACC
    ACTGGTTGCT TATCAAGTGT CCCACAAATG AAAAAAATTT CTACATCTTA CGAGGAAAGA
    CGGAAGCAAG CTACCGCTAT TGTTTTACTT GGAGTAATAG GAGCTGAATT TGGTGCTGAA
    ATTGAACCTC CTAAACTATT GACCAGACCT CGAAGCTCTA GCCAAATTCC TGAGGGATTC
    GGGTTGACTA GTGGTGGATC CAACTACTCG CTGGCCAGAC ATACTTGCAA GGCACTGACG
    TTTCTTCTGC TACAGCCTCC AAGCCCCAAA CTTCCTCCAC ACAGCACTAT CCGAAGAACA
    GCCATTGATC TGATTGGACG TGGGTTCACT GTTTGGGAGC CTTACATGGA TGTGTCCGCT
    GTTCTGATGG GGCTTCTCGA ACTTTGTGCC GATGCCGAGA AACAACTTGC CAACATCACA
    ATGGGGTTGC CTCTGAGCCC AGCAGCTGAC TCGGCCCGCT CTGCGAGGCA TGCCCTCTCG
    CTCATTGCCA CCGCCAGACC ACCCGCCTTC ATCACCACCA TAGCCAAAGA GGTACACAGA
    CATACGGCTC TTGCAGCAAA TACCCAATCA CAGCAGAATA TGCACACAAC AACTCTTGCA
    CGAGCTAAAG GGGAAATTTT GAGAGTCATT GAAATTCTTA TTGAAAAGAT GCCCACAGAT
    GTTGTGGATC TTCTCGTGGA GGTTATGGAC ATCATTATGT ACTGCCTTGA AGGATCTTTA
    GTTAAAAAGA AAGGTCTTCA AGAATGTTTC CCAGCCATCT GCAGGTTCTA CATGGTCAGC
    TATTATGAGC GGAATCACAG AATAGCAGTT GGAGCTCGCC ATGGTTCAGT GGCCCTGTAC
    GACATCCGGA CTGGAAAATG TCAGACAATC CATGGACACA AGGGACCAAT CACTGCAGTG
    GCTTTTGCTC CTGATGGAAG ATATCTTGCC ACCTACTCAA ACACTGACAG CCACATTTCT
    TTTTGGCAGA TGAACACGTC ACTGCTGGGA AGCATCGGCA TGCTGAACTC GGCACCTCAG
    CTGCGCTGCA TTAAAACCTA CCAGGTGCCC CCTGTGCAGC CCGCGTCCCC CGGCTCCCAC
    AATGCCCTCA AGCTGGCCCG GCTCATCTGG ACTTCCAACC GCAACGTCAT CCTCATGGCC
    CATGACGGGA AGGAGCACCG CTTCATGGTC TAA

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

    CloneID OHu06923
    Clone ID Related Accession (Same CDS sequence) XM_006722431.1 , XM_006722431.2 , NM_015285.2
    Accession Version XM_006722431.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4473bp)
    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 WD repeat-containing protein 7 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000018.10) 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_006722431.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGCAGGAA ACAGCCTTGT TCTACCCATT GTTCTTTGGG GTCGAAAAGC GCCCACACAT 
    TGCATCTCAG CCGTACTTTT AACAGATGAT GGGGCCACGA TCGTAACAGG ATGTCACGAC
    GGACAAATAT GTCTCTGGGA TCTTTCAGTA GAACTGCAAA TTAATCCTCG AGCACTGTTG
    TTTGGTCATA CAGCATCAAT CACTTGTTTG TCTAAAGCTT GTGCTTCCAG TGACAAACAG
    TATATTGTGA GTGCATCTGA AAGTGGAGAG ATGTGCCTCT GGGATGTGAG TGATGGCAGA
    TGTATTGAAT TTACAAAATT AGCTTGCACA CATACTGGCA TACAGTTCTA CCAGTTCTCT
    GTTGGGAATC AGCGAGAAGG AAGGCTTTTA TGCCACGGAC ATTACCCTGA AATCCTTGTT
    GTGGATGCTA CCAGCCTTGA AGTATTATAC TCCTTAGTAT CAAAGATATC ACCAGACTGG
    ATTAGCTCCA TGAGTATTAT TCGATCCCAC CGAACACAAG AGGACACAGT GGTAGCACTC
    TCGGTGACTG GCATCCTGAA GGTCTGGATT GTTACCTCGG AAATAAGTGA CATGCAGGAT
    ACTGAGCCAA TATTTGAGGA GGAATCCAAA CCAATTTATT GTCAGAATTG CCAAAGCATC
    TCTTTTTGTG CATTTACACA AAGGTCACTT TTGGTTGTGT GTTCCAAATA TTGGAGGGTG
    TTCGATGCCG GAGACTATTC CTTGTTGTGT TCAGGTCCTA GTGAAAATGG ACAGACATGG
    ACCGGGGGGG ACTTTGTCTC ATCAGATAAA GTCATCATTT GGACAGAAAA TGGGCAAAGT
    TATATTTACA AACTACCTGC CAGTTGCCTT CCAGCTAGTG ATTCATTCCG CAGTGATGTG
    GGGAAGGCAG TTGAAAATTT AATTCCTCCT GTACAACATA TCCTCTTGGA TCGAAAAGAT
    AAAGAGTTGC TAATTTGTCC TCCTGTTACT CGGTTCTTCT ATGGATGCAG AGAATATTTC
    CATAAACTGT TAATTCAGGG TGATTCTTCT GGAAGGTTGA ATATTTGGAA CATATCAGAC
    ACAGCTGATA AACAGGGAAG TGAAGAAGGG CTGGCAATGA CAACTTCTAT TAGTTTGCAA
    GAGGCATTTG ATAAACTGAA TCCTTGTCCT GCTGGAATTA TAGATCAGCT GAGTGTGATT
    CCCAATAGTA ATGAACCTCT TAAAGTAACT GCAAGTGTGT ACATACCAGC ACATGGACGA
    CTTGTTTGTG GTCGTGAAGA TGGAAGCATA GTTATTGTAC CTGCCACACA GACGGCCATA
    GTACAGCTGT TGCAAGGGGA ACACATGCTC AGAAGAGGTT GGCCACCTCA CAGAACACTC
    CGTGGTCATC GGAACAAAGT CACATGTTTG CTATATCCTC ATCAGGTCTC AGCTCGGTAT
    GATCAAAGAT ACCTGATATC TGGAGGTGTG GATTTTTCAG TCATAATTTG GGACATATTT
    TCTGGAGAAA TGAAACATAT CTTCTGTGTT CATGGTGGTG AGATTACTCA ACTTCTAGTT
    CCACCTGAAA ACTGTAGTGC AAGAGTACAG CACTGCATCT GCTCTGTAGC CAGTGACCAC
    TCAGTAGGAC TTCTAAGTTT GCGAGAGAAA AAATGCATAA TGTTGGCATC TCGTCACCTT
    TTTCCTATTC AAGTAATCAA ATGGAGGCCT TCTGATGATT ACCTGGTGGT GGGGTGTTCA
    GATGGTTCTG TGTACGTCTG GCAAATGGAT ACTGGTGCAT TGGATCGTTG TGTGATGGGG
    ATAACAGCAG TTGAGATTCT AAACGCTTGT GATGAAGCTG TTCCTGCTGC TGTTGATTCA
    CTTAGTCATC CAGCAGTCAA CCTAAAACAA GCTATGACGA GACGTAGTCT TGCTGCTCTT
    AAAAATATGG CCCATCATAA GCTACAAACC CTTGCAACTA ACCTCTTGGC TTCTGAGGCA
    TCTGACAAGG GAAATTTACC TAAATATTCT CATAACTCCC TGATGGTTCA AGCAATAAAG
    ACAAACCTAA CAGACCCGGA CATACATGTG CTATTCTTTG ATGTGGAAGC GTTGATTATT
    CAACTCCTGA CTGAAGAAGC CTCTAGGCCG AATACTGCTC TTATTTCCCC AGAGAATTTG
    CAAAAAGCAT CTGGCAGTTC AGACAAAGGG GGCTCTTTTT TAACTGGAAA ACGAGCAGCA
    GTTCTCTTCC AACAAGTGAA AGAAACGATC AAAGAGAACA TCAAGGAACA CCTCCTTGAT
    GATGAAGAGG AGGATGAGGA GATAATGAGG CAGAGAAGGG AAGAAAGTGA TCCTGAATAT
    CGGTCCAGCA AATCAAAGCC ATTGACCCTA TTAGAATATA ATTTAACTAT GGACACTGCA
    AAGCTGTTTA TGTCCTGCCT TCACGCCTGG GGTTTGAATG AAGTACTGGA TGAAGTTTGC
    CTGGATCGCC TTGGAATGCT GAAACCCCAC TGCACCGTAT CGTTTGGCCT CTTGTCAAGA
    GGAGGCCATA TGTCACTGAT GCTGCCGGGT TATAATCAGC CTGCTTGTAA ACTGTCACAT
    GGGAAAACAG AAGTAGGAAG GAAGCTGCCA GCGTCTGAGG GAGTAGGAAA GGGAACTTAC
    GGAGTGTCCC GTGCCGTCAC CACACAGCAT CTCCTGTCTA TCATTTCTTT GGCAAATACT
    TTAATGAGTA TGACCAATGC AACTTTTATT GGTGATCATA TGAAGAAGGG TCCTACCAGG
    CCACCTAGAC CAAGCACCCC AGACCTTTCT AAGGCAAGGG GTTCCCCTCC AACTTCCAGT
    AATATTGTGC AAGGACAGAT TAAACAAGTT GCTGCACCTG TCGTTTCCGC TCGGTCTGAT
    GCTGATCACT CTGGCTCTGA CCCTCCTTCT GCTCCTGCTT TACATACCTG TTTCTTAGTA
    AATGAAGGTT GGAGTCAGTT AGCTGCTATG CACTGTGTTA TGCTGCCAGA CCTACTGGGA
    TTGGATAAAT TTAGGCCTCC CCTTCTGGAG ATGCTGGCCC GAAGATGGCA AGATCGATGC
    TTGGAGGTGA GAGAAGCCGC GCAGGCCCTG CTTCTGGCGG AACTGAGAAG AATTGAGCAG
    GCAGGCAGGA AGGAAGCCAT TGATGCCTGG GCTCCTTACT TACCTCAGTA CATAGACCAC
    GTCATATCAC CTGGAGTCAC ATCAGAAGCC GCGCAGACTA TCACCACGGC TCCTGATGCC
    TCAGGGCCTG AAGCAAAAGT CCAGGAGGAA GAGCATGACC TTGTTGACGA TGACATCACC
    ACTGGTTGCT TATCAAGTGT CCCACAAATG AAAAAAATTT CTACATCTTA CGAGGAAAGA
    CGGAAGCAAG CTACCGCTAT TGTTTTACTT GGAGTAATAG GAGCTGAATT TGGTGCTGAA
    ATTGAACCTC CTAAACTATT GACCAGACCT CGAAGCTCTA GCCAAATTCC TGAGGGATTC
    GGGTTGACTA GTGGTGGATC CAACTACTCG CTGGCCAGAC ATACTTGCAA GGCACTGACG
    TTTCTTCTGC TACAGCCTCC AAGCCCCAAA CTTCCTCCAC ACAGCACTAT CCGAAGAACA
    GCCATTGATC TGATTGGACG TGGGTTCACT GTTTGGGAGC CTTACATGGA TGTGTCCGCT
    GTTCTGATGG GGCTTCTCGA ACTTTGTGCC GATGCCGAGA AACAACTTGC CAACATCACA
    ATGGGGTTGC CTCTGAGCCC AGCAGCTGAC TCGGCCCGCT CTGCGAGGCA TGCCCTCTCG
    CTCATTGCCA CCGCCAGACC ACCCGCCTTC ATCACCACCA TAGCCAAAGA GGTACACAGA
    CATACGGCTC TTGCAGCAAA TACCCAATCA CAGCAGAATA TGCACACAAC AACTCTTGCA
    CGAGCTAAAG GGGAAATTTT GAGAGTCATT GAAATTCTTA TTGAAAAGAT GCCCACAGAT
    GTTGTGGATC TTCTCGTGGA GGTTATGGAC ATCATTATGT ACTGCCTTGA AGGATCTTTA
    GTTAAAAAGA AAGGTCTTCA AGAATGTTTC CCAGCCATCT GCAGGTTCTA CATGGTCAGC
    TATTATGAGC GGAATCACAG AATAGCAGTT GGAGCTCGCC ATGGTTCAGT GGCCCTGTAC
    GACATCCGGA CTGGAAAATG TCAGACAATC CATGGACACA AGGGACCAAT CACTGCAGTG
    GCTTTTGCTC CTGATGGAAG ATATCTTGCC ACCTACTCAA ACACTGACAG CCACATTTCT
    TTTTGGCAGA TGAACACGTC ACTGCTGGGA AGCATCGGCA TGCTGAACTC GGCACCTCAG
    CTGCGCTGCA TTAAAACCTA CCAGGTGCCC CCTGTGCAGC CCGCGTCCCC CGGCTCCCAC
    AATGCCCTCA AGCTGGCCCG GCTCATCTGG ACTTCCAACC GCAACGTCAT CCTCATGGCC
    CATGACGGGA AGGAGCACCG CTTCATGGTC TAA

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

    RefSeq XP_006722494.1
    CDS144..4616
    Translation

    Target ORF information:

