wdr62 cDNA ORF clone, Danio rerio(zebrafish)

The following wdr62 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the wdr62 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
ODa20201 NM_001312680.1
Latest version!
Danio rerio WD repeat domain 62 (wdr62), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa20198 XM_694487.7
Latest version!
Danio rerio WD repeat domain 62 (wdr62), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
ODa20199 XM_005169694.4
Latest version!
Danio rerio WD repeat domain 62 (wdr62), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
ODa20202 XM_005169696.4
Latest version!
Danio rerio WD repeat domain 62 (wdr62), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
View Old Accession Versions >>
ODa20198 XM_694487.6 Danio rerio WD repeat domain 62 (wdr62), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
ODa20202 XM_005169696.3 Danio rerio WD repeat domain 62 (wdr62), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa20199 XM_005169694.3 Danio rerio WD repeat domain 62 (wdr62), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
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 ODa20201
    Clone ID Related Accession (Same CDS sequence) NM_001312680.1
    Accession Version NM_001312680.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4482bp)
    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 2019-01-26
    Organism Danio rerio(zebrafish)
    Product WD repeat-containing protein 62
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from CR388135.16. On Aug 15, 2015 this sequence version replaced XM_002664549.3. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## Transcript exon combination :: BC163561.1, GDQH01014355.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA2168446, SAMEA2168447 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGCGGATG GAGCGGTGAA TTTTGGAGCC AGTATGAACC AAAGTTGTTT GACCTCTCGA 
    GCAAAGAAAG CCAACAACAA CAGCACTTCA GTTCCAGCGA ACACGAGGAG AAAGACTCGA
    CAGAGCCACA GAAGAGACAT TCATAACCGG GTTGTCTTGG AGAAGGTGCT TGGCATCACT
    GCCTCCAGCA GCAGCGCTTT AACCTGTGAC CCCAACACCG GTTTAGTGGC TTATCCTGCA
    GGCTGTGTTA TAGTCATCCT GAGCCCAAAG AAAAACAAGC AGACGCACAT ATTTAATACA
    TCCAGGAAAA CCTTCAGCGC TTTGGCCTTC TCTCAGAATG GAAAATATTT GGTCACCGGT
    GAGAGTGGGC ACATGCCCTG TGTGCGGGTG TGGGATGTGG CAGAGCGGAC GCAGGTGGCA
    GAGGTCCAGT GTCATAAGTA TGGGGTGTCA TGTGTGGCAT TCTCCCCCAA CGGGAGCTAT
    ATAGTGTCTG TGGGATACCA ACACGACAGG ACTGTCAGCG TCTGGGAGTG GAAGAAGGGG
    ACTGTTATCG CGTCTAACAA GGTGTCCAGC CGTGTGCTTG GTGTATCTTT CTCAGAGGAC
    AACAGCTACT TTGTAACTGC AGGCAACAGA CATGTGAAGT TCTGGTACCT TGATGCCTCA
    AAGGAAAGAA GGGTGAACAG CACCGTGCCT CTGATCGGCC GCTCGGGTTT GCTGGGGGAG
    CATCAGAACA GTCAGTTCTG TGGTTTGGCT TGTGGCCGCG GGTCGATGGC CAGCAGCACC
    TACTGCATCA CACACACGGG TCTGCTGTGC CAATTCAACA GTAACAGACA GCTGGATTCC
    TGGGTTGATC TCAAGACTAC ATCAGCACAG TGTTTATCAG TGAGCGGGAC GTTTGTTTTT
    TGCGGTTGTG CCGATGGGAC AGTTCGTGTG TTCAGCCCAC AGGATCTCCG CTACATCACC
    ACTCTACACC GGCCACATTG TCTGGGAGTG GATGTGTCTC AGGGCACACA GCCAGGGCAT
    TTGTTCAGTG CAAATCCAGA AGCACAGTAT CCAGATACCT TGGCTTTAAC CTTTGACCCC
    GTGACCAAGC ACTTGACGTG CGTGTATAAT GACCACAGCG TGTACGTTTG GGATGTGCGG
    GACATCAGGA ACGTAGGAAA GGTCTATTCA GCCCTGTACC ACAGCGGATG TGTGTGGAGT
    GTGGAGACCT ATCCAGAGCT TGAAGATCCA TCGGCGGCCT GTTTGTCACC GGGGTCTTTC
    CTCACTTGCT CATCTGATAA CACCATCCGC TTGTGGAGAA GCGAGTCCCC ACAGAGTCAC
    AGCGCTGCAC TCGGCCTTCG ACACAACCTT TATAGCCAGG ACATTGTAAG GATAGTGTAT
    GTGGATGACG ACACGCAGTA CCTCAAAGCT GAAGCTGAGA AAGCAGAGGG AGGTGCTGGT
    CAGGATGGCA AATCTGGGAT CCGGGTGTTG GGAATCAGCC CAGATGGCCA GCATTTGGCT
    GCTGGAGACC GCAGTGGAAA CCTGAGAATC TTTGGCTTGC AGTTTATGGA CGAGTTACAG
    AAAATTGAAG CCCATGATTC AGAGGTCTTG TGTTTAGCCT TCTCCCCTGC TGAGACCGGT
    TTGCATCTGT TGGCTTCAGC GAGTCGAGAT CGACTGATTC ACATCTTTGA CATGGACAGC
    AAATGTAACC TCGTGCAGAC CGTCTATGAT CATTCGGCCT CAATCACTGC TGTCAAGTTT
    ACAGGCTTGA ATTCAGAGTT GTGTATGGTC AGCTGTGGCG CAGACAAGAG TGTTTATTTT
    CGATCTGCTG AGAAAACTTC AGATGGCTTA GTCTTCTCAC GATCACATCA CATAGTGGAG
    AAGACAACGC TGTATGACAT GGACCTGGAT GCCACACGCA CACACACAGC CATTGCGTGT
    CAGGACCGCA ACATCAGAGT TTACAATGTG AAGAGTGGAA AGATGAAGAA GTGTTTCAAG
    GGCTCTATGA ATGATGACGG GACACTGCTA AAGGTTCAGT TGGATCCCTC TGGGATGTTC
    TTGGCCACCA GTTGTTCAGA CAAAAATATC TGTGTCTTTG ATTATGAGTC AGGCGAATGT
    GTGGCCACCT TATTTGGACA TTCAGAAATA GTTACAGGTA TGAAGTTCAG CCAGGACTGC
    AGGCATCTCA TCACTGTGTC TGGTGACAGC TGTGTGTTTG TGTGGCGTCT GGACTCTCAG
    ATGACCAACT CCATGAGGAA GAGGTTGGCA GAGAGGAAGC AGCAAGCAGG CCTGAGGCTC
    CAGCGGGCTC CCACAAAACA AGAAGTCATC AGACGAGAGA CCTACATCAC CGTGCCCTGT
    AATGCACTGA CCCATATGGA GGAAGATGGC TTGATGGCTG AAGTAAACCC TGAAGACGGT
    TTGGAGGACT GCAGAACCCC TGATAGACTC GACTCTACAG ATGCATCTTT AGATTCTGTG
    GTGCTCCAAA CCAATGGCAA AATGCCAATG TGGGTCCGCA GACTGGGTGG AGAAGGTGAA
    AAGGATGGTA CCGGCGCCGC TAATAGAGTT CAGTACCAGC CCCAGGGACG CTGGGCAGTG
    CAGTCAGATC CACTCGCTAT CCGCACAGTG CTGGAAATGA AGAGCAATCA GCTTCCTCTC
    TCACACACTC CCAGCAGAGT CATGGGGGAG GAAGAGCTGG AGGAAGACCC TCGCTTCCAC
    CCGCAGAGCC TGGACAGCCT GCTGGATGAA GATCTTGAAG ATGGAGAAGA GGAGGAGGAG
    GAAAAGATAT GTGGTGTTTC CAGCGATGGC TTTAGCTCTT CACTCCACGG GCCAGAATTT
    CTGCAGTTTC CACATGGAGA GGAGAACTTC AATCCAGAGC TCAGCTCCTC AGAAAAGACC
    GGATATATTT TATATCCTGC TAACAGCACA GCTCTGTCCA CTGGTGAAGG GGAGTTTGAT
    GTTAAAGCTC TGTGTGAGGG CACTGCTGGT GATCCTGATG AAGAGGAGTT AAGTCCAGAT
    AGTGCTTGCT CTGCTGAAAG TCCAGAATCT CATAGTGACC AGCCGCATGA CCAGGACACA
    GATTCCCTCA GTCAGGTGAG CTCTACGGGA AGCTCAGGAG TTGAAGAGGA TGAAGAAGAA
    TCTGGAACTC TGCTTCGCCA GCATTTCGAC ACTCTGGGTG TGGCCACAAA TGAAAAGTTC
    AACACTGACT TAAGCAGTCT GCAGCCCACG ACAGAGAGCA ACTTCCTCAA TCCTCGTCTC
    AGCATCTCTA CACGCTTCCT CTCCCGCTTT CAGAGCCGTT TCCGCAGTGC TGCTTGTCGG
    CCTGCAGCAT GCCTGTCCAG TATACCTGAT GAGTCCACTG ACAGCCAAAC CCTGGACCAA
    ACCATGGAAA AGCCCAAGCA TCTTTCAAAC AGTGGAAGCG TTGAGGAGAA AGAGAAGACT
    GAAATCACAA ACAAAAATCA GTCCACGACT CAAAGTACCA CTAGTGCTCC AGGCGTTCTC
    AGCAACAAGT CTACCAGCAA CTCATGTGAC GCATCTGTTA CGCGCTCCCG CCAAAGCTAC
    ATGGGTCCCA CCGCAAGCTC CCGTGCTAAA ATAAACCAAA GCAACTCCGT GGAGAGTCTC
    AACCTCTGTA TATCGGAGGA AACGCCACTA AACGCCTTAC CAAATGTCGA GCACAGCAAA
    GAGAACATGA TCCCACCATC CTCTCCTGTG GTTTCGTCTG CACCGCTTCA TCAGTCTCCT
    GTCCTGGGAA ACCACAGTGC CCGGGCATCT CTTCGACTGG ACCTCATTGG CCACAATCGT
    GCCAGTTTGT CACCTGTGTC ACTGAAGAGC CGCCGAGGGA AGGTCGAACA TCACGATTCT
    CCACGGCGCC AGGCTTTAGT GACGCCCACC GAGATGAGGT CACTGGGGAA AGAGAGTCGC
    AAGCAAATCT CAAACATTGA GCAGAGTTTG GCCCCTTCAG ACAGGCTCTC TACAGGGGCC
    GGGATGTTTA GCAGGAGCCC CATGGTCAGG CAAACCAGTG ATACTGTGTT TGAAGACCTG
    CAGTCAGTGA GATCTGACCA GACGTCTGTG AGTTCTCCAA TGACCAACGC AGTATCTCAG
    GACAATCAAG ATTCTGCAGA TAACAACAGC ATTCCAGAGG AAACGGGTCT TTCTGCGGAG
    GCGTTGAGTG TTCAGATGTG TAAGGAGATG GTGAATGAAC TCTGGCACAC CATCCATAAA
    GCAACTGACT TGTACAGCAA GCTGTGCTCC ATCCCTGAGT TATCAGAGCA GCAGGAGCAG
    ATGAAGGGCG TTTTGCAGGA GGTGTTTGTG GGGGTACAGA GCGAGTTAAA TTCAATCTGC
    CCACAAAAGA CACAACCATC GACTAAGAGC ACCCGTCCCA TATCAGAGGA CTCTCCAGGT
    CGTCAGTTAA GGGATGACCG AGCCGTGGCC CTTCTGGAGA AATACTCTGA AATGCTCTTA
    CTGCGAATGA CTGAGAAAGG AGCGCAGGCT ACGCTGGAGT AA

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

    RefSeq NP_001299609.1
    CDS96..4577
    Translation

    Target ORF information:

    RefSeq Version NM_001312680.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio WD repeat domain 62 (wdr62), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001312680.1

    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
    ATGGCGGATG GAGCGGTGAA TTTTGGAGCC AGTATGAACC AAAGTTGTTT GACCTCTCGA 
    GCAAAGAAAG CCAACAACAA CAGCACTTCA GTTCCAGCGA ACACGAGGAG AAAGACTCGA
    CAGAGCCACA GAAGAGACAT TCATAACCGG GTTGTCTTGG AGAAGGTGCT TGGCATCACT
    GCCTCCAGCA GCAGCGCTTT AACCTGTGAC CCCAACACCG GTTTAGTGGC TTATCCTGCA
    GGCTGTGTTA TAGTCATCCT GAGCCCAAAG AAAAACAAGC AGACGCACAT ATTTAATACA
    TCCAGGAAAA CCTTCAGCGC TTTGGCCTTC TCTCAGAATG GAAAATATTT GGTCACCGGT
    GAGAGTGGGC ACATGCCCTG TGTGCGGGTG TGGGATGTGG CAGAGCGGAC GCAGGTGGCA
    GAGGTCCAGT GTCATAAGTA TGGGGTGTCA TGTGTGGCAT TCTCCCCCAA CGGGAGCTAT
    ATAGTGTCTG TGGGATACCA ACACGACAGG ACTGTCAGCG TCTGGGAGTG GAAGAAGGGG
    ACTGTTATCG CGTCTAACAA GGTGTCCAGC CGTGTGCTTG GTGTATCTTT CTCAGAGGAC
    AACAGCTACT TTGTAACTGC AGGCAACAGA CATGTGAAGT TCTGGTACCT TGATGCCTCA
    AAGGAAAGAA GGGTGAACAG CACCGTGCCT CTGATCGGCC GCTCGGGTTT GCTGGGGGAG
    CATCAGAACA GTCAGTTCTG TGGTTTGGCT TGTGGCCGCG GGTCGATGGC CAGCAGCACC
    TACTGCATCA CACACACGGG TCTGCTGTGC CAATTCAACA GTAACAGACA GCTGGATTCC
    TGGGTTGATC TCAAGACTAC ATCAGCACAG TGTTTATCAG TGAGCGGGAC GTTTGTTTTT
    TGCGGTTGTG CCGATGGGAC AGTTCGTGTG TTCAGCCCAC AGGATCTCCG CTACATCACC
    ACTCTACACC GGCCACATTG TCTGGGAGTG GATGTGTCTC AGGGCACACA GCCAGGGCAT
    TTGTTCAGTG CAAATCCAGA AGCACAGTAT CCAGATACCT TGGCTTTAAC CTTTGACCCC
    GTGACCAAGC ACTTGACGTG CGTGTATAAT GACCACAGCG TGTACGTTTG GGATGTGCGG
    GACATCAGGA ACGTAGGAAA GGTCTATTCA GCCCTGTACC ACAGCGGATG TGTGTGGAGT
    GTGGAGACCT ATCCAGAGCT TGAAGATCCA TCGGCGGCCT GTTTGTCACC GGGGTCTTTC
    CTCACTTGCT CATCTGATAA CACCATCCGC TTGTGGAGAA GCGAGTCCCC ACAGAGTCAC
    AGCGCTGCAC TCGGCCTTCG ACACAACCTT TATAGCCAGG ACATTGTAAG GATAGTGTAT
    GTGGATGACG ACACGCAGTA CCTCAAAGCT GAAGCTGAGA AAGCAGAGGG AGGTGCTGGT
    CAGGATGGCA AATCTGGGAT CCGGGTGTTG GGAATCAGCC CAGATGGCCA GCATTTGGCT
    GCTGGAGACC GCAGTGGAAA CCTGAGAATC TTTGGCTTGC AGTTTATGGA CGAGTTACAG
    AAAATTGAAG CCCATGATTC AGAGGTCTTG TGTTTAGCCT TCTCCCCTGC TGAGACCGGT
    TTGCATCTGT TGGCTTCAGC GAGTCGAGAT CGACTGATTC ACATCTTTGA CATGGACAGC
    AAATGTAACC TCGTGCAGAC CGTCTATGAT CATTCGGCCT CAATCACTGC TGTCAAGTTT
    ACAGGCTTGA ATTCAGAGTT GTGTATGGTC AGCTGTGGCG CAGACAAGAG TGTTTATTTT
    CGATCTGCTG AGAAAACTTC AGATGGCTTA GTCTTCTCAC GATCACATCA CATAGTGGAG
    AAGACAACGC TGTATGACAT GGACCTGGAT GCCACACGCA CACACACAGC CATTGCGTGT
    CAGGACCGCA ACATCAGAGT TTACAATGTG AAGAGTGGAA AGATGAAGAA GTGTTTCAAG
    GGCTCTATGA ATGATGACGG GACACTGCTA AAGGTTCAGT TGGATCCCTC TGGGATGTTC
    TTGGCCACCA GTTGTTCAGA CAAAAATATC TGTGTCTTTG ATTATGAGTC AGGCGAATGT
    GTGGCCACCT TATTTGGACA TTCAGAAATA GTTACAGGTA TGAAGTTCAG CCAGGACTGC
    AGGCATCTCA TCACTGTGTC TGGTGACAGC TGTGTGTTTG TGTGGCGTCT GGACTCTCAG
    ATGACCAACT CCATGAGGAA GAGGTTGGCA GAGAGGAAGC AGCAAGCAGG CCTGAGGCTC
    CAGCGGGCTC CCACAAAACA AGAAGTCATC AGACGAGAGA CCTACATCAC CGTGCCCTGT
    AATGCACTGA CCCATATGGA GGAAGATGGC TTGATGGCTG AAGTAAACCC TGAAGACGGT
    TTGGAGGACT GCAGAACCCC TGATAGACTC GACTCTACAG ATGCATCTTT AGATTCTGTG
    GTGCTCCAAA CCAATGGCAA AATGCCAATG TGGGTCCGCA GACTGGGTGG AGAAGGTGAA
    AAGGATGGTA CCGGCGCCGC TAATAGAGTT CAGTACCAGC CCCAGGGACG CTGGGCAGTG
    CAGTCAGATC CACTCGCTAT CCGCACAGTG CTGGAAATGA AGAGCAATCA GCTTCCTCTC
    TCACACACTC CCAGCAGAGT CATGGGGGAG GAAGAGCTGG AGGAAGACCC TCGCTTCCAC
    CCGCAGAGCC TGGACAGCCT GCTGGATGAA GATCTTGAAG ATGGAGAAGA GGAGGAGGAG
    GAAAAGATAT GTGGTGTTTC CAGCGATGGC TTTAGCTCTT CACTCCACGG GCCAGAATTT
    CTGCAGTTTC CACATGGAGA GGAGAACTTC AATCCAGAGC TCAGCTCCTC AGAAAAGACC
    GGATATATTT TATATCCTGC TAACAGCACA GCTCTGTCCA CTGGTGAAGG GGAGTTTGAT
    GTTAAAGCTC TGTGTGAGGG CACTGCTGGT GATCCTGATG AAGAGGAGTT AAGTCCAGAT
    AGTGCTTGCT CTGCTGAAAG TCCAGAATCT CATAGTGACC AGCCGCATGA CCAGGACACA
    GATTCCCTCA GTCAGGTGAG CTCTACGGGA AGCTCAGGAG TTGAAGAGGA TGAAGAAGAA
    TCTGGAACTC TGCTTCGCCA GCATTTCGAC ACTCTGGGTG TGGCCACAAA TGAAAAGTTC
    AACACTGACT TAAGCAGTCT GCAGCCCACG ACAGAGAGCA ACTTCCTCAA TCCTCGTCTC
    AGCATCTCTA CACGCTTCCT CTCCCGCTTT CAGAGCCGTT TCCGCAGTGC TGCTTGTCGG
    CCTGCAGCAT GCCTGTCCAG TATACCTGAT GAGTCCACTG ACAGCCAAAC CCTGGACCAA
    ACCATGGAAA AGCCCAAGCA TCTTTCAAAC AGTGGAAGCG TTGAGGAGAA AGAGAAGACT
    GAAATCACAA ACAAAAATCA GTCCACGACT CAAAGTACCA CTAGTGCTCC AGGCGTTCTC
    AGCAACAAGT CTACCAGCAA CTCATGTGAC GCATCTGTTA CGCGCTCCCG CCAAAGCTAC
    ATGGGTCCCA CCGCAAGCTC CCGTGCTAAA ATAAACCAAA GCAACTCCGT GGAGAGTCTC
    AACCTCTGTA TATCGGAGGA AACGCCACTA AACGCCTTAC CAAATGTCGA GCACAGCAAA
    GAGAACATGA TCCCACCATC CTCTCCTGTG GTTTCGTCTG CACCGCTTCA TCAGTCTCCT
    GTCCTGGGAA ACCACAGTGC CCGGGCATCT CTTCGACTGG ACCTCATTGG CCACAATCGT
    GCCAGTTTGT CACCTGTGTC ACTGAAGAGC CGCCGAGGGA AGGTCGAACA TCACGATTCT
    CCACGGCGCC AGGCTTTAGT GACGCCCACC GAGATGAGGT CACTGGGGAA AGAGAGTCGC
    AAGCAAATCT CAAACATTGA GCAGAGTTTG GCCCCTTCAG ACAGGCTCTC TACAGGGGCC
    GGGATGTTTA GCAGGAGCCC CATGGTCAGG CAAACCAGTG ATACTGTGTT TGAAGACCTG
    CAGTCAGTGA GATCTGACCA GACGTCTGTG AGTTCTCCAA TGACCAACGC AGTATCTCAG
    GACAATCAAG ATTCTGCAGA TAACAACAGC ATTCCAGAGG AAACGGGTCT TTCTGCGGAG
    GCGTTGAGTG TTCAGATGTG TAAGGAGATG GTGAATGAAC TCTGGCACAC CATCCATAAA
    GCAACTGACT TGTACAGCAA GCTGTGCTCC ATCCCTGAGT TATCAGAGCA GCAGGAGCAG
    ATGAAGGGCG TTTTGCAGGA GGTGTTTGTG GGGGTACAGA GCGAGTTAAA TTCAATCTGC
    CCACAAAAGA CACAACCATC GACTAAGAGC ACCCGTCCCA TATCAGAGGA CTCTCCAGGT
    CGTCAGTTAA GGGATGACCG AGCCGTGGCC CTTCTGGAGA AATACTCTGA AATGCTCTTA
    CTGCGAATGA CTGAGAAAGG AGCGCAGGCT ACGCTGGAGT AA

