ORF » Species Summary » Xenopus tropicalis » tex15 cDNA ORF clone

tex15 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following tex15 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the tex15 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
OXa37068 XM_002939260.4
Latest version!		 Xenopus tropicalis testis expressed 15 (tex15), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
OXa48396 XM_031904390.1
Latest version!		 Xenopus tropicalis testis expressed 15, meiosis and synapsis associated (tex15), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 29-31 $1091.30
$1559.00
OXa48396 XM_002939260.5
Latest version!		 Xenopus tropicalis testis expressed 15, meiosis and synapsis associated (tex15), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 29-31 $1091.30
$1559.00

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

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

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

  • Reference Sequences (Refseq)
    tex15 ( XM_002939260.4 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_002939306.3 Xenopus tropicalis testis expressed 15 (tex15), mRNA.
    Price & Availability↑
    CloneID OXa37068
    Clone ID Related Accession (Same CDS sequence) XM_002939260.4
    Accession Version XM_002939260.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4467bp)
    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 testis-expressed sequence 15 protein
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.1) 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_002939260.3. ##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
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGATATCG GCAATATAAA AAGCTTTGTT ACAGGTGCAG ATAAAAAGGA AGAACACTCC 
    TTACTTGTGA AACTACAAAT CAATTCTTGC TTGGAATTAA ATGATATGGA ACATAGTATT 
    ATTAAAAAGA AGACAACAGC TGAAAATCAA ATCCCAGAAA AGCTATTTGC TAATGTGGAA 
    GAAGAACTAC CTTGGTTAAA ACAAAATCTT CCTGACAATC AGGAACATCA GTGCAGTAAA 
    ACAATCACTC ATGATATAAT ACTGGCAAAG GAAGAAATAT TGATCCCTCC AAAGAAAACA 
    AATTCACAGA TATCTTGTGT TACTTCTGAT GATAACTTTG AGATGAGAGA TTTCCCAATT 
    GATTACATGG AATTTCAGAA TGAAACTGTT TGCTGTCAAG AACTGGTTTC TTTGAAAGTG 
    GGTTCCCTTA AAGAAAGTGA AGAGACAGTG ACAGCAAAAA CTCCAGAGAT TAATCAAAGC 
    AAAACAACAG ATTGTTGCGT AGAAAGTATA TCCTCTATGC ATTTGAAAGA ACTAGCATTT 
    GAGCATCAAA TTTCTCATGT ACTTTTACCT GAAAACAAAG TTGTTAACCA GCACTGCACA 
    ACAGATGAGA TTTATTTGTT TGATATGGGT GATATTGGCA TACCTACGGA AACCAGCATT 
    TTAAGTGTGT CTGAAAACTT AACACATTTG TGTTTCCAGA GTTATGAAAC AGAAATAGGG 
    TATGATGGAG ATTTACTTAT TGAGGATATG GAAATTGGAA GTGAGACTGA AATTCCATCA 
    TTTGAAACCA TGAATGAACC AAAAGCGCAA TTGCCAATTC ATTTAAATAT ATCTTTAAAC 
    ATGTTGCTTG ATGATTTTGA TTGTAGCCAC TTGGAAAACC GCATAGACTG GAATAGTCTC 
    TTTGGACTGG ACAGTTCCAC AACGTTAATG GAAGAGGATG TAGTGCCACA ATTTCACAAA 
    TCACCTCTCC AAAAATGTGG GCTTTATAAA TGTGAGAGTG AAAAGATAAT TTATTCTGAT 
    TTACAAATAA CAGTAAAAAA CTATAGTAAA CTGGATGGTA ACCACACCCC TGCTTGCTGT 
    GATTATGTTG TAAAACAACT TCCATATGAT GACGTACTTT CATCGCTGAA GACTACTGAG 
    AACACAATTT TGATGGATAG CATTAAAAGC AAAAATAATG CTGCACCTTT GATTGATTTT 
    ATACAAGCAC CTCATGAAAA TGTCAACATA AATGCATCTG ATTTAAGCTT TTCTTCTTGT 
    ACGTCAAATA ACACACAAGT GACTCAGAAA GCAAATGACT CGTATGCCAA CGTAGAACAA 
    GATTTTAAAT GTCACATAGG GGCAAATAGT GGCCATAGTA AGACAGATAA AGGAGGCAAA 
    CTGAAGGGCT GTACACAGCA GAAGACCAGG TCTCCTGACA AAGGTTCATC TGTTTCATTA 
    AATGTATGTG CAATTTTAGA AAAGGCAGAT AAAACATCTT GTGTAAATGT ATTGCAGGAA 
    TATAAATTAA TTTGTGAGAA AATGCTTCCC AGATTTATAA ATGCTTTTAA AGATAAGCAG 
    CATTGCCCAG TCAAAGATGT CATGGTTAAT CGGAAGTTTT TGCTTGAAAG AAACCTCAAA 
    GCAGCCTTTA AGTATCCCTT AAAACCACAG GCTATAGAGG CATTTATTGA ATTACAAATG 
    ATGATGGAAA CCAAACAATT CATAGAAAAT AGAATATACA GTCTTAAAGG TGAGCCCACA 
    TTCAGAAGTC TCTTGTATTA TGACAGCTCT CTCTACCTTG AGTTACTTGA TGGAGACAGG 
    GGATACCAAC AACAGTCCAA TTTTTATGTT GGATTTCAAC AAAAGCTAAA ATGTGATCCT 
    CTTGTTACTC TGGAAAACCA CCATGCTCAA CTTTGTGATG TTCTTGAGAA AATTCATGAA 
    AAATGCAGAT CATATTATGT CCTCCTTAAA TACCGGAGAG AAGTTGAGGA ATGTGAAGCT 
    GTTTTAAAGA ACTCTGCTGA TCATTTGGAT TTTTGTCTCT CAGTCCCCTT ATCTTGTGGA 
    GTTCATACTG GGGACACATT AGAGGAGTTA AAAAACTTGC AGACAGGAAC TTTAGAGCTT 
    ATTAAAGCCT ATTATAATCT TCCAGATTGT GATGCTGGAA AACAAGAACA TGCACTGTGC 
    CTTTTAGAAT TAATCTGTGC AAAAATTGAT TATATTCAGA CCTCAGAGTC TTTAAACACT 
    GAACTGTCAC TTTTTGGCAT TGAACACTTA TTGTTTGATG CAGCCAAAAG CACCATTTTG 
    AAGGAGAACG CAAGATCTTC TAAACAGAAA AAAATACCCT CACTAATTTT GGAGTCTATC 
    CACAAACTGA ACCATTTTGC TTTATTAAAA TTATATGAAG TCTATGGTAC ATGTGTTGAA 
    GAAACCACAG TCATAAAAAC TTCTGGTGAC ACACAGAAAA AATACAAAGA GTCAAACTTT 
    AATCCAGAGT TTAACAGCGG GGAAGATGTA TATTATGTTG GGAAAATCAT AGACCAAGCG 
    CGATGTGCAG ACACTGCATC AGTGAATCAA ATGATTGCTG GCTGTAAGAA GCATTTAGAA 
    GCTCTAAAAA AATATTTTCA GATAATGCAA GAATGTGATG CAGATGAAGT CATAATCACA 
    GAGAATAATG TTTTTGATGC AGCTAAAAAA TATACTCAAC CTGCAATACT TCTAAAACCA 
    GAGGCAATAG AAAGCTACAT TGATATTCTC ATGGCTTATG AAACTTTACA TTTCCTGAAA 
    TGTTTAAAGG CTTCCAAAAA GAACAAAAAG AGATTCAGAG GGCTGCTGTG GTTTGAAAAA 
    TCTCTCCTTC CTGAATTAAT TCTATCCCAA AACAGAATTG GATCATATCT TAAAGCAAAC 
    TTGAATTCTG ATGTCATAGA AGTCATAAAT AGTAATATAT ATGAGATTAA GACAGAGCTT 
    GAAATAATAT GTGACTATTC AGATTCAGTC AATTATACCT ATGCCCTTCA GATAATGACA 
    CGGGAACTTT CAGAGCTCTC AGAACTTAAA ACATTTGTTT CAAAATCCAG GTTTGCAATG 
    CAATCCTATA TCCACTTTTC CCCACATATT GCCTCTCTGC ACTATGGAAG TACTTTGGTG 
    GATCTTGATC ATAACTACAA CCAGTTTTCT GATCTGCTAG GGCTTTTAAT GTCCTGTCCA 
    AAGAAAGACT TGGGAAAAAT TGCCCAAACA ATGAAAATCA TGAAAACTAT TGAGCTTATG 
    AAACAAGCCA CTTCCAGGTC AGACACTTCA GCATTTGGTG TATGTTCTTG CCAGATCATG 
    GAGAACAAAA GAAAACGTGA ACACCTACAA GATAAAGGTG ATCAATGTTA TTGGATGCTG 
    AACACAAAGA AAAGACCATC ATTGGTTCAG GATGATCAGA CATATTTTAC GAGCCCCAAA 
    AAGCGAAAGG TGGTGAATTC CCCTCCACAT GATTCAAAAG GAGAGCAAGA AAAAAGCAAA 
    CAGAAAAGCA ACACAAGGAT AAAAAACAAA GATCACAGTA ATGCAGCTGA GAAACAATGC 
    AAGAAGTCTG AAAAGACTCC AAAAGACGTA ACAGGTGTAG AAATAAAAGA TCAGTCTTCA 
    TCTATTAATG AACATACATT TCAAAAAAAT GATGGATTGT CTTCAGTCAA AGCAATAGTG 
    TTAGAACATG CCAATGATAG AGAAGTTAAA ATAAAATGTT CCACTGATGA CCCAGTAAAG 
    GAAGTCCTAA ATGATTCACA TCTTAATCTG CACACAAAAA GTCAACTTCA GGTACCAGAT 
    AAAAATGTAA ATGTTATATC AGAACACCAG TCTCTCTCTG ATCAAAATAA GAAAAACACT 
    GATGTAGTAT CTCAAACAGC TGAACAGAAA TCTATTCTTA AAAAGCTGTA TTTTTCAGGC 
    AAGCAAAAGA AGAGCAATAA TGTACACTTT GCTGACATAT GTTCATTAGA CACAAGTCCT 
    ACGATGGAAC AGAAAAATGA AACGGCAACT CCCATTACTG AAGCAAAAGA CAAGAAGAAT 
    GAACCATTGG TACAGCATAA TGACCCATCC AGTTGTAGTG ATTTAAACAA CAGCCATTCT 
    CAGAGCTTTA CACAGATGAC TGGCACATAT TCCCAGCTAT CCAGCTGCCT CTACCCTTGG 
    CAATATTATT TACATTACTG GTATCAAAAT AGCAGTAACA CAGGTGTAAT GACCCAGCCT 
    TACCAAGGAA TGCCTTACAA TACACAGCAA TTCATGCCAT ATAATGGGAC ATCCTTATTC 
    ACTACCCAGA ATCCTTATAC TGGTAACCAG CCTTATCCTT ACCCAAACAG CCAAGTTCCG 
    CCTCAGATGT TTCAGACAAC AGATGCACTT AAAGCCACAA TGAATTACAG TTACCCAGAT 
    CCACATTCTG CATCACAAGA TTCCGTGCAG GCAAGATATG CTTATGATGC TACACCAACA 
    GGAACATGGT CATGGGGTTC TTGGTAA