    RefSeq Version XM_006722431.2
    Organism Homo sapiens(human)
    Definition Homo sapiens WD repeat domain 7 (WDR7), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006722431.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGCAGGAA ACAGCCTTGT TCTACCCATT GTTCTTTGGG GTCGAAAAGC GCCCACACAT 
    TGCATCTCAG CCGTACTTTT AACAGATGAT GGGGCCACGA TCGTAACAGG ATGTCACGAC
    GGACAAATAT GTCTCTGGGA TCTTTCAGTA GAACTGCAAA TTAATCCTCG AGCACTGTTG
    TTTGGTCATA CAGCATCAAT CACTTGTTTG TCTAAAGCTT GTGCTTCCAG TGACAAACAG
    TATATTGTGA GTGCATCTGA AAGTGGAGAG ATGTGCCTCT GGGATGTGAG TGATGGCAGA
    TGTATTGAAT TTACAAAATT AGCTTGCACA CATACTGGCA TACAGTTCTA CCAGTTCTCT
    GTTGGGAATC AGCGAGAAGG AAGGCTTTTA TGCCACGGAC ATTACCCTGA AATCCTTGTT
    GTGGATGCTA CCAGCCTTGA AGTATTATAC TCCTTAGTAT CAAAGATATC ACCAGACTGG
    ATTAGCTCCA TGAGTATTAT TCGATCCCAC CGAACACAAG AGGACACAGT GGTAGCACTC
    TCGGTGACTG GCATCCTGAA GGTCTGGATT GTTACCTCGG AAATAAGTGA CATGCAGGAT
    ACTGAGCCAA TATTTGAGGA GGAATCCAAA CCAATTTATT GTCAGAATTG CCAAAGCATC
    TCTTTTTGTG CATTTACACA AAGGTCACTT TTGGTTGTGT GTTCCAAATA TTGGAGGGTG
    TTCGATGCCG GAGACTATTC CTTGTTGTGT TCAGGTCCTA GTGAAAATGG ACAGACATGG
    ACCGGGGGGG ACTTTGTCTC ATCAGATAAA GTCATCATTT GGACAGAAAA TGGGCAAAGT
    TATATTTACA AACTACCTGC CAGTTGCCTT CCAGCTAGTG ATTCATTCCG CAGTGATGTG
    GGGAAGGCAG TTGAAAATTT AATTCCTCCT GTACAACATA TCCTCTTGGA TCGAAAAGAT
    AAAGAGTTGC TAATTTGTCC TCCTGTTACT CGGTTCTTCT ATGGATGCAG AGAATATTTC
    CATAAACTGT TAATTCAGGG TGATTCTTCT GGAAGGTTGA ATATTTGGAA CATATCAGAC
    ACAGCTGATA AACAGGGAAG TGAAGAAGGG CTGGCAATGA CAACTTCTAT TAGTTTGCAA
    GAGGCATTTG ATAAACTGAA TCCTTGTCCT GCTGGAATTA TAGATCAGCT GAGTGTGATT
    CCCAATAGTA ATGAACCTCT TAAAGTAACT GCAAGTGTGT ACATACCAGC ACATGGACGA
    CTTGTTTGTG GTCGTGAAGA TGGAAGCATA GTTATTGTAC CTGCCACACA GACGGCCATA
    GTACAGCTGT TGCAAGGGGA ACACATGCTC AGAAGAGGTT GGCCACCTCA CAGAACACTC
    CGTGGTCATC GGAACAAAGT CACATGTTTG CTATATCCTC ATCAGGTCTC AGCTCGGTAT
    GATCAAAGAT ACCTGATATC TGGAGGTGTG GATTTTTCAG TCATAATTTG GGACATATTT
    TCTGGAGAAA TGAAACATAT CTTCTGTGTT CATGGTGGTG AGATTACTCA ACTTCTAGTT
    CCACCTGAAA ACTGTAGTGC AAGAGTACAG CACTGCATCT GCTCTGTAGC CAGTGACCAC
    TCAGTAGGAC TTCTAAGTTT GCGAGAGAAA AAATGCATAA TGTTGGCATC TCGTCACCTT
    TTTCCTATTC AAGTAATCAA ATGGAGGCCT TCTGATGATT ACCTGGTGGT GGGGTGTTCA
    GATGGTTCTG TGTACGTCTG GCAAATGGAT ACTGGTGCAT TGGATCGTTG TGTGATGGGG
    ATAACAGCAG TTGAGATTCT AAACGCTTGT GATGAAGCTG TTCCTGCTGC TGTTGATTCA
    CTTAGTCATC CAGCAGTCAA CCTAAAACAA GCTATGACGA GACGTAGTCT TGCTGCTCTT
    AAAAATATGG CCCATCATAA GCTACAAACC CTTGCAACTA ACCTCTTGGC TTCTGAGGCA
    TCTGACAAGG GAAATTTACC TAAATATTCT CATAACTCCC TGATGGTTCA AGCAATAAAG
    ACAAACCTAA CAGACCCGGA CATACATGTG CTATTCTTTG ATGTGGAAGC GTTGATTATT
    CAACTCCTGA CTGAAGAAGC CTCTAGGCCG AATACTGCTC TTATTTCCCC AGAGAATTTG
    CAAAAAGCAT CTGGCAGTTC AGACAAAGGG GGCTCTTTTT TAACTGGAAA ACGAGCAGCA
    GTTCTCTTCC AACAAGTGAA AGAAACGATC AAAGAGAACA TCAAGGAACA CCTCCTTGAT
    GATGAAGAGG AGGATGAGGA GATAATGAGG CAGAGAAGGG AAGAAAGTGA TCCTGAATAT
    CGGTCCAGCA AATCAAAGCC ATTGACCCTA TTAGAATATA ATTTAACTAT GGACACTGCA
    AAGCTGTTTA TGTCCTGCCT TCACGCCTGG GGTTTGAATG AAGTACTGGA TGAAGTTTGC
    CTGGATCGCC TTGGAATGCT GAAACCCCAC TGCACCGTAT CGTTTGGCCT CTTGTCAAGA
    GGAGGCCATA TGTCACTGAT GCTGCCGGGT TATAATCAGC CTGCTTGTAA ACTGTCACAT
    GGGAAAACAG AAGTAGGAAG GAAGCTGCCA GCGTCTGAGG GAGTAGGAAA GGGAACTTAC
    GGAGTGTCCC GTGCCGTCAC CACACAGCAT CTCCTGTCTA TCATTTCTTT GGCAAATACT
    TTAATGAGTA TGACCAATGC AACTTTTATT GGTGATCATA TGAAGAAGGG TCCTACCAGG
    CCACCTAGAC CAAGCACCCC AGACCTTTCT AAGGCAAGGG GTTCCCCTCC AACTTCCAGT
    AATATTGTGC AAGGACAGAT TAAACAAGTT GCTGCACCTG TCGTTTCCGC TCGGTCTGAT
    GCTGATCACT CTGGCTCTGA CCCTCCTTCT GCTCCTGCTT TACATACCTG TTTCTTAGTA
    AATGAAGGTT GGAGTCAGTT AGCTGCTATG CACTGTGTTA TGCTGCCAGA CCTACTGGGA
    TTGGATAAAT TTAGGCCTCC CCTTCTGGAG ATGCTGGCCC GAAGATGGCA AGATCGATGC
    TTGGAGGTGA GAGAAGCCGC GCAGGCCCTG CTTCTGGCGG AACTGAGAAG AATTGAGCAG
    GCAGGCAGGA AGGAAGCCAT TGATGCCTGG GCTCCTTACT TACCTCAGTA CATAGACCAC
    GTCATATCAC CTGGAGTCAC ATCAGAAGCC GCGCAGACTA TCACCACGGC TCCTGATGCC
    TCAGGGCCTG AAGCAAAAGT CCAGGAGGAA GAGCATGACC TTGTTGACGA TGACATCACC
    ACTGGTTGCT TATCAAGTGT CCCACAAATG AAAAAAATTT CTACATCTTA CGAGGAAAGA
    CGGAAGCAAG CTACCGCTAT TGTTTTACTT GGAGTAATAG GAGCTGAATT TGGTGCTGAA
    ATTGAACCTC CTAAACTATT GACCAGACCT CGAAGCTCTA GCCAAATTCC TGAGGGATTC
    GGGTTGACTA GTGGTGGATC CAACTACTCG CTGGCCAGAC ATACTTGCAA GGCACTGACG
    TTTCTTCTGC TACAGCCTCC AAGCCCCAAA CTTCCTCCAC ACAGCACTAT CCGAAGAACA
    GCCATTGATC TGATTGGACG TGGGTTCACT GTTTGGGAGC CTTACATGGA TGTGTCCGCT
    GTTCTGATGG GGCTTCTCGA ACTTTGTGCC GATGCCGAGA AACAACTTGC CAACATCACA
    ATGGGGTTGC CTCTGAGCCC AGCAGCTGAC TCGGCCCGCT CTGCGAGGCA TGCCCTCTCG
    CTCATTGCCA CCGCCAGACC ACCCGCCTTC ATCACCACCA TAGCCAAAGA GGTACACAGA
    CATACGGCTC TTGCAGCAAA TACCCAATCA CAGCAGAATA TGCACACAAC AACTCTTGCA
    CGAGCTAAAG GGGAAATTTT GAGAGTCATT GAAATTCTTA TTGAAAAGAT GCCCACAGAT
    GTTGTGGATC TTCTCGTGGA GGTTATGGAC ATCATTATGT ACTGCCTTGA AGGATCTTTA
    GTTAAAAAGA AAGGTCTTCA AGAATGTTTC CCAGCCATCT GCAGGTTCTA CATGGTCAGC
    TATTATGAGC GGAATCACAG AATAGCAGTT GGAGCTCGCC ATGGTTCAGT GGCCCTGTAC
    GACATCCGGA CTGGAAAATG TCAGACAATC CATGGACACA AGGGACCAAT CACTGCAGTG
    GCTTTTGCTC CTGATGGAAG ATATCTTGCC ACCTACTCAA ACACTGACAG CCACATTTCT
    TTTTGGCAGA TGAACACGTC ACTGCTGGGA AGCATCGGCA TGCTGAACTC GGCACCTCAG
    CTGCGCTGCA TTAAAACCTA CCAGGTGCCC CCTGTGCAGC CCGCGTCCCC CGGCTCCCAC
    AATGCCCTCA AGCTGGCCCG GCTCATCTGG ACTTCCAACC GCAACGTCAT CCTCATGGCC
    CATGACGGGA AGGAGCACCG CTTCATGGTC TAA

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

    CloneID OHu51149
    Clone ID Related Accession (Same CDS sequence) XM_017025683.1
    Accession Version XM_017025683.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2949bp)
    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 WD repeat-containing protein 7 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000018.10) 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
    ATGAGCTCTG AAGACAGACT CCAGACCCCC TTTTCAAACT CCACATACAT GTCAGCAAGA 
    GTACAGCACT GCATCTGCTC TGTAGCCAGT GACCACTCAG TAGGACTTCT AAGTTTGCGA
    GAGAAAAAAT GCATAATGTT GGCATCTCGT CACCTTTTTC CTATTCAAGT AATCAAATGG
    AGGCCTTCTG ATGATTACCT GGTGGTGGGG TGTTCAGATG GTTCTGTGTA CGTCTGGCAA
    ATGGATACTG GTGCATTGGA TCGTTGTGTG ATGGGGATAA CAGCAGTTGA GATTCTAAAC
    GCTTGTGATG AAGCTGTTCC TGCTGCTGTT GATTCACTTA GTCATCCAGC AGTCAACCTA
    AAACAAGCTA TGACGAGACG TAGTCTTGCT GCTCTTAAAA ATATGGCCCA TCATAAGCTA
    CAAACCCTTG CAACTAACCT CTTGGCTTCT GAGGCATCTG ACAAGGGAAA TTTACCTAAA
    TATTCTCATA ACTCCCTGAT GGTTCAAGCA ATAAAGACAA ACCTAACAGA CCCGGACATA
    CATGTGCTAT TCTTTGATGT GGAAGCGTTG ATTATTCAAC TCCTGACTGA AGAAGCCTCT
    AGGCCGAATA CTGCTCTTAT TTCCCCAGAG AATTTGCAAA AAGCATCTGG CAGTTCAGAC
    AAAGGGGGCT CTTTTTTAAC TGGAAAACGA GCAGCAGTTC TCTTCCAACA AGTGAAAGAA
    ACGATCAAAG AGAACATCAA GGAACACCTC CTTGATGATG AAGAGGAGGA TGAGGAGATA
    ATGAGGCAGA GAAGGGAAGA AAGTGATCCT GAATATCGGT CCAGCAAATC AAAGCCATTG
    ACCCTATTAG AATATAATTT AACTATGGAC ACTGCAAAGC TGTTTATGTC CTGCCTTCAC
    GCCTGGGGTT TGAATGAAGT ACTGGATGAA GTTTGCCTGG ATCGCCTTGG AATGCTGAAA
    CCCCACTGCA CCGTATCGTT TGGCCTCTTG TCAAGAGGAG GCCATATGTC ACTGATGCTG
    CCGGGTTATA ATCAGCCTGC TTGTAAACTG TCACATGGGA AAACAGAAGT AGGAAGGAAG
    CTGCCAGCGT CTGAGGGAGT AGGAAAGGGA ACTTACGGAG TGTCCCGTGC CGTCACCACA
    CAGCATCTCC TGTCTATCAT TTCTTTGGCA AATACTTTAA TGAGTATGAC CAATGCAACT
    TTTATTGGTG ATCATATGAA GAAGGGTCCT ACCAGGCCAC CTAGACCAAG CACCCCAGAC
    CTTTCTAAGG CAAGGGGTTC CCCTCCAACT TCCAGTAATA TTGTGCAAGG ACAGATTAAA
    CAAGTTGCTG CACCTGTCGT TTCCGCTCGG TCTGATGCTG ATCACTCTGG CTCTGACCCT
    CCTTCTGCTC CTGCTTTACA TACCTGTTTC TTAGTAAATG AAGGTTGGAG TCAGTTAGCT
    GCTATGCACT GTGTTATGCT GCCAGACCTA CTGGGATTGG ATAAATTTAG GCCTCCCCTT
    CTGGAGATGC TGGCCCGAAG ATGGCAAGAT CGATGCTTGG AGGTGAGAGA AGCCGCGCAG
    GCCCTGCTTC TGGCGGAACT GAGAAGAATT GAGCAGGCAG GCAGGAAGGA AGCCATTGAT
    GCCTGGGCTC CTTACTTACC TCAGTACATA GACCACGTCA TATCACCTGG AGTCACATCA
    GAAGCCGCGC AGACTATCAC CACGGCTCCT GATGCCTCAG GGCCTGAAGC AAAAGTCCAG
    GAGGAAGAGC ATGACCTTGT TGACGATGAC ATCACCACTG GTTGCTTATC AAGTGTCCCA
    CAAATGAAAA AAATTTCTAC ATCTTACGAG GAAAGACGGA AGCAAGCTAC CGCTATTGTT
    TTACTTGGAG TAATAGGAGC TGAATTTGGT GCTGAAATTG AACCTCCTAA ACTATTGACC
    AGACCTCGAA GCTCTAGCCA AATTCCTGAG GGATTCGGGT TGACTAGTGG TGGATCCAAC
    TACTCGCTGG CCAGACATAC TTGCAAGGCA CTGACGTTTC TTCTGCTACA GCCTCCAAGC
    CCCAAACTTC CTCCACACAG CACTATCCGA AGAACAGCCA TTGATCTGAT TGGACGTGGG
    TTCACTGTTT GGGAGCCTTA CATGGATGTG TCCGCTGTTC TGATGGGGCT TCTCGAACTT
    TGTGCCGATG CCGAGAAACA ACTTGCCAAC ATCACAATGG GGTTGCCTCT GAGCCCAGCA
    GCTGACTCGG CCCGCTCTGC GAGGCATGCC CTCTCGCTCA TTGCCACCGC CAGACCACCC
    GCCTTCATCA CCACCATAGC CAAAGAGGTA CACAGACATA CGGCTCTTGC AGCAAATACC
    CAATCACAGC AGAATATGCA CACAACAACT CTTGCACGAG CTAAAGGGGA AATTTTGAGA
    GTCATTGAAA TTCTTATTGA AAAGATGCCC ACAGATGTTG TGGATCTTCT CGTGGAGGTT
    ATGGACATCA TTATGTACTG CCTTGAAGGA TCTTTAGTTA AAAAGAAAGG TCTTCAAGAA
    TGTTTCCCAG CCATCTGCAG GTTCTACATG GTCAGCTATT ATGAGCGGAA TCACAGAATA
    GCAGTTGGAG CTCGCCATGG TTCAGTGGCC CTGTACGACA TCCGGACTGG AAAATGTCAG
    ACAATCCATG GACACAAGGG ACCAATCACT GCAGTGGCTT TTGCTCCTGA TGGAAGATAT
    CTTGCCACCT ACTCAAACAC TGACAGCCAC ATTTCTTTTT GGCAGATGAA CACGTCACTG
    CTGGGAAGCA TCGGCATGCT GAACTCGGCA CCTCAGCTGC GCTGCATTAA AACCTACCAG
    GTGCCCCCTG TGCAGCCCGC GTCCCCCGGC TCCCACAATG CCCTCAAGCT GGCCCGGCTC
    ATCTGGACTT CCAACCGCAA CGTCATCCTC ATGGCCCATG ACGGGAAGGA GCACCGCTTC
    ATGGTCTAA

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

    RefSeq XP_016881172.1
    CDS129..3077
    Translation

    Target ORF information:

    RefSeq Version XM_017025683.1
    Organism Homo sapiens(human)
    Definition Homo sapiens WD repeat domain 7 (WDR7), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017025683.1

