wdr97 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following wdr97 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the wdr97 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
OXa38034 XM_004920713.3
Latest version!
Xenopus tropicalis WD repeat-containing protein 97-like (LOC101732312), mRNA. pcDNA3.1-C-(k)DYK or customized vector 7-9 $258.30
$369.00
OXa60556 XM_031904102.1
Latest version!
Xenopus tropicalis WD repeat domain 97 (wdr97), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa60557 XM_031904103.1
Latest version!
Xenopus tropicalis WD repeat domain 97 (wdr97), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OXa60558 XM_031904104.1
Latest version!
Xenopus tropicalis WD repeat domain 97 (wdr97), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00

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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 OXa38034
    Clone ID Related Accession (Same CDS sequence) XM_004920713.3
    Accession Version XM_004920713.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1428bp)
    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 97-like
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_016685886.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_004920713.2. ##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
    ATGGAGACAA GAGCAGAGAA GAACCGGAAG GGAAGGGCGC TGTATTTGTG GGCTCGTCTT 
    AGGGACGGAG TACGAAGCAC CGTGTATAAG ATGAGAAGAG CGGATCCCCA GCCACAGACT
    ATTGGCCACG GACTGCAGCT CGTATGCCAC TTGCCCTTTC GCAGAGCTCT GAGAGGGATC
    ACTTGGGTCT CCCAGCAGAA CCTCTTGCTT TCCCTGGATT CGGATGGACT GATCCGGCAG
    CACCATACGG ATGGGAGGGT ACAGGCTTGT GCCCAGGCTT CCCTGCCACT GTGTGGGCTC
    CTGTATGCGT GGCACAGCCA GAAGCTAGTG GCTTGGGCCC ATCAGGAACT GCGAGTGCTG
    GACACAACTC TTACCCCACT TACTGTATGC AGGGTGGCCC GGGGGGTCTT CTGCTGTGTG
    TACAACCCAG GAAGGGACCA GCTGCTCACT GGGGGGACTG GGGGGGTACA ATTATGGGCC
    TTCAGCGAGG GCTCGTGGCA CCTAACTTGC AAGCAGGTTT TAAAAGAAGG ACTGAAGGAG
    ACAGATAGGG TTAATATTAT TGCCCTGGAC ACGGCCGCGC CACTGGCACA TACGTGTTTT
    GCTGTGTGTG GGGCAGGCGT GTGGGAGTAT GACCTGGGGC ACGGAGAACT CCGGCGGGTG
    TGGAACAACC TTCACCTGAG ACCAATCACT GGGCTCATTT ACTCCCAATC TCGTCAGACT
    CTAATTACGG CTTCCAGAGA GGGGACCATC AAACTCTGGG GCAAATCAGC AGAACTGAAA
    GGTGTTTGTG TGGCGCACAC AGGCCCAGTC ACGGCTCTCT CATTCAGTTC TTCCGGGCGC
    TACTTTCTCT CCGGCTCAGA AGACCGGACT GTGCGTACGT GGGACTTGGA GACTCAGGAG
    CAGGTTGGGG AGCAGGTTCT GGCCCAGCCG GTTCTTGGGT TGGAGACGTT CCGGGCTGAT
    GGAAAATTCT TGGTCTCTCG CTCTGAGTTC TGCTTGGATT TGTGGCAAAT ACAGAACCTT
    TACCAGTACC ACACCCCCCT GGGGGCGAGT GTGACAGACA TGAAAGTGAG TGGGGGGCAG
    TTTGTGCCCA GAGTTGCCTG TCTGTGCTCG GACTCGGCCG TCAGGCTGGT GGCTACTGGC
    ACGGGGCAAT TACTCTCCAG CCTTGCCCTA GATGGCCCAT TGGCCATAGA GTTCTGCCCT
    CACACGGAGA GTGTCTATGT CCTTCTGAAG AATGGAGACC TCCTTAGGGC CAGCTCTGTG
    GGGAGCCCCA TGGGGGTCAG GAACACCCTG AGGGTCGGCT CTTCCCAAGC CCCTCCCCTG
    TGCCTCAGCC TGTACTGCGC CATCGCCGAC CAACAGAGCG CTGATTGGAT AGAAATGGGG
    AGAGAGAGAG AGCGCCAATT TACATCCGAC GGAGGCAAAA ACAGGTGA

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

    RefSeq XP_004920770.2
    CDS236..1663
    Translation

    Target ORF information:

    RefSeq Version XM_004920713.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis WD repeat-containing protein 97-like (LOC101732312), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_004920713.3

    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
    ATGGAGACAA GAGCAGAGAA GAACCGGAAG GGAAGGGCGC TGTATTTGTG GGCTCGTCTT 
    AGGGACGGAG TACGAAGCAC CGTGTATAAG ATGAGAAGAG CGGATCCCCA GCCACAGACT
    ATTGGCCACG GACTGCAGCT CGTATGCCAC TTGCCCTTTC GCAGAGCTCT GAGAGGGATC
    ACTTGGGTCT CCCAGCAGAA CCTCTTGCTT TCCCTGGATT CGGATGGACT GATCCGGCAG
    CACCATACGG ATGGGAGGGT ACAGGCTTGT GCCCAGGCTT CCCTGCCACT GTGTGGGCTC
    CTGTATGCGT GGCACAGCCA GAAGCTAGTG GCTTGGGCCC ATCAGGAACT GCGAGTGCTG
    GACACAACTC TTACCCCACT TACTGTATGC AGGGTGGCCC GGGGGGTCTT CTGCTGTGTG
    TACAACCCAG GAAGGGACCA GCTGCTCACT GGGGGGACTG GGGGGGTACA ATTATGGGCC
    TTCAGCGAGG GCTCGTGGCA CCTAACTTGC AAGCAGGTTT TAAAAGAAGG ACTGAAGGAG
    ACAGATAGGG TTAATATTAT TGCCCTGGAC ACGGCCGCGC CACTGGCACA TACGTGTTTT
    GCTGTGTGTG GGGCAGGCGT GTGGGAGTAT GACCTGGGGC ACGGAGAACT CCGGCGGGTG
    TGGAACAACC TTCACCTGAG ACCAATCACT GGGCTCATTT ACTCCCAATC TCGTCAGACT
    CTAATTACGG CTTCCAGAGA GGGGACCATC AAACTCTGGG GCAAATCAGC AGAACTGAAA
    GGTGTTTGTG TGGCGCACAC AGGCCCAGTC ACGGCTCTCT CATTCAGTTC TTCCGGGCGC
    TACTTTCTCT CCGGCTCAGA AGACCGGACT GTGCGTACGT GGGACTTGGA GACTCAGGAG
    CAGGTTGGGG AGCAGGTTCT GGCCCAGCCG GTTCTTGGGT TGGAGACGTT CCGGGCTGAT
    GGAAAATTCT TGGTCTCTCG CTCTGAGTTC TGCTTGGATT TGTGGCAAAT ACAGAACCTT
    TACCAGTACC ACACCCCCCT GGGGGCGAGT GTGACAGACA TGAAAGTGAG TGGGGGGCAG
    TTTGTGCCCA GAGTTGCCTG TCTGTGCTCG GACTCGGCCG TCAGGCTGGT GGCTACTGGC
    ACGGGGCAAT TACTCTCCAG CCTTGCCCTA GATGGCCCAT TGGCCATAGA GTTCTGCCCT
    CACACGGAGA GTGTCTATGT CCTTCTGAAG AATGGAGACC TCCTTAGGGC CAGCTCTGTG
    GGGAGCCCCA TGGGGGTCAG GAACACCCTG AGGGTCGGCT CTTCCCAAGC CCCTCCCCTG
    TGCCTCAGCC TGTACTGCGC CATCGCCGAC CAACAGAGCG CTGATTGGAT AGAAATGGGG
    AGAGAGAGAG AGCGCCAATT TACATCCGAC GGAGGCAAAA ACAGGTGA

