ORF » Species Summary » Xenopus tropicalis » wdr62 cDNA ORF clone

wdr62 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

  • Gene

  • Clones

  • gRNAs

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
OXa14615 XM_018096858.2
Latest version!		 Xenopus tropicalis WD repeat domain 62 (wdr62), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa35810 XM_018096859.2
Latest version!		 Xenopus tropicalis WD repeat domain 62 (wdr62), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
View Old Accession Versions >>
OXa14615 XM_018096858.1 Xenopus tropicalis WD repeat domain 62 (wdr62), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
OXa35810 XM_018096859.1 Xenopus tropicalis WD repeat domain 62 (wdr62), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
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)
    wdr62 ( XM_018096858.2 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_017952347.1 Xenopus tropicalis WD repeat domain 62 (wdr62), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OXa14615
    Clone ID Related Accession (Same CDS sequence) XM_018096858.2 , XM_018096858.1
    Accession Version XM_018096858.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4446bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030684.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_018096858.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGTCAGACT GCAGCGAGCA TGGCCGAAAC ATTCACGGAT TCCAACCGCA ACCTCCCTCA 
    CCTGGACGTC GAAAGTCATC CAGGGTCCAG TCGGGAAACG CAGGCAATGG CCGCGGACAT 
    AGACAGGTGG AACTGGAAAA AGTTTTGGGA ATTACAGTAT CCAGCAACAG CAGTATTACT 
    TGTGACCCTA TTTCTGGACT TATTGCCTAT CCTGCTGGAT GTGTCATTGT AGTTTTATGT 
    CCAAGGAAAA ACAAGCAAAC ACACATTTTC AACACATGCA GGAAACCTTT GAGTGCTTTG 
    TCATTTTCTC CTAATGGAAA GTTTATTGTT ACTGGTGAGA GTGGGCACAA TCCAGCTGTC 
    CGAATCTGGG ATGTGGCTGA AAAAGTCCTA GTATCTGAAA TGCTGGGCCA CAAATATGGA 
    GTGTCATGTG TATGCTTCTC TCCTGATATG AAATATGTTG TTTCTGTGGG CTATCAGCAT 
    GACATGGTTA TCAATGTGTG GGACTGGAAG GTGAACATGA TTGTTGCCAA AAACAAAGTT 
    TCTAGCAAAG TGTCTGCAGT GTCCTTTTCA GAAGACAGCA GTTATTTTGT TACTGTAGGA 
    AGCAGGCATG TTAAATTCTG GTACTTGGAG ACCTCAAAAA AAATCCAGGT TAATGGCACA 
    GTGCCTCTTG TTGGCAGGTC AGGATTATTA GGGGATCTTC ATGATAATAT TTTCTGTGGA 
    GTTGCTTGTG GGAAAGGCAG TAACTCTCGG AGCACCTTTT GCATTGCATA CTCTGGAGTC 
    CTTTGTCAGT TTACGGACAA GAGAGTGCTG GAAAAGTGGA TCAAGTTAAA GGTATCGGCA 
    TCATATTGTC TAGCTGTAAC AGAGCTCTTT GTCTTTTGTG GTTGTGAAGA TGGAATTGTT 
    CGAATATTTA ATGCTCAAAA CCTTCAGTAC ATCACAGATT TACCCAAGCC ACATTATTTG 
    GGGGTAGATG TCTCGCTGGG GACTGACCCA AGCACATTGT TTACAAAACA GACAGATTCA 
    AGTTACCCTG ATACTTCAGC TTTGGTGTAT GATGAAAGAA ACCAGTGGCT CTGCTGTGTA 
    TATAATGACC ACAGTCTTTA CGTCTGGGAT GTCAACGACA CAAGGAAAGT GGGAAAAGTG 
    TATTCTGGCC TTTATCACAG TTCGTTTGTG TGGAACATAG AGGTCTTTCC AGAGCTTGGA 
    GAGAGGCCAT GTCTTCCATC TGGATGTTTT TTTTCATGCT CATCTGACAA CACAATACGT 
    CTCTGGAACA TTGAAAGAAA TGCAAACCTG TATCTTGGGA AAAATATCTA CAGCAATGAC 
    TTACATAAGG TAATTTATGT TGACAATAAC ATAGAGCATC TAAAGGACAC TTCTAGCATG 
    GCAGAAAAAT CTGATGTTAG AGATACAAAA AGTGGGATAC GTGTACTCAA AATTCGTCCT 
    GATGGACAAC ATTTGGCCTC AGGTGACAGG ACAGGGAACA TTCGAATATA TGACTTGGGA 
    ATATTTGATG AGTTATTGAC AATAGAAGCA CATGATGGGG AGGTCTTATG CCTTGAATAT 
    TCAAAGCCTT CAACTGGTGT TACATTGCTT GCTTCAGCAA GTCGGGACAG ACTTATTCAT 
    GTTCTAAATG CAGAGAAGGA TTATATACTG GAGCAAACAC TGGATGATCA CTCGTCTTCC 
    ATAACAGCTG TCAAGTTTGC TGGGGACCAA GAGGAAATTC TTATGATAAG CTGTGGAGCA 
    GATAAAAGTA TATATTTCCG TCCAGCACAA ATGCTTCCAG ATGGGATTCA TTTTAGTAGG 
    CTGCATCACA CAGTGGAGAA AACCGCTATG TATGACATGG ATGTGGATGT GAGCCAGAAA 
    ACTGTAGCTG TTGCTTGTCA AGATAAAAAT ATCAGATTGT ACAGTATTTC AAGTGGTAAA 
    CAAGAGAAGA TTCTTAAAAG CTCTCCAAAT GGAGGGGCAT TACTAAAGGT GCAAATTGAT 
    CCCTCTGGAA CATTTTTTAC AACTAGTTGC TCCAGTAAGA ACATATCCTT CTTTGATTTG 
    CTATCTGGAG AATGTATAGC AGAGGTATAT GGCCATTCAG ATTTAGTGAC TGACATGAAG 
    TTTACAAATG ACTGCAAGAG ATTAATCACT GTGTCTGGAG ACAGTTGTGT GTTCATCTGG 
    AAACTGGATC CTGCCATGAC TGCCTGCATG AAGCAGCGTC TTATTGAATT GGGCATTTTT 
    GGGGAACAAA AGACTACATG TTATGACGAA TGCCTGCTTA ACAACCGGAG AGAGACCTAC 
    ATAACAAACT TGCTTGGGGA AAGTGTTCAA AATGAAATAT TTATGGACAG CAGTTACGAG 
    ACTGATGATT CCTCTACACA AACACCATCA AAGAAGACCA ATGAAGCTGA TCCAGCCTTT 
    TTAAAGACTA ATGGGAAAAT GCCCTTGTGG GTGCGAAAGC TGGATAAAGA CCAAGATCCT 
    CTGCTTAATC AAAATACAAT TAACGTATAT CAGCCTCGTG GGCGTTGGGC TCAAAGTGAT 
    AGCAACATTA TTATCATGAA GTCTTTAGAC ACAGAAGATA AAAGTTATTG TTTTAGCCCA 
    GATCAAGAGG AAACTGGACA TTTTTTTCTA CATGACAAAA CTGATTTTGT GTTTGCTGAG 
    CCACAGAACT TTCAGCATCT CTTGGAGTCG GAAGAAAGAA ATGTTCACTC ATTGGCCAAT 
    GAGACATGTG TGCAGGATTT GTCTGATGAA GATTCTGATG TTAAATCACA TTCTTTAGAC 
    TCAAATGGTG GCATTTTTTA CCCTTCATCT CTGCAGCTAT CTGGACAAGA AGAAAGTGAC 
    TATGCTATAG AAGAACATCA GATATTTTCT GACACATTTG ATATGAGTGA TGTCAGAACA 
    ATGCATGACT TCTTGCCCAG TTGCCACCAA GACAAAGATG AAGAATCATT AACATCAGAG 
    ACCTGTTCTG AAGCAGATTT GGATGAAAAT GAATTGCCAG GCACCTCTCA GCCTCATACA 
    CCAGAAGAAG AAAAGTTCCT TCTGAAACAT TTTGACACAT TGATTGATGA TTTCTCTGAA 
    GAAAGATTTG ACTACTCATT AAAAGACCTG AAACCGCCAG ATGACGACGA CCATGACTTC 
    ATTCAGAATC CACGTCTCAG TTTTTCTGCC AAATTTCTCT CTCGCTGCCA GAAGACCAGC 
    AGACCTGAAA ACTCAGACCT TCCACTTGAA CAGCAAGTGA AAACTCCTTC ACCTATATTG 
    GGGAATGATG AACAAATAAG TCATTCAAAG ACATTTTCTG AGAAGCCAAC AGAAGACAAG 
    TTACTGGATA CATTAGAAAA AAATAAAAAT GTGAATGCAA CAGATTTTTC AAAGCTATGT 
    CATTTGCAAA AGGTGCAAAT GAATGAGAAG GTAGCATCAC GTTCATCATT TCCTCCGTGT 
    GTTTCAAGCA AAAATGGAGC ATTCAACAAA CCTAAAAAAG GGCGGTCTTA CATGGATGCC 
    ACAGCTAGCT CTAAAGCAAA AATATTCCGC AGTGTTTCAA TGGGAGACAG TCTTAACACC 
    AGCCATTCTG AAGGCCAGAA AAAGCTCTCT AATCTATCTA GGCCTGCATC AAGTAACGAT 
    TTGCTGTCTT TGGAGCAAAA TAATTGCTAT AATGCAGAAG ATAATTTGTG TGACCCAGCG 
    CCCATTCTTA CAACAAACAA ACCTGCCACT TCAGGATATA TGAATGAACA CGTGCAGGAT 
    TCACCTGATA AACTCTTAAT GCCTCCGCCA TTATCCTGTG TGGTTATTCC TCGTCTAAAA 
    AGAAAAGCAC AGTCTGCCAG TAACTTGGCT AAACCACCGG GAAAAGAGGA TCAACATGAC 
    ATAGTCCGGA AGAACAAAAA TAAAGAATCC AGGAGAAGTG GGGTAGAGAA TAGTATTAAC 
    ACAAAAAACT CTTTCAGGAG ATCTTCATTA ACCACAAGCA AAACCGCTAA CATGGCAGAC 
    TCTTCAAGGA GAGCATCTGT AGCAGAAATC CCAACTTGCA AAAACGAATT TCAGGAAGTG 
    GAGGACCACA AAAATGAAAG CCATATGGTA GCAGTTGTTA CAAGCAATGA GATGGCTACA 
    TTATCAACCA TGCCTTTTGC CAGCAACCAT GACAGTCATG GTGCAAAAGT CCTGCTGGGT 
    AAATGTGAAG CTGTTATTGA AAACCTTTGC AGTGCATTTC AGAAGACGTT GGAACTTTAT 
    AGTGAGATTG ATATTTGTGG CGGCTCTCAT GAGGAGAAAC AACAGATGAA ATCTCTGTTT 
    TATGCATCCT TTAACCACAT TCGAAGTGAG ATGGATTTAA TTGAAACTGA TCAGAACACT 
    AACACAGCAA ATAACAAGAA TTCAAGAAGG AATGAACACC AAGAGCGTAA TCCTACGCTT 
    GACTTGCTGG AACATTATTC GGAGATGATG CTAAAAGTGA TGAAGGAGAA GATTGCCAGC 
    AATTAA