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

    CloneID ODa20198
    Clone ID Related Accession (Same CDS sequence) XM_694487.6 , XM_694487.7
    Accession Version XM_694487.6 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4560bp)
    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 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product WD repeat-containing protein 62 isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007126.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_694487.5. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGCGGATG GAGCGGTGAA TTTTGGAGCC AGTATGAACC AAAGTTGTTT GACCTCTCGA 
    GCAAAGAAAG CCAACAACAA CAGCACTTCA GTTCCAGCGA ACACGAGGAG AAAGACTCGA
    CAGAGCCACA GAAGAGACAT TCATAACCGG GTTGTCTTGG AGAAGGTGCT TGGCATCACT
    GCCTCCAGCA GCAGCGCTTT AACCTGTGAC CCCAACACCG GTTTAGTGGC TTATCCTGCA
    GGCTGTGTTA TAGTCATCCT GAGCCCAAAG AAAAACAAGC AGACGCACAT ATTTAATACA
    TCCAGGAAAA CCTTCAGCGC TTTGGCCTTC TCTCAGAATG GAAAATATTT GGTCACCGGT
    GAGAGTGGGC ACATGCCCTG TGTGCGGGTG TGGGATGTGG CAGAGCGGAC GCAGGTGGCA
    GAGGTCCAGT GTCATAAGTA TGGGGTGTCA TGTGTGGCAT TCTCCCCCAA CGGGAGCTAT
    ATAGTGTCTG TGGGATACCA ACACGACAGG ACTGTCAGCG TCTGGGAGTG GAAGAAGGGG
    ACTGTTATCG CGTCTAACAA GGTGTCCAGC CGTGTGCTTG GTGTATCTTT CTCAGAGGAC
    AACAGCTACT TTGTAACTGC AGGCAACAGA CATGTGAAGT TCTGGTACCT TGATGCCTCA
    AAGGAAAGAA GGGTGAACAG CACCGTGCCT CTGATCGGCC GCTCGGGTTT GCTGGGGGAG
    CATCAGAACA GTCAGTTCTG TGGTTTGGCT TGTGGCCGCG GGTCGATGGC CAGCAGCACC
    TACTGCATCA CACACACGGG TCTGCTGTGC CAATTCAACA GTAACAGACA GCTGGATTCC
    TGGGTTGATC TCAAGACTAC ATCAGCACAG TGTTTATCAG TGAGCGGGAC GTTTGTTTTT
    TGCGGTTGTG CCGATGGGAC AGTTCGTGTG TTCAGCCCAC AGGATCTCCG CTACATCACC
    ACTCTACACC GGCCACATTG TCTGGGAGTG GATGTGTCTC AGGGCACACA GCCAGGGCAT
    TTGTTCAGTG CAAATCCAGA AGCACAGTAT CCAGATACCT TGGCTTTAAC CTTTGACCCC
    GTGACCAAGC ACTTGACGTG CGTGTATAAT GACCACAGCG TGTACGTTTG GGATGTGCGG
    GACATCAGGA ACGTAGGAAA GGTCTATTCA GCCCTGTACC ACAGCGGATG TGTGTGGAGT
    GTGGAGACCT ATCCAGAGCT TGAAGATCCA TCGGCGGCCT GTTTGTCACC GGGGTCTTTC
    CTCACTTGCT CATCTGATAA CACCATCCGC TTGTGGAGAA GCGAGTCCCC ACAGAGTCAC
    AGCGCTGCAC TCGGCCTTCG ACACAACCTT TATAGCCAGG ACATTGTAAG GATAGTGTAT
    GTGGATGACG ACACGCAGTA CCTCAAAGCT GAAGCTGAGA AAGCAGAGGG AGGTGCTGGT
    CAGGATGGCA AATCTGGGAT CCGGGTGTTG GGAATCAGCC CAGATGGCCA GCATTTGGCT
    GCTGGAGACC GCAGTGGAAA CCTGAGAATC TTTGGCTTGC AGTTTATGGA CGAGTTACAG
    AAAATTGAAG CCCATGATTC AGAGGTCTTG TGTTTAGCCT TCTCCCCTGC TGAGACCGGT
    TTGCATCTGT TGGCTTCAGC GAGTCGAGAT CGACTGATTC ACATCTTTGA CATGGACAGC
    AAATGTAACC TCGTGCAGAC CGTCTATGAT CATTCGGCCT CAATCACTGC TGTCAAGTTT
    ACAGGCTTGA ATTCAGAGTT GTGTATGGTC AGCTGTGGCG CAGACAAGAG TGTTTATTTT
    CGATCTGCTG AGAAAACTTC AGATGGCTTA GTCTTCTCAC GATCACATCA CATAGTGGAG
    AAGACAACGC TGTATGACAT GGACCTGGAT GCCACACGCA CACACACAGC CATTGCGTGT
    CAGGACCGCA ACATCAGAGT TTACAATGTG AAGAGTGGAA AGATGAAGAA GTGTTTCAAG
    GGCTCTATGA ATGATGACGG GACACTGCTA AAGGTTCAGT TGGATCCCTC TGGGATGTTC
    TTGGCCACCA GTTGTTCAGA CAAAAATATC TGTGTCTTTG ATTATGAGTC AGGCGAATGT
    GTGGCCACCT TATTTGGACA TTCAGAAATA GTTACAGGTA TGAAGTTCAG CCAGGACTGC
    AGGCATCTCA TCACTGTGTC TGGTGACAGC TGTGTGTTTG TGTGGCGTCT GGACTCTCAG
    ATGACCAACT CCATGAGGAA GAGGTTGGCA GAGAGGAAGC AGCAAGCAGG CCTGAGGCTC
    CAGCGGGCTC CCACAAAACA AGAAGTCATC AGACGAGAGA CCTACATCAC CGTGCCCTGT
    AATGCACTGA CCCATATGGA GGAAGATGGC TTGATGGCTG AAGTAAACCC TGAAGACGGT
    TTGGAGGACT GCAGAACCCC TGATAGACTC GACTCTACAG ATGCATCTTT AGATTCTGTG
    GTGCTCCAAA CCAATGGCAA AATGCCAATG TGGGTCCGCA GACTGGGTGG AGAAGGTGAA
    AAGGATGGTA CCGGCGCCGC TAATAGAGTT CAGTACCAGC CCCAGGGACG CTGGGCAGTG
    CAGTCAGATC CACTCGCTAT CCGCACAGTG CTGGAAATGA AGAGCAATCA GCTTCCTCTC
    TCACACACTC CCAGCAGAGT CATGGGGGAG GAAGAGCTGG AGGAAGACCC TCGCTTCCAC
    CCGCAGAGCC TGGACAGCCT GCTGGATGAA GATCTTGAAG ATGGAGAAGA GGAGGAGGAG
    GAAAAGATAT GTGGTGTTTC CAGCGATGGC TTTAGCTCTT CACTCCACGG GCCAGAATTT
    CTGCAGTTTC CACATGGAGA GGAGAACTTC AATCCAGAGC TCAGCTCCTC AGAAAAGACC
    GGATATATTT TATATCCTGC TAACAGCACA GCTCTGTCCA CTGGTGAAGG GGAGTTTGAT
    GTTAAAGCTC TGTGTGAGGG CACTGCTGGT GATCCTGATG AAGAGGAGTT AAGTCCAGAT
    AGTGCTTGCT CTGCTGAAAG TCCAGAATCT CATAGTGACC AGCCGCATGA CCAGGACACA
    GATTCCCTCA GTCAGGTGAG CTCTACGGGA AGCTCAGGAG TTGAAGAGGA TGAAGAAGAA
    TCTGGAACTC TGCTTCGCCA GCATTTCGAC ACTCTGGGTG TGGCCACAAA TGAAAAGTTC
    AACACTGACT TAAGCAGTCT GCAGCCCACG ACAGAGAGCA ACTTCCTCAA TCCTCGTCTC
    AGCATCTCTA CACGCTTCCT CTCCCGCTTT CAGAGCCGTT TCCGCAGTGC TGCTTGTCGG
    CCTGCAGCAT GCCTGTCCAG TATACCTGAT GAGTCCACTG ACAGCCAAAC CCTGGACCAA
    ACCATGGAAA AGCCCAAGCA TCTTTCAAAC AGTGGAAGCG TTGAGGAGAA AGAGAAGACT
    GTTATCAAGA GACGCTCCTC AATGTCTTCT CGGAGAAGCT CAAACCCTTC CTTGTTACGC
    TGGAAAAATG CATTGGGAGA AATCACAAAC AAAAATCAGT CCACGACTCA AAGTACCACT
    AGTGCTCCAG GCGTTCTCAG CAACAAGTCT ACCAGCAACT CATGTGACGC ATCTGTTACG
    CGCTCCCGCC AAAGCTACAT GGGTCCCACC GCAAGCTCCC GTGCTAAAAT AAACCAAAGC
    AACTCCGTGG AGAGTCTCAA CCTCTGTATA TCGGAGGAAA CGCCACTAAA CGCCTTACCA
    AATGTCGAGC ACAGCAAAGA GAACATGATC CCACCATCCT CTCCTGTGGT TTCGTCTGCA
    CCGCTTCATC AGTCTCCTGT CCTGGGAAAC CACAGTGCCC GGGCATCTCT TCGACTGGAC
    CTCATTGGCC ACAATCGTGC CAGTTTGTCA CCTGTGTCAC TGAAGAGCCG CCGAGGGAAG
    GTCGAACATC ACGATTCTCC ACGGCGCCAG GCTTTAGTGA CGCCCACCGA GATGAGGTCA
    CTGGGGAAAG AGAGTCGCAA GCAAATCTCA AACATTGAGC AGAGTTTGGC CCCTTCAGAC
    AGGCTCTCTA CAGGGGCCGG GATGTTTAGC AGGAGCCCCA TGGTCAGGCA AACCAGTGAT
    ACTGTGTTTG AAGACCTGCA GTCAGTGAGA TCTGACCAGA CGTCTGTGAG TTCTCCAATG
    ACCAACGCAG TATCTCAGGA CAATCAAGAT TCTGCAGATA ACAACAGCAT TCCAGAGGAA
    ACGGGTCTTT CTGCGGAGGC GTTGAGTGTT CAGATGTGTA AGGAGATGGT GAATGAACTC
    TGGCACACCA TCCATAAAGC AACTGACTTG TACAGCAAGC TGTGCTCCAT CCCTGAGTTA
    TCAGAGCAGC AGGAGCAGAT GAAGGGCGTT TTGCAGGAGG TGTTTGTGGG GGTACAGAGC
    GAGTTAAATT CAATCTGCCC ACAAAAGACA CAACCATCGA CTAAGAGCAC CCGTCCCATA
    TCAGAGGACT CTCCAGGTCG TCAGTTAAGG GATGACCGAG CCGTGGCCCT TCTGGAGAAA
    TACTCTGAAA TGCTCTTACT GCGAATGACT GAGAAAGGAG CGCAGGCTAC GCTGGAGTAA

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

    RefSeq XP_699579.3
    CDS290..4849
    Translation

    Target ORF information:

    RefSeq Version XM_694487.6
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio WD repeat domain 62 (wdr62), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_694487.6