    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
    ATGAGCTCTG AAGACAGACT CCAGACCCCC TTTTCAAACT CCACATACAT GTCAGCAAGA 
    GTACAGCACT GCATCTGCTC TGTAGCCAGT GACCACTCAG TAGGACTTCT AAGTTTGCGA
    GAGAAAAAAT GCATAATGTT GGCATCTCGT CACCTTTTTC CTATTCAAGT AATCAAATGG
    AGGCCTTCTG ATGATTACCT GGTGGTGGGG TGTTCAGATG GTTCTGTGTA CGTCTGGCAA
    ATGGATACTG GTGCATTGGA TCGTTGTGTG ATGGGGATAA CAGCAGTTGA GATTCTAAAC
    GCTTGTGATG AAGCTGTTCC TGCTGCTGTT GATTCACTTA GTCATCCAGC AGTCAACCTA
    AAACAAGCTA TGACGAGACG TAGTCTTGCT GCTCTTAAAA ATATGGCCCA TCATAAGCTA
    CAAACCCTTG CAACTAACCT CTTGGCTTCT GAGGCATCTG ACAAGGGAAA TTTACCTAAA
    TATTCTCATA ACTCCCTGAT GGTTCAAGCA ATAAAGACAA ACCTAACAGA CCCGGACATA
    CATGTGCTAT TCTTTGATGT GGAAGCGTTG ATTATTCAAC TCCTGACTGA AGAAGCCTCT
    AGGCCGAATA CTGCTCTTAT TTCCCCAGAG AATTTGCAAA AAGCATCTGG CAGTTCAGAC
    AAAGGGGGCT CTTTTTTAAC TGGAAAACGA GCAGCAGTTC TCTTCCAACA AGTGAAAGAA
    ACGATCAAAG AGAACATCAA GGAACACCTC CTTGATGATG AAGAGGAGGA TGAGGAGATA
    ATGAGGCAGA GAAGGGAAGA AAGTGATCCT GAATATCGGT CCAGCAAATC AAAGCCATTG
    ACCCTATTAG AATATAATTT AACTATGGAC ACTGCAAAGC TGTTTATGTC CTGCCTTCAC
    GCCTGGGGTT TGAATGAAGT ACTGGATGAA GTTTGCCTGG ATCGCCTTGG AATGCTGAAA
    CCCCACTGCA CCGTATCGTT TGGCCTCTTG TCAAGAGGAG GCCATATGTC ACTGATGCTG
    CCGGGTTATA ATCAGCCTGC TTGTAAACTG TCACATGGGA AAACAGAAGT AGGAAGGAAG
    CTGCCAGCGT CTGAGGGAGT AGGAAAGGGA ACTTACGGAG TGTCCCGTGC CGTCACCACA
    CAGCATCTCC TGTCTATCAT TTCTTTGGCA AATACTTTAA TGAGTATGAC CAATGCAACT
    TTTATTGGTG ATCATATGAA GAAGGGTCCT ACCAGGCCAC CTAGACCAAG CACCCCAGAC
    CTTTCTAAGG CAAGGGGTTC CCCTCCAACT TCCAGTAATA TTGTGCAAGG ACAGATTAAA
    CAAGTTGCTG CACCTGTCGT TTCCGCTCGG TCTGATGCTG ATCACTCTGG CTCTGACCCT
    CCTTCTGCTC CTGCTTTACA TACCTGTTTC TTAGTAAATG AAGGTTGGAG TCAGTTAGCT
    GCTATGCACT GTGTTATGCT GCCAGACCTA CTGGGATTGG ATAAATTTAG GCCTCCCCTT
    CTGGAGATGC TGGCCCGAAG ATGGCAAGAT CGATGCTTGG AGGTGAGAGA AGCCGCGCAG
    GCCCTGCTTC TGGCGGAACT GAGAAGAATT GAGCAGGCAG GCAGGAAGGA AGCCATTGAT
    GCCTGGGCTC CTTACTTACC TCAGTACATA GACCACGTCA TATCACCTGG AGTCACATCA
    GAAGCCGCGC AGACTATCAC CACGGCTCCT GATGCCTCAG GGCCTGAAGC AAAAGTCCAG
    GAGGAAGAGC ATGACCTTGT TGACGATGAC ATCACCACTG GTTGCTTATC AAGTGTCCCA
    CAAATGAAAA AAATTTCTAC ATCTTACGAG GAAAGACGGA AGCAAGCTAC CGCTATTGTT
    TTACTTGGAG TAATAGGAGC TGAATTTGGT GCTGAAATTG AACCTCCTAA ACTATTGACC
    AGACCTCGAA GCTCTAGCCA AATTCCTGAG GGATTCGGGT TGACTAGTGG TGGATCCAAC
    TACTCGCTGG CCAGACATAC TTGCAAGGCA CTGACGTTTC TTCTGCTACA GCCTCCAAGC
    CCCAAACTTC CTCCACACAG CACTATCCGA AGAACAGCCA TTGATCTGAT TGGACGTGGG
    TTCACTGTTT GGGAGCCTTA CATGGATGTG TCCGCTGTTC TGATGGGGCT TCTCGAACTT
    TGTGCCGATG CCGAGAAACA ACTTGCCAAC ATCACAATGG GGTTGCCTCT GAGCCCAGCA
    GCTGACTCGG CCCGCTCTGC GAGGCATGCC CTCTCGCTCA TTGCCACCGC CAGACCACCC
    GCCTTCATCA CCACCATAGC CAAAGAGGTA CACAGACATA CGGCTCTTGC AGCAAATACC
    CAATCACAGC AGAATATGCA CACAACAACT CTTGCACGAG CTAAAGGGGA AATTTTGAGA
    GTCATTGAAA TTCTTATTGA AAAGATGCCC ACAGATGTTG TGGATCTTCT CGTGGAGGTT
    ATGGACATCA TTATGTACTG CCTTGAAGGA TCTTTAGTTA AAAAGAAAGG TCTTCAAGAA
    TGTTTCCCAG CCATCTGCAG GTTCTACATG GTCAGCTATT ATGAGCGGAA TCACAGAATA
    GCAGTTGGAG CTCGCCATGG TTCAGTGGCC CTGTACGACA TCCGGACTGG AAAATGTCAG
    ACAATCCATG GACACAAGGG ACCAATCACT GCAGTGGCTT TTGCTCCTGA TGGAAGATAT
    CTTGCCACCT ACTCAAACAC TGACAGCCAC ATTTCTTTTT GGCAGATGAA CACGTCACTG
    CTGGGAAGCA TCGGCATGCT GAACTCGGCA CCTCAGCTGC GCTGCATTAA AACCTACCAG
    GTGCCCCCTG TGCAGCCCGC GTCCCCCGGC TCCCACAATG CCCTCAAGCT GGCCCGGCTC
    ATCTGGACTT CCAACCGCAA CGTCATCCTC ATGGCCCATG ACGGGAAGGA GCACCGCTTC
    ATGGTCTAA

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

    CloneID OHu05506
    Clone ID Related Accession (Same CDS sequence) XM_017025682.1 , NM_052834.2
    Accession Version NM_052834.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4374bp)
    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 2019-05-03
    Organism Homo sapiens(human)
    Product WD repeat-containing protein 7 isoform 2
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AK057141.1, AF188125.1, AY099325.1, BC050352.1 and AC012301.5. On Aug 24, 2005 this sequence version replaced NM_052834.1. Transcript Variant: This variant (2) lacks an exon within the coding region, compared to variant 1. It encodes isoform 2, which is shorter than isoform 1. ##Evidence-Data-START## Transcript exon combination :: SRR1803615.212823.1, SRR1660803.180049.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1968540 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## 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
    ATGGCAGGAA ACAGCCTTGT TCTACCCATT GTTCTTTGGG GTCGAAAAGC GCCCACACAT 
    TGCATCTCAG CCGTACTTTT AACAGATGAT GGGGCCACGA TCGTAACAGG ATGTCACGAC
    GGACAAATAT GTCTCTGGGA TCTTTCAGTA GAACTGCAAA TTAATCCTCG AGCACTGTTG
    TTTGGTCATA CAGCATCAAT CACTTGTTTG TCTAAAGCTT GTGCTTCCAG TGACAAACAG
    TATATTGTGA GTGCATCTGA AAGTGGAGAG ATGTGCCTCT GGGATGTGAG TGATGGCAGA
    TGTATTGAAT TTACAAAATT AGCTTGCACA CATACTGGCA TACAGTTCTA CCAGTTCTCT
    GTTGGGAATC AGCGAGAAGG AAGGCTTTTA TGCCACGGAC ATTACCCTGA AATCCTTGTT
    GTGGATGCTA CCAGCCTTGA AGTATTATAC TCCTTAGTAT CAAAGATATC ACCAGACTGG
    ATTAGCTCCA TGAGTATTAT TCGATCCCAC CGAACACAAG AGGACACAGT GGTAGCACTC
    TCGGTGACTG GCATCCTGAA GGTCTGGATT GTTACCTCGG AAATAAGTGA CATGCAGGAT
    ACTGAGCCAA TATTTGAGGA GGAATCCAAA CCAATTTATT GTCAGAATTG CCAAAGCATC
    TCTTTTTGTG CATTTACACA AAGGTCACTT TTGGTTGTGT GTTCCAAATA TTGGAGGGTG
    TTCGATGCCG GAGACTATTC CTTGTTGTGT TCAGGTCCTA GTGAAAATGG ACAGACATGG
    ACCGGGGGGG ACTTTGTCTC ATCAGATAAA GTCATCATTT GGACAGAAAA TGGGCAAAGT
    TATATTTACA AACTACCTGC CAGTTGCCTT CCAGCTAGTG ATTCATTCCG CAGTGATGTG
    GGGAAGGCAG TTGAAAATTT AATTCCTCCT GTACAACATA TCCTCTTGGA TCGAAAAGAT
    AAAGAGTTGC TAATTTGTCC TCCTGTTACT CGGTTCTTCT ATGGATGCAG AGAATATTTC
    CATAAACTGT TAATTCAGGG TGATTCTTCT GGAAGGTTGA ATATTTGGAA CATATCAGAC
    ACAGCTGATA AACAGGGAAG TGAAGAAGGG CTGGCAATGA CAACTTCTAT TAGTTTGCAA
    GAGGCATTTG ATAAACTGAA TCCTTGTCCT GCTGGAATTA TAGATCAGCT GAGTGTGATT
    CCCAATAGTA ATGAACCTCT TAAAGTAACT GCAAGTGTGT ACATACCAGC ACATGGACGA
    CTTGTTTGTG GTCGTGAAGA TGGAAGCATA GTTATTGTAC CTGCCACACA GACGGCCATA
    GTACAGCTGT TGCAAGGGGA ACACATGCTC AGAAGAGGTT GGCCACCTCA CAGAACACTC
    CGTGGTCATC GGAACAAAGT CACATGTTTG CTATATCCTC ATCAGGTCTC AGCTCGGTAT
    GATCAAAGAT ACCTGATATC TGGAGGTGTG GATTTTTCAG TCATAATTTG GGACATATTT
    TCTGGAGAAA TGAAACATAT CTTCTGTGTT CATGGTGGTG AGATTACTCA ACTTCTAGTT
    CCACCTGAAA ACTGTAGTGC AAGAGTACAG CACTGCATCT GCTCTGTAGC CAGTGACCAC
    TCAGTAGGAC TTCTAAGTTT GCGAGAGAAA AAATGCATAA TGTTGGCATC TCGTCACCTT
    TTTCCTATTC AAGTAATCAA ATGGAGGCCT TCTGATGATT ACCTGGTGGT GGGGTGTTCA
    GATGGTTCTG TGTACGTCTG GCAAATGGAT ACTGGTGCAT TGGATCGTTG TGTGATGGGG
    ATAACAGCAG TTGAGATTCT AAACGCTTGT GATGAAGCTG TTCCTGCTGC TGTTGATTCA
    CTTAGTCATC CAGCAGTCAA CCTAAAACAA GCTATGACGA GACGTAGTCT TGCTGCTCTT
    AAAAATATGG CCCATCATAA GCTACAAACC CTTGCAACTA ACCTCTTGGC TTCTGAGGCA
    TCTGACAAGG GAAATTTACC TAAATATTCT CATAACTCCC TGATGGTTCA AGCAATAAAG
    ACAAACCTAA CAGACCCGGA CATACATGTG CTATTCTTTG ATGTGGAAGC GTTGATTATT
    CAACTCCTGA CTGAAGAAGC CTCTAGGCCG AATACTGCTC TTATTTCCCC AGAGAATTTG
    CAAAAAGCAT CTGGCAGTTC AGACAAAGGG GGCTCTTTTT TAACTGGAAA ACGAGCAGCA
    GTTCTCTTCC AACAAGTGAA AGAAACGATC AAAGAGAACA TCAAGGAACA CCTCCTTGAT
    GATGAAGAGG AGGATGAGGA GATAATGAGG CAGAGAAGGG AAGAAAGTGA TCCTGAATAT
    CGGTCCAGCA AATCAAAGCC ATTGACCCTA TTAGAATATA ATTTAACTAT GGACACTGCA
    AAGCTGTTTA TGTCCTGCCT TCACGCCTGG GGTTTGAATG AAGTACTGGA TGAAGTTTGC
    CTGGATCGCC TTGGAATGCT GAAACCCCAC TGCACCGTAT CGTTTGGCCT CTTGTCAAGA
    GGAGGCCATA TGTCACTGAT GCTGCCGGGT TATAATCAGC CTGCTTGTAA ACTGTCACAT
    GGGAAAACAG AAGTAGGAAG GAAGCTGCCA GCGTCTGAGG GAGTAGGAAA GGGAACTTAC
    GGAGTGTCCC GTGCCGTCAC CACACAGCAT CTCCTGTCTA TCATTTCTTT GGCAAATACT
    TTAATGAGTA TGACCAATGC AACTTTTATT GGTGATCATA TGAAGAAGGG TCCTACCAGG
    CCACCTAGAC CAAGCACCCC AGACCTTTCT AAGGCAAGGG GTTCCCCTCC AACTTCCAGT
    AATATTGTGC AAGGACAGAT TAAACAAGGT TGGAGTCAGT TAGCTGCTAT GCACTGTGTT
    ATGCTGCCAG ACCTACTGGG ATTGGATAAA TTTAGGCCTC CCCTTCTGGA GATGCTGGCC
    CGAAGATGGC AAGATCGATG CTTGGAGGTG AGAGAAGCCG CGCAGGCCCT GCTTCTGGCG
    GAACTGAGAA GAATTGAGCA GGCAGGCAGG AAGGAAGCCA TTGATGCCTG GGCTCCTTAC
    TTACCTCAGT ACATAGACCA CGTCATATCA CCTGGAGTCA CATCAGAAGC CGCGCAGACT
    ATCACCACGG CTCCTGATGC CTCAGGGCCT GAAGCAAAAG TCCAGGAGGA AGAGCATGAC
    CTTGTTGACG ATGACATCAC CACTGGTTGC TTATCAAGTG TCCCACAAAT GAAAAAAATT
    TCTACATCTT ACGAGGAAAG ACGGAAGCAA GCTACCGCTA TTGTTTTACT TGGAGTAATA
    GGAGCTGAAT TTGGTGCTGA AATTGAACCT CCTAAACTAT TGACCAGACC TCGAAGCTCT
    AGCCAAATTC CTGAGGGATT CGGGTTGACT AGTGGTGGAT CCAACTACTC GCTGGCCAGA
    CATACTTGCA AGGCACTGAC GTTTCTTCTG CTACAGCCTC CAAGCCCCAA ACTTCCTCCA
    CACAGCACTA TCCGAAGAAC AGCCATTGAT CTGATTGGAC GTGGGTTCAC TGTTTGGGAG
    CCTTACATGG ATGTGTCCGC TGTTCTGATG GGGCTTCTCG AACTTTGTGC CGATGCCGAG
    AAACAACTTG CCAACATCAC AATGGGGTTG CCTCTGAGCC CAGCAGCTGA CTCGGCCCGC
    TCTGCGAGGC ATGCCCTCTC GCTCATTGCC ACCGCCAGAC CACCCGCCTT CATCACCACC
    ATAGCCAAAG AGGTACACAG ACATACGGCT CTTGCAGCAA ATACCCAATC ACAGCAGAAT
    ATGCACACAA CAACTCTTGC ACGAGCTAAA GGGGAAATTT TGAGAGTCAT TGAAATTCTT
    ATTGAAAAGA TGCCCACAGA TGTTGTGGAT CTTCTCGTGG AGGTTATGGA CATCATTATG
    TACTGCCTTG AAGGATCTTT AGTTAAAAAG AAAGGTCTTC AAGAATGTTT CCCAGCCATC
    TGCAGGTTCT ACATGGTCAG CTATTATGAG CGGAATCACA GAATAGCAGT TGGAGCTCGC
    CATGGTTCAG TGGCCCTGTA CGACATCCGG ACTGGAAAAT GTCAGACAAT CCATGGACAC
    AAGGGACCAA TCACTGCAGT GGCTTTTGCT CCTGATGGAA GATATCTTGC CACCTACTCA
    AACACTGACA GCCACATTTC TTTTTGGCAG ATGAACACGT CACTGCTGGG AAGCATCGGC
    ATGCTGAACT CGGCACCTCA GCTGCGCTGC ATTAAAACCT ACCAGGTGCC CCCTGTGCAG
    CCCGCGTCCC CCGGCTCCCA CAATGCCCTC AAGCTGGCCC GGCTCATCTG GACTTCCAAC
    CGCAACGTCA TCCTCATGGC CCATGACGGG AAGGAGCACC GCTTCATGGT CTAA