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

    RefSeq XP_002939306.3
    CDS1486..5952
    Translation

    Target ORF information:

    RefSeq Version XM_002939260.4
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis testis expressed 15 (tex15), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_002939260.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGATATCG GCAATATAAA AAGCTTTGTT ACAGGTGCAG ATAAAAAGGA AGAACACTCC 
    TTACTTGTGA AACTACAAAT CAATTCTTGC TTGGAATTAA ATGATATGGA ACATAGTATT 
    ATTAAAAAGA AGACAACAGC TGAAAATCAA ATCCCAGAAA AGCTATTTGC TAATGTGGAA 
    GAAGAACTAC CTTGGTTAAA ACAAAATCTT CCTGACAATC AGGAACATCA GTGCAGTAAA 
    ACAATCACTC ATGATATAAT ACTGGCAAAG GAAGAAATAT TGATCCCTCC AAAGAAAACA 
    AATTCACAGA TATCTTGTGT TACTTCTGAT GATAACTTTG AGATGAGAGA TTTCCCAATT 
    GATTACATGG AATTTCAGAA TGAAACTGTT TGCTGTCAAG AACTGGTTTC TTTGAAAGTG 
    GGTTCCCTTA AAGAAAGTGA AGAGACAGTG ACAGCAAAAA CTCCAGAGAT TAATCAAAGC 
    AAAACAACAG ATTGTTGCGT AGAAAGTATA TCCTCTATGC ATTTGAAAGA ACTAGCATTT 
    GAGCATCAAA TTTCTCATGT ACTTTTACCT GAAAACAAAG TTGTTAACCA GCACTGCACA 
    ACAGATGAGA TTTATTTGTT TGATATGGGT GATATTGGCA TACCTACGGA AACCAGCATT 
    TTAAGTGTGT CTGAAAACTT AACACATTTG TGTTTCCAGA GTTATGAAAC AGAAATAGGG 
    TATGATGGAG ATTTACTTAT TGAGGATATG GAAATTGGAA GTGAGACTGA AATTCCATCA 
    TTTGAAACCA TGAATGAACC AAAAGCGCAA TTGCCAATTC ATTTAAATAT ATCTTTAAAC 
    ATGTTGCTTG ATGATTTTGA TTGTAGCCAC TTGGAAAACC GCATAGACTG GAATAGTCTC 
    TTTGGACTGG ACAGTTCCAC AACGTTAATG GAAGAGGATG TAGTGCCACA ATTTCACAAA 
    TCACCTCTCC AAAAATGTGG GCTTTATAAA TGTGAGAGTG AAAAGATAAT TTATTCTGAT 
    TTACAAATAA CAGTAAAAAA CTATAGTAAA CTGGATGGTA ACCACACCCC TGCTTGCTGT 
    GATTATGTTG TAAAACAACT TCCATATGAT GACGTACTTT CATCGCTGAA GACTACTGAG 
    AACACAATTT TGATGGATAG CATTAAAAGC AAAAATAATG CTGCACCTTT GATTGATTTT 
    ATACAAGCAC CTCATGAAAA TGTCAACATA AATGCATCTG ATTTAAGCTT TTCTTCTTGT 
    ACGTCAAATA ACACACAAGT GACTCAGAAA GCAAATGACT CGTATGCCAA CGTAGAACAA 
    GATTTTAAAT GTCACATAGG GGCAAATAGT GGCCATAGTA AGACAGATAA AGGAGGCAAA 
    CTGAAGGGCT GTACACAGCA GAAGACCAGG TCTCCTGACA AAGGTTCATC TGTTTCATTA 
    AATGTATGTG CAATTTTAGA AAAGGCAGAT AAAACATCTT GTGTAAATGT ATTGCAGGAA 
    TATAAATTAA TTTGTGAGAA AATGCTTCCC AGATTTATAA ATGCTTTTAA AGATAAGCAG 
    CATTGCCCAG TCAAAGATGT CATGGTTAAT CGGAAGTTTT TGCTTGAAAG AAACCTCAAA 
    GCAGCCTTTA AGTATCCCTT AAAACCACAG GCTATAGAGG CATTTATTGA ATTACAAATG 
    ATGATGGAAA CCAAACAATT CATAGAAAAT AGAATATACA GTCTTAAAGG TGAGCCCACA 
    TTCAGAAGTC TCTTGTATTA TGACAGCTCT CTCTACCTTG AGTTACTTGA TGGAGACAGG 
    GGATACCAAC AACAGTCCAA TTTTTATGTT GGATTTCAAC AAAAGCTAAA ATGTGATCCT 
    CTTGTTACTC TGGAAAACCA CCATGCTCAA CTTTGTGATG TTCTTGAGAA AATTCATGAA 
    AAATGCAGAT CATATTATGT CCTCCTTAAA TACCGGAGAG AAGTTGAGGA ATGTGAAGCT 
    GTTTTAAAGA ACTCTGCTGA TCATTTGGAT TTTTGTCTCT CAGTCCCCTT ATCTTGTGGA 
    GTTCATACTG GGGACACATT AGAGGAGTTA AAAAACTTGC AGACAGGAAC TTTAGAGCTT 
    ATTAAAGCCT ATTATAATCT TCCAGATTGT GATGCTGGAA AACAAGAACA TGCACTGTGC 
    CTTTTAGAAT TAATCTGTGC AAAAATTGAT TATATTCAGA CCTCAGAGTC TTTAAACACT 
    GAACTGTCAC TTTTTGGCAT TGAACACTTA TTGTTTGATG CAGCCAAAAG CACCATTTTG 
    AAGGAGAACG CAAGATCTTC TAAACAGAAA AAAATACCCT CACTAATTTT GGAGTCTATC 
    CACAAACTGA ACCATTTTGC TTTATTAAAA TTATATGAAG TCTATGGTAC ATGTGTTGAA 
    GAAACCACAG TCATAAAAAC TTCTGGTGAC ACACAGAAAA AATACAAAGA GTCAAACTTT 
    AATCCAGAGT TTAACAGCGG GGAAGATGTA TATTATGTTG GGAAAATCAT AGACCAAGCG 
    CGATGTGCAG ACACTGCATC AGTGAATCAA ATGATTGCTG GCTGTAAGAA GCATTTAGAA 
    GCTCTAAAAA AATATTTTCA GATAATGCAA GAATGTGATG CAGATGAAGT CATAATCACA 
    GAGAATAATG TTTTTGATGC AGCTAAAAAA TATACTCAAC CTGCAATACT TCTAAAACCA 
    GAGGCAATAG AAAGCTACAT TGATATTCTC ATGGCTTATG AAACTTTACA TTTCCTGAAA 
    TGTTTAAAGG CTTCCAAAAA GAACAAAAAG AGATTCAGAG GGCTGCTGTG GTTTGAAAAA 
    TCTCTCCTTC CTGAATTAAT TCTATCCCAA AACAGAATTG GATCATATCT TAAAGCAAAC 
    TTGAATTCTG ATGTCATAGA AGTCATAAAT AGTAATATAT ATGAGATTAA GACAGAGCTT 
    GAAATAATAT GTGACTATTC AGATTCAGTC AATTATACCT ATGCCCTTCA GATAATGACA 
    CGGGAACTTT CAGAGCTCTC AGAACTTAAA ACATTTGTTT CAAAATCCAG GTTTGCAATG 
    CAATCCTATA TCCACTTTTC CCCACATATT GCCTCTCTGC ACTATGGAAG TACTTTGGTG 
    GATCTTGATC ATAACTACAA CCAGTTTTCT GATCTGCTAG GGCTTTTAAT GTCCTGTCCA 
    AAGAAAGACT TGGGAAAAAT TGCCCAAACA ATGAAAATCA TGAAAACTAT TGAGCTTATG 
    AAACAAGCCA CTTCCAGGTC AGACACTTCA GCATTTGGTG TATGTTCTTG CCAGATCATG 
    GAGAACAAAA GAAAACGTGA ACACCTACAA GATAAAGGTG ATCAATGTTA TTGGATGCTG 
    AACACAAAGA AAAGACCATC ATTGGTTCAG GATGATCAGA CATATTTTAC GAGCCCCAAA 
    AAGCGAAAGG TGGTGAATTC CCCTCCACAT GATTCAAAAG GAGAGCAAGA AAAAAGCAAA 
    CAGAAAAGCA ACACAAGGAT AAAAAACAAA GATCACAGTA ATGCAGCTGA GAAACAATGC 
    AAGAAGTCTG AAAAGACTCC AAAAGACGTA ACAGGTGTAG AAATAAAAGA TCAGTCTTCA 
    TCTATTAATG AACATACATT TCAAAAAAAT GATGGATTGT CTTCAGTCAA AGCAATAGTG 
    TTAGAACATG CCAATGATAG AGAAGTTAAA ATAAAATGTT CCACTGATGA CCCAGTAAAG 
    GAAGTCCTAA ATGATTCACA TCTTAATCTG CACACAAAAA GTCAACTTCA GGTACCAGAT 
    AAAAATGTAA ATGTTATATC AGAACACCAG TCTCTCTCTG ATCAAAATAA GAAAAACACT 
    GATGTAGTAT CTCAAACAGC TGAACAGAAA TCTATTCTTA AAAAGCTGTA TTTTTCAGGC 
    AAGCAAAAGA AGAGCAATAA TGTACACTTT GCTGACATAT GTTCATTAGA CACAAGTCCT 
    ACGATGGAAC AGAAAAATGA AACGGCAACT CCCATTACTG AAGCAAAAGA CAAGAAGAAT 
    GAACCATTGG TACAGCATAA TGACCCATCC AGTTGTAGTG ATTTAAACAA CAGCCATTCT 
    CAGAGCTTTA CACAGATGAC TGGCACATAT TCCCAGCTAT CCAGCTGCCT CTACCCTTGG 
    CAATATTATT TACATTACTG GTATCAAAAT AGCAGTAACA CAGGTGTAAT GACCCAGCCT 
    TACCAAGGAA TGCCTTACAA TACACAGCAA TTCATGCCAT ATAATGGGAC ATCCTTATTC 
    ACTACCCAGA ATCCTTATAC TGGTAACCAG CCTTATCCTT ACCCAAACAG CCAAGTTCCG 
    CCTCAGATGT TTCAGACAAC AGATGCACTT AAAGCCACAA TGAATTACAG TTACCCAGAT 
    CCACATTCTG CATCACAAGA TTCCGTGCAG GCAAGATATG CTTATGATGC TACACCAACA 
    GGAACATGGT CATGGGGTTC TTGGTAA