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGCGGATG GAGCGGTGAA TTTTGGAGCC AGTATGAACC AAAGTTGTTT GACCTCTCGA 
    GCAAAGAAAG CCAACAACAA CAGCACTTCA GTTCCAGCGA ACACGAGGAG AAAGACTCGA
    CAGAGCCACA GAAGAGACAT TCATAACCGG GTTGTCTTGG AGAAGGTGCT TGGCATCACT
    GCCTCCAGCA GCAGCGCTTT AACCTGTGAC CCCAACACCG GTTTAGTGGC TTATCCTGCA
    GGCTGTGTTA TAGTCATCCT GAGCCCAAAG AAAAACAAGC AGACGCACAT ATTTAATACA
    TCCAGGAAAA CCTTCAGCGC TTTGGCCTTC TCTCAGAATG GAAAATATTT GGTCACCGGT
    GAGAGTGGGC ACATGCCCTG TGTGCGGGTG TGGGATGTGG CAGAGCGGAC GCAGGTGGCA
    GAGGTCCAGT GTCATAAGTA TGGGGTGTCA TGTGTGGCAT TCTCCCCCAA CGGGAGCTAT
    ATAGTGTCTG TGGGATACCA ACACGACAGG ACTGTCAGCG TCTGGGAGTG GAAGAAGGGG
    ACTGTTATCG CGTCTAACAA GGTGTCCAGC CGTGTGCTTG GTGTATCTTT CTCAGAGGAC
    AACAGCTACT TTGTAACTGC AGGCAACAGA CATGTGAAGT TCTGGTACCT TGATGCCTCA
    AAGGAAAGAA GGGTGAACAG CACCGTGCCT CTGATCGGCC GCTCGGGTTT GCTGGGGGAG
    CATCAGAACA GTCAGTTCTG TGGTTTGGCT TGTGGCCGCG GGTCGATGGC CAGCAGCACC
    TACTGCATCA CACACACGGG TCTGCTGTGC CAATTCAACA GTAACAGACA GCTGGATTCC
    TGGGTTGATC TCAAGACTAC ATCAGCACAG TGTTTATCAG TGAGCGGGAC GTTTGTTTTT
    TGCGGTTGTG CCGATGGGAC AGTTCGTGTG TTCAGCCCAC AGGATCTCCG CTACATCACC
    ACTCTACACC GGCCACATTG TCTGGGAGTG GATGTGTCTC AGGGCACACA GCCAGGGCAT
    TTGTTCAGTG CAAATCCAGA AGCACAGTAT CCAGATACCT TGGCTTTAAC CTTTGACCCC
    GTGACCAAGC ACTTGACGTG CGTGTATAAT GACCACAGCG TGTACGTTTG GGATGTGCGG
    GACATCAGGA ACGTAGGAAA GGTCTATTCA GCCCTGTACC ACAGCGGATG TGTGTGGAGT
    GTGGAGACCT ATCCAGAGCT TGAAGATCCA TCGGCGGCCT GTTTGTCACC GGGGTCTTTC
    CTCACTTGCT CATCTGATAA CACCATCCGC TTGTGGAGAA GCGAGTCCCC ACAGAGTCAC
    AGCGCTGCAC TCGGCCTTCG ACACAACCTT TATAGCCAGG ACATTGTAAG GATAGTGTAT
    GTGGATGACG ACACGCAGTA CCTCAAAGCT GAAGCTGAGA AAGCAGAGGG AGGTGCTGGT
    CAGGATGGCA AATCTGGGAT CCGGGTGTTG GGAATCAGCC CAGATGGCCA GCATTTGGCT
    GCTGGAGACC GCAGTGGAAA CCTGAGAATC TTTGGCTTGC AGTTTATGGA CGAGTTACAG
    AAAATTGAAG CCCATGATTC AGAGGTCTTG TGTTTAGCCT TCTCCCCTGC TGAGACCGGT
    TTGCATCTGT TGGCTTCAGC GAGTCGAGAT CGACTGATTC ACATCTTTGA CATGGACAGC
    AAATGTAACC TCGTGCAGAC CGTCTATGAT CATTCGGCCT CAATCACTGC TGTCAAGTTT
    ACAGGCTTGA ATTCAGAGTT GTGTATGGTC AGCTGTGGCG CAGACAAGAG TGTTTATTTT
    CGATCTGCTG AGAAAACTTC AGATGGCTTA GTCTTCTCAC GATCACATCA CATAGTGGAG
    AAGACAACGC TGTATGACAT GGACCTGGAT GCCACACGCA CACACACAGC CATTGCGTGT
    CAGGACCGCA ACATCAGAGT TTACAATGTG AAGAGTGGAA AGATGAAGAA GTGTTTCAAG
    GGCTCTATGA ATGATGACGG GACACTGCTA AAGGTTCAGT TGGATCCCTC TGGGATGTTC
    TTGGCCACCA GTTGTTCAGA CAAAAATATC TGTGTCTTTG ATTATGAGTC AGGCGAATGT
    GTGGCCACCT TATTTGGACA TTCAGAAATA GTTACAGGTA TGAAGTTCAG CCAGGACTGC
    AGGCATCTCA TCACTGTGTC TGGTGACAGC TGTGTGTTTG TGTGGCGTCT GGACTCTCAG
    ATGACCAACT CCATGAGGAA GAGGTTGGCA GAGAGGAAGC AGCAAGCAGG CCTGAGGCTC
    CAGCGGGCTC CCACAAAACA AGAAGTCATC AGACGAGAGA CCTACATCAC CGTGCCCTGT
    AATGCACTGA CCCATATGGA GGAAGATGGC TTGATGGCTG AAGTAAACCC TGAAGACGGT
    TTGGAGGACT GCAGAACCCC TGATAGACTC GACTCTACAG ATGCATCTTT AGATTCTGTG
    GTGCTCCAAA CCAATGGCAA AATGCCAATG TGGGTCCGCA GACTGGGTGG AGAAGGTGAA
    AAGGATGGTA CCGGCGCCGC TAATAGAGTT CAGTACCAGC CCCAGGGACG CTGGGCAGTG
    CAGTCAGATC CACTCGCTAT CCGCACAGTG CTGGAAATGA AGAGCAATCA GCTTCCTCTC
    TCACACACTC CCAGCAGAGT CATGGGGGAG GAAGAGCTGG AGGAAGACCC TCGCTTCCAC
    CCGCAGAGCC TGGACAGCCT GCTGGATGAA GATCTTGAAG ATGGAGAAGA GGAGGAGGAG
    GAAAAGATAT GTGGTGTTTC CAGCGATGGC TTTAGCTCTT CACTCCACGG GCCAGAATTT
    CTGCAGTTTC CACATGGAGA GGAGAACTTC AATCCAGAGC TCAGCTCCTC AGAAAAGACC
    GGATATATTT TATATCCTGC TAACAGCACA GCTCTGTCCA CTGGTGAAGG GGAGTTTGAT
    GTTAAAGCTC TGTGTGAGGG CACTGCTGGT GATCCTGATG AAGAGGAGTT AAGTCCAGAT
    AGTGCTTGCT CTGCTGAAAG TCCAGAATCT CATAGTGACC AGCCGCATGA CCAGGACACA
    GATTCCCTCA GTCAGGTGAG CTCTACGGGA AGCTCAGGAG TTGAAGAGGA TGAAGAAGAA
    TCTGGAACTC TGCTTCGCCA GCATTTCGAC ACTCTGGGTG TGGCCACAAA TGAAAAGTTC
    AACACTGACT TAAGCAGTCT GCAGCCCACG ACAGAGAGCA ACTTCCTCAA TCCTCGTCTC
    AGCATCTCTA CACGCTTCCT CTCCCGCTTT CAGAGCCGTT TCCGCAGTGC TGCTTGTCGG
    CCTGCAGCAT GCCTGTCCAG TATACCTGAT GAGTCCACTG ACAGCCAAAC CCTGGACCAA
    ACCATGGAAA AGCCCAAGCA TCTTTCAAAC AGTGGAAGCG TTGAGGAGAA AGAGAAGACT
    GTTATCAAGA GACGCTCCTC AATGTCTTCT CGGAGAAGCT CAAACCCTTC CTTGTTACGC
    TGGAAAAATG CATTGGGAGA AATCACAAAC AAAAATCAGT CCACGACTCA AAGTACCACT
    AGTGCTCCAG GCGTTCTCAG CAACAAGTCT ACCAGCAACT CATGTGACGC ATCTGTTACG
    CGCTCCCGCC AAAGCTACAT GGGTCCCACC GCAAGCTCCC GTGCTAAAAT AAACCAAAGC
    AACTCCGTGG AGAGTCTCAA CCTCTGTATA TCGGAGGAAA CGCCACTAAA CGCCTTACCA
    AATGTCGAGC ACAGCAAAGA GAACATGATC CCACCATCCT CTCCTGTGGT TTCGTCTGCA
    CCGCTTCATC AGTCTCCTGT CCTGGGAAAC CACAGTGCCC GGGCATCTCT TCGACTGGAC
    CTCATTGGCC ACAATCGTGC CAGTTTGTCA CCTGTGTCAC TGAAGAGCCG CCGAGGGAAG
    GTCGAACATC ACGATTCTCC ACGGCGCCAG GCTTTAGTGA CGCCCACCGA GATGAGGTCA
    CTGGGGAAAG AGAGTCGCAA GCAAATCTCA AACATTGAGC AGAGTTTGGC CCCTTCAGAC
    AGGCTCTCTA CAGGGGCCGG GATGTTTAGC AGGAGCCCCA TGGTCAGGCA AACCAGTGAT
    ACTGTGTTTG AAGACCTGCA GTCAGTGAGA TCTGACCAGA CGTCTGTGAG TTCTCCAATG
    ACCAACGCAG TATCTCAGGA CAATCAAGAT TCTGCAGATA ACAACAGCAT TCCAGAGGAA
    ACGGGTCTTT CTGCGGAGGC GTTGAGTGTT CAGATGTGTA AGGAGATGGT GAATGAACTC
    TGGCACACCA TCCATAAAGC AACTGACTTG TACAGCAAGC TGTGCTCCAT CCCTGAGTTA
    TCAGAGCAGC AGGAGCAGAT GAAGGGCGTT TTGCAGGAGG TGTTTGTGGG GGTACAGAGC
    GAGTTAAATT CAATCTGCCC ACAAAAGACA CAACCATCGA CTAAGAGCAC CCGTCCCATA
    TCAGAGGACT CTCCAGGTCG TCAGTTAAGG GATGACCGAG CCGTGGCCCT TCTGGAGAAA
    TACTCTGAAA TGCTCTTACT GCGAATGACT GAGAAAGGAG CGCAGGCTAC GCTGGAGTAA

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

    CloneID ODa20198
    Clone ID Related Accession (Same CDS sequence) XM_694487.6 , XM_694487.7
    Accession Version XM_694487.7 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4560bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product WD repeat-containing protein 62 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007126.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_694487.6. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGCGGATG GAGCGGTGAA TTTTGGAGCC AGTATGAACC AAAGTTGTTT GACCTCTCGA 
    GCAAAGAAAG CCAACAACAA CAGCACTTCA GTTCCAGCGA ACACGAGGAG AAAGACTCGA
    CAGAGCCACA GAAGAGACAT TCATAACCGG GTTGTCTTGG AGAAGGTGCT TGGCATCACT
    GCCTCCAGCA GCAGCGCTTT AACCTGTGAC CCCAACACCG GTTTAGTGGC TTATCCTGCA
    GGCTGTGTTA TAGTCATCCT GAGCCCAAAG AAAAACAAGC AGACGCACAT ATTTAATACA
    TCCAGGAAAA CCTTCAGCGC TTTGGCCTTC TCTCAGAATG GAAAATATTT GGTCACCGGT
    GAGAGTGGGC ACATGCCCTG TGTGCGGGTG TGGGATGTGG CAGAGCGGAC GCAGGTGGCA
    GAGGTCCAGT GTCATAAGTA TGGGGTGTCA TGTGTGGCAT TCTCCCCCAA CGGGAGCTAT
    ATAGTGTCTG TGGGATACCA ACACGACAGG ACTGTCAGCG TCTGGGAGTG GAAGAAGGGG
    ACTGTTATCG CGTCTAACAA GGTGTCCAGC CGTGTGCTTG GTGTATCTTT CTCAGAGGAC
    AACAGCTACT TTGTAACTGC AGGCAACAGA CATGTGAAGT TCTGGTACCT TGATGCCTCA
    AAGGAAAGAA GGGTGAACAG CACCGTGCCT CTGATCGGCC GCTCGGGTTT GCTGGGGGAG
    CATCAGAACA GTCAGTTCTG TGGTTTGGCT TGTGGCCGCG GGTCGATGGC CAGCAGCACC
    TACTGCATCA CACACACGGG TCTGCTGTGC CAATTCAACA GTAACAGACA GCTGGATTCC
    TGGGTTGATC TCAAGACTAC ATCAGCACAG TGTTTATCAG TGAGCGGGAC GTTTGTTTTT
    TGCGGTTGTG CCGATGGGAC AGTTCGTGTG TTCAGCCCAC AGGATCTCCG CTACATCACC
    ACTCTACACC GGCCACATTG TCTGGGAGTG GATGTGTCTC AGGGCACACA GCCAGGGCAT
    TTGTTCAGTG CAAATCCAGA AGCACAGTAT CCAGATACCT TGGCTTTAAC CTTTGACCCC
    GTGACCAAGC ACTTGACGTG CGTGTATAAT GACCACAGCG TGTACGTTTG GGATGTGCGG
    GACATCAGGA ACGTAGGAAA GGTCTATTCA GCCCTGTACC ACAGCGGATG TGTGTGGAGT
    GTGGAGACCT ATCCAGAGCT TGAAGATCCA TCGGCGGCCT GTTTGTCACC GGGGTCTTTC
    CTCACTTGCT CATCTGATAA CACCATCCGC TTGTGGAGAA GCGAGTCCCC ACAGAGTCAC
    AGCGCTGCAC TCGGCCTTCG ACACAACCTT TATAGCCAGG ACATTGTAAG GATAGTGTAT
    GTGGATGACG ACACGCAGTA CCTCAAAGCT GAAGCTGAGA AAGCAGAGGG AGGTGCTGGT
    CAGGATGGCA AATCTGGGAT CCGGGTGTTG GGAATCAGCC CAGATGGCCA GCATTTGGCT
    GCTGGAGACC GCAGTGGAAA CCTGAGAATC TTTGGCTTGC AGTTTATGGA CGAGTTACAG
    AAAATTGAAG CCCATGATTC AGAGGTCTTG TGTTTAGCCT TCTCCCCTGC TGAGACCGGT
    TTGCATCTGT TGGCTTCAGC GAGTCGAGAT CGACTGATTC ACATCTTTGA CATGGACAGC
    AAATGTAACC TCGTGCAGAC CGTCTATGAT CATTCGGCCT CAATCACTGC TGTCAAGTTT
    ACAGGCTTGA ATTCAGAGTT GTGTATGGTC AGCTGTGGCG CAGACAAGAG TGTTTATTTT
    CGATCTGCTG AGAAAACTTC AGATGGCTTA GTCTTCTCAC GATCACATCA CATAGTGGAG
    AAGACAACGC TGTATGACAT GGACCTGGAT GCCACACGCA CACACACAGC CATTGCGTGT
    CAGGACCGCA ACATCAGAGT TTACAATGTG AAGAGTGGAA AGATGAAGAA GTGTTTCAAG
    GGCTCTATGA ATGATGACGG GACACTGCTA AAGGTTCAGT TGGATCCCTC TGGGATGTTC
    TTGGCCACCA GTTGTTCAGA CAAAAATATC TGTGTCTTTG ATTATGAGTC AGGCGAATGT
    GTGGCCACCT TATTTGGACA TTCAGAAATA GTTACAGGTA TGAAGTTCAG CCAGGACTGC
    AGGCATCTCA TCACTGTGTC TGGTGACAGC TGTGTGTTTG TGTGGCGTCT GGACTCTCAG
    ATGACCAACT CCATGAGGAA GAGGTTGGCA GAGAGGAAGC AGCAAGCAGG CCTGAGGCTC
    CAGCGGGCTC CCACAAAACA AGAAGTCATC AGACGAGAGA CCTACATCAC CGTGCCCTGT
    AATGCACTGA CCCATATGGA GGAAGATGGC TTGATGGCTG AAGTAAACCC TGAAGACGGT
    TTGGAGGACT GCAGAACCCC TGATAGACTC GACTCTACAG ATGCATCTTT AGATTCTGTG
    GTGCTCCAAA CCAATGGCAA AATGCCAATG TGGGTCCGCA GACTGGGTGG AGAAGGTGAA
    AAGGATGGTA CCGGCGCCGC TAATAGAGTT CAGTACCAGC CCCAGGGACG CTGGGCAGTG
    CAGTCAGATC CACTCGCTAT CCGCACAGTG CTGGAAATGA AGAGCAATCA GCTTCCTCTC
    TCACACACTC CCAGCAGAGT CATGGGGGAG GAAGAGCTGG AGGAAGACCC TCGCTTCCAC
    CCGCAGAGCC TGGACAGCCT GCTGGATGAA GATCTTGAAG ATGGAGAAGA GGAGGAGGAG
    GAAAAGATAT GTGGTGTTTC CAGCGATGGC TTTAGCTCTT CACTCCACGG GCCAGAATTT
    CTGCAGTTTC CACATGGAGA GGAGAACTTC AATCCAGAGC TCAGCTCCTC AGAAAAGACC
    GGATATATTT TATATCCTGC TAACAGCACA GCTCTGTCCA CTGGTGAAGG GGAGTTTGAT
    GTTAAAGCTC TGTGTGAGGG CACTGCTGGT GATCCTGATG AAGAGGAGTT AAGTCCAGAT
    AGTGCTTGCT CTGCTGAAAG TCCAGAATCT CATAGTGACC AGCCGCATGA CCAGGACACA
    GATTCCCTCA GTCAGGTGAG CTCTACGGGA AGCTCAGGAG TTGAAGAGGA TGAAGAAGAA
    TCTGGAACTC TGCTTCGCCA GCATTTCGAC ACTCTGGGTG TGGCCACAAA TGAAAAGTTC
    AACACTGACT TAAGCAGTCT GCAGCCCACG ACAGAGAGCA ACTTCCTCAA TCCTCGTCTC
    AGCATCTCTA CACGCTTCCT CTCCCGCTTT CAGAGCCGTT TCCGCAGTGC TGCTTGTCGG
    CCTGCAGCAT GCCTGTCCAG TATACCTGAT GAGTCCACTG ACAGCCAAAC CCTGGACCAA
    ACCATGGAAA AGCCCAAGCA TCTTTCAAAC AGTGGAAGCG TTGAGGAGAA AGAGAAGACT
    GTTATCAAGA GACGCTCCTC AATGTCTTCT CGGAGAAGCT CAAACCCTTC CTTGTTACGC
    TGGAAAAATG CATTGGGAGA AATCACAAAC AAAAATCAGT CCACGACTCA AAGTACCACT
    AGTGCTCCAG GCGTTCTCAG CAACAAGTCT ACCAGCAACT CATGTGACGC ATCTGTTACG
    CGCTCCCGCC AAAGCTACAT GGGTCCCACC GCAAGCTCCC GTGCTAAAAT AAACCAAAGC
    AACTCCGTGG AGAGTCTCAA CCTCTGTATA TCGGAGGAAA CGCCACTAAA CGCCTTACCA
    AATGTCGAGC ACAGCAAAGA GAACATGATC CCACCATCCT CTCCTGTGGT TTCGTCTGCA
    CCGCTTCATC AGTCTCCTGT CCTGGGAAAC CACAGTGCCC GGGCATCTCT TCGACTGGAC
    CTCATTGGCC ACAATCGTGC CAGTTTGTCA CCTGTGTCAC TGAAGAGCCG CCGAGGGAAG
    GTCGAACATC ACGATTCTCC ACGGCGCCAG GCTTTAGTGA CGCCCACCGA GATGAGGTCA
    CTGGGGAAAG AGAGTCGCAA GCAAATCTCA AACATTGAGC AGAGTTTGGC CCCTTCAGAC
    AGGCTCTCTA CAGGGGCCGG GATGTTTAGC AGGAGCCCCA TGGTCAGGCA AACCAGTGAT
    ACTGTGTTTG AAGACCTGCA GTCAGTGAGA TCTGACCAGA CGTCTGTGAG TTCTCCAATG
    ACCAACGCAG TATCTCAGGA CAATCAAGAT TCTGCAGATA ACAACAGCAT TCCAGAGGAA
    ACGGGTCTTT CTGCGGAGGC GTTGAGTGTT CAGATGTGTA AGGAGATGGT GAATGAACTC
    TGGCACACCA TCCATAAAGC AACTGACTTG TACAGCAAGC TGTGCTCCAT CCCTGAGTTA
    TCAGAGCAGC AGGAGCAGAT GAAGGGCGTT TTGCAGGAGG TGTTTGTGGG GGTACAGAGC
    GAGTTAAATT CAATCTGCCC ACAAAAGACA CAACCATCGA CTAAGAGCAC CCGTCCCATA
    TCAGAGGACT CTCCAGGTCG TCAGTTAAGG GATGACCGAG CCGTGGCCCT TCTGGAGAAA
    TACTCTGAAA TGCTCTTACT GCGAATGACT GAGAAAGGAG CGCAGGCTAC GCTGGAGTAA

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

    RefSeq XP_699579.3
    CDS291..4850
    Translation

    Target ORF information:

    RefSeq Version XM_694487.7
    Organism Danio rerio(zebrafish)
    Definition Danio rerio WD repeat domain 62 (wdr62), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_694487.7