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

    RefSeq NP_443066.2
    CDS212..4585
    Translation

    Target ORF information:

    RefSeq Version NM_052834.2
    Organism Homo sapiens(human)
    Definition Homo sapiens WD repeat domain 7 (WDR7), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_052834.2

    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
    ATGGCAGGAA ACAGCCTTGT TCTACCCATT GTTCTTTGGG GTCGAAAAGC GCCCACACAT 
    TGCATCTCAG CCGTACTTTT AACAGATGAT GGGGCCACGA TCGTAACAGG ATGTCACGAC
    GGACAAATAT GTCTCTGGGA TCTTTCAGTA GAACTGCAAA TTAATCCTCG AGCACTGTTG
    TTTGGTCATA CAGCATCAAT CACTTGTTTG TCTAAAGCTT GTGCTTCCAG TGACAAACAG
    TATATTGTGA GTGCATCTGA AAGTGGAGAG ATGTGCCTCT GGGATGTGAG TGATGGCAGA
    TGTATTGAAT TTACAAAATT AGCTTGCACA CATACTGGCA TACAGTTCTA CCAGTTCTCT
    GTTGGGAATC AGCGAGAAGG AAGGCTTTTA TGCCACGGAC ATTACCCTGA AATCCTTGTT
    GTGGATGCTA CCAGCCTTGA AGTATTATAC TCCTTAGTAT CAAAGATATC ACCAGACTGG
    ATTAGCTCCA TGAGTATTAT TCGATCCCAC CGAACACAAG AGGACACAGT GGTAGCACTC
    TCGGTGACTG GCATCCTGAA GGTCTGGATT GTTACCTCGG AAATAAGTGA CATGCAGGAT
    ACTGAGCCAA TATTTGAGGA GGAATCCAAA CCAATTTATT GTCAGAATTG CCAAAGCATC
    TCTTTTTGTG CATTTACACA AAGGTCACTT TTGGTTGTGT GTTCCAAATA TTGGAGGGTG
    TTCGATGCCG GAGACTATTC CTTGTTGTGT TCAGGTCCTA GTGAAAATGG ACAGACATGG
    ACCGGGGGGG ACTTTGTCTC ATCAGATAAA GTCATCATTT GGACAGAAAA TGGGCAAAGT
    TATATTTACA AACTACCTGC CAGTTGCCTT CCAGCTAGTG ATTCATTCCG CAGTGATGTG
    GGGAAGGCAG TTGAAAATTT AATTCCTCCT GTACAACATA TCCTCTTGGA TCGAAAAGAT
    AAAGAGTTGC TAATTTGTCC TCCTGTTACT CGGTTCTTCT ATGGATGCAG AGAATATTTC
    CATAAACTGT TAATTCAGGG TGATTCTTCT GGAAGGTTGA ATATTTGGAA CATATCAGAC
    ACAGCTGATA AACAGGGAAG TGAAGAAGGG CTGGCAATGA CAACTTCTAT TAGTTTGCAA
    GAGGCATTTG ATAAACTGAA TCCTTGTCCT GCTGGAATTA TAGATCAGCT GAGTGTGATT
    CCCAATAGTA ATGAACCTCT TAAAGTAACT GCAAGTGTGT ACATACCAGC ACATGGACGA
    CTTGTTTGTG GTCGTGAAGA TGGAAGCATA GTTATTGTAC CTGCCACACA GACGGCCATA
    GTACAGCTGT TGCAAGGGGA ACACATGCTC AGAAGAGGTT GGCCACCTCA CAGAACACTC
    CGTGGTCATC GGAACAAAGT CACATGTTTG CTATATCCTC ATCAGGTCTC AGCTCGGTAT
    GATCAAAGAT ACCTGATATC TGGAGGTGTG GATTTTTCAG TCATAATTTG GGACATATTT
    TCTGGAGAAA TGAAACATAT CTTCTGTGTT CATGGTGGTG AGATTACTCA ACTTCTAGTT
    CCACCTGAAA ACTGTAGTGC AAGAGTACAG CACTGCATCT GCTCTGTAGC CAGTGACCAC
    TCAGTAGGAC TTCTAAGTTT GCGAGAGAAA AAATGCATAA TGTTGGCATC TCGTCACCTT
    TTTCCTATTC AAGTAATCAA ATGGAGGCCT TCTGATGATT ACCTGGTGGT GGGGTGTTCA
    GATGGTTCTG TGTACGTCTG GCAAATGGAT ACTGGTGCAT TGGATCGTTG TGTGATGGGG
    ATAACAGCAG TTGAGATTCT AAACGCTTGT GATGAAGCTG TTCCTGCTGC TGTTGATTCA
    CTTAGTCATC CAGCAGTCAA CCTAAAACAA GCTATGACGA GACGTAGTCT TGCTGCTCTT
    AAAAATATGG CCCATCATAA GCTACAAACC CTTGCAACTA ACCTCTTGGC TTCTGAGGCA
    TCTGACAAGG GAAATTTACC TAAATATTCT CATAACTCCC TGATGGTTCA AGCAATAAAG
    ACAAACCTAA CAGACCCGGA CATACATGTG CTATTCTTTG ATGTGGAAGC GTTGATTATT
    CAACTCCTGA CTGAAGAAGC CTCTAGGCCG AATACTGCTC TTATTTCCCC AGAGAATTTG
    CAAAAAGCAT CTGGCAGTTC AGACAAAGGG GGCTCTTTTT TAACTGGAAA ACGAGCAGCA
    GTTCTCTTCC AACAAGTGAA AGAAACGATC AAAGAGAACA TCAAGGAACA CCTCCTTGAT
    GATGAAGAGG AGGATGAGGA GATAATGAGG CAGAGAAGGG AAGAAAGTGA TCCTGAATAT
    CGGTCCAGCA AATCAAAGCC ATTGACCCTA TTAGAATATA ATTTAACTAT GGACACTGCA
    AAGCTGTTTA TGTCCTGCCT TCACGCCTGG GGTTTGAATG AAGTACTGGA TGAAGTTTGC
    CTGGATCGCC TTGGAATGCT GAAACCCCAC TGCACCGTAT CGTTTGGCCT CTTGTCAAGA
    GGAGGCCATA TGTCACTGAT GCTGCCGGGT TATAATCAGC CTGCTTGTAA ACTGTCACAT
    GGGAAAACAG AAGTAGGAAG GAAGCTGCCA GCGTCTGAGG GAGTAGGAAA GGGAACTTAC
    GGAGTGTCCC GTGCCGTCAC CACACAGCAT CTCCTGTCTA TCATTTCTTT GGCAAATACT
    TTAATGAGTA TGACCAATGC AACTTTTATT GGTGATCATA TGAAGAAGGG TCCTACCAGG
    CCACCTAGAC CAAGCACCCC AGACCTTTCT AAGGCAAGGG GTTCCCCTCC AACTTCCAGT
    AATATTGTGC AAGGACAGAT TAAACAAGGT TGGAGTCAGT TAGCTGCTAT GCACTGTGTT
    ATGCTGCCAG ACCTACTGGG ATTGGATAAA TTTAGGCCTC CCCTTCTGGA GATGCTGGCC
    CGAAGATGGC AAGATCGATG CTTGGAGGTG AGAGAAGCCG CGCAGGCCCT GCTTCTGGCG
    GAACTGAGAA GAATTGAGCA GGCAGGCAGG AAGGAAGCCA TTGATGCCTG GGCTCCTTAC
    TTACCTCAGT ACATAGACCA CGTCATATCA CCTGGAGTCA CATCAGAAGC CGCGCAGACT
    ATCACCACGG CTCCTGATGC CTCAGGGCCT GAAGCAAAAG TCCAGGAGGA AGAGCATGAC
    CTTGTTGACG ATGACATCAC CACTGGTTGC TTATCAAGTG TCCCACAAAT GAAAAAAATT
    TCTACATCTT ACGAGGAAAG ACGGAAGCAA GCTACCGCTA TTGTTTTACT TGGAGTAATA
    GGAGCTGAAT TTGGTGCTGA AATTGAACCT CCTAAACTAT TGACCAGACC TCGAAGCTCT
    AGCCAAATTC CTGAGGGATT CGGGTTGACT AGTGGTGGAT CCAACTACTC GCTGGCCAGA
    CATACTTGCA AGGCACTGAC GTTTCTTCTG CTACAGCCTC CAAGCCCCAA ACTTCCTCCA
    CACAGCACTA TCCGAAGAAC AGCCATTGAT CTGATTGGAC GTGGGTTCAC TGTTTGGGAG
    CCTTACATGG ATGTGTCCGC TGTTCTGATG GGGCTTCTCG AACTTTGTGC CGATGCCGAG
    AAACAACTTG CCAACATCAC AATGGGGTTG CCTCTGAGCC CAGCAGCTGA CTCGGCCCGC
    TCTGCGAGGC ATGCCCTCTC GCTCATTGCC ACCGCCAGAC CACCCGCCTT CATCACCACC
    ATAGCCAAAG AGGTACACAG ACATACGGCT CTTGCAGCAA ATACCCAATC ACAGCAGAAT
    ATGCACACAA CAACTCTTGC ACGAGCTAAA GGGGAAATTT TGAGAGTCAT TGAAATTCTT
    ATTGAAAAGA TGCCCACAGA TGTTGTGGAT CTTCTCGTGG AGGTTATGGA CATCATTATG
    TACTGCCTTG AAGGATCTTT AGTTAAAAAG AAAGGTCTTC AAGAATGTTT CCCAGCCATC
    TGCAGGTTCT ACATGGTCAG CTATTATGAG CGGAATCACA GAATAGCAGT TGGAGCTCGC
    CATGGTTCAG TGGCCCTGTA CGACATCCGG ACTGGAAAAT GTCAGACAAT CCATGGACAC
    AAGGGACCAA TCACTGCAGT GGCTTTTGCT CCTGATGGAA GATATCTTGC CACCTACTCA
    AACACTGACA GCCACATTTC TTTTTGGCAG ATGAACACGT CACTGCTGGG AAGCATCGGC
    ATGCTGAACT CGGCACCTCA GCTGCGCTGC ATTAAAACCT ACCAGGTGCC CCCTGTGCAG
    CCCGCGTCCC CCGGCTCCCA CAATGCCCTC AAGCTGGCCC GGCTCATCTG GACTTCCAAC
    CGCAACGTCA TCCTCATGGC CCATGACGGG AAGGAGCACC GCTTCATGGT CTAA