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

    RefSeq XP_017952347.1
    CDS185..4630
    Translation

    Target ORF information:

    RefSeq Version XM_018096858.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_018096858.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGTCAGACT GCAGCGAGCA TGGCCGAAAC ATTCACGGAT TCCAACCGCA ACCTCCCTCA 
    CCTGGACGTC GAAAGTCATC CAGGGTCCAG TCGGGAAACG CAGGCAATGG CCGCGGACAT 
    AGACAGGTGG AACTGGAAAA AGTTTTGGGA ATTACAGTAT CCAGCAACAG CAGTATTACT 
    TGTGACCCTA TTTCTGGACT TATTGCCTAT CCTGCTGGAT GTGTCATTGT AGTTTTATGT 
    CCAAGGAAAA ACAAGCAAAC ACACATTTTC AACACATGCA GGAAACCTTT GAGTGCTTTG 
    TCATTTTCTC CTAATGGAAA GTTTATTGTT ACTGGTGAGA GTGGGCACAA TCCAGCTGTC 
    CGAATCTGGG ATGTGGCTGA AAAAGTCCTA GTATCTGAAA TGCTGGGCCA CAAATATGGA 
    GTGTCATGTG TATGCTTCTC TCCTGATATG AAATATGTTG TTTCTGTGGG CTATCAGCAT 
    GACATGGTTA TCAATGTGTG GGACTGGAAG GTGAACATGA TTGTTGCCAA AAACAAAGTT 
    TCTAGCAAAG TGTCTGCAGT GTCCTTTTCA GAAGACAGCA GTTATTTTGT TACTGTAGGA 
    AGCAGGCATG TTAAATTCTG GTACTTGGAG ACCTCAAAAA AAATCCAGGT TAATGGCACA 
    GTGCCTCTTG TTGGCAGGTC AGGATTATTA GGGGATCTTC ATGATAATAT TTTCTGTGGA 
    GTTGCTTGTG GGAAAGGCAG TAACTCTCGG AGCACCTTTT GCATTGCATA CTCTGGAGTC 
    CTTTGTCAGT TTACGGACAA GAGAGTGCTG GAAAAGTGGA TCAAGTTAAA GGTATCGGCA 
    TCATATTGTC TAGCTGTAAC AGAGCTCTTT GTCTTTTGTG GTTGTGAAGA TGGAATTGTT 
    CGAATATTTA ATGCTCAAAA CCTTCAGTAC ATCACAGATT TACCCAAGCC ACATTATTTG 
    GGGGTAGATG TCTCGCTGGG GACTGACCCA AGCACATTGT TTACAAAACA GACAGATTCA 
    AGTTACCCTG ATACTTCAGC TTTGGTGTAT GATGAAAGAA ACCAGTGGCT CTGCTGTGTA 
    TATAATGACC ACAGTCTTTA CGTCTGGGAT GTCAACGACA CAAGGAAAGT GGGAAAAGTG 
    TATTCTGGCC TTTATCACAG TTCGTTTGTG TGGAACATAG AGGTCTTTCC AGAGCTTGGA 
    GAGAGGCCAT GTCTTCCATC TGGATGTTTT TTTTCATGCT CATCTGACAA CACAATACGT 
    CTCTGGAACA TTGAAAGAAA TGCAAACCTG TATCTTGGGA AAAATATCTA CAGCAATGAC 
    TTACATAAGG TAATTTATGT TGACAATAAC ATAGAGCATC TAAAGGACAC TTCTAGCATG 
    GCAGAAAAAT CTGATGTTAG AGATACAAAA AGTGGGATAC GTGTACTCAA AATTCGTCCT 
    GATGGACAAC ATTTGGCCTC AGGTGACAGG ACAGGGAACA TTCGAATATA TGACTTGGGA 
    ATATTTGATG AGTTATTGAC AATAGAAGCA CATGATGGGG AGGTCTTATG CCTTGAATAT 
    TCAAAGCCTT CAACTGGTGT TACATTGCTT GCTTCAGCAA GTCGGGACAG ACTTATTCAT 
    GTTCTAAATG CAGAGAAGGA TTATATACTG GAGCAAACAC TGGATGATCA CTCGTCTTCC 
    ATAACAGCTG TCAAGTTTGC TGGGGACCAA GAGGAAATTC TTATGATAAG CTGTGGAGCA 
    GATAAAAGTA TATATTTCCG TCCAGCACAA ATGCTTCCAG ATGGGATTCA TTTTAGTAGG 
    CTGCATCACA CAGTGGAGAA AACCGCTATG TATGACATGG ATGTGGATGT GAGCCAGAAA 
    ACTGTAGCTG TTGCTTGTCA AGATAAAAAT ATCAGATTGT ACAGTATTTC AAGTGGTAAA 
    CAAGAGAAGA TTCTTAAAAG CTCTCCAAAT GGAGGGGCAT TACTAAAGGT GCAAATTGAT 
    CCCTCTGGAA CATTTTTTAC AACTAGTTGC TCCAGTAAGA ACATATCCTT CTTTGATTTG 
    CTATCTGGAG AATGTATAGC AGAGGTATAT GGCCATTCAG ATTTAGTGAC TGACATGAAG 
    TTTACAAATG ACTGCAAGAG ATTAATCACT GTGTCTGGAG ACAGTTGTGT GTTCATCTGG 
    AAACTGGATC CTGCCATGAC TGCCTGCATG AAGCAGCGTC TTATTGAATT GGGCATTTTT 
    GGGGAACAAA AGACTACATG TTATGACGAA TGCCTGCTTA ACAACCGGAG AGAGACCTAC 
    ATAACAAACT TGCTTGGGGA AAGTGTTCAA AATGAAATAT TTATGGACAG CAGTTACGAG 
    ACTGATGATT CCTCTACACA AACACCATCA AAGAAGACCA ATGAAGCTGA TCCAGCCTTT 
    TTAAAGACTA ATGGGAAAAT GCCCTTGTGG GTGCGAAAGC TGGATAAAGA CCAAGATCCT 
    CTGCTTAATC AAAATACAAT TAACGTATAT CAGCCTCGTG GGCGTTGGGC TCAAAGTGAT 
    AGCAACATTA TTATCATGAA GTCTTTAGAC ACAGAAGATA AAAGTTATTG TTTTAGCCCA 
    GATCAAGAGG AAACTGGACA TTTTTTTCTA CATGACAAAA CTGATTTTGT GTTTGCTGAG 
    CCACAGAACT TTCAGCATCT CTTGGAGTCG GAAGAAAGAA ATGTTCACTC ATTGGCCAAT 
    GAGACATGTG TGCAGGATTT GTCTGATGAA GATTCTGATG TTAAATCACA TTCTTTAGAC 
    TCAAATGGTG GCATTTTTTA CCCTTCATCT CTGCAGCTAT CTGGACAAGA AGAAAGTGAC 
    TATGCTATAG AAGAACATCA GATATTTTCT GACACATTTG ATATGAGTGA TGTCAGAACA 
    ATGCATGACT TCTTGCCCAG TTGCCACCAA GACAAAGATG AAGAATCATT AACATCAGAG 
    ACCTGTTCTG AAGCAGATTT GGATGAAAAT GAATTGCCAG GCACCTCTCA GCCTCATACA 
    CCAGAAGAAG AAAAGTTCCT TCTGAAACAT TTTGACACAT TGATTGATGA TTTCTCTGAA 
    GAAAGATTTG ACTACTCATT AAAAGACCTG AAACCGCCAG ATGACGACGA CCATGACTTC 
    ATTCAGAATC CACGTCTCAG TTTTTCTGCC AAATTTCTCT CTCGCTGCCA GAAGACCAGC 
    AGACCTGAAA ACTCAGACCT TCCACTTGAA CAGCAAGTGA AAACTCCTTC ACCTATATTG 
    GGGAATGATG AACAAATAAG TCATTCAAAG ACATTTTCTG AGAAGCCAAC AGAAGACAAG 
    TTACTGGATA CATTAGAAAA AAATAAAAAT GTGAATGCAA CAGATTTTTC AAAGCTATGT 
    CATTTGCAAA AGGTGCAAAT GAATGAGAAG GTAGCATCAC GTTCATCATT TCCTCCGTGT 
    GTTTCAAGCA AAAATGGAGC ATTCAACAAA CCTAAAAAAG GGCGGTCTTA CATGGATGCC 
    ACAGCTAGCT CTAAAGCAAA AATATTCCGC AGTGTTTCAA TGGGAGACAG TCTTAACACC 
    AGCCATTCTG AAGGCCAGAA AAAGCTCTCT AATCTATCTA GGCCTGCATC AAGTAACGAT 
    TTGCTGTCTT TGGAGCAAAA TAATTGCTAT AATGCAGAAG ATAATTTGTG TGACCCAGCG 
    CCCATTCTTA CAACAAACAA ACCTGCCACT TCAGGATATA TGAATGAACA CGTGCAGGAT 
    TCACCTGATA AACTCTTAAT GCCTCCGCCA TTATCCTGTG TGGTTATTCC TCGTCTAAAA 
    AGAAAAGCAC AGTCTGCCAG TAACTTGGCT AAACCACCGG GAAAAGAGGA TCAACATGAC 
    ATAGTCCGGA AGAACAAAAA TAAAGAATCC AGGAGAAGTG GGGTAGAGAA TAGTATTAAC 
    ACAAAAAACT CTTTCAGGAG ATCTTCATTA ACCACAAGCA AAACCGCTAA CATGGCAGAC 
    TCTTCAAGGA GAGCATCTGT AGCAGAAATC CCAACTTGCA AAAACGAATT TCAGGAAGTG 
    GAGGACCACA AAAATGAAAG CCATATGGTA GCAGTTGTTA CAAGCAATGA GATGGCTACA 
    TTATCAACCA TGCCTTTTGC CAGCAACCAT GACAGTCATG GTGCAAAAGT CCTGCTGGGT 
    AAATGTGAAG CTGTTATTGA AAACCTTTGC AGTGCATTTC AGAAGACGTT GGAACTTTAT 
    AGTGAGATTG ATATTTGTGG CGGCTCTCAT GAGGAGAAAC AACAGATGAA ATCTCTGTTT 
    TATGCATCCT TTAACCACAT TCGAAGTGAG ATGGATTTAA TTGAAACTGA TCAGAACACT 
    AACACAGCAA ATAACAAGAA TTCAAGAAGG AATGAACACC AAGAGCGTAA TCCTACGCTT 
    GACTTGCTGG AACATTATTC GGAGATGATG CTAAAAGTGA TGAAGGAGAA GATTGCCAGC 
    AATTAA