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

    tex15 ( XM_002939260.5 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_002939306.4 Xenopus tropicalis testis expressed 15, meiosis and synapsis associated (tex15), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OXa48396
    Clone ID Related Accession (Same CDS sequence) XM_002939260.5 , XM_031904390.1
    Accession Version XM_002939260.5 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6423bp)
    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 testis-expressed protein 15
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.2) 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_002939260.4. ##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
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    ATGGAAGACA GCATGAAGTC CCTTAAGAAC TATATAATTC CTAAAATAAA AACAACTGCT 
    GAGAAAGGGT ATCTCGCTCG TGACATGACC AATAAGAGGG AATATAACGA TATTCTCAAT 
    ATTTTGAATG AAGCAAGACT AGACATATGC TGTGAACTAG AGTCCTCATG GAAGTTTGAA 
    GAGCCCAAAC TGATCTGCAA TTCTAATTTA GAAAATAATT TTATTGAAAA AAGGTCTGAG 
    ATGCGAGAAC TTGGAAAAAA AGATTTCAAA GAACAATTTT GCTTTCTAGT GGTCCCTAAG 
    GCTGCAGTTG TAGACATATG CCATCATGGC CTAAGTGTTA AAAGTTCAAC CATCAAAATG 
    TTAGGGAATC CCCAGCTAGG AGTATATGTC TTCAGACACA TTGATGTTGC ATTGAATTAT 
    GCAAAGATGA AGAATAGTAA ATCAAACATC ATTGTGGTAT TTAAGACACT CTTTGGCAGA 
    ATTAAGAAAG TACAGCCAGT TTTGAATTCT AAGAAAACTC CTCTGGATCC TGCACCAAAC 
    TATGATAGCC ATATGTCAAA AAGCTTAGCA TCTTGGACTG ATTCCTTTGA GAAGCAAACG 
    GCTAATTCAT TAGTGTATTT GTATGAGTAT GATCTAAATT GCAAGCCTGC CGACAAACCA 
    AGACATTGCC TTCCATATGC TTCAGTGTCT GCCGCATTTA TTGAACAGAA GACAGAAACA 
    GGTCCCATGC TGGCAACAGT TAAACTTAAA CCAAAGCTGC TTACTGATGG TAGTGCTAAC 
    TTAATGAACT GCACAGTAGC AAAACGAATT GGTAAAGGCA AAGATGCAAA GATTGTTTTT 
    GAAAATTTTC GTACAATAGA GCCAAAGCCA CCTCCAATGT ATGCACAGCA AAATGAGTTC 
    CTCCTTTCTT GTTCTGCCAT AAATCTTCTG TTGGAAAATC TTTTATATGA TAAGCAATCC 
    ATGGACTCCG CTATGCATTT CCCTGATCAC TTTGATAAAA AGGAGAAAGC TGGAAAAAGA 
    ACAGATGACA TAGAAGGGTT GAGTCCTTCA AGCATGTTGA TTACATCTAA ATCCATAAAA 
    GACCCCAGAA TTAGAAAAGA AGAACAAGAA TTAAAACATT GTGATCAGAA AATAGTTGAT 
    CAATTGAATT TTCAGCATTG CGAGGAAAAC GTCAACAAGT CATTATCGCT AAGTTTTGAA 
    GAAGCTCGAC TTTTTGACAG TTTGATGGCA AAGGATAAAG TAAATAAATG TTCATTATTT 
    AATGAATGTG AAAAGGACTA TAAAATGGTG ATGAAACAAA ATAAGACAGT AGGTCGTCAT 
    TCTCAAAATT TGTCTGAGAA AGAGGTATTT GAGGAAAAGC AGCAAAAGTC AAGTATGCTC 
    TCTGAAATGG AACATTCCTC TCTTACACAA GATATGTTTC ATGTATCTAA GTCTTTATCT 
    GTCACTAACA CAGTCTGTGA AAAAGTGGTT AAAAAAGGTC ATCAATTTTT TAAGAAACGC 
    AAGAAAGAAA CGTATTTCAG TCTTGGGCCA ACAAAATCAG AACTGACAAA GGAAGCTTCC 
    ATTTCTAAAC AAAAAAAGAA AATTGCAGAT GTGATGGAAT CTAGTGGATG TAACTCCCTT 
    GAAACAGGTC ATAAACATAA ACCAATGCAG AGAAAGACAT GCATTTCTAA TGATAATAAA 
    GAGAAAACAG TCAATAGTAA AAATATGGCT GATGGTTCAA AATGTGGTAA CAATCCAGAA 
    GAAAATATAT TATCTACTAA TTCTTCAAAA TCAAATCACA CAACAAAAGT TGAAGAGAGG 
    GCACAGACTG GAAAACATGT CTTTAAAAAG TCACCGAGCA GTCACAAAAT AAAAGGTAAT 
    AAGGTCCATG GTCACAAAAC AAATGTTGAA AGCCCTGGGA ATTTTAAAAA AACTGCTGCT 
    TCTTTACCTA AAAATGCCAC CGCACCTATT AATAAGATGG ATATCGGCAA TATAAAAAGC 
    TTTGTTACAG GTGCAGATAA AAAGGAAGAA CACTCCTTAC TTGTGAAACT ACAAATCAAT 
    TCTTGCTTGG AATTAAATGA TATGGAACAT AGTATTATTA AAAAGAAGAC AACAGCTGAA 
    AATCAAATCC CAGAAAAGCT ATTTGCTAAT GTGGAAGAAG AACTACCTTG GTTAAAACAA 
    AATCTTCCTG ACAATCAGGA ACATCAGTGC AGTAAAACAA TCACTCATGA TATAATACTG 
    GCAAAGGAAG AAATATTGAT CCCTCCAAAG AAAACAAATT CACAGATATC TTGTGTTACT 
    TCTGATGATA ACTTTGAGAT GAGAGATTTC CCAATTGATT ACATGGAATT TCAGAATGAA 
    ACTGTTTGCT GTCAAGAACT GGTTTCTTTG AAAGTGGGTT CCCTTAAAGA AAGTGAAGAG 
    ACAGTGACAG CAAAAACTCC AGAGATTAAT CAAAGCAAAA CAACAGATTG TTGCGTAGAA 
    AGTATATCCT CTATGCATTT GAAAGAACTA GCATTTGAGC ATCAAATTTC TCATGTACTT 
    TTACCTGAAA ACAAAGTTGT TAACCAGCAC TGCACAACAG ATGAGATTTA TTTGTTTGAT 
    ATGGGTGATA TTGGCATACC TACGGAAACC AGCATTTTAA GTGTGTCTGA AAACTTAACA 
    CATTTGTGTT TCCAGAGTTA TGAAACAGAA ATAGGGTATG ATGGAGATTT ACTTATTGAG 
    GATATGGAAA TTGGAAGTGA GACTGAAATT CCATCATTTG AAACCATGAA TGAACCAAAA 
    GCGCAATTGC CAATTCATTT AAATATATCT TTAAACATGT TGCTTGATGA TTTTGATTGT 
    AGCCACTTGG AAAACCGCAT AGACTGGAAT AGTCTCTTTG GACTGGACAG TTCCACAACG 
    TTAATGGAAG AGGATGTAGT GCCACAATTT CACAAATCAC CTCTCCAAAA ATGTGGGCTT 
    TATAAATGTG AGAGTGAAAA GATAATTTAT TCTGATTTAC AAATAACAGT AAAAAACTAT 
    AGTAAACTGG ATGGTAACCA CACCCCTGCT TGCTGTGATT ATGTTGTAAA ACAACTTCCA 