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

    CloneID OHu05506
    Clone ID Related Accession (Same CDS sequence) XM_017025682.1 , NM_052834.2
    Accession Version XM_017025682.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4374bp)
    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 WD repeat-containing protein 7 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000018.10) 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
    ATGGCAGGAA ACAGCCTTGT TCTACCCATT GTTCTTTGGG GTCGAAAAGC GCCCACACAT 
    TGCATCTCAG CCGTACTTTT AACAGATGAT GGGGCCACGA TCGTAACAGG ATGTCACGAC
    GGACAAATAT GTCTCTGGGA TCTTTCAGTA GAACTGCAAA TTAATCCTCG AGCACTGTTG
    TTTGGTCATA CAGCATCAAT CACTTGTTTG TCTAAAGCTT GTGCTTCCAG TGACAAACAG
    TATATTGTGA GTGCATCTGA AAGTGGAGAG ATGTGCCTCT GGGATGTGAG TGATGGCAGA
    TGTATTGAAT TTACAAAATT AGCTTGCACA CATACTGGCA TACAGTTCTA CCAGTTCTCT
    GTTGGGAATC AGCGAGAAGG AAGGCTTTTA TGCCACGGAC ATTACCCTGA AATCCTTGTT
    GTGGATGCTA CCAGCCTTGA AGTATTATAC TCCTTAGTAT CAAAGATATC ACCAGACTGG
    ATTAGCTCCA TGAGTATTAT TCGATCCCAC CGAACACAAG AGGACACAGT GGTAGCACTC
    TCGGTGACTG GCATCCTGAA GGTCTGGATT GTTACCTCGG AAATAAGTGA CATGCAGGAT
    ACTGAGCCAA TATTTGAGGA GGAATCCAAA CCAATTTATT GTCAGAATTG CCAAAGCATC
    TCTTTTTGTG CATTTACACA AAGGTCACTT TTGGTTGTGT GTTCCAAATA TTGGAGGGTG
    TTCGATGCCG GAGACTATTC CTTGTTGTGT TCAGGTCCTA GTGAAAATGG ACAGACATGG
    ACCGGGGGGG ACTTTGTCTC ATCAGATAAA GTCATCATTT GGACAGAAAA TGGGCAAAGT
    TATATTTACA AACTACCTGC CAGTTGCCTT CCAGCTAGTG ATTCATTCCG CAGTGATGTG
    GGGAAGGCAG TTGAAAATTT AATTCCTCCT GTACAACATA TCCTCTTGGA TCGAAAAGAT
    AAAGAGTTGC TAATTTGTCC TCCTGTTACT CGGTTCTTCT ATGGATGCAG AGAATATTTC
    CATAAACTGT TAATTCAGGG TGATTCTTCT GGAAGGTTGA ATATTTGGAA CATATCAGAC
    ACAGCTGATA AACAGGGAAG TGAAGAAGGG CTGGCAATGA CAACTTCTAT TAGTTTGCAA
    GAGGCATTTG ATAAACTGAA TCCTTGTCCT GCTGGAATTA TAGATCAGCT GAGTGTGATT
    CCCAATAGTA ATGAACCTCT TAAAGTAACT GCAAGTGTGT ACATACCAGC ACATGGACGA
    CTTGTTTGTG GTCGTGAAGA TGGAAGCATA GTTATTGTAC CTGCCACACA GACGGCCATA
    GTACAGCTGT TGCAAGGGGA ACACATGCTC AGAAGAGGTT GGCCACCTCA CAGAACACTC
    CGTGGTCATC GGAACAAAGT CACATGTTTG CTATATCCTC ATCAGGTCTC AGCTCGGTAT
    GATCAAAGAT ACCTGATATC TGGAGGTGTG GATTTTTCAG TCATAATTTG GGACATATTT
    TCTGGAGAAA TGAAACATAT CTTCTGTGTT CATGGTGGTG AGATTACTCA ACTTCTAGTT
    CCACCTGAAA ACTGTAGTGC AAGAGTACAG CACTGCATCT GCTCTGTAGC CAGTGACCAC
    TCAGTAGGAC TTCTAAGTTT GCGAGAGAAA AAATGCATAA TGTTGGCATC TCGTCACCTT
    TTTCCTATTC AAGTAATCAA ATGGAGGCCT TCTGATGATT ACCTGGTGGT GGGGTGTTCA
    GATGGTTCTG TGTACGTCTG GCAAATGGAT ACTGGTGCAT TGGATCGTTG TGTGATGGGG
    ATAACAGCAG TTGAGATTCT AAACGCTTGT GATGAAGCTG TTCCTGCTGC TGTTGATTCA
    CTTAGTCATC CAGCAGTCAA CCTAAAACAA GCTATGACGA GACGTAGTCT TGCTGCTCTT
    AAAAATATGG CCCATCATAA GCTACAAACC CTTGCAACTA ACCTCTTGGC TTCTGAGGCA
    TCTGACAAGG GAAATTTACC TAAATATTCT CATAACTCCC TGATGGTTCA AGCAATAAAG
    ACAAACCTAA CAGACCCGGA CATACATGTG CTATTCTTTG ATGTGGAAGC GTTGATTATT
    CAACTCCTGA CTGAAGAAGC CTCTAGGCCG AATACTGCTC TTATTTCCCC AGAGAATTTG
    CAAAAAGCAT CTGGCAGTTC AGACAAAGGG GGCTCTTTTT TAACTGGAAA ACGAGCAGCA
    GTTCTCTTCC AACAAGTGAA AGAAACGATC AAAGAGAACA TCAAGGAACA CCTCCTTGAT
    GATGAAGAGG AGGATGAGGA GATAATGAGG CAGAGAAGGG AAGAAAGTGA TCCTGAATAT
    CGGTCCAGCA AATCAAAGCC ATTGACCCTA TTAGAATATA ATTTAACTAT GGACACTGCA
    AAGCTGTTTA TGTCCTGCCT TCACGCCTGG GGTTTGAATG AAGTACTGGA TGAAGTTTGC
    CTGGATCGCC TTGGAATGCT GAAACCCCAC TGCACCGTAT CGTTTGGCCT CTTGTCAAGA
    GGAGGCCATA TGTCACTGAT GCTGCCGGGT TATAATCAGC CTGCTTGTAA ACTGTCACAT
    GGGAAAACAG AAGTAGGAAG GAAGCTGCCA GCGTCTGAGG GAGTAGGAAA GGGAACTTAC
    GGAGTGTCCC GTGCCGTCAC CACACAGCAT CTCCTGTCTA TCATTTCTTT GGCAAATACT
    TTAATGAGTA TGACCAATGC AACTTTTATT GGTGATCATA TGAAGAAGGG TCCTACCAGG
    CCACCTAGAC CAAGCACCCC AGACCTTTCT AAGGCAAGGG GTTCCCCTCC AACTTCCAGT
    AATATTGTGC AAGGACAGAT TAAACAAGGT TGGAGTCAGT TAGCTGCTAT GCACTGTGTT
    ATGCTGCCAG ACCTACTGGG ATTGGATAAA TTTAGGCCTC CCCTTCTGGA GATGCTGGCC
    CGAAGATGGC AAGATCGATG CTTGGAGGTG AGAGAAGCCG CGCAGGCCCT GCTTCTGGCG
    GAACTGAGAA GAATTGAGCA GGCAGGCAGG AAGGAAGCCA TTGATGCCTG GGCTCCTTAC
    TTACCTCAGT ACATAGACCA CGTCATATCA CCTGGAGTCA CATCAGAAGC CGCGCAGACT
    ATCACCACGG CTCCTGATGC CTCAGGGCCT GAAGCAAAAG TCCAGGAGGA AGAGCATGAC
    CTTGTTGACG ATGACATCAC CACTGGTTGC TTATCAAGTG TCCCACAAAT GAAAAAAATT
    TCTACATCTT ACGAGGAAAG ACGGAAGCAA GCTACCGCTA TTGTTTTACT TGGAGTAATA
    GGAGCTGAAT TTGGTGCTGA AATTGAACCT CCTAAACTAT TGACCAGACC TCGAAGCTCT
    AGCCAAATTC CTGAGGGATT CGGGTTGACT AGTGGTGGAT CCAACTACTC GCTGGCCAGA
    CATACTTGCA AGGCACTGAC GTTTCTTCTG CTACAGCCTC CAAGCCCCAA ACTTCCTCCA
    CACAGCACTA TCCGAAGAAC AGCCATTGAT CTGATTGGAC GTGGGTTCAC TGTTTGGGAG
    CCTTACATGG ATGTGTCCGC TGTTCTGATG GGGCTTCTCG AACTTTGTGC CGATGCCGAG
    AAACAACTTG CCAACATCAC AATGGGGTTG CCTCTGAGCC CAGCAGCTGA CTCGGCCCGC
    TCTGCGAGGC ATGCCCTCTC GCTCATTGCC ACCGCCAGAC CACCCGCCTT CATCACCACC
    ATAGCCAAAG AGGTACACAG ACATACGGCT CTTGCAGCAA ATACCCAATC ACAGCAGAAT
    ATGCACACAA CAACTCTTGC ACGAGCTAAA GGGGAAATTT TGAGAGTCAT TGAAATTCTT
    ATTGAAAAGA TGCCCACAGA TGTTGTGGAT CTTCTCGTGG AGGTTATGGA CATCATTATG
    TACTGCCTTG AAGGATCTTT AGTTAAAAAG AAAGGTCTTC AAGAATGTTT CCCAGCCATC
    TGCAGGTTCT ACATGGTCAG CTATTATGAG CGGAATCACA GAATAGCAGT TGGAGCTCGC
    CATGGTTCAG TGGCCCTGTA CGACATCCGG ACTGGAAAAT GTCAGACAAT CCATGGACAC
    AAGGGACCAA TCACTGCAGT GGCTTTTGCT CCTGATGGAA GATATCTTGC CACCTACTCA
    AACACTGACA GCCACATTTC TTTTTGGCAG ATGAACACGT CACTGCTGGG AAGCATCGGC
    ATGCTGAACT CGGCACCTCA GCTGCGCTGC ATTAAAACCT ACCAGGTGCC CCCTGTGCAG
    CCCGCGTCCC CCGGCTCCCA CAATGCCCTC AAGCTGGCCC GGCTCATCTG GACTTCCAAC
    CGCAACGTCA TCCTCATGGC CCATGACGGG AAGGAGCACC GCTTCATGGT CTAA

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

    RefSeq XP_016881171.1
    CDS117..4490
    Translation

    Target ORF information:

    RefSeq Version XM_017025682.1
    Organism Homo sapiens(human)
    Definition Homo sapiens WD repeat domain 7 (WDR7), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017025682.1

    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
    ATGGCAGGAA ACAGCCTTGT TCTACCCATT GTTCTTTGGG GTCGAAAAGC GCCCACACAT 
    TGCATCTCAG CCGTACTTTT AACAGATGAT GGGGCCACGA TCGTAACAGG ATGTCACGAC
    GGACAAATAT GTCTCTGGGA TCTTTCAGTA GAACTGCAAA TTAATCCTCG AGCACTGTTG
    TTTGGTCATA CAGCATCAAT CACTTGTTTG TCTAAAGCTT GTGCTTCCAG TGACAAACAG
    TATATTGTGA GTGCATCTGA AAGTGGAGAG ATGTGCCTCT GGGATGTGAG TGATGGCAGA
    TGTATTGAAT TTACAAAATT AGCTTGCACA CATACTGGCA TACAGTTCTA CCAGTTCTCT
    GTTGGGAATC AGCGAGAAGG AAGGCTTTTA TGCCACGGAC ATTACCCTGA AATCCTTGTT
    GTGGATGCTA CCAGCCTTGA AGTATTATAC TCCTTAGTAT CAAAGATATC ACCAGACTGG
    ATTAGCTCCA TGAGTATTAT TCGATCCCAC CGAACACAAG AGGACACAGT GGTAGCACTC
    TCGGTGACTG GCATCCTGAA GGTCTGGATT GTTACCTCGG AAATAAGTGA CATGCAGGAT
    ACTGAGCCAA TATTTGAGGA GGAATCCAAA CCAATTTATT GTCAGAATTG CCAAAGCATC
    TCTTTTTGTG CATTTACACA AAGGTCACTT TTGGTTGTGT GTTCCAAATA TTGGAGGGTG
    TTCGATGCCG GAGACTATTC CTTGTTGTGT TCAGGTCCTA GTGAAAATGG ACAGACATGG
    ACCGGGGGGG ACTTTGTCTC ATCAGATAAA GTCATCATTT GGACAGAAAA TGGGCAAAGT
    TATATTTACA AACTACCTGC CAGTTGCCTT CCAGCTAGTG ATTCATTCCG CAGTGATGTG
    GGGAAGGCAG TTGAAAATTT AATTCCTCCT GTACAACATA TCCTCTTGGA TCGAAAAGAT
    AAAGAGTTGC TAATTTGTCC TCCTGTTACT CGGTTCTTCT ATGGATGCAG AGAATATTTC
    CATAAACTGT TAATTCAGGG TGATTCTTCT GGAAGGTTGA ATATTTGGAA CATATCAGAC
    ACAGCTGATA AACAGGGAAG TGAAGAAGGG CTGGCAATGA CAACTTCTAT TAGTTTGCAA
    GAGGCATTTG ATAAACTGAA TCCTTGTCCT GCTGGAATTA TAGATCAGCT GAGTGTGATT
    CCCAATAGTA ATGAACCTCT TAAAGTAACT GCAAGTGTGT ACATACCAGC ACATGGACGA
    CTTGTTTGTG GTCGTGAAGA TGGAAGCATA GTTATTGTAC CTGCCACACA GACGGCCATA
    GTACAGCTGT TGCAAGGGGA ACACATGCTC AGAAGAGGTT GGCCACCTCA CAGAACACTC
    CGTGGTCATC GGAACAAAGT CACATGTTTG CTATATCCTC ATCAGGTCTC AGCTCGGTAT
    GATCAAAGAT ACCTGATATC TGGAGGTGTG GATTTTTCAG TCATAATTTG GGACATATTT
    TCTGGAGAAA TGAAACATAT CTTCTGTGTT CATGGTGGTG AGATTACTCA ACTTCTAGTT
    CCACCTGAAA ACTGTAGTGC AAGAGTACAG CACTGCATCT GCTCTGTAGC CAGTGACCAC
    TCAGTAGGAC TTCTAAGTTT GCGAGAGAAA AAATGCATAA TGTTGGCATC TCGTCACCTT
    TTTCCTATTC AAGTAATCAA ATGGAGGCCT TCTGATGATT ACCTGGTGGT GGGGTGTTCA
    GATGGTTCTG TGTACGTCTG GCAAATGGAT ACTGGTGCAT TGGATCGTTG TGTGATGGGG
    ATAACAGCAG TTGAGATTCT AAACGCTTGT GATGAAGCTG TTCCTGCTGC TGTTGATTCA
    CTTAGTCATC CAGCAGTCAA CCTAAAACAA GCTATGACGA GACGTAGTCT TGCTGCTCTT
    AAAAATATGG CCCATCATAA GCTACAAACC CTTGCAACTA ACCTCTTGGC TTCTGAGGCA
    TCTGACAAGG GAAATTTACC TAAATATTCT CATAACTCCC TGATGGTTCA AGCAATAAAG
    ACAAACCTAA CAGACCCGGA CATACATGTG CTATTCTTTG ATGTGGAAGC GTTGATTATT
    CAACTCCTGA CTGAAGAAGC CTCTAGGCCG AATACTGCTC TTATTTCCCC AGAGAATTTG
    CAAAAAGCAT CTGGCAGTTC AGACAAAGGG GGCTCTTTTT TAACTGGAAA ACGAGCAGCA
    GTTCTCTTCC AACAAGTGAA AGAAACGATC AAAGAGAACA TCAAGGAACA CCTCCTTGAT
    GATGAAGAGG AGGATGAGGA GATAATGAGG CAGAGAAGGG AAGAAAGTGA TCCTGAATAT
    CGGTCCAGCA AATCAAAGCC ATTGACCCTA TTAGAATATA ATTTAACTAT GGACACTGCA
    AAGCTGTTTA TGTCCTGCCT TCACGCCTGG GGTTTGAATG AAGTACTGGA TGAAGTTTGC
    CTGGATCGCC TTGGAATGCT GAAACCCCAC TGCACCGTAT CGTTTGGCCT CTTGTCAAGA
    GGAGGCCATA TGTCACTGAT GCTGCCGGGT TATAATCAGC CTGCTTGTAA ACTGTCACAT
    GGGAAAACAG AAGTAGGAAG GAAGCTGCCA GCGTCTGAGG GAGTAGGAAA GGGAACTTAC
    GGAGTGTCCC GTGCCGTCAC CACACAGCAT CTCCTGTCTA TCATTTCTTT GGCAAATACT
    TTAATGAGTA TGACCAATGC AACTTTTATT GGTGATCATA TGAAGAAGGG TCCTACCAGG
    CCACCTAGAC CAAGCACCCC AGACCTTTCT AAGGCAAGGG GTTCCCCTCC AACTTCCAGT
    AATATTGTGC AAGGACAGAT TAAACAAGGT TGGAGTCAGT TAGCTGCTAT GCACTGTGTT
    ATGCTGCCAG ACCTACTGGG ATTGGATAAA TTTAGGCCTC CCCTTCTGGA GATGCTGGCC
    CGAAGATGGC AAGATCGATG CTTGGAGGTG AGAGAAGCCG CGCAGGCCCT GCTTCTGGCG
    GAACTGAGAA GAATTGAGCA GGCAGGCAGG AAGGAAGCCA TTGATGCCTG GGCTCCTTAC
    TTACCTCAGT ACATAGACCA CGTCATATCA CCTGGAGTCA CATCAGAAGC CGCGCAGACT
    ATCACCACGG CTCCTGATGC CTCAGGGCCT GAAGCAAAAG TCCAGGAGGA AGAGCATGAC
    CTTGTTGACG ATGACATCAC CACTGGTTGC TTATCAAGTG TCCCACAAAT GAAAAAAATT
    TCTACATCTT ACGAGGAAAG ACGGAAGCAA GCTACCGCTA TTGTTTTACT TGGAGTAATA
    GGAGCTGAAT TTGGTGCTGA AATTGAACCT CCTAAACTAT TGACCAGACC TCGAAGCTCT
    AGCCAAATTC CTGAGGGATT CGGGTTGACT AGTGGTGGAT CCAACTACTC GCTGGCCAGA
    CATACTTGCA AGGCACTGAC GTTTCTTCTG CTACAGCCTC CAAGCCCCAA ACTTCCTCCA
    CACAGCACTA TCCGAAGAAC AGCCATTGAT CTGATTGGAC GTGGGTTCAC TGTTTGGGAG
    CCTTACATGG ATGTGTCCGC TGTTCTGATG GGGCTTCTCG AACTTTGTGC CGATGCCGAG
    AAACAACTTG CCAACATCAC AATGGGGTTG CCTCTGAGCC CAGCAGCTGA CTCGGCCCGC
    TCTGCGAGGC ATGCCCTCTC GCTCATTGCC ACCGCCAGAC CACCCGCCTT CATCACCACC
    ATAGCCAAAG AGGTACACAG ACATACGGCT CTTGCAGCAA ATACCCAATC ACAGCAGAAT
    ATGCACACAA CAACTCTTGC ACGAGCTAAA GGGGAAATTT TGAGAGTCAT TGAAATTCTT
    ATTGAAAAGA TGCCCACAGA TGTTGTGGAT CTTCTCGTGG AGGTTATGGA CATCATTATG
    TACTGCCTTG AAGGATCTTT AGTTAAAAAG AAAGGTCTTC AAGAATGTTT CCCAGCCATC
    TGCAGGTTCT ACATGGTCAG CTATTATGAG CGGAATCACA GAATAGCAGT TGGAGCTCGC
    CATGGTTCAG TGGCCCTGTA CGACATCCGG ACTGGAAAAT GTCAGACAAT CCATGGACAC
    AAGGGACCAA TCACTGCAGT GGCTTTTGCT CCTGATGGAA GATATCTTGC CACCTACTCA
    AACACTGACA GCCACATTTC TTTTTGGCAG ATGAACACGT CACTGCTGGG AAGCATCGGC
    ATGCTGAACT CGGCACCTCA GCTGCGCTGC ATTAAAACCT ACCAGGTGCC CCCTGTGCAG
    CCCGCGTCCC CCGGCTCCCA CAATGCCCTC AAGCTGGCCC GGCTCATCTG GACTTCCAAC
    CGCAACGTCA TCCTCATGGC CCATGACGGG AAGGAGCACC GCTTCATGGT CTAA