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGCGGATG GAGCGGTGAA TTTTGGAGCC AGTATGAACC AAAGTTGTTT GACCTCTCGA 
    GCAAAGAAAG CCAACAACAA CAGCACTTCA GTTCCAGCGA ACACGAGGAG AAAGACTCGA
    CAGAGCCACA GAAGAGACAT TCATAACCGG GTTGTCTTGG AGAAGGTGCT TGGCATCACT
    GCCTCCAGCA GCAGCGCTTT AACCTGTGAC CCCAACACCG GTTTAGTGGC TTATCCTGCA
    GGCTGTGTTA TAGTCATCCT GAGCCCAAAG AAAAACAAGC AGACGCACAT ATTTAATACA
    TCCAGGAAAA CCTTCAGCGC TTTGGCCTTC TCTCAGAATG GAAAATATTT GGTCACCGGT
    GAGAGTGGGC ACATGCCCTG TGTGCGGGTG TGGGATGTGG CAGAGCGGAC GCAGGTGGCA
    GAGGTCCAGT GTCATAAGTA TGGGGTGTCA TGTGTGGCAT TCTCCCCCAA CGGGAGCTAT
    ATAGTGTCTG TGGGATACCA ACACGACAGG ACTGTCAGCG TCTGGGAGTG GAAGAAGGGG
    ACTGTTATCG CGTCTAACAA GGTGTCCAGC CGTGTGCTTG GTGTATCTTT CTCAGAGGAC
    AACAGCTACT TTGTAACTGC AGGCAACAGA CATGTGAAGT TCTGGTACCT TGATGCCTCA
    AAGGAAAGAA GGGTGAACAG CACCGTGCCT CTGATCGGCC GCTCGGGTTT GCTGGGGGAG
    CATCAGAACA GTCAGTTCTG TGGTTTGGCT TGTGGCCGCG GGTCGATGGC CAGCAGCACC
    TACTGCATCA CACACACGGG TCTGCTGTGC CAATTCAACA GTAACAGACA GCTGGATTCC
    TGGGTTGATC TCAAGACTAC ATCAGCACAG TGTTTATCAG TGAGCGGGAC GTTTGTTTTT
    TGCGGTTGTG CCGATGGGAC AGTTCGTGTG TTCAGCCCAC AGGATCTCCG CTACATCACC
    ACTCTACACC GGCCACATTG TCTGGGAGTG GATGTGTCTC AGGGCACACA GCCAGGGCAT
    TTGTTCAGTG CAAATCCAGA AGCACAGTAT CCAGATACCT TGGCTTTAAC CTTTGACCCC
    GTGACCAAGC ACTTGACGTG CGTGTATAAT GACCACAGCG TGTACGTTTG GGATGTGCGG
    GACATCAGGA ACGTAGGAAA GGTCTATTCA GCCCTGTACC ACAGCGGATG TGTGTGGAGT
    GTGGAGACCT ATCCAGAGCT TGAAGATCCA TCGGCGGCCT GTTTGTCACC GGGGTCTTTC
    CTCACTTGCT CATCTGATAA CACCATCCGC TTGTGGAGAA GCGAGTCCCC ACAGAGTCAC
    AGCGCTGCAC TCGGCCTTCG ACACAACCTT TATAGCCAGG ACATTGTAAG GATAGTGTAT
    GTGGATGACG ACACGCAGTA CCTCAAAGCT GAAGCTGAGA AAGCAGAGGG AGGTGCTGGT
    CAGGATGGCA AATCTGGGAT CCGGGTGTTG GGAATCAGCC CAGATGGCCA GCATTTGGCT
    GCTGGAGACC GCAGTGGAAA CCTGAGAATC TTTGGCTTGC AGTTTATGGA CGAGTTACAG
    AAAATTGAAG CCCATGATTC AGAGGTCTTG TGTTTAGCCT TCTCCCCTGC TGAGACCGGT
    TTGCATCTGT TGGCTTCAGC GAGTCGAGAT CGACTGATTC ACATCTTTGA CATGGACAGC
    AAATGTAACC TCGTGCAGAC CGTCTATGAT CATTCGGCCT CAATCACTGC TGTCAAGTTT
    ACAGGCTTGA ATTCAGAGTT GTGTATGGTC AGCTGTGGCG CAGACAAGAG TGTTTATTTT
    CGATCTGCTG AGAAAACTTC AGATGGCTTA GTCTTCTCAC GATCACATCA CATAGTGGAG
    AAGACAACGC TGTATGACAT GGACCTGGAT GCCACACGCA CACACACAGC CATTGCGTGT
    CAGGACCGCA ACATCAGAGT TTACAATGTG AAGAGTGGAA AGATGAAGAA GTGTTTCAAG
    GGCTCTATGA ATGATGACGG GACACTGCTA AAGGTTCAGT TGGATCCCTC TGGGATGTTC
    TTGGCCACCA GTTGTTCAGA CAAAAATATC TGTGTCTTTG ATTATGAGTC AGGCGAATGT
    GTGGCCACCT TATTTGGACA TTCAGAAATA GTTACAGGTA TGAAGTTCAG CCAGGACTGC
    AGGCATCTCA TCACTGTGTC TGGTGACAGC TGTGTGTTTG TGTGGCGTCT GGACTCTCAG
    ATGACCAACT CCATGAGGAA GAGGTTGGCA GAGAGGAAGC AGCAAGCAGG CCTGAGGCTC
    CAGCGGGCTC CCACAAAACA AGAAGTCATC AGACGAGAGA CCTACATCAC CGTGCCCTGT
    AATGCACTGA CCCATATGGA GGAAGATGGC TTGATGGCTG AAGTAAACCC TGAAGACGGT
    TTGGAGGACT GCAGAACCCC TGATAGACTC GACTCTACAG ATGCATCTTT AGATTCTGTG
    GTGCTCCAAA CCAATGGCAA AATGCCAATG TGGGTCCGCA GACTGGGTGG AGAAGGTGAA
    AAGGATGGTA CCGGCGCCGC TAATAGAGTT CAGTACCAGC CCCAGGGACG CTGGGCAGTG
    CAGTCAGATC CACTCGCTAT CCGCACAGTG CTGGAAATGA AGAGCAATCA GCTTCCTCTC
    TCACACACTC CCAGCAGAGT CATGGGGGAG GAAGAGCTGG AGGAAGACCC TCGCTTCCAC
    CCGCAGAGCC TGGACAGCCT GCTGGATGAA GATCTTGAAG ATGGAGAAGA GGAGGAGGAG
    GAAAAGATAT GTGGTGTTTC CAGCGATGGC TTTAGCTCTT CACTCCACGG GCCAGAATTT
    CTGCAGTTTC CACATGGAGA GGAGAACTTC AATCCAGAGC TCAGCTCCTC AGAAAAGACC
    GGATATATTT TATATCCTGC TAACAGCACA GCTCTGTCCA CTGGTGAAGG GGAGTTTGAT
    GTTAAAGCTC TGTGTGAGGG CACTGCTGGT GATCCTGATG AAGAGGAGTT AAGTCCAGAT
    AGTGCTTGCT CTGCTGAAAG TCCAGAATCT CATAGTGACC AGCCGCATGA CCAGGACACA
    GATTCCCTCA GTCAGGTGAG CTCTACGGGA AGCTCAGGAG TTGAAGAGGA TGAAGAAGAA
    TCTGGAACTC TGCTTCGCCA GCATTTCGAC ACTCTGGGTG TGGCCACAAA TGAAAAGTTC
    AACACTGACT TAAGCAGTCT GCAGCCCACG ACAGAGAGCA ACTTCCTCAA TCCTCGTCTC
    AGCATCTCTA CACGCTTCCT CTCCCGCTTT CAGAGCCGTT TCCGCAGTGC TGCTTGTCGG
    CCTGCAGCAT GCCTGTCCAG TATACCTGAT GAGTCCACTG ACAGCCAAAC CCTGGACCAA
    ACCATGGAAA AGCCCAAGCA TCTTTCAAAC AGTGGAAGCG TTGAGGAGAA AGAGAAGACT
    GTTATCAAGA GACGCTCCTC AATGTCTTCT CGGAGAAGCT CAAACCCTTC CTTGTTACGC
    TGGAAAAATG CATTGGGAGA AATCACAAAC AAAAATCAGT CCACGACTCA AAGTACCACT
    AGTGCTCCAG GCGTTCTCAG CAACAAGTCT ACCAGCAACT CATGTGACGC ATCTGTTACG
    CGCTCCCGCC AAAGCTACAT GGGTCCCACC GCAAGCTCCC GTGCTAAAAT AAACCAAAGC
    AACTCCGTGG AGAGTCTCAA CCTCTGTATA TCGGAGGAAA CGCCACTAAA CGCCTTACCA
    AATGTCGAGC ACAGCAAAGA GAACATGATC CCACCATCCT CTCCTGTGGT TTCGTCTGCA
    CCGCTTCATC AGTCTCCTGT CCTGGGAAAC CACAGTGCCC GGGCATCTCT TCGACTGGAC
    CTCATTGGCC ACAATCGTGC CAGTTTGTCA CCTGTGTCAC TGAAGAGCCG CCGAGGGAAG
    GTCGAACATC ACGATTCTCC ACGGCGCCAG GCTTTAGTGA CGCCCACCGA GATGAGGTCA
    CTGGGGAAAG AGAGTCGCAA GCAAATCTCA AACATTGAGC AGAGTTTGGC CCCTTCAGAC
    AGGCTCTCTA CAGGGGCCGG GATGTTTAGC AGGAGCCCCA TGGTCAGGCA AACCAGTGAT
    ACTGTGTTTG AAGACCTGCA GTCAGTGAGA TCTGACCAGA CGTCTGTGAG TTCTCCAATG
    ACCAACGCAG TATCTCAGGA CAATCAAGAT TCTGCAGATA ACAACAGCAT TCCAGAGGAA
    ACGGGTCTTT CTGCGGAGGC GTTGAGTGTT CAGATGTGTA AGGAGATGGT GAATGAACTC
    TGGCACACCA TCCATAAAGC AACTGACTTG TACAGCAAGC TGTGCTCCAT CCCTGAGTTA
    TCAGAGCAGC AGGAGCAGAT GAAGGGCGTT TTGCAGGAGG TGTTTGTGGG GGTACAGAGC
    GAGTTAAATT CAATCTGCCC ACAAAAGACA CAACCATCGA CTAAGAGCAC CCGTCCCATA
    TCAGAGGACT CTCCAGGTCG TCAGTTAAGG GATGACCGAG CCGTGGCCCT TCTGGAGAAA
    TACTCTGAAA TGCTCTTACT GCGAATGACT GAGAAAGGAG CGCAGGCTAC GCTGGAGTAA

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

    CloneID ODa20199
    Clone ID Related Accession (Same CDS sequence) XM_005169694.3 , XM_005169694.4
    Accession Version XM_005169694.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4557bp)
    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 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product WD repeat-containing protein 62 isoform X2
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007126.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_005169694.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGCGGATG GAGCGGTGAA TTTTGGAGCC AGTATGAACC AAAGTTGTTT GACCTCTCGA 
    GCAAAGAAAG CCAACAACAA CAGCACTTCA GTTCCAGCGA ACACGAGGAG AAAGACTCGA
    CAGAGCCACA GAAGAGACAT TCATAACCGG GTTGTCTTGG AGAAGGTGCT TGGCATCACT
    GCCTCCAGCA GCAGCGCTTT AACCTGTGAC CCCAACACCG GTTTAGTGGC TTATCCTGCA
    GGCTGTGTTA TAGTCATCCT GAGCCCAAAG AAAAACAAGC AGACGCACAT ATTTAATACA
    TCCAGGAAAA CCTTCAGCGC TTTGGCCTTC TCTCAGAATG GAAAATATTT GGTCACCGGT
    GAGAGTGGGC ACATGCCCTG TGTGCGGGTG TGGGATGTGG CAGAGCGGAC GCAGGTGGCA
    GAGGTCCAGT GTCATAAGTA TGGGGTGTCA TGTGTGGCAT TCTCCCCCAA CGGGAGCTAT
    ATAGTGTCTG TGGGATACCA ACACGACAGG ACTGTCAGCG TCTGGGAGTG GAAGAAGGGG
    ACTGTTATCG CGTCTAACAA GGTGTCCAGC CGTGTGCTTG GTGTATCTTT CTCAGAGGAC
    AACAGCTACT TTGTAACTGC AGGCAACAGA CATGTGAAGT TCTGGTACCT TGATGCCTCA
    AAGGAAAGAA GGGTGAACAG CACCGTGCCT CTGATCGGCC GCTCGGGTTT GCTGGGGGAG
    CATCAGAACA GTCAGTTCTG TGGTTTGGCT TGTGGCCGCG GGTCGATGGC CAGCAGCACC
    TACTGCATCA CACACACGGG TCTGCTGTGC CAATTCAACA GTAACAGACA GCTGGATTCC
    TGGGTTGATC TCAAGACTAC ATCAGCACAG TGTTTATCAG TGAGCGGGAC GTTTGTTTTT
    TGCGGTTGTG CCGATGGGAC AGTTCGTGTG TTCAGCCCAC AGGATCTCCG CTACATCACC
    ACTCTACACC GGCCACATTG TCTGGGAGTG GATGTGTCTC AGGGCACACA GCCAGGGCAT
    TTGTTCAGTG CAAATCCAGA AGCACAGTAT CCAGATACCT TGGCTTTAAC CTTTGACCCC
    GTGACCAAGC ACTTGACGTG CGTGTATAAT GACCACAGCG TGTACGTTTG GGATGTGCGG
    GACATCAGGA ACGTAGGAAA GGTCTATTCA GCCCTGTACC ACAGCGGATG TGTGTGGAGT
    GTGGAGACCT ATCCAGAGCT TGAAGATCCA TCGGCGGCCT GTTTGTCACC GGGGTCTTTC
    CTCACTTGCT CATCTGATAA CACCATCCGC TTGTGGAGAA GCGAGTCCCC ACAGAGTCAC
    AGCGCTGCAC TCGGCCTTCG ACACAACCTT TATAGCCAGG ACATTGTAAG GATAGTGTAT
    GTGGATGACG ACACGCAGTA CCTCAAAGCT GAAGCTGAGA AAGCAGAGGG AGGTGCTGGT
    CAGGATGGCA AATCTGGGAT CCGGGTGTTG GGAATCAGCC CAGATGGCCA GCATTTGGCT
    GCTGGAGACC GCAGTGGAAA CCTGAGAATC TTTGGCTTGC AGTTTATGGA CGAGTTACAG
    AAAATTGAAG CCCATGATTC AGAGGTCTTG TGTTTAGCCT TCTCCCCTGC TGAGACCGGT
    TTGCATCTGT TGGCTTCAGC GAGTCGAGAT CGACTGATTC ACATCTTTGA CATGGACAGC
    AAATGTAACC TCGTGCAGAC CGTCTATGAT CATTCGGCCT CAATCACTGC TGTCAAGTTT
    ACAGGCTTGA ATTCAGAGTT GTGTATGGTC AGCTGTGGCG CAGACAAGAG TGTTTATTTT
    CGATCTGCTG AGAAAACTTC AGATGGCTTA GTCTTCTCAC GATCACATCA CATAGTGGAG
    AAGACAACGC TGTATGACAT GGACCTGGAT GCCACACGCA CACACACAGC CATTGCGTGT
    CAGGACCGCA ACATCAGAGT TTACAATGTG AAGAGTGGAA AGATGAAGAA GTGTTTCAAG
    GGCTCTATGA ATGATGACGG GACACTGCTA AAGGTTCAGT TGGATCCCTC TGGGATGTTC
    TTGGCCACCA GTTGTTCAGA CAAAAATATC TGTGTCTTTG ATTATGAGTC AGGCGAATGT
    GTGGCCACCT TATTTGGACA TTCAGAAATA GTTACAGGTA TGAAGTTCAG CCAGGACTGC
    AGGCATCTCA TCACTGTGTC TGGTGACAGC TGTGTGTTTG TGTGGCGTCT GGACTCTCAG
    ATGACCAACT CCATGAGGAA GAGGTTGGCA GAGAGGAAGC AGCAAGCAGG CCTGAGGCTC
    CAGCGGGCTC CCACAAAACA AGAAGTCATC AGACGAGAGA CCTACATCAC CGTGCCCTGT
    AATGCACTGA CCCATATGGA GGAAGATGGC TTGATGGCTG AAGTAAACCC TGAAGACGGT
    TTGGAGGACT GCAGAACCCC TGATAGACTC GACTCTACAG ATGCATCTTT AGATTCTGTG
    GTGCTCCAAA CCAATGGCAA AATGCCAATG TGGGTCCGCA GACTGGGTGG AGAAGGTGAA
    AAGGATGGTA CCGGCGCCGC TAATAGAGTT CAGTACCAGC CCCAGGGACG CTGGGCAGTG
    CAGTCAGATC CACTCGCTAT CCGCACAGTG CTGGAAATGA AGAGCAATCA GCTTCCTCTC
    TCACACACTC CCAGCAGAGT CATGGGGGAG GAAGAGCTGG AGGAAGACCC TCGCTTCCAC
    CCGCAGAGCC TGGACAGCCT GCTGGATGAA GATCTTGAAG ATGGAGAAGA GGAGGAGGAG
    GAAAAGATAT GTGGTGTTTC CAGCGATGGC TTTAGCTCTT CACTCCACGG GCCAGAATTT
    CTGCAGTTTC CACATGGAGA GGAGAACTTC AATCCAGAGC TCAGCTCCTC AGAAAAGACC
    GGATATATTT TATATCCTGC TAACAGCACA GCTCTGTCCA CTGGTGAAGG GGAGTTTGAT
    GTTAAAGCTC TGTGTGAGGG CACTGCTGGT GATCCTGATG AAGAGGAGTT AAGTCCAGAT
    AGTGCTTGCT CTGCTGAAAG TCCAGAATCT CATAGTGACC AGCCGCATGA CCAGGACACA
    GATTCCCTCA GTCAGGTGAG CTCTACGGGA AGCTCAGGAG TTGAAGAGGA TGAAGAAGAA
    TCTGGAACTC TGCTTCGCCA GCATTTCGAC ACTCTGGGTG TGGCCACAAA TGAAAAGTTC
    AACACTGACT TAAGCAGTCT GCAGCCCACG ACAGAGAGCA ACTTCCTCAA TCCTCGTCTC
    AGCATCTCTA CACGCTTCCT CTCCCGCTTT CAGAGCCGTT TCCGTGCTGC TTGTCGGCCT
    GCAGCATGCC TGTCCAGTAT ACCTGATGAG TCCACTGACA GCCAAACCCT GGACCAAACC
    ATGGAAAAGC CCAAGCATCT TTCAAACAGT GGAAGCGTTG AGGAGAAAGA GAAGACTGTT
    ATCAAGAGAC GCTCCTCAAT GTCTTCTCGG AGAAGCTCAA ACCCTTCCTT GTTACGCTGG
    AAAAATGCAT TGGGAGAAAT CACAAACAAA AATCAGTCCA CGACTCAAAG TACCACTAGT
    GCTCCAGGCG TTCTCAGCAA CAAGTCTACC AGCAACTCAT GTGACGCATC TGTTACGCGC
    TCCCGCCAAA GCTACATGGG TCCCACCGCA AGCTCCCGTG CTAAAATAAA CCAAAGCAAC
    TCCGTGGAGA GTCTCAACCT CTGTATATCG GAGGAAACGC CACTAAACGC CTTACCAAAT
    GTCGAGCACA GCAAAGAGAA CATGATCCCA CCATCCTCTC CTGTGGTTTC GTCTGCACCG
    CTTCATCAGT CTCCTGTCCT GGGAAACCAC AGTGCCCGGG CATCTCTTCG ACTGGACCTC
    ATTGGCCACA ATCGTGCCAG TTTGTCACCT GTGTCACTGA AGAGCCGCCG AGGGAAGGTC
    GAACATCACG ATTCTCCACG GCGCCAGGCT TTAGTGACGC CCACCGAGAT GAGGTCACTG
    GGGAAAGAGA GTCGCAAGCA AATCTCAAAC ATTGAGCAGA GTTTGGCCCC TTCAGACAGG
    CTCTCTACAG GGGCCGGGAT GTTTAGCAGG AGCCCCATGG TCAGGCAAAC CAGTGATACT
    GTGTTTGAAG ACCTGCAGTC AGTGAGATCT GACCAGACGT CTGTGAGTTC TCCAATGACC
    AACGCAGTAT CTCAGGACAA TCAAGATTCT GCAGATAACA ACAGCATTCC AGAGGAAACG
    GGTCTTTCTG CGGAGGCGTT GAGTGTTCAG ATGTGTAAGG AGATGGTGAA TGAACTCTGG
    CACACCATCC ATAAAGCAAC TGACTTGTAC AGCAAGCTGT GCTCCATCCC TGAGTTATCA
    GAGCAGCAGG AGCAGATGAA GGGCGTTTTG CAGGAGGTGT TTGTGGGGGT ACAGAGCGAG
    TTAAATTCAA TCTGCCCACA AAAGACACAA CCATCGACTA AGAGCACCCG TCCCATATCA
    GAGGACTCTC CAGGTCGTCA GTTAAGGGAT GACCGAGCCG TGGCCCTTCT GGAGAAATAC
    TCTGAAATGC TCTTACTGCG AATGACTGAG AAAGGAGCGC AGGCTACGCT GGAGTAA