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

    CloneID OXa60556
    Clone ID Related Accession (Same CDS sequence) XM_031904102.1
    Accession Version XM_031904102.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4119bp)
    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 97 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.2) 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 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
    ATGGAATCTA CTCCCATTAC CGACATAAAG GGCTCCCCAA GGCTACAAAC CTGGCAGGGA 
    ATGGAGACAA GAGCAGAGAA GAACCGGAAG GGAAGGGCGC TGTATTTGTG GGCTCGTCTT
    AGGGACGGAG TACGAAGCAC CGTGTATAAG ATGAGAAGAG CGGATCCCCA GCCACAGACT
    ATTGGCCACG GACTGCAGCT CGTATGCCAC TTGCCCTTTC GCAGAGCTCT GAGAGGGATC
    ACTTGGGTCT CCCAGCAGAA CCTCTTGCTT TCCCTGGATT CGGATGGACT GATCCGGCAG
    CACCATACGG ATGGGAGGGT ACAGGCTTGT GCCCAGGCTT CCCTGCCACT GTGTGGGCTC
    CTGTATGCGT GGCACAGCCA GAAGCTAGTG GCTTGGGCCC ATCAGGAACT GCGAGTGCTG
    GACACAACTC TTACCCCACT TACTGTATGC AGGGTGGCCC GGGGGGTCTT CTGCTGTGTG
    TACAACCCAG GAAGGGACCA GCTGCTCACT GGGGGGACTG GGGGGGTACA ATTATGGGCC
    TTCAGCGAGG GCTCGTGGCA CCTAACTTGC AAGCAGGTTT TAAAAGAAGG ACTGAAGGAG
    ACAGATAGGG TTAATATTAT TGCCCTGGAC ACGGCCGCGC CACTGGCACA TACGTGTTTT
    GCTGTGTGTG GGGCAGGCGT GTGGGAGTAT GACCTGGGGC ACGGAGAACT CCGGCGGGTG
    TGGAACAACC TTCACCTGAG ACCAATCACT GGGCTCATTT ACTCCCAATC TCGTCAGACT
    CTAATTACGG CTTCCAGAGA GGGGACCATC AAACTCTGGG GCAAATCAGC AGAACTGAAA
    GGTGTTTGTG TGGCGCACAC AGGCCCAGTC ACGGCTCTCT CATTCAGTTC TTCCGGGCGC
    TACTTTCTCT CCGGCTCAGA AGACCGGACT GTGCGTACGT GGGACTTGGA GACTCAGGAG
    CAGGTTGGGG AGCAGGTTCT GGCCCAGCCG GTTCTTGGGT TGGAGACGTT CCGGGCTGAT
    GGAAAATTCT TGGTCTCTCG CTCTGAGTTC TGCTTGGATT TGTGGCAAAT ACAGAACCTT
    TACCAGTACC ACACCCCCCT GGGGGCGAGT GTGACAGACA TGAAAGTGAG TGGGGGGCAG
    TTTGTGCCCA GAGTTGCCTG TCTGTGCTCG GACTCGGCCG TCAGGCTGGT GGCTACTGGC
    ACGGGGCAAT TACTCTCCAG CCTTGCCCTA GATGGCCCAT TGGCCATAGA GTTCTGCCCT
    CACACGGAGA GTGTCTATGT CCTTCTGAAG AATGGAGACC TCCTTAGGGC CAGCTCTGTG
    GGGAGCCCCA TGGGGGTCAG GAACACCCTG AGGGTCGGCT CTTCCCAAGC CCCTCCCCTG
    TGCCTCAGCC TGTACTGCGC CATCGCCGAC CAACAGAGCG CTGATTGGAT AGAAATGGGG
    AGAGAGAGAG AGCGCCAATT TACATCCGAC GGAGGCAAAA ACAGGTTTCT CCCTGTGATT
    GGCCTGGATG ATGGCACCAT TAGTGTGTGT GACTGGTACC CCAGCAGGGT ATTGTGCCAG
    CTGAAGGCTC ACAGCCCAGC GAGAGTGACA TCGCTCATGT CCAGTCCAGA GAACAGCTTT
    GTTCTATCTG CGGGCTCGGA TTGGACAATT CGGATCTGGC GAATGTTCCC TCACAGCGAG
    GGGGGCCTCA GCCCCCACAT GAGCTTTCTC TGTTCCCGCC CAATAGAGAG AATGTGCATG
    ATTGGCTCTC AGCTTTTTGT TTCCTTCCAC AACCAATCAA GTGGCAGCTC CAGCTTAGTG
    CAGTACTGTC TCCATAGCGC CACCCGCAGG GACCACTCGC CAGCCCAGGA CCATCAGCAA
    CAGATCACAG GTCTGTGTTC CTGCCCCACC CTGGGCCTAG TTGCCTCCTC TGGGAAGGAC
    AAGAAAATTC ACATCTGGAA CGAACACAAC CAGCTCCTTA GGGTCCTGTC CCTGGATTGT
    GCCCCCGAGA GCCTCGCATT CAGCAGCCAA TCAGCAGCTC TGTTACTGGG CATCAAAGGG
    CATGTTTGTT CCATCGACTT CACAGAACTC CTGCCGGTCA CTTACCAACT AAAGACAATG
    AGTGTGGAAC CCCCTTCTTT GGTGACTGAA CCCCCAGTTC CAGTTCAGGG ATCGGTGTCA
    CAGTCTCTTT CTGAAAATGA CAGGAATCGT TTCCTGCGCC CCCCTCCGTT GCCTTCACGG
    AGTGCAGTTC CCCCATGTAC CATCAATAAG GATCCCACAG AGCGGGACAG GATAAGGGAG
    GAATATGAGG CTCGGGCAGC GCTGTTATAC AGAGACCAGG AGCTGCTGCT TCTACTGAAA
    GGGAAAGTAA AGCCAAACAG GAAAATCCTA CCGAGCAGCG GGACCGAGGC CATGAAGCGA
    TATCTGCTGC GGCTCTATGG GGAGAGACCC AACATCCAGA TTCCTGTTTC GGACCCTATT
    GATGCGGAGG AGTCGCACTC AGACCCCCAG ACTCGCAGAC CCCCTCGTTT CACTGTAGGA
    GGCAATATGG CATTTGGTCA CAATCCTCTC CTGGGGGGGC CCAATCCGTA TCTGTCCCAA
    GATTCCCAGA ACATTCCGTG TTCCGGAGCT GTTCCTAATT CAGCGGTTCT GCAGCTCCTC
    CCACAATCAA AACCAGACGA GCAACGAGAA CTGGAAGAAA CAGCGCGGGA AAGAATCATG
    CCATTGTCTG AGAGTGAAAC AAAGCTCCGG GTCCCAGTGA GGGAACACTG GAAGGAGTTG
    GGAGAAGAGT GTGAGACAAG TGAAGAAGTA AATGATTTAG AGGAAGAAGA GAGGATCCTA
    CAGAGAATAT CACAGGCTGA AACCTTGGGG TCCTGTAAAA CTGACCCAGA AACCATTCAG
    CTTCCCCTGC GCCCCCTTCC ACCACTGACT GGCAGAGAGA GCCTGAGACG GAGAGCACAG
    ATGCCGTTTG CTTCACGAAT TCCTCAGAGG CAGCCAAAGT CACATTCCCC TGAGAGTACA
    GTGGAAGCTG CTGTGTCACC TGAGATCCCT TCCCTTCCGC TGCCGACATT CCCTTCTGAG
    CCGGAGCAGT TGGAAAGGCA CCAAATCCCC TCCCCTGATG AACCAGCACT AAATGGGTCC
    TCTGAGGAGC AACGTGTTGC GGCCCAACCA GTCCCTCCAT TCATGCTGCA ATACATACAG
    GAGACCTGGT TCACTGATAT TTTCCCTGAA GCAAAGGAAG AACTACACCA TGTATGTGAG
    GCTGAGTTTG TATCCCGACT TCTACACGGA CTCGCACATG TCGGCCATCC CATGCGCTCC
    GACATCCTGA TAGCTGTGAA GACTTTGCTA CTTAAAGGGC AACCTAAAAA CCTAAAAGAG
    ATTCACAGTT CTCTGATCCA AGCAATGAAT CCCACTCAAG GGCTGAATTT AGAGGTGCCT
    GAAGATCGGG ACTTTGTCTT CTCTTGCCTC CATATCCTGA CTGACCTGAG CTGTGCAACT
    AATGAGCTTG TTGTGGAATT AATAGTGATC TTTGTCCAGG TTCCTCCATC GTATTGGGGG
    CAAATGCCGG TGTTTTTCAA GAAGATTGGG GTGCATGACT CCCAGGGGTT TCTGGACAAG
    GAATTCAGTT CTTGGGCCAC CTGGGAATTG AGTGACAGGA GAAGAACTGA TGTGAGAGAC
    ATGTGTGAAC AGTGGCTTCT CTATTGGGCC CAACACTTGA AGGAAATTGG CAAAATGGGC
    ACAAACAAGG GCGCAGATTC CACCATTACT GTCACATTTG TTGAGGTTTT AAATTATTTC
    TGTAAAGTTC AAATGAAAAA AGAACTCGGA GCGATGAAAG AAGAATCAGT CCCAAATAGG
    AGCACGATCC TGGCTCTGCC GCCAATACGA AGGGAGCGAG CGTTGCTGAG ACTGGCAGAA
    AGGGGCGGGT CCCTGAGGCA CAGGGAGGCA CAGGACTGTC ACCCTGCCCC GGTTTGCCCG
    CCTTTGCTGC CGGAGATCAT CCCATTCATT AACCTTCCTC TCAAAAAGCT CACCCTTAAC
    CCACTAACTC CCGTGTTGGG TGTGCCCAGC CCTCTGCCTC TCAGCGGGTC CCACCGGTAC
    TTCGTGTGGC AGAGATCGTT TGGGTCCAGT TACTGCTAG