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

    CloneID OHu66009
    Clone ID Related Accession (Same CDS sequence) XM_011525888.1 , XM_011525888.2
    Accession Version XM_011525888.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4191bp)
    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 WD repeat-containing protein 7 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000018.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGGCAGGAA ACAGCCTTGT TCTACCCATT GTTCTTTGGG GTCGAAAAGC GCCCACACAT 
    TGCATCTCAG CCGTACTTTT AACAGATGAT GGGGCCACGA TCGTAACAGG ATGTCACGAC
    GGACAAATAT GTCTCTGGGA TCTTTCAGTA GAACTGCAAA TTAATCCTCG AGCACTGTTG
    TTTGGTCATA CAGCATCAAT CACTTGTTTG TCTAAAGCTT GTGCTTCCAG TGACAAACAG
    TATATTGTGA GTGCATCTGA AAGTGGAGAG ATGTGCCTCT GGGATGTGAG TGATGGCAGA
    TGTATTGAAT TTACAAAATT AGCTTGCACA CATACTGGCA TACAGTTCTA CCAGTTCTCT
    GTTGGGAATC AGCGAGAAGG AAGGCTTTTA TGCCACGGAC ATTACCCTGA AATCCTTGTT
    GTGGATGCTA CCAGCCTTGA AGTATTATAC TCCTTAGTAT CAAAGATATC ACCAGACTGG
    ATTAGCTCCA TGAGTATTAT TCGATCCCAC CGAACACAAG AGGACACAGT GGTAGCACTC
    TCGGTGACTG GCATCCTGAA GGTCTGGATT GTTACCTCGG AAATAAGTGA CATGCAGGAT
    ACTGAGCCAA TATTTGAGGA GGAATCCAAA CCAATTTATT GTCAGAATTG CCAAAGCATC
    TCTTTTTGTG CATTTACACA AAGGTCACTT TTGGTTGTGT GTTCCAAATA TTGGAGGGTG
    TTCGATGCCG GAGACTATTC CTTGTTGTGT TCAGGTCCTA GTGAAAATGG ACAGACATGG
    ACCGGGGGGG ACTTTGTCTC ATCAGATAAA GTCATCATTT GGACAGAAAA TGGGCAAAGT
    TATATTTACA AACTACCTGC CAGTTGCCTT CCAGCTAGTG ATTCATTCCG CAGTGATGTG
    GGGAAGGCAG TTGAAAATTT AATTCCTCCT GTACAACATA TCCTCTTGGA TCGAAAAGAT
    AAAGAGTTGC TAATTTGTCC TCCTGTTACT CGGTTCTTCT ATGGATGCAG AGAATATTTC
    CATAAACTGT TAATTCAGGG TGATTCTTCT GGAAGGTTGA ATATTTGGAA CATATCAGAC
    ACAGCTGATA AACAGGGAAG TGAAGAAGGG CTGGCAATGA CAACTTCTAT TAGTTTGCAA
    GAGGCATTTG ATAAACTGAA TCCTTGTCCT GCTGGAATTA TAGATCAGCT GAGTGTGATT
    CCCAATAGTA ATGAACCTCT TAAAGTAACT GCAAGTGTGT ACATACCAGC ACATGGACGA
    CTTGTTTGTG GTCGTGAAGA TGGAAGCATA GTTATTGTAC CTGCCACACA GACGGCCATA
    GTACAGCTGT TGCAAGGGGA ACACATGCTC AGAAGAGGTT GGCCACCTCA CAGAACACTC
    CGTGGTCATC GGAACAAAGT CACATGTTTG CTATATCCTC ATCAGGTCTC AGCTCGGTAT
    GATCAAAGAT ACCTGATATC TGGAGGTGTG GATTTTTCAG TCATAATTTG GGACATATTT
    TCTGGAGAAA TGAAACATAT CTTCTGTGTT CATGGTGGTG AGATTACTCA ACTTCTAGTT
    CCACCTGAAA ACTGTAGTGC AAGAGTACAG CACTGCATCT GCTCTGTAGC CAGTGACCAC
    TCAGTAGGAC TTCTAAGTTT GCGAGAGAAA AAATGCATAA TGTTGGCATC TCGTCACCTT
    TTTCCTATTC AAGTAATCAA ATGGAGGCCT TCTGATGATT ACCTGGTGGT GGGGTGTTCA
    GATGGTTCTG TGTACGTCTG GCAAATGGAT ACTGGTGCAT TGGATCGTTG TGTGATGGGG
    ATAACAGCAG TTGAGATTCT AAACGCTTGT GATGAAGCTG TTCCTGCTGC TGTTGATTCA
    CTTAGTCATC CAGCAGTCAA CCTAAAACAA GCTATGACGA GACGTAGTCT TGCTGCTCTT
    AAAAATATGG CCCATCATAA GCTACAAACC CTTGCAACTA ACCTCTTGGC TTCTGAGGCA
    TCTGACAAGG GAAATTTACC TAAATATTCT CATAACTCCC TGATGGTTCA AGCAATAAAG
    ACAAACCTAA CAGACCCGGA CATACATGTG CTATTCTTTG ATGTGGAAGC GTTGATTATT
    CAACTCCTGA CTGAAGAAGC CTCTAGGCCG AATACTGCTC TTATTTCCCC AGAGAATTTG
    CAAAAAGCAT CTGGCAGTTC AGACAAAGGG GGCTCTTTTT TAACTGGAAA ACGAGCAGCA
    GTTCTCTTCC AACAAGTGAA AGAAACGATC AAAGAGAACA TCAAGGAACA CCTCCTTGAT
    GATGAAGAGG AGGATGAGGA GATAATGAGG CAGAGAAGGG AAGAAAGTGA TCCTGAATAT
    CGGTCCAGCA AATCAAAGCC ATTGACCCTA TTAGAATATA ATTTAACTAT GGACACTGCA
    AAGCTGTTTA TGTCCTGCCT TCACGCCTGG GGTTTGAATG AAGTACTGGA TGAAGTTTGC
    CTGGATCGCC TTGGAATGCT GAAACCCCAC TGCACCGTAT CGTTTGGCCT CTTGTCAAGA
    GGAGGCCATA TGTCACTGAT GCTGCCGGGT TATAATCAGC CTGCTTGTAA ACTGTCACAT
    GGGAAAACAG AAGTAGGAAG GAAGCTGCCA GCGTCTGAGG GAGTAGGAAA GGGAACTTAC
    GGAGTGTCCC GTGCCGTCAC CACACAGCAT CTCCTGTCTA TCATTTCTTT GGCAAATACT
    TTAATGAGTA TGACCAATGC AACTTTTATT GGTGATCATA TGAAGAAGGG TCCTACCAGG
    CCACCTAGAC CAAGCACCCC AGACCTTTCT AAGGCAAGGG GTTCCCCTCC AACTTCCAGT
    AATATTGTGC AAGGACAGAT TAAACAAGTT GCTGCACCTG TCGTTTCCGC TCGGTCTGAT
    GCTGATCACT CTGGCTCTGA CCCTCCTTCT GCTCCTGCTT TACATACCTG TTTCTTAGTA
    AATGAAGGTT GGAGTCAGTT AGCTGCTATG CACTGTGTTA TGCTGCCAGA CCTACTGGGA
    TTGGATAAAT TTAGGCCTCC CCTTCTGGAG ATGCTGGCCC GAAGATGGCA AGATCGATGC
    TTGGAGGTGA GAGAAGCCGC GCAGGCCCTG CTTCTGGCGG AACTGAGAAG AATTGAGCAG
    GCAGGCAGGA AGGAAGCCAT TGATGCCTGG GCTCCTTACT TACCTCAGTA CATAGACCAC
    GTCATATCAC CTGGAGTCAC ATCAGAAGCC GCGCAGACTA TCACCACGGC TCCTGATGCC
    TCAGGGCCTG AAGCAAAAGT CCAGGAGGAA GAGCATGACC TTGTTGACGA TGACATCACC
    ACTGGTTGCT TATCAAGTGT CCCACAAATG AAAAAAATTT CTACATCTTA CGAGGAAAGA
    CGGAAGCAAG CTACCGCTAT TGTTTTACTT GGAGTAATAG GAGCTGAATT TGGTGCTGAA
    ATTGAACCTC CTAAACTATT GACCAGACCT CGAAGCTCTA GCCAAATTCC TGAGGGATTC
    GGGTTGACTA GTGGTGGATC CAACTACTCG CTGGCCAGAC ATACTTGCAA GGCACTGACG
    TTTCTTCTGC TACAGCCTCC AAGCCCCAAA CTTCCTCCAC ACAGCACTAT CCGAAGAACA
    GCCATTGATC TGATTGGACG TGGGTTCACT GTTTGGGAGC CTTACATGGA TGTGTCCGCT
    GTTCTGATGG GGCTTCTCGA ACTTTGTGCC GATGCCGAGA AACAACTTGC CAACATCACA
    ATGGGGTTGC CTCTGAGCCC AGCAGCTGAC TCGGCCCGCT CTGCGAGGCA TGCCCTCTCG
    CTCATTGCCA CCGCCAGACC ACCCGCCTTC ATCACCACCA TAGCCAAAGA GGTACACAGA
    CATACGGCTC TTGCAGCAAA TACCCAATCA CAGCAGAATA TGCACACAAC AACTCTTGCA
    CGAGCTAAAG GGGAAATTTT GAGAGTCATT GAAATTCTTA TTGAAAAGAT GCCCACAGAT
    GTTGTGGATC TTCTCGTGGA GGTTATGGAC ATCATTATGT ACTGCCTTGA AGGATCTTTA
    GTTAAAAAGA AAGGTCTTCA AGAATGTTTC CCAGCCATCT GCAGGTTCTA CATGGTCAGC
    TATTATGAGC GGAATCACAG AATAGCAGTT GGAGCTCGCC ATGGTTCAGT GGCCCTGTAC
    GACATCCGGA CTGGAAAATG TCAGGCACTA TACCAGGCAA AGGAGAGGTG A

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

    RefSeq XP_011524190.1
    CDS254..4444
    Translation

    Target ORF information:

    RefSeq Version XM_011525888.1
    Organism Homo sapiens(human)
    Definition Homo sapiens WD repeat domain 7 (WDR7), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011525888.1