    TATGATGACG TACTTTCATC GCTGAAGACT ACTGAGAACA CAATTTTGAT GGATAGCATT 
    AAAAGCAAAA ATAATGCTGC ACCTTTGATT GATTTTATAC AAGCACCTCA TGAAAATGTC 
    AACATAAATG CATCTGATTT AAGCTTTTCT TCTTGTACGT CAAATAACAC ACAAGTGACA 
    CAGAAAGCAA ATGACTCGTA TGCCAACGTA GAACAAGATT TTAAATGTCA CATAGGGGCA 
    AATAGTGGCC ATAGTAAGAC AGATAAAGGA GGCAAACTGA AGGGCTGTAC ACAGCAGAAG 
    ACCAGGTCTC CTGACAAAGG TTCATCTGTT TCATTAAATG TATGTGCAAT TTTAGAAAAG 
    GCAGATAAAA CATCTTGTGT AAATGTATTG CAGGAATATA AATTAATTTG TGAGAAAATG 
    CTTCCCAGAT TTATAAATGC TTTTAAAGAT AAGCAGCATT GCCCAGTCAA AGATGTCATG 
    GTTAATCGGA AGTTTTTGCT TGAAAGAAAC CTCAAAGCAG CCTTTAAGTA TCCCTTAAAA 
    CCACAGGCTA TAGAGGCATT TATTGAATTA CAAATGATGA TGGAAACCAA ACAATTCATA 
    GAAAATAGAA TATACAGTCT TAAAGGTGAG CCCACATTCA GAAGTCTCTT GTATTATGAC 
    AGCTCTCTCT ACCTTGAGTT ACTTGATGGA GACAGGGGAT ACCAACAACA GTCCAATTTT 
    TATGTTGGAT TTCAACAAAA GCTAAAATGT GATCCTCTTG TTACTCTGGA AAACCACCAT 
    GCTCAACTTT GTGATGTTCT TGAGAAAATT CATGAAAAAT GCAGATCATA TTATGTCCTC 
    CTTAAATACC GGAGAGAAGT TGAGGAATGT GAAGCTGTTT TAAAGAACTC TGCTGATCAT 
    TTGGATTTTT GTCTCTCAGT CCCCTTATCT TGTGGAGTTC ATACTGGGGA CACATTAGAG 
    GAGTTAAAAA ACTTGCAGAC AGGAACTTTA GAGCTTATTA AAGCCTATTA TAATCTTCCA 
    GATTGTGATG CTGGAAAACA AGAACATGCA CTGTGCCTTT TAGAATTAAT CTGTGCAAAA 
    ATTGATTATA TTCAGACCTC AGAGTCTTTA AACACTGAAC TGTCACTTTT TGGCATTGAA 
    CACTTATTGT TTGATGCAGC CAAAAGCACC ATTTTGAAGG AGAACGCAAG ATCTTCTAAA 
    CAGAAAAAAA TACCCTCACT AATTTTGGAG TCTATCCACA AACTGAACCA TTTTGCCTTA 
    TTAAAATTAT ATGAAGTCTA TGGTACATGT GTTGAAGAAA CCACAGTCAT AAAAACTTCT 
    GGTGACAAAC AGAAAAAATA CAAAGAGTCA AACTTTAATC CAGAGTTTAA CAGCGGGGAA 
    GATGTATATT ATGTTGGGAA AATCATAGAC CAAGCGCGAT GTGCAGACAC TGCATCAGTG 
    AATCAAATGA TTGCTGGCTG TAAGAAGCAT TTAGAAGCTC TAAAAAAATA TTTTCAGATA 
    ATGCAAGAAT GTGATGCAGA TGAAGTCATA ATCACAGAGA ATAATGTTTT TGATGCAGCT 
    AAAAAAAATA CTCAGCCTGC AATACTTCTA AAACCAGAGG CAATAGAAAG CTACATTGAT 
    ATTCTCATGG CTTATGAAAC TTTACATTTC CTGAAATGTT TAAAGGCTTC CAAAAAGAAC 
    AAAAAGAGAT TCAGAGGGCT CCTGTGGTTT GAAAAATCTC TCCTTCCTGA ATTAATTCTA 
    TCCCAAAACA GAATTGGATC ATATCTTAAA GCAAACTTGA ATTCTGATGT CATAGAAGTC 
    ATAAATAGTA ATATATATGA GATTAAGACA GAGCTTGAAA TAATATGTGA CTATTCAGAT 
    TCAGTCAATT ATACCTATGC CCTTCAGATA ATGACACGGG AACTTTCAGA GCTCTCAGAA 
    CTTAAAACAT TTGTTTCAAA ATCCAGGTTT GCAATGCAAT CCTATATCCA CTTTTCCCCA 
    CATATTGCCT CTCTGCACTA TGGAAGTACT TTGGTGGATC TTGATCATAA CTACAACCAG 
    TTTTCTGATC TGCTAGGGCT TTTAATGTCC TGTCCAAAGA AAGACTTGGG AAAAATTGCC 
    CAAACAATGA AAATCATGAA AACTATTGAG CTTATGAAAC AAGCCACTTC CAGGTCAGAC 
    ACTTCAGCAT TTGGTGTATG TTCTTGCCAG ATCATGGAGA ACAAAAGAAA ACGTGAACAC 
    CTACAAGATA AAGGTGATCA ATGTTATTGG ATGCTGAACA CAAAGAAAAG ACCATCATTG 
    GTTCAGGATG ATCAGACATA TTTTACGAGC CCCAAAAAGC GAAAGGTGGT GAATTCCCCT 
    CCACATGATT CAAAAGGAGA GCAAGAAAAA AGCAAACAGA AAAGCAACAC AAGGATAAAA 
    AACAAAGATC ACAGTAATGC AGCTGAGAAA CAATGCAAGA AGTCTGAAAA GACTCCAAAA 
    GATGTAACAG GTGTAGAAAT AAAAGATCAG TCTTCATCTA TTAATGAACA TACATTTCAA 
    AAAAATGATG GATTGTCTTC AGTCAAAGCA ATAGTGTTAG AACATGCCAA TGATAGAGAA 
    GTTAAAATAA AATGTTCCAC TGATGACCCA GTAAAGGAAG TCCTAAATGA TTCACATCTT 
    AATCTGCACA CAAAAAGTCA ACTTCAGGTA CCAGATAAAA ATGTAAATGT TATATCAGAA 
    CACCAGTCTC TCTCTGATCA AAATAAGAAA AACACTGATG TAGTATCTCA AACAGCTGAA 
    CAGAAATCTA TTCTTAAAAA GCTGTATTTT TCAGGCAAGC AAAAGAAGAG CAATAATGTA 
    CACTTTGCTG ACATATGTTC ATTAGACACA AGTCCTACGA TGGAACAGAA AAATGAAACG 
    GCAACTCCCA TTACTGAAGC AAAAGACAAG AAGAATGAAC CATTGGTACA GCATAATGAC 
    CCATCCAGTT GTAGTGATTT AAACAACAGC CATTCTCAGA GCTTTACACA GATGACTGGC 
    ACATATTCCC AGCTATCCAG CTGCCTCTAC CCTTGGCAAT ATTATTTACA TTACTGGTAT 
    CAAAATAGCA GTAACACAGG TGTAATGACC CAGCCTTACC AAGGAATGCC TTACAATACA 
    CAGCAATTCA TGCCATATAA TGGGACATCC TTATTCACTA CCCAGAATCC TTATACTGGT 
    AACCAGCCTT ATCCTTACCC AAACAGCCAA GTTCCGCCTC AGATGTTTCA GACAACAGAT 
    GCACTTAAAG CCACAATGAA TTACAGTTAC CCAGATCCAC ATTCTGCATC ACAAGATTCC 
    GTGCAGGCAA GATATGCTTA TGATGCTACA CCAACAGGAA CATGGTCATG GGGTTCTTGG 
    TAA

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

    RefSeq XP_002939306.4
    CDS260..6682
    Translation

    Target ORF information:

    RefSeq Version XM_002939260.5
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis testis expressed 15, meiosis and synapsis associated (tex15), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_002939260.5

    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
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    ATGGAAGACA GCATGAAGTC CCTTAAGAAC TATATAATTC CTAAAATAAA AACAACTGCT 
    GAGAAAGGGT ATCTCGCTCG TGACATGACC AATAAGAGGG AATATAACGA TATTCTCAAT 
    ATTTTGAATG AAGCAAGACT AGACATATGC TGTGAACTAG AGTCCTCATG GAAGTTTGAA 
    GAGCCCAAAC TGATCTGCAA TTCTAATTTA GAAAATAATT TTATTGAAAA AAGGTCTGAG 
    ATGCGAGAAC TTGGAAAAAA AGATTTCAAA GAACAATTTT GCTTTCTAGT GGTCCCTAAG 
    GCTGCAGTTG TAGACATATG CCATCATGGC CTAAGTGTTA AAAGTTCAAC CATCAAAATG 
    TTAGGGAATC CCCAGCTAGG AGTATATGTC TTCAGACACA TTGATGTTGC ATTGAATTAT 
    GCAAAGATGA AGAATAGTAA ATCAAACATC ATTGTGGTAT TTAAGACACT CTTTGGCAGA 
    ATTAAGAAAG TACAGCCAGT TTTGAATTCT AAGAAAACTC CTCTGGATCC TGCACCAAAC 
    TATGATAGCC ATATGTCAAA AAGCTTAGCA TCTTGGACTG ATTCCTTTGA GAAGCAAACG 
    GCTAATTCAT TAGTGTATTT GTATGAGTAT GATCTAAATT GCAAGCCTGC CGACAAACCA 
    AGACATTGCC TTCCATATGC TTCAGTGTCT GCCGCATTTA TTGAACAGAA GACAGAAACA 
    GGTCCCATGC TGGCAACAGT TAAACTTAAA CCAAAGCTGC TTACTGATGG TAGTGCTAAC 
    TTAATGAACT GCACAGTAGC AAAACGAATT GGTAAAGGCA AAGATGCAAA GATTGTTTTT 
    GAAAATTTTC GTACAATAGA GCCAAAGCCA CCTCCAATGT ATGCACAGCA AAATGAGTTC 
    CTCCTTTCTT GTTCTGCCAT AAATCTTCTG TTGGAAAATC TTTTATATGA TAAGCAATCC 
    ATGGACTCCG CTATGCATTT CCCTGATCAC TTTGATAAAA AGGAGAAAGC TGGAAAAAGA 
    ACAGATGACA TAGAAGGGTT GAGTCCTTCA AGCATGTTGA TTACATCTAA ATCCATAAAA 
    GACCCCAGAA TTAGAAAAGA AGAACAAGAA TTAAAACATT GTGATCAGAA AATAGTTGAT 
    CAATTGAATT TTCAGCATTG CGAGGAAAAC GTCAACAAGT CATTATCGCT AAGTTTTGAA 
    GAAGCTCGAC TTTTTGACAG TTTGATGGCA AAGGATAAAG TAAATAAATG TTCATTATTT 
    AATGAATGTG AAAAGGACTA TAAAATGGTG ATGAAACAAA ATAAGACAGT AGGTCGTCAT 
    TCTCAAAATT TGTCTGAGAA AGAGGTATTT GAGGAAAAGC AGCAAAAGTC AAGTATGCTC 
    TCTGAAATGG AACATTCCTC TCTTACACAA GATATGTTTC ATGTATCTAA GTCTTTATCT 
    GTCACTAACA CAGTCTGTGA AAAAGTGGTT AAAAAAGGTC ATCAATTTTT TAAGAAACGC 
    AAGAAAGAAA CGTATTTCAG TCTTGGGCCA ACAAAATCAG AACTGACAAA GGAAGCTTCC 
    ATTTCTAAAC AAAAAAAGAA AATTGCAGAT GTGATGGAAT CTAGTGGATG TAACTCCCTT 
    GAAACAGGTC ATAAACATAA ACCAATGCAG AGAAAGACAT GCATTTCTAA TGATAATAAA 
    GAGAAAACAG TCAATAGTAA AAATATGGCT GATGGTTCAA AATGTGGTAA CAATCCAGAA 
    GAAAATATAT TATCTACTAA TTCTTCAAAA TCAAATCACA CAACAAAAGT TGAAGAGAGG 
    GCACAGACTG GAAAACATGT CTTTAAAAAG TCACCGAGCA GTCACAAAAT AAAAGGTAAT 
    AAGGTCCATG GTCACAAAAC AAATGTTGAA AGCCCTGGGA ATTTTAAAAA AACTGCTGCT 
    TCTTTACCTA AAAATGCCAC CGCACCTATT AATAAGATGG ATATCGGCAA TATAAAAAGC 
    TTTGTTACAG GTGCAGATAA AAAGGAAGAA CACTCCTTAC TTGTGAAACT ACAAATCAAT 
    TCTTGCTTGG AATTAAATGA TATGGAACAT AGTATTATTA AAAAGAAGAC AACAGCTGAA 
    AATCAAATCC CAGAAAAGCT ATTTGCTAAT GTGGAAGAAG AACTACCTTG GTTAAAACAA 
    AATCTTCCTG ACAATCAGGA ACATCAGTGC AGTAAAACAA TCACTCATGA TATAATACTG 
    GCAAAGGAAG AAATATTGAT CCCTCCAAAG AAAACAAATT CACAGATATC TTGTGTTACT 
    TCTGATGATA ACTTTGAGAT GAGAGATTTC CCAATTGATT ACATGGAATT TCAGAATGAA 
    ACTGTTTGCT GTCAAGAACT GGTTTCTTTG AAAGTGGGTT CCCTTAAAGA AAGTGAAGAG 
    ACAGTGACAG CAAAAACTCC AGAGATTAAT CAAAGCAAAA CAACAGATTG TTGCGTAGAA 
    AGTATATCCT CTATGCATTT GAAAGAACTA GCATTTGAGC ATCAAATTTC TCATGTACTT 
    TTACCTGAAA ACAAAGTTGT TAACCAGCAC TGCACAACAG ATGAGATTTA TTTGTTTGAT 
    ATGGGTGATA TTGGCATACC TACGGAAACC AGCATTTTAA GTGTGTCTGA AAACTTAACA 
    CATTTGTGTT TCCAGAGTTA TGAAACAGAA ATAGGGTATG ATGGAGATTT ACTTATTGAG 
    GATATGGAAA TTGGAAGTGA GACTGAAATT CCATCATTTG AAACCATGAA TGAACCAAAA 
    GCGCAATTGC CAATTCATTT AAATATATCT TTAAACATGT TGCTTGATGA TTTTGATTGT 
    AGCCACTTGG AAAACCGCAT AGACTGGAAT AGTCTCTTTG GACTGGACAG TTCCACAACG 
    TTAATGGAAG AGGATGTAGT GCCACAATTT CACAAATCAC CTCTCCAAAA ATGTGGGCTT 
    TATAAATGTG AGAGTGAAAA GATAATTTAT TCTGATTTAC AAATAACAGT AAAAAACTAT 
    AGTAAACTGG ATGGTAACCA CACCCCTGCT TGCTGTGATT ATGTTGTAAA ACAACTTCCA 
    TATGATGACG TACTTTCATC GCTGAAGACT ACTGAGAACA CAATTTTGAT GGATAGCATT 
    AAAAGCAAAA ATAATGCTGC ACCTTTGATT GATTTTATAC AAGCACCTCA TGAAAATGTC 
    AACATAAATG CATCTGATTT AAGCTTTTCT TCTTGTACGT CAAATAACAC ACAAGTGACA 
    CAGAAAGCAA ATGACTCGTA TGCCAACGTA GAACAAGATT TTAAATGTCA CATAGGGGCA 
    AATAGTGGCC ATAGTAAGAC AGATAAAGGA GGCAAACTGA AGGGCTGTAC ACAGCAGAAG 
    ACCAGGTCTC CTGACAAAGG TTCATCTGTT TCATTAAATG TATGTGCAAT TTTAGAAAAG 
    GCAGATAAAA CATCTTGTGT AAATGTATTG CAGGAATATA AATTAATTTG TGAGAAAATG 
    CTTCCCAGAT TTATAAATGC TTTTAAAGAT AAGCAGCATT GCCCAGTCAA AGATGTCATG 
    GTTAATCGGA AGTTTTTGCT TGAAAGAAAC CTCAAAGCAG CCTTTAAGTA TCCCTTAAAA 
    CCACAGGCTA TAGAGGCATT TATTGAATTA CAAATGATGA TGGAAACCAA ACAATTCATA 
    GAAAATAGAA TATACAGTCT TAAAGGTGAG CCCACATTCA GAAGTCTCTT GTATTATGAC 
    AGCTCTCTCT ACCTTGAGTT ACTTGATGGA GACAGGGGAT ACCAACAACA GTCCAATTTT 
    TATGTTGGAT TTCAACAAAA GCTAAAATGT GATCCTCTTG TTACTCTGGA AAACCACCAT 
    GCTCAACTTT GTGATGTTCT TGAGAAAATT CATGAAAAAT GCAGATCATA TTATGTCCTC 
    CTTAAATACC GGAGAGAAGT TGAGGAATGT GAAGCTGTTT TAAAGAACTC TGCTGATCAT 
    TTGGATTTTT GTCTCTCAGT CCCCTTATCT TGTGGAGTTC ATACTGGGGA CACATTAGAG 
    GAGTTAAAAA ACTTGCAGAC AGGAACTTTA GAGCTTATTA AAGCCTATTA TAATCTTCCA 
    GATTGTGATG CTGGAAAACA AGAACATGCA CTGTGCCTTT TAGAATTAAT CTGTGCAAAA 
    ATTGATTATA TTCAGACCTC AGAGTCTTTA AACACTGAAC TGTCACTTTT TGGCATTGAA 
    CACTTATTGT TTGATGCAGC CAAAAGCACC ATTTTGAAGG AGAACGCAAG ATCTTCTAAA 
    CAGAAAAAAA TACCCTCACT AATTTTGGAG TCTATCCACA AACTGAACCA TTTTGCCTTA 
    TTAAAATTAT ATGAAGTCTA TGGTACATGT GTTGAAGAAA CCACAGTCAT AAAAACTTCT 
    GGTGACAAAC AGAAAAAATA CAAAGAGTCA AACTTTAATC CAGAGTTTAA CAGCGGGGAA 
    GATGTATATT ATGTTGGGAA AATCATAGAC CAAGCGCGAT GTGCAGACAC TGCATCAGTG 
    AATCAAATGA TTGCTGGCTG TAAGAAGCAT TTAGAAGCTC TAAAAAAATA TTTTCAGATA 
    ATGCAAGAAT GTGATGCAGA TGAAGTCATA ATCACAGAGA ATAATGTTTT TGATGCAGCT 
    AAAAAAAATA CTCAGCCTGC AATACTTCTA AAACCAGAGG CAATAGAAAG CTACATTGAT 
    ATTCTCATGG CTTATGAAAC TTTACATTTC CTGAAATGTT TAAAGGCTTC CAAAAAGAAC 
    AAAAAGAGAT TCAGAGGGCT CCTGTGGTTT GAAAAATCTC TCCTTCCTGA ATTAATTCTA 
    TCCCAAAACA GAATTGGATC ATATCTTAAA GCAAACTTGA ATTCTGATGT CATAGAAGTC 
    ATAAATAGTA ATATATATGA GATTAAGACA GAGCTTGAAA TAATATGTGA CTATTCAGAT 
    TCAGTCAATT ATACCTATGC CCTTCAGATA ATGACACGGG AACTTTCAGA GCTCTCAGAA 
    CTTAAAACAT TTGTTTCAAA ATCCAGGTTT GCAATGCAAT CCTATATCCA CTTTTCCCCA 
    CATATTGCCT CTCTGCACTA TGGAAGTACT TTGGTGGATC TTGATCATAA CTACAACCAG 
    TTTTCTGATC TGCTAGGGCT TTTAATGTCC TGTCCAAAGA AAGACTTGGG AAAAATTGCC 
    CAAACAATGA AAATCATGAA AACTATTGAG CTTATGAAAC AAGCCACTTC CAGGTCAGAC 
    ACTTCAGCAT TTGGTGTATG TTCTTGCCAG ATCATGGAGA ACAAAAGAAA ACGTGAACAC 
    CTACAAGATA AAGGTGATCA ATGTTATTGG ATGCTGAACA CAAAGAAAAG ACCATCATTG 
    GTTCAGGATG ATCAGACATA TTTTACGAGC CCCAAAAAGC GAAAGGTGGT GAATTCCCCT 
    CCACATGATT CAAAAGGAGA GCAAGAAAAA AGCAAACAGA AAAGCAACAC AAGGATAAAA 
    AACAAAGATC ACAGTAATGC AGCTGAGAAA CAATGCAAGA AGTCTGAAAA GACTCCAAAA 
    GATGTAACAG GTGTAGAAAT AAAAGATCAG TCTTCATCTA TTAATGAACA TACATTTCAA 
    AAAAATGATG GATTGTCTTC AGTCAAAGCA ATAGTGTTAG AACATGCCAA TGATAGAGAA 
    GTTAAAATAA AATGTTCCAC TGATGACCCA GTAAAGGAAG TCCTAAATGA TTCACATCTT 
    AATCTGCACA CAAAAAGTCA ACTTCAGGTA CCAGATAAAA ATGTAAATGT TATATCAGAA 
    CACCAGTCTC TCTCTGATCA AAATAAGAAA AACACTGATG TAGTATCTCA AACAGCTGAA 
    CAGAAATCTA TTCTTAAAAA GCTGTATTTT TCAGGCAAGC AAAAGAAGAG CAATAATGTA 
    CACTTTGCTG ACATATGTTC ATTAGACACA AGTCCTACGA TGGAACAGAA AAATGAAACG 
    GCAACTCCCA TTACTGAAGC AAAAGACAAG AAGAATGAAC CATTGGTACA GCATAATGAC 
    CCATCCAGTT GTAGTGATTT AAACAACAGC CATTCTCAGA GCTTTACACA GATGACTGGC 
    ACATATTCCC AGCTATCCAG CTGCCTCTAC CCTTGGCAAT ATTATTTACA TTACTGGTAT 
    CAAAATAGCA GTAACACAGG TGTAATGACC CAGCCTTACC AAGGAATGCC TTACAATACA 
    CAGCAATTCA TGCCATATAA TGGGACATCC TTATTCACTA CCCAGAATCC TTATACTGGT 
    AACCAGCCTT ATCCTTACCC AAACAGCCAA GTTCCGCCTC AGATGTTTCA GACAACAGAT 
    GCACTTAAAG CCACAATGAA TTACAGTTAC CCAGATCCAC ATTCTGCATC ACAAGATTCC 
    GTGCAGGCAA GATATGCTTA TGATGCTACA CCAACAGGAA CATGGTCATG GGGTTCTTGG 
    TAA

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

    tex15 ( XM_031904390.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031760250.1 Xenopus tropicalis testis expressed 15, meiosis and synapsis associated (tex15), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OXa48396
    Clone ID Related Accession (Same CDS sequence) XM_002939260.5 , XM_031904390.1
    Accession Version XM_031904390.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6423bp)
    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 testis-expressed protein 15
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    ATGGAAGACA GCATGAAGTC CCTTAAGAAC TATATAATTC CTAAAATAAA AACAACTGCT 
    GAGAAAGGGT ATCTCGCTCG TGACATGACC AATAAGAGGG AATATAACGA TATTCTCAAT 
    ATTTTGAATG AAGCAAGACT AGACATATGC TGTGAACTAG AGTCCTCATG GAAGTTTGAA 
    GAGCCCAAAC TGATCTGCAA TTCTAATTTA GAAAATAATT TTATTGAAAA AAGGTCTGAG 
    ATGCGAGAAC TTGGAAAAAA AGATTTCAAA GAACAATTTT GCTTTCTAGT GGTCCCTAAG 
    GCTGCAGTTG TAGACATATG CCATCATGGC CTAAGTGTTA AAAGTTCAAC CATCAAAATG 
    TTAGGGAATC CCCAGCTAGG AGTATATGTC TTCAGACACA TTGATGTTGC ATTGAATTAT 
    GCAAAGATGA AGAATAGTAA ATCAAACATC ATTGTGGTAT TTAAGACACT CTTTGGCAGA 
    ATTAAGAAAG TACAGCCAGT TTTGAATTCT AAGAAAACTC CTCTGGATCC TGCACCAAAC 
    TATGATAGCC ATATGTCAAA AAGCTTAGCA TCTTGGACTG ATTCCTTTGA GAAGCAAACG 
    GCTAATTCAT TAGTGTATTT GTATGAGTAT GATCTAAATT GCAAGCCTGC CGACAAACCA 
    AGACATTGCC TTCCATATGC TTCAGTGTCT GCCGCATTTA TTGAACAGAA GACAGAAACA 
    GGTCCCATGC TGGCAACAGT TAAACTTAAA CCAAAGCTGC TTACTGATGG TAGTGCTAAC 
    TTAATGAACT GCACAGTAGC AAAACGAATT GGTAAAGGCA AAGATGCAAA GATTGTTTTT 
    GAAAATTTTC GTACAATAGA GCCAAAGCCA CCTCCAATGT ATGCACAGCA AAATGAGTTC 
    CTCCTTTCTT GTTCTGCCAT AAATCTTCTG TTGGAAAATC TTTTATATGA TAAGCAATCC 
    ATGGACTCCG CTATGCATTT CCCTGATCAC TTTGATAAAA AGGAGAAAGC TGGAAAAAGA 
    ACAGATGACA TAGAAGGGTT GAGTCCTTCA AGCATGTTGA TTACATCTAA ATCCATAAAA 
    GACCCCAGAA TTAGAAAAGA AGAACAAGAA TTAAAACATT GTGATCAGAA AATAGTTGAT 
    CAATTGAATT TTCAGCATTG CGAGGAAAAC GTCAACAAGT CATTATCGCT AAGTTTTGAA 
    GAAGCTCGAC TTTTTGACAG TTTGATGGCA AAGGATAAAG TAAATAAATG TTCATTATTT 
    AATGAATGTG AAAAGGACTA TAAAATGGTG ATGAAACAAA ATAAGACAGT AGGTCGTCAT 
    TCTCAAAATT TGTCTGAGAA AGAGGTATTT GAGGAAAAGC AGCAAAAGTC AAGTATGCTC 
    TCTGAAATGG AACATTCCTC TCTTACACAA GATATGTTTC ATGTATCTAA GTCTTTATCT 
    GTCACTAACA CAGTCTGTGA AAAAGTGGTT AAAAAAGGTC ATCAATTTTT TAAGAAACGC 
    AAGAAAGAAA CGTATTTCAG TCTTGGGCCA ACAAAATCAG AACTGACAAA GGAAGCTTCC 
    ATTTCTAAAC AAAAAAAGAA AATTGCAGAT GTGATGGAAT CTAGTGGATG TAACTCCCTT 
    GAAACAGGTC ATAAACATAA ACCAATGCAG AGAAAGACAT GCATTTCTAA TGATAATAAA 
    GAGAAAACAG TCAATAGTAA AAATATGGCT GATGGTTCAA AATGTGGTAA CAATCCAGAA 
    GAAAATATAT TATCTACTAA TTCTTCAAAA TCAAATCACA CAACAAAAGT TGAAGAGAGG 
    GCACAGACTG GAAAACATGT CTTTAAAAAG TCACCGAGCA GTCACAAAAT AAAAGGTAAT 
    AAGGTCCATG GTCACAAAAC AAATGTTGAA AGCCCTGGGA ATTTTAAAAA AACTGCTGCT 
    TCTTTACCTA AAAATGCCAC CGCACCTATT AATAAGATGG ATATCGGCAA TATAAAAAGC 
    TTTGTTACAG GTGCAGATAA AAAGGAAGAA CACTCCTTAC TTGTGAAACT ACAAATCAAT 
    TCTTGCTTGG AATTAAATGA TATGGAACAT AGTATTATTA AAAAGAAGAC AACAGCTGAA 
    AATCAAATCC CAGAAAAGCT ATTTGCTAAT GTGGAAGAAG AACTACCTTG GTTAAAACAA 
    AATCTTCCTG ACAATCAGGA ACATCAGTGC AGTAAAACAA TCACTCATGA TATAATACTG 
    GCAAAGGAAG AAATATTGAT CCCTCCAAAG AAAACAAATT CACAGATATC TTGTGTTACT 
    TCTGATGATA ACTTTGAGAT GAGAGATTTC CCAATTGATT ACATGGAATT TCAGAATGAA 
    ACTGTTTGCT GTCAAGAACT GGTTTCTTTG AAAGTGGGTT CCCTTAAAGA AAGTGAAGAG 
    ACAGTGACAG CAAAAACTCC AGAGATTAAT CAAAGCAAAA CAACAGATTG TTGCGTAGAA 
    AGTATATCCT CTATGCATTT GAAAGAACTA GCATTTGAGC ATCAAATTTC TCATGTACTT 
    TTACCTGAAA ACAAAGTTGT TAACCAGCAC TGCACAACAG ATGAGATTTA TTTGTTTGAT 
    ATGGGTGATA TTGGCATACC TACGGAAACC AGCATTTTAA GTGTGTCTGA AAACTTAACA 
    CATTTGTGTT TCCAGAGTTA TGAAACAGAA ATAGGGTATG ATGGAGATTT ACTTATTGAG 
    GATATGGAAA TTGGAAGTGA GACTGAAATT CCATCATTTG AAACCATGAA TGAACCAAAA 
    GCGCAATTGC CAATTCATTT AAATATATCT TTAAACATGT TGCTTGATGA TTTTGATTGT 
    AGCCACTTGG AAAACCGCAT AGACTGGAAT AGTCTCTTTG GACTGGACAG TTCCACAACG 
    TTAATGGAAG AGGATGTAGT GCCACAATTT CACAAATCAC CTCTCCAAAA ATGTGGGCTT 
    TATAAATGTG AGAGTGAAAA GATAATTTAT TCTGATTTAC AAATAACAGT AAAAAACTAT 
    AGTAAACTGG ATGGTAACCA CACCCCTGCT TGCTGTGATT ATGTTGTAAA ACAACTTCCA 
    TATGATGACG TACTTTCATC GCTGAAGACT ACTGAGAACA CAATTTTGAT GGATAGCATT 
    AAAAGCAAAA ATAATGCTGC ACCTTTGATT GATTTTATAC AAGCACCTCA TGAAAATGTC 
    AACATAAATG CATCTGATTT AAGCTTTTCT TCTTGTACGT CAAATAACAC ACAAGTGACA 
    CAGAAAGCAA ATGACTCGTA TGCCAACGTA GAACAAGATT TTAAATGTCA CATAGGGGCA 
    AATAGTGGCC ATAGTAAGAC AGATAAAGGA GGCAAACTGA AGGGCTGTAC ACAGCAGAAG 
    ACCAGGTCTC CTGACAAAGG TTCATCTGTT TCATTAAATG TATGTGCAAT TTTAGAAAAG 
    GCAGATAAAA CATCTTGTGT AAATGTATTG CAGGAATATA AATTAATTTG TGAGAAAATG 
    CTTCCCAGAT TTATAAATGC TTTTAAAGAT AAGCAGCATT GCCCAGTCAA AGATGTCATG 
    GTTAATCGGA AGTTTTTGCT TGAAAGAAAC CTCAAAGCAG CCTTTAAGTA TCCCTTAAAA 
    CCACAGGCTA TAGAGGCATT TATTGAATTA CAAATGATGA TGGAAACCAA ACAATTCATA 
    GAAAATAGAA TATACAGTCT TAAAGGTGAG CCCACATTCA GAAGTCTCTT GTATTATGAC 
    AGCTCTCTCT ACCTTGAGTT ACTTGATGGA GACAGGGGAT ACCAACAACA GTCCAATTTT 
    TATGTTGGAT TTCAACAAAA GCTAAAATGT GATCCTCTTG TTACTCTGGA AAACCACCAT 
    GCTCAACTTT GTGATGTTCT TGAGAAAATT CATGAAAAAT GCAGATCATA TTATGTCCTC 
    CTTAAATACC GGAGAGAAGT TGAGGAATGT GAAGCTGTTT TAAAGAACTC TGCTGATCAT 
    TTGGATTTTT GTCTCTCAGT CCCCTTATCT TGTGGAGTTC ATACTGGGGA CACATTAGAG 
    GAGTTAAAAA ACTTGCAGAC AGGAACTTTA GAGCTTATTA AAGCCTATTA TAATCTTCCA 
    GATTGTGATG CTGGAAAACA AGAACATGCA CTGTGCCTTT TAGAATTAAT CTGTGCAAAA 
    ATTGATTATA TTCAGACCTC AGAGTCTTTA AACACTGAAC TGTCACTTTT TGGCATTGAA 
    CACTTATTGT TTGATGCAGC CAAAAGCACC ATTTTGAAGG AGAACGCAAG ATCTTCTAAA 
    CAGAAAAAAA TACCCTCACT AATTTTGGAG TCTATCCACA AACTGAACCA TTTTGCCTTA 
    TTAAAATTAT ATGAAGTCTA TGGTACATGT GTTGAAGAAA CCACAGTCAT AAAAACTTCT 
    GGTGACAAAC AGAAAAAATA CAAAGAGTCA AACTTTAATC CAGAGTTTAA CAGCGGGGAA 
    GATGTATATT ATGTTGGGAA AATCATAGAC CAAGCGCGAT GTGCAGACAC TGCATCAGTG 
    AATCAAATGA TTGCTGGCTG TAAGAAGCAT TTAGAAGCTC TAAAAAAATA TTTTCAGATA 
    ATGCAAGAAT GTGATGCAGA TGAAGTCATA ATCACAGAGA ATAATGTTTT TGATGCAGCT 
    AAAAAAAATA CTCAGCCTGC AATACTTCTA AAACCAGAGG CAATAGAAAG CTACATTGAT 
    ATTCTCATGG CTTATGAAAC TTTACATTTC CTGAAATGTT TAAAGGCTTC CAAAAAGAAC 
    AAAAAGAGAT TCAGAGGGCT CCTGTGGTTT GAAAAATCTC TCCTTCCTGA ATTAATTCTA 
    TCCCAAAACA GAATTGGATC ATATCTTAAA GCAAACTTGA ATTCTGATGT CATAGAAGTC 
    ATAAATAGTA ATATATATGA GATTAAGACA GAGCTTGAAA TAATATGTGA CTATTCAGAT 
    TCAGTCAATT ATACCTATGC CCTTCAGATA ATGACACGGG AACTTTCAGA GCTCTCAGAA 
    CTTAAAACAT TTGTTTCAAA ATCCAGGTTT GCAATGCAAT CCTATATCCA CTTTTCCCCA 
    CATATTGCCT CTCTGCACTA TGGAAGTACT TTGGTGGATC TTGATCATAA CTACAACCAG 
    TTTTCTGATC TGCTAGGGCT TTTAATGTCC TGTCCAAAGA AAGACTTGGG AAAAATTGCC 
    CAAACAATGA AAATCATGAA AACTATTGAG CTTATGAAAC AAGCCACTTC CAGGTCAGAC 
    ACTTCAGCAT TTGGTGTATG TTCTTGCCAG ATCATGGAGA ACAAAAGAAA ACGTGAACAC 
    CTACAAGATA AAGGTGATCA ATGTTATTGG ATGCTGAACA CAAAGAAAAG ACCATCATTG 
    GTTCAGGATG ATCAGACATA TTTTACGAGC CCCAAAAAGC GAAAGGTGGT GAATTCCCCT 
    CCACATGATT CAAAAGGAGA GCAAGAAAAA AGCAAACAGA AAAGCAACAC AAGGATAAAA 
    AACAAAGATC ACAGTAATGC AGCTGAGAAA CAATGCAAGA AGTCTGAAAA GACTCCAAAA 
    GATGTAACAG GTGTAGAAAT AAAAGATCAG TCTTCATCTA TTAATGAACA TACATTTCAA 
    AAAAATGATG GATTGTCTTC AGTCAAAGCA ATAGTGTTAG AACATGCCAA TGATAGAGAA 
    GTTAAAATAA AATGTTCCAC TGATGACCCA GTAAAGGAAG TCCTAAATGA TTCACATCTT 
    AATCTGCACA CAAAAAGTCA ACTTCAGGTA CCAGATAAAA ATGTAAATGT TATATCAGAA 
    CACCAGTCTC TCTCTGATCA AAATAAGAAA AACACTGATG TAGTATCTCA AACAGCTGAA 
    CAGAAATCTA TTCTTAAAAA GCTGTATTTT TCAGGCAAGC AAAAGAAGAG CAATAATGTA 
    CACTTTGCTG ACATATGTTC ATTAGACACA AGTCCTACGA TGGAACAGAA AAATGAAACG 
    GCAACTCCCA TTACTGAAGC AAAAGACAAG AAGAATGAAC CATTGGTACA GCATAATGAC 
    CCATCCAGTT GTAGTGATTT AAACAACAGC CATTCTCAGA GCTTTACACA GATGACTGGC 
    ACATATTCCC AGCTATCCAG CTGCCTCTAC CCTTGGCAAT ATTATTTACA TTACTGGTAT 
    CAAAATAGCA GTAACACAGG TGTAATGACC CAGCCTTACC AAGGAATGCC TTACAATACA 
    CAGCAATTCA TGCCATATAA TGGGACATCC TTATTCACTA CCCAGAATCC TTATACTGGT 
    AACCAGCCTT ATCCTTACCC AAACAGCCAA GTTCCGCCTC AGATGTTTCA GACAACAGAT 
    GCACTTAAAG CCACAATGAA TTACAGTTAC CCAGATCCAC ATTCTGCATC ACAAGATTCC 
    GTGCAGGCAA GATATGCTTA TGATGCTACA CCAACAGGAA CATGGTCATG GGGTTCTTGG 
    TAA

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

    RefSeq XP_031760250.1
    CDS296..6718
    Translation

    Target ORF information:

    RefSeq Version XM_031904390.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis testis expressed 15, meiosis and synapsis associated (tex15), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031904390.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    ATGGAAGACA GCATGAAGTC CCTTAAGAAC TATATAATTC CTAAAATAAA AACAACTGCT 
    GAGAAAGGGT ATCTCGCTCG TGACATGACC AATAAGAGGG AATATAACGA TATTCTCAAT 
    ATTTTGAATG AAGCAAGACT AGACATATGC TGTGAACTAG AGTCCTCATG GAAGTTTGAA 
    GAGCCCAAAC TGATCTGCAA TTCTAATTTA GAAAATAATT TTATTGAAAA AAGGTCTGAG 
    ATGCGAGAAC TTGGAAAAAA AGATTTCAAA GAACAATTTT GCTTTCTAGT GGTCCCTAAG 
    GCTGCAGTTG TAGACATATG CCATCATGGC CTAAGTGTTA AAAGTTCAAC CATCAAAATG 
    TTAGGGAATC CCCAGCTAGG AGTATATGTC TTCAGACACA TTGATGTTGC ATTGAATTAT 
    GCAAAGATGA AGAATAGTAA ATCAAACATC ATTGTGGTAT TTAAGACACT CTTTGGCAGA 
    ATTAAGAAAG TACAGCCAGT TTTGAATTCT AAGAAAACTC CTCTGGATCC TGCACCAAAC 
    TATGATAGCC ATATGTCAAA AAGCTTAGCA TCTTGGACTG ATTCCTTTGA GAAGCAAACG 
    GCTAATTCAT TAGTGTATTT GTATGAGTAT GATCTAAATT GCAAGCCTGC CGACAAACCA 
    AGACATTGCC TTCCATATGC TTCAGTGTCT GCCGCATTTA TTGAACAGAA GACAGAAACA 
    GGTCCCATGC TGGCAACAGT TAAACTTAAA CCAAAGCTGC TTACTGATGG TAGTGCTAAC 
    TTAATGAACT GCACAGTAGC AAAACGAATT GGTAAAGGCA AAGATGCAAA GATTGTTTTT 
    GAAAATTTTC GTACAATAGA GCCAAAGCCA CCTCCAATGT ATGCACAGCA AAATGAGTTC 
    CTCCTTTCTT GTTCTGCCAT AAATCTTCTG TTGGAAAATC TTTTATATGA TAAGCAATCC 
    ATGGACTCCG CTATGCATTT CCCTGATCAC TTTGATAAAA AGGAGAAAGC TGGAAAAAGA 
    ACAGATGACA TAGAAGGGTT GAGTCCTTCA AGCATGTTGA TTACATCTAA ATCCATAAAA 
    GACCCCAGAA TTAGAAAAGA AGAACAAGAA TTAAAACATT GTGATCAGAA AATAGTTGAT 
    CAATTGAATT TTCAGCATTG CGAGGAAAAC GTCAACAAGT CATTATCGCT AAGTTTTGAA 
    GAAGCTCGAC TTTTTGACAG TTTGATGGCA AAGGATAAAG TAAATAAATG TTCATTATTT 
    AATGAATGTG AAAAGGACTA TAAAATGGTG ATGAAACAAA ATAAGACAGT AGGTCGTCAT 
    TCTCAAAATT TGTCTGAGAA AGAGGTATTT GAGGAAAAGC AGCAAAAGTC AAGTATGCTC 
    TCTGAAATGG AACATTCCTC TCTTACACAA GATATGTTTC ATGTATCTAA GTCTTTATCT 
    GTCACTAACA CAGTCTGTGA AAAAGTGGTT AAAAAAGGTC ATCAATTTTT TAAGAAACGC 
    AAGAAAGAAA CGTATTTCAG TCTTGGGCCA ACAAAATCAG AACTGACAAA GGAAGCTTCC 
    ATTTCTAAAC AAAAAAAGAA AATTGCAGAT GTGATGGAAT CTAGTGGATG TAACTCCCTT 
    GAAACAGGTC ATAAACATAA ACCAATGCAG AGAAAGACAT GCATTTCTAA TGATAATAAA 
    GAGAAAACAG TCAATAGTAA AAATATGGCT GATGGTTCAA AATGTGGTAA CAATCCAGAA 
    GAAAATATAT TATCTACTAA TTCTTCAAAA TCAAATCACA CAACAAAAGT TGAAGAGAGG 
    GCACAGACTG GAAAACATGT CTTTAAAAAG TCACCGAGCA GTCACAAAAT AAAAGGTAAT 
    AAGGTCCATG GTCACAAAAC AAATGTTGAA AGCCCTGGGA ATTTTAAAAA AACTGCTGCT 
    TCTTTACCTA AAAATGCCAC CGCACCTATT AATAAGATGG ATATCGGCAA TATAAAAAGC 
    TTTGTTACAG GTGCAGATAA AAAGGAAGAA CACTCCTTAC TTGTGAAACT ACAAATCAAT 
    TCTTGCTTGG AATTAAATGA TATGGAACAT AGTATTATTA AAAAGAAGAC AACAGCTGAA 
    AATCAAATCC CAGAAAAGCT ATTTGCTAAT GTGGAAGAAG AACTACCTTG GTTAAAACAA 
    AATCTTCCTG ACAATCAGGA ACATCAGTGC AGTAAAACAA TCACTCATGA TATAATACTG 
    GCAAAGGAAG AAATATTGAT CCCTCCAAAG AAAACAAATT CACAGATATC TTGTGTTACT 
    TCTGATGATA ACTTTGAGAT GAGAGATTTC CCAATTGATT ACATGGAATT TCAGAATGAA 
    ACTGTTTGCT GTCAAGAACT GGTTTCTTTG AAAGTGGGTT CCCTTAAAGA AAGTGAAGAG 
    ACAGTGACAG CAAAAACTCC AGAGATTAAT CAAAGCAAAA CAACAGATTG TTGCGTAGAA 
    AGTATATCCT CTATGCATTT GAAAGAACTA GCATTTGAGC ATCAAATTTC TCATGTACTT 
    TTACCTGAAA ACAAAGTTGT TAACCAGCAC TGCACAACAG ATGAGATTTA TTTGTTTGAT 
    ATGGGTGATA TTGGCATACC TACGGAAACC AGCATTTTAA GTGTGTCTGA AAACTTAACA 
    CATTTGTGTT TCCAGAGTTA TGAAACAGAA ATAGGGTATG ATGGAGATTT ACTTATTGAG 
    GATATGGAAA TTGGAAGTGA GACTGAAATT CCATCATTTG AAACCATGAA TGAACCAAAA 
    GCGCAATTGC CAATTCATTT AAATATATCT TTAAACATGT TGCTTGATGA TTTTGATTGT 
    AGCCACTTGG AAAACCGCAT AGACTGGAAT AGTCTCTTTG GACTGGACAG TTCCACAACG 
    TTAATGGAAG AGGATGTAGT GCCACAATTT CACAAATCAC CTCTCCAAAA ATGTGGGCTT 
    TATAAATGTG AGAGTGAAAA GATAATTTAT TCTGATTTAC AAATAACAGT AAAAAACTAT 
    AGTAAACTGG ATGGTAACCA CACCCCTGCT TGCTGTGATT ATGTTGTAAA ACAACTTCCA 
    TATGATGACG TACTTTCATC GCTGAAGACT ACTGAGAACA CAATTTTGAT GGATAGCATT 
    AAAAGCAAAA ATAATGCTGC ACCTTTGATT GATTTTATAC AAGCACCTCA TGAAAATGTC 
    AACATAAATG CATCTGATTT AAGCTTTTCT TCTTGTACGT CAAATAACAC ACAAGTGACA 
    CAGAAAGCAA ATGACTCGTA TGCCAACGTA GAACAAGATT TTAAATGTCA CATAGGGGCA 
    AATAGTGGCC ATAGTAAGAC AGATAAAGGA GGCAAACTGA AGGGCTGTAC ACAGCAGAAG 
    ACCAGGTCTC CTGACAAAGG TTCATCTGTT TCATTAAATG TATGTGCAAT TTTAGAAAAG 
    GCAGATAAAA CATCTTGTGT AAATGTATTG CAGGAATATA AATTAATTTG TGAGAAAATG 
    CTTCCCAGAT TTATAAATGC TTTTAAAGAT AAGCAGCATT GCCCAGTCAA AGATGTCATG