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

    RefSeq XP_005169751.1
    CDS290..4846
    Translation

    Target ORF information:

    RefSeq Version XM_005169694.3
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio WD repeat domain 62 (wdr62), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005169694.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGCGGATG GAGCGGTGAA TTTTGGAGCC AGTATGAACC AAAGTTGTTT GACCTCTCGA 
    GCAAAGAAAG CCAACAACAA CAGCACTTCA GTTCCAGCGA ACACGAGGAG AAAGACTCGA
    CAGAGCCACA GAAGAGACAT TCATAACCGG GTTGTCTTGG AGAAGGTGCT TGGCATCACT
    GCCTCCAGCA GCAGCGCTTT AACCTGTGAC CCCAACACCG GTTTAGTGGC TTATCCTGCA
    GGCTGTGTTA TAGTCATCCT GAGCCCAAAG AAAAACAAGC AGACGCACAT ATTTAATACA
    TCCAGGAAAA CCTTCAGCGC TTTGGCCTTC TCTCAGAATG GAAAATATTT GGTCACCGGT
    GAGAGTGGGC ACATGCCCTG TGTGCGGGTG TGGGATGTGG CAGAGCGGAC GCAGGTGGCA
    GAGGTCCAGT GTCATAAGTA TGGGGTGTCA TGTGTGGCAT TCTCCCCCAA CGGGAGCTAT
    ATAGTGTCTG TGGGATACCA ACACGACAGG ACTGTCAGCG TCTGGGAGTG GAAGAAGGGG
    ACTGTTATCG CGTCTAACAA GGTGTCCAGC CGTGTGCTTG GTGTATCTTT CTCAGAGGAC
    AACAGCTACT TTGTAACTGC AGGCAACAGA CATGTGAAGT TCTGGTACCT TGATGCCTCA
    AAGGAAAGAA GGGTGAACAG CACCGTGCCT CTGATCGGCC GCTCGGGTTT GCTGGGGGAG
    CATCAGAACA GTCAGTTCTG TGGTTTGGCT TGTGGCCGCG GGTCGATGGC CAGCAGCACC
    TACTGCATCA CACACACGGG TCTGCTGTGC CAATTCAACA GTAACAGACA GCTGGATTCC
    TGGGTTGATC TCAAGACTAC ATCAGCACAG TGTTTATCAG TGAGCGGGAC GTTTGTTTTT
    TGCGGTTGTG CCGATGGGAC AGTTCGTGTG TTCAGCCCAC AGGATCTCCG CTACATCACC
    ACTCTACACC GGCCACATTG TCTGGGAGTG GATGTGTCTC AGGGCACACA GCCAGGGCAT
    TTGTTCAGTG CAAATCCAGA AGCACAGTAT CCAGATACCT TGGCTTTAAC CTTTGACCCC
    GTGACCAAGC ACTTGACGTG CGTGTATAAT GACCACAGCG TGTACGTTTG GGATGTGCGG
    GACATCAGGA ACGTAGGAAA GGTCTATTCA GCCCTGTACC ACAGCGGATG TGTGTGGAGT
    GTGGAGACCT ATCCAGAGCT TGAAGATCCA TCGGCGGCCT GTTTGTCACC GGGGTCTTTC
    CTCACTTGCT CATCTGATAA CACCATCCGC TTGTGGAGAA GCGAGTCCCC ACAGAGTCAC
    AGCGCTGCAC TCGGCCTTCG ACACAACCTT TATAGCCAGG ACATTGTAAG GATAGTGTAT
    GTGGATGACG ACACGCAGTA CCTCAAAGCT GAAGCTGAGA AAGCAGAGGG AGGTGCTGGT
    CAGGATGGCA AATCTGGGAT CCGGGTGTTG GGAATCAGCC CAGATGGCCA GCATTTGGCT
    GCTGGAGACC GCAGTGGAAA CCTGAGAATC TTTGGCTTGC AGTTTATGGA CGAGTTACAG
    AAAATTGAAG CCCATGATTC AGAGGTCTTG TGTTTAGCCT TCTCCCCTGC TGAGACCGGT
    TTGCATCTGT TGGCTTCAGC GAGTCGAGAT CGACTGATTC ACATCTTTGA CATGGACAGC
    AAATGTAACC TCGTGCAGAC CGTCTATGAT CATTCGGCCT CAATCACTGC TGTCAAGTTT
    ACAGGCTTGA ATTCAGAGTT GTGTATGGTC AGCTGTGGCG CAGACAAGAG TGTTTATTTT
    CGATCTGCTG AGAAAACTTC AGATGGCTTA GTCTTCTCAC GATCACATCA CATAGTGGAG
    AAGACAACGC TGTATGACAT GGACCTGGAT GCCACACGCA CACACACAGC CATTGCGTGT
    CAGGACCGCA ACATCAGAGT TTACAATGTG AAGAGTGGAA AGATGAAGAA GTGTTTCAAG
    GGCTCTATGA ATGATGACGG GACACTGCTA AAGGTTCAGT TGGATCCCTC TGGGATGTTC
    TTGGCCACCA GTTGTTCAGA CAAAAATATC TGTGTCTTTG ATTATGAGTC AGGCGAATGT
    GTGGCCACCT TATTTGGACA TTCAGAAATA GTTACAGGTA TGAAGTTCAG CCAGGACTGC
    AGGCATCTCA TCACTGTGTC TGGTGACAGC TGTGTGTTTG TGTGGCGTCT GGACTCTCAG
    ATGACCAACT CCATGAGGAA GAGGTTGGCA GAGAGGAAGC AGCAAGCAGG CCTGAGGCTC
    CAGCGGGCTC CCACAAAACA AGAAGTCATC AGACGAGAGA CCTACATCAC CGTGCCCTGT
    AATGCACTGA CCCATATGGA GGAAGATGGC TTGATGGCTG AAGTAAACCC TGAAGACGGT
    TTGGAGGACT GCAGAACCCC TGATAGACTC GACTCTACAG ATGCATCTTT AGATTCTGTG
    GTGCTCCAAA CCAATGGCAA AATGCCAATG TGGGTCCGCA GACTGGGTGG AGAAGGTGAA
    AAGGATGGTA CCGGCGCCGC TAATAGAGTT CAGTACCAGC CCCAGGGACG CTGGGCAGTG
    CAGTCAGATC CACTCGCTAT CCGCACAGTG CTGGAAATGA AGAGCAATCA GCTTCCTCTC
    TCACACACTC CCAGCAGAGT CATGGGGGAG GAAGAGCTGG AGGAAGACCC TCGCTTCCAC
    CCGCAGAGCC TGGACAGCCT GCTGGATGAA GATCTTGAAG ATGGAGAAGA GGAGGAGGAG
    GAAAAGATAT GTGGTGTTTC CAGCGATGGC TTTAGCTCTT CACTCCACGG GCCAGAATTT
    CTGCAGTTTC CACATGGAGA GGAGAACTTC AATCCAGAGC TCAGCTCCTC AGAAAAGACC
    GGATATATTT TATATCCTGC TAACAGCACA GCTCTGTCCA CTGGTGAAGG GGAGTTTGAT
    GTTAAAGCTC TGTGTGAGGG CACTGCTGGT GATCCTGATG AAGAGGAGTT AAGTCCAGAT
    AGTGCTTGCT CTGCTGAAAG TCCAGAATCT CATAGTGACC AGCCGCATGA CCAGGACACA
    GATTCCCTCA GTCAGGTGAG CTCTACGGGA AGCTCAGGAG TTGAAGAGGA TGAAGAAGAA
    TCTGGAACTC TGCTTCGCCA GCATTTCGAC ACTCTGGGTG TGGCCACAAA TGAAAAGTTC
    AACACTGACT TAAGCAGTCT GCAGCCCACG ACAGAGAGCA ACTTCCTCAA TCCTCGTCTC
    AGCATCTCTA CACGCTTCCT CTCCCGCTTT CAGAGCCGTT TCCGTGCTGC TTGTCGGCCT
    GCAGCATGCC TGTCCAGTAT ACCTGATGAG TCCACTGACA GCCAAACCCT GGACCAAACC
    ATGGAAAAGC CCAAGCATCT TTCAAACAGT GGAAGCGTTG AGGAGAAAGA GAAGACTGTT
    ATCAAGAGAC GCTCCTCAAT GTCTTCTCGG AGAAGCTCAA ACCCTTCCTT GTTACGCTGG
    AAAAATGCAT TGGGAGAAAT CACAAACAAA AATCAGTCCA CGACTCAAAG TACCACTAGT
    GCTCCAGGCG TTCTCAGCAA CAAGTCTACC AGCAACTCAT GTGACGCATC TGTTACGCGC
    TCCCGCCAAA GCTACATGGG TCCCACCGCA AGCTCCCGTG CTAAAATAAA CCAAAGCAAC
    TCCGTGGAGA GTCTCAACCT CTGTATATCG GAGGAAACGC CACTAAACGC CTTACCAAAT
    GTCGAGCACA GCAAAGAGAA CATGATCCCA CCATCCTCTC CTGTGGTTTC GTCTGCACCG
    CTTCATCAGT CTCCTGTCCT GGGAAACCAC AGTGCCCGGG CATCTCTTCG ACTGGACCTC
    ATTGGCCACA ATCGTGCCAG TTTGTCACCT GTGTCACTGA AGAGCCGCCG AGGGAAGGTC
    GAACATCACG ATTCTCCACG GCGCCAGGCT TTAGTGACGC CCACCGAGAT GAGGTCACTG
    GGGAAAGAGA GTCGCAAGCA AATCTCAAAC ATTGAGCAGA GTTTGGCCCC TTCAGACAGG
    CTCTCTACAG GGGCCGGGAT GTTTAGCAGG AGCCCCATGG TCAGGCAAAC CAGTGATACT
    GTGTTTGAAG ACCTGCAGTC AGTGAGATCT GACCAGACGT CTGTGAGTTC TCCAATGACC
    AACGCAGTAT CTCAGGACAA TCAAGATTCT GCAGATAACA ACAGCATTCC AGAGGAAACG
    GGTCTTTCTG CGGAGGCGTT GAGTGTTCAG ATGTGTAAGG AGATGGTGAA TGAACTCTGG
    CACACCATCC ATAAAGCAAC TGACTTGTAC AGCAAGCTGT GCTCCATCCC TGAGTTATCA
    GAGCAGCAGG AGCAGATGAA GGGCGTTTTG CAGGAGGTGT TTGTGGGGGT ACAGAGCGAG
    TTAAATTCAA TCTGCCCACA AAAGACACAA CCATCGACTA AGAGCACCCG TCCCATATCA
    GAGGACTCTC CAGGTCGTCA GTTAAGGGAT GACCGAGCCG TGGCCCTTCT GGAGAAATAC
    TCTGAAATGC TCTTACTGCG AATGACTGAG AAAGGAGCGC AGGCTACGCT GGAGTAA

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

    CloneID ODa20199
    Clone ID Related Accession (Same CDS sequence) XM_005169694.3 , XM_005169694.4
    Accession Version XM_005169694.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4557bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product WD repeat-containing protein 62 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007126.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_005169694.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGCGGATG GAGCGGTGAA TTTTGGAGCC AGTATGAACC AAAGTTGTTT GACCTCTCGA 
    GCAAAGAAAG CCAACAACAA CAGCACTTCA GTTCCAGCGA ACACGAGGAG AAAGACTCGA
    CAGAGCCACA GAAGAGACAT TCATAACCGG GTTGTCTTGG AGAAGGTGCT TGGCATCACT
    GCCTCCAGCA GCAGCGCTTT AACCTGTGAC CCCAACACCG GTTTAGTGGC TTATCCTGCA
    GGCTGTGTTA TAGTCATCCT GAGCCCAAAG AAAAACAAGC AGACGCACAT ATTTAATACA
    TCCAGGAAAA CCTTCAGCGC TTTGGCCTTC TCTCAGAATG GAAAATATTT GGTCACCGGT
    GAGAGTGGGC ACATGCCCTG TGTGCGGGTG TGGGATGTGG CAGAGCGGAC GCAGGTGGCA
    GAGGTCCAGT GTCATAAGTA TGGGGTGTCA TGTGTGGCAT TCTCCCCCAA CGGGAGCTAT
    ATAGTGTCTG TGGGATACCA ACACGACAGG ACTGTCAGCG TCTGGGAGTG GAAGAAGGGG
    ACTGTTATCG CGTCTAACAA GGTGTCCAGC CGTGTGCTTG GTGTATCTTT CTCAGAGGAC
    AACAGCTACT TTGTAACTGC AGGCAACAGA CATGTGAAGT TCTGGTACCT TGATGCCTCA
    AAGGAAAGAA GGGTGAACAG CACCGTGCCT CTGATCGGCC GCTCGGGTTT GCTGGGGGAG
    CATCAGAACA GTCAGTTCTG TGGTTTGGCT TGTGGCCGCG GGTCGATGGC CAGCAGCACC
    TACTGCATCA CACACACGGG TCTGCTGTGC CAATTCAACA GTAACAGACA GCTGGATTCC
    TGGGTTGATC TCAAGACTAC ATCAGCACAG TGTTTATCAG TGAGCGGGAC GTTTGTTTTT
    TGCGGTTGTG CCGATGGGAC AGTTCGTGTG TTCAGCCCAC AGGATCTCCG CTACATCACC
    ACTCTACACC GGCCACATTG TCTGGGAGTG GATGTGTCTC AGGGCACACA GCCAGGGCAT
    TTGTTCAGTG CAAATCCAGA AGCACAGTAT CCAGATACCT TGGCTTTAAC CTTTGACCCC
    GTGACCAAGC ACTTGACGTG CGTGTATAAT GACCACAGCG TGTACGTTTG GGATGTGCGG
    GACATCAGGA ACGTAGGAAA GGTCTATTCA GCCCTGTACC ACAGCGGATG TGTGTGGAGT
    GTGGAGACCT ATCCAGAGCT TGAAGATCCA TCGGCGGCCT GTTTGTCACC GGGGTCTTTC
    CTCACTTGCT CATCTGATAA CACCATCCGC TTGTGGAGAA GCGAGTCCCC ACAGAGTCAC
    AGCGCTGCAC TCGGCCTTCG ACACAACCTT TATAGCCAGG ACATTGTAAG GATAGTGTAT
    GTGGATGACG ACACGCAGTA CCTCAAAGCT GAAGCTGAGA AAGCAGAGGG AGGTGCTGGT
    CAGGATGGCA AATCTGGGAT CCGGGTGTTG GGAATCAGCC CAGATGGCCA GCATTTGGCT
    GCTGGAGACC GCAGTGGAAA CCTGAGAATC TTTGGCTTGC AGTTTATGGA CGAGTTACAG
    AAAATTGAAG CCCATGATTC AGAGGTCTTG TGTTTAGCCT TCTCCCCTGC TGAGACCGGT
    TTGCATCTGT TGGCTTCAGC GAGTCGAGAT CGACTGATTC ACATCTTTGA CATGGACAGC
    AAATGTAACC TCGTGCAGAC CGTCTATGAT CATTCGGCCT CAATCACTGC TGTCAAGTTT
    ACAGGCTTGA ATTCAGAGTT GTGTATGGTC AGCTGTGGCG CAGACAAGAG TGTTTATTTT
    CGATCTGCTG AGAAAACTTC AGATGGCTTA GTCTTCTCAC GATCACATCA CATAGTGGAG
    AAGACAACGC TGTATGACAT GGACCTGGAT GCCACACGCA CACACACAGC CATTGCGTGT
    CAGGACCGCA ACATCAGAGT TTACAATGTG AAGAGTGGAA AGATGAAGAA GTGTTTCAAG
    GGCTCTATGA ATGATGACGG GACACTGCTA AAGGTTCAGT TGGATCCCTC TGGGATGTTC
    TTGGCCACCA GTTGTTCAGA CAAAAATATC TGTGTCTTTG ATTATGAGTC AGGCGAATGT
    GTGGCCACCT TATTTGGACA TTCAGAAATA GTTACAGGTA TGAAGTTCAG CCAGGACTGC
    AGGCATCTCA TCACTGTGTC TGGTGACAGC TGTGTGTTTG TGTGGCGTCT GGACTCTCAG
    ATGACCAACT CCATGAGGAA GAGGTTGGCA GAGAGGAAGC AGCAAGCAGG CCTGAGGCTC
    CAGCGGGCTC CCACAAAACA AGAAGTCATC AGACGAGAGA CCTACATCAC CGTGCCCTGT
    AATGCACTGA CCCATATGGA GGAAGATGGC TTGATGGCTG AAGTAAACCC TGAAGACGGT
    TTGGAGGACT GCAGAACCCC TGATAGACTC GACTCTACAG ATGCATCTTT AGATTCTGTG
    GTGCTCCAAA CCAATGGCAA AATGCCAATG TGGGTCCGCA GACTGGGTGG AGAAGGTGAA
    AAGGATGGTA CCGGCGCCGC TAATAGAGTT CAGTACCAGC CCCAGGGACG CTGGGCAGTG
    CAGTCAGATC CACTCGCTAT CCGCACAGTG CTGGAAATGA AGAGCAATCA GCTTCCTCTC
    TCACACACTC CCAGCAGAGT CATGGGGGAG GAAGAGCTGG AGGAAGACCC TCGCTTCCAC
    CCGCAGAGCC TGGACAGCCT GCTGGATGAA GATCTTGAAG ATGGAGAAGA GGAGGAGGAG
    GAAAAGATAT GTGGTGTTTC CAGCGATGGC TTTAGCTCTT CACTCCACGG GCCAGAATTT
    CTGCAGTTTC CACATGGAGA GGAGAACTTC AATCCAGAGC TCAGCTCCTC AGAAAAGACC
    GGATATATTT TATATCCTGC TAACAGCACA GCTCTGTCCA CTGGTGAAGG GGAGTTTGAT
    GTTAAAGCTC TGTGTGAGGG CACTGCTGGT GATCCTGATG AAGAGGAGTT AAGTCCAGAT
    AGTGCTTGCT CTGCTGAAAG TCCAGAATCT CATAGTGACC AGCCGCATGA CCAGGACACA
    GATTCCCTCA GTCAGGTGAG CTCTACGGGA AGCTCAGGAG TTGAAGAGGA TGAAGAAGAA
    TCTGGAACTC TGCTTCGCCA GCATTTCGAC ACTCTGGGTG TGGCCACAAA TGAAAAGTTC
    AACACTGACT TAAGCAGTCT GCAGCCCACG ACAGAGAGCA ACTTCCTCAA TCCTCGTCTC
    AGCATCTCTA CACGCTTCCT CTCCCGCTTT CAGAGCCGTT TCCGTGCTGC TTGTCGGCCT
    GCAGCATGCC TGTCCAGTAT ACCTGATGAG TCCACTGACA GCCAAACCCT GGACCAAACC
    ATGGAAAAGC CCAAGCATCT TTCAAACAGT GGAAGCGTTG AGGAGAAAGA GAAGACTGTT
    ATCAAGAGAC GCTCCTCAAT GTCTTCTCGG AGAAGCTCAA ACCCTTCCTT GTTACGCTGG
    AAAAATGCAT TGGGAGAAAT CACAAACAAA AATCAGTCCA CGACTCAAAG TACCACTAGT
    GCTCCAGGCG TTCTCAGCAA CAAGTCTACC AGCAACTCAT GTGACGCATC TGTTACGCGC
    TCCCGCCAAA GCTACATGGG TCCCACCGCA AGCTCCCGTG CTAAAATAAA CCAAAGCAAC
    TCCGTGGAGA GTCTCAACCT CTGTATATCG GAGGAAACGC CACTAAACGC CTTACCAAAT
    GTCGAGCACA GCAAAGAGAA CATGATCCCA CCATCCTCTC CTGTGGTTTC GTCTGCACCG
    CTTCATCAGT CTCCTGTCCT GGGAAACCAC AGTGCCCGGG CATCTCTTCG ACTGGACCTC
    ATTGGCCACA ATCGTGCCAG TTTGTCACCT GTGTCACTGA AGAGCCGCCG AGGGAAGGTC
    GAACATCACG ATTCTCCACG GCGCCAGGCT TTAGTGACGC CCACCGAGAT GAGGTCACTG
    GGGAAAGAGA GTCGCAAGCA AATCTCAAAC ATTGAGCAGA GTTTGGCCCC TTCAGACAGG
    CTCTCTACAG GGGCCGGGAT GTTTAGCAGG AGCCCCATGG TCAGGCAAAC CAGTGATACT
    GTGTTTGAAG ACCTGCAGTC AGTGAGATCT GACCAGACGT CTGTGAGTTC TCCAATGACC
    AACGCAGTAT CTCAGGACAA TCAAGATTCT GCAGATAACA ACAGCATTCC AGAGGAAACG
    GGTCTTTCTG CGGAGGCGTT GAGTGTTCAG ATGTGTAAGG AGATGGTGAA TGAACTCTGG
    CACACCATCC ATAAAGCAAC TGACTTGTAC AGCAAGCTGT GCTCCATCCC TGAGTTATCA
    GAGCAGCAGG AGCAGATGAA GGGCGTTTTG CAGGAGGTGT TTGTGGGGGT ACAGAGCGAG
    TTAAATTCAA TCTGCCCACA AAAGACACAA CCATCGACTA AGAGCACCCG TCCCATATCA
    GAGGACTCTC CAGGTCGTCA GTTAAGGGAT GACCGAGCCG TGGCCCTTCT GGAGAAATAC
    TCTGAAATGC TCTTACTGCG AATGACTGAG AAAGGAGCGC AGGCTACGCT GGAGTAA