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

    wdr62 ( XM_018096859.2 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_017952348.1 Xenopus tropicalis WD repeat domain 62 (wdr62), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OXa35810
    Clone ID Related Accession (Same CDS sequence) XM_018096859.2 , XM_018096859.1
    Accession Version XM_018096859.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4443bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030684.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_018096859.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGTCAGACT GCAGCGAGCA TGGCCGAAAC ATTCACGGAT TCCAACCGCA ACCTCCCTCA 
    CCTGGACGTC GAAAGTCATC CAGGGTCCAG TCGGGAAACG CAGGCAATGG CCGCGGACAT 
    AGACAGGTGG AACTGGAAAA AGTTTTGGGA ATTACAGTAT CCAGCAACAG CAGTATTACT 
    TGTGACCCTA TTTCTGGACT TATTGCCTAT CCTGCTGGAT GTGTCATTGT AGTTTTATGT 
    CCAAGGAAAA ACAAGCAAAC ACACATTTTC AACACATGCA GGAAACCTTT GAGTGCTTTG 
    TCATTTTCTC CTAATGGAAA GTTTATTGTT ACTGGTGAGA GTGGGCACAA TCCAGCTGTC 
    CGAATCTGGG ATGTGGCTGA AAAAGTCCTA GTATCTGAAA TGCTGGGCCA CAAATATGGA 
    GTGTCATGTG TATGCTTCTC TCCTGATATG AAATATGTTG TTTCTGTGGG CTATCAGCAT 
    GACATGGTTA TCAATGTGTG GGACTGGAAG GTGAACATGA TTGTTGCCAA AAACAAAGTT 
    TCTAGCAAAG TGTCTGCAGT GTCCTTTTCA GAAGACAGCA GTTATTTTGT TACTGTAGGA 
    AGCAGGCATG TTAAATTCTG GTACTTGGAG ACCTCAAAAA AAATCCAGGT TAATGGCACA 
    GTGCCTCTTG TTGGCAGGTC AGGATTATTA GGGGATCTTC ATGATAATAT TTTCTGTGGA 
    GTTGCTTGTG GGAAAGGCAG TAACTCTCGG AGCACCTTTT GCATTGCATA CTCTGGAGTC 
    CTTTGTCAGT TTACGGACAA GAGAGTGCTG GAAAAGTGGA TCAAGTTAAA GGTATCGGCA 
    TCATATTGTC TAGCTGTAAC AGAGCTCTTT GTCTTTTGTG GTTGTGAAGA TGGAATTGTT 
    CGAATATTTA ATGCTCAAAA CCTTCAGTAC ATCACAGATT TACCCAAGCC ACATTATTTG 
    GGGGTAGATG TCTCGCTGGG GACTGACCCA AGCACATTGT TTACAAAACA GACAGATTCA 
    AGTTACCCTG ATACTTCAGC TTTGGTGTAT GATGAAAGAA ACCAGTGGCT CTGCTGTGTA 
    TATAATGACC ACAGTCTTTA CGTCTGGGAT GTCAACGACA CAAGGAAAGT GGGAAAAGTG 
    TATTCTGGCC TTTATCACAG TTCGTTTGTG TGGAACATAG AGGTCTTTCC AGAGCTTGGA 
    GAGAGGCCAT GTCTTCCATC TGGATGTTTT TTTTCATGCT CATCTGACAA CACAATACGT 
    CTCTGGAACA TTGAAAGAAA TGCAAACCTG TATCTTGGGA AAAATATCTA CAGCAATGAC 
    TTACATAAGG TAATTTATGT TGACAATAAC ATAGAGCATC TAAAGGACAC TTCTAGCATG 
    GCAGAAAAAT CTGATGTTAG AGATACAAAA AGTGGGATAC GTGTACTCAA AATTCGTCCT 
    GATGGACAAC ATTTGGCCTC AGGTGACAGG ACAGGGAACA TTCGAATATA TGACTTGGGA 
    ATATTTGATG AGTTATTGAC AATAGAAGCA CATGATGGGG AGGTCTTATG CCTTGAATAT 
    TCAAAGCCTT CAACTGGTGT TACATTGCTT GCTTCAGCAA GTCGGGACAG ACTTATTCAT 
    GTTCTAAATG CAGAGAAGGA TTATATACTG GAGCAAACAC TGGATGATCA CTCGTCTTCC 
    ATAACAGCTG TCAAGTTTGC TGGGGACCAA GAGGAAATTC TTATGATAAG CTGTGGAGCA 
    GATAAAAGTA TATATTTCCG TCCAGCACAA ATGCTTCCAG ATGGGATTCA TTTTAGTAGG 
    CTGCATCACA CAGTGGAGAA AACCGCTATG TATGACATGG ATGTGGATGT GAGCCAGAAA 
    ACTGTAGCTG TTGCTTGTCA AGATAAAAAT ATCAGATTGT ACAGTATTTC AAGTGGTAAA 
    CAAGAGAAGA TTCTTAAAAG CTCTCCAAAT GGAGGGGCAT TACTAAAGGT GCAAATTGAT 
    CCCTCTGGAA CATTTTTTAC AACTAGTTGC TCCAGTAAGA ACATATCCTT CTTTGATTTG 
    CTATCTGGAG AATGTATAGC AGAGGTATAT GGCCATTCAG ATTTAGTGAC TGACATGAAG 
    TTTACAAATG ACTGCAAGAG ATTAATCACT GTGTCTGGAG ACAGTTGTGT GTTCATCTGG 
    AAACTGGATC CTGCCATGAC TGCCTGCATG AAGCAGCGTC TTATTGAATT GGGCATTTTT 
    GGGGAACAAA AGACTACATG TTATGACGAA TGCCTGCTTA ACAACCGGAG AGAGACCTAC 
    ATAACAAACT TGCTTGGGGA AAGTGTTCAA AATGAAATAT TTATGGACAG CAGTTACGAG 
    ACTGATGATT CCTCTACACA AACACCATCA AAGAAGACCA ATGAAGCTGA TCCAGCCTTT 
    TTAAAGACTA ATGGGAAAAT GCCCTTGTGG GTGCGAAAGC TGGATAAAGA CCAAGATCCT 
    CTGCTTAATC AAAATACAAT TAACGTATAT CAGCCTCGTG GGCGTTGGGC TCAAAGTGAT 
    AGCAACATTA TTATCATGAA GTCTTTAGAC ACAGAAGATA AAAGTTATTG TTTTAGCCCA 
    GATCAAGAGG AAACTGGACA TTTTTTTCTA CATGACAAAA CTGATTTTGT GTTTGCTGAG 
    CCACAGAACT TTCAGCATCT CTTGGAGTCG GAAGAAAGAA ATGTTCACTC ATTGGCCAAT 
    GAGACATGTG TGCAGGATTT GTCTGATGAA GATTCTGATG TTAAATCACA TTCTTTAGAC 
    TCAAATGGTG GCATTTTTTA CCCTTCATCT CTGCAGCTAT CTGGACAAGA AGAAAGTGAC 
    TATGCTATAG AAGAACATCA GATATTTTCT GACACATTTG ATATGAGTGA TGTCAGAACA 
    ATGCATGACT TCTTGCCCAG TTGCCACCAA GACAAAGATG AAGAATCATT AACATCAGAG 
    ACCTGTTCTG AAGCAGATTT GGATGAAAAT GAATTGCCAG GCACCTCTCA GCCTCATACA 
    CCAGAAGAAG AAAAGTTCCT TCTGAAACAT TTTGACACAT TGATTGATGA TTTCTCTGAA 
    GAAAGATTTG ACTACTCATT AAAAGACCTG AAACCGCCAG ATGACGACGA CCATGACTTC 
    ATTCAGAATC CACGTCTCAG TTTTTCTGCC AAATTTCTCT CTCGCTGCCA GAAGACCAGC 
    AGACCTGAAA ACTCAGACCT TCCACTTGAA CAGCAAGTGA AAACTCCTTC ACCTATATTG 
    GGGAATGATG AACAAATAAG TCATTCAAAG ACATTTTCTG AGCCAACAGA AGACAAGTTA 
    CTGGATACAT TAGAAAAAAA TAAAAATGTG AATGCAACAG ATTTTTCAAA GCTATGTCAT 
    TTGCAAAAGG TGCAAATGAA TGAGAAGGTA GCATCACGTT CATCATTTCC TCCGTGTGTT 
    TCAAGCAAAA ATGGAGCATT CAACAAACCT AAAAAAGGGC GGTCTTACAT GGATGCCACA 
    GCTAGCTCTA AAGCAAAAAT ATTCCGCAGT GTTTCAATGG GAGACAGTCT TAACACCAGC 
    CATTCTGAAG GCCAGAAAAA GCTCTCTAAT CTATCTAGGC CTGCATCAAG TAACGATTTG 
    CTGTCTTTGG AGCAAAATAA TTGCTATAAT GCAGAAGATA ATTTGTGTGA CCCAGCGCCC 
    ATTCTTACAA CAAACAAACC TGCCACTTCA GGATATATGA ATGAACACGT GCAGGATTCA 
    CCTGATAAAC TCTTAATGCC TCCGCCATTA TCCTGTGTGG TTATTCCTCG TCTAAAAAGA 
    AAAGCACAGT CTGCCAGTAA CTTGGCTAAA CCACCGGGAA AAGAGGATCA ACATGACATA 
    GTCCGGAAGA ACAAAAATAA AGAATCCAGG AGAAGTGGGG TAGAGAATAG TATTAACACA 
    AAAAACTCTT TCAGGAGATC TTCATTAACC ACAAGCAAAA CCGCTAACAT GGCAGACTCT 
    TCAAGGAGAG CATCTGTAGC AGAAATCCCA ACTTGCAAAA ACGAATTTCA GGAAGTGGAG 
    GACCACAAAA ATGAAAGCCA TATGGTAGCA GTTGTTACAA GCAATGAGAT GGCTACATTA 
    TCAACCATGC CTTTTGCCAG CAACCATGAC AGTCATGGTG CAAAAGTCCT GCTGGGTAAA 
    TGTGAAGCTG TTATTGAAAA CCTTTGCAGT GCATTTCAGA AGACGTTGGA ACTTTATAGT 
    GAGATTGATA TTTGTGGCGG CTCTCATGAG GAGAAACAAC AGATGAAATC TCTGTTTTAT 
    GCATCCTTTA ACCACATTCG AAGTGAGATG GATTTAATTG AAACTGATCA GAACACTAAC 
    ACAGCAAATA ACAAGAATTC AAGAAGGAAT GAACACCAAG AGCGTAATCC TACGCTTGAC 
    TTGCTGGAAC ATTATTCGGA GATGATGCTA AAAGTGATGA AGGAGAAGAT TGCCAGCAAT 
    TAA