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

    RefSeq XP_031759962.1
    CDS66..4184
    Translation

    Target ORF information:

    RefSeq Version XM_031904102.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis WD repeat domain 97 (wdr97), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031904102.1

    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
    ATGGAATCTA CTCCCATTAC CGACATAAAG GGCTCCCCAA GGCTACAAAC CTGGCAGGGA 
    ATGGAGACAA GAGCAGAGAA GAACCGGAAG GGAAGGGCGC TGTATTTGTG GGCTCGTCTT
    AGGGACGGAG TACGAAGCAC CGTGTATAAG ATGAGAAGAG CGGATCCCCA GCCACAGACT
    ATTGGCCACG GACTGCAGCT CGTATGCCAC TTGCCCTTTC GCAGAGCTCT GAGAGGGATC
    ACTTGGGTCT CCCAGCAGAA CCTCTTGCTT TCCCTGGATT CGGATGGACT GATCCGGCAG
    CACCATACGG ATGGGAGGGT ACAGGCTTGT GCCCAGGCTT CCCTGCCACT GTGTGGGCTC
    CTGTATGCGT GGCACAGCCA GAAGCTAGTG GCTTGGGCCC ATCAGGAACT GCGAGTGCTG
    GACACAACTC TTACCCCACT TACTGTATGC AGGGTGGCCC GGGGGGTCTT CTGCTGTGTG
    TACAACCCAG GAAGGGACCA GCTGCTCACT GGGGGGACTG GGGGGGTACA ATTATGGGCC
    TTCAGCGAGG GCTCGTGGCA CCTAACTTGC AAGCAGGTTT TAAAAGAAGG ACTGAAGGAG
    ACAGATAGGG TTAATATTAT TGCCCTGGAC ACGGCCGCGC CACTGGCACA TACGTGTTTT
    GCTGTGTGTG GGGCAGGCGT GTGGGAGTAT GACCTGGGGC ACGGAGAACT CCGGCGGGTG
    TGGAACAACC TTCACCTGAG ACCAATCACT GGGCTCATTT ACTCCCAATC TCGTCAGACT
    CTAATTACGG CTTCCAGAGA GGGGACCATC AAACTCTGGG GCAAATCAGC AGAACTGAAA
    GGTGTTTGTG TGGCGCACAC AGGCCCAGTC ACGGCTCTCT CATTCAGTTC TTCCGGGCGC
    TACTTTCTCT CCGGCTCAGA AGACCGGACT GTGCGTACGT GGGACTTGGA GACTCAGGAG
    CAGGTTGGGG AGCAGGTTCT GGCCCAGCCG GTTCTTGGGT TGGAGACGTT CCGGGCTGAT
    GGAAAATTCT TGGTCTCTCG CTCTGAGTTC TGCTTGGATT TGTGGCAAAT ACAGAACCTT
    TACCAGTACC ACACCCCCCT GGGGGCGAGT GTGACAGACA TGAAAGTGAG TGGGGGGCAG
    TTTGTGCCCA GAGTTGCCTG TCTGTGCTCG GACTCGGCCG TCAGGCTGGT GGCTACTGGC
    ACGGGGCAAT TACTCTCCAG CCTTGCCCTA GATGGCCCAT TGGCCATAGA GTTCTGCCCT
    CACACGGAGA GTGTCTATGT CCTTCTGAAG AATGGAGACC TCCTTAGGGC CAGCTCTGTG
    GGGAGCCCCA TGGGGGTCAG GAACACCCTG AGGGTCGGCT CTTCCCAAGC CCCTCCCCTG
    TGCCTCAGCC TGTACTGCGC CATCGCCGAC CAACAGAGCG CTGATTGGAT AGAAATGGGG
    AGAGAGAGAG AGCGCCAATT TACATCCGAC GGAGGCAAAA ACAGGTTTCT CCCTGTGATT
    GGCCTGGATG ATGGCACCAT TAGTGTGTGT GACTGGTACC CCAGCAGGGT ATTGTGCCAG
    CTGAAGGCTC ACAGCCCAGC GAGAGTGACA TCGCTCATGT CCAGTCCAGA GAACAGCTTT
    GTTCTATCTG CGGGCTCGGA TTGGACAATT CGGATCTGGC GAATGTTCCC TCACAGCGAG
    GGGGGCCTCA GCCCCCACAT GAGCTTTCTC TGTTCCCGCC CAATAGAGAG AATGTGCATG
    ATTGGCTCTC AGCTTTTTGT TTCCTTCCAC AACCAATCAA GTGGCAGCTC CAGCTTAGTG
    CAGTACTGTC TCCATAGCGC CACCCGCAGG GACCACTCGC CAGCCCAGGA CCATCAGCAA
    CAGATCACAG GTCTGTGTTC CTGCCCCACC CTGGGCCTAG TTGCCTCCTC TGGGAAGGAC