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

    RefSeq XP_005169751.1
    CDS292..4848
    Translation

    Target ORF information:

    RefSeq Version XM_005169694.4
    Organism Danio rerio(zebrafish)
    Definition Danio rerio WD repeat domain 62 (wdr62), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005169694.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGCGGATG GAGCGGTGAA TTTTGGAGCC AGTATGAACC AAAGTTGTTT GACCTCTCGA 
    GCAAAGAAAG CCAACAACAA CAGCACTTCA GTTCCAGCGA ACACGAGGAG AAAGACTCGA
    CAGAGCCACA GAAGAGACAT TCATAACCGG GTTGTCTTGG AGAAGGTGCT TGGCATCACT
    GCCTCCAGCA GCAGCGCTTT AACCTGTGAC CCCAACACCG GTTTAGTGGC TTATCCTGCA
    GGCTGTGTTA TAGTCATCCT GAGCCCAAAG AAAAACAAGC AGACGCACAT ATTTAATACA
    TCCAGGAAAA CCTTCAGCGC TTTGGCCTTC TCTCAGAATG GAAAATATTT GGTCACCGGT
    GAGAGTGGGC ACATGCCCTG TGTGCGGGTG TGGGATGTGG CAGAGCGGAC GCAGGTGGCA
    GAGGTCCAGT GTCATAAGTA TGGGGTGTCA TGTGTGGCAT TCTCCCCCAA CGGGAGCTAT
    ATAGTGTCTG TGGGATACCA ACACGACAGG ACTGTCAGCG TCTGGGAGTG GAAGAAGGGG
    ACTGTTATCG CGTCTAACAA GGTGTCCAGC CGTGTGCTTG GTGTATCTTT CTCAGAGGAC
    AACAGCTACT TTGTAACTGC AGGCAACAGA CATGTGAAGT TCTGGTACCT TGATGCCTCA
    AAGGAAAGAA GGGTGAACAG CACCGTGCCT CTGATCGGCC GCTCGGGTTT GCTGGGGGAG
    CATCAGAACA GTCAGTTCTG TGGTTTGGCT TGTGGCCGCG GGTCGATGGC CAGCAGCACC
    TACTGCATCA CACACACGGG TCTGCTGTGC CAATTCAACA GTAACAGACA GCTGGATTCC
    TGGGTTGATC TCAAGACTAC ATCAGCACAG TGTTTATCAG TGAGCGGGAC GTTTGTTTTT
    TGCGGTTGTG CCGATGGGAC AGTTCGTGTG TTCAGCCCAC AGGATCTCCG CTACATCACC
    ACTCTACACC GGCCACATTG TCTGGGAGTG GATGTGTCTC AGGGCACACA GCCAGGGCAT
    TTGTTCAGTG CAAATCCAGA AGCACAGTAT CCAGATACCT TGGCTTTAAC CTTTGACCCC
    GTGACCAAGC ACTTGACGTG CGTGTATAAT GACCACAGCG TGTACGTTTG GGATGTGCGG
    GACATCAGGA ACGTAGGAAA GGTCTATTCA GCCCTGTACC ACAGCGGATG TGTGTGGAGT
    GTGGAGACCT ATCCAGAGCT TGAAGATCCA TCGGCGGCCT GTTTGTCACC GGGGTCTTTC
    CTCACTTGCT CATCTGATAA CACCATCCGC TTGTGGAGAA GCGAGTCCCC ACAGAGTCAC
    AGCGCTGCAC TCGGCCTTCG ACACAACCTT TATAGCCAGG ACATTGTAAG GATAGTGTAT
    GTGGATGACG ACACGCAGTA CCTCAAAGCT GAAGCTGAGA AAGCAGAGGG AGGTGCTGGT
    CAGGATGGCA AATCTGGGAT CCGGGTGTTG GGAATCAGCC CAGATGGCCA GCATTTGGCT
    GCTGGAGACC GCAGTGGAAA CCTGAGAATC TTTGGCTTGC AGTTTATGGA CGAGTTACAG
    AAAATTGAAG CCCATGATTC AGAGGTCTTG TGTTTAGCCT TCTCCCCTGC TGAGACCGGT
    TTGCATCTGT TGGCTTCAGC GAGTCGAGAT CGACTGATTC ACATCTTTGA CATGGACAGC
    AAATGTAACC TCGTGCAGAC CGTCTATGAT CATTCGGCCT CAATCACTGC TGTCAAGTTT
    ACAGGCTTGA ATTCAGAGTT GTGTATGGTC AGCTGTGGCG CAGACAAGAG TGTTTATTTT
    CGATCTGCTG AGAAAACTTC AGATGGCTTA GTCTTCTCAC GATCACATCA CATAGTGGAG
    AAGACAACGC TGTATGACAT GGACCTGGAT GCCACACGCA CACACACAGC CATTGCGTGT
    CAGGACCGCA ACATCAGAGT TTACAATGTG AAGAGTGGAA AGATGAAGAA GTGTTTCAAG
    GGCTCTATGA ATGATGACGG GACACTGCTA AAGGTTCAGT TGGATCCCTC TGGGATGTTC
    TTGGCCACCA GTTGTTCAGA CAAAAATATC TGTGTCTTTG ATTATGAGTC AGGCGAATGT
    GTGGCCACCT TATTTGGACA TTCAGAAATA GTTACAGGTA TGAAGTTCAG CCAGGACTGC
    AGGCATCTCA TCACTGTGTC TGGTGACAGC TGTGTGTTTG TGTGGCGTCT GGACTCTCAG
    ATGACCAACT CCATGAGGAA GAGGTTGGCA GAGAGGAAGC AGCAAGCAGG CCTGAGGCTC
    CAGCGGGCTC CCACAAAACA AGAAGTCATC AGACGAGAGA CCTACATCAC CGTGCCCTGT
    AATGCACTGA CCCATATGGA GGAAGATGGC TTGATGGCTG AAGTAAACCC TGAAGACGGT
    TTGGAGGACT GCAGAACCCC TGATAGACTC GACTCTACAG ATGCATCTTT AGATTCTGTG
    GTGCTCCAAA CCAATGGCAA AATGCCAATG TGGGTCCGCA GACTGGGTGG AGAAGGTGAA
    AAGGATGGTA CCGGCGCCGC TAATAGAGTT CAGTACCAGC CCCAGGGACG CTGGGCAGTG
    CAGTCAGATC CACTCGCTAT CCGCACAGTG CTGGAAATGA AGAGCAATCA GCTTCCTCTC
    TCACACACTC CCAGCAGAGT CATGGGGGAG GAAGAGCTGG AGGAAGACCC TCGCTTCCAC
    CCGCAGAGCC TGGACAGCCT GCTGGATGAA GATCTTGAAG ATGGAGAAGA GGAGGAGGAG
    GAAAAGATAT GTGGTGTTTC CAGCGATGGC TTTAGCTCTT CACTCCACGG GCCAGAATTT
    CTGCAGTTTC CACATGGAGA GGAGAACTTC AATCCAGAGC TCAGCTCCTC AGAAAAGACC
    GGATATATTT TATATCCTGC TAACAGCACA GCTCTGTCCA CTGGTGAAGG GGAGTTTGAT
    GTTAAAGCTC TGTGTGAGGG CACTGCTGGT GATCCTGATG AAGAGGAGTT AAGTCCAGAT
    AGTGCTTGCT CTGCTGAAAG TCCAGAATCT CATAGTGACC AGCCGCATGA CCAGGACACA
    GATTCCCTCA GTCAGGTGAG CTCTACGGGA AGCTCAGGAG TTGAAGAGGA TGAAGAAGAA
    TCTGGAACTC TGCTTCGCCA GCATTTCGAC ACTCTGGGTG TGGCCACAAA TGAAAAGTTC
    AACACTGACT TAAGCAGTCT GCAGCCCACG ACAGAGAGCA ACTTCCTCAA TCCTCGTCTC
    AGCATCTCTA CACGCTTCCT CTCCCGCTTT CAGAGCCGTT TCCGTGCTGC TTGTCGGCCT
    GCAGCATGCC TGTCCAGTAT ACCTGATGAG TCCACTGACA GCCAAACCCT GGACCAAACC
    ATGGAAAAGC CCAAGCATCT TTCAAACAGT GGAAGCGTTG AGGAGAAAGA GAAGACTGTT
    ATCAAGAGAC GCTCCTCAAT GTCTTCTCGG AGAAGCTCAA ACCCTTCCTT GTTACGCTGG
    AAAAATGCAT TGGGAGAAAT CACAAACAAA AATCAGTCCA CGACTCAAAG TACCACTAGT
    GCTCCAGGCG TTCTCAGCAA CAAGTCTACC AGCAACTCAT GTGACGCATC TGTTACGCGC
    TCCCGCCAAA GCTACATGGG TCCCACCGCA AGCTCCCGTG CTAAAATAAA CCAAAGCAAC
    TCCGTGGAGA GTCTCAACCT CTGTATATCG GAGGAAACGC CACTAAACGC CTTACCAAAT
    GTCGAGCACA GCAAAGAGAA CATGATCCCA CCATCCTCTC CTGTGGTTTC GTCTGCACCG
    CTTCATCAGT CTCCTGTCCT GGGAAACCAC AGTGCCCGGG CATCTCTTCG ACTGGACCTC
    ATTGGCCACA ATCGTGCCAG TTTGTCACCT GTGTCACTGA AGAGCCGCCG AGGGAAGGTC
    GAACATCACG ATTCTCCACG GCGCCAGGCT TTAGTGACGC CCACCGAGAT GAGGTCACTG
    GGGAAAGAGA GTCGCAAGCA AATCTCAAAC ATTGAGCAGA GTTTGGCCCC TTCAGACAGG
    CTCTCTACAG GGGCCGGGAT GTTTAGCAGG AGCCCCATGG TCAGGCAAAC CAGTGATACT
    GTGTTTGAAG ACCTGCAGTC AGTGAGATCT GACCAGACGT CTGTGAGTTC TCCAATGACC
    AACGCAGTAT CTCAGGACAA TCAAGATTCT GCAGATAACA ACAGCATTCC AGAGGAAACG
    GGTCTTTCTG CGGAGGCGTT GAGTGTTCAG ATGTGTAAGG AGATGGTGAA TGAACTCTGG
    CACACCATCC ATAAAGCAAC TGACTTGTAC AGCAAGCTGT GCTCCATCCC TGAGTTATCA
    GAGCAGCAGG AGCAGATGAA GGGCGTTTTG CAGGAGGTGT TTGTGGGGGT ACAGAGCGAG
    TTAAATTCAA TCTGCCCACA AAAGACACAA CCATCGACTA AGAGCACCCG TCCCATATCA
    GAGGACTCTC CAGGTCGTCA GTTAAGGGAT GACCGAGCCG TGGCCCTTCT GGAGAAATAC
    TCTGAAATGC TCTTACTGCG AATGACTGAG AAAGGAGCGC AGGCTACGCT GGAGTAA