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

    RefSeq XP_017952348.1
    CDS186..4628
    Translation

    Target ORF information:

    RefSeq Version XM_018096859.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_018096859.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGTCAGACT GCAGCGAGCA TGGCCGAAAC ATTCACGGAT TCCAACCGCA ACCTCCCTCA 
    CCTGGACGTC GAAAGTCATC CAGGGTCCAG TCGGGAAACG CAGGCAATGG CCGCGGACAT 
    AGACAGGTGG AACTGGAAAA AGTTTTGGGA ATTACAGTAT CCAGCAACAG CAGTATTACT 
    TGTGACCCTA TTTCTGGACT TATTGCCTAT CCTGCTGGAT GTGTCATTGT AGTTTTATGT 
    CCAAGGAAAA ACAAGCAAAC ACACATTTTC AACACATGCA GGAAACCTTT GAGTGCTTTG 
    TCATTTTCTC CTAATGGAAA GTTTATTGTT ACTGGTGAGA GTGGGCACAA TCCAGCTGTC 
    CGAATCTGGG ATGTGGCTGA AAAAGTCCTA GTATCTGAAA TGCTGGGCCA CAAATATGGA 
    GTGTCATGTG TATGCTTCTC TCCTGATATG AAATATGTTG TTTCTGTGGG CTATCAGCAT 
    GACATGGTTA TCAATGTGTG GGACTGGAAG GTGAACATGA TTGTTGCCAA AAACAAAGTT 
    TCTAGCAAAG TGTCTGCAGT GTCCTTTTCA GAAGACAGCA GTTATTTTGT TACTGTAGGA 
    AGCAGGCATG TTAAATTCTG GTACTTGGAG ACCTCAAAAA AAATCCAGGT TAATGGCACA 
    GTGCCTCTTG TTGGCAGGTC AGGATTATTA GGGGATCTTC ATGATAATAT TTTCTGTGGA 
    GTTGCTTGTG GGAAAGGCAG TAACTCTCGG AGCACCTTTT GCATTGCATA CTCTGGAGTC 
    CTTTGTCAGT TTACGGACAA GAGAGTGCTG GAAAAGTGGA TCAAGTTAAA GGTATCGGCA 
    TCATATTGTC TAGCTGTAAC AGAGCTCTTT GTCTTTTGTG GTTGTGAAGA TGGAATTGTT 
    CGAATATTTA ATGCTCAAAA CCTTCAGTAC ATCACAGATT TACCCAAGCC ACATTATTTG 
    GGGGTAGATG TCTCGCTGGG GACTGACCCA AGCACATTGT TTACAAAACA GACAGATTCA 
    AGTTACCCTG ATACTTCAGC TTTGGTGTAT GATGAAAGAA ACCAGTGGCT CTGCTGTGTA 
    TATAATGACC ACAGTCTTTA CGTCTGGGAT GTCAACGACA CAAGGAAAGT GGGAAAAGTG 
    TATTCTGGCC TTTATCACAG TTCGTTTGTG TGGAACATAG AGGTCTTTCC AGAGCTTGGA 
    GAGAGGCCAT GTCTTCCATC TGGATGTTTT TTTTCATGCT CATCTGACAA CACAATACGT 
    CTCTGGAACA TTGAAAGAAA TGCAAACCTG TATCTTGGGA AAAATATCTA CAGCAATGAC 
    TTACATAAGG TAATTTATGT TGACAATAAC ATAGAGCATC TAAAGGACAC TTCTAGCATG 
    GCAGAAAAAT CTGATGTTAG AGATACAAAA AGTGGGATAC GTGTACTCAA AATTCGTCCT 
    GATGGACAAC ATTTGGCCTC AGGTGACAGG ACAGGGAACA TTCGAATATA TGACTTGGGA 
    ATATTTGATG AGTTATTGAC AATAGAAGCA CATGATGGGG AGGTCTTATG CCTTGAATAT 
    TCAAAGCCTT CAACTGGTGT TACATTGCTT GCTTCAGCAA GTCGGGACAG ACTTATTCAT 
    GTTCTAAATG CAGAGAAGGA TTATATACTG GAGCAAACAC TGGATGATCA CTCGTCTTCC 
    ATAACAGCTG TCAAGTTTGC TGGGGACCAA GAGGAAATTC TTATGATAAG CTGTGGAGCA 
    GATAAAAGTA TATATTTCCG TCCAGCACAA ATGCTTCCAG ATGGGATTCA TTTTAGTAGG 
    CTGCATCACA CAGTGGAGAA AACCGCTATG TATGACATGG ATGTGGATGT GAGCCAGAAA 
    ACTGTAGCTG TTGCTTGTCA AGATAAAAAT ATCAGATTGT ACAGTATTTC AAGTGGTAAA 
    CAAGAGAAGA TTCTTAAAAG CTCTCCAAAT GGAGGGGCAT TACTAAAGGT GCAAATTGAT 
    CCCTCTGGAA CATTTTTTAC AACTAGTTGC TCCAGTAAGA ACATATCCTT CTTTGATTTG 
    CTATCTGGAG AATGTATAGC AGAGGTATAT GGCCATTCAG ATTTAGTGAC TGACATGAAG 
    TTTACAAATG ACTGCAAGAG ATTAATCACT GTGTCTGGAG ACAGTTGTGT GTTCATCTGG 
    AAACTGGATC CTGCCATGAC TGCCTGCATG AAGCAGCGTC TTATTGAATT GGGCATTTTT 
    GGGGAACAAA AGACTACATG TTATGACGAA TGCCTGCTTA ACAACCGGAG AGAGACCTAC 
    ATAACAAACT TGCTTGGGGA AAGTGTTCAA AATGAAATAT TTATGGACAG CAGTTACGAG 
    ACTGATGATT CCTCTACACA AACACCATCA AAGAAGACCA ATGAAGCTGA TCCAGCCTTT 
    TTAAAGACTA ATGGGAAAAT GCCCTTGTGG GTGCGAAAGC TGGATAAAGA CCAAGATCCT 
    CTGCTTAATC AAAATACAAT TAACGTATAT CAGCCTCGTG GGCGTTGGGC TCAAAGTGAT 
    AGCAACATTA TTATCATGAA GTCTTTAGAC ACAGAAGATA AAAGTTATTG TTTTAGCCCA 
    GATCAAGAGG AAACTGGACA TTTTTTTCTA CATGACAAAA CTGATTTTGT GTTTGCTGAG 
    CCACAGAACT TTCAGCATCT CTTGGAGTCG GAAGAAAGAA ATGTTCACTC ATTGGCCAAT 
    GAGACATGTG TGCAGGATTT GTCTGATGAA GATTCTGATG TTAAATCACA TTCTTTAGAC 
    TCAAATGGTG GCATTTTTTA CCCTTCATCT CTGCAGCTAT CTGGACAAGA AGAAAGTGAC 
    TATGCTATAG AAGAACATCA GATATTTTCT GACACATTTG ATATGAGTGA TGTCAGAACA 
    ATGCATGACT TCTTGCCCAG TTGCCACCAA GACAAAGATG AAGAATCATT AACATCAGAG 
    ACCTGTTCTG AAGCAGATTT GGATGAAAAT GAATTGCCAG GCACCTCTCA GCCTCATACA 
    CCAGAAGAAG AAAAGTTCCT TCTGAAACAT TTTGACACAT TGATTGATGA TTTCTCTGAA 
    GAAAGATTTG ACTACTCATT AAAAGACCTG AAACCGCCAG ATGACGACGA CCATGACTTC 
    ATTCAGAATC CACGTCTCAG TTTTTCTGCC AAATTTCTCT CTCGCTGCCA GAAGACCAGC 
    AGACCTGAAA ACTCAGACCT TCCACTTGAA CAGCAAGTGA AAACTCCTTC ACCTATATTG 
    GGGAATGATG AACAAATAAG TCATTCAAAG ACATTTTCTG AGCCAACAGA AGACAAGTTA 
    CTGGATACAT TAGAAAAAAA TAAAAATGTG AATGCAACAG ATTTTTCAAA GCTATGTCAT 
    TTGCAAAAGG TGCAAATGAA TGAGAAGGTA GCATCACGTT CATCATTTCC TCCGTGTGTT 
    TCAAGCAAAA ATGGAGCATT CAACAAACCT AAAAAAGGGC GGTCTTACAT GGATGCCACA 
    GCTAGCTCTA AAGCAAAAAT ATTCCGCAGT GTTTCAATGG GAGACAGTCT TAACACCAGC 
    CATTCTGAAG GCCAGAAAAA GCTCTCTAAT CTATCTAGGC CTGCATCAAG TAACGATTTG 
    CTGTCTTTGG AGCAAAATAA TTGCTATAAT GCAGAAGATA ATTTGTGTGA CCCAGCGCCC 
    ATTCTTACAA CAAACAAACC TGCCACTTCA GGATATATGA ATGAACACGT GCAGGATTCA 
    CCTGATAAAC TCTTAATGCC TCCGCCATTA TCCTGTGTGG TTATTCCTCG TCTAAAAAGA 
    AAAGCACAGT CTGCCAGTAA CTTGGCTAAA CCACCGGGAA AAGAGGATCA ACATGACATA 
    GTCCGGAAGA ACAAAAATAA AGAATCCAGG AGAAGTGGGG TAGAGAATAG TATTAACACA 
    AAAAACTCTT TCAGGAGATC TTCATTAACC ACAAGCAAAA CCGCTAACAT GGCAGACTCT 
    TCAAGGAGAG CATCTGTAGC AGAAATCCCA ACTTGCAAAA ACGAATTTCA GGAAGTGGAG 
    GACCACAAAA ATGAAAGCCA TATGGTAGCA GTTGTTACAA GCAATGAGAT GGCTACATTA 
    TCAACCATGC CTTTTGCCAG CAACCATGAC AGTCATGGTG CAAAAGTCCT GCTGGGTAAA 
    TGTGAAGCTG TTATTGAAAA CCTTTGCAGT GCATTTCAGA AGACGTTGGA ACTTTATAGT 
    GAGATTGATA TTTGTGGCGG CTCTCATGAG GAGAAACAAC AGATGAAATC TCTGTTTTAT 
    GCATCCTTTA ACCACATTCG AAGTGAGATG GATTTAATTG AAACTGATCA GAACACTAAC 
    ACAGCAAATA ACAAGAATTC AAGAAGGAAT GAACACCAAG AGCGTAATCC TACGCTTGAC 
    TTGCTGGAAC ATTATTCGGA GATGATGCTA AAAGTGATGA AGGAGAAGAT TGCCAGCAAT 
    TAA