    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
    ATGGCAGGAA ACAGCCTTGT TCTACCCATT GTTCTTTGGG GTCGAAAAGC GCCCACACAT 
    TGCATCTCAG CCGTACTTTT AACAGATGAT GGGGCCACGA TCGTAACAGG ATGTCACGAC
    GGACAAATAT GTCTCTGGGA TCTTTCAGTA GAACTGCAAA TTAATCCTCG AGCACTGTTG
    TTTGGTCATA CAGCATCAAT CACTTGTTTG TCTAAAGCTT GTGCTTCCAG TGACAAACAG
    TATATTGTGA GTGCATCTGA AAGTGGAGAG ATGTGCCTCT GGGATGTGAG TGATGGCAGA
    TGTATTGAAT TTACAAAATT AGCTTGCACA CATACTGGCA TACAGTTCTA CCAGTTCTCT
    GTTGGGAATC AGCGAGAAGG AAGGCTTTTA TGCCACGGAC ATTACCCTGA AATCCTTGTT
    GTGGATGCTA CCAGCCTTGA AGTATTATAC TCCTTAGTAT CAAAGATATC ACCAGACTGG
    ATTAGCTCCA TGAGTATTAT TCGATCCCAC CGAACACAAG AGGACACAGT GGTAGCACTC
    TCGGTGACTG GCATCCTGAA GGTCTGGATT GTTACCTCGG AAATAAGTGA CATGCAGGAT
    ACTGAGCCAA TATTTGAGGA GGAATCCAAA CCAATTTATT GTCAGAATTG CCAAAGCATC
    TCTTTTTGTG CATTTACACA AAGGTCACTT TTGGTTGTGT GTTCCAAATA TTGGAGGGTG
    TTCGATGCCG GAGACTATTC CTTGTTGTGT TCAGGTCCTA GTGAAAATGG ACAGACATGG
    ACCGGGGGGG ACTTTGTCTC ATCAGATAAA GTCATCATTT GGACAGAAAA TGGGCAAAGT
    TATATTTACA AACTACCTGC CAGTTGCCTT CCAGCTAGTG ATTCATTCCG CAGTGATGTG
    GGGAAGGCAG TTGAAAATTT AATTCCTCCT GTACAACATA TCCTCTTGGA TCGAAAAGAT
    AAAGAGTTGC TAATTTGTCC TCCTGTTACT CGGTTCTTCT ATGGATGCAG AGAATATTTC
    CATAAACTGT TAATTCAGGG TGATTCTTCT GGAAGGTTGA ATATTTGGAA CATATCAGAC
    ACAGCTGATA AACAGGGAAG TGAAGAAGGG CTGGCAATGA CAACTTCTAT TAGTTTGCAA
    GAGGCATTTG ATAAACTGAA TCCTTGTCCT GCTGGAATTA TAGATCAGCT GAGTGTGATT
    CCCAATAGTA ATGAACCTCT TAAAGTAACT GCAAGTGTGT ACATACCAGC ACATGGACGA
    CTTGTTTGTG GTCGTGAAGA TGGAAGCATA GTTATTGTAC CTGCCACACA GACGGCCATA
    GTACAGCTGT TGCAAGGGGA ACACATGCTC AGAAGAGGTT GGCCACCTCA CAGAACACTC
    CGTGGTCATC GGAACAAAGT CACATGTTTG CTATATCCTC ATCAGGTCTC AGCTCGGTAT
    GATCAAAGAT ACCTGATATC TGGAGGTGTG GATTTTTCAG TCATAATTTG GGACATATTT
    TCTGGAGAAA TGAAACATAT CTTCTGTGTT CATGGTGGTG AGATTACTCA ACTTCTAGTT
    CCACCTGAAA ACTGTAGTGC AAGAGTACAG CACTGCATCT GCTCTGTAGC CAGTGACCAC
    TCAGTAGGAC TTCTAAGTTT GCGAGAGAAA AAATGCATAA TGTTGGCATC TCGTCACCTT
    TTTCCTATTC AAGTAATCAA ATGGAGGCCT TCTGATGATT ACCTGGTGGT GGGGTGTTCA
    GATGGTTCTG TGTACGTCTG GCAAATGGAT ACTGGTGCAT TGGATCGTTG TGTGATGGGG
    ATAACAGCAG TTGAGATTCT AAACGCTTGT GATGAAGCTG TTCCTGCTGC TGTTGATTCA
    CTTAGTCATC CAGCAGTCAA CCTAAAACAA GCTATGACGA GACGTAGTCT TGCTGCTCTT
    AAAAATATGG CCCATCATAA GCTACAAACC CTTGCAACTA ACCTCTTGGC TTCTGAGGCA
    TCTGACAAGG GAAATTTACC TAAATATTCT CATAACTCCC TGATGGTTCA AGCAATAAAG
    ACAAACCTAA CAGACCCGGA CATACATGTG CTATTCTTTG ATGTGGAAGC GTTGATTATT
    CAACTCCTGA CTGAAGAAGC CTCTAGGCCG AATACTGCTC TTATTTCCCC AGAGAATTTG
    CAAAAAGCAT CTGGCAGTTC AGACAAAGGG GGCTCTTTTT TAACTGGAAA ACGAGCAGCA
    GTTCTCTTCC AACAAGTGAA AGAAACGATC AAAGAGAACA TCAAGGAACA CCTCCTTGAT
    GATGAAGAGG AGGATGAGGA GATAATGAGG CAGAGAAGGG AAGAAAGTGA TCCTGAATAT
    CGGTCCAGCA AATCAAAGCC ATTGACCCTA TTAGAATATA ATTTAACTAT GGACACTGCA
    AAGCTGTTTA TGTCCTGCCT TCACGCCTGG GGTTTGAATG AAGTACTGGA TGAAGTTTGC
    CTGGATCGCC TTGGAATGCT GAAACCCCAC TGCACCGTAT CGTTTGGCCT CTTGTCAAGA
    GGAGGCCATA TGTCACTGAT GCTGCCGGGT TATAATCAGC CTGCTTGTAA ACTGTCACAT
    GGGAAAACAG AAGTAGGAAG GAAGCTGCCA GCGTCTGAGG GAGTAGGAAA GGGAACTTAC
    GGAGTGTCCC GTGCCGTCAC CACACAGCAT CTCCTGTCTA TCATTTCTTT GGCAAATACT
    TTAATGAGTA TGACCAATGC AACTTTTATT GGTGATCATA TGAAGAAGGG TCCTACCAGG
    CCACCTAGAC CAAGCACCCC AGACCTTTCT AAGGCAAGGG GTTCCCCTCC AACTTCCAGT
    AATATTGTGC AAGGACAGAT TAAACAAGTT GCTGCACCTG TCGTTTCCGC TCGGTCTGAT
    GCTGATCACT CTGGCTCTGA CCCTCCTTCT GCTCCTGCTT TACATACCTG TTTCTTAGTA
    AATGAAGGTT GGAGTCAGTT AGCTGCTATG CACTGTGTTA TGCTGCCAGA CCTACTGGGA
    TTGGATAAAT TTAGGCCTCC CCTTCTGGAG ATGCTGGCCC GAAGATGGCA AGATCGATGC
    TTGGAGGTGA GAGAAGCCGC GCAGGCCCTG CTTCTGGCGG AACTGAGAAG AATTGAGCAG
    GCAGGCAGGA AGGAAGCCAT TGATGCCTGG GCTCCTTACT TACCTCAGTA CATAGACCAC
    GTCATATCAC CTGGAGTCAC ATCAGAAGCC GCGCAGACTA TCACCACGGC TCCTGATGCC
    TCAGGGCCTG AAGCAAAAGT CCAGGAGGAA GAGCATGACC TTGTTGACGA TGACATCACC
    ACTGGTTGCT TATCAAGTGT CCCACAAATG AAAAAAATTT CTACATCTTA CGAGGAAAGA
    CGGAAGCAAG CTACCGCTAT TGTTTTACTT GGAGTAATAG GAGCTGAATT TGGTGCTGAA
    ATTGAACCTC CTAAACTATT GACCAGACCT CGAAGCTCTA GCCAAATTCC TGAGGGATTC
    GGGTTGACTA GTGGTGGATC CAACTACTCG CTGGCCAGAC ATACTTGCAA GGCACTGACG
    TTTCTTCTGC TACAGCCTCC AAGCCCCAAA CTTCCTCCAC ACAGCACTAT CCGAAGAACA
    GCCATTGATC TGATTGGACG TGGGTTCACT GTTTGGGAGC CTTACATGGA TGTGTCCGCT
    GTTCTGATGG GGCTTCTCGA ACTTTGTGCC GATGCCGAGA AACAACTTGC CAACATCACA
    ATGGGGTTGC CTCTGAGCCC AGCAGCTGAC TCGGCCCGCT CTGCGAGGCA TGCCCTCTCG
    CTCATTGCCA CCGCCAGACC ACCCGCCTTC ATCACCACCA TAGCCAAAGA GGTACACAGA
    CATACGGCTC TTGCAGCAAA TACCCAATCA CAGCAGAATA TGCACACAAC AACTCTTGCA
    CGAGCTAAAG GGGAAATTTT GAGAGTCATT GAAATTCTTA TTGAAAAGAT GCCCACAGAT
    GTTGTGGATC TTCTCGTGGA GGTTATGGAC ATCATTATGT ACTGCCTTGA AGGATCTTTA
    GTTAAAAAGA AAGGTCTTCA AGAATGTTTC CCAGCCATCT GCAGGTTCTA CATGGTCAGC
    TATTATGAGC GGAATCACAG AATAGCAGTT GGAGCTCGCC ATGGTTCAGT GGCCCTGTAC
    GACATCCGGA CTGGAAAATG TCAGGCACTA TACCAGGCAA AGGAGAGGTG A

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

    CloneID OHu66009
    Clone ID Related Accession (Same CDS sequence) XM_011525888.1 , XM_011525888.2
    Accession Version XM_011525888.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4191bp)
    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 WD repeat-containing protein 7 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000018.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011525888.1. ##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
    ATGGCAGGAA ACAGCCTTGT TCTACCCATT GTTCTTTGGG GTCGAAAAGC GCCCACACAT 
    TGCATCTCAG CCGTACTTTT AACAGATGAT GGGGCCACGA TCGTAACAGG ATGTCACGAC
    GGACAAATAT GTCTCTGGGA TCTTTCAGTA GAACTGCAAA TTAATCCTCG AGCACTGTTG
    TTTGGTCATA CAGCATCAAT CACTTGTTTG TCTAAAGCTT GTGCTTCCAG TGACAAACAG
    TATATTGTGA GTGCATCTGA AAGTGGAGAG ATGTGCCTCT GGGATGTGAG TGATGGCAGA
    TGTATTGAAT TTACAAAATT AGCTTGCACA CATACTGGCA TACAGTTCTA CCAGTTCTCT
    GTTGGGAATC AGCGAGAAGG AAGGCTTTTA TGCCACGGAC ATTACCCTGA AATCCTTGTT
    GTGGATGCTA CCAGCCTTGA AGTATTATAC TCCTTAGTAT CAAAGATATC ACCAGACTGG
    ATTAGCTCCA TGAGTATTAT TCGATCCCAC CGAACACAAG AGGACACAGT GGTAGCACTC
    TCGGTGACTG GCATCCTGAA GGTCTGGATT GTTACCTCGG AAATAAGTGA CATGCAGGAT
    ACTGAGCCAA TATTTGAGGA GGAATCCAAA CCAATTTATT GTCAGAATTG CCAAAGCATC
    TCTTTTTGTG CATTTACACA AAGGTCACTT TTGGTTGTGT GTTCCAAATA TTGGAGGGTG
    TTCGATGCCG GAGACTATTC CTTGTTGTGT TCAGGTCCTA GTGAAAATGG ACAGACATGG
    ACCGGGGGGG ACTTTGTCTC ATCAGATAAA GTCATCATTT GGACAGAAAA TGGGCAAAGT
    TATATTTACA AACTACCTGC CAGTTGCCTT CCAGCTAGTG ATTCATTCCG CAGTGATGTG
    GGGAAGGCAG TTGAAAATTT AATTCCTCCT GTACAACATA TCCTCTTGGA TCGAAAAGAT
    AAAGAGTTGC TAATTTGTCC TCCTGTTACT CGGTTCTTCT ATGGATGCAG AGAATATTTC
    CATAAACTGT TAATTCAGGG TGATTCTTCT GGAAGGTTGA ATATTTGGAA CATATCAGAC
    ACAGCTGATA AACAGGGAAG TGAAGAAGGG CTGGCAATGA CAACTTCTAT TAGTTTGCAA
    GAGGCATTTG ATAAACTGAA TCCTTGTCCT GCTGGAATTA TAGATCAGCT GAGTGTGATT
    CCCAATAGTA ATGAACCTCT TAAAGTAACT GCAAGTGTGT ACATACCAGC ACATGGACGA
    CTTGTTTGTG GTCGTGAAGA TGGAAGCATA GTTATTGTAC CTGCCACACA GACGGCCATA
    GTACAGCTGT TGCAAGGGGA ACACATGCTC AGAAGAGGTT GGCCACCTCA CAGAACACTC
    CGTGGTCATC GGAACAAAGT CACATGTTTG CTATATCCTC ATCAGGTCTC AGCTCGGTAT
    GATCAAAGAT ACCTGATATC TGGAGGTGTG GATTTTTCAG TCATAATTTG GGACATATTT
    TCTGGAGAAA TGAAACATAT CTTCTGTGTT CATGGTGGTG AGATTACTCA ACTTCTAGTT
    CCACCTGAAA ACTGTAGTGC AAGAGTACAG CACTGCATCT GCTCTGTAGC CAGTGACCAC
    TCAGTAGGAC TTCTAAGTTT GCGAGAGAAA AAATGCATAA TGTTGGCATC TCGTCACCTT
    TTTCCTATTC AAGTAATCAA ATGGAGGCCT TCTGATGATT ACCTGGTGGT GGGGTGTTCA
    GATGGTTCTG TGTACGTCTG GCAAATGGAT ACTGGTGCAT TGGATCGTTG TGTGATGGGG
    ATAACAGCAG TTGAGATTCT AAACGCTTGT GATGAAGCTG TTCCTGCTGC TGTTGATTCA
    CTTAGTCATC CAGCAGTCAA CCTAAAACAA GCTATGACGA GACGTAGTCT TGCTGCTCTT
    AAAAATATGG CCCATCATAA GCTACAAACC CTTGCAACTA ACCTCTTGGC TTCTGAGGCA
    TCTGACAAGG GAAATTTACC TAAATATTCT CATAACTCCC TGATGGTTCA AGCAATAAAG
    ACAAACCTAA CAGACCCGGA CATACATGTG CTATTCTTTG ATGTGGAAGC GTTGATTATT
    CAACTCCTGA CTGAAGAAGC CTCTAGGCCG AATACTGCTC TTATTTCCCC AGAGAATTTG
    CAAAAAGCAT CTGGCAGTTC AGACAAAGGG GGCTCTTTTT TAACTGGAAA ACGAGCAGCA
    GTTCTCTTCC AACAAGTGAA AGAAACGATC AAAGAGAACA TCAAGGAACA CCTCCTTGAT
    GATGAAGAGG AGGATGAGGA GATAATGAGG CAGAGAAGGG AAGAAAGTGA TCCTGAATAT
    CGGTCCAGCA AATCAAAGCC ATTGACCCTA TTAGAATATA ATTTAACTAT GGACACTGCA
    AAGCTGTTTA TGTCCTGCCT TCACGCCTGG GGTTTGAATG AAGTACTGGA TGAAGTTTGC
    CTGGATCGCC TTGGAATGCT GAAACCCCAC TGCACCGTAT CGTTTGGCCT CTTGTCAAGA
    GGAGGCCATA TGTCACTGAT GCTGCCGGGT TATAATCAGC CTGCTTGTAA ACTGTCACAT
    GGGAAAACAG AAGTAGGAAG GAAGCTGCCA GCGTCTGAGG GAGTAGGAAA GGGAACTTAC
    GGAGTGTCCC GTGCCGTCAC CACACAGCAT CTCCTGTCTA TCATTTCTTT GGCAAATACT
    TTAATGAGTA TGACCAATGC AACTTTTATT GGTGATCATA TGAAGAAGGG TCCTACCAGG
    CCACCTAGAC CAAGCACCCC AGACCTTTCT AAGGCAAGGG GTTCCCCTCC AACTTCCAGT
    AATATTGTGC AAGGACAGAT TAAACAAGTT GCTGCACCTG TCGTTTCCGC TCGGTCTGAT
    GCTGATCACT CTGGCTCTGA CCCTCCTTCT GCTCCTGCTT TACATACCTG TTTCTTAGTA
    AATGAAGGTT GGAGTCAGTT AGCTGCTATG CACTGTGTTA TGCTGCCAGA CCTACTGGGA
    TTGGATAAAT TTAGGCCTCC CCTTCTGGAG ATGCTGGCCC GAAGATGGCA AGATCGATGC
    TTGGAGGTGA GAGAAGCCGC GCAGGCCCTG CTTCTGGCGG AACTGAGAAG AATTGAGCAG
    GCAGGCAGGA AGGAAGCCAT TGATGCCTGG GCTCCTTACT TACCTCAGTA CATAGACCAC
    GTCATATCAC CTGGAGTCAC ATCAGAAGCC GCGCAGACTA TCACCACGGC TCCTGATGCC
    TCAGGGCCTG AAGCAAAAGT CCAGGAGGAA GAGCATGACC TTGTTGACGA TGACATCACC
    ACTGGTTGCT TATCAAGTGT CCCACAAATG AAAAAAATTT CTACATCTTA CGAGGAAAGA
    CGGAAGCAAG CTACCGCTAT TGTTTTACTT GGAGTAATAG GAGCTGAATT TGGTGCTGAA
    ATTGAACCTC CTAAACTATT GACCAGACCT CGAAGCTCTA GCCAAATTCC TGAGGGATTC
    GGGTTGACTA GTGGTGGATC CAACTACTCG CTGGCCAGAC ATACTTGCAA GGCACTGACG
    TTTCTTCTGC TACAGCCTCC AAGCCCCAAA CTTCCTCCAC ACAGCACTAT CCGAAGAACA
    GCCATTGATC TGATTGGACG TGGGTTCACT GTTTGGGAGC CTTACATGGA TGTGTCCGCT
    GTTCTGATGG GGCTTCTCGA ACTTTGTGCC GATGCCGAGA AACAACTTGC CAACATCACA
    ATGGGGTTGC CTCTGAGCCC AGCAGCTGAC TCGGCCCGCT CTGCGAGGCA TGCCCTCTCG
    CTCATTGCCA CCGCCAGACC ACCCGCCTTC ATCACCACCA TAGCCAAAGA GGTACACAGA
    CATACGGCTC TTGCAGCAAA TACCCAATCA CAGCAGAATA TGCACACAAC AACTCTTGCA
    CGAGCTAAAG GGGAAATTTT GAGAGTCATT GAAATTCTTA TTGAAAAGAT GCCCACAGAT
    GTTGTGGATC TTCTCGTGGA GGTTATGGAC ATCATTATGT ACTGCCTTGA AGGATCTTTA
    GTTAAAAAGA AAGGTCTTCA AGAATGTTTC CCAGCCATCT GCAGGTTCTA CATGGTCAGC
    TATTATGAGC GGAATCACAG AATAGCAGTT GGAGCTCGCC ATGGTTCAGT GGCCCTGTAC
    GACATCCGGA CTGGAAAATG TCAGGCACTA TACCAGGCAA AGGAGAGGTG A