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

    CloneID ODa20202
    Clone ID Related Accession (Same CDS sequence) XM_005169696.4 , XM_005169696.3
    Accession Version XM_005169696.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4479bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product WD repeat-containing protein 62 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007126.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_005169696.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGCGGATG GAGCGGTGAA TTTTGGAGCC AGTATGAACC AAAGTTGTTT GACCTCTCGA 
    GCAAAGAAAG CCAACAACAA CAGCACTTCA GTTCCAGCGA ACACGAGGAG AAAGACTCGA
    CAGAGCCACA GAAGAGACAT TCATAACCGG GTTGTCTTGG AGAAGGTGCT TGGCATCACT
    GCCTCCAGCA GCAGCGCTTT AACCTGTGAC CCCAACACCG GTTTAGTGGC TTATCCTGCA
    GGCTGTGTTA TAGTCATCCT GAGCCCAAAG AAAAACAAGC AGACGCACAT ATTTAATACA
    TCCAGGAAAA CCTTCAGCGC TTTGGCCTTC TCTCAGAATG GAAAATATTT GGTCACCGGT
    GAGAGTGGGC ACATGCCCTG TGTGCGGGTG TGGGATGTGG CAGAGCGGAC GCAGGTGGCA
    GAGGTCCAGT GTCATAAGTA TGGGGTGTCA TGTGTGGCAT TCTCCCCCAA CGGGAGCTAT
    ATAGTGTCTG TGGGATACCA ACACGACAGG ACTGTCAGCG TCTGGGAGTG GAAGAAGGGG
    ACTGTTATCG CGTCTAACAA GGTGTCCAGC CGTGTGCTTG GTGTATCTTT CTCAGAGGAC
    AACAGCTACT TTGTAACTGC AGGCAACAGA CATGTGAAGT TCTGGTACCT TGATGCCTCA
    AAGGAAAGAA GGGTGAACAG CACCGTGCCT CTGATCGGCC GCTCGGGTTT GCTGGGGGAG
    CATCAGAACA GTCAGTTCTG TGGTTTGGCT TGTGGCCGCG GGTCGATGGC CAGCAGCACC
    TACTGCATCA CACACACGGG TCTGCTGTGC CAATTCAACA GTAACAGACA GCTGGATTCC
    TGGGTTGATC TCAAGACTAC ATCAGCACAG TGTTTATCAG TGAGCGGGAC GTTTGTTTTT
    TGCGGTTGTG CCGATGGGAC AGTTCGTGTG TTCAGCCCAC AGGATCTCCG CTACATCACC
    ACTCTACACC GGCCACATTG TCTGGGAGTG GATGTGTCTC AGGGCACACA GCCAGGGCAT
    TTGTTCAGTG CAAATCCAGA AGCACAGTAT CCAGATACCT TGGCTTTAAC CTTTGACCCC
    GTGACCAAGC ACTTGACGTG CGTGTATAAT GACCACAGCG TGTACGTTTG GGATGTGCGG
    GACATCAGGA ACGTAGGAAA GGTCTATTCA GCCCTGTACC ACAGCGGATG TGTGTGGAGT
    GTGGAGACCT ATCCAGAGCT TGAAGATCCA TCGGCGGCCT GTTTGTCACC GGGGTCTTTC
    CTCACTTGCT CATCTGATAA CACCATCCGC TTGTGGAGAA GCGAGTCCCC ACAGAGTCAC
    AGCGCTGCAC TCGGCCTTCG ACACAACCTT TATAGCCAGG ACATTGTAAG GATAGTGTAT
    GTGGATGACG ACACGCAGTA CCTCAAAGCT GAAGCTGAGA AAGCAGAGGG AGGTGCTGGT
    CAGGATGGCA AATCTGGGAT CCGGGTGTTG GGAATCAGCC CAGATGGCCA GCATTTGGCT
    GCTGGAGACC GCAGTGGAAA CCTGAGAATC TTTGGCTTGC AGTTTATGGA CGAGTTACAG
    AAAATTGAAG CCCATGATTC AGAGGTCTTG TGTTTAGCCT TCTCCCCTGC TGAGACCGGT
    TTGCATCTGT TGGCTTCAGC GAGTCGAGAT CGACTGATTC ACATCTTTGA CATGGACAGC
    AAATGTAACC TCGTGCAGAC CGTCTATGAT CATTCGGCCT CAATCACTGC TGTCAAGTTT
    ACAGGCTTGA ATTCAGAGTT GTGTATGGTC AGCTGTGGCG CAGACAAGAG TGTTTATTTT
    CGATCTGCTG AGAAAACTTC AGATGGCTTA GTCTTCTCAC GATCACATCA CATAGTGGAG
    AAGACAACGC TGTATGACAT GGACCTGGAT GCCACACGCA CACACACAGC CATTGCGTGT
    CAGGACCGCA ACATCAGAGT TTACAATGTG AAGAGTGGAA AGATGAAGAA GTGTTTCAAG
    GGCTCTATGA ATGATGACGG GACACTGCTA AAGGTTCAGT TGGATCCCTC TGGGATGTTC
    TTGGCCACCA GTTGTTCAGA CAAAAATATC TGTGTCTTTG ATTATGAGTC AGGCGAATGT
    GTGGCCACCT TATTTGGACA TTCAGAAATA GTTACAGGTA TGAAGTTCAG CCAGGACTGC
    AGGCATCTCA TCACTGTGTC TGGTGACAGC TGTGTGTTTG TGTGGCGTCT GGACTCTCAG
    ATGACCAACT CCATGAGGAA GAGGTTGGCA GAGAGGAAGC AGCAAGCAGG CCTGAGGCTC
    CAGCGGGCTC CCACAAAACA AGAAGTCATC AGACGAGAGA CCTACATCAC CGTGCCCTGT
    AATGCACTGA CCCATATGGA GGAAGATGGC TTGATGGCTG AAGTAAACCC TGAAGACGGT
    TTGGAGGACT GCAGAACCCC TGATAGACTC GACTCTACAG ATGCATCTTT AGATTCTGTG
    GTGCTCCAAA CCAATGGCAA AATGCCAATG TGGGTCCGCA GACTGGGTGG AGAAGGTGAA
    AAGGATGGTA CCGGCGCCGC TAATAGAGTT CAGTACCAGC CCCAGGGACG CTGGGCAGTG
    CAGTCAGATC CACTCGCTAT CCGCACAGTG CTGGAAATGA AGAGCAATCA GCTTCCTCTC
    TCACACACTC CCAGCAGAGT CATGGGGGAG GAAGAGCTGG AGGAAGACCC TCGCTTCCAC
    CCGCAGAGCC TGGACAGCCT GCTGGATGAA GATCTTGAAG ATGGAGAAGA GGAGGAGGAG
    GAAAAGATAT GTGGTGTTTC CAGCGATGGC TTTAGCTCTT CACTCCACGG GCCAGAATTT
    CTGCAGTTTC CACATGGAGA GGAGAACTTC AATCCAGAGC TCAGCTCCTC AGAAAAGACC
    GGATATATTT TATATCCTGC TAACAGCACA GCTCTGTCCA CTGGTGAAGG GGAGTTTGAT
    GTTAAAGCTC TGTGTGAGGG CACTGCTGGT GATCCTGATG AAGAGGAGTT AAGTCCAGAT
    AGTGCTTGCT CTGCTGAAAG TCCAGAATCT CATAGTGACC AGCCGCATGA CCAGGACACA
    GATTCCCTCA GTCAGGTGAG CTCTACGGGA AGCTCAGGAG TTGAAGAGGA TGAAGAAGAA
    TCTGGAACTC TGCTTCGCCA GCATTTCGAC ACTCTGGGTG TGGCCACAAA TGAAAAGTTC
    AACACTGACT TAAGCAGTCT GCAGCCCACG ACAGAGAGCA ACTTCCTCAA TCCTCGTCTC
    AGCATCTCTA CACGCTTCCT CTCCCGCTTT CAGAGCCGTT TCCGTGCTGC TTGTCGGCCT
    GCAGCATGCC TGTCCAGTAT ACCTGATGAG TCCACTGACA GCCAAACCCT GGACCAAACC
    ATGGAAAAGC CCAAGCATCT TTCAAACAGT GGAAGCGTTG AGGAGAAAGA GAAGACTGAA
    ATCACAAACA AAAATCAGTC CACGACTCAA AGTACCACTA GTGCTCCAGG CGTTCTCAGC
    AACAAGTCTA CCAGCAACTC ATGTGACGCA TCTGTTACGC GCTCCCGCCA AAGCTACATG
    GGTCCCACCG CAAGCTCCCG TGCTAAAATA AACCAAAGCA ACTCCGTGGA GAGTCTCAAC
    CTCTGTATAT CGGAGGAAAC GCCACTAAAC GCCTTACCAA ATGTCGAGCA CAGCAAAGAG
    AACATGATCC CACCATCCTC TCCTGTGGTT TCGTCTGCAC CGCTTCATCA GTCTCCTGTC
    CTGGGAAACC ACAGTGCCCG GGCATCTCTT CGACTGGACC TCATTGGCCA CAATCGTGCC
    AGTTTGTCAC CTGTGTCACT GAAGAGCCGC CGAGGGAAGG TCGAACATCA CGATTCTCCA
    CGGCGCCAGG CTTTAGTGAC GCCCACCGAG ATGAGGTCAC TGGGGAAAGA GAGTCGCAAG
    CAAATCTCAA ACATTGAGCA GAGTTTGGCC CCTTCAGACA GGCTCTCTAC AGGGGCCGGG
    ATGTTTAGCA GGAGCCCCAT GGTCAGGCAA ACCAGTGATA CTGTGTTTGA AGACCTGCAG
    TCAGTGAGAT CTGACCAGAC GTCTGTGAGT TCTCCAATGA CCAACGCAGT ATCTCAGGAC
    AATCAAGATT CTGCAGATAA CAACAGCATT CCAGAGGAAA CGGGTCTTTC TGCGGAGGCG
    TTGAGTGTTC AGATGTGTAA GGAGATGGTG AATGAACTCT GGCACACCAT CCATAAAGCA
    ACTGACTTGT ACAGCAAGCT GTGCTCCATC CCTGAGTTAT CAGAGCAGCA GGAGCAGATG
    AAGGGCGTTT TGCAGGAGGT GTTTGTGGGG GTACAGAGCG AGTTAAATTC AATCTGCCCA
    CAAAAGACAC AACCATCGAC TAAGAGCACC CGTCCCATAT CAGAGGACTC TCCAGGTCGT
    CAGTTAAGGG ATGACCGAGC CGTGGCCCTT CTGGAGAAAT ACTCTGAAAT GCTCTTACTG
    CGAATGACTG AGAAAGGAGC GCAGGCTACG CTGGAGTAA

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

    RefSeq XP_005169753.1
    CDS291..4769
    Translation

    Target ORF information:

    RefSeq Version XM_005169696.4
    Organism Danio rerio(zebrafish)
    Definition Danio rerio WD repeat domain 62 (wdr62), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005169696.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGCGGATG GAGCGGTGAA TTTTGGAGCC AGTATGAACC AAAGTTGTTT GACCTCTCGA 
    GCAAAGAAAG CCAACAACAA CAGCACTTCA GTTCCAGCGA ACACGAGGAG AAAGACTCGA
    CAGAGCCACA GAAGAGACAT TCATAACCGG GTTGTCTTGG AGAAGGTGCT TGGCATCACT
    GCCTCCAGCA GCAGCGCTTT AACCTGTGAC CCCAACACCG GTTTAGTGGC TTATCCTGCA
    GGCTGTGTTA TAGTCATCCT GAGCCCAAAG AAAAACAAGC AGACGCACAT ATTTAATACA
    TCCAGGAAAA CCTTCAGCGC TTTGGCCTTC TCTCAGAATG GAAAATATTT GGTCACCGGT
    GAGAGTGGGC ACATGCCCTG TGTGCGGGTG TGGGATGTGG CAGAGCGGAC GCAGGTGGCA
    GAGGTCCAGT GTCATAAGTA TGGGGTGTCA TGTGTGGCAT TCTCCCCCAA CGGGAGCTAT
    ATAGTGTCTG TGGGATACCA ACACGACAGG ACTGTCAGCG TCTGGGAGTG GAAGAAGGGG
    ACTGTTATCG CGTCTAACAA GGTGTCCAGC CGTGTGCTTG GTGTATCTTT CTCAGAGGAC
    AACAGCTACT TTGTAACTGC AGGCAACAGA CATGTGAAGT TCTGGTACCT TGATGCCTCA
    AAGGAAAGAA GGGTGAACAG CACCGTGCCT CTGATCGGCC GCTCGGGTTT GCTGGGGGAG
    CATCAGAACA GTCAGTTCTG TGGTTTGGCT TGTGGCCGCG GGTCGATGGC CAGCAGCACC
    TACTGCATCA CACACACGGG TCTGCTGTGC CAATTCAACA GTAACAGACA GCTGGATTCC
    TGGGTTGATC TCAAGACTAC ATCAGCACAG TGTTTATCAG TGAGCGGGAC GTTTGTTTTT
    TGCGGTTGTG CCGATGGGAC AGTTCGTGTG TTCAGCCCAC AGGATCTCCG CTACATCACC
    ACTCTACACC GGCCACATTG TCTGGGAGTG GATGTGTCTC AGGGCACACA GCCAGGGCAT
    TTGTTCAGTG CAAATCCAGA AGCACAGTAT CCAGATACCT TGGCTTTAAC CTTTGACCCC
    GTGACCAAGC ACTTGACGTG CGTGTATAAT GACCACAGCG TGTACGTTTG GGATGTGCGG
    GACATCAGGA ACGTAGGAAA GGTCTATTCA GCCCTGTACC ACAGCGGATG TGTGTGGAGT
    GTGGAGACCT ATCCAGAGCT TGAAGATCCA TCGGCGGCCT GTTTGTCACC GGGGTCTTTC
    CTCACTTGCT CATCTGATAA CACCATCCGC TTGTGGAGAA GCGAGTCCCC ACAGAGTCAC
    AGCGCTGCAC TCGGCCTTCG ACACAACCTT TATAGCCAGG ACATTGTAAG GATAGTGTAT
    GTGGATGACG ACACGCAGTA CCTCAAAGCT GAAGCTGAGA AAGCAGAGGG AGGTGCTGGT
    CAGGATGGCA AATCTGGGAT CCGGGTGTTG GGAATCAGCC CAGATGGCCA GCATTTGGCT
    GCTGGAGACC GCAGTGGAAA CCTGAGAATC TTTGGCTTGC AGTTTATGGA CGAGTTACAG
    AAAATTGAAG CCCATGATTC AGAGGTCTTG TGTTTAGCCT TCTCCCCTGC TGAGACCGGT
    TTGCATCTGT TGGCTTCAGC GAGTCGAGAT CGACTGATTC ACATCTTTGA CATGGACAGC
    AAATGTAACC TCGTGCAGAC CGTCTATGAT CATTCGGCCT CAATCACTGC TGTCAAGTTT
    ACAGGCTTGA ATTCAGAGTT GTGTATGGTC AGCTGTGGCG CAGACAAGAG TGTTTATTTT
    CGATCTGCTG AGAAAACTTC AGATGGCTTA GTCTTCTCAC GATCACATCA CATAGTGGAG
    AAGACAACGC TGTATGACAT GGACCTGGAT GCCACACGCA CACACACAGC CATTGCGTGT
    CAGGACCGCA ACATCAGAGT TTACAATGTG AAGAGTGGAA AGATGAAGAA GTGTTTCAAG
    GGCTCTATGA ATGATGACGG GACACTGCTA AAGGTTCAGT TGGATCCCTC TGGGATGTTC
    TTGGCCACCA GTTGTTCAGA CAAAAATATC TGTGTCTTTG ATTATGAGTC AGGCGAATGT
    GTGGCCACCT TATTTGGACA TTCAGAAATA GTTACAGGTA TGAAGTTCAG CCAGGACTGC
    AGGCATCTCA TCACTGTGTC TGGTGACAGC TGTGTGTTTG TGTGGCGTCT GGACTCTCAG
    ATGACCAACT CCATGAGGAA GAGGTTGGCA GAGAGGAAGC AGCAAGCAGG CCTGAGGCTC
    CAGCGGGCTC CCACAAAACA AGAAGTCATC AGACGAGAGA CCTACATCAC CGTGCCCTGT
    AATGCACTGA CCCATATGGA GGAAGATGGC TTGATGGCTG AAGTAAACCC TGAAGACGGT
    TTGGAGGACT GCAGAACCCC TGATAGACTC GACTCTACAG ATGCATCTTT AGATTCTGTG
    GTGCTCCAAA CCAATGGCAA AATGCCAATG TGGGTCCGCA GACTGGGTGG AGAAGGTGAA
    AAGGATGGTA CCGGCGCCGC TAATAGAGTT CAGTACCAGC CCCAGGGACG CTGGGCAGTG
    CAGTCAGATC CACTCGCTAT CCGCACAGTG CTGGAAATGA AGAGCAATCA GCTTCCTCTC
    TCACACACTC CCAGCAGAGT CATGGGGGAG GAAGAGCTGG AGGAAGACCC TCGCTTCCAC
    CCGCAGAGCC TGGACAGCCT GCTGGATGAA GATCTTGAAG ATGGAGAAGA GGAGGAGGAG
    GAAAAGATAT GTGGTGTTTC CAGCGATGGC TTTAGCTCTT CACTCCACGG GCCAGAATTT
    CTGCAGTTTC CACATGGAGA GGAGAACTTC AATCCAGAGC TCAGCTCCTC AGAAAAGACC
    GGATATATTT TATATCCTGC TAACAGCACA GCTCTGTCCA CTGGTGAAGG GGAGTTTGAT
    GTTAAAGCTC TGTGTGAGGG CACTGCTGGT GATCCTGATG AAGAGGAGTT AAGTCCAGAT
    AGTGCTTGCT CTGCTGAAAG TCCAGAATCT CATAGTGACC AGCCGCATGA CCAGGACACA
    GATTCCCTCA GTCAGGTGAG CTCTACGGGA AGCTCAGGAG TTGAAGAGGA TGAAGAAGAA
    TCTGGAACTC TGCTTCGCCA GCATTTCGAC ACTCTGGGTG TGGCCACAAA TGAAAAGTTC
    AACACTGACT TAAGCAGTCT GCAGCCCACG ACAGAGAGCA ACTTCCTCAA TCCTCGTCTC
    AGCATCTCTA CACGCTTCCT CTCCCGCTTT CAGAGCCGTT TCCGTGCTGC TTGTCGGCCT
    GCAGCATGCC TGTCCAGTAT ACCTGATGAG TCCACTGACA GCCAAACCCT GGACCAAACC
    ATGGAAAAGC CCAAGCATCT TTCAAACAGT GGAAGCGTTG AGGAGAAAGA GAAGACTGAA
    ATCACAAACA AAAATCAGTC CACGACTCAA AGTACCACTA GTGCTCCAGG CGTTCTCAGC
    AACAAGTCTA CCAGCAACTC ATGTGACGCA TCTGTTACGC GCTCCCGCCA AAGCTACATG
    GGTCCCACCG CAAGCTCCCG TGCTAAAATA AACCAAAGCA ACTCCGTGGA GAGTCTCAAC
    CTCTGTATAT CGGAGGAAAC GCCACTAAAC GCCTTACCAA ATGTCGAGCA CAGCAAAGAG
    AACATGATCC CACCATCCTC TCCTGTGGTT TCGTCTGCAC CGCTTCATCA GTCTCCTGTC
    CTGGGAAACC ACAGTGCCCG GGCATCTCTT CGACTGGACC TCATTGGCCA CAATCGTGCC
    AGTTTGTCAC CTGTGTCACT GAAGAGCCGC CGAGGGAAGG TCGAACATCA CGATTCTCCA
    CGGCGCCAGG CTTTAGTGAC GCCCACCGAG ATGAGGTCAC TGGGGAAAGA GAGTCGCAAG
    CAAATCTCAA ACATTGAGCA GAGTTTGGCC CCTTCAGACA GGCTCTCTAC AGGGGCCGGG
    ATGTTTAGCA GGAGCCCCAT GGTCAGGCAA ACCAGTGATA CTGTGTTTGA AGACCTGCAG
    TCAGTGAGAT CTGACCAGAC GTCTGTGAGT TCTCCAATGA CCAACGCAGT ATCTCAGGAC
    AATCAAGATT CTGCAGATAA CAACAGCATT CCAGAGGAAA CGGGTCTTTC TGCGGAGGCG
    TTGAGTGTTC AGATGTGTAA GGAGATGGTG AATGAACTCT GGCACACCAT CCATAAAGCA
    ACTGACTTGT ACAGCAAGCT GTGCTCCATC CCTGAGTTAT CAGAGCAGCA GGAGCAGATG
    AAGGGCGTTT TGCAGGAGGT GTTTGTGGGG GTACAGAGCG AGTTAAATTC AATCTGCCCA
    CAAAAGACAC AACCATCGAC TAAGAGCACC CGTCCCATAT CAGAGGACTC TCCAGGTCGT
    CAGTTAAGGG ATGACCGAGC CGTGGCCCTT CTGGAGAAAT ACTCTGAAAT GCTCTTACTG
    CGAATGACTG AGAAAGGAGC GCAGGCTACG CTGGAGTAA

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

    CloneID ODa20202
    Clone ID Related Accession (Same CDS sequence) XM_005169696.4 , XM_005169696.3
    Accession Version XM_005169696.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4479bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product WD repeat-containing protein 62 isoform X3
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007126.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_005169696.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGCGGATG GAGCGGTGAA TTTTGGAGCC AGTATGAACC AAAGTTGTTT GACCTCTCGA 
    GCAAAGAAAG CCAACAACAA CAGCACTTCA GTTCCAGCGA ACACGAGGAG AAAGACTCGA
    CAGAGCCACA GAAGAGACAT TCATAACCGG GTTGTCTTGG AGAAGGTGCT TGGCATCACT
    GCCTCCAGCA GCAGCGCTTT AACCTGTGAC CCCAACACCG GTTTAGTGGC TTATCCTGCA
    GGCTGTGTTA TAGTCATCCT GAGCCCAAAG AAAAACAAGC AGACGCACAT ATTTAATACA
    TCCAGGAAAA CCTTCAGCGC TTTGGCCTTC TCTCAGAATG GAAAATATTT GGTCACCGGT
    GAGAGTGGGC ACATGCCCTG TGTGCGGGTG TGGGATGTGG CAGAGCGGAC GCAGGTGGCA
    GAGGTCCAGT GTCATAAGTA TGGGGTGTCA TGTGTGGCAT TCTCCCCCAA CGGGAGCTAT
    ATAGTGTCTG TGGGATACCA ACACGACAGG ACTGTCAGCG TCTGGGAGTG GAAGAAGGGG
    ACTGTTATCG CGTCTAACAA GGTGTCCAGC CGTGTGCTTG GTGTATCTTT CTCAGAGGAC
    AACAGCTACT TTGTAACTGC AGGCAACAGA CATGTGAAGT TCTGGTACCT TGATGCCTCA
    AAGGAAAGAA GGGTGAACAG CACCGTGCCT CTGATCGGCC GCTCGGGTTT GCTGGGGGAG
    CATCAGAACA GTCAGTTCTG TGGTTTGGCT TGTGGCCGCG GGTCGATGGC CAGCAGCACC
    TACTGCATCA CACACACGGG TCTGCTGTGC CAATTCAACA GTAACAGACA GCTGGATTCC
    TGGGTTGATC TCAAGACTAC ATCAGCACAG TGTTTATCAG TGAGCGGGAC GTTTGTTTTT
    TGCGGTTGTG CCGATGGGAC AGTTCGTGTG TTCAGCCCAC AGGATCTCCG CTACATCACC
    ACTCTACACC GGCCACATTG TCTGGGAGTG GATGTGTCTC AGGGCACACA GCCAGGGCAT
    TTGTTCAGTG CAAATCCAGA AGCACAGTAT CCAGATACCT TGGCTTTAAC CTTTGACCCC
    GTGACCAAGC ACTTGACGTG CGTGTATAAT GACCACAGCG TGTACGTTTG GGATGTGCGG
    GACATCAGGA ACGTAGGAAA GGTCTATTCA GCCCTGTACC ACAGCGGATG TGTGTGGAGT
    GTGGAGACCT ATCCAGAGCT TGAAGATCCA TCGGCGGCCT GTTTGTCACC GGGGTCTTTC
    CTCACTTGCT CATCTGATAA CACCATCCGC TTGTGGAGAA GCGAGTCCCC ACAGAGTCAC
    AGCGCTGCAC TCGGCCTTCG ACACAACCTT TATAGCCAGG ACATTGTAAG GATAGTGTAT
    GTGGATGACG ACACGCAGTA CCTCAAAGCT GAAGCTGAGA AAGCAGAGGG AGGTGCTGGT
    CAGGATGGCA AATCTGGGAT CCGGGTGTTG GGAATCAGCC CAGATGGCCA GCATTTGGCT
    GCTGGAGACC GCAGTGGAAA CCTGAGAATC TTTGGCTTGC AGTTTATGGA CGAGTTACAG
    AAAATTGAAG CCCATGATTC AGAGGTCTTG TGTTTAGCCT TCTCCCCTGC TGAGACCGGT
    TTGCATCTGT TGGCTTCAGC GAGTCGAGAT CGACTGATTC ACATCTTTGA CATGGACAGC
    AAATGTAACC TCGTGCAGAC CGTCTATGAT CATTCGGCCT CAATCACTGC TGTCAAGTTT
    ACAGGCTTGA ATTCAGAGTT GTGTATGGTC AGCTGTGGCG CAGACAAGAG TGTTTATTTT
    CGATCTGCTG AGAAAACTTC AGATGGCTTA GTCTTCTCAC GATCACATCA CATAGTGGAG
    AAGACAACGC TGTATGACAT GGACCTGGAT GCCACACGCA CACACACAGC CATTGCGTGT
    CAGGACCGCA ACATCAGAGT TTACAATGTG AAGAGTGGAA AGATGAAGAA GTGTTTCAAG
    GGCTCTATGA ATGATGACGG GACACTGCTA AAGGTTCAGT TGGATCCCTC TGGGATGTTC
    TTGGCCACCA GTTGTTCAGA CAAAAATATC TGTGTCTTTG ATTATGAGTC AGGCGAATGT
    GTGGCCACCT TATTTGGACA TTCAGAAATA GTTACAGGTA TGAAGTTCAG CCAGGACTGC
    AGGCATCTCA TCACTGTGTC TGGTGACAGC TGTGTGTTTG TGTGGCGTCT GGACTCTCAG
    ATGACCAACT CCATGAGGAA GAGGTTGGCA GAGAGGAAGC AGCAAGCAGG CCTGAGGCTC
    CAGCGGGCTC CCACAAAACA AGAAGTCATC AGACGAGAGA CCTACATCAC CGTGCCCTGT
    AATGCACTGA CCCATATGGA GGAAGATGGC TTGATGGCTG AAGTAAACCC TGAAGACGGT
    TTGGAGGACT GCAGAACCCC TGATAGACTC GACTCTACAG ATGCATCTTT AGATTCTGTG
    GTGCTCCAAA CCAATGGCAA AATGCCAATG TGGGTCCGCA GACTGGGTGG AGAAGGTGAA
    AAGGATGGTA CCGGCGCCGC TAATAGAGTT CAGTACCAGC CCCAGGGACG CTGGGCAGTG
    CAGTCAGATC CACTCGCTAT CCGCACAGTG CTGGAAATGA AGAGCAATCA GCTTCCTCTC
    TCACACACTC CCAGCAGAGT CATGGGGGAG GAAGAGCTGG AGGAAGACCC TCGCTTCCAC
    CCGCAGAGCC TGGACAGCCT GCTGGATGAA GATCTTGAAG ATGGAGAAGA GGAGGAGGAG
    GAAAAGATAT GTGGTGTTTC CAGCGATGGC TTTAGCTCTT CACTCCACGG GCCAGAATTT
    CTGCAGTTTC CACATGGAGA GGAGAACTTC AATCCAGAGC TCAGCTCCTC AGAAAAGACC
    GGATATATTT TATATCCTGC TAACAGCACA GCTCTGTCCA CTGGTGAAGG GGAGTTTGAT
    GTTAAAGCTC TGTGTGAGGG CACTGCTGGT GATCCTGATG AAGAGGAGTT AAGTCCAGAT
    AGTGCTTGCT CTGCTGAAAG TCCAGAATCT CATAGTGACC AGCCGCATGA CCAGGACACA
    GATTCCCTCA GTCAGGTGAG CTCTACGGGA AGCTCAGGAG TTGAAGAGGA TGAAGAAGAA
    TCTGGAACTC TGCTTCGCCA GCATTTCGAC ACTCTGGGTG TGGCCACAAA TGAAAAGTTC
    AACACTGACT TAAGCAGTCT GCAGCCCACG ACAGAGAGCA ACTTCCTCAA TCCTCGTCTC
    AGCATCTCTA CACGCTTCCT CTCCCGCTTT CAGAGCCGTT TCCGTGCTGC TTGTCGGCCT
    GCAGCATGCC TGTCCAGTAT ACCTGATGAG TCCACTGACA GCCAAACCCT GGACCAAACC
    ATGGAAAAGC CCAAGCATCT TTCAAACAGT GGAAGCGTTG AGGAGAAAGA GAAGACTGAA
    ATCACAAACA AAAATCAGTC CACGACTCAA AGTACCACTA GTGCTCCAGG CGTTCTCAGC
    AACAAGTCTA CCAGCAACTC ATGTGACGCA TCTGTTACGC GCTCCCGCCA AAGCTACATG
    GGTCCCACCG CAAGCTCCCG TGCTAAAATA AACCAAAGCA ACTCCGTGGA GAGTCTCAAC
    CTCTGTATAT CGGAGGAAAC GCCACTAAAC GCCTTACCAA ATGTCGAGCA CAGCAAAGAG
    AACATGATCC CACCATCCTC TCCTGTGGTT TCGTCTGCAC CGCTTCATCA GTCTCCTGTC
    CTGGGAAACC ACAGTGCCCG GGCATCTCTT CGACTGGACC TCATTGGCCA CAATCGTGCC
    AGTTTGTCAC CTGTGTCACT GAAGAGCCGC CGAGGGAAGG TCGAACATCA CGATTCTCCA
    CGGCGCCAGG CTTTAGTGAC GCCCACCGAG ATGAGGTCAC TGGGGAAAGA GAGTCGCAAG
    CAAATCTCAA ACATTGAGCA GAGTTTGGCC CCTTCAGACA GGCTCTCTAC AGGGGCCGGG
    ATGTTTAGCA GGAGCCCCAT GGTCAGGCAA ACCAGTGATA CTGTGTTTGA AGACCTGCAG
    TCAGTGAGAT CTGACCAGAC GTCTGTGAGT TCTCCAATGA CCAACGCAGT ATCTCAGGAC
    AATCAAGATT CTGCAGATAA CAACAGCATT CCAGAGGAAA CGGGTCTTTC TGCGGAGGCG
    TTGAGTGTTC AGATGTGTAA GGAGATGGTG AATGAACTCT GGCACACCAT CCATAAAGCA
    ACTGACTTGT ACAGCAAGCT GTGCTCCATC CCTGAGTTAT CAGAGCAGCA GGAGCAGATG
    AAGGGCGTTT TGCAGGAGGT GTTTGTGGGG GTACAGAGCG AGTTAAATTC AATCTGCCCA
    CAAAAGACAC AACCATCGAC TAAGAGCACC CGTCCCATAT CAGAGGACTC TCCAGGTCGT
    CAGTTAAGGG ATGACCGAGC CGTGGCCCTT CTGGAGAAAT ACTCTGAAAT GCTCTTACTG
    CGAATGACTG AGAAAGGAGC GCAGGCTACG CTGGAGTAA

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

    RefSeq XP_005169753.1
    CDS290..4768
    Translation

    Target ORF information:

    RefSeq Version XM_005169696.3
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio WD repeat domain 62 (wdr62), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005169696.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGCGGATG GAGCGGTGAA TTTTGGAGCC AGTATGAACC AAAGTTGTTT GACCTCTCGA 
    GCAAAGAAAG CCAACAACAA CAGCACTTCA GTTCCAGCGA ACACGAGGAG AAAGACTCGA
    CAGAGCCACA GAAGAGACAT TCATAACCGG GTTGTCTTGG AGAAGGTGCT TGGCATCACT
    GCCTCCAGCA GCAGCGCTTT AACCTGTGAC CCCAACACCG GTTTAGTGGC TTATCCTGCA
    GGCTGTGTTA TAGTCATCCT GAGCCCAAAG AAAAACAAGC AGACGCACAT ATTTAATACA
    TCCAGGAAAA CCTTCAGCGC TTTGGCCTTC TCTCAGAATG GAAAATATTT GGTCACCGGT
    GAGAGTGGGC ACATGCCCTG TGTGCGGGTG TGGGATGTGG CAGAGCGGAC GCAGGTGGCA
    GAGGTCCAGT GTCATAAGTA TGGGGTGTCA TGTGTGGCAT TCTCCCCCAA CGGGAGCTAT
    ATAGTGTCTG TGGGATACCA ACACGACAGG ACTGTCAGCG TCTGGGAGTG GAAGAAGGGG
    ACTGTTATCG CGTCTAACAA GGTGTCCAGC CGTGTGCTTG GTGTATCTTT CTCAGAGGAC
    AACAGCTACT TTGTAACTGC AGGCAACAGA CATGTGAAGT TCTGGTACCT TGATGCCTCA
    AAGGAAAGAA GGGTGAACAG CACCGTGCCT CTGATCGGCC GCTCGGGTTT GCTGGGGGAG
    CATCAGAACA GTCAGTTCTG TGGTTTGGCT TGTGGCCGCG GGTCGATGGC CAGCAGCACC
    TACTGCATCA CACACACGGG TCTGCTGTGC CAATTCAACA GTAACAGACA GCTGGATTCC
    TGGGTTGATC TCAAGACTAC ATCAGCACAG TGTTTATCAG TGAGCGGGAC GTTTGTTTTT
    TGCGGTTGTG CCGATGGGAC AGTTCGTGTG TTCAGCCCAC AGGATCTCCG CTACATCACC
    ACTCTACACC GGCCACATTG TCTGGGAGTG GATGTGTCTC AGGGCACACA GCCAGGGCAT
    TTGTTCAGTG CAAATCCAGA AGCACAGTAT CCAGATACCT TGGCTTTAAC CTTTGACCCC
    GTGACCAAGC ACTTGACGTG CGTGTATAAT GACCACAGCG TGTACGTTTG GGATGTGCGG
    GACATCAGGA ACGTAGGAAA GGTCTATTCA GCCCTGTACC ACAGCGGATG TGTGTGGAGT
    GTGGAGACCT ATCCAGAGCT TGAAGATCCA TCGGCGGCCT GTTTGTCACC GGGGTCTTTC
    CTCACTTGCT CATCTGATAA CACCATCCGC TTGTGGAGAA GCGAGTCCCC ACAGAGTCAC
    AGCGCTGCAC TCGGCCTTCG ACACAACCTT TATAGCCAGG ACATTGTAAG GATAGTGTAT
    GTGGATGACG ACACGCAGTA CCTCAAAGCT GAAGCTGAGA AAGCAGAGGG AGGTGCTGGT
    CAGGATGGCA AATCTGGGAT CCGGGTGTTG GGAATCAGCC CAGATGGCCA GCATTTGGCT
    GCTGGAGACC GCAGTGGAAA CCTGAGAATC TTTGGCTTGC AGTTTATGGA CGAGTTACAG
    AAAATTGAAG CCCATGATTC AGAGGTCTTG TGTTTAGCCT TCTCCCCTGC TGAGACCGGT
    TTGCATCTGT TGGCTTCAGC GAGTCGAGAT CGACTGATTC ACATCTTTGA CATGGACAGC
    AAATGTAACC TCGTGCAGAC CGTCTATGAT CATTCGGCCT CAATCACTGC TGTCAAGTTT
    ACAGGCTTGA ATTCAGAGTT GTGTATGGTC AGCTGTGGCG CAGACAAGAG TGTTTATTTT
    CGATCTGCTG AGAAAACTTC AGATGGCTTA GTCTTCTCAC GATCACATCA CATAGTGGAG
    AAGACAACGC TGTATGACAT GGACCTGGAT GCCACACGCA CACACACAGC CATTGCGTGT
    CAGGACCGCA ACATCAGAGT TTACAATGTG AAGAGTGGAA AGATGAAGAA GTGTTTCAAG
    GGCTCTATGA ATGATGACGG GACACTGCTA AAGGTTCAGT TGGATCCCTC TGGGATGTTC
    TTGGCCACCA GTTGTTCAGA CAAAAATATC TGTGTCTTTG ATTATGAGTC AGGCGAATGT
    GTGGCCACCT TATTTGGACA TTCAGAAATA GTTACAGGTA TGAAGTTCAG CCAGGACTGC
    AGGCATCTCA TCACTGTGTC TGGTGACAGC TGTGTGTTTG TGTGGCGTCT GGACTCTCAG
    ATGACCAACT CCATGAGGAA GAGGTTGGCA GAGAGGAAGC AGCAAGCAGG CCTGAGGCTC
    CAGCGGGCTC CCACAAAACA AGAAGTCATC AGACGAGAGA CCTACATCAC CGTGCCCTGT
    AATGCACTGA CCCATATGGA GGAAGATGGC TTGATGGCTG AAGTAAACCC TGAAGACGGT
    TTGGAGGACT GCAGAACCCC TGATAGACTC GACTCTACAG ATGCATCTTT AGATTCTGTG
    GTGCTCCAAA CCAATGGCAA AATGCCAATG TGGGTCCGCA GACTGGGTGG AGAAGGTGAA
    AAGGATGGTA CCGGCGCCGC TAATAGAGTT CAGTACCAGC CCCAGGGACG CTGGGCAGTG
    CAGTCAGATC CACTCGCTAT CCGCACAGTG CTGGAAATGA AGAGCAATCA GCTTCCTCTC
    TCACACACTC CCAGCAGAGT CATGGGGGAG GAAGAGCTGG AGGAAGACCC TCGCTTCCAC
    CCGCAGAGCC TGGACAGCCT GCTGGATGAA GATCTTGAAG ATGGAGAAGA GGAGGAGGAG
    GAAAAGATAT GTGGTGTTTC CAGCGATGGC TTTAGCTCTT CACTCCACGG GCCAGAATTT
    CTGCAGTTTC CACATGGAGA GGAGAACTTC AATCCAGAGC TCAGCTCCTC AGAAAAGACC
    GGATATATTT TATATCCTGC TAACAGCACA GCTCTGTCCA CTGGTGAAGG GGAGTTTGAT
    GTTAAAGCTC TGTGTGAGGG CACTGCTGGT GATCCTGATG AAGAGGAGTT AAGTCCAGAT
    AGTGCTTGCT CTGCTGAAAG TCCAGAATCT CATAGTGACC AGCCGCATGA CCAGGACACA
    GATTCCCTCA GTCAGGTGAG CTCTACGGGA AGCTCAGGAG TTGAAGAGGA TGAAGAAGAA
    TCTGGAACTC TGCTTCGCCA GCATTTCGAC ACTCTGGGTG TGGCCACAAA TGAAAAGTTC
    AACACTGACT TAAGCAGTCT GCAGCCCACG ACAGAGAGCA ACTTCCTCAA TCCTCGTCTC
    AGCATCTCTA CACGCTTCCT CTCCCGCTTT CAGAGCCGTT TCCGTGCTGC TTGTCGGCCT
    GCAGCATGCC TGTCCAGTAT ACCTGATGAG TCCACTGACA GCCAAACCCT GGACCAAACC
    ATGGAAAAGC CCAAGCATCT TTCAAACAGT GGAAGCGTTG AGGAGAAAGA GAAGACTGAA
    ATCACAAACA AAAATCAGTC CACGACTCAA AGTACCACTA GTGCTCCAGG CGTTCTCAGC
    AACAAGTCTA CCAGCAACTC ATGTGACGCA TCTGTTACGC GCTCCCGCCA AAGCTACATG
    GGTCCCACCG CAAGCTCCCG TGCTAAAATA AACCAAAGCA ACTCCGTGGA GAGTCTCAAC
    CTCTGTATAT CGGAGGAAAC GCCACTAAAC GCCTTACCAA ATGTCGAGCA CAGCAAAGAG
    AACATGATCC CACCATCCTC TCCTGTGGTT TCGTCTGCAC CGCTTCATCA GTCTCCTGTC
    CTGGGAAACC ACAGTGCCCG GGCATCTCTT CGACTGGACC TCATTGGCCA CAATCGTGCC
    AGTTTGTCAC CTGTGTCACT GAAGAGCCGC CGAGGGAAGG TCGAACATCA CGATTCTCCA
    CGGCGCCAGG CTTTAGTGAC GCCCACCGAG ATGAGGTCAC TGGGGAAAGA GAGTCGCAAG
    CAAATCTCAA ACATTGAGCA GAGTTTGGCC CCTTCAGACA GGCTCTCTAC AGGGGCCGGG
    ATGTTTAGCA GGAGCCCCAT GGTCAGGCAA ACCAGTGATA CTGTGTTTGA AGACCTGCAG
    TCAGTGAGAT CTGACCAGAC GTCTGTGAGT TCTCCAATGA CCAACGCAGT ATCTCAGGAC
    AATCAAGATT CTGCAGATAA CAACAGCATT CCAGAGGAAA CGGGTCTTTC TGCGGAGGCG
    TTGAGTGTTC AGATGTGTAA GGAGATGGTG AATGAACTCT GGCACACCAT CCATAAAGCA
    ACTGACTTGT ACAGCAAGCT GTGCTCCATC CCTGAGTTAT CAGAGCAGCA GGAGCAGATG
    AAGGGCGTTT TGCAGGAGGT GTTTGTGGGG GTACAGAGCG AGTTAAATTC AATCTGCCCA
    CAAAAGACAC AACCATCGAC TAAGAGCACC CGTCCCATAT CAGAGGACTC TCCAGGTCGT
    CAGTTAAGGG ATGACCGAGC CGTGGCCCTT CTGGAGAAAT ACTCTGAAAT GCTCTTACTG
    CGAATGACTG AGAAAGGAGC GCAGGCTACG CTGGAGTAA

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