prdm15 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

  • Gene

  • Clones

  • gRNAs

The following prdm15 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the prdm15 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
OXa06516 XM_004912212.4
Latest version!
Xenopus tropicalis PR domain 15 (prdm15), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OXa06517 XM_002941288.5
Latest version!
Xenopus tropicalis PR domain 15 (prdm15), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OXa36087 XM_012958061.3
Latest version!
Xenopus tropicalis PR domain 15 (prdm15), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OXa36088 XM_012958062.3
Latest version!
Xenopus tropicalis PR domain 15 (prdm15), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
View Old Accession Versions >>
OXa36088 XM_012958062.2 Xenopus tropicalis PR domain containing 15 (prdm15), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OXa06516 XM_004912212.3 Xenopus tropicalis PR domain containing 15 (prdm15), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OXa06517 XM_002941288.4 Xenopus tropicalis PR domain containing 15 (prdm15), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OXa36087 XM_012958061.2 Xenopus tropicalis PR domain containing 15 (prdm15), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
Hide Old Accession Versions >>

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    CloneID OXa06516
    Clone ID Related Accession (Same CDS sequence) XM_004912212.3 , XM_004912212.4
    Accession Version XM_004912212.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3531bp)
    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 PR domain zinc finger protein 15 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.2) 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_004912212.3. ##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
    ATGGCCCAGG AACCAATGGA TGAAGCTGTA TTTATATGGT GTGATGACTG CGGGCAGTAT 
    CACGATTCCG AATGCCCGGA GCTTGGGCCT GTGGTTACTG TCCAGGATTC TTTTGTTTTG
    AGCCGAGCCC GGTCTTCCCT TCCTTCAAAC TTGGAAATCA AGCAGGCAGA GGATGGCGCA
    GAAGGGGTTT TTGCCGTGAC GCCGCTCGTG AAGCGTACCC AGTTTGGCCC ATTTGAGTCT
    AAGAGAGTTT CCAAACTGGA CAAAGAGCCA CGTTTCTTGC TTAAGGTGTT CCACAAGGAT
    GGCCGGTCGG AGCTGTGTGA CACGTCCAGC GAGGACGATT GCAACTGGAT GATGTTTGTG
    CGGCCGGCCG CGGATTTCAC TCATCAGAAC CTGACCGCCT TCCAACATGG CAACGACGTC
    TACTTTACTA CCTCCCAGGA TATAGCGCTA GGTGCCGAGC TGCGAGTGTG GTACGCAGCC
    TTCTACGCAA GAAGAATGGA GAAAGCTTTG CTAAAGCCTG CCATACCTTG CCACAGTGAG
    GTGAATTTCT TGGCTGCTGA ACCTGAAAAA GACCTGAACC CAAGTTCGTC TTCCAAGACT
    CCCCCCACTG CCATTTTGTC TCCCAAAAAG ATGAAAGTTA CTCATCCGCC TGCAGCTTAC
    ACCTCAGTTT CGTGTCAGGA TAACAGCGAT ATCATTCACG TGGAAACCTG CCACTGGACC
    TGTAAAGTGT GTAGCACCAC CTTTATCGAA CCCAATCTTT TGACAGAACA TTTGCTTAGT
    CATTTAGAAC AAGCCAAAGG GATTCCCCCT CCAACTCAAT GTGAGAACTC CTACCTGGAG
    TGTGATACGG TGAGTGTGAG TGCCGACCAG ACCGTCATCT GTGCCGACTC CAACCAAAAC
    CTGGAGGTGA AGAAGAAACC AAAGAGGGGC CGCAAGTCCA AAGTTCCAAA AGGCAATATC
    CCTCTTGTGA TAGTGGATGA TGACAGCCCA GCAGAACACA ACCCGATCTT ATACAATCCA
    GTCTTCTCAT CCGACCGAGT GGCGGAAATT ATAACAGAGA TCCCTCCCGA TGACGTTCAA
    CTGCCCCACG ATCCAGAGGA CAAATTCATG GAGCTAATGT TGGGAAAATT ACCCAATGCC
    GCCAACAGCC TGCCCCCTGT CTCCAAATTT GCTTTTCACC AAACTAGCAG CTCGGTGAAG
    AGAAGTATGT TGCTCCCTGG CAGCAGGCAC GCGATCCGGC GGAAGTTTGC GAGGCAGCTG
    GGGGATCACA AGCGCGTCTT CCAGTGCAAC ATCTGTGCCA AAGTGTTCCG TAACAGCAGC
    AACCTTAGCC GGCATGTCCG ATCCCACGGG GACAAGCTGT TTAAGTGCGA GGAGTGCTCC
    AAACTCTTCA GTCGGAAGGA GAGCCTCAAG CAGCACGTTT CTTATAAGCA CAGCAGGAAC
    GAGGTAGATG GGGATTACAG GTATCGCTGC AACACCTGCG AGAAGGCTTT TCGGATCCAA
    GGATTTCTGG AGTTTCACAA CTGTAGAACA GATGACAAGT CGTTCCAGTG TGAGATGTGC
    TACCGGTTCT TCTCCACCAA CAGTAACCTC TCCAAGCACA AGAAGAAGCA CGGGGAAAAG
    AAATTTGCCT GTGAGATCTG TAACAAACTG TTCTACAGGA GGGATGTAAT GCTGGAGCAT
    CACCGGAGGC ACCTGGAAGG AGTGAGACGC GTAAAGCGGG AAAGCCTCCA TCAGAACACC
    GACAATTCTA TCCGGTATAA AAAGGAGCCG TCGGCCTGTC CTGTGTGCGG GAAGATGTTC
    TCCTGCAGAA GCAACATGAA CAAGCACCTC CTCACTCACG GAGACAAGAA ATACACCTGC
    GAAATCTGCG GCCGAAAATT CTTCAGAGTC GATGTCCTAC GGGATCACAT CCACATTCAT
    TTCAAGGACA TTGCACTGAT GAATGACCAG CAGCGGGAAG AGTTCATTGG GAAGATCGGC
    ATCTCGTCGG AGGACAATGA CGAAAACTCT GACGGGAGCG TAGAAACGGA GCCGCACAAG
    TACAGCTGCA AGAGGTGCCA GATCTCATTT GCTCGGGGGA AGGAATACCT CAAGCACATC
    ATGGATATCC ACGCTGAGAA CGGCTACGAC TGCAGCATTT GCCACCGGCG CTTTGCGCTC
    AAAGCAACGT ATCACGCTCA CATGGTCATT CACCGGGAGA ACCTGCCCGA CCCAGAGGTG
    CAGAAGTACA TTCACCCCTG TGAGGTCTGC GGCAGGATTT TCAACAGCAT CGGAAATCTG
    GAGAGGCACA AACTCATTCA CTCAGGAGTG AAGAGTCACG GCTGCGAGCA GTGCGGGAAG
    TCGTTTGCGC GGAAGGATAT GCTAAAGGAG CACATGAGGG TCCATGACAA CATCCGGGAG
    TATCTGTGCG CTGAGTGTGG GAAAGGAATG AAGACAAAGC ACGCTCTGCG GCACCACATG
    AAGCTGCACA AGGGTATCAA GGAGTACGAG TGCATGGAGT GCCACCGCAG GTTTGCCCAG
    AAGGTGAACA TGCTGAAGCA CTACAAGAGG CACACAGGGA TCAAAGACTT TATGTGCGAA
    TTGTGCGGGA AAACATTCAG CGAAAAGAAC ACAATGGAAA CTCACAAACT CATCCACACA
    GAAGTGGGGA AGCAGTGGAC GTGCACGGTG TGTGATAAGA AGTACGTGAC CGAGTACATG
    CTCCAGAAAC ACGTCCAGCT CACCCACGAC AAGGTGGAGG CGCAGAGCTG CAATCTGTGT
    GGGACCAAGG TGTCAACCAG GGCGTCTATG AGCCGCCATT TAAGGCGCAA GCACCCAGAG
    CGAGAGCTGG ATGTGGAAGA GCATGAGGGA CTGCAGCGGG CGAAACGGAT GAGAACGGGC
    ACCTCCCGCG CGGGAAAGCG CAAGAGTCGG GAGGAAGACG CAGAGGATCC GGAAGATCCC
    ACATTCACCG AATATCAGGA GAAGGAGTCG GAGTTTACAC GCAGCAGCGG AGACGAGGAT
    GGTTCCGCCG TGGAGACTTT GCAGCAGGTC GTGGTCACAA TCAGCGATGG GAGTGTCCCC
    GCACCATCTT GCACGGTTGG CCTTACAAAC ATTACGGTTA CTCCCATAAC CACCACAGCA
    GGCACTCAGT TCGCCAGCCT CCAGCCCGTA GCCGTGGGTC ACTTGGCCGC CTCCGAGCGG
    CAGTTGCAGC TGGACAGCTC CATCTTAACT GTCACCTTTG ATGCAGTGAG CGGCAGTGCG
    GTGCTACACA ATCGCCCGGC AGAACTGGCC ATTGCGGCCT CGCAGGATGC CGCCGGCCCT
    CAGCCTGTCG CGCACTTCAT CAACCTCACT ACTTTTGTGA ACTCCATCGC TCCTCTGGGA
    GGTCAGATTT CTAGTGAGGC GCCGCTGACG TGGAGGGCGG TGCCTGCGGG GGAGACCCCG
    CCCCATCCTG AAGAAGATCA GCCCTCGGAG CAGACTGAGC AGCAGTCATC AGGGCCCCAC
    ACTGTGCAGG AGGTACCCCC AGACACACAA GGACAGATGT ACAGTTACTA A

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

    RefSeq XP_004912269.1
    CDS94..3624
    Translation

    Target ORF information:

    RefSeq Version XM_004912212.4
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis PR domain 15 (prdm15), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_004912212.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    ATGGCCCAGG AACCAATGGA TGAAGCTGTA TTTATATGGT GTGATGACTG CGGGCAGTAT 
    CACGATTCCG AATGCCCGGA GCTTGGGCCT GTGGTTACTG TCCAGGATTC TTTTGTTTTG
    AGCCGAGCCC GGTCTTCCCT TCCTTCAAAC TTGGAAATCA AGCAGGCAGA GGATGGCGCA
    GAAGGGGTTT TTGCCGTGAC GCCGCTCGTG AAGCGTACCC AGTTTGGCCC ATTTGAGTCT
    AAGAGAGTTT CCAAACTGGA CAAAGAGCCA CGTTTCTTGC TTAAGGTGTT CCACAAGGAT
    GGCCGGTCGG AGCTGTGTGA CACGTCCAGC GAGGACGATT GCAACTGGAT GATGTTTGTG
    CGGCCGGCCG CGGATTTCAC TCATCAGAAC CTGACCGCCT TCCAACATGG CAACGACGTC
    TACTTTACTA CCTCCCAGGA TATAGCGCTA GGTGCCGAGC TGCGAGTGTG GTACGCAGCC
    TTCTACGCAA GAAGAATGGA GAAAGCTTTG CTAAAGCCTG CCATACCTTG CCACAGTGAG
    GTGAATTTCT TGGCTGCTGA ACCTGAAAAA GACCTGAACC CAAGTTCGTC TTCCAAGACT
    CCCCCCACTG CCATTTTGTC TCCCAAAAAG ATGAAAGTTA CTCATCCGCC TGCAGCTTAC
    ACCTCAGTTT CGTGTCAGGA TAACAGCGAT ATCATTCACG TGGAAACCTG CCACTGGACC
    TGTAAAGTGT GTAGCACCAC CTTTATCGAA CCCAATCTTT TGACAGAACA TTTGCTTAGT
    CATTTAGAAC AAGCCAAAGG GATTCCCCCT CCAACTCAAT GTGAGAACTC CTACCTGGAG
    TGTGATACGG TGAGTGTGAG TGCCGACCAG ACCGTCATCT GTGCCGACTC CAACCAAAAC
    CTGGAGGTGA AGAAGAAACC AAAGAGGGGC CGCAAGTCCA AAGTTCCAAA AGGCAATATC
    CCTCTTGTGA TAGTGGATGA TGACAGCCCA GCAGAACACA ACCCGATCTT ATACAATCCA
    GTCTTCTCAT CCGACCGAGT GGCGGAAATT ATAACAGAGA TCCCTCCCGA TGACGTTCAA
    CTGCCCCACG ATCCAGAGGA CAAATTCATG GAGCTAATGT TGGGAAAATT ACCCAATGCC
    GCCAACAGCC TGCCCCCTGT CTCCAAATTT GCTTTTCACC AAACTAGCAG CTCGGTGAAG
    AGAAGTATGT TGCTCCCTGG CAGCAGGCAC GCGATCCGGC GGAAGTTTGC GAGGCAGCTG
    GGGGATCACA AGCGCGTCTT CCAGTGCAAC ATCTGTGCCA AAGTGTTCCG TAACAGCAGC
    AACCTTAGCC GGCATGTCCG ATCCCACGGG GACAAGCTGT TTAAGTGCGA GGAGTGCTCC
    AAACTCTTCA GTCGGAAGGA GAGCCTCAAG CAGCACGTTT CTTATAAGCA CAGCAGGAAC
    GAGGTAGATG GGGATTACAG GTATCGCTGC AACACCTGCG AGAAGGCTTT TCGGATCCAA
    GGATTTCTGG AGTTTCACAA CTGTAGAACA GATGACAAGT CGTTCCAGTG TGAGATGTGC
    TACCGGTTCT TCTCCACCAA CAGTAACCTC TCCAAGCACA AGAAGAAGCA CGGGGAAAAG
    AAATTTGCCT GTGAGATCTG TAACAAACTG TTCTACAGGA GGGATGTAAT GCTGGAGCAT
    CACCGGAGGC ACCTGGAAGG AGTGAGACGC GTAAAGCGGG AAAGCCTCCA TCAGAACACC
    GACAATTCTA TCCGGTATAA AAAGGAGCCG TCGGCCTGTC CTGTGTGCGG GAAGATGTTC
    TCCTGCAGAA GCAACATGAA CAAGCACCTC CTCACTCACG GAGACAAGAA ATACACCTGC
    GAAATCTGCG GCCGAAAATT CTTCAGAGTC GATGTCCTAC GGGATCACAT CCACATTCAT
    TTCAAGGACA TTGCACTGAT GAATGACCAG CAGCGGGAAG AGTTCATTGG GAAGATCGGC
    ATCTCGTCGG AGGACAATGA CGAAAACTCT GACGGGAGCG TAGAAACGGA GCCGCACAAG
    TACAGCTGCA AGAGGTGCCA GATCTCATTT GCTCGGGGGA AGGAATACCT CAAGCACATC
    ATGGATATCC ACGCTGAGAA CGGCTACGAC TGCAGCATTT GCCACCGGCG CTTTGCGCTC
    AAAGCAACGT ATCACGCTCA CATGGTCATT CACCGGGAGA ACCTGCCCGA CCCAGAGGTG
    CAGAAGTACA TTCACCCCTG TGAGGTCTGC GGCAGGATTT TCAACAGCAT CGGAAATCTG
    GAGAGGCACA AACTCATTCA CTCAGGAGTG AAGAGTCACG GCTGCGAGCA GTGCGGGAAG
    TCGTTTGCGC GGAAGGATAT GCTAAAGGAG CACATGAGGG TCCATGACAA CATCCGGGAG
    TATCTGTGCG CTGAGTGTGG GAAAGGAATG AAGACAAAGC ACGCTCTGCG GCACCACATG
    AAGCTGCACA AGGGTATCAA GGAGTACGAG TGCATGGAGT GCCACCGCAG GTTTGCCCAG
    AAGGTGAACA TGCTGAAGCA CTACAAGAGG CACACAGGGA TCAAAGACTT TATGTGCGAA
    TTGTGCGGGA AAACATTCAG CGAAAAGAAC ACAATGGAAA CTCACAAACT CATCCACACA
    GAAGTGGGGA AGCAGTGGAC GTGCACGGTG TGTGATAAGA AGTACGTGAC CGAGTACATG
    CTCCAGAAAC ACGTCCAGCT CACCCACGAC AAGGTGGAGG CGCAGAGCTG CAATCTGTGT
    GGGACCAAGG TGTCAACCAG GGCGTCTATG AGCCGCCATT TAAGGCGCAA GCACCCAGAG
    CGAGAGCTGG ATGTGGAAGA GCATGAGGGA CTGCAGCGGG CGAAACGGAT GAGAACGGGC
    ACCTCCCGCG CGGGAAAGCG CAAGAGTCGG GAGGAAGACG CAGAGGATCC GGAAGATCCC
    ACATTCACCG AATATCAGGA GAAGGAGTCG GAGTTTACAC GCAGCAGCGG AGACGAGGAT
    GGTTCCGCCG TGGAGACTTT GCAGCAGGTC GTGGTCACAA TCAGCGATGG GAGTGTCCCC
    GCACCATCTT GCACGGTTGG CCTTACAAAC ATTACGGTTA CTCCCATAAC CACCACAGCA
    GGCACTCAGT TCGCCAGCCT CCAGCCCGTA GCCGTGGGTC ACTTGGCCGC CTCCGAGCGG
    CAGTTGCAGC TGGACAGCTC CATCTTAACT GTCACCTTTG ATGCAGTGAG CGGCAGTGCG
    GTGCTACACA ATCGCCCGGC AGAACTGGCC ATTGCGGCCT CGCAGGATGC CGCCGGCCCT
    CAGCCTGTCG CGCACTTCAT CAACCTCACT ACTTTTGTGA ACTCCATCGC TCCTCTGGGA
    GGTCAGATTT CTAGTGAGGC GCCGCTGACG TGGAGGGCGG TGCCTGCGGG GGAGACCCCG
    CCCCATCCTG AAGAAGATCA GCCCTCGGAG CAGACTGAGC AGCAGTCATC AGGGCCCCAC
    ACTGTGCAGG AGGTACCCCC AGACACACAA GGACAGATGT ACAGTTACTA A