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

    RefSeq XP_011524190.1
    CDS238..4428
    Translation

    Target ORF information:

    RefSeq Version XM_011525888.2
    Organism Homo sapiens(human)
    Definition Homo sapiens WD repeat domain 7 (WDR7), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011525888.2

    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
    ATGGCAGGAA ACAGCCTTGT TCTACCCATT GTTCTTTGGG GTCGAAAAGC GCCCACACAT 
    TGCATCTCAG CCGTACTTTT AACAGATGAT GGGGCCACGA TCGTAACAGG ATGTCACGAC
    GGACAAATAT GTCTCTGGGA TCTTTCAGTA GAACTGCAAA TTAATCCTCG AGCACTGTTG
    TTTGGTCATA CAGCATCAAT CACTTGTTTG TCTAAAGCTT GTGCTTCCAG TGACAAACAG
    TATATTGTGA GTGCATCTGA AAGTGGAGAG ATGTGCCTCT GGGATGTGAG TGATGGCAGA
    TGTATTGAAT TTACAAAATT AGCTTGCACA CATACTGGCA TACAGTTCTA CCAGTTCTCT
    GTTGGGAATC AGCGAGAAGG AAGGCTTTTA TGCCACGGAC ATTACCCTGA AATCCTTGTT
    GTGGATGCTA CCAGCCTTGA AGTATTATAC TCCTTAGTAT CAAAGATATC ACCAGACTGG
    ATTAGCTCCA TGAGTATTAT TCGATCCCAC CGAACACAAG AGGACACAGT GGTAGCACTC
    TCGGTGACTG GCATCCTGAA GGTCTGGATT GTTACCTCGG AAATAAGTGA CATGCAGGAT
    ACTGAGCCAA TATTTGAGGA GGAATCCAAA CCAATTTATT GTCAGAATTG CCAAAGCATC
    TCTTTTTGTG CATTTACACA AAGGTCACTT TTGGTTGTGT GTTCCAAATA TTGGAGGGTG
    TTCGATGCCG GAGACTATTC CTTGTTGTGT TCAGGTCCTA GTGAAAATGG ACAGACATGG
    ACCGGGGGGG ACTTTGTCTC ATCAGATAAA GTCATCATTT GGACAGAAAA TGGGCAAAGT
    TATATTTACA AACTACCTGC CAGTTGCCTT CCAGCTAGTG ATTCATTCCG CAGTGATGTG
    GGGAAGGCAG TTGAAAATTT AATTCCTCCT GTACAACATA TCCTCTTGGA TCGAAAAGAT
    AAAGAGTTGC TAATTTGTCC TCCTGTTACT CGGTTCTTCT ATGGATGCAG AGAATATTTC
    CATAAACTGT TAATTCAGGG TGATTCTTCT GGAAGGTTGA ATATTTGGAA CATATCAGAC
    ACAGCTGATA AACAGGGAAG TGAAGAAGGG CTGGCAATGA CAACTTCTAT TAGTTTGCAA
    GAGGCATTTG ATAAACTGAA TCCTTGTCCT GCTGGAATTA TAGATCAGCT GAGTGTGATT
    CCCAATAGTA ATGAACCTCT TAAAGTAACT GCAAGTGTGT ACATACCAGC ACATGGACGA
    CTTGTTTGTG GTCGTGAAGA TGGAAGCATA GTTATTGTAC CTGCCACACA GACGGCCATA
    GTACAGCTGT TGCAAGGGGA ACACATGCTC AGAAGAGGTT GGCCACCTCA CAGAACACTC
    CGTGGTCATC GGAACAAAGT CACATGTTTG CTATATCCTC ATCAGGTCTC AGCTCGGTAT
    GATCAAAGAT ACCTGATATC TGGAGGTGTG GATTTTTCAG TCATAATTTG GGACATATTT
    TCTGGAGAAA TGAAACATAT CTTCTGTGTT CATGGTGGTG AGATTACTCA ACTTCTAGTT
    CCACCTGAAA ACTGTAGTGC AAGAGTACAG CACTGCATCT GCTCTGTAGC CAGTGACCAC
    TCAGTAGGAC TTCTAAGTTT GCGAGAGAAA AAATGCATAA TGTTGGCATC TCGTCACCTT
    TTTCCTATTC AAGTAATCAA ATGGAGGCCT TCTGATGATT ACCTGGTGGT GGGGTGTTCA
    GATGGTTCTG TGTACGTCTG GCAAATGGAT ACTGGTGCAT TGGATCGTTG TGTGATGGGG
    ATAACAGCAG TTGAGATTCT AAACGCTTGT GATGAAGCTG TTCCTGCTGC TGTTGATTCA
    CTTAGTCATC CAGCAGTCAA CCTAAAACAA GCTATGACGA GACGTAGTCT TGCTGCTCTT
    AAAAATATGG CCCATCATAA GCTACAAACC CTTGCAACTA ACCTCTTGGC TTCTGAGGCA
    TCTGACAAGG GAAATTTACC TAAATATTCT CATAACTCCC TGATGGTTCA AGCAATAAAG
    ACAAACCTAA CAGACCCGGA CATACATGTG CTATTCTTTG ATGTGGAAGC GTTGATTATT
    CAACTCCTGA CTGAAGAAGC CTCTAGGCCG AATACTGCTC TTATTTCCCC AGAGAATTTG
    CAAAAAGCAT CTGGCAGTTC AGACAAAGGG GGCTCTTTTT TAACTGGAAA ACGAGCAGCA
    GTTCTCTTCC AACAAGTGAA AGAAACGATC AAAGAGAACA TCAAGGAACA CCTCCTTGAT
    GATGAAGAGG AGGATGAGGA GATAATGAGG CAGAGAAGGG AAGAAAGTGA TCCTGAATAT
    CGGTCCAGCA AATCAAAGCC ATTGACCCTA TTAGAATATA ATTTAACTAT GGACACTGCA
    AAGCTGTTTA TGTCCTGCCT TCACGCCTGG GGTTTGAATG AAGTACTGGA TGAAGTTTGC
    CTGGATCGCC TTGGAATGCT GAAACCCCAC TGCACCGTAT CGTTTGGCCT CTTGTCAAGA
    GGAGGCCATA TGTCACTGAT GCTGCCGGGT TATAATCAGC CTGCTTGTAA ACTGTCACAT
    GGGAAAACAG AAGTAGGAAG GAAGCTGCCA GCGTCTGAGG GAGTAGGAAA GGGAACTTAC
    GGAGTGTCCC GTGCCGTCAC CACACAGCAT CTCCTGTCTA TCATTTCTTT GGCAAATACT
    TTAATGAGTA TGACCAATGC AACTTTTATT GGTGATCATA TGAAGAAGGG TCCTACCAGG
    CCACCTAGAC CAAGCACCCC AGACCTTTCT AAGGCAAGGG GTTCCCCTCC AACTTCCAGT
    AATATTGTGC AAGGACAGAT TAAACAAGTT GCTGCACCTG TCGTTTCCGC TCGGTCTGAT
    GCTGATCACT CTGGCTCTGA CCCTCCTTCT GCTCCTGCTT TACATACCTG TTTCTTAGTA
    AATGAAGGTT GGAGTCAGTT AGCTGCTATG CACTGTGTTA TGCTGCCAGA CCTACTGGGA
    TTGGATAAAT TTAGGCCTCC CCTTCTGGAG ATGCTGGCCC GAAGATGGCA AGATCGATGC
    TTGGAGGTGA GAGAAGCCGC GCAGGCCCTG CTTCTGGCGG AACTGAGAAG AATTGAGCAG
    GCAGGCAGGA AGGAAGCCAT TGATGCCTGG GCTCCTTACT TACCTCAGTA CATAGACCAC
    GTCATATCAC CTGGAGTCAC ATCAGAAGCC GCGCAGACTA TCACCACGGC TCCTGATGCC
    TCAGGGCCTG AAGCAAAAGT CCAGGAGGAA GAGCATGACC TTGTTGACGA TGACATCACC
    ACTGGTTGCT TATCAAGTGT CCCACAAATG AAAAAAATTT CTACATCTTA CGAGGAAAGA
    CGGAAGCAAG CTACCGCTAT TGTTTTACTT GGAGTAATAG GAGCTGAATT TGGTGCTGAA
    ATTGAACCTC CTAAACTATT GACCAGACCT CGAAGCTCTA GCCAAATTCC TGAGGGATTC
    GGGTTGACTA GTGGTGGATC CAACTACTCG CTGGCCAGAC ATACTTGCAA GGCACTGACG
    TTTCTTCTGC TACAGCCTCC AAGCCCCAAA CTTCCTCCAC ACAGCACTAT CCGAAGAACA
    GCCATTGATC TGATTGGACG TGGGTTCACT GTTTGGGAGC CTTACATGGA TGTGTCCGCT
    GTTCTGATGG GGCTTCTCGA ACTTTGTGCC GATGCCGAGA AACAACTTGC CAACATCACA
    ATGGGGTTGC CTCTGAGCCC AGCAGCTGAC TCGGCCCGCT CTGCGAGGCA TGCCCTCTCG
    CTCATTGCCA CCGCCAGACC ACCCGCCTTC ATCACCACCA TAGCCAAAGA GGTACACAGA
    CATACGGCTC TTGCAGCAAA TACCCAATCA CAGCAGAATA TGCACACAAC AACTCTTGCA
    CGAGCTAAAG GGGAAATTTT GAGAGTCATT GAAATTCTTA TTGAAAAGAT GCCCACAGAT
    GTTGTGGATC TTCTCGTGGA GGTTATGGAC ATCATTATGT ACTGCCTTGA AGGATCTTTA
    GTTAAAAAGA AAGGTCTTCA AGAATGTTTC CCAGCCATCT GCAGGTTCTA CATGGTCAGC
    TATTATGAGC GGAATCACAG AATAGCAGTT GGAGCTCGCC ATGGTTCAGT GGCCCTGTAC
    GACATCCGGA CTGGAAAATG TCAGGCACTA TACCAGGCAA AGGAGAGGTG A

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

  • PubMed

    Cross-disorder genome-wide analyses suggest a complex genetic relationship between Tourette's syndrome and OCD.
    The American journal of psychiatry172(1)82-93(2015 Jan)
    Yu D,Mathews CA,Scharf JM,Neale BM,Davis LK,Gamazon ER,Derks EM,Evans P,Edlund CK,Crane J,Fagerness JA,Osiecki L,Gallagher P,Gerber G,Haddad S,Illmann C,McGrath LM,Mayerfeld C,Arepalli S,Barlassina C,Barr CL,Bellodi L,Benarroch F,Berri? GB,Bienvenu OJ,Black DW,Bloch MH,Brentani H,Bruun RD,Budman CL,Camarena B,Campbell DD,Cappi C,Silgado JC,Cavallini MC,Chavira DA,Chouinard S,Cook EH,Cookson MR,Coric V,Cullen B,Cusi D,Delorme R,Denys D,Dion Y,Eapen V,Egberts K,Falkai P,Fernandez T,Fournier E,Garrido H,Geller D,Gilbert DL,Girard SL,Grabe HJ,Grados MA,Greenberg BD,Gross-Tsur V,Gr?nblatt E,Hardy J,Heiman GA,Hemmings SM,Herrera LD,Hezel DM,Hoekstra PJ,Jankovic J,Kennedy JL,King RA,Konkashbaev AI,Kremeyer B,Kurlan R,Lanzagorta N,Leboyer M,Leckman JF,Lennertz L,Liu C,Lochner C,Lowe TL,Lupoli S,Macciardi F,Maier W,Manunta P,Marconi M,McCracken JT,Mesa Restrepo SC,Moessner R,Moorjani P,Morgan J,Muller H,Murphy DL,Naarden AL,Nurmi E,Ochoa WC,Ophoff RA,Pakstis AJ,Pato MT,Pato CN,Piacentini J,Pittenger C,Pollak Y,Rauch SL,Renner T,Reus VI,Richter MA,Riddle MA,Robertson MM,Romero R,Ros?rio MC,Rosenberg D,Ruhrmann S,Sabatti C,Salvi E,Sampaio AS,Samuels J,Sandor P,Service SK,Sheppard B,Singer HS,Smit JH,Stein DJ,Strengman E,Tischfield JA,Turiel M,Valencia Duarte AV,Vallada H,Veenstra-VanderWeele J,Walitza S,Wang Y,Weale M,Weiss R,Wendland JR,Westenberg HG,Shugart YY,Hounie AG,Miguel EC,Nicolini H,Wagner M,Ruiz-Linares A,Cath DC,McMahon W,Posthuma D,Oostra BA,Nestadt G,Rouleau GA,Purcell S,Jenike MA,Heutink P,Hanna GL,Conti DV,Arnold PD,Freimer NB,Stewart SE,Knowles JA,Cox NJ,Pauls DL


    Genome-wide association study of comorbid depressive syndrome and alcohol dependence.
    Psychiatric genetics22(1)31-41(2012 Feb)
    Edwards AC,Aliev F,Bierut LJ,Bucholz KK,Edenberg H,Hesselbrock V,Kramer J,Kuperman S,Nurnberger JI Jr,Schuckit MA,Porjesz B,Dick DM


    Coeliac disease-associated risk variants in TNFAIP3 and REL implicate altered NF-kappaB signalling.
    Gut58(8)1078-83(2009 Aug)
    Trynka G,Zhernakova A,Romanos J,Franke L,Hunt KA,Turner G,Bruinenberg M,Heap GA,Platteel M,Ryan AW,de Kovel C,Holmes GK,Howdle PD,Walters JR,Sanders DS,Mulder CJ,Mearin ML,Verbeek WH,Trimble V,Stevens FM,Kelleher D,Barisani D,Bardella MT,McManus R,van Heel DA,Wijmenga C


    Genome-wide association analysis of susceptibility and clinical phenotype in multiple sclerosis.
    Human molecular genetics18(4)767-78(2009 Feb)
    Baranzini SE,Wang J,Gibson RA,Galwey N,Naegelin Y,Barkhof F,Radue EW,Lindberg RL,Uitdehaag BM,Johnson MR,Angelakopoulou A,Hall L,Richardson JC,Prinjha RK,Gass A,Geurts JJ,Kragt J,Sombekke M,Vrenken H,Qualley P,Lincoln RR,Gomez R,Caillier SJ,George MF,Mousavi H,Guerrero R,Okuda DT,Cree BA,Green AJ,Waubant E,Goodin DS,Pelletier D,Matthews PM,Hauser SL,Kappos L,Polman CH,Oksenberg JR


    A novel rabconnectin-3-binding protein that directly binds a GDP/GTP exchange protein for Rab3A small G protein implicated in Ca(2+)-dependent exocytosis of neurotransmitter.
    Genes to cells : devoted to molecular & cellular mechanisms8(6)537-46(2003 Jun)
    Kawabe H,Sakisaka T,Yasumi M,Shingai T,Izumi G,Nagano F,Deguchi-Tawarada M,Takeuchi M,Nakanishi H,Takai Y