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

    wdr62 ( XM_018096858.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_017952347.1 Xenopus tropicalis WD repeat domain 62 (wdr62), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OXa14615
    Clone ID Related Accession (Same CDS sequence) XM_018096858.2 , XM_018096858.1
    Accession Version XM_018096858.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4446bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030684.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 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
    ATGTCAGACT GCAGCGAGCA TGGCCGAAAC ATTCACGGAT TCCAACCGCA ACCTCCCTCA 
    CCTGGACGTC GAAAGTCATC CAGGGTCCAG TCGGGAAACG CAGGCAATGG CCGCGGACAT 
    AGACAGGTGG AACTGGAAAA AGTTTTGGGA ATTACAGTAT CCAGCAACAG CAGTATTACT 
    TGTGACCCTA TTTCTGGACT TATTGCCTAT CCTGCTGGAT GTGTCATTGT AGTTTTATGT 
    CCAAGGAAAA ACAAGCAAAC ACACATTTTC AACACATGCA GGAAACCTTT GAGTGCTTTG 
    TCATTTTCTC CTAATGGAAA GTTTATTGTT ACTGGTGAGA GTGGGCACAA TCCAGCTGTC 
    CGAATCTGGG ATGTGGCTGA AAAAGTCCTA GTATCTGAAA TGCTGGGCCA CAAATATGGA 
    GTGTCATGTG TATGCTTCTC TCCTGATATG AAATATGTTG TTTCTGTGGG CTATCAGCAT 
    GACATGGTTA TCAATGTGTG GGACTGGAAG GTGAACATGA TTGTTGCCAA AAACAAAGTT 
    TCTAGCAAAG TGTCTGCAGT GTCCTTTTCA GAAGACAGCA GTTATTTTGT TACTGTAGGA 
    AGCAGGCATG TTAAATTCTG GTACTTGGAG ACCTCAAAAA AAATCCAGGT TAATGGCACA 
    GTGCCTCTTG TTGGCAGGTC AGGATTATTA GGGGATCTTC ATGATAATAT TTTCTGTGGA 
    GTTGCTTGTG GGAAAGGCAG TAACTCTCGG AGCACCTTTT GCATTGCATA CTCTGGAGTC 
    CTTTGTCAGT TTACGGACAA GAGAGTGCTG GAAAAGTGGA TCAAGTTAAA GGTATCGGCA 
    TCATATTGTC TAGCTGTAAC AGAGCTCTTT GTCTTTTGTG GTTGTGAAGA TGGAATTGTT 
    CGAATATTTA ATGCTCAAAA CCTTCAGTAC ATCACAGATT TACCCAAGCC ACATTATTTG 
    GGGGTAGATG TCTCGCTGGG GACTGACCCA AGCACATTGT TTACAAAACA GACAGATTCA 
    AGTTACCCTG ATACTTCAGC TTTGGTGTAT GATGAAAGAA ACCAGTGGCT CTGCTGTGTA 
    TATAATGACC ACAGTCTTTA CGTCTGGGAT GTCAACGACA CAAGGAAAGT GGGAAAAGTG 
    TATTCTGGCC TTTATCACAG TTCGTTTGTG TGGAACATAG AGGTCTTTCC AGAGCTTGGA 
    GAGAGGCCAT GTCTTCCATC TGGATGTTTT TTTTCATGCT CATCTGACAA CACAATACGT 
    CTCTGGAACA TTGAAAGAAA TGCAAACCTG TATCTTGGGA AAAATATCTA CAGCAATGAC 
    TTACATAAGG TAATTTATGT TGACAATAAC ATAGAGCATC TAAAGGACAC TTCTAGCATG 
    GCAGAAAAAT CTGATGTTAG AGATACAAAA AGTGGGATAC GTGTACTCAA AATTCGTCCT 
    GATGGACAAC ATTTGGCCTC AGGTGACAGG ACAGGGAACA TTCGAATATA TGACTTGGGA 
    ATATTTGATG AGTTATTGAC AATAGAAGCA CATGATGGGG AGGTCTTATG CCTTGAATAT 
    TCAAAGCCTT CAACTGGTGT TACATTGCTT GCTTCAGCAA GTCGGGACAG ACTTATTCAT 
    GTTCTAAATG CAGAGAAGGA TTATATACTG GAGCAAACAC TGGATGATCA CTCGTCTTCC 
    ATAACAGCTG TCAAGTTTGC TGGGGACCAA GAGGAAATTC TTATGATAAG CTGTGGAGCA 
    GATAAAAGTA TATATTTCCG TCCAGCACAA ATGCTTCCAG ATGGGATTCA TTTTAGTAGG 
    CTGCATCACA CAGTGGAGAA AACCGCTATG TATGACATGG ATGTGGATGT GAGCCAGAAA 
    ACTGTAGCTG TTGCTTGTCA AGATAAAAAT ATCAGATTGT ACAGTATTTC AAGTGGTAAA 
    CAAGAGAAGA TTCTTAAAAG CTCTCCAAAT GGAGGGGCAT TACTAAAGGT GCAAATTGAT 
    CCCTCTGGAA CATTTTTTAC AACTAGTTGC TCCAGTAAGA ACATATCCTT CTTTGATTTG 
    CTATCTGGAG AATGTATAGC AGAGGTATAT GGCCATTCAG ATTTAGTGAC TGACATGAAG 
    TTTACAAATG ACTGCAAGAG ATTAATCACT GTGTCTGGAG ACAGTTGTGT GTTCATCTGG 
    AAACTGGATC CTGCCATGAC TGCCTGCATG AAGCAGCGTC TTATTGAATT GGGCATTTTT 
    GGGGAACAAA AGACTACATG TTATGACGAA TGCCTGCTTA ACAACCGGAG AGAGACCTAC 
    ATAACAAACT TGCTTGGGGA AAGTGTTCAA AATGAAATAT TTATGGACAG CAGTTACGAG 
    ACTGATGATT CCTCTACACA AACACCATCA AAGAAGACCA ATGAAGCTGA TCCAGCCTTT 
    TTAAAGACTA ATGGGAAAAT GCCCTTGTGG GTGCGAAAGC TGGATAAAGA CCAAGATCCT 
    CTGCTTAATC AAAATACAAT TAACGTATAT CAGCCTCGTG GGCGTTGGGC TCAAAGTGAT 
    AGCAACATTA TTATCATGAA GTCTTTAGAC ACAGAAGATA AAAGTTATTG TTTTAGCCCA 
    GATCAAGAGG AAACTGGACA TTTTTTTCTA CATGACAAAA CTGATTTTGT GTTTGCTGAG 
    CCACAGAACT TTCAGCATCT CTTGGAGTCG GAAGAAAGAA ATGTTCACTC ATTGGCCAAT 
    GAGACATGTG TGCAGGATTT GTCTGATGAA GATTCTGATG TTAAATCACA TTCTTTAGAC 
    TCAAATGGTG GCATTTTTTA CCCTTCATCT CTGCAGCTAT CTGGACAAGA AGAAAGTGAC 
    TATGCTATAG AAGAACATCA GATATTTTCT GACACATTTG ATATGAGTGA TGTCAGAACA 
    ATGCATGACT TCTTGCCCAG TTGCCACCAA GACAAAGATG AAGAATCATT AACATCAGAG 
    ACCTGTTCTG AAGCAGATTT GGATGAAAAT GAATTGCCAG GCACCTCTCA GCCTCATACA 
    CCAGAAGAAG AAAAGTTCCT TCTGAAACAT TTTGACACAT TGATTGATGA TTTCTCTGAA 
    GAAAGATTTG ACTACTCATT AAAAGACCTG AAACCGCCAG ATGACGACGA CCATGACTTC 
    ATTCAGAATC CACGTCTCAG TTTTTCTGCC AAATTTCTCT CTCGCTGCCA GAAGACCAGC 
    AGACCTGAAA ACTCAGACCT TCCACTTGAA CAGCAAGTGA AAACTCCTTC ACCTATATTG 
    GGGAATGATG AACAAATAAG TCATTCAAAG ACATTTTCTG AGAAGCCAAC AGAAGACAAG 
    TTACTGGATA CATTAGAAAA AAATAAAAAT GTGAATGCAA CAGATTTTTC AAAGCTATGT 
    CATTTGCAAA AGGTGCAAAT GAATGAGAAG GTAGCATCAC GTTCATCATT TCCTCCGTGT 
    GTTTCAAGCA AAAATGGAGC ATTCAACAAA CCTAAAAAAG GGCGGTCTTA CATGGATGCC 
    ACAGCTAGCT CTAAAGCAAA AATATTCCGC AGTGTTTCAA TGGGAGACAG TCTTAACACC 
    AGCCATTCTG AAGGCCAGAA AAAGCTCTCT AATCTATCTA GGCCTGCATC AAGTAACGAT 
    TTGCTGTCTT TGGAGCAAAA TAATTGCTAT AATGCAGAAG ATAATTTGTG TGACCCAGCG 
    CCCATTCTTA CAACAAACAA ACCTGCCACT TCAGGATATA TGAATGAACA CGTGCAGGAT 
    TCACCTGATA AACTCTTAAT GCCTCCGCCA TTATCCTGTG TGGTTATTCC TCGTCTAAAA 
    AGAAAAGCAC AGTCTGCCAG TAACTTGGCT AAACCACCGG GAAAAGAGGA TCAACATGAC 
    ATAGTCCGGA AGAACAAAAA TAAAGAATCC AGGAGAAGTG GGGTAGAGAA TAGTATTAAC 
    ACAAAAAACT CTTTCAGGAG ATCTTCATTA ACCACAAGCA AAACCGCTAA CATGGCAGAC 
    TCTTCAAGGA GAGCATCTGT AGCAGAAATC CCAACTTGCA AAAACGAATT TCAGGAAGTG 
    GAGGACCACA AAAATGAAAG CCATATGGTA GCAGTTGTTA CAAGCAATGA GATGGCTACA 
    TTATCAACCA TGCCTTTTGC CAGCAACCAT GACAGTCATG GTGCAAAAGT CCTGCTGGGT 
    AAATGTGAAG CTGTTATTGA AAACCTTTGC AGTGCATTTC AGAAGACGTT GGAACTTTAT 
    AGTGAGATTG ATATTTGTGG CGGCTCTCAT GAGGAGAAAC AACAGATGAA ATCTCTGTTT 
    TATGCATCCT TTAACCACAT TCGAAGTGAG ATGGATTTAA TTGAAACTGA TCAGAACACT 
    AACACAGCAA ATAACAAGAA TTCAAGAAGG AATGAACACC AAGAGCGTAA TCCTACGCTT 
    GACTTGCTGG AACATTATTC GGAGATGATG CTAAAAGTGA TGAAGGAGAA GATTGCCAGC 
    AATTAA