    AAGAAAATTC ACATCTGGAA CGAACACAAC CAGCTCCTTA GGGTCCTGTC CCTGGATTGT
    GCCCCCGAGA GCCTCGCATT CAGCAGCCAA TCAGCAGCTC TGTTACTGGG CATCAAAGGG
    CATGTTTGTT CCATCGACTT CACAGAACTC CTGCCGGTCA CTTACCAACT AAAGACAATG
    AGTGTGGAAC CCCCTTCTTT GGTGACTGAA CCCCCAGTTC CAGTTCAGGG ATCGGTGTCA
    CAGTCTCTTT CTGAAAATGA CAGGAATCGT TTCCTGCGCC CCCCTCCGTT GCCTTCACGG
    AGTGCAGTTC CCCCATGTAC CATCAATAAG GATCCCACAG AGCGGGACAG GATAAGGGAG
    GAATATGAGG CTCGGGCAGC GCTGTTATAC AGAGACCAGG AGCTGCTGCT TCTACTGAAA
    GGGAAAGTAA AGCCAAACAG GAAAATCCTA CCGAGCAGCG GGACCGAGGC CATGAAGCGA
    TATCTGCTGC GGCTCTATGG GGAGAGACCC AACATCCAGA TTCCTGTTTC GGACCCTATT
    GATGCGGAGG AGTCGCACTC AGACCCCCAG ACTCGCAGAC CCCCTCGTTT CACTGTAGGA
    GGCAATATGG CATTTGGTCA CAATCCTCTC CTGGGGGGGC CCAATCCGTA TCTGTCCCAA
    GATTCCCAGA ACATTCCGTG TTCCGGAGCT GTTCCTAATT CAGCGGTTCT GCAGCTCCTC
    CCACAATCAA AACCAGACGA GCAACGAGAA CTGGAAGAAA CAGCGCGGGA AAGAATCATG
    CCATTGTCTG AGAGTGAAAC AAAGCTCCGG GTCCCAGTGA GGGAACACTG GAAGGAGTTG
    GGAGAAGAGT GTGAGACAAG TGAAGAAGTA AATGATTTAG AGGAAGAAGA GAGGATCCTA
    CAGAGAATAT CACAGGCTGA AACCTTGGGG TCCTGTAAAA CTGACCCAGA AACCATTCAG
    CTTCCCCTGC GCCCCCTTCC ACCACTGACT GGCAGAGAGA GCCTGAGACG GAGAGCACAG
    ATGCCGTTTG CTTCACGAAT TCCTCAGAGG CAGCCAAAGT CACATTCCCC TGAGAGTACA
    GTGGAAGCTG CTGTGTCACC TGAGATCCCT TCCCTTCCGC TGCCGACATT CCCTTCTGAG
    CCGGAGCAGT TGGAAAGGCA CCAAATCCCC TCCCCTGATG AACCAGCACT AAATGGGTCC
    TCTGAGGAGC AACGTGTTGC GGCCCAACCA GTCCCTCCAT TCATGCTGCA ATACATACAG
    GAGACCTGGT TCACTGATAT TTTCCCTGAA GCAAAGGAAG AACTACACCA TGTATGTGAG
    GCTGAGTTTG TATCCCGACT TCTACACGGA CTCGCACATG TCGGCCATCC CATGCGCTCC
    GACATCCTGA TAGCTGTGAA GACTTTGCTA CTTAAAGGGC AACCTAAAAA CCTAAAAGAG
    ATTCACAGTT CTCTGATCCA AGCAATGAAT CCCACTCAAG GGCTGAATTT AGAGGTGCCT
    GAAGATCGGG ACTTTGTCTT CTCTTGCCTC CATATCCTGA CTGACCTGAG CTGTGCAACT
    AATGAGCTTG TTGTGGAATT AATAGTGATC TTTGTCCAGG TTCCTCCATC GTATTGGGGG
    CAAATGCCGG TGTTTTTCAA GAAGATTGGG GTGCATGACT CCCAGGGGTT TCTGGACAAG
    GAATTCAGTT CTTGGGCCAC CTGGGAATTG AGTGACAGGA GAAGAACTGA TGTGAGAGAC
    ATGTGTGAAC AGTGGCTTCT CTATTGGGCC CAACACTTGA AGGAAATTGG CAAAATGGGC
    ACAAACAAGG GCGCAGATTC CACCATTACT GTCACATTTG TTGAGGTTTT AAATTATTTC
    TGTAAAGTTC AAATGAAAAA AGAACTCGGA GCGATGAAAG AAGAATCAGT CCCAAATAGG
    AGCACGATCC TGGCTCTGCC GCCAATACGA AGGGAGCGAG CGTTGCTGAG ACTGGCAGAA
    AGGGGCGGGT CCCTGAGGCA CAGGGAGGCA CAGGACTGTC ACCCTGCCCC GGTTTGCCCG
    CCTTTGCTGC CGGAGATCAT CCCATTCATT AACCTTCCTC TCAAAAAGCT CACCCTTAAC
    CCACTAACTC CCGTGTTGGG TGTGCCCAGC CCTCTGCCTC TCAGCGGGTC CCACCGGTAC
    TTCGTGTGGC AGAGATCGTT TGGGTCCAGT TACTGCTAG

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

    CloneID OXa60557
    Clone ID Related Accession (Same CDS sequence) XM_031904103.1
    Accession Version XM_031904103.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3969bp)
    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 97 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.2) 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 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
    ATGGAATCTA CTCCCATTAC CGACATAAAG GGCTCCCCAA GGCTACAAAC CTGGCAGGGA 
    ATGGAGACAA GAGCAGAGAA GAACCGGAAG GGAAGGGCGC TGTATTTGTG GGCTCGTCTT
    AGGGACGGAG TACGAAGCAC CGTGTATAAG ATGAGAAGAG CGGATCCCCA GCCACAGACT
    ATTGGCCACG GACTGCAGCT CGTATGCCAC TTGCCCTTTC GCAGAGCTCT GAGAGGGATC
    ACTTGGGTCT CCCAGCAGAA CCTCTTGCTT TCCCTGGATT CGGATGGACT GATCCGGCAG
    CACCATACGG ATGGGAGGGT ACAGGCTTGT GCCCAGGCTT CCCTGCCACT GTGTGGGCTC
    CTGTATGCGT GGCACAGCCA GAAGCTAGTG GCTTGGGCCC ATCAGGAACT GCGAGTGCTG
    GACACAACTC TTACCCCACT TACTGTATGC AGGGTGGCCC GGGGGGTCTT CTGCTGTGTG
    TACAACCCAG GAAGGGACCA GCTGCTCACT GGGGGGACTG GGGGGGTACA ATTATGGGCC
    TTCAGCGAGG GCTCGTGGCA CCTAACTTGC AAGCAGGTTT TAAAAGAAGG ACTGAAGGAG
    ACAGATAGGG TTAATATTAT TGCCCTGGAC ACGGCCGCGC CACTGGCACA TACGTGTTTT
    GCTGTGTGTG GGGCAGGCGT GTGGGAGTAT GACCTGGGGC ACGGAGAACT CCGGCGGGTG
    TGGAACAACC TTCACCTGAG ACCAATCACT GGGCTCATTT ACTCCCAATC TCGTCAGACT
    CTAATTACGG CTTCCAGAGA GGGGACCATC AAACTCTGGG GCAAATCAGC AGAACTGAAA
    GGTGTTTGTG TGGCGCACAC AGGCCCAGTC ACGGCTCTCT CATTCAGTTC TTCCGGGCGC
    TACTTTCTCT CCGGCTCAGA AGACCGGACT GTGCGTACGT GGGACTTGGA GACTCAGGAG
    CAGGTTGGGG AGCAGGTTCT GGCCCAGCCG GTTCTTGGGT TGGAGACGTT CCGGGCTGAT
    GGAAAATTCT TGGTCTCTCG CTCTGAGTTC TGCTTGGATT TGTGGCAAAT ACAGAACCTT
    TACCAGTACC ACACCCCCCT GGGGGCGAGT GTGACAGACA TGAAAGTGAG TGGGGGGCAG
    TTTGTGCCCA GAGTTGCCTG TCTGTGCTCG GACTCGGCCG TCAGGCTGGT GGCTACTGGC
    ACGGGGCAAT TACTCTCCAG CCTTGCCCTA GATGGCCCAT TGGCCATAGA GTTCTGCCCT
    CACACGGAGA GTGTCTATGT CCTTCTGAAG AATGGAGACC TCCTTAGGGC CAGCTCTGTG
    GGGAGCCCCA TGGGGGTCAG GAACACCCTG AGGGTCGGCT CTTCCCAAGC CCCTCCCCTG
    TGCCTCAGCC TGTACTGCGC CATCGCCGAC CAACAGAGCG CTGATTGGAT AGAAATGGGG
    AGAGAGAGAG AGCGCCAATT TACATCCGAC GGAGGCAAAA ACAGGTTTCT CCCTGTGATT
    GGCCTGGATG ATGGCACCAT TAGTGTGTGT GACTGGTACC CCAGCAGGGT ATTGTGCCAG
    CTGAAGGCTC ACAGCCCAGC GAGAGTGACA TCGCTCATGT CCAGTCCAGA GAACAGCTTT
    GTTCTATCTG CGGGCTCGGA TTGGACAATT CGGATCTGGC GAATGTTCCC TCACAGCGAG
    GGGGGCCTCA GCCCCCACAT GAGCTTTCTC TGTTCCCGCC CAATAGAGAG AATGTGCATG
    ATTGGCTCTC AGCTTTTTGT TTCCTTCCAC AACCAATCAA GTGGCAGCTC CAGCTTAGTG
    CAGTACTGTC TCCATAGCGC CACCCGCAGG GACCACTCGC CAGCCCAGGA CCATCAGCAA
    CAGATCACAG GTCTGTGTTC CTGCCCCACC CTGGGCCTAG TTGCCTCCTC TGGGAAGGAC
    AAGAAAATTC ACATCTGGAA CGAACACAAC CAGCTCCTTA GGGTCCTGTC CCTGGATTGT
    GCCCCCGAGA GCCTCGCATT CAGCAGCCAA TCAGCAGCTC TGTTACTGGG CATCAAAGGG
    CATGTTTGTT CCATCGACTT CACAGAACTC CTGCCGGTCA CTTACCAACT AAAGACAATG
    AGTGTGGAAC CCCCTTCTTT GGTGACTGAA CCCCCAGTTC CAGTTCAGGG ATCGGTGTCA
    CAGTCTCTTT CTGAAAATGA CAGGAATCGT TTCCTGCGCC CCCCTCCGTT GCCTTCACGG
    AGTGCAGTTC CCCCATGTAC CATCAATAAG GATCCCACAG AGCGGGACAG GATAAGGGAG
    GAATATGAGG CTCGGGCAGC GCTGTTATAC AGAGACCAGG AGCTGCTGCT TCTACTGAAA
    GGGAAAGTAA AGCCAAACAG GAAAATCCTA CCGAGCAGCG GGACCGAGGC CATGAAGCGA
    TATCTGCTGC GGCTCTATGG GGAGAGACCC AACATCCAGA ACATTCCGTG TTCCGGAGCT
    GTTCCTAATT CAGCGGTTCT GCAGCTCCTC CCACAATCAA AACCAGACGA GCAACGAGAA
    CTGGAAGAAA CAGCGCGGGA AAGAATCATG CCATTGTCTG AGAGTGAAAC AAAGCTCCGG
    GTCCCAGTGA GGGAACACTG GAAGGAGTTG GGAGAAGAGT GTGAGACAAG TGAAGAAGTA
    AATGATTTAG AGGAAGAAGA GAGGATCCTA CAGAGAATAT CACAGGCTGA AACCTTGGGG
    TCCTGTAAAA CTGACCCAGA AACCATTCAG CTTCCCCTGC GCCCCCTTCC ACCACTGACT
    GGCAGAGAGA GCCTGAGACG GAGAGCACAG ATGCCGTTTG CTTCACGAAT TCCTCAGAGG
    CAGCCAAAGT CACATTCCCC TGAGAGTACA GTGGAAGCTG CTGTGTCACC TGAGATCCCT
    TCCCTTCCGC TGCCGACATT CCCTTCTGAG CCGGAGCAGT TGGAAAGGCA CCAAATCCCC
    TCCCCTGATG AACCAGCACT AAATGGGTCC TCTGAGGAGC AACGTGTTGC GGCCCAACCA
    GTCCCTCCAT TCATGCTGCA ATACATACAG GAGACCTGGT TCACTGATAT TTTCCCTGAA
    GCAAAGGAAG AACTACACCA TGTATGTGAG GCTGAGTTTG TATCCCGACT TCTACACGGA
    CTCGCACATG TCGGCCATCC CATGCGCTCC GACATCCTGA TAGCTGTGAA GACTTTGCTA
    CTTAAAGGGC AACCTAAAAA CCTAAAAGAG ATTCACAGTT CTCTGATCCA AGCAATGAAT
    CCCACTCAAG GGCTGAATTT AGAGGTGCCT GAAGATCGGG ACTTTGTCTT CTCTTGCCTC
    CATATCCTGA CTGACCTGAG CTGTGCAACT AATGAGCTTG TTGTGGAATT AATAGTGATC
    TTTGTCCAGG TTCCTCCATC GTATTGGGGG CAAATGCCGG TGTTTTTCAA GAAGATTGGG
    GTGCATGACT CCCAGGGGTT TCTGGACAAG GAATTCAGTT CTTGGGCCAC CTGGGAATTG
    AGTGACAGGA GAAGAACTGA TGTGAGAGAC ATGTGTGAAC AGTGGCTTCT CTATTGGGCC
    CAACACTTGA AGGAAATTGG CAAAATGGGC ACAAACAAGG GCGCAGATTC CACCATTACT
    GTCACATTTG TTGAGGTTTT AAATTATTTC TGTAAAGTTC AAATGAAAAA AGAACTCGGA
    GCGATGAAAG AAGAATCAGT CCCAAATAGG AGCACGATCC TGGCTCTGCC GCCAATACGA
    AGGGAGCGAG CGTTGCTGAG ACTGGCAGAA AGGGGCGGGT CCCTGAGGCA CAGGGAGGCA
    CAGGACTGTC ACCCTGCCCC GGTTTGCCCG CCTTTGCTGC CGGAGATCAT CCCATTCATT
    AACCTTCCTC TCAAAAAGCT CACCCTTAAC CCACTAACTC CCGTGTTGGG TGTGCCCAGC
    CCTCTGCCTC TCAGCGGGTC CCACCGGTAC TTCGTGTGGC AGAGATCGTT TGGGTCCAGT
    TACTGCTAG

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

    RefSeq XP_031759963.1
    CDS66..4034
    Translation

    Target ORF information:

    RefSeq Version XM_031904103.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis WD repeat domain 97 (wdr97), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031904103.1

    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
    ATGGAATCTA CTCCCATTAC CGACATAAAG GGCTCCCCAA GGCTACAAAC CTGGCAGGGA 
    ATGGAGACAA GAGCAGAGAA GAACCGGAAG GGAAGGGCGC TGTATTTGTG GGCTCGTCTT
    AGGGACGGAG TACGAAGCAC CGTGTATAAG ATGAGAAGAG CGGATCCCCA GCCACAGACT
    ATTGGCCACG GACTGCAGCT CGTATGCCAC TTGCCCTTTC GCAGAGCTCT GAGAGGGATC
    ACTTGGGTCT CCCAGCAGAA CCTCTTGCTT TCCCTGGATT CGGATGGACT GATCCGGCAG
    CACCATACGG ATGGGAGGGT ACAGGCTTGT GCCCAGGCTT CCCTGCCACT GTGTGGGCTC
    CTGTATGCGT GGCACAGCCA GAAGCTAGTG GCTTGGGCCC ATCAGGAACT GCGAGTGCTG
    GACACAACTC TTACCCCACT TACTGTATGC AGGGTGGCCC GGGGGGTCTT CTGCTGTGTG
    TACAACCCAG GAAGGGACCA GCTGCTCACT GGGGGGACTG GGGGGGTACA ATTATGGGCC
    TTCAGCGAGG GCTCGTGGCA CCTAACTTGC AAGCAGGTTT TAAAAGAAGG ACTGAAGGAG
    ACAGATAGGG TTAATATTAT TGCCCTGGAC ACGGCCGCGC CACTGGCACA TACGTGTTTT
    GCTGTGTGTG GGGCAGGCGT GTGGGAGTAT GACCTGGGGC ACGGAGAACT CCGGCGGGTG
    TGGAACAACC TTCACCTGAG ACCAATCACT GGGCTCATTT ACTCCCAATC TCGTCAGACT
    CTAATTACGG CTTCCAGAGA GGGGACCATC AAACTCTGGG GCAAATCAGC AGAACTGAAA
    GGTGTTTGTG TGGCGCACAC AGGCCCAGTC ACGGCTCTCT CATTCAGTTC TTCCGGGCGC
    TACTTTCTCT CCGGCTCAGA AGACCGGACT GTGCGTACGT GGGACTTGGA GACTCAGGAG
    CAGGTTGGGG AGCAGGTTCT GGCCCAGCCG GTTCTTGGGT TGGAGACGTT CCGGGCTGAT
    GGAAAATTCT TGGTCTCTCG CTCTGAGTTC TGCTTGGATT TGTGGCAAAT ACAGAACCTT
    TACCAGTACC ACACCCCCCT GGGGGCGAGT GTGACAGACA TGAAAGTGAG TGGGGGGCAG
    TTTGTGCCCA GAGTTGCCTG TCTGTGCTCG GACTCGGCCG TCAGGCTGGT GGCTACTGGC
    ACGGGGCAAT TACTCTCCAG CCTTGCCCTA GATGGCCCAT TGGCCATAGA GTTCTGCCCT
    CACACGGAGA GTGTCTATGT CCTTCTGAAG AATGGAGACC TCCTTAGGGC CAGCTCTGTG
    GGGAGCCCCA TGGGGGTCAG GAACACCCTG AGGGTCGGCT CTTCCCAAGC CCCTCCCCTG
    TGCCTCAGCC TGTACTGCGC CATCGCCGAC CAACAGAGCG CTGATTGGAT AGAAATGGGG
    AGAGAGAGAG AGCGCCAATT TACATCCGAC GGAGGCAAAA ACAGGTTTCT CCCTGTGATT
    GGCCTGGATG ATGGCACCAT TAGTGTGTGT GACTGGTACC CCAGCAGGGT ATTGTGCCAG
    CTGAAGGCTC ACAGCCCAGC GAGAGTGACA TCGCTCATGT CCAGTCCAGA GAACAGCTTT
    GTTCTATCTG CGGGCTCGGA TTGGACAATT CGGATCTGGC GAATGTTCCC TCACAGCGAG
    GGGGGCCTCA GCCCCCACAT GAGCTTTCTC TGTTCCCGCC CAATAGAGAG AATGTGCATG
    ATTGGCTCTC AGCTTTTTGT TTCCTTCCAC AACCAATCAA GTGGCAGCTC CAGCTTAGTG
    CAGTACTGTC TCCATAGCGC CACCCGCAGG GACCACTCGC CAGCCCAGGA CCATCAGCAA
    CAGATCACAG GTCTGTGTTC CTGCCCCACC CTGGGCCTAG TTGCCTCCTC TGGGAAGGAC
    AAGAAAATTC ACATCTGGAA CGAACACAAC CAGCTCCTTA GGGTCCTGTC CCTGGATTGT
    GCCCCCGAGA GCCTCGCATT CAGCAGCCAA TCAGCAGCTC TGTTACTGGG CATCAAAGGG
    CATGTTTGTT CCATCGACTT CACAGAACTC CTGCCGGTCA CTTACCAACT AAAGACAATG
    AGTGTGGAAC CCCCTTCTTT GGTGACTGAA CCCCCAGTTC CAGTTCAGGG ATCGGTGTCA
    CAGTCTCTTT CTGAAAATGA CAGGAATCGT TTCCTGCGCC CCCCTCCGTT GCCTTCACGG
    AGTGCAGTTC CCCCATGTAC CATCAATAAG GATCCCACAG AGCGGGACAG GATAAGGGAG
    GAATATGAGG CTCGGGCAGC GCTGTTATAC AGAGACCAGG AGCTGCTGCT TCTACTGAAA
    GGGAAAGTAA AGCCAAACAG GAAAATCCTA CCGAGCAGCG GGACCGAGGC CATGAAGCGA
    TATCTGCTGC GGCTCTATGG GGAGAGACCC AACATCCAGA ACATTCCGTG TTCCGGAGCT
    GTTCCTAATT CAGCGGTTCT GCAGCTCCTC CCACAATCAA AACCAGACGA GCAACGAGAA
    CTGGAAGAAA CAGCGCGGGA AAGAATCATG CCATTGTCTG AGAGTGAAAC AAAGCTCCGG
    GTCCCAGTGA GGGAACACTG GAAGGAGTTG GGAGAAGAGT GTGAGACAAG TGAAGAAGTA
    AATGATTTAG AGGAAGAAGA GAGGATCCTA CAGAGAATAT CACAGGCTGA AACCTTGGGG
    TCCTGTAAAA CTGACCCAGA AACCATTCAG CTTCCCCTGC GCCCCCTTCC ACCACTGACT
    GGCAGAGAGA GCCTGAGACG GAGAGCACAG ATGCCGTTTG CTTCACGAAT TCCTCAGAGG
    CAGCCAAAGT CACATTCCCC TGAGAGTACA GTGGAAGCTG CTGTGTCACC TGAGATCCCT
    TCCCTTCCGC TGCCGACATT CCCTTCTGAG CCGGAGCAGT TGGAAAGGCA CCAAATCCCC
    TCCCCTGATG AACCAGCACT AAATGGGTCC TCTGAGGAGC AACGTGTTGC GGCCCAACCA
    GTCCCTCCAT TCATGCTGCA ATACATACAG GAGACCTGGT TCACTGATAT TTTCCCTGAA
    GCAAAGGAAG AACTACACCA TGTATGTGAG GCTGAGTTTG TATCCCGACT TCTACACGGA
    CTCGCACATG TCGGCCATCC CATGCGCTCC GACATCCTGA TAGCTGTGAA GACTTTGCTA
    CTTAAAGGGC AACCTAAAAA CCTAAAAGAG ATTCACAGTT CTCTGATCCA AGCAATGAAT
    CCCACTCAAG GGCTGAATTT AGAGGTGCCT GAAGATCGGG ACTTTGTCTT CTCTTGCCTC
    CATATCCTGA CTGACCTGAG CTGTGCAACT AATGAGCTTG TTGTGGAATT AATAGTGATC
    TTTGTCCAGG TTCCTCCATC GTATTGGGGG CAAATGCCGG TGTTTTTCAA GAAGATTGGG
    GTGCATGACT CCCAGGGGTT TCTGGACAAG GAATTCAGTT CTTGGGCCAC CTGGGAATTG
    AGTGACAGGA GAAGAACTGA TGTGAGAGAC ATGTGTGAAC AGTGGCTTCT CTATTGGGCC
    CAACACTTGA AGGAAATTGG CAAAATGGGC ACAAACAAGG GCGCAGATTC CACCATTACT
    GTCACATTTG TTGAGGTTTT AAATTATTTC TGTAAAGTTC AAATGAAAAA AGAACTCGGA
    GCGATGAAAG AAGAATCAGT CCCAAATAGG AGCACGATCC TGGCTCTGCC GCCAATACGA
    AGGGAGCGAG CGTTGCTGAG ACTGGCAGAA AGGGGCGGGT CCCTGAGGCA CAGGGAGGCA
    CAGGACTGTC ACCCTGCCCC GGTTTGCCCG CCTTTGCTGC CGGAGATCAT CCCATTCATT
    AACCTTCCTC TCAAAAAGCT CACCCTTAAC CCACTAACTC CCGTGTTGGG TGTGCCCAGC
    CCTCTGCCTC TCAGCGGGTC CCACCGGTAC TTCGTGTGGC AGAGATCGTT TGGGTCCAGT
    TACTGCTAG

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

    CloneID OXa60558
    Clone ID Related Accession (Same CDS sequence) XM_031904104.1
    Accession Version XM_031904104.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3882bp)
    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 97 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.2) 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 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
    ATGGAATCTA CTCCCATTAC CGACATAAAG GGCTCCCCAA GGCTACAAAC CTGGCAGGGA 
    ATGGAGACAA GAGCAGAGAA GAACCGGAAG GGAAGGGCGC TGTATTTGTG GGCTCGTCTT
    AGGGACGGAG TACGAAGCAC CGTGTATAAG ATGAGAAGAG CGGATCCCCA GCCACAGACT
    ATTGGCCACG GACTGCAGCT CGTATGCCAC TTGCCCTTTC GCAGAGCTCT GAGAGGGATC
    ACTTGGGTCT CCCAGCAGAA CCTCTTGCTT TCCCTGGATT CGGATGGACT GATCCGGCAG
    CACCATACGG ATGGGAGGGT ACAGGCTTGT GCCCAGGCTT CCCTGCCACT GTGTGGGCTC
    CTGTATGCGT GGCACAGCCA GAAGCTAGTG GCTTGGGCCC ATCAGGAACT GCGAGTGCTG
    GACACAACTC TTACCCCACT TACTGTATGC AGGGTGGCCC GGGGGGTCTT CTGCTGTGTG
    TACAACCCAG GAAGGGACCA GCTGCTCACT GGGGGGACTG GGGGGGTACA ATTATGGGCC
    TTCAGCGAGG GCTCGTGGCA CCTAACTTGC AAGCAGGTTT TAAAAGAAGG ACTGAAGGAG
    ACAGATAGGG TTAATATTAT TGCCCTGGAC ACGGCCGCGC CACTGGCACA TACGTGTTTT
    GCTGTGTGTG GGGCAGGCGT GTGGGAGTAT GACCTGGGGC ACGGAGAACT CCGGCGGGTG
    TGGAACAACC TTCACCTGAG ACCAATCACT GGGCTCATTT ACTCCCAATC TCGTCAGACT
    CTAATTACGG CTTCCAGAGA GGGGACCATC AAACTCTGGG GCAAATCAGC AGAACTGAAA
    GGTGTTTGTG TGGCGCACAC AGGCCCAGTC ACGGCTCTCT CATTCAGTTC TTCCGGGCGC
    TACTTTCTCT CCGGCTCAGA AGACCGGACT GTGCGTACGT GGGACTTGGA GACTCAGGAG
    CAGGTTGGGG AGCAGGTTCT GGCCCAGCCG GTTCTTGGGT TGGAGACGTT CCGGGCTGAT
    GGAAAATTCT TGGTCTCTCG CTCTGAGTTC TGCTTGGATT TGTGGCAAAT ACAGAACCTT
    TACCAGTACC ACACCCCCCT GGGGGCGAGT GTGACAGACA TGAAAGTGAG TGGGGGGCAG
    TTTGTGCCCA GAGTTGCCTG TCTGTGCTCG GACTCGGCCG TCAGGCTGGT GGCTACTGGC
    ACGGGGCAAT TACTCTCCAG CCTTGCCCTA GATGGCCCAT TGGCCATAGA GTTCTGCCCT
    CACACGGAGA GTGTCTATGT CCTTCTGAAG AATGGAGACC TCCTTAGGGC CAGCTCTGTG
    GGGAGCCCCA TGGGGGTCAG GAACACCCTG AGGGTCGGCT CTTCCCAAGC CCCTCCCCTG
    TGCCTCAGCC TGTACTGCGC CATCGCCGAC CAACAGAGCG CTGATTGGAT AGAAATGGGG
    AGAGAGAGAG AGCGCCAATT TACATCCGAC GGAGGCAAAA ACAGGTTTCT CCCTGTGATT
    GGCCTGGATG ATGGCACCAT TAGTGTGTGT GACTGGTACC CCAGCAGGGT ATTGTGCCAG
    CTGAAGGCTC ACAGCCCAGC GAGAGTGACA TCGCTCATGT CCAGTCCAGA GAACAGCTTT
    GTTCTATCTG CGGGTCTGTG TTCCTGCCCC ACCCTGGGCC TAGTTGCCTC CTCTGGGAAG
    GACAAGAAAA TTCACATCTG GAACGAACAC AACCAGCTCC TTAGGGTCCT GTCCCTGGAT
    TGTGCCCCCG AGAGCCTCGC ATTCAGCAGC CAATCAGCAG CTCTGTTACT GGGCATCAAA
    GGGCATGTTT GTTCCATCGA CTTCACAGAA CTCCTGCCGG TCACTTACCA ACTAAAGACA
    ATGAGTGTGG AACCCCCTTC TTTGGTGACT GAACCCCCAG TTCCAGTTCA GGGATCGGTG
    TCACAGTCTC TTTCTGAAAA TGACAGGAAT CGTTTCCTGC GCCCCCCTCC GTTGCCTTCA
    CGGAGTGCAG TTCCCCCATG TACCATCAAT AAGGATCCCA CAGAGCGGGA CAGGATAAGG
    GAGGAATATG AGGCTCGGGC AGCGCTGTTA TACAGAGACC AGGAGCTGCT GCTTCTACTG
    AAAGGGAAAG TAAAGCCAAA CAGGAAAATC CTACCGAGCA GCGGGACCGA GGCCATGAAG
    CGATATCTGC TGCGGCTCTA TGGGGAGAGA CCCAACATCC AGATTCCTGT TTCGGACCCT
    ATTGATGCGG AGGAGTCGCA CTCAGACCCC CAGACTCGCA GACCCCCTCG TTTCACTGTA
    GGAGGCAATA TGGCATTTGG TCACAATCCT CTCCTGGGGG GGCCCAATCC GTATCTGTCC
    CAAGATTCCC AGAACATTCC GTGTTCCGGA GCTGTTCCTA ATTCAGCGGT TCTGCAGCTC
    CTCCCACAAT CAAAACCAGA CGAGCAACGA GAACTGGAAG AAACAGCGCG GGAAAGAATC
    ATGCCATTGT CTGAGAGTGA AACAAAGCTC CGGGTCCCAG TGAGGGAACA CTGGAAGGAG
    TTGGGAGAAG AGTGTGAGAC AAGTGAAGAA GTAAATGATT TAGAGGAAGA AGAGAGGATC
    CTACAGAGAA TATCACAGGC TGAAACCTTG GGGTCCTGTA AAACTGACCC AGAAACCATT
    CAGCTTCCCC TGCGCCCCCT TCCACCACTG ACTGGCAGAG AGAGCCTGAG ACGGAGAGCA
    CAGATGCCGT TTGCTTCACG AATTCCTCAG AGGCAGCCAA AGTCACATTC CCCTGAGAGT
    ACAGTGGAAG CTGCTGTGTC ACCTGAGATC CCTTCCCTTC CGCTGCCGAC ATTCCCTTCT
    GAGCCGGAGC AGTTGGAAAG GCACCAAATC CCCTCCCCTG ATGAACCAGC ACTAAATGGG
    TCCTCTGAGG AGCAACGTGT TGCGGCCCAA CCAGTCCCTC CATTCATGCT GCAATACATA
    CAGGAGACCT GGTTCACTGA TATTTTCCCT GAAGCAAAGG AAGAACTACA CCATGTATGT
    GAGGCTGAGT TTGTATCCCG ACTTCTACAC GGACTCGCAC ATGTCGGCCA TCCCATGCGC
    TCCGACATCC TGATAGCTGT GAAGACTTTG CTACTTAAAG GGCAACCTAA AAACCTAAAA
    GAGATTCACA GTTCTCTGAT CCAAGCAATG AATCCCACTC AAGGGCTGAA TTTAGAGGTG
    CCTGAAGATC GGGACTTTGT CTTCTCTTGC CTCCATATCC TGACTGACCT GAGCTGTGCA
    ACTAATGAGC TTGTTGTGGA ATTAATAGTG ATCTTTGTCC AGGTTCCTCC ATCGTATTGG
    GGGCAAATGC CGGTGTTTTT CAAGAAGATT GGGGTGCATG ACTCCCAGGG GTTTCTGGAC
    AAGGAATTCA GTTCTTGGGC CACCTGGGAA TTGAGTGACA GGAGAAGAAC TGATGTGAGA
    GACATGTGTG AACAGTGGCT TCTCTATTGG GCCCAACACT TGAAGGAAAT TGGCAAAATG
    GGCACAAACA AGGGCGCAGA TTCCACCATT ACTGTCACAT TTGTTGAGGT TTTAAATTAT
    TTCTGTAAAG TTCAAATGAA AAAAGAACTC GGAGCGATGA AAGAAGAATC AGTCCCAAAT
    AGGAGCACGA TCCTGGCTCT GCCGCCAATA CGAAGGGAGC GAGCGTTGCT GAGACTGGCA
    GAAAGGGGCG GGTCCCTGAG GCACAGGGAG GCACAGGACT GTCACCCTGC CCCGGTTTGC
    CCGCCTTTGC TGCCGGAGAT CATCCCATTC ATTAACCTTC CTCTCAAAAA GCTCACCCTT
    AACCCACTAA CTCCCGTGTT GGGTGTGCCC AGCCCTCTGC CTCTCAGCGG GTCCCACCGG
    TACTTCGTGT GGCAGAGATC GTTTGGGTCC AGTTACTGCT AG

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

    RefSeq XP_031759964.1
    CDS66..3947
    Translation

    Target ORF information:

    RefSeq Version XM_031904104.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis WD repeat domain 97 (wdr97), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031904104.1

    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
    ATGGAATCTA CTCCCATTAC CGACATAAAG GGCTCCCCAA GGCTACAAAC CTGGCAGGGA 
    ATGGAGACAA GAGCAGAGAA GAACCGGAAG GGAAGGGCGC TGTATTTGTG GGCTCGTCTT
    AGGGACGGAG TACGAAGCAC CGTGTATAAG ATGAGAAGAG CGGATCCCCA GCCACAGACT
    ATTGGCCACG GACTGCAGCT CGTATGCCAC TTGCCCTTTC GCAGAGCTCT GAGAGGGATC
    ACTTGGGTCT CCCAGCAGAA CCTCTTGCTT TCCCTGGATT CGGATGGACT GATCCGGCAG
    CACCATACGG ATGGGAGGGT ACAGGCTTGT GCCCAGGCTT CCCTGCCACT GTGTGGGCTC
    CTGTATGCGT GGCACAGCCA GAAGCTAGTG GCTTGGGCCC ATCAGGAACT GCGAGTGCTG
    GACACAACTC TTACCCCACT TACTGTATGC AGGGTGGCCC GGGGGGTCTT CTGCTGTGTG
    TACAACCCAG GAAGGGACCA GCTGCTCACT GGGGGGACTG GGGGGGTACA ATTATGGGCC
    TTCAGCGAGG GCTCGTGGCA CCTAACTTGC AAGCAGGTTT TAAAAGAAGG ACTGAAGGAG
    ACAGATAGGG TTAATATTAT TGCCCTGGAC ACGGCCGCGC CACTGGCACA TACGTGTTTT
    GCTGTGTGTG GGGCAGGCGT GTGGGAGTAT GACCTGGGGC ACGGAGAACT CCGGCGGGTG
    TGGAACAACC TTCACCTGAG ACCAATCACT GGGCTCATTT ACTCCCAATC TCGTCAGACT
    CTAATTACGG CTTCCAGAGA GGGGACCATC AAACTCTGGG GCAAATCAGC AGAACTGAAA
    GGTGTTTGTG TGGCGCACAC AGGCCCAGTC ACGGCTCTCT CATTCAGTTC TTCCGGGCGC
    TACTTTCTCT CCGGCTCAGA AGACCGGACT GTGCGTACGT GGGACTTGGA GACTCAGGAG
    CAGGTTGGGG AGCAGGTTCT GGCCCAGCCG GTTCTTGGGT TGGAGACGTT CCGGGCTGAT
    GGAAAATTCT TGGTCTCTCG CTCTGAGTTC TGCTTGGATT TGTGGCAAAT ACAGAACCTT
    TACCAGTACC ACACCCCCCT GGGGGCGAGT GTGACAGACA TGAAAGTGAG TGGGGGGCAG
    TTTGTGCCCA GAGTTGCCTG TCTGTGCTCG GACTCGGCCG TCAGGCTGGT GGCTACTGGC
    ACGGGGCAAT TACTCTCCAG CCTTGCCCTA GATGGCCCAT TGGCCATAGA GTTCTGCCCT
    CACACGGAGA GTGTCTATGT CCTTCTGAAG AATGGAGACC TCCTTAGGGC CAGCTCTGTG
    GGGAGCCCCA TGGGGGTCAG GAACACCCTG AGGGTCGGCT CTTCCCAAGC CCCTCCCCTG
    TGCCTCAGCC TGTACTGCGC CATCGCCGAC CAACAGAGCG CTGATTGGAT AGAAATGGGG
    AGAGAGAGAG AGCGCCAATT TACATCCGAC GGAGGCAAAA ACAGGTTTCT CCCTGTGATT
    GGCCTGGATG ATGGCACCAT TAGTGTGTGT GACTGGTACC CCAGCAGGGT ATTGTGCCAG
    CTGAAGGCTC ACAGCCCAGC GAGAGTGACA TCGCTCATGT CCAGTCCAGA GAACAGCTTT
    GTTCTATCTG CGGGTCTGTG TTCCTGCCCC ACCCTGGGCC TAGTTGCCTC CTCTGGGAAG
    GACAAGAAAA TTCACATCTG GAACGAACAC AACCAGCTCC TTAGGGTCCT GTCCCTGGAT
    TGTGCCCCCG AGAGCCTCGC ATTCAGCAGC CAATCAGCAG CTCTGTTACT GGGCATCAAA
    GGGCATGTTT GTTCCATCGA CTTCACAGAA CTCCTGCCGG TCACTTACCA ACTAAAGACA
    ATGAGTGTGG AACCCCCTTC TTTGGTGACT GAACCCCCAG TTCCAGTTCA GGGATCGGTG
    TCACAGTCTC TTTCTGAAAA TGACAGGAAT CGTTTCCTGC GCCCCCCTCC GTTGCCTTCA
    CGGAGTGCAG TTCCCCCATG TACCATCAAT AAGGATCCCA CAGAGCGGGA CAGGATAAGG
    GAGGAATATG AGGCTCGGGC AGCGCTGTTA TACAGAGACC AGGAGCTGCT GCTTCTACTG
    AAAGGGAAAG TAAAGCCAAA CAGGAAAATC CTACCGAGCA GCGGGACCGA GGCCATGAAG
    CGATATCTGC TGCGGCTCTA TGGGGAGAGA CCCAACATCC AGATTCCTGT TTCGGACCCT
    ATTGATGCGG AGGAGTCGCA CTCAGACCCC CAGACTCGCA GACCCCCTCG TTTCACTGTA
    GGAGGCAATA TGGCATTTGG TCACAATCCT CTCCTGGGGG GGCCCAATCC GTATCTGTCC
    CAAGATTCCC AGAACATTCC GTGTTCCGGA GCTGTTCCTA ATTCAGCGGT TCTGCAGCTC
    CTCCCACAAT CAAAACCAGA CGAGCAACGA GAACTGGAAG AAACAGCGCG GGAAAGAATC
    ATGCCATTGT CTGAGAGTGA AACAAAGCTC CGGGTCCCAG TGAGGGAACA CTGGAAGGAG
    TTGGGAGAAG AGTGTGAGAC AAGTGAAGAA GTAAATGATT TAGAGGAAGA AGAGAGGATC
    CTACAGAGAA TATCACAGGC TGAAACCTTG GGGTCCTGTA AAACTGACCC AGAAACCATT
    CAGCTTCCCC TGCGCCCCCT TCCACCACTG ACTGGCAGAG AGAGCCTGAG ACGGAGAGCA
    CAGATGCCGT TTGCTTCACG AATTCCTCAG AGGCAGCCAA AGTCACATTC CCCTGAGAGT
    ACAGTGGAAG CTGCTGTGTC ACCTGAGATC CCTTCCCTTC CGCTGCCGAC ATTCCCTTCT
    GAGCCGGAGC AGTTGGAAAG GCACCAAATC CCCTCCCCTG ATGAACCAGC ACTAAATGGG
    TCCTCTGAGG AGCAACGTGT TGCGGCCCAA CCAGTCCCTC CATTCATGCT GCAATACATA
    CAGGAGACCT GGTTCACTGA TATTTTCCCT GAAGCAAAGG AAGAACTACA CCATGTATGT
    GAGGCTGAGT TTGTATCCCG ACTTCTACAC GGACTCGCAC ATGTCGGCCA TCCCATGCGC
    TCCGACATCC TGATAGCTGT GAAGACTTTG CTACTTAAAG GGCAACCTAA AAACCTAAAA
    GAGATTCACA GTTCTCTGAT CCAAGCAATG AATCCCACTC AAGGGCTGAA TTTAGAGGTG
    CCTGAAGATC GGGACTTTGT CTTCTCTTGC CTCCATATCC TGACTGACCT GAGCTGTGCA
    ACTAATGAGC TTGTTGTGGA ATTAATAGTG ATCTTTGTCC AGGTTCCTCC ATCGTATTGG
    GGGCAAATGC CGGTGTTTTT CAAGAAGATT GGGGTGCATG ACTCCCAGGG GTTTCTGGAC
    AAGGAATTCA GTTCTTGGGC CACCTGGGAA TTGAGTGACA GGAGAAGAAC TGATGTGAGA
    GACATGTGTG AACAGTGGCT TCTCTATTGG GCCCAACACT TGAAGGAAAT TGGCAAAATG
    GGCACAAACA AGGGCGCAGA TTCCACCATT ACTGTCACAT TTGTTGAGGT TTTAAATTAT
    TTCTGTAAAG TTCAAATGAA AAAAGAACTC GGAGCGATGA AAGAAGAATC AGTCCCAAAT
    AGGAGCACGA TCCTGGCTCT GCCGCCAATA CGAAGGGAGC GAGCGTTGCT GAGACTGGCA
    GAAAGGGGCG GGTCCCTGAG GCACAGGGAG GCACAGGACT GTCACCCTGC CCCGGTTTGC
    CCGCCTTTGC TGCCGGAGAT CATCCCATTC ATTAACCTTC CTCTCAAAAA GCTCACCCTT
    AACCCACTAA CTCCCGTGTT GGGTGTGCCC AGCCCTCTGC CTCTCAGCGG GTCCCACCGG
    TACTTCGTGT GGCAGAGATC GTTTGGGTCC AGTTACTGCT AG

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