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

    CloneID OXa06517
    Clone ID Related Accession (Same CDS sequence) XM_002941288.5 , XM_002941288.4
    Accession Version XM_002941288.5 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3528bp)
    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 PR domain zinc finger protein 15 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.2) 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_002941288.4. ##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
    ATGGCCCAGG AACCAATGGA TGAAGCTGTA TTTATATGGT GTGATGACTG CGGGCAGTAT 
    CACGATTCCG AATGCCCGGA GCTTGGGCCT GTGGTTACTG TCCAGGATTC TTTTGTTTTG
    AGCCGAGCCC GGTCTTCCCT TCCTTCAAAC TTGGAAATCA AGCAGGCAGA GGATGGCGCA
    GAAGGGGTTT TTGCCGTGAC GCCGCTCGTG AAGCGTACCC AGTTTGGCCC ATTTGAGTCT
    AAGAGAGTTT CCAAACTGGA CAAAGAGCCA CGTTTCTTGC TTAAGGTGTT CCACAAGGAT
    GGCCGGTCGG AGCTGTGTGA CACGTCCAGC GAGGACGATT GCAACTGGAT GATGTTTGTG
    CGGCCGGCCG CGGATTTCAC TCATCAGAAC CTGACCGCCT TCCAACATGG CAACGACGTC
    TACTTTACTA CCTCCCAGGA TATAGCGCTA GGTGCCGAGC TGCGAGTGTG GTACGCAGCC
    TTCTACGCAA GAAGAATGGA GAAAGCTTTG CTAAAGCCTG CCATACCTTG CCACAGTGAG
    GTGAATTTCT TGGCTGCTGA ACCTGAAAAA GACCTGAACC CAAGTTCGTC TTCCAAGACT
    CCCCCCACTG CCATTTTGTC TCCCAAAAAG ATGAAAGTTA CTCATCCGCC TGCAGCTTAC
    ACCTCAGTTT CGTGTCAGGA TAACAGCGAT ATCATTCACG TGGAAACCTG CCACTGGACC
    TGTAAAGTGT GTAGCACCAC CTTTATCGAA CCCAATCTTT TGACAGAACA TTTGCTTAGT
    CATTTAGAAC AAGCCAAAGG GATTCCCCCT CCAACTCAAT GTGAGAACTC CTACCTGGAG
    TGTGATACGG TGAGTGTGAG TGCCGACCAG ACCGTCATCT GTGCCGACTC CAACCAAAAC
    CTGGAGGTGA AGAAGAAACC AAAGAGGGGC CGCAAGTCCA AAGTTCCAAA AGGCAATATC
    CCTCTTGTGA TAGTGGATGA TGACAGCCCA GCAGAACACA ACCCGATCTT ATACAATCCA
    GTCTTCTCAT CCGACCGAGT GGCGGAAATT ATAACAGAGA TCCCTCCCGA TGACGTTCAA
    CTGCCCCACG ATCCAGAGGA CAAATTCATG GAGCTAATGT TGGGAAAATT ACCCAATGCC
    GCCAACAGCC TGCCCCCTGT CTCCAAATTT GCTTTTCACC AAACTAGCAG CTCGGTGAAG
    AGAAGTATGT TGCTCCCTGG CAGCAGGCAC GCGATCCGGC GGAAGTTTGC GAGGCAGCTG
    GGGGATCACA AGCGCGTCTT CCAGTGCAAC ATCTGTGCCA AAGTGTTCCG TAACAGCAGC
    AACCTTAGCC GGCATGTCCG ATCCCACGGG GACAAGCTGT TTAAGTGCGA GGAGTGCTCC
    AAACTCTTCA GTCGGAAGGA GAGCCTCAAG CAGCACGTTT CTTATAAGCA CAGCAGGAAC
    GAGGTAGATG GGGATTACAG GTATCGCTGC AACACCTGCG AGAAGGCTTT TCGGATCCAA
    GGATTTCTGG AGTTTCACAA CTGTAGAACA GATGACAAGT CGTTCCAGTG TGAGATGTGC
    TACCGGTTCT TCTCCACCAA CAGTAACCTC TCCAAGCACA AGAAGAAGCA CGGGGAAAAG
    AAATTTGCCT GTGAGATCTG TAACAAACTG TTCTACAGGA GGGATGTAAT GCTGGAGCAT
    CACCGGAGGC ACCTGGAAGG AGTGAGACGC GTAAAGCGGG AAAGCCTCCA TCAGAACACC
    GACAATTCTA TCCGGTATAA AAAGGAGCCG TCGGCCTGTC CTGTGTGCGG GAAGATGTTC
    TCCTGCAGAA GCAACATGAA CAAGCACCTC CTCACTCACG GAGACAAGAA ATACACCTGC
    GAAATCTGCG GCCGAAAATT CTTCAGAGTC GATGTCCTAC GGGATCACAT CCACATTCAT
    TTCAAGGACA TTGCACTGAT GAATGACCAG CAGCGGGAAG AGTTCATTGG GAAGATCGGC
    ATCTCGTCGG AGGACAATGA CGAAAACTCT GACGGGAGCG TAGAAACGGA GCCGCACAAG
    TACAGCTGCA AGAGGTGCCA GATCTCATTT GCTCGGGGGA AGGAATACCT CAAGCACATC
    ATGGATATCC ACGCTGAGAA CGGCTACGAC TGCAGCATTT GCCACCGGCG CTTTGCGCTC
    AAAGCAACGT ATCACGCTCA CATGGTCATT CACCGGGAGA ACCTGCCCGA CCCAGAGGTG
    CAGAAGTACA TTCACCCCTG TGAGGTCTGC GGCAGGATTT TCAACAGCAT CGGAAATCTG
    GAGAGGCACA AACTCATTCA CTCAGGAGTG AAGAGTCACG GCTGCGAGCA GTGCGGGAAG
    TCGTTTGCGC GGAAGGATAT GCTAAAGGAG CACATGAGGG TCCATGACAA CATCCGGGAG
    TATCTGTGCG CTGAGTGTGG GAAAGGAATG AAGACAAAGC ACGCTCTGCG GCACCACATG
    AAGCTGCACA AGGGTATCAA GGAGTACGAG TGCATGGAGT GCCACCGCAG GTTTGCCCAG
    AAGGTGAACA TGCTGAAGCA CTACAAGAGG CACACAGGGA TCAAAGACTT TATGTGCGAA
    TTGTGCGGGA AAACATTCAG CGAAAAGAAC ACAATGGAAA CTCACAAACT CATCCACACA
    GTGGGGAAGC AGTGGACGTG CACGGTGTGT GATAAGAAGT ACGTGACCGA GTACATGCTC
    CAGAAACACG TCCAGCTCAC CCACGACAAG GTGGAGGCGC AGAGCTGCAA TCTGTGTGGG
    ACCAAGGTGT CAACCAGGGC GTCTATGAGC CGCCATTTAA GGCGCAAGCA CCCAGAGCGA
    GAGCTGGATG TGGAAGAGCA TGAGGGACTG CAGCGGGCGA AACGGATGAG AACGGGCACC
    TCCCGCGCGG GAAAGCGCAA GAGTCGGGAG GAAGACGCAG AGGATCCGGA AGATCCCACA
    TTCACCGAAT ATCAGGAGAA GGAGTCGGAG TTTACACGCA GCAGCGGAGA CGAGGATGGT
    TCCGCCGTGG AGACTTTGCA GCAGGTCGTG GTCACAATCA GCGATGGGAG TGTCCCCGCA
    CCATCTTGCA CGGTTGGCCT TACAAACATT ACGGTTACTC CCATAACCAC CACAGCAGGC
    ACTCAGTTCG CCAGCCTCCA GCCCGTAGCC GTGGGTCACT TGGCCGCCTC CGAGCGGCAG
    TTGCAGCTGG ACAGCTCCAT CTTAACTGTC ACCTTTGATG CAGTGAGCGG CAGTGCGGTG
    CTACACAATC GCCCGGCAGA ACTGGCCATT GCGGCCTCGC AGGATGCCGC CGGCCCTCAG
    CCTGTCGCGC ACTTCATCAA CCTCACTACT TTTGTGAACT CCATCGCTCC TCTGGGAGGT
    CAGATTTCTA GTGAGGCGCC GCTGACGTGG AGGGCGGTGC CTGCGGGGGA GACCCCGCCC
    CATCCTGAAG AAGATCAGCC CTCGGAGCAG ACTGAGCAGC AGTCATCAGG GCCCCACACT
    GTGCAGGAGG TACCCCCAGA CACACAAGGA CAGATGTACA GTTACTAA

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

    RefSeq XP_002941334.2
    CDS94..3621
    Translation

    Target ORF information:

    RefSeq Version XM_002941288.5
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis PR domain 15 (prdm15), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_002941288.5

    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
    ATGGCCCAGG AACCAATGGA TGAAGCTGTA TTTATATGGT GTGATGACTG CGGGCAGTAT 
    CACGATTCCG AATGCCCGGA GCTTGGGCCT GTGGTTACTG TCCAGGATTC TTTTGTTTTG
    AGCCGAGCCC GGTCTTCCCT TCCTTCAAAC TTGGAAATCA AGCAGGCAGA GGATGGCGCA
    GAAGGGGTTT TTGCCGTGAC GCCGCTCGTG AAGCGTACCC AGTTTGGCCC ATTTGAGTCT
    AAGAGAGTTT CCAAACTGGA CAAAGAGCCA CGTTTCTTGC TTAAGGTGTT CCACAAGGAT
    GGCCGGTCGG AGCTGTGTGA CACGTCCAGC GAGGACGATT GCAACTGGAT GATGTTTGTG
    CGGCCGGCCG CGGATTTCAC TCATCAGAAC CTGACCGCCT TCCAACATGG CAACGACGTC
    TACTTTACTA CCTCCCAGGA TATAGCGCTA GGTGCCGAGC TGCGAGTGTG GTACGCAGCC
    TTCTACGCAA GAAGAATGGA GAAAGCTTTG CTAAAGCCTG CCATACCTTG CCACAGTGAG
    GTGAATTTCT TGGCTGCTGA ACCTGAAAAA GACCTGAACC CAAGTTCGTC TTCCAAGACT
    CCCCCCACTG CCATTTTGTC TCCCAAAAAG ATGAAAGTTA CTCATCCGCC TGCAGCTTAC
    ACCTCAGTTT CGTGTCAGGA TAACAGCGAT ATCATTCACG TGGAAACCTG CCACTGGACC
    TGTAAAGTGT GTAGCACCAC CTTTATCGAA CCCAATCTTT TGACAGAACA TTTGCTTAGT
    CATTTAGAAC AAGCCAAAGG GATTCCCCCT CCAACTCAAT GTGAGAACTC CTACCTGGAG
    TGTGATACGG TGAGTGTGAG TGCCGACCAG ACCGTCATCT GTGCCGACTC CAACCAAAAC
    CTGGAGGTGA AGAAGAAACC AAAGAGGGGC CGCAAGTCCA AAGTTCCAAA AGGCAATATC
    CCTCTTGTGA TAGTGGATGA TGACAGCCCA GCAGAACACA ACCCGATCTT ATACAATCCA
    GTCTTCTCAT CCGACCGAGT GGCGGAAATT ATAACAGAGA TCCCTCCCGA TGACGTTCAA
    CTGCCCCACG ATCCAGAGGA CAAATTCATG GAGCTAATGT TGGGAAAATT ACCCAATGCC
    GCCAACAGCC TGCCCCCTGT CTCCAAATTT GCTTTTCACC AAACTAGCAG CTCGGTGAAG
    AGAAGTATGT TGCTCCCTGG CAGCAGGCAC GCGATCCGGC GGAAGTTTGC GAGGCAGCTG
    GGGGATCACA AGCGCGTCTT CCAGTGCAAC ATCTGTGCCA AAGTGTTCCG TAACAGCAGC
    AACCTTAGCC GGCATGTCCG ATCCCACGGG GACAAGCTGT TTAAGTGCGA GGAGTGCTCC
    AAACTCTTCA GTCGGAAGGA GAGCCTCAAG CAGCACGTTT CTTATAAGCA CAGCAGGAAC
    GAGGTAGATG GGGATTACAG GTATCGCTGC AACACCTGCG AGAAGGCTTT TCGGATCCAA
    GGATTTCTGG AGTTTCACAA CTGTAGAACA GATGACAAGT CGTTCCAGTG TGAGATGTGC
    TACCGGTTCT TCTCCACCAA CAGTAACCTC TCCAAGCACA AGAAGAAGCA CGGGGAAAAG
    AAATTTGCCT GTGAGATCTG TAACAAACTG TTCTACAGGA GGGATGTAAT GCTGGAGCAT
    CACCGGAGGC ACCTGGAAGG AGTGAGACGC GTAAAGCGGG AAAGCCTCCA TCAGAACACC
    GACAATTCTA TCCGGTATAA AAAGGAGCCG TCGGCCTGTC CTGTGTGCGG GAAGATGTTC
    TCCTGCAGAA GCAACATGAA CAAGCACCTC CTCACTCACG GAGACAAGAA ATACACCTGC
    GAAATCTGCG GCCGAAAATT CTTCAGAGTC GATGTCCTAC GGGATCACAT CCACATTCAT
    TTCAAGGACA TTGCACTGAT GAATGACCAG CAGCGGGAAG AGTTCATTGG GAAGATCGGC
    ATCTCGTCGG AGGACAATGA CGAAAACTCT GACGGGAGCG TAGAAACGGA GCCGCACAAG
    TACAGCTGCA AGAGGTGCCA GATCTCATTT GCTCGGGGGA AGGAATACCT CAAGCACATC
    ATGGATATCC ACGCTGAGAA CGGCTACGAC TGCAGCATTT GCCACCGGCG CTTTGCGCTC
    AAAGCAACGT ATCACGCTCA CATGGTCATT CACCGGGAGA ACCTGCCCGA CCCAGAGGTG
    CAGAAGTACA TTCACCCCTG TGAGGTCTGC GGCAGGATTT TCAACAGCAT CGGAAATCTG
    GAGAGGCACA AACTCATTCA CTCAGGAGTG AAGAGTCACG GCTGCGAGCA GTGCGGGAAG
    TCGTTTGCGC GGAAGGATAT GCTAAAGGAG CACATGAGGG TCCATGACAA CATCCGGGAG
    TATCTGTGCG CTGAGTGTGG GAAAGGAATG AAGACAAAGC ACGCTCTGCG GCACCACATG
    AAGCTGCACA AGGGTATCAA GGAGTACGAG TGCATGGAGT GCCACCGCAG GTTTGCCCAG
    AAGGTGAACA TGCTGAAGCA CTACAAGAGG CACACAGGGA TCAAAGACTT TATGTGCGAA
    TTGTGCGGGA AAACATTCAG CGAAAAGAAC ACAATGGAAA CTCACAAACT CATCCACACA
    GTGGGGAAGC AGTGGACGTG CACGGTGTGT GATAAGAAGT ACGTGACCGA GTACATGCTC
    CAGAAACACG TCCAGCTCAC CCACGACAAG GTGGAGGCGC AGAGCTGCAA TCTGTGTGGG
    ACCAAGGTGT CAACCAGGGC GTCTATGAGC CGCCATTTAA GGCGCAAGCA CCCAGAGCGA
    GAGCTGGATG TGGAAGAGCA TGAGGGACTG CAGCGGGCGA AACGGATGAG AACGGGCACC
    TCCCGCGCGG GAAAGCGCAA GAGTCGGGAG GAAGACGCAG AGGATCCGGA AGATCCCACA
    TTCACCGAAT ATCAGGAGAA GGAGTCGGAG TTTACACGCA GCAGCGGAGA CGAGGATGGT
    TCCGCCGTGG AGACTTTGCA GCAGGTCGTG GTCACAATCA GCGATGGGAG TGTCCCCGCA
    CCATCTTGCA CGGTTGGCCT TACAAACATT ACGGTTACTC CCATAACCAC CACAGCAGGC
    ACTCAGTTCG CCAGCCTCCA GCCCGTAGCC GTGGGTCACT TGGCCGCCTC CGAGCGGCAG
    TTGCAGCTGG ACAGCTCCAT CTTAACTGTC ACCTTTGATG CAGTGAGCGG CAGTGCGGTG
    CTACACAATC GCCCGGCAGA ACTGGCCATT GCGGCCTCGC AGGATGCCGC CGGCCCTCAG
    CCTGTCGCGC ACTTCATCAA CCTCACTACT TTTGTGAACT CCATCGCTCC TCTGGGAGGT
    CAGATTTCTA GTGAGGCGCC GCTGACGTGG AGGGCGGTGC CTGCGGGGGA GACCCCGCCC
    CATCCTGAAG AAGATCAGCC CTCGGAGCAG ACTGAGCAGC AGTCATCAGG GCCCCACACT
    GTGCAGGAGG TACCCCCAGA CACACAAGGA CAGATGTACA GTTACTAA

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

    CloneID OXa36087
    Clone ID Related Accession (Same CDS sequence) XM_012958061.2 , XM_012958061.3
    Accession Version XM_012958061.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3609bp)
    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 PR domain zinc finger protein 15 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.2) 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_012958061.2. ##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
    ATGGCCCAGG AACCAATGGA TGAAGCTGTA TTTATATGGT GTGATGACTG CGGGCAGTAT 
    CACGATTCCG AATGCCCGGA GCTTGGGCCT GTGGTTACTG TCCAGGATTC TTTTGTTTTG
    AGCCGAGCCC GGTCTTCCCT TCCTTCAAAC TTGGAAATCA AGCAGGCAGA GGATGGCGCA
    GAAGGGGTTT TTGCCGTGAC GCCGCTCGTG AAGCGTACCC AGTTTGGCCC ATTTGAGTCT
    AAGAGAGTTT CCAAACTGGA CAAAGAGCCA CGTTTCTTGC TTAAGGTGTT CCACAAGGAT
    GGCCGGTCGG AGCTGTGTGA CACGTCCAGC GAGGACGATT GCAACTGGAT GATGTTTGTG
    CGGCCGGCCG CGGATTTCAC TCATCAGAAC CTGACCGCCT TCCAACATGG CAACGACGTC
    TACTTTACTA CCTCCCAGGA TATAGCGCTA GGTGCCGAGC TGCGAGTGTG GTACGCAGCC
    TTCTACGCAA GAAGAATGGA GAAAGCTTTG CTAAAGCCTG CCATACCTTG CCACAGTGAG
    GTGAATTTCT TGGCTGCTGA ACCTGAAAAA GACCTGAACC CAAGTTCGTC TTCCAAGACT
    CCCCCCACTG CCATTTTGTC TCCCAAAAAG ATGAAAGTTA CTCATCCGCC TGCAGCTTAC
    ACCTCAGTTT CGTGTCAGGA TAACAGCGAT ATCATTCACG TGGAAACCTG CCACTGGACC
    TGTAAAGTGT GTAGCACCAC CTTTATCGAA CCCAATCTTT TGACAGAACA TTTGCTTAGT
    CATTTAGAAC AAGCCAAAGG GATTCCCCCT CCAACTCAAT GTGAGAACTC CTACCTGGAG
    TGTGATACGG TGAGTGTGAG TGCCGACCAG ACCGTCATCT GTGCCGACTC CAACCAAAAC
    CTGGAGGTGA AGAAGAAACC AAAGAGGGGC CGCAAGTCCA AAGTTCCAAA AGGCAATATC
    CCTCTTGTGA TAGTGGATGA TGACAGCCCA GCAGAACACA ACCCGATCTT ATACAATCCA
    GTCTTCTCAT CCGACCGAGT GGCGGAAATT ATAACAGAGA TCCCTCCCGA TGACGTTCAA
    CTGCCCCACG ATCCAGAGGA CAAATTCATG GAGCTAATGT TGGGAAAATT ACCCAATGCC
    GCCAACAGCC TGCCCCCTGT CTCCAAATTT GCTTTTCACC AAACTAGCAG CTCGGTGAAG
    AGAAGTATGT TGCTCCCTGG CAGCAGGCAC GCGATCCGGC GGAAGTTTGC GAGGCAGCTG
    GGGGATCACA AGCGCGTCTT CCAGTGCAAC ATCTGTGCCA AAGTGTTCCG TAACAGCAGC
    AACCTTAGCC GGCATGTCCG ATCCCACGGG GACAAGCTGT TTAAGTGCGA GGAGTGCTCC
    AAACTCTTCA GTCGGAAGGA GAGCCTCAAG CAGCACGTTT CTTATAAGCA CAGCAGGAAC
    GAGGTAGATG GGGATTACAG GTATCGCTGC AACACCTGCG AGAAGGCTTT TCGGATCCAA
    GGATTTCTGG AGTTTCACAA CTGTAGAACA GATGACAAGT CGTTCCAGTG TGAGATGTGC
    TACCGGTTCT TCTCCACCAA CAGTAACCTC TCCAAGCACA AGAAGAAGCA CGGGGAAAAG
    AAATTTGCCT GTGAGATCTG TAACAAACTG TTCTACAGGA GGGATGTAAT GCTGGAGCAT
    CACCGGAGGC ACCTGGAAGG AGTGAGACGC GTAAAGCGGG AAAGCCTCCA TCAGAACACC
    GACAATTCTA TCCGGTATAA AAAGGAGCCG TCGGCCTGTC CTGTGTGCGG GAAGATGTTC
    TCCTGCAGAA GCAACATGAA CAAGCACCTC CTCACTCACG GAGACAAGAA ATACACCTGC
    GAAATCTGCG GCCGAAAATT CTTCAGAGTC GATGTCCTAC GGGATCACAT CCACATTCAT
    TTCAAGGACA TTGCACTGAT GAATGACCAG CAGCGGGAAG AGTTCATTGG GAAGATCGGC
    ATCTCGTCGG AGGACAATGA CGAAAACTCT GACGGGAGCG TAGAAACGGA GCCGCACAAG
    TACAGCTGCA AGAGGTGCCA GATCTCATTT GCTCGGGGGA AGGAATACCT CAAGCACATC
    ATGGATATCC ACGCTGAGAA CGGCTACGAC TGCAGCATTT GCCACCGGCG CTTTGCGCTC
    AAAGCAACGT ATCACGCTCA CATGGTCATT CACCGGGAGA ACCTGCCCGA CCCAGAGGTG
    CAGAAGTACA TTCACCCCTG TGAGGTCTGC GGCAGGATTT TCAACAGCAT CGGAAATCTG
    GAGAGGCACA AACTCATTCA CTCAGGAGTG AAGAGTCACG GCTGCGAGCA GTGCGGGAAG
    TCGTTTGCGC GGAAGGATAT GCTAAAGGAG CACATGAGGG TCCATGACAA CATCCGGGAG
    TATCTGTGCG CTGAGTGTGG GAAAGGAATG AAGACAAAGC ACGCTCTGCG GCACCACATG
    AAGCTGCACA AGGGTATCAA GGAGTACGAG TGCATGGAGT GCCACCGCAG GTTTGCCCAG
    AAGGTGAACA TGCTGAAGCA CTACAAGAGG CACACAGGGA TCAAAGACTT TATGTGCGAA
    TTGTGCGGGA AAACATTCAG CGAAAAGAAC ACAATGGAAA CTCACAAACT CATCCACACA
    GAAGTGGGGA AGCAGTGGAC GTGCACGGTG TGTGATAAGA AGTACGTGAC CGAGTACATG
    CTCCAGAAAC ACGTCCAGCT CACCCACGAC AAGGTGGAGG CGCAGAGCTG CAATCTGTGT
    GGGACCAAGG TGTCAACCAG GGCGTCTATG AGCCGCCATT TAAGGCGCAA GCACCCAGAG
    GTCCTTTCTG TACGGATTGA AGACTTAGAT GACCTGCAAG AATCTGAGGC CATAGATACA
    TCATTAAGCA TTGTACAGCG AGAGCTGGAT GTGGAAGAGC ATGAGGGACT GCAGCGGGCG
    AAACGGATGA GAACGGGCAC CTCCCGCGCG GGAAAGCGCA AGAGTCGGGA GGAAGACGCA
    GAGGATCCGG AAGATCCCAC ATTCACCGAA TATCAGGAGA AGGAGTCGGA GTTTACACGC
    AGCAGCGGAG ACGAGGATGG TTCCGCCGTG GAGACTTTGC AGCAGGTCGT GGTCACAATC
    AGCGATGGGA GTGTCCCCGC ACCATCTTGC ACGGTTGGCC TTACAAACAT TACGGTTACT
    CCCATAACCA CCACAGCAGG CACTCAGTTC GCCAGCCTCC AGCCCGTAGC CGTGGGTCAC
    TTGGCCGCCT CCGAGCGGCA GTTGCAGCTG GACAGCTCCA TCTTAACTGT CACCTTTGAT
    GCAGTGAGCG GCAGTGCGGT GCTACACAAT CGCCCGGCAG AACTGGCCAT TGCGGCCTCG
    CAGGATGCCG CCGGCCCTCA GCCTGTCGCG CACTTCATCA ACCTCACTAC TTTTGTGAAC
    TCCATCGCTC CTCTGGGAGG TCAGATTTCT AGTGAGGCGC CGCTGACGTG GAGGGCGGTG
    CCTGCGGGGG AGACCCCGCC CCATCCTGAA GAAGATCAGC CCTCGGAGCA GACTGAGCAG
    CAGTCATCAG GGCCCCACAC TGTGCAGGAG GTACCCCCAG ACACACAAGG ACAGATGTAC
    AGTTACTAA

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

    RefSeq XP_012813515.1
    CDS95..3703
    Translation

    Target ORF information:

    RefSeq Version XM_012958061.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis PR domain 15 (prdm15), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012958061.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGGCCCAGG AACCAATGGA TGAAGCTGTA TTTATATGGT GTGATGACTG CGGGCAGTAT 
    CACGATTCCG AATGCCCGGA GCTTGGGCCT GTGGTTACTG TCCAGGATTC TTTTGTTTTG
    AGCCGAGCCC GGTCTTCCCT TCCTTCAAAC TTGGAAATCA AGCAGGCAGA GGATGGCGCA
    GAAGGGGTTT TTGCCGTGAC GCCGCTCGTG AAGCGTACCC AGTTTGGCCC ATTTGAGTCT
    AAGAGAGTTT CCAAACTGGA CAAAGAGCCA CGTTTCTTGC TTAAGGTGTT CCACAAGGAT
    GGCCGGTCGG AGCTGTGTGA CACGTCCAGC GAGGACGATT GCAACTGGAT GATGTTTGTG
    CGGCCGGCCG CGGATTTCAC TCATCAGAAC CTGACCGCCT TCCAACATGG CAACGACGTC
    TACTTTACTA CCTCCCAGGA TATAGCGCTA GGTGCCGAGC TGCGAGTGTG GTACGCAGCC
    TTCTACGCAA GAAGAATGGA GAAAGCTTTG CTAAAGCCTG CCATACCTTG CCACAGTGAG
    GTGAATTTCT TGGCTGCTGA ACCTGAAAAA GACCTGAACC CAAGTTCGTC TTCCAAGACT
    CCCCCCACTG CCATTTTGTC TCCCAAAAAG ATGAAAGTTA CTCATCCGCC TGCAGCTTAC
    ACCTCAGTTT CGTGTCAGGA TAACAGCGAT ATCATTCACG TGGAAACCTG CCACTGGACC
    TGTAAAGTGT GTAGCACCAC CTTTATCGAA CCCAATCTTT TGACAGAACA TTTGCTTAGT
    CATTTAGAAC AAGCCAAAGG GATTCCCCCT CCAACTCAAT GTGAGAACTC CTACCTGGAG
    TGTGATACGG TGAGTGTGAG TGCCGACCAG ACCGTCATCT GTGCCGACTC CAACCAAAAC
    CTGGAGGTGA AGAAGAAACC AAAGAGGGGC CGCAAGTCCA AAGTTCCAAA AGGCAATATC
    CCTCTTGTGA TAGTGGATGA TGACAGCCCA GCAGAACACA ACCCGATCTT ATACAATCCA
    GTCTTCTCAT CCGACCGAGT GGCGGAAATT ATAACAGAGA TCCCTCCCGA TGACGTTCAA
    CTGCCCCACG ATCCAGAGGA CAAATTCATG GAGCTAATGT TGGGAAAATT ACCCAATGCC
    GCCAACAGCC TGCCCCCTGT CTCCAAATTT GCTTTTCACC AAACTAGCAG CTCGGTGAAG
    AGAAGTATGT TGCTCCCTGG CAGCAGGCAC GCGATCCGGC GGAAGTTTGC GAGGCAGCTG
    GGGGATCACA AGCGCGTCTT CCAGTGCAAC ATCTGTGCCA AAGTGTTCCG TAACAGCAGC
    AACCTTAGCC GGCATGTCCG ATCCCACGGG GACAAGCTGT TTAAGTGCGA GGAGTGCTCC
    AAACTCTTCA GTCGGAAGGA GAGCCTCAAG CAGCACGTTT CTTATAAGCA CAGCAGGAAC
    GAGGTAGATG GGGATTACAG GTATCGCTGC AACACCTGCG AGAAGGCTTT TCGGATCCAA
    GGATTTCTGG AGTTTCACAA CTGTAGAACA GATGACAAGT CGTTCCAGTG TGAGATGTGC
    TACCGGTTCT TCTCCACCAA CAGTAACCTC TCCAAGCACA AGAAGAAGCA CGGGGAAAAG
    AAATTTGCCT GTGAGATCTG TAACAAACTG TTCTACAGGA GGGATGTAAT GCTGGAGCAT
    CACCGGAGGC ACCTGGAAGG AGTGAGACGC GTAAAGCGGG AAAGCCTCCA TCAGAACACC
    GACAATTCTA TCCGGTATAA AAAGGAGCCG TCGGCCTGTC CTGTGTGCGG GAAGATGTTC
    TCCTGCAGAA GCAACATGAA CAAGCACCTC CTCACTCACG GAGACAAGAA ATACACCTGC
    GAAATCTGCG GCCGAAAATT CTTCAGAGTC GATGTCCTAC GGGATCACAT CCACATTCAT
    TTCAAGGACA TTGCACTGAT GAATGACCAG CAGCGGGAAG AGTTCATTGG GAAGATCGGC
    ATCTCGTCGG AGGACAATGA CGAAAACTCT GACGGGAGCG TAGAAACGGA GCCGCACAAG
    TACAGCTGCA AGAGGTGCCA GATCTCATTT GCTCGGGGGA AGGAATACCT CAAGCACATC
    ATGGATATCC ACGCTGAGAA CGGCTACGAC TGCAGCATTT GCCACCGGCG CTTTGCGCTC
    AAAGCAACGT ATCACGCTCA CATGGTCATT CACCGGGAGA ACCTGCCCGA CCCAGAGGTG
    CAGAAGTACA TTCACCCCTG TGAGGTCTGC GGCAGGATTT TCAACAGCAT CGGAAATCTG
    GAGAGGCACA AACTCATTCA CTCAGGAGTG AAGAGTCACG GCTGCGAGCA GTGCGGGAAG
    TCGTTTGCGC GGAAGGATAT GCTAAAGGAG CACATGAGGG TCCATGACAA CATCCGGGAG
    TATCTGTGCG CTGAGTGTGG GAAAGGAATG AAGACAAAGC ACGCTCTGCG GCACCACATG
    AAGCTGCACA AGGGTATCAA GGAGTACGAG TGCATGGAGT GCCACCGCAG GTTTGCCCAG
    AAGGTGAACA TGCTGAAGCA CTACAAGAGG CACACAGGGA TCAAAGACTT TATGTGCGAA
    TTGTGCGGGA AAACATTCAG CGAAAAGAAC ACAATGGAAA CTCACAAACT CATCCACACA
    GAAGTGGGGA AGCAGTGGAC GTGCACGGTG TGTGATAAGA AGTACGTGAC CGAGTACATG
    CTCCAGAAAC ACGTCCAGCT CACCCACGAC AAGGTGGAGG CGCAGAGCTG CAATCTGTGT
    GGGACCAAGG TGTCAACCAG GGCGTCTATG AGCCGCCATT TAAGGCGCAA GCACCCAGAG
    GTCCTTTCTG TACGGATTGA AGACTTAGAT GACCTGCAAG AATCTGAGGC CATAGATACA
    TCATTAAGCA TTGTACAGCG AGAGCTGGAT GTGGAAGAGC ATGAGGGACT GCAGCGGGCG
    AAACGGATGA GAACGGGCAC CTCCCGCGCG GGAAAGCGCA AGAGTCGGGA GGAAGACGCA
    GAGGATCCGG AAGATCCCAC ATTCACCGAA TATCAGGAGA AGGAGTCGGA GTTTACACGC
    AGCAGCGGAG ACGAGGATGG TTCCGCCGTG GAGACTTTGC AGCAGGTCGT GGTCACAATC
    AGCGATGGGA GTGTCCCCGC ACCATCTTGC ACGGTTGGCC TTACAAACAT TACGGTTACT
    CCCATAACCA CCACAGCAGG CACTCAGTTC GCCAGCCTCC AGCCCGTAGC CGTGGGTCAC
    TTGGCCGCCT CCGAGCGGCA GTTGCAGCTG GACAGCTCCA TCTTAACTGT CACCTTTGAT
    GCAGTGAGCG GCAGTGCGGT GCTACACAAT CGCCCGGCAG AACTGGCCAT TGCGGCCTCG
    CAGGATGCCG CCGGCCCTCA GCCTGTCGCG CACTTCATCA ACCTCACTAC TTTTGTGAAC
    TCCATCGCTC CTCTGGGAGG TCAGATTTCT AGTGAGGCGC CGCTGACGTG GAGGGCGGTG
    CCTGCGGGGG AGACCCCGCC CCATCCTGAA GAAGATCAGC CCTCGGAGCA GACTGAGCAG
    CAGTCATCAG GGCCCCACAC TGTGCAGGAG GTACCCCCAG ACACACAAGG ACAGATGTAC
    AGTTACTAA

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

    CloneID OXa36088
    Clone ID Related Accession (Same CDS sequence) XM_012958062.3 , XM_012958062.2
    Accession Version XM_012958062.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3606bp)
    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 PR domain zinc finger protein 15 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.2) 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_012958062.2. ##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
    ATGGCCCAGG AACCAATGGA TGAAGCTGTA TTTATATGGT GTGATGACTG CGGGCAGTAT 
    CACGATTCCG AATGCCCGGA GCTTGGGCCT GTGGTTACTG TCCAGGATTC TTTTGTTTTG
    AGCCGAGCCC GGTCTTCCCT TCCTTCAAAC TTGGAAATCA AGCAGGCAGA GGATGGCGCA
    GAAGGGGTTT TTGCCGTGAC GCCGCTCGTG AAGCGTACCC AGTTTGGCCC ATTTGAGTCT
    AAGAGAGTTT CCAAACTGGA CAAAGAGCCA CGTTTCTTGC TTAAGGTGTT CCACAAGGAT
    GGCCGGTCGG AGCTGTGTGA CACGTCCAGC GAGGACGATT GCAACTGGAT GATGTTTGTG
    CGGCCGGCCG CGGATTTCAC TCATCAGAAC CTGACCGCCT TCCAACATGG CAACGACGTC
    TACTTTACTA CCTCCCAGGA TATAGCGCTA GGTGCCGAGC TGCGAGTGTG GTACGCAGCC
    TTCTACGCAA GAAGAATGGA GAAAGCTTTG CTAAAGCCTG CCATACCTTG CCACAGTGAG
    GTGAATTTCT TGGCTGCTGA ACCTGAAAAA GACCTGAACC CAAGTTCGTC TTCCAAGACT
    CCCCCCACTG CCATTTTGTC TCCCAAAAAG ATGAAAGTTA CTCATCCGCC TGCAGCTTAC
    ACCTCAGTTT CGTGTCAGGA TAACAGCGAT ATCATTCACG TGGAAACCTG CCACTGGACC
    TGTAAAGTGT GTAGCACCAC CTTTATCGAA CCCAATCTTT TGACAGAACA TTTGCTTAGT
    CATTTAGAAC AAGCCAAAGG GATTCCCCCT CCAACTCAAT GTGAGAACTC CTACCTGGAG
    TGTGATACGG TGAGTGTGAG TGCCGACCAG ACCGTCATCT GTGCCGACTC CAACCAAAAC
    CTGGAGGTGA AGAAGAAACC AAAGAGGGGC CGCAAGTCCA AAGTTCCAAA AGGCAATATC
    CCTCTTGTGA TAGTGGATGA TGACAGCCCA GCAGAACACA ACCCGATCTT ATACAATCCA
    GTCTTCTCAT CCGACCGAGT GGCGGAAATT ATAACAGAGA TCCCTCCCGA TGACGTTCAA
    CTGCCCCACG ATCCAGAGGA CAAATTCATG GAGCTAATGT TGGGAAAATT ACCCAATGCC
    GCCAACAGCC TGCCCCCTGT CTCCAAATTT GCTTTTCACC AAACTAGCAG CTCGGTGAAG
    AGAAGTATGT TGCTCCCTGG CAGCAGGCAC GCGATCCGGC GGAAGTTTGC GAGGCAGCTG
    GGGGATCACA AGCGCGTCTT CCAGTGCAAC ATCTGTGCCA AAGTGTTCCG TAACAGCAGC
    AACCTTAGCC GGCATGTCCG ATCCCACGGG GACAAGCTGT TTAAGTGCGA GGAGTGCTCC
    AAACTCTTCA GTCGGAAGGA GAGCCTCAAG CAGCACGTTT CTTATAAGCA CAGCAGGAAC
    GAGGTAGATG GGGATTACAG GTATCGCTGC AACACCTGCG AGAAGGCTTT TCGGATCCAA
    GGATTTCTGG AGTTTCACAA CTGTAGAACA GATGACAAGT CGTTCCAGTG TGAGATGTGC
    TACCGGTTCT TCTCCACCAA CAGTAACCTC TCCAAGCACA AGAAGAAGCA CGGGGAAAAG
    AAATTTGCCT GTGAGATCTG TAACAAACTG TTCTACAGGA GGGATGTAAT GCTGGAGCAT
    CACCGGAGGC ACCTGGAAGG AGTGAGACGC GTAAAGCGGG AAAGCCTCCA TCAGAACACC
    GACAATTCTA TCCGGTATAA AAAGGAGCCG TCGGCCTGTC CTGTGTGCGG GAAGATGTTC
    TCCTGCAGAA GCAACATGAA CAAGCACCTC CTCACTCACG GAGACAAGAA ATACACCTGC
    GAAATCTGCG GCCGAAAATT CTTCAGAGTC GATGTCCTAC GGGATCACAT CCACATTCAT
    TTCAAGGACA TTGCACTGAT GAATGACCAG CAGCGGGAAG AGTTCATTGG GAAGATCGGC
    ATCTCGTCGG AGGACAATGA CGAAAACTCT GACGGGAGCG TAGAAACGGA GCCGCACAAG
    TACAGCTGCA AGAGGTGCCA GATCTCATTT GCTCGGGGGA AGGAATACCT CAAGCACATC
    ATGGATATCC ACGCTGAGAA CGGCTACGAC TGCAGCATTT GCCACCGGCG CTTTGCGCTC
    AAAGCAACGT ATCACGCTCA CATGGTCATT CACCGGGAGA ACCTGCCCGA CCCAGAGGTG
    CAGAAGTACA TTCACCCCTG TGAGGTCTGC GGCAGGATTT TCAACAGCAT CGGAAATCTG
    GAGAGGCACA AACTCATTCA CTCAGGAGTG AAGAGTCACG GCTGCGAGCA GTGCGGGAAG
    TCGTTTGCGC GGAAGGATAT GCTAAAGGAG CACATGAGGG TCCATGACAA CATCCGGGAG
    TATCTGTGCG CTGAGTGTGG GAAAGGAATG AAGACAAAGC ACGCTCTGCG GCACCACATG
    AAGCTGCACA AGGGTATCAA GGAGTACGAG TGCATGGAGT GCCACCGCAG GTTTGCCCAG
    AAGGTGAACA TGCTGAAGCA CTACAAGAGG CACACAGGGA TCAAAGACTT TATGTGCGAA
    TTGTGCGGGA AAACATTCAG CGAAAAGAAC ACAATGGAAA CTCACAAACT CATCCACACA
    GTGGGGAAGC AGTGGACGTG CACGGTGTGT GATAAGAAGT ACGTGACCGA GTACATGCTC
    CAGAAACACG TCCAGCTCAC CCACGACAAG GTGGAGGCGC AGAGCTGCAA TCTGTGTGGG
    ACCAAGGTGT CAACCAGGGC GTCTATGAGC CGCCATTTAA GGCGCAAGCA CCCAGAGGTC
    CTTTCTGTAC GGATTGAAGA CTTAGATGAC CTGCAAGAAT CTGAGGCCAT AGATACATCA
    TTAAGCATTG TACAGCGAGA GCTGGATGTG GAAGAGCATG AGGGACTGCA GCGGGCGAAA
    CGGATGAGAA CGGGCACCTC CCGCGCGGGA AAGCGCAAGA GTCGGGAGGA AGACGCAGAG
    GATCCGGAAG ATCCCACATT CACCGAATAT CAGGAGAAGG AGTCGGAGTT TACACGCAGC
    AGCGGAGACG AGGATGGTTC CGCCGTGGAG ACTTTGCAGC AGGTCGTGGT CACAATCAGC
    GATGGGAGTG TCCCCGCACC ATCTTGCACG GTTGGCCTTA CAAACATTAC GGTTACTCCC
    ATAACCACCA CAGCAGGCAC TCAGTTCGCC AGCCTCCAGC CCGTAGCCGT GGGTCACTTG
    GCCGCCTCCG AGCGGCAGTT GCAGCTGGAC AGCTCCATCT TAACTGTCAC CTTTGATGCA
    GTGAGCGGCA GTGCGGTGCT ACACAATCGC CCGGCAGAAC TGGCCATTGC GGCCTCGCAG
    GATGCCGCCG GCCCTCAGCC TGTCGCGCAC TTCATCAACC TCACTACTTT TGTGAACTCC
    ATCGCTCCTC TGGGAGGTCA GATTTCTAGT GAGGCGCCGC TGACGTGGAG GGCGGTGCCT
    GCGGGGGAGA CCCCGCCCCA TCCTGAAGAA GATCAGCCCT CGGAGCAGAC TGAGCAGCAG
    TCATCAGGGC CCCACACTGT GCAGGAGGTA CCCCCAGACA CACAAGGACA GATGTACAGT
    TACTAA

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

    RefSeq XP_012813516.1
    CDS95..3700
    Translation

    Target ORF information:

    RefSeq Version XM_012958062.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis PR domain 15 (prdm15), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012958062.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGGCCCAGG AACCAATGGA TGAAGCTGTA TTTATATGGT GTGATGACTG CGGGCAGTAT 
    CACGATTCCG AATGCCCGGA GCTTGGGCCT GTGGTTACTG TCCAGGATTC TTTTGTTTTG
    AGCCGAGCCC GGTCTTCCCT TCCTTCAAAC TTGGAAATCA AGCAGGCAGA GGATGGCGCA
    GAAGGGGTTT TTGCCGTGAC GCCGCTCGTG AAGCGTACCC AGTTTGGCCC ATTTGAGTCT
    AAGAGAGTTT CCAAACTGGA CAAAGAGCCA CGTTTCTTGC TTAAGGTGTT CCACAAGGAT
    GGCCGGTCGG AGCTGTGTGA CACGTCCAGC GAGGACGATT GCAACTGGAT GATGTTTGTG
    CGGCCGGCCG CGGATTTCAC TCATCAGAAC CTGACCGCCT TCCAACATGG CAACGACGTC
    TACTTTACTA CCTCCCAGGA TATAGCGCTA GGTGCCGAGC TGCGAGTGTG GTACGCAGCC
    TTCTACGCAA GAAGAATGGA GAAAGCTTTG CTAAAGCCTG CCATACCTTG CCACAGTGAG
    GTGAATTTCT TGGCTGCTGA ACCTGAAAAA GACCTGAACC CAAGTTCGTC TTCCAAGACT
    CCCCCCACTG CCATTTTGTC TCCCAAAAAG ATGAAAGTTA CTCATCCGCC TGCAGCTTAC
    ACCTCAGTTT CGTGTCAGGA TAACAGCGAT ATCATTCACG TGGAAACCTG CCACTGGACC
    TGTAAAGTGT GTAGCACCAC CTTTATCGAA CCCAATCTTT TGACAGAACA TTTGCTTAGT
    CATTTAGAAC AAGCCAAAGG GATTCCCCCT CCAACTCAAT GTGAGAACTC CTACCTGGAG
    TGTGATACGG TGAGTGTGAG TGCCGACCAG ACCGTCATCT GTGCCGACTC CAACCAAAAC
    CTGGAGGTGA AGAAGAAACC AAAGAGGGGC CGCAAGTCCA AAGTTCCAAA AGGCAATATC
    CCTCTTGTGA TAGTGGATGA TGACAGCCCA GCAGAACACA ACCCGATCTT ATACAATCCA
    GTCTTCTCAT CCGACCGAGT GGCGGAAATT ATAACAGAGA TCCCTCCCGA TGACGTTCAA
    CTGCCCCACG ATCCAGAGGA CAAATTCATG GAGCTAATGT TGGGAAAATT ACCCAATGCC
    GCCAACAGCC TGCCCCCTGT CTCCAAATTT GCTTTTCACC AAACTAGCAG CTCGGTGAAG
    AGAAGTATGT TGCTCCCTGG CAGCAGGCAC GCGATCCGGC GGAAGTTTGC GAGGCAGCTG
    GGGGATCACA AGCGCGTCTT CCAGTGCAAC ATCTGTGCCA AAGTGTTCCG TAACAGCAGC
    AACCTTAGCC GGCATGTCCG ATCCCACGGG GACAAGCTGT TTAAGTGCGA GGAGTGCTCC
    AAACTCTTCA GTCGGAAGGA GAGCCTCAAG CAGCACGTTT CTTATAAGCA CAGCAGGAAC
    GAGGTAGATG GGGATTACAG GTATCGCTGC AACACCTGCG AGAAGGCTTT TCGGATCCAA
    GGATTTCTGG AGTTTCACAA CTGTAGAACA GATGACAAGT CGTTCCAGTG TGAGATGTGC
    TACCGGTTCT TCTCCACCAA CAGTAACCTC TCCAAGCACA AGAAGAAGCA CGGGGAAAAG
    AAATTTGCCT GTGAGATCTG TAACAAACTG TTCTACAGGA GGGATGTAAT GCTGGAGCAT
    CACCGGAGGC ACCTGGAAGG AGTGAGACGC GTAAAGCGGG AAAGCCTCCA TCAGAACACC
    GACAATTCTA TCCGGTATAA AAAGGAGCCG TCGGCCTGTC CTGTGTGCGG GAAGATGTTC
    TCCTGCAGAA GCAACATGAA CAAGCACCTC CTCACTCACG GAGACAAGAA ATACACCTGC
    GAAATCTGCG GCCGAAAATT CTTCAGAGTC GATGTCCTAC GGGATCACAT CCACATTCAT
    TTCAAGGACA TTGCACTGAT GAATGACCAG CAGCGGGAAG AGTTCATTGG GAAGATCGGC
    ATCTCGTCGG AGGACAATGA CGAAAACTCT GACGGGAGCG TAGAAACGGA GCCGCACAAG
    TACAGCTGCA AGAGGTGCCA GATCTCATTT GCTCGGGGGA AGGAATACCT CAAGCACATC
    ATGGATATCC ACGCTGAGAA CGGCTACGAC TGCAGCATTT GCCACCGGCG CTTTGCGCTC
    AAAGCAACGT ATCACGCTCA CATGGTCATT CACCGGGAGA ACCTGCCCGA CCCAGAGGTG
    CAGAAGTACA TTCACCCCTG TGAGGTCTGC GGCAGGATTT TCAACAGCAT CGGAAATCTG
    GAGAGGCACA AACTCATTCA CTCAGGAGTG AAGAGTCACG GCTGCGAGCA GTGCGGGAAG
    TCGTTTGCGC GGAAGGATAT GCTAAAGGAG CACATGAGGG TCCATGACAA CATCCGGGAG
    TATCTGTGCG CTGAGTGTGG GAAAGGAATG AAGACAAAGC ACGCTCTGCG GCACCACATG
    AAGCTGCACA AGGGTATCAA GGAGTACGAG TGCATGGAGT GCCACCGCAG GTTTGCCCAG
    AAGGTGAACA TGCTGAAGCA CTACAAGAGG CACACAGGGA TCAAAGACTT TATGTGCGAA
    TTGTGCGGGA AAACATTCAG CGAAAAGAAC ACAATGGAAA CTCACAAACT CATCCACACA
    GTGGGGAAGC AGTGGACGTG CACGGTGTGT GATAAGAAGT ACGTGACCGA GTACATGCTC
    CAGAAACACG TCCAGCTCAC CCACGACAAG GTGGAGGCGC AGAGCTGCAA TCTGTGTGGG
    ACCAAGGTGT CAACCAGGGC GTCTATGAGC CGCCATTTAA GGCGCAAGCA CCCAGAGGTC
    CTTTCTGTAC GGATTGAAGA CTTAGATGAC CTGCAAGAAT CTGAGGCCAT AGATACATCA
    TTAAGCATTG TACAGCGAGA GCTGGATGTG GAAGAGCATG AGGGACTGCA GCGGGCGAAA
    CGGATGAGAA CGGGCACCTC CCGCGCGGGA AAGCGCAAGA GTCGGGAGGA AGACGCAGAG
    GATCCGGAAG ATCCCACATT CACCGAATAT CAGGAGAAGG AGTCGGAGTT TACACGCAGC
    AGCGGAGACG AGGATGGTTC CGCCGTGGAG ACTTTGCAGC AGGTCGTGGT CACAATCAGC
    GATGGGAGTG TCCCCGCACC ATCTTGCACG GTTGGCCTTA CAAACATTAC GGTTACTCCC
    ATAACCACCA CAGCAGGCAC TCAGTTCGCC AGCCTCCAGC CCGTAGCCGT GGGTCACTTG
    GCCGCCTCCG AGCGGCAGTT GCAGCTGGAC AGCTCCATCT TAACTGTCAC CTTTGATGCA
    GTGAGCGGCA GTGCGGTGCT ACACAATCGC CCGGCAGAAC TGGCCATTGC GGCCTCGCAG
    GATGCCGCCG GCCCTCAGCC TGTCGCGCAC TTCATCAACC TCACTACTTT TGTGAACTCC
    ATCGCTCCTC TGGGAGGTCA GATTTCTAGT GAGGCGCCGC TGACGTGGAG GGCGGTGCCT
    GCGGGGGAGA CCCCGCCCCA TCCTGAAGAA GATCAGCCCT CGGAGCAGAC TGAGCAGCAG
    TCATCAGGGC CCCACACTGT GCAGGAGGTA CCCCCAGACA CACAAGGACA GATGTACAGT
    TACTAA

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

    CloneID OXa06516
    Clone ID Related Accession (Same CDS sequence) XM_004912212.3 , XM_004912212.4
    Accession Version XM_004912212.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3531bp)
    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 PR domain zinc finger protein 15 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_004912212.2. ##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
    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
    ATGGCCCAGG AACCAATGGA TGAAGCTGTA TTTATATGGT GTGATGACTG CGGGCAGTAT 
    CACGATTCCG AATGCCCGGA GCTTGGGCCT GTGGTTACTG TCCAGGATTC TTTTGTTTTG
    AGCCGAGCCC GGTCTTCCCT TCCTTCAAAC TTGGAAATCA AGCAGGCAGA GGATGGCGCA
    GAAGGGGTTT TTGCCGTGAC GCCGCTCGTG AAGCGTACCC AGTTTGGCCC ATTTGAGTCT
    AAGAGAGTTT CCAAACTGGA CAAAGAGCCA CGTTTCTTGC TTAAGGTGTT CCACAAGGAT
    GGCCGGTCGG AGCTGTGTGA CACGTCCAGC GAGGACGATT GCAACTGGAT GATGTTTGTG
    CGGCCGGCCG CGGATTTCAC TCATCAGAAC CTGACCGCCT TCCAACATGG CAACGACGTC
    TACTTTACTA CCTCCCAGGA TATAGCGCTA GGTGCCGAGC TGCGAGTGTG GTACGCAGCC
    TTCTACGCAA GAAGAATGGA GAAAGCTTTG CTAAAGCCTG CCATACCTTG CCACAGTGAG
    GTGAATTTCT TGGCTGCTGA ACCTGAAAAA GACCTGAACC CAAGTTCGTC TTCCAAGACT
    CCCCCCACTG CCATTTTGTC TCCCAAAAAG ATGAAAGTTA CTCATCCGCC TGCAGCTTAC
    ACCTCAGTTT CGTGTCAGGA TAACAGCGAT ATCATTCACG TGGAAACCTG CCACTGGACC
    TGTAAAGTGT GTAGCACCAC CTTTATCGAA CCCAATCTTT TGACAGAACA TTTGCTTAGT
    CATTTAGAAC AAGCCAAAGG GATTCCCCCT CCAACTCAAT GTGAGAACTC CTACCTGGAG
    TGTGATACGG TGAGTGTGAG TGCCGACCAG ACCGTCATCT GTGCCGACTC CAACCAAAAC
    CTGGAGGTGA AGAAGAAACC AAAGAGGGGC CGCAAGTCCA AAGTTCCAAA AGGCAATATC
    CCTCTTGTGA TAGTGGATGA TGACAGCCCA GCAGAACACA ACCCGATCTT ATACAATCCA
    GTCTTCTCAT CCGACCGAGT GGCGGAAATT ATAACAGAGA TCCCTCCCGA TGACGTTCAA
    CTGCCCCACG ATCCAGAGGA CAAATTCATG GAGCTAATGT TGGGAAAATT ACCCAATGCC
    GCCAACAGCC TGCCCCCTGT CTCCAAATTT GCTTTTCACC AAACTAGCAG CTCGGTGAAG
    AGAAGTATGT TGCTCCCTGG CAGCAGGCAC GCGATCCGGC GGAAGTTTGC GAGGCAGCTG
    GGGGATCACA AGCGCGTCTT CCAGTGCAAC ATCTGTGCCA AAGTGTTCCG TAACAGCAGC
    AACCTTAGCC GGCATGTCCG ATCCCACGGG GACAAGCTGT TTAAGTGCGA GGAGTGCTCC
    AAACTCTTCA GTCGGAAGGA GAGCCTCAAG CAGCACGTTT CTTATAAGCA CAGCAGGAAC
    GAGGTAGATG GGGATTACAG GTATCGCTGC AACACCTGCG AGAAGGCTTT TCGGATCCAA
    GGATTTCTGG AGTTTCACAA CTGTAGAACA GATGACAAGT CGTTCCAGTG TGAGATGTGC
    TACCGGTTCT TCTCCACCAA CAGTAACCTC TCCAAGCACA AGAAGAAGCA CGGGGAAAAG
    AAATTTGCCT GTGAGATCTG TAACAAACTG TTCTACAGGA GGGATGTAAT GCTGGAGCAT
    CACCGGAGGC ACCTGGAAGG AGTGAGACGC GTAAAGCGGG AAAGCCTCCA TCAGAACACC
    GACAATTCTA TCCGGTATAA AAAGGAGCCG TCGGCCTGTC CTGTGTGCGG GAAGATGTTC
    TCCTGCAGAA GCAACATGAA CAAGCACCTC CTCACTCACG GAGACAAGAA ATACACCTGC
    GAAATCTGCG GCCGAAAATT CTTCAGAGTC GATGTCCTAC GGGATCACAT CCACATTCAT
    TTCAAGGACA TTGCACTGAT GAATGACCAG CAGCGGGAAG AGTTCATTGG GAAGATCGGC
    ATCTCGTCGG AGGACAATGA CGAAAACTCT GACGGGAGCG TAGAAACGGA GCCGCACAAG
    TACAGCTGCA AGAGGTGCCA GATCTCATTT GCTCGGGGGA AGGAATACCT CAAGCACATC
    ATGGATATCC ACGCTGAGAA CGGCTACGAC TGCAGCATTT GCCACCGGCG CTTTGCGCTC
    AAAGCAACGT ATCACGCTCA CATGGTCATT CACCGGGAGA ACCTGCCCGA CCCAGAGGTG
    CAGAAGTACA TTCACCCCTG TGAGGTCTGC GGCAGGATTT TCAACAGCAT CGGAAATCTG
    GAGAGGCACA AACTCATTCA CTCAGGAGTG AAGAGTCACG GCTGCGAGCA GTGCGGGAAG
    TCGTTTGCGC GGAAGGATAT GCTAAAGGAG CACATGAGGG TCCATGACAA CATCCGGGAG
    TATCTGTGCG CTGAGTGTGG GAAAGGAATG AAGACAAAGC ACGCTCTGCG GCACCACATG
    AAGCTGCACA AGGGTATCAA GGAGTACGAG TGCATGGAGT GCCACCGCAG GTTTGCCCAG
    AAGGTGAACA TGCTGAAGCA CTACAAGAGG CACACAGGGA TCAAAGACTT TATGTGCGAA
    TTGTGCGGGA AAACATTCAG CGAAAAGAAC ACAATGGAAA CTCACAAACT CATCCACACA
    GAAGTGGGGA AGCAGTGGAC GTGCACGGTG TGTGATAAGA AGTACGTGAC CGAGTACATG
    CTCCAGAAAC ACGTCCAGCT CACCCACGAC AAGGTGGAGG CGCAGAGCTG CAATCTGTGT
    GGGACCAAGG TGTCAACCAG GGCGTCTATG AGCCGCCATT TAAGGCGCAA GCACCCAGAG
    CGAGAGCTGG ATGTGGAAGA GCATGAGGGA CTGCAGCGGG CGAAACGGAT GAGAACGGGC
    ACCTCCCGCG CGGGAAAGCG CAAGAGTCGG GAGGAAGACG CAGAGGATCC GGAAGATCCC
    ACATTCACCG AATATCAGGA GAAGGAGTCG GAGTTTACAC GCAGCAGCGG AGACGAGGAT
    GGTTCCGCCG TGGAGACTTT GCAGCAGGTC GTGGTCACAA TCAGCGATGG GAGTGTCCCC
    GCACCATCTT GCACGGTTGG CCTTACAAAC ATTACGGTTA CTCCCATAAC CACCACAGCA
    GGCACTCAGT TCGCCAGCCT CCAGCCCGTA GCCGTGGGTC ACTTGGCCGC CTCCGAGCGG
    CAGTTGCAGC TGGACAGCTC CATCTTAACT GTCACCTTTG ATGCAGTGAG CGGCAGTGCG
    GTGCTACACA ATCGCCCGGC AGAACTGGCC ATTGCGGCCT CGCAGGATGC CGCCGGCCCT
    CAGCCTGTCG CGCACTTCAT CAACCTCACT ACTTTTGTGA ACTCCATCGC TCCTCTGGGA
    GGTCAGATTT CTAGTGAGGC GCCGCTGACG TGGAGGGCGG TGCCTGCGGG GGAGACCCCG
    CCCCATCCTG AAGAAGATCA GCCCTCGGAG CAGACTGAGC AGCAGTCATC AGGGCCCCAC
    ACTGTGCAGG AGGTACCCCC AGACACACAA GGACAGATGT ACAGTTACTA A

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

    RefSeq XP_004912269.1
    CDS143..3673
    Translation

    Target ORF information:

    RefSeq Version XM_004912212.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis PR domain containing 15 (prdm15), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_004912212.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    ATGGCCCAGG AACCAATGGA TGAAGCTGTA TTTATATGGT GTGATGACTG CGGGCAGTAT 
    CACGATTCCG AATGCCCGGA GCTTGGGCCT GTGGTTACTG TCCAGGATTC TTTTGTTTTG
    AGCCGAGCCC GGTCTTCCCT TCCTTCAAAC TTGGAAATCA AGCAGGCAGA GGATGGCGCA
    GAAGGGGTTT TTGCCGTGAC GCCGCTCGTG AAGCGTACCC AGTTTGGCCC ATTTGAGTCT
    AAGAGAGTTT CCAAACTGGA CAAAGAGCCA CGTTTCTTGC TTAAGGTGTT CCACAAGGAT
    GGCCGGTCGG AGCTGTGTGA CACGTCCAGC GAGGACGATT GCAACTGGAT GATGTTTGTG
    CGGCCGGCCG CGGATTTCAC TCATCAGAAC CTGACCGCCT TCCAACATGG CAACGACGTC
    TACTTTACTA CCTCCCAGGA TATAGCGCTA GGTGCCGAGC TGCGAGTGTG GTACGCAGCC
    TTCTACGCAA GAAGAATGGA GAAAGCTTTG CTAAAGCCTG CCATACCTTG CCACAGTGAG
    GTGAATTTCT TGGCTGCTGA ACCTGAAAAA GACCTGAACC CAAGTTCGTC TTCCAAGACT
    CCCCCCACTG CCATTTTGTC TCCCAAAAAG ATGAAAGTTA CTCATCCGCC TGCAGCTTAC
    ACCTCAGTTT CGTGTCAGGA TAACAGCGAT ATCATTCACG TGGAAACCTG CCACTGGACC
    TGTAAAGTGT GTAGCACCAC CTTTATCGAA CCCAATCTTT TGACAGAACA TTTGCTTAGT
    CATTTAGAAC AAGCCAAAGG GATTCCCCCT CCAACTCAAT GTGAGAACTC CTACCTGGAG
    TGTGATACGG TGAGTGTGAG TGCCGACCAG ACCGTCATCT GTGCCGACTC CAACCAAAAC
    CTGGAGGTGA AGAAGAAACC AAAGAGGGGC CGCAAGTCCA AAGTTCCAAA AGGCAATATC
    CCTCTTGTGA TAGTGGATGA TGACAGCCCA GCAGAACACA ACCCGATCTT ATACAATCCA
    GTCTTCTCAT CCGACCGAGT GGCGGAAATT ATAACAGAGA TCCCTCCCGA TGACGTTCAA
    CTGCCCCACG ATCCAGAGGA CAAATTCATG GAGCTAATGT TGGGAAAATT ACCCAATGCC
    GCCAACAGCC TGCCCCCTGT CTCCAAATTT GCTTTTCACC AAACTAGCAG CTCGGTGAAG
    AGAAGTATGT TGCTCCCTGG CAGCAGGCAC GCGATCCGGC GGAAGTTTGC GAGGCAGCTG
    GGGGATCACA AGCGCGTCTT CCAGTGCAAC ATCTGTGCCA AAGTGTTCCG TAACAGCAGC
    AACCTTAGCC GGCATGTCCG ATCCCACGGG GACAAGCTGT TTAAGTGCGA GGAGTGCTCC
    AAACTCTTCA GTCGGAAGGA GAGCCTCAAG CAGCACGTTT CTTATAAGCA CAGCAGGAAC
    GAGGTAGATG GGGATTACAG GTATCGCTGC AACACCTGCG AGAAGGCTTT TCGGATCCAA
    GGATTTCTGG AGTTTCACAA CTGTAGAACA GATGACAAGT CGTTCCAGTG TGAGATGTGC
    TACCGGTTCT TCTCCACCAA CAGTAACCTC TCCAAGCACA AGAAGAAGCA CGGGGAAAAG
    AAATTTGCCT GTGAGATCTG TAACAAACTG TTCTACAGGA GGGATGTAAT GCTGGAGCAT
    CACCGGAGGC ACCTGGAAGG AGTGAGACGC GTAAAGCGGG AAAGCCTCCA TCAGAACACC
    GACAATTCTA TCCGGTATAA AAAGGAGCCG TCGGCCTGTC CTGTGTGCGG GAAGATGTTC
    TCCTGCAGAA GCAACATGAA CAAGCACCTC CTCACTCACG GAGACAAGAA ATACACCTGC
    GAAATCTGCG GCCGAAAATT CTTCAGAGTC GATGTCCTAC GGGATCACAT CCACATTCAT
    TTCAAGGACA TTGCACTGAT GAATGACCAG CAGCGGGAAG AGTTCATTGG GAAGATCGGC
    ATCTCGTCGG AGGACAATGA CGAAAACTCT GACGGGAGCG TAGAAACGGA GCCGCACAAG
    TACAGCTGCA AGAGGTGCCA GATCTCATTT GCTCGGGGGA AGGAATACCT CAAGCACATC
    ATGGATATCC ACGCTGAGAA CGGCTACGAC TGCAGCATTT GCCACCGGCG CTTTGCGCTC
    AAAGCAACGT ATCACGCTCA CATGGTCATT CACCGGGAGA ACCTGCCCGA CCCAGAGGTG
    CAGAAGTACA TTCACCCCTG TGAGGTCTGC GGCAGGATTT TCAACAGCAT CGGAAATCTG
    GAGAGGCACA AACTCATTCA CTCAGGAGTG AAGAGTCACG GCTGCGAGCA GTGCGGGAAG
    TCGTTTGCGC GGAAGGATAT GCTAAAGGAG CACATGAGGG TCCATGACAA CATCCGGGAG
    TATCTGTGCG CTGAGTGTGG GAAAGGAATG AAGACAAAGC ACGCTCTGCG GCACCACATG
    AAGCTGCACA AGGGTATCAA GGAGTACGAG TGCATGGAGT GCCACCGCAG GTTTGCCCAG
    AAGGTGAACA TGCTGAAGCA CTACAAGAGG CACACAGGGA TCAAAGACTT TATGTGCGAA
    TTGTGCGGGA AAACATTCAG CGAAAAGAAC ACAATGGAAA CTCACAAACT CATCCACACA
    GAAGTGGGGA AGCAGTGGAC GTGCACGGTG TGTGATAAGA AGTACGTGAC CGAGTACATG
    CTCCAGAAAC ACGTCCAGCT CACCCACGAC AAGGTGGAGG CGCAGAGCTG CAATCTGTGT
    GGGACCAAGG TGTCAACCAG GGCGTCTATG AGCCGCCATT TAAGGCGCAA GCACCCAGAG
    CGAGAGCTGG ATGTGGAAGA GCATGAGGGA CTGCAGCGGG CGAAACGGAT GAGAACGGGC
    ACCTCCCGCG CGGGAAAGCG CAAGAGTCGG GAGGAAGACG CAGAGGATCC GGAAGATCCC
    ACATTCACCG AATATCAGGA GAAGGAGTCG GAGTTTACAC GCAGCAGCGG AGACGAGGAT
    GGTTCCGCCG TGGAGACTTT GCAGCAGGTC GTGGTCACAA TCAGCGATGG GAGTGTCCCC
    GCACCATCTT GCACGGTTGG CCTTACAAAC ATTACGGTTA CTCCCATAAC CACCACAGCA
    GGCACTCAGT TCGCCAGCCT CCAGCCCGTA GCCGTGGGTC ACTTGGCCGC CTCCGAGCGG
    CAGTTGCAGC TGGACAGCTC CATCTTAACT GTCACCTTTG ATGCAGTGAG CGGCAGTGCG
    GTGCTACACA ATCGCCCGGC AGAACTGGCC ATTGCGGCCT CGCAGGATGC CGCCGGCCCT
    CAGCCTGTCG CGCACTTCAT CAACCTCACT ACTTTTGTGA ACTCCATCGC TCCTCTGGGA
    GGTCAGATTT CTAGTGAGGC GCCGCTGACG TGGAGGGCGG TGCCTGCGGG GGAGACCCCG
    CCCCATCCTG AAGAAGATCA GCCCTCGGAG CAGACTGAGC AGCAGTCATC AGGGCCCCAC
    ACTGTGCAGG AGGTACCCCC AGACACACAA GGACAGATGT ACAGTTACTA A

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

    CloneID OXa06517
    Clone ID Related Accession (Same CDS sequence) XM_002941288.5 , XM_002941288.4
    Accession Version XM_002941288.4 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3528bp)
    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 PR domain zinc finger protein 15 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_002941288.3. ##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
    ATGGCCCAGG AACCAATGGA TGAAGCTGTA TTTATATGGT GTGATGACTG CGGGCAGTAT 
    CACGATTCCG AATGCCCGGA GCTTGGGCCT GTGGTTACTG TCCAGGATTC TTTTGTTTTG
    AGCCGAGCCC GGTCTTCCCT TCCTTCAAAC TTGGAAATCA AGCAGGCAGA GGATGGCGCA
    GAAGGGGTTT TTGCCGTGAC GCCGCTCGTG AAGCGTACCC AGTTTGGCCC ATTTGAGTCT
    AAGAGAGTTT CCAAACTGGA CAAAGAGCCA CGTTTCTTGC TTAAGGTGTT CCACAAGGAT
    GGCCGGTCGG AGCTGTGTGA CACGTCCAGC GAGGACGATT GCAACTGGAT GATGTTTGTG
    CGGCCGGCCG CGGATTTCAC TCATCAGAAC CTGACCGCCT TCCAACATGG CAACGACGTC
    TACTTTACTA CCTCCCAGGA TATAGCGCTA GGTGCCGAGC TGCGAGTGTG GTACGCAGCC
    TTCTACGCAA GAAGAATGGA GAAAGCTTTG CTAAAGCCTG CCATACCTTG CCACAGTGAG
    GTGAATTTCT TGGCTGCTGA ACCTGAAAAA GACCTGAACC CAAGTTCGTC TTCCAAGACT
    CCCCCCACTG CCATTTTGTC TCCCAAAAAG ATGAAAGTTA CTCATCCGCC TGCAGCTTAC
    ACCTCAGTTT CGTGTCAGGA TAACAGCGAT ATCATTCACG TGGAAACCTG CCACTGGACC
    TGTAAAGTGT GTAGCACCAC CTTTATCGAA CCCAATCTTT TGACAGAACA TTTGCTTAGT
    CATTTAGAAC AAGCCAAAGG GATTCCCCCT CCAACTCAAT GTGAGAACTC CTACCTGGAG
    TGTGATACGG TGAGTGTGAG TGCCGACCAG ACCGTCATCT GTGCCGACTC CAACCAAAAC
    CTGGAGGTGA AGAAGAAACC AAAGAGGGGC CGCAAGTCCA AAGTTCCAAA AGGCAATATC
    CCTCTTGTGA TAGTGGATGA TGACAGCCCA GCAGAACACA ACCCGATCTT ATACAATCCA
    GTCTTCTCAT CCGACCGAGT GGCGGAAATT ATAACAGAGA TCCCTCCCGA TGACGTTCAA
    CTGCCCCACG ATCCAGAGGA CAAATTCATG GAGCTAATGT TGGGAAAATT ACCCAATGCC
    GCCAACAGCC TGCCCCCTGT CTCCAAATTT GCTTTTCACC AAACTAGCAG CTCGGTGAAG
    AGAAGTATGT TGCTCCCTGG CAGCAGGCAC GCGATCCGGC GGAAGTTTGC GAGGCAGCTG
    GGGGATCACA AGCGCGTCTT CCAGTGCAAC ATCTGTGCCA AAGTGTTCCG TAACAGCAGC
    AACCTTAGCC GGCATGTCCG ATCCCACGGG GACAAGCTGT TTAAGTGCGA GGAGTGCTCC
    AAACTCTTCA GTCGGAAGGA GAGCCTCAAG CAGCACGTTT CTTATAAGCA CAGCAGGAAC
    GAGGTAGATG GGGATTACAG GTATCGCTGC AACACCTGCG AGAAGGCTTT TCGGATCCAA
    GGATTTCTGG AGTTTCACAA CTGTAGAACA GATGACAAGT CGTTCCAGTG TGAGATGTGC
    TACCGGTTCT TCTCCACCAA CAGTAACCTC TCCAAGCACA AGAAGAAGCA CGGGGAAAAG
    AAATTTGCCT GTGAGATCTG TAACAAACTG TTCTACAGGA GGGATGTAAT GCTGGAGCAT
    CACCGGAGGC ACCTGGAAGG AGTGAGACGC GTAAAGCGGG AAAGCCTCCA TCAGAACACC
    GACAATTCTA TCCGGTATAA AAAGGAGCCG TCGGCCTGTC CTGTGTGCGG GAAGATGTTC
    TCCTGCAGAA GCAACATGAA CAAGCACCTC CTCACTCACG GAGACAAGAA ATACACCTGC
    GAAATCTGCG GCCGAAAATT CTTCAGAGTC GATGTCCTAC GGGATCACAT CCACATTCAT
    TTCAAGGACA TTGCACTGAT GAATGACCAG CAGCGGGAAG AGTTCATTGG GAAGATCGGC
    ATCTCGTCGG AGGACAATGA CGAAAACTCT GACGGGAGCG TAGAAACGGA GCCGCACAAG
    TACAGCTGCA AGAGGTGCCA GATCTCATTT GCTCGGGGGA AGGAATACCT CAAGCACATC
    ATGGATATCC ACGCTGAGAA CGGCTACGAC TGCAGCATTT GCCACCGGCG CTTTGCGCTC
    AAAGCAACGT ATCACGCTCA CATGGTCATT CACCGGGAGA ACCTGCCCGA CCCAGAGGTG
    CAGAAGTACA TTCACCCCTG TGAGGTCTGC GGCAGGATTT TCAACAGCAT CGGAAATCTG
    GAGAGGCACA AACTCATTCA CTCAGGAGTG AAGAGTCACG GCTGCGAGCA GTGCGGGAAG
    TCGTTTGCGC GGAAGGATAT GCTAAAGGAG CACATGAGGG TCCATGACAA CATCCGGGAG
    TATCTGTGCG CTGAGTGTGG GAAAGGAATG AAGACAAAGC ACGCTCTGCG GCACCACATG
    AAGCTGCACA AGGGTATCAA GGAGTACGAG TGCATGGAGT GCCACCGCAG GTTTGCCCAG
    AAGGTGAACA TGCTGAAGCA CTACAAGAGG CACACAGGGA TCAAAGACTT TATGTGCGAA
    TTGTGCGGGA AAACATTCAG CGAAAAGAAC ACAATGGAAA CTCACAAACT CATCCACACA
    GTGGGGAAGC AGTGGACGTG CACGGTGTGT GATAAGAAGT ACGTGACCGA GTACATGCTC
    CAGAAACACG TCCAGCTCAC CCACGACAAG GTGGAGGCGC AGAGCTGCAA TCTGTGTGGG
    ACCAAGGTGT CAACCAGGGC GTCTATGAGC CGCCATTTAA GGCGCAAGCA CCCAGAGCGA
    GAGCTGGATG TGGAAGAGCA TGAGGGACTG CAGCGGGCGA AACGGATGAG AACGGGCACC
    TCCCGCGCGG GAAAGCGCAA GAGTCGGGAG GAAGACGCAG AGGATCCGGA AGATCCCACA
    TTCACCGAAT ATCAGGAGAA GGAGTCGGAG TTTACACGCA GCAGCGGAGA CGAGGATGGT
    TCCGCCGTGG AGACTTTGCA GCAGGTCGTG GTCACAATCA GCGATGGGAG TGTCCCCGCA
    CCATCTTGCA CGGTTGGCCT TACAAACATT ACGGTTACTC CCATAACCAC CACAGCAGGC
    ACTCAGTTCG CCAGCCTCCA GCCCGTAGCC GTGGGTCACT TGGCCGCCTC CGAGCGGCAG
    TTGCAGCTGG ACAGCTCCAT CTTAACTGTC ACCTTTGATG CAGTGAGCGG CAGTGCGGTG
    CTACACAATC GCCCGGCAGA ACTGGCCATT GCGGCCTCGC AGGATGCCGC CGGCCCTCAG
    CCTGTCGCGC ACTTCATCAA CCTCACTACT TTTGTGAACT CCATCGCTCC TCTGGGAGGT
    CAGATTTCTA GTGAGGCGCC GCTGACGTGG AGGGCGGTGC CTGCGGGGGA GACCCCGCCC
    CATCCTGAAG AAGATCAGCC CTCGGAGCAG ACTGAGCAGC AGTCATCAGG GCCCCACACT
    GTGCAGGAGG TACCCCCAGA CACACAAGGA CAGATGTACA GTTACTAA

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

    RefSeq XP_002941334.2
    CDS143..3670
    Translation

    Target ORF information:

    RefSeq Version XM_002941288.4
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis PR domain containing 15 (prdm15), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_002941288.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    ATGGCCCAGG AACCAATGGA TGAAGCTGTA TTTATATGGT GTGATGACTG CGGGCAGTAT 
    CACGATTCCG AATGCCCGGA GCTTGGGCCT GTGGTTACTG TCCAGGATTC TTTTGTTTTG
    AGCCGAGCCC GGTCTTCCCT TCCTTCAAAC TTGGAAATCA AGCAGGCAGA GGATGGCGCA
    GAAGGGGTTT TTGCCGTGAC GCCGCTCGTG AAGCGTACCC AGTTTGGCCC ATTTGAGTCT
    AAGAGAGTTT CCAAACTGGA CAAAGAGCCA CGTTTCTTGC TTAAGGTGTT CCACAAGGAT
    GGCCGGTCGG AGCTGTGTGA CACGTCCAGC GAGGACGATT GCAACTGGAT GATGTTTGTG
    CGGCCGGCCG CGGATTTCAC TCATCAGAAC CTGACCGCCT TCCAACATGG CAACGACGTC
    TACTTTACTA CCTCCCAGGA TATAGCGCTA GGTGCCGAGC TGCGAGTGTG GTACGCAGCC
    TTCTACGCAA GAAGAATGGA GAAAGCTTTG CTAAAGCCTG CCATACCTTG CCACAGTGAG
    GTGAATTTCT TGGCTGCTGA ACCTGAAAAA GACCTGAACC CAAGTTCGTC TTCCAAGACT
    CCCCCCACTG CCATTTTGTC TCCCAAAAAG ATGAAAGTTA CTCATCCGCC TGCAGCTTAC
    ACCTCAGTTT CGTGTCAGGA TAACAGCGAT ATCATTCACG TGGAAACCTG CCACTGGACC
    TGTAAAGTGT GTAGCACCAC CTTTATCGAA CCCAATCTTT TGACAGAACA TTTGCTTAGT
    CATTTAGAAC AAGCCAAAGG GATTCCCCCT CCAACTCAAT GTGAGAACTC CTACCTGGAG
    TGTGATACGG TGAGTGTGAG TGCCGACCAG ACCGTCATCT GTGCCGACTC CAACCAAAAC
    CTGGAGGTGA AGAAGAAACC AAAGAGGGGC CGCAAGTCCA AAGTTCCAAA AGGCAATATC
    CCTCTTGTGA TAGTGGATGA TGACAGCCCA GCAGAACACA ACCCGATCTT ATACAATCCA
    GTCTTCTCAT CCGACCGAGT GGCGGAAATT ATAACAGAGA TCCCTCCCGA TGACGTTCAA
    CTGCCCCACG ATCCAGAGGA CAAATTCATG GAGCTAATGT TGGGAAAATT ACCCAATGCC
    GCCAACAGCC TGCCCCCTGT CTCCAAATTT GCTTTTCACC AAACTAGCAG CTCGGTGAAG
    AGAAGTATGT TGCTCCCTGG CAGCAGGCAC GCGATCCGGC GGAAGTTTGC GAGGCAGCTG
    GGGGATCACA AGCGCGTCTT CCAGTGCAAC ATCTGTGCCA AAGTGTTCCG TAACAGCAGC
    AACCTTAGCC GGCATGTCCG ATCCCACGGG GACAAGCTGT TTAAGTGCGA GGAGTGCTCC
    AAACTCTTCA GTCGGAAGGA GAGCCTCAAG CAGCACGTTT CTTATAAGCA CAGCAGGAAC
    GAGGTAGATG GGGATTACAG GTATCGCTGC AACACCTGCG AGAAGGCTTT TCGGATCCAA
    GGATTTCTGG AGTTTCACAA CTGTAGAACA GATGACAAGT CGTTCCAGTG TGAGATGTGC
    TACCGGTTCT TCTCCACCAA CAGTAACCTC TCCAAGCACA AGAAGAAGCA CGGGGAAAAG
    AAATTTGCCT GTGAGATCTG TAACAAACTG TTCTACAGGA GGGATGTAAT GCTGGAGCAT
    CACCGGAGGC ACCTGGAAGG AGTGAGACGC GTAAAGCGGG AAAGCCTCCA TCAGAACACC
    GACAATTCTA TCCGGTATAA AAAGGAGCCG TCGGCCTGTC CTGTGTGCGG GAAGATGTTC
    TCCTGCAGAA GCAACATGAA CAAGCACCTC CTCACTCACG GAGACAAGAA ATACACCTGC
    GAAATCTGCG GCCGAAAATT CTTCAGAGTC GATGTCCTAC GGGATCACAT CCACATTCAT
    TTCAAGGACA TTGCACTGAT GAATGACCAG CAGCGGGAAG AGTTCATTGG GAAGATCGGC
    ATCTCGTCGG AGGACAATGA CGAAAACTCT GACGGGAGCG TAGAAACGGA GCCGCACAAG
    TACAGCTGCA AGAGGTGCCA GATCTCATTT GCTCGGGGGA AGGAATACCT CAAGCACATC
    ATGGATATCC ACGCTGAGAA CGGCTACGAC TGCAGCATTT GCCACCGGCG CTTTGCGCTC
    AAAGCAACGT ATCACGCTCA CATGGTCATT CACCGGGAGA ACCTGCCCGA CCCAGAGGTG
    CAGAAGTACA TTCACCCCTG TGAGGTCTGC GGCAGGATTT TCAACAGCAT CGGAAATCTG
    GAGAGGCACA AACTCATTCA CTCAGGAGTG AAGAGTCACG GCTGCGAGCA GTGCGGGAAG
    TCGTTTGCGC GGAAGGATAT GCTAAAGGAG CACATGAGGG TCCATGACAA CATCCGGGAG
    TATCTGTGCG CTGAGTGTGG GAAAGGAATG AAGACAAAGC ACGCTCTGCG GCACCACATG
    AAGCTGCACA AGGGTATCAA GGAGTACGAG TGCATGGAGT GCCACCGCAG GTTTGCCCAG
    AAGGTGAACA TGCTGAAGCA CTACAAGAGG CACACAGGGA TCAAAGACTT TATGTGCGAA
    TTGTGCGGGA AAACATTCAG CGAAAAGAAC ACAATGGAAA CTCACAAACT CATCCACACA
    GTGGGGAAGC AGTGGACGTG CACGGTGTGT GATAAGAAGT ACGTGACCGA GTACATGCTC
    CAGAAACACG TCCAGCTCAC CCACGACAAG GTGGAGGCGC AGAGCTGCAA TCTGTGTGGG
    ACCAAGGTGT CAACCAGGGC GTCTATGAGC CGCCATTTAA GGCGCAAGCA CCCAGAGCGA
    GAGCTGGATG TGGAAGAGCA TGAGGGACTG CAGCGGGCGA AACGGATGAG AACGGGCACC
    TCCCGCGCGG GAAAGCGCAA GAGTCGGGAG GAAGACGCAG AGGATCCGGA AGATCCCACA
    TTCACCGAAT ATCAGGAGAA GGAGTCGGAG TTTACACGCA GCAGCGGAGA CGAGGATGGT
    TCCGCCGTGG AGACTTTGCA GCAGGTCGTG GTCACAATCA GCGATGGGAG TGTCCCCGCA
    CCATCTTGCA CGGTTGGCCT TACAAACATT ACGGTTACTC CCATAACCAC CACAGCAGGC
    ACTCAGTTCG CCAGCCTCCA GCCCGTAGCC GTGGGTCACT TGGCCGCCTC CGAGCGGCAG
    TTGCAGCTGG ACAGCTCCAT CTTAACTGTC ACCTTTGATG CAGTGAGCGG CAGTGCGGTG
    CTACACAATC GCCCGGCAGA ACTGGCCATT GCGGCCTCGC AGGATGCCGC CGGCCCTCAG
    CCTGTCGCGC ACTTCATCAA CCTCACTACT TTTGTGAACT CCATCGCTCC TCTGGGAGGT
    CAGATTTCTA GTGAGGCGCC GCTGACGTGG AGGGCGGTGC CTGCGGGGGA GACCCCGCCC
    CATCCTGAAG AAGATCAGCC CTCGGAGCAG ACTGAGCAGC AGTCATCAGG GCCCCACACT
    GTGCAGGAGG TACCCCCAGA CACACAAGGA CAGATGTACA GTTACTAA

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

    CloneID OXa36087
    Clone ID Related Accession (Same CDS sequence) XM_012958061.2 , XM_012958061.3
    Accession Version XM_012958061.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3609bp)
    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 PR domain zinc finger protein 15 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012958061.1. ##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
    ATGGCCCAGG AACCAATGGA TGAAGCTGTA TTTATATGGT GTGATGACTG CGGGCAGTAT 
    CACGATTCCG AATGCCCGGA GCTTGGGCCT GTGGTTACTG TCCAGGATTC TTTTGTTTTG
    AGCCGAGCCC GGTCTTCCCT TCCTTCAAAC TTGGAAATCA AGCAGGCAGA GGATGGCGCA
    GAAGGGGTTT TTGCCGTGAC GCCGCTCGTG AAGCGTACCC AGTTTGGCCC ATTTGAGTCT
    AAGAGAGTTT CCAAACTGGA CAAAGAGCCA CGTTTCTTGC TTAAGGTGTT CCACAAGGAT
    GGCCGGTCGG AGCTGTGTGA CACGTCCAGC GAGGACGATT GCAACTGGAT GATGTTTGTG
    CGGCCGGCCG CGGATTTCAC TCATCAGAAC CTGACCGCCT TCCAACATGG CAACGACGTC
    TACTTTACTA CCTCCCAGGA TATAGCGCTA GGTGCCGAGC TGCGAGTGTG GTACGCAGCC
    TTCTACGCAA GAAGAATGGA GAAAGCTTTG CTAAAGCCTG CCATACCTTG CCACAGTGAG
    GTGAATTTCT TGGCTGCTGA ACCTGAAAAA GACCTGAACC CAAGTTCGTC TTCCAAGACT
    CCCCCCACTG CCATTTTGTC TCCCAAAAAG ATGAAAGTTA CTCATCCGCC TGCAGCTTAC
    ACCTCAGTTT CGTGTCAGGA TAACAGCGAT ATCATTCACG TGGAAACCTG CCACTGGACC
    TGTAAAGTGT GTAGCACCAC CTTTATCGAA CCCAATCTTT TGACAGAACA TTTGCTTAGT
    CATTTAGAAC AAGCCAAAGG GATTCCCCCT CCAACTCAAT GTGAGAACTC CTACCTGGAG
    TGTGATACGG TGAGTGTGAG TGCCGACCAG ACCGTCATCT GTGCCGACTC CAACCAAAAC
    CTGGAGGTGA AGAAGAAACC AAAGAGGGGC CGCAAGTCCA AAGTTCCAAA AGGCAATATC
    CCTCTTGTGA TAGTGGATGA TGACAGCCCA GCAGAACACA ACCCGATCTT ATACAATCCA
    GTCTTCTCAT CCGACCGAGT GGCGGAAATT ATAACAGAGA TCCCTCCCGA TGACGTTCAA
    CTGCCCCACG ATCCAGAGGA CAAATTCATG GAGCTAATGT TGGGAAAATT ACCCAATGCC
    GCCAACAGCC TGCCCCCTGT CTCCAAATTT GCTTTTCACC AAACTAGCAG CTCGGTGAAG
    AGAAGTATGT TGCTCCCTGG CAGCAGGCAC GCGATCCGGC GGAAGTTTGC GAGGCAGCTG
    GGGGATCACA AGCGCGTCTT CCAGTGCAAC ATCTGTGCCA AAGTGTTCCG TAACAGCAGC
    AACCTTAGCC GGCATGTCCG ATCCCACGGG GACAAGCTGT TTAAGTGCGA GGAGTGCTCC
    AAACTCTTCA GTCGGAAGGA GAGCCTCAAG CAGCACGTTT CTTATAAGCA CAGCAGGAAC
    GAGGTAGATG GGGATTACAG GTATCGCTGC AACACCTGCG AGAAGGCTTT TCGGATCCAA
    GGATTTCTGG AGTTTCACAA CTGTAGAACA GATGACAAGT CGTTCCAGTG TGAGATGTGC
    TACCGGTTCT TCTCCACCAA CAGTAACCTC TCCAAGCACA AGAAGAAGCA CGGGGAAAAG
    AAATTTGCCT GTGAGATCTG TAACAAACTG TTCTACAGGA GGGATGTAAT GCTGGAGCAT
    CACCGGAGGC ACCTGGAAGG AGTGAGACGC GTAAAGCGGG AAAGCCTCCA TCAGAACACC
    GACAATTCTA TCCGGTATAA AAAGGAGCCG TCGGCCTGTC CTGTGTGCGG GAAGATGTTC
    TCCTGCAGAA GCAACATGAA CAAGCACCTC CTCACTCACG GAGACAAGAA ATACACCTGC
    GAAATCTGCG GCCGAAAATT CTTCAGAGTC GATGTCCTAC GGGATCACAT CCACATTCAT
    TTCAAGGACA TTGCACTGAT GAATGACCAG CAGCGGGAAG AGTTCATTGG GAAGATCGGC
    ATCTCGTCGG AGGACAATGA CGAAAACTCT GACGGGAGCG TAGAAACGGA GCCGCACAAG
    TACAGCTGCA AGAGGTGCCA GATCTCATTT GCTCGGGGGA AGGAATACCT CAAGCACATC
    ATGGATATCC ACGCTGAGAA CGGCTACGAC TGCAGCATTT GCCACCGGCG CTTTGCGCTC
    AAAGCAACGT ATCACGCTCA CATGGTCATT CACCGGGAGA ACCTGCCCGA CCCAGAGGTG
    CAGAAGTACA TTCACCCCTG TGAGGTCTGC GGCAGGATTT TCAACAGCAT CGGAAATCTG
    GAGAGGCACA AACTCATTCA CTCAGGAGTG AAGAGTCACG GCTGCGAGCA GTGCGGGAAG
    TCGTTTGCGC GGAAGGATAT GCTAAAGGAG CACATGAGGG TCCATGACAA CATCCGGGAG
    TATCTGTGCG CTGAGTGTGG GAAAGGAATG AAGACAAAGC ACGCTCTGCG GCACCACATG
    AAGCTGCACA AGGGTATCAA GGAGTACGAG TGCATGGAGT GCCACCGCAG GTTTGCCCAG
    AAGGTGAACA TGCTGAAGCA CTACAAGAGG CACACAGGGA TCAAAGACTT TATGTGCGAA
    TTGTGCGGGA AAACATTCAG CGAAAAGAAC ACAATGGAAA CTCACAAACT CATCCACACA
    GAAGTGGGGA AGCAGTGGAC GTGCACGGTG TGTGATAAGA AGTACGTGAC CGAGTACATG
    CTCCAGAAAC ACGTCCAGCT CACCCACGAC AAGGTGGAGG CGCAGAGCTG CAATCTGTGT
    GGGACCAAGG TGTCAACCAG GGCGTCTATG AGCCGCCATT TAAGGCGCAA GCACCCAGAG
    GTCCTTTCTG TACGGATTGA AGACTTAGAT GACCTGCAAG AATCTGAGGC CATAGATACA
    TCATTAAGCA TTGTACAGCG AGAGCTGGAT GTGGAAGAGC ATGAGGGACT GCAGCGGGCG
    AAACGGATGA GAACGGGCAC CTCCCGCGCG GGAAAGCGCA AGAGTCGGGA GGAAGACGCA
    GAGGATCCGG AAGATCCCAC ATTCACCGAA TATCAGGAGA AGGAGTCGGA GTTTACACGC
    AGCAGCGGAG ACGAGGATGG TTCCGCCGTG GAGACTTTGC AGCAGGTCGT GGTCACAATC
    AGCGATGGGA GTGTCCCCGC ACCATCTTGC ACGGTTGGCC TTACAAACAT TACGGTTACT
    CCCATAACCA CCACAGCAGG CACTCAGTTC GCCAGCCTCC AGCCCGTAGC CGTGGGTCAC
    TTGGCCGCCT CCGAGCGGCA GTTGCAGCTG GACAGCTCCA TCTTAACTGT CACCTTTGAT
    GCAGTGAGCG GCAGTGCGGT GCTACACAAT CGCCCGGCAG AACTGGCCAT TGCGGCCTCG
    CAGGATGCCG CCGGCCCTCA GCCTGTCGCG CACTTCATCA ACCTCACTAC TTTTGTGAAC
    TCCATCGCTC CTCTGGGAGG TCAGATTTCT AGTGAGGCGC CGCTGACGTG GAGGGCGGTG
    CCTGCGGGGG AGACCCCGCC CCATCCTGAA GAAGATCAGC CCTCGGAGCA GACTGAGCAG
    CAGTCATCAG GGCCCCACAC TGTGCAGGAG GTACCCCCAG ACACACAAGG ACAGATGTAC
    AGTTACTAA

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

    RefSeq XP_012813515.1
    CDS143..3751
    Translation

    Target ORF information:

    RefSeq Version XM_012958061.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis PR domain containing 15 (prdm15), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012958061.2

    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
    ATGGCCCAGG AACCAATGGA TGAAGCTGTA TTTATATGGT GTGATGACTG CGGGCAGTAT 
    CACGATTCCG AATGCCCGGA GCTTGGGCCT GTGGTTACTG TCCAGGATTC TTTTGTTTTG
    AGCCGAGCCC GGTCTTCCCT TCCTTCAAAC TTGGAAATCA AGCAGGCAGA GGATGGCGCA
    GAAGGGGTTT TTGCCGTGAC GCCGCTCGTG AAGCGTACCC AGTTTGGCCC ATTTGAGTCT
    AAGAGAGTTT CCAAACTGGA CAAAGAGCCA CGTTTCTTGC TTAAGGTGTT CCACAAGGAT
    GGCCGGTCGG AGCTGTGTGA CACGTCCAGC GAGGACGATT GCAACTGGAT GATGTTTGTG
    CGGCCGGCCG CGGATTTCAC TCATCAGAAC CTGACCGCCT TCCAACATGG CAACGACGTC
    TACTTTACTA CCTCCCAGGA TATAGCGCTA GGTGCCGAGC TGCGAGTGTG GTACGCAGCC
    TTCTACGCAA GAAGAATGGA GAAAGCTTTG CTAAAGCCTG CCATACCTTG CCACAGTGAG
    GTGAATTTCT TGGCTGCTGA ACCTGAAAAA GACCTGAACC CAAGTTCGTC TTCCAAGACT
    CCCCCCACTG CCATTTTGTC TCCCAAAAAG ATGAAAGTTA CTCATCCGCC TGCAGCTTAC
    ACCTCAGTTT CGTGTCAGGA TAACAGCGAT ATCATTCACG TGGAAACCTG CCACTGGACC
    TGTAAAGTGT GTAGCACCAC CTTTATCGAA CCCAATCTTT TGACAGAACA TTTGCTTAGT
    CATTTAGAAC AAGCCAAAGG GATTCCCCCT CCAACTCAAT GTGAGAACTC CTACCTGGAG
    TGTGATACGG TGAGTGTGAG TGCCGACCAG ACCGTCATCT GTGCCGACTC CAACCAAAAC
    CTGGAGGTGA AGAAGAAACC AAAGAGGGGC CGCAAGTCCA AAGTTCCAAA AGGCAATATC
    CCTCTTGTGA TAGTGGATGA TGACAGCCCA GCAGAACACA ACCCGATCTT ATACAATCCA
    GTCTTCTCAT CCGACCGAGT GGCGGAAATT ATAACAGAGA TCCCTCCCGA TGACGTTCAA
    CTGCCCCACG ATCCAGAGGA CAAATTCATG GAGCTAATGT TGGGAAAATT ACCCAATGCC
    GCCAACAGCC TGCCCCCTGT CTCCAAATTT GCTTTTCACC AAACTAGCAG CTCGGTGAAG
    AGAAGTATGT TGCTCCCTGG CAGCAGGCAC GCGATCCGGC GGAAGTTTGC GAGGCAGCTG
    GGGGATCACA AGCGCGTCTT CCAGTGCAAC ATCTGTGCCA AAGTGTTCCG TAACAGCAGC
    AACCTTAGCC GGCATGTCCG ATCCCACGGG GACAAGCTGT TTAAGTGCGA GGAGTGCTCC
    AAACTCTTCA GTCGGAAGGA GAGCCTCAAG CAGCACGTTT CTTATAAGCA CAGCAGGAAC
    GAGGTAGATG GGGATTACAG GTATCGCTGC AACACCTGCG AGAAGGCTTT TCGGATCCAA
    GGATTTCTGG AGTTTCACAA CTGTAGAACA GATGACAAGT CGTTCCAGTG TGAGATGTGC
    TACCGGTTCT TCTCCACCAA CAGTAACCTC TCCAAGCACA AGAAGAAGCA CGGGGAAAAG
    AAATTTGCCT GTGAGATCTG TAACAAACTG TTCTACAGGA GGGATGTAAT GCTGGAGCAT
    CACCGGAGGC ACCTGGAAGG AGTGAGACGC GTAAAGCGGG AAAGCCTCCA TCAGAACACC
    GACAATTCTA TCCGGTATAA AAAGGAGCCG TCGGCCTGTC CTGTGTGCGG GAAGATGTTC
    TCCTGCAGAA GCAACATGAA CAAGCACCTC CTCACTCACG GAGACAAGAA ATACACCTGC
    GAAATCTGCG GCCGAAAATT CTTCAGAGTC GATGTCCTAC GGGATCACAT CCACATTCAT
    TTCAAGGACA TTGCACTGAT GAATGACCAG CAGCGGGAAG AGTTCATTGG GAAGATCGGC
    ATCTCGTCGG AGGACAATGA CGAAAACTCT GACGGGAGCG TAGAAACGGA GCCGCACAAG
    TACAGCTGCA AGAGGTGCCA GATCTCATTT GCTCGGGGGA AGGAATACCT CAAGCACATC
    ATGGATATCC ACGCTGAGAA CGGCTACGAC TGCAGCATTT GCCACCGGCG CTTTGCGCTC
    AAAGCAACGT ATCACGCTCA CATGGTCATT CACCGGGAGA ACCTGCCCGA CCCAGAGGTG
    CAGAAGTACA TTCACCCCTG TGAGGTCTGC GGCAGGATTT TCAACAGCAT CGGAAATCTG
    GAGAGGCACA AACTCATTCA CTCAGGAGTG AAGAGTCACG GCTGCGAGCA GTGCGGGAAG
    TCGTTTGCGC GGAAGGATAT GCTAAAGGAG CACATGAGGG TCCATGACAA CATCCGGGAG
    TATCTGTGCG CTGAGTGTGG GAAAGGAATG AAGACAAAGC ACGCTCTGCG GCACCACATG
    AAGCTGCACA AGGGTATCAA GGAGTACGAG TGCATGGAGT GCCACCGCAG GTTTGCCCAG
    AAGGTGAACA TGCTGAAGCA CTACAAGAGG CACACAGGGA TCAAAGACTT TATGTGCGAA
    TTGTGCGGGA AAACATTCAG CGAAAAGAAC ACAATGGAAA CTCACAAACT CATCCACACA
    GAAGTGGGGA AGCAGTGGAC GTGCACGGTG TGTGATAAGA AGTACGTGAC CGAGTACATG
    CTCCAGAAAC ACGTCCAGCT CACCCACGAC AAGGTGGAGG CGCAGAGCTG CAATCTGTGT
    GGGACCAAGG TGTCAACCAG GGCGTCTATG AGCCGCCATT TAAGGCGCAA GCACCCAGAG
    GTCCTTTCTG TACGGATTGA AGACTTAGAT GACCTGCAAG AATCTGAGGC CATAGATACA
    TCATTAAGCA TTGTACAGCG AGAGCTGGAT GTGGAAGAGC ATGAGGGACT GCAGCGGGCG
    AAACGGATGA GAACGGGCAC CTCCCGCGCG GGAAAGCGCA AGAGTCGGGA GGAAGACGCA
    GAGGATCCGG AAGATCCCAC ATTCACCGAA TATCAGGAGA AGGAGTCGGA GTTTACACGC
    AGCAGCGGAG ACGAGGATGG TTCCGCCGTG GAGACTTTGC AGCAGGTCGT GGTCACAATC
    AGCGATGGGA GTGTCCCCGC ACCATCTTGC ACGGTTGGCC TTACAAACAT TACGGTTACT
    CCCATAACCA CCACAGCAGG CACTCAGTTC GCCAGCCTCC AGCCCGTAGC CGTGGGTCAC
    TTGGCCGCCT CCGAGCGGCA GTTGCAGCTG GACAGCTCCA TCTTAACTGT CACCTTTGAT
    GCAGTGAGCG GCAGTGCGGT GCTACACAAT CGCCCGGCAG AACTGGCCAT TGCGGCCTCG
    CAGGATGCCG CCGGCCCTCA GCCTGTCGCG CACTTCATCA ACCTCACTAC TTTTGTGAAC
    TCCATCGCTC CTCTGGGAGG TCAGATTTCT AGTGAGGCGC CGCTGACGTG GAGGGCGGTG
    CCTGCGGGGG AGACCCCGCC CCATCCTGAA GAAGATCAGC CCTCGGAGCA GACTGAGCAG
    CAGTCATCAG GGCCCCACAC TGTGCAGGAG GTACCCCCAG ACACACAAGG ACAGATGTAC
    AGTTACTAA

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

    CloneID OXa36088
    Clone ID Related Accession (Same CDS sequence) XM_012958062.3 , XM_012958062.2
    Accession Version XM_012958062.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3606bp)
    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 PR domain zinc finger protein 15 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012958062.1. ##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
    ATGGCCCAGG AACCAATGGA TGAAGCTGTA TTTATATGGT GTGATGACTG CGGGCAGTAT 
    CACGATTCCG AATGCCCGGA GCTTGGGCCT GTGGTTACTG TCCAGGATTC TTTTGTTTTG
    AGCCGAGCCC GGTCTTCCCT TCCTTCAAAC TTGGAAATCA AGCAGGCAGA GGATGGCGCA
    GAAGGGGTTT TTGCCGTGAC GCCGCTCGTG AAGCGTACCC AGTTTGGCCC ATTTGAGTCT
    AAGAGAGTTT CCAAACTGGA CAAAGAGCCA CGTTTCTTGC TTAAGGTGTT CCACAAGGAT
    GGCCGGTCGG AGCTGTGTGA CACGTCCAGC GAGGACGATT GCAACTGGAT GATGTTTGTG
    CGGCCGGCCG CGGATTTCAC TCATCAGAAC CTGACCGCCT TCCAACATGG CAACGACGTC
    TACTTTACTA CCTCCCAGGA TATAGCGCTA GGTGCCGAGC TGCGAGTGTG GTACGCAGCC
    TTCTACGCAA GAAGAATGGA GAAAGCTTTG CTAAAGCCTG CCATACCTTG CCACAGTGAG
    GTGAATTTCT TGGCTGCTGA ACCTGAAAAA GACCTGAACC CAAGTTCGTC TTCCAAGACT
    CCCCCCACTG CCATTTTGTC TCCCAAAAAG ATGAAAGTTA CTCATCCGCC TGCAGCTTAC
    ACCTCAGTTT CGTGTCAGGA TAACAGCGAT ATCATTCACG TGGAAACCTG CCACTGGACC
    TGTAAAGTGT GTAGCACCAC CTTTATCGAA CCCAATCTTT TGACAGAACA TTTGCTTAGT
    CATTTAGAAC AAGCCAAAGG GATTCCCCCT CCAACTCAAT GTGAGAACTC CTACCTGGAG
    TGTGATACGG TGAGTGTGAG TGCCGACCAG ACCGTCATCT GTGCCGACTC CAACCAAAAC
    CTGGAGGTGA AGAAGAAACC AAAGAGGGGC CGCAAGTCCA AAGTTCCAAA AGGCAATATC
    CCTCTTGTGA TAGTGGATGA TGACAGCCCA GCAGAACACA ACCCGATCTT ATACAATCCA
    GTCTTCTCAT CCGACCGAGT GGCGGAAATT ATAACAGAGA TCCCTCCCGA TGACGTTCAA
    CTGCCCCACG ATCCAGAGGA CAAATTCATG GAGCTAATGT TGGGAAAATT ACCCAATGCC
    GCCAACAGCC TGCCCCCTGT CTCCAAATTT GCTTTTCACC AAACTAGCAG CTCGGTGAAG
    AGAAGTATGT TGCTCCCTGG CAGCAGGCAC GCGATCCGGC GGAAGTTTGC GAGGCAGCTG
    GGGGATCACA AGCGCGTCTT CCAGTGCAAC ATCTGTGCCA AAGTGTTCCG TAACAGCAGC
    AACCTTAGCC GGCATGTCCG ATCCCACGGG GACAAGCTGT TTAAGTGCGA GGAGTGCTCC
    AAACTCTTCA GTCGGAAGGA GAGCCTCAAG CAGCACGTTT CTTATAAGCA CAGCAGGAAC
    GAGGTAGATG GGGATTACAG GTATCGCTGC AACACCTGCG AGAAGGCTTT TCGGATCCAA
    GGATTTCTGG AGTTTCACAA CTGTAGAACA GATGACAAGT CGTTCCAGTG TGAGATGTGC
    TACCGGTTCT TCTCCACCAA CAGTAACCTC TCCAAGCACA AGAAGAAGCA CGGGGAAAAG
    AAATTTGCCT GTGAGATCTG TAACAAACTG TTCTACAGGA GGGATGTAAT GCTGGAGCAT
    CACCGGAGGC ACCTGGAAGG AGTGAGACGC GTAAAGCGGG AAAGCCTCCA TCAGAACACC
    GACAATTCTA TCCGGTATAA AAAGGAGCCG TCGGCCTGTC CTGTGTGCGG GAAGATGTTC
    TCCTGCAGAA GCAACATGAA CAAGCACCTC CTCACTCACG GAGACAAGAA ATACACCTGC
    GAAATCTGCG GCCGAAAATT CTTCAGAGTC GATGTCCTAC GGGATCACAT CCACATTCAT
    TTCAAGGACA TTGCACTGAT GAATGACCAG CAGCGGGAAG AGTTCATTGG GAAGATCGGC
    ATCTCGTCGG AGGACAATGA CGAAAACTCT GACGGGAGCG TAGAAACGGA GCCGCACAAG
    TACAGCTGCA AGAGGTGCCA GATCTCATTT GCTCGGGGGA AGGAATACCT CAAGCACATC
    ATGGATATCC ACGCTGAGAA CGGCTACGAC TGCAGCATTT GCCACCGGCG CTTTGCGCTC
    AAAGCAACGT ATCACGCTCA CATGGTCATT CACCGGGAGA ACCTGCCCGA CCCAGAGGTG
    CAGAAGTACA TTCACCCCTG TGAGGTCTGC GGCAGGATTT TCAACAGCAT CGGAAATCTG
    GAGAGGCACA AACTCATTCA CTCAGGAGTG AAGAGTCACG GCTGCGAGCA GTGCGGGAAG
    TCGTTTGCGC GGAAGGATAT GCTAAAGGAG CACATGAGGG TCCATGACAA CATCCGGGAG
    TATCTGTGCG CTGAGTGTGG GAAAGGAATG AAGACAAAGC ACGCTCTGCG GCACCACATG
    AAGCTGCACA AGGGTATCAA GGAGTACGAG TGCATGGAGT GCCACCGCAG GTTTGCCCAG
    AAGGTGAACA TGCTGAAGCA CTACAAGAGG CACACAGGGA TCAAAGACTT TATGTGCGAA
    TTGTGCGGGA AAACATTCAG CGAAAAGAAC ACAATGGAAA CTCACAAACT CATCCACACA
    GTGGGGAAGC AGTGGACGTG CACGGTGTGT GATAAGAAGT ACGTGACCGA GTACATGCTC
    CAGAAACACG TCCAGCTCAC CCACGACAAG GTGGAGGCGC AGAGCTGCAA TCTGTGTGGG
    ACCAAGGTGT CAACCAGGGC GTCTATGAGC CGCCATTTAA GGCGCAAGCA CCCAGAGGTC
    CTTTCTGTAC GGATTGAAGA CTTAGATGAC CTGCAAGAAT CTGAGGCCAT AGATACATCA
    TTAAGCATTG TACAGCGAGA GCTGGATGTG GAAGAGCATG AGGGACTGCA GCGGGCGAAA
    CGGATGAGAA CGGGCACCTC CCGCGCGGGA AAGCGCAAGA GTCGGGAGGA AGACGCAGAG
    GATCCGGAAG ATCCCACATT CACCGAATAT CAGGAGAAGG AGTCGGAGTT TACACGCAGC
    AGCGGAGACG AGGATGGTTC CGCCGTGGAG ACTTTGCAGC AGGTCGTGGT CACAATCAGC
    GATGGGAGTG TCCCCGCACC ATCTTGCACG GTTGGCCTTA CAAACATTAC GGTTACTCCC
    ATAACCACCA CAGCAGGCAC TCAGTTCGCC AGCCTCCAGC CCGTAGCCGT GGGTCACTTG
    GCCGCCTCCG AGCGGCAGTT GCAGCTGGAC AGCTCCATCT TAACTGTCAC CTTTGATGCA
    GTGAGCGGCA GTGCGGTGCT ACACAATCGC CCGGCAGAAC TGGCCATTGC GGCCTCGCAG
    GATGCCGCCG GCCCTCAGCC TGTCGCGCAC TTCATCAACC TCACTACTTT TGTGAACTCC
    ATCGCTCCTC TGGGAGGTCA GATTTCTAGT GAGGCGCCGC TGACGTGGAG GGCGGTGCCT
    GCGGGGGAGA CCCCGCCCCA TCCTGAAGAA GATCAGCCCT CGGAGCAGAC TGAGCAGCAG
    TCATCAGGGC CCCACACTGT GCAGGAGGTA CCCCCAGACA CACAAGGACA GATGTACAGT
    TACTAA

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

    RefSeq XP_012813516.1
    CDS144..3749
    Translation

    Target ORF information:

    RefSeq Version XM_012958062.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis PR domain containing 15 (prdm15), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012958062.2

    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
    ATGGCCCAGG AACCAATGGA TGAAGCTGTA TTTATATGGT GTGATGACTG CGGGCAGTAT 
    CACGATTCCG AATGCCCGGA GCTTGGGCCT GTGGTTACTG TCCAGGATTC TTTTGTTTTG
    AGCCGAGCCC GGTCTTCCCT TCCTTCAAAC TTGGAAATCA AGCAGGCAGA GGATGGCGCA
    GAAGGGGTTT TTGCCGTGAC GCCGCTCGTG AAGCGTACCC AGTTTGGCCC ATTTGAGTCT
    AAGAGAGTTT CCAAACTGGA CAAAGAGCCA CGTTTCTTGC TTAAGGTGTT CCACAAGGAT
    GGCCGGTCGG AGCTGTGTGA CACGTCCAGC GAGGACGATT GCAACTGGAT GATGTTTGTG
    CGGCCGGCCG CGGATTTCAC TCATCAGAAC CTGACCGCCT TCCAACATGG CAACGACGTC
    TACTTTACTA CCTCCCAGGA TATAGCGCTA GGTGCCGAGC TGCGAGTGTG GTACGCAGCC
    TTCTACGCAA GAAGAATGGA GAAAGCTTTG CTAAAGCCTG CCATACCTTG CCACAGTGAG
    GTGAATTTCT TGGCTGCTGA ACCTGAAAAA GACCTGAACC CAAGTTCGTC TTCCAAGACT
    CCCCCCACTG CCATTTTGTC TCCCAAAAAG ATGAAAGTTA CTCATCCGCC TGCAGCTTAC
    ACCTCAGTTT CGTGTCAGGA TAACAGCGAT ATCATTCACG TGGAAACCTG CCACTGGACC
    TGTAAAGTGT GTAGCACCAC CTTTATCGAA CCCAATCTTT TGACAGAACA TTTGCTTAGT
    CATTTAGAAC AAGCCAAAGG GATTCCCCCT CCAACTCAAT GTGAGAACTC CTACCTGGAG
    TGTGATACGG TGAGTGTGAG TGCCGACCAG ACCGTCATCT GTGCCGACTC CAACCAAAAC
    CTGGAGGTGA AGAAGAAACC AAAGAGGGGC CGCAAGTCCA AAGTTCCAAA AGGCAATATC
    CCTCTTGTGA TAGTGGATGA TGACAGCCCA GCAGAACACA ACCCGATCTT ATACAATCCA
    GTCTTCTCAT CCGACCGAGT GGCGGAAATT ATAACAGAGA TCCCTCCCGA TGACGTTCAA
    CTGCCCCACG ATCCAGAGGA CAAATTCATG GAGCTAATGT TGGGAAAATT ACCCAATGCC
    GCCAACAGCC TGCCCCCTGT CTCCAAATTT GCTTTTCACC AAACTAGCAG CTCGGTGAAG
    AGAAGTATGT TGCTCCCTGG CAGCAGGCAC GCGATCCGGC GGAAGTTTGC GAGGCAGCTG
    GGGGATCACA AGCGCGTCTT CCAGTGCAAC ATCTGTGCCA AAGTGTTCCG TAACAGCAGC
    AACCTTAGCC GGCATGTCCG ATCCCACGGG GACAAGCTGT TTAAGTGCGA GGAGTGCTCC
    AAACTCTTCA GTCGGAAGGA GAGCCTCAAG CAGCACGTTT CTTATAAGCA CAGCAGGAAC
    GAGGTAGATG GGGATTACAG GTATCGCTGC AACACCTGCG AGAAGGCTTT TCGGATCCAA
    GGATTTCTGG AGTTTCACAA CTGTAGAACA GATGACAAGT CGTTCCAGTG TGAGATGTGC
    TACCGGTTCT TCTCCACCAA CAGTAACCTC TCCAAGCACA AGAAGAAGCA CGGGGAAAAG
    AAATTTGCCT GTGAGATCTG TAACAAACTG TTCTACAGGA GGGATGTAAT GCTGGAGCAT
    CACCGGAGGC ACCTGGAAGG AGTGAGACGC GTAAAGCGGG AAAGCCTCCA TCAGAACACC
    GACAATTCTA TCCGGTATAA AAAGGAGCCG TCGGCCTGTC CTGTGTGCGG GAAGATGTTC
    TCCTGCAGAA GCAACATGAA CAAGCACCTC CTCACTCACG GAGACAAGAA ATACACCTGC
    GAAATCTGCG GCCGAAAATT CTTCAGAGTC GATGTCCTAC GGGATCACAT CCACATTCAT
    TTCAAGGACA TTGCACTGAT GAATGACCAG CAGCGGGAAG AGTTCATTGG GAAGATCGGC
    ATCTCGTCGG AGGACAATGA CGAAAACTCT GACGGGAGCG TAGAAACGGA GCCGCACAAG
    TACAGCTGCA AGAGGTGCCA GATCTCATTT GCTCGGGGGA AGGAATACCT CAAGCACATC
    ATGGATATCC ACGCTGAGAA CGGCTACGAC TGCAGCATTT GCCACCGGCG CTTTGCGCTC
    AAAGCAACGT ATCACGCTCA CATGGTCATT CACCGGGAGA ACCTGCCCGA CCCAGAGGTG
    CAGAAGTACA TTCACCCCTG TGAGGTCTGC GGCAGGATTT TCAACAGCAT CGGAAATCTG
    GAGAGGCACA AACTCATTCA CTCAGGAGTG AAGAGTCACG GCTGCGAGCA GTGCGGGAAG
    TCGTTTGCGC GGAAGGATAT GCTAAAGGAG CACATGAGGG TCCATGACAA CATCCGGGAG
    TATCTGTGCG CTGAGTGTGG GAAAGGAATG AAGACAAAGC ACGCTCTGCG GCACCACATG
    AAGCTGCACA AGGGTATCAA GGAGTACGAG TGCATGGAGT GCCACCGCAG GTTTGCCCAG
    AAGGTGAACA TGCTGAAGCA CTACAAGAGG CACACAGGGA TCAAAGACTT TATGTGCGAA
    TTGTGCGGGA AAACATTCAG CGAAAAGAAC ACAATGGAAA CTCACAAACT CATCCACACA
    GTGGGGAAGC AGTGGACGTG CACGGTGTGT GATAAGAAGT ACGTGACCGA GTACATGCTC
    CAGAAACACG TCCAGCTCAC CCACGACAAG GTGGAGGCGC AGAGCTGCAA TCTGTGTGGG
    ACCAAGGTGT CAACCAGGGC GTCTATGAGC CGCCATTTAA GGCGCAAGCA CCCAGAGGTC
    CTTTCTGTAC GGATTGAAGA CTTAGATGAC CTGCAAGAAT CTGAGGCCAT AGATACATCA
    TTAAGCATTG TACAGCGAGA GCTGGATGTG GAAGAGCATG AGGGACTGCA GCGGGCGAAA
    CGGATGAGAA CGGGCACCTC CCGCGCGGGA AAGCGCAAGA GTCGGGAGGA AGACGCAGAG
    GATCCGGAAG ATCCCACATT CACCGAATAT CAGGAGAAGG AGTCGGAGTT TACACGCAGC
    AGCGGAGACG AGGATGGTTC CGCCGTGGAG ACTTTGCAGC AGGTCGTGGT CACAATCAGC
    GATGGGAGTG TCCCCGCACC ATCTTGCACG GTTGGCCTTA CAAACATTAC GGTTACTCCC
    ATAACCACCA CAGCAGGCAC TCAGTTCGCC AGCCTCCAGC CCGTAGCCGT GGGTCACTTG
    GCCGCCTCCG AGCGGCAGTT GCAGCTGGAC AGCTCCATCT TAACTGTCAC CTTTGATGCA
    GTGAGCGGCA GTGCGGTGCT ACACAATCGC CCGGCAGAAC TGGCCATTGC GGCCTCGCAG
    GATGCCGCCG GCCCTCAGCC TGTCGCGCAC TTCATCAACC TCACTACTTT TGTGAACTCC
    ATCGCTCCTC TGGGAGGTCA GATTTCTAGT GAGGCGCCGC TGACGTGGAG GGCGGTGCCT
    GCGGGGGAGA CCCCGCCCCA TCCTGAAGAA GATCAGCCCT CGGAGCAGAC TGAGCAGCAG
    TCATCAGGGC CCCACACTGT GCAGGAGGTA CCCCCAGACA CACAAGGACA GATGTACAGT
    TACTAA

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

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