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

    RefSeq XP_017952347.1
    CDS274..4719
    Translation

    Target ORF information:

    RefSeq Version XM_018096858.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_018096858.1

    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
    ATGTCAGACT GCAGCGAGCA TGGCCGAAAC ATTCACGGAT TCCAACCGCA ACCTCCCTCA 
    CCTGGACGTC GAAAGTCATC CAGGGTCCAG TCGGGAAACG CAGGCAATGG CCGCGGACAT 
    AGACAGGTGG AACTGGAAAA AGTTTTGGGA ATTACAGTAT CCAGCAACAG CAGTATTACT 
    TGTGACCCTA TTTCTGGACT TATTGCCTAT CCTGCTGGAT GTGTCATTGT AGTTTTATGT 
    CCAAGGAAAA ACAAGCAAAC ACACATTTTC AACACATGCA GGAAACCTTT GAGTGCTTTG 
    TCATTTTCTC CTAATGGAAA GTTTATTGTT ACTGGTGAGA GTGGGCACAA TCCAGCTGTC 
    CGAATCTGGG ATGTGGCTGA AAAAGTCCTA GTATCTGAAA TGCTGGGCCA CAAATATGGA 
    GTGTCATGTG TATGCTTCTC TCCTGATATG AAATATGTTG TTTCTGTGGG CTATCAGCAT 
    GACATGGTTA TCAATGTGTG GGACTGGAAG GTGAACATGA TTGTTGCCAA AAACAAAGTT 
    TCTAGCAAAG TGTCTGCAGT GTCCTTTTCA GAAGACAGCA GTTATTTTGT TACTGTAGGA 
    AGCAGGCATG TTAAATTCTG GTACTTGGAG ACCTCAAAAA AAATCCAGGT TAATGGCACA 
    GTGCCTCTTG TTGGCAGGTC AGGATTATTA GGGGATCTTC ATGATAATAT TTTCTGTGGA 
    GTTGCTTGTG GGAAAGGCAG TAACTCTCGG AGCACCTTTT GCATTGCATA CTCTGGAGTC 
    CTTTGTCAGT TTACGGACAA GAGAGTGCTG GAAAAGTGGA TCAAGTTAAA GGTATCGGCA 
    TCATATTGTC TAGCTGTAAC AGAGCTCTTT GTCTTTTGTG GTTGTGAAGA TGGAATTGTT 
    CGAATATTTA ATGCTCAAAA CCTTCAGTAC ATCACAGATT TACCCAAGCC ACATTATTTG 
    GGGGTAGATG TCTCGCTGGG GACTGACCCA AGCACATTGT TTACAAAACA GACAGATTCA 
    AGTTACCCTG ATACTTCAGC TTTGGTGTAT GATGAAAGAA ACCAGTGGCT CTGCTGTGTA 
    TATAATGACC ACAGTCTTTA CGTCTGGGAT GTCAACGACA CAAGGAAAGT GGGAAAAGTG 
    TATTCTGGCC TTTATCACAG TTCGTTTGTG TGGAACATAG AGGTCTTTCC AGAGCTTGGA 
    GAGAGGCCAT GTCTTCCATC TGGATGTTTT TTTTCATGCT CATCTGACAA CACAATACGT 
    CTCTGGAACA TTGAAAGAAA TGCAAACCTG TATCTTGGGA AAAATATCTA CAGCAATGAC 
    TTACATAAGG TAATTTATGT TGACAATAAC ATAGAGCATC TAAAGGACAC TTCTAGCATG 
    GCAGAAAAAT CTGATGTTAG AGATACAAAA AGTGGGATAC GTGTACTCAA AATTCGTCCT 
    GATGGACAAC ATTTGGCCTC AGGTGACAGG ACAGGGAACA TTCGAATATA TGACTTGGGA 
    ATATTTGATG AGTTATTGAC AATAGAAGCA CATGATGGGG AGGTCTTATG CCTTGAATAT 
    TCAAAGCCTT CAACTGGTGT TACATTGCTT GCTTCAGCAA GTCGGGACAG ACTTATTCAT 
    GTTCTAAATG CAGAGAAGGA TTATATACTG GAGCAAACAC TGGATGATCA CTCGTCTTCC 
    ATAACAGCTG TCAAGTTTGC TGGGGACCAA GAGGAAATTC TTATGATAAG CTGTGGAGCA 
    GATAAAAGTA TATATTTCCG TCCAGCACAA ATGCTTCCAG ATGGGATTCA TTTTAGTAGG 
    CTGCATCACA CAGTGGAGAA AACCGCTATG TATGACATGG ATGTGGATGT GAGCCAGAAA 
    ACTGTAGCTG TTGCTTGTCA AGATAAAAAT ATCAGATTGT ACAGTATTTC AAGTGGTAAA 
    CAAGAGAAGA TTCTTAAAAG CTCTCCAAAT GGAGGGGCAT TACTAAAGGT GCAAATTGAT 
    CCCTCTGGAA CATTTTTTAC AACTAGTTGC TCCAGTAAGA ACATATCCTT CTTTGATTTG 
    CTATCTGGAG AATGTATAGC AGAGGTATAT GGCCATTCAG ATTTAGTGAC TGACATGAAG 
    TTTACAAATG ACTGCAAGAG ATTAATCACT GTGTCTGGAG ACAGTTGTGT GTTCATCTGG 
    AAACTGGATC CTGCCATGAC TGCCTGCATG AAGCAGCGTC TTATTGAATT GGGCATTTTT 
    GGGGAACAAA AGACTACATG TTATGACGAA TGCCTGCTTA ACAACCGGAG AGAGACCTAC 
    ATAACAAACT TGCTTGGGGA AAGTGTTCAA AATGAAATAT TTATGGACAG CAGTTACGAG 
    ACTGATGATT CCTCTACACA AACACCATCA AAGAAGACCA ATGAAGCTGA TCCAGCCTTT 
    TTAAAGACTA ATGGGAAAAT GCCCTTGTGG GTGCGAAAGC TGGATAAAGA CCAAGATCCT 
    CTGCTTAATC AAAATACAAT TAACGTATAT CAGCCTCGTG GGCGTTGGGC TCAAAGTGAT 
    AGCAACATTA TTATCATGAA GTCTTTAGAC ACAGAAGATA AAAGTTATTG TTTTAGCCCA 
    GATCAAGAGG AAACTGGACA TTTTTTTCTA CATGACAAAA CTGATTTTGT GTTTGCTGAG 
    CCACAGAACT TTCAGCATCT CTTGGAGTCG GAAGAAAGAA ATGTTCACTC ATTGGCCAAT 
    GAGACATGTG TGCAGGATTT GTCTGATGAA GATTCTGATG TTAAATCACA TTCTTTAGAC 
    TCAAATGGTG GCATTTTTTA CCCTTCATCT CTGCAGCTAT CTGGACAAGA AGAAAGTGAC 
    TATGCTATAG AAGAACATCA GATATTTTCT GACACATTTG ATATGAGTGA TGTCAGAACA 
    ATGCATGACT TCTTGCCCAG TTGCCACCAA GACAAAGATG AAGAATCATT AACATCAGAG 
    ACCTGTTCTG AAGCAGATTT GGATGAAAAT GAATTGCCAG GCACCTCTCA GCCTCATACA 
    CCAGAAGAAG AAAAGTTCCT TCTGAAACAT TTTGACACAT TGATTGATGA TTTCTCTGAA 
    GAAAGATTTG ACTACTCATT AAAAGACCTG AAACCGCCAG ATGACGACGA CCATGACTTC 
    ATTCAGAATC CACGTCTCAG TTTTTCTGCC AAATTTCTCT CTCGCTGCCA GAAGACCAGC 
    AGACCTGAAA ACTCAGACCT TCCACTTGAA CAGCAAGTGA AAACTCCTTC ACCTATATTG 
    GGGAATGATG AACAAATAAG TCATTCAAAG ACATTTTCTG AGAAGCCAAC AGAAGACAAG 
    TTACTGGATA CATTAGAAAA AAATAAAAAT GTGAATGCAA CAGATTTTTC AAAGCTATGT 
    CATTTGCAAA AGGTGCAAAT GAATGAGAAG GTAGCATCAC GTTCATCATT TCCTCCGTGT 
    GTTTCAAGCA AAAATGGAGC ATTCAACAAA CCTAAAAAAG GGCGGTCTTA CATGGATGCC 
    ACAGCTAGCT CTAAAGCAAA AATATTCCGC AGTGTTTCAA TGGGAGACAG TCTTAACACC 
    AGCCATTCTG AAGGCCAGAA AAAGCTCTCT AATCTATCTA GGCCTGCATC AAGTAACGAT 
    TTGCTGTCTT TGGAGCAAAA TAATTGCTAT AATGCAGAAG ATAATTTGTG TGACCCAGCG 
    CCCATTCTTA CAACAAACAA ACCTGCCACT TCAGGATATA TGAATGAACA CGTGCAGGAT 
    TCACCTGATA AACTCTTAAT GCCTCCGCCA TTATCCTGTG TGGTTATTCC TCGTCTAAAA 
    AGAAAAGCAC AGTCTGCCAG TAACTTGGCT AAACCACCGG GAAAAGAGGA TCAACATGAC 
    ATAGTCCGGA AGAACAAAAA TAAAGAATCC AGGAGAAGTG GGGTAGAGAA TAGTATTAAC 
    ACAAAAAACT CTTTCAGGAG ATCTTCATTA ACCACAAGCA AAACCGCTAA CATGGCAGAC 
    TCTTCAAGGA GAGCATCTGT AGCAGAAATC CCAACTTGCA AAAACGAATT TCAGGAAGTG 
    GAGGACCACA AAAATGAAAG CCATATGGTA GCAGTTGTTA CAAGCAATGA GATGGCTACA 
    TTATCAACCA TGCCTTTTGC CAGCAACCAT GACAGTCATG GTGCAAAAGT CCTGCTGGGT 
    AAATGTGAAG CTGTTATTGA AAACCTTTGC AGTGCATTTC AGAAGACGTT GGAACTTTAT 
    AGTGAGATTG ATATTTGTGG CGGCTCTCAT GAGGAGAAAC AACAGATGAA ATCTCTGTTT 
    TATGCATCCT TTAACCACAT TCGAAGTGAG ATGGATTTAA TTGAAACTGA TCAGAACACT 
    AACACAGCAA ATAACAAGAA TTCAAGAAGG AATGAACACC AAGAGCGTAA TCCTACGCTT 
    GACTTGCTGG AACATTATTC GGAGATGATG CTAAAAGTGA TGAAGGAGAA GATTGCCAGC 
    AATTAA

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

    wdr62 ( XM_018096859.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_017952348.1 Xenopus tropicalis WD repeat domain 62 (wdr62), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OXa35810
    Clone ID Related Accession (Same CDS sequence) XM_018096859.2 , XM_018096859.1
    Accession Version XM_018096859.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4443bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030684.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 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
    ATGTCAGACT GCAGCGAGCA TGGCCGAAAC ATTCACGGAT TCCAACCGCA ACCTCCCTCA 
    CCTGGACGTC GAAAGTCATC CAGGGTCCAG TCGGGAAACG CAGGCAATGG CCGCGGACAT 
    AGACAGGTGG AACTGGAAAA AGTTTTGGGA ATTACAGTAT CCAGCAACAG CAGTATTACT 
    TGTGACCCTA TTTCTGGACT TATTGCCTAT CCTGCTGGAT GTGTCATTGT AGTTTTATGT 
    CCAAGGAAAA ACAAGCAAAC ACACATTTTC AACACATGCA GGAAACCTTT GAGTGCTTTG 
    TCATTTTCTC CTAATGGAAA GTTTATTGTT ACTGGTGAGA GTGGGCACAA TCCAGCTGTC 
    CGAATCTGGG ATGTGGCTGA AAAAGTCCTA GTATCTGAAA TGCTGGGCCA CAAATATGGA 
    GTGTCATGTG TATGCTTCTC TCCTGATATG AAATATGTTG TTTCTGTGGG CTATCAGCAT 
    GACATGGTTA TCAATGTGTG GGACTGGAAG GTGAACATGA TTGTTGCCAA AAACAAAGTT 
    TCTAGCAAAG TGTCTGCAGT GTCCTTTTCA GAAGACAGCA GTTATTTTGT TACTGTAGGA 
    AGCAGGCATG TTAAATTCTG GTACTTGGAG ACCTCAAAAA AAATCCAGGT TAATGGCACA 
    GTGCCTCTTG TTGGCAGGTC AGGATTATTA GGGGATCTTC ATGATAATAT TTTCTGTGGA 
    GTTGCTTGTG GGAAAGGCAG TAACTCTCGG AGCACCTTTT GCATTGCATA CTCTGGAGTC 
    CTTTGTCAGT TTACGGACAA GAGAGTGCTG GAAAAGTGGA TCAAGTTAAA GGTATCGGCA 
    TCATATTGTC TAGCTGTAAC AGAGCTCTTT GTCTTTTGTG GTTGTGAAGA TGGAATTGTT 
    CGAATATTTA ATGCTCAAAA CCTTCAGTAC ATCACAGATT TACCCAAGCC ACATTATTTG 
    GGGGTAGATG TCTCGCTGGG GACTGACCCA AGCACATTGT TTACAAAACA GACAGATTCA 
    AGTTACCCTG ATACTTCAGC TTTGGTGTAT GATGAAAGAA ACCAGTGGCT CTGCTGTGTA 
    TATAATGACC ACAGTCTTTA CGTCTGGGAT GTCAACGACA CAAGGAAAGT GGGAAAAGTG 
    TATTCTGGCC TTTATCACAG TTCGTTTGTG TGGAACATAG AGGTCTTTCC AGAGCTTGGA 
    GAGAGGCCAT GTCTTCCATC TGGATGTTTT TTTTCATGCT CATCTGACAA CACAATACGT 
    CTCTGGAACA TTGAAAGAAA TGCAAACCTG TATCTTGGGA AAAATATCTA CAGCAATGAC 
    TTACATAAGG TAATTTATGT TGACAATAAC ATAGAGCATC TAAAGGACAC TTCTAGCATG 
    GCAGAAAAAT CTGATGTTAG AGATACAAAA AGTGGGATAC GTGTACTCAA AATTCGTCCT 
    GATGGACAAC ATTTGGCCTC AGGTGACAGG ACAGGGAACA TTCGAATATA TGACTTGGGA 
    ATATTTGATG AGTTATTGAC AATAGAAGCA CATGATGGGG AGGTCTTATG CCTTGAATAT 
    TCAAAGCCTT CAACTGGTGT TACATTGCTT GCTTCAGCAA GTCGGGACAG ACTTATTCAT 
    GTTCTAAATG CAGAGAAGGA TTATATACTG GAGCAAACAC TGGATGATCA CTCGTCTTCC 
    ATAACAGCTG TCAAGTTTGC TGGGGACCAA GAGGAAATTC TTATGATAAG CTGTGGAGCA 
    GATAAAAGTA TATATTTCCG TCCAGCACAA ATGCTTCCAG ATGGGATTCA TTTTAGTAGG 
    CTGCATCACA CAGTGGAGAA AACCGCTATG TATGACATGG ATGTGGATGT GAGCCAGAAA 
    ACTGTAGCTG TTGCTTGTCA AGATAAAAAT ATCAGATTGT ACAGTATTTC AAGTGGTAAA 
    CAAGAGAAGA TTCTTAAAAG CTCTCCAAAT GGAGGGGCAT TACTAAAGGT GCAAATTGAT 
    CCCTCTGGAA CATTTTTTAC AACTAGTTGC TCCAGTAAGA ACATATCCTT CTTTGATTTG 
    CTATCTGGAG AATGTATAGC AGAGGTATAT GGCCATTCAG ATTTAGTGAC TGACATGAAG 
    TTTACAAATG ACTGCAAGAG ATTAATCACT GTGTCTGGAG ACAGTTGTGT GTTCATCTGG 
    AAACTGGATC CTGCCATGAC TGCCTGCATG AAGCAGCGTC TTATTGAATT GGGCATTTTT 
    GGGGAACAAA AGACTACATG TTATGACGAA TGCCTGCTTA ACAACCGGAG AGAGACCTAC 
    ATAACAAACT TGCTTGGGGA AAGTGTTCAA AATGAAATAT TTATGGACAG CAGTTACGAG 
    ACTGATGATT CCTCTACACA AACACCATCA AAGAAGACCA ATGAAGCTGA TCCAGCCTTT 
    TTAAAGACTA ATGGGAAAAT GCCCTTGTGG GTGCGAAAGC TGGATAAAGA CCAAGATCCT 
    CTGCTTAATC AAAATACAAT TAACGTATAT CAGCCTCGTG GGCGTTGGGC TCAAAGTGAT 
    AGCAACATTA TTATCATGAA GTCTTTAGAC ACAGAAGATA AAAGTTATTG TTTTAGCCCA 
    GATCAAGAGG AAACTGGACA TTTTTTTCTA CATGACAAAA CTGATTTTGT GTTTGCTGAG 
    CCACAGAACT TTCAGCATCT CTTGGAGTCG GAAGAAAGAA ATGTTCACTC ATTGGCCAAT 
    GAGACATGTG TGCAGGATTT GTCTGATGAA GATTCTGATG TTAAATCACA TTCTTTAGAC 
    TCAAATGGTG GCATTTTTTA CCCTTCATCT CTGCAGCTAT CTGGACAAGA AGAAAGTGAC 
    TATGCTATAG AAGAACATCA GATATTTTCT GACACATTTG ATATGAGTGA TGTCAGAACA 
    ATGCATGACT TCTTGCCCAG TTGCCACCAA GACAAAGATG AAGAATCATT AACATCAGAG 
    ACCTGTTCTG AAGCAGATTT GGATGAAAAT GAATTGCCAG GCACCTCTCA GCCTCATACA 
    CCAGAAGAAG AAAAGTTCCT TCTGAAACAT TTTGACACAT TGATTGATGA TTTCTCTGAA 
    GAAAGATTTG ACTACTCATT AAAAGACCTG AAACCGCCAG ATGACGACGA CCATGACTTC 
    ATTCAGAATC CACGTCTCAG TTTTTCTGCC AAATTTCTCT CTCGCTGCCA GAAGACCAGC 
    AGACCTGAAA ACTCAGACCT TCCACTTGAA CAGCAAGTGA AAACTCCTTC ACCTATATTG 
    GGGAATGATG AACAAATAAG TCATTCAAAG ACATTTTCTG AGCCAACAGA AGACAAGTTA 
    CTGGATACAT TAGAAAAAAA TAAAAATGTG AATGCAACAG ATTTTTCAAA GCTATGTCAT 
    TTGCAAAAGG TGCAAATGAA TGAGAAGGTA GCATCACGTT CATCATTTCC TCCGTGTGTT 
    TCAAGCAAAA ATGGAGCATT CAACAAACCT AAAAAAGGGC GGTCTTACAT GGATGCCACA 
    GCTAGCTCTA AAGCAAAAAT ATTCCGCAGT GTTTCAATGG GAGACAGTCT TAACACCAGC 
    CATTCTGAAG GCCAGAAAAA GCTCTCTAAT CTATCTAGGC CTGCATCAAG TAACGATTTG 
    CTGTCTTTGG AGCAAAATAA TTGCTATAAT GCAGAAGATA ATTTGTGTGA CCCAGCGCCC 
    ATTCTTACAA CAAACAAACC TGCCACTTCA GGATATATGA ATGAACACGT GCAGGATTCA 
    CCTGATAAAC TCTTAATGCC TCCGCCATTA TCCTGTGTGG TTATTCCTCG TCTAAAAAGA 
    AAAGCACAGT CTGCCAGTAA CTTGGCTAAA CCACCGGGAA AAGAGGATCA ACATGACATA 
    GTCCGGAAGA ACAAAAATAA AGAATCCAGG AGAAGTGGGG TAGAGAATAG TATTAACACA 
    AAAAACTCTT TCAGGAGATC TTCATTAACC ACAAGCAAAA CCGCTAACAT GGCAGACTCT 
    TCAAGGAGAG CATCTGTAGC AGAAATCCCA ACTTGCAAAA ACGAATTTCA GGAAGTGGAG 
    GACCACAAAA ATGAAAGCCA TATGGTAGCA GTTGTTACAA GCAATGAGAT GGCTACATTA 
    TCAACCATGC CTTTTGCCAG CAACCATGAC AGTCATGGTG CAAAAGTCCT GCTGGGTAAA 
    TGTGAAGCTG TTATTGAAAA CCTTTGCAGT GCATTTCAGA AGACGTTGGA ACTTTATAGT 
    GAGATTGATA TTTGTGGCGG CTCTCATGAG GAGAAACAAC AGATGAAATC TCTGTTTTAT 
    GCATCCTTTA ACCACATTCG AAGTGAGATG GATTTAATTG AAACTGATCA GAACACTAAC 
    ACAGCAAATA ACAAGAATTC AAGAAGGAAT GAACACCAAG AGCGTAATCC TACGCTTGAC 
    TTGCTGGAAC ATTATTCGGA GATGATGCTA AAAGTGATGA AGGAGAAGAT TGCCAGCAAT 
    TAA

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

    RefSeq XP_017952348.1
    CDS274..4716
    Translation

    Target ORF information:

    RefSeq Version XM_018096859.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_018096859.1

    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
    ATGTCAGACT GCAGCGAGCA TGGCCGAAAC ATTCACGGAT TCCAACCGCA ACCTCCCTCA 
    CCTGGACGTC GAAAGTCATC CAGGGTCCAG TCGGGAAACG CAGGCAATGG CCGCGGACAT 
    AGACAGGTGG AACTGGAAAA AGTTTTGGGA ATTACAGTAT CCAGCAACAG CAGTATTACT 
    TGTGACCCTA TTTCTGGACT TATTGCCTAT CCTGCTGGAT GTGTCATTGT AGTTTTATGT 
    CCAAGGAAAA ACAAGCAAAC ACACATTTTC AACACATGCA GGAAACCTTT GAGTGCTTTG 
    TCATTTTCTC CTAATGGAAA GTTTATTGTT ACTGGTGAGA GTGGGCACAA TCCAGCTGTC 
    CGAATCTGGG ATGTGGCTGA AAAAGTCCTA GTATCTGAAA TGCTGGGCCA CAAATATGGA 
    GTGTCATGTG TATGCTTCTC TCCTGATATG AAATATGTTG TTTCTGTGGG CTATCAGCAT 
    GACATGGTTA TCAATGTGTG GGACTGGAAG GTGAACATGA TTGTTGCCAA AAACAAAGTT 
    TCTAGCAAAG TGTCTGCAGT GTCCTTTTCA GAAGACAGCA GTTATTTTGT TACTGTAGGA 
    AGCAGGCATG TTAAATTCTG GTACTTGGAG ACCTCAAAAA AAATCCAGGT TAATGGCACA 
    GTGCCTCTTG TTGGCAGGTC AGGATTATTA GGGGATCTTC ATGATAATAT TTTCTGTGGA 
    GTTGCTTGTG GGAAAGGCAG TAACTCTCGG AGCACCTTTT GCATTGCATA CTCTGGAGTC 
    CTTTGTCAGT TTACGGACAA GAGAGTGCTG GAAAAGTGGA TCAAGTTAAA GGTATCGGCA 
    TCATATTGTC TAGCTGTAAC AGAGCTCTTT GTCTTTTGTG GTTGTGAAGA TGGAATTGTT 
    CGAATATTTA ATGCTCAAAA CCTTCAGTAC ATCACAGATT TACCCAAGCC ACATTATTTG 
    GGGGTAGATG TCTCGCTGGG GACTGACCCA AGCACATTGT TTACAAAACA GACAGATTCA 
    AGTTACCCTG ATACTTCAGC TTTGGTGTAT GATGAAAGAA ACCAGTGGCT CTGCTGTGTA 
    TATAATGACC ACAGTCTTTA CGTCTGGGAT GTCAACGACA CAAGGAAAGT GGGAAAAGTG 
    TATTCTGGCC TTTATCACAG TTCGTTTGTG TGGAACATAG AGGTCTTTCC AGAGCTTGGA 
    GAGAGGCCAT GTCTTCCATC TGGATGTTTT TTTTCATGCT CATCTGACAA CACAATACGT 
    CTCTGGAACA TTGAAAGAAA TGCAAACCTG TATCTTGGGA AAAATATCTA CAGCAATGAC 
    TTACATAAGG TAATTTATGT TGACAATAAC ATAGAGCATC TAAAGGACAC TTCTAGCATG 
    GCAGAAAAAT CTGATGTTAG AGATACAAAA AGTGGGATAC GTGTACTCAA AATTCGTCCT 
    GATGGACAAC ATTTGGCCTC AGGTGACAGG ACAGGGAACA TTCGAATATA TGACTTGGGA 
    ATATTTGATG AGTTATTGAC AATAGAAGCA CATGATGGGG AGGTCTTATG CCTTGAATAT 
    TCAAAGCCTT CAACTGGTGT TACATTGCTT GCTTCAGCAA GTCGGGACAG ACTTATTCAT 
    GTTCTAAATG CAGAGAAGGA TTATATACTG GAGCAAACAC TGGATGATCA CTCGTCTTCC 
    ATAACAGCTG TCAAGTTTGC TGGGGACCAA GAGGAAATTC TTATGATAAG CTGTGGAGCA 
    GATAAAAGTA TATATTTCCG TCCAGCACAA ATGCTTCCAG ATGGGATTCA TTTTAGTAGG 
    CTGCATCACA CAGTGGAGAA AACCGCTATG TATGACATGG ATGTGGATGT GAGCCAGAAA 
    ACTGTAGCTG TTGCTTGTCA AGATAAAAAT ATCAGATTGT ACAGTATTTC AAGTGGTAAA 
    CAAGAGAAGA TTCTTAAAAG CTCTCCAAAT GGAGGGGCAT TACTAAAGGT GCAAATTGAT 
    CCCTCTGGAA CATTTTTTAC AACTAGTTGC TCCAGTAAGA ACATATCCTT CTTTGATTTG 
    CTATCTGGAG AATGTATAGC AGAGGTATAT GGCCATTCAG ATTTAGTGAC TGACATGAAG 
    TTTACAAATG ACTGCAAGAG ATTAATCACT GTGTCTGGAG ACAGTTGTGT GTTCATCTGG 
    AAACTGGATC CTGCCATGAC TGCCTGCATG AAGCAGCGTC TTATTGAATT GGGCATTTTT 
    GGGGAACAAA AGACTACATG TTATGACGAA TGCCTGCTTA ACAACCGGAG AGAGACCTAC 
    ATAACAAACT TGCTTGGGGA AAGTGTTCAA AATGAAATAT TTATGGACAG CAGTTACGAG 
    ACTGATGATT CCTCTACACA AACACCATCA AAGAAGACCA ATGAAGCTGA TCCAGCCTTT 
    TTAAAGACTA ATGGGAAAAT GCCCTTGTGG GTGCGAAAGC TGGATAAAGA CCAAGATCCT 
    CTGCTTAATC AAAATACAAT TAACGTATAT CAGCCTCGTG GGCGTTGGGC TCAAAGTGAT 
    AGCAACATTA TTATCATGAA GTCTTTAGAC ACAGAAGATA AAAGTTATTG TTTTAGCCCA 
    GATCAAGAGG AAACTGGACA TTTTTTTCTA CATGACAAAA CTGATTTTGT GTTTGCTGAG 
    CCACAGAACT TTCAGCATCT CTTGGAGTCG GAAGAAAGAA ATGTTCACTC ATTGGCCAAT 
    GAGACATGTG TGCAGGATTT GTCTGATGAA GATTCTGATG TTAAATCACA TTCTTTAGAC 
    TCAAATGGTG GCATTTTTTA CCCTTCATCT CTGCAGCTAT CTGGACAAGA AGAAAGTGAC 
    TATGCTATAG AAGAACATCA GATATTTTCT GACACATTTG ATATGAGTGA TGTCAGAACA 
    ATGCATGACT TCTTGCCCAG TTGCCACCAA GACAAAGATG AAGAATCATT AACATCAGAG 
    ACCTGTTCTG AAGCAGATTT GGATGAAAAT GAATTGCCAG GCACCTCTCA GCCTCATACA 
    CCAGAAGAAG AAAAGTTCCT TCTGAAACAT TTTGACACAT TGATTGATGA TTTCTCTGAA 
    GAAAGATTTG ACTACTCATT AAAAGACCTG AAACCGCCAG ATGACGACGA CCATGACTTC 
    ATTCAGAATC CACGTCTCAG TTTTTCTGCC AAATTTCTCT CTCGCTGCCA GAAGACCAGC 
    AGACCTGAAA ACTCAGACCT TCCACTTGAA CAGCAAGTGA AAACTCCTTC ACCTATATTG 
    GGGAATGATG AACAAATAAG TCATTCAAAG ACATTTTCTG AGCCAACAGA AGACAAGTTA 
    CTGGATACAT TAGAAAAAAA TAAAAATGTG AATGCAACAG ATTTTTCAAA GCTATGTCAT 
    TTGCAAAAGG TGCAAATGAA TGAGAAGGTA GCATCACGTT CATCATTTCC TCCGTGTGTT 
    TCAAGCAAAA ATGGAGCATT CAACAAACCT AAAAAAGGGC GGTCTTACAT GGATGCCACA 
    GCTAGCTCTA AAGCAAAAAT ATTCCGCAGT GTTTCAATGG GAGACAGTCT TAACACCAGC 
    CATTCTGAAG GCCAGAAAAA GCTCTCTAAT CTATCTAGGC CTGCATCAAG TAACGATTTG 
    CTGTCTTTGG AGCAAAATAA TTGCTATAAT GCAGAAGATA ATTTGTGTGA CCCAGCGCCC 
    ATTCTTACAA CAAACAAACC TGCCACTTCA GGATATATGA ATGAACACGT GCAGGATTCA 
    CCTGATAAAC TCTTAATGCC TCCGCCATTA TCCTGTGTGG TTATTCCTCG TCTAAAAAGA 
    AAAGCACAGT CTGCCAGTAA CTTGGCTAAA CCACCGGGAA AAGAGGATCA ACATGACATA 
    GTCCGGAAGA ACAAAAATAA AGAATCCAGG AGAAGTGGGG TAGAGAATAG TATTAACACA 
    AAAAACTCTT TCAGGAGATC TTCATTAACC ACAAGCAAAA CCGCTAACAT GGCAGACTCT 
    TCAAGGAGAG CATCTGTAGC AGAAATCCCA ACTTGCAAAA ACGAATTTCA GGAAGTGGAG 
    GACCACAAAA ATGAAAGCCA TATGGTAGCA GTTGTTACAA GCAATGAGAT GGCTACATTA 
    TCAACCATGC CTTTTGCCAG CAACCATGAC AGTCATGGTG CAAAAGTCCT GCTGGGTAAA 
    TGTGAAGCTG TTATTGAAAA CCTTTGCAGT GCATTTCAGA AGACGTTGGA ACTTTATAGT 
    GAGATTGATA TTTGTGGCGG CTCTCATGAG GAGAAACAAC AGATGAAATC TCTGTTTTAT 
    GCATCCTTTA ACCACATTCG AAGTGAGATG GATTTAATTG AAACTGATCA GAACACTAAC 
    ACAGCAAATA ACAAGAATTC AAGAAGGAAT GAACACCAAG AGCGTAATCC TACGCTTGAC 
    TTGCTGGAAC ATTATTCGGA GATGATGCTA AAAGTGATGA AGGAGAAGAT TGCCAGCAAT 
    TAA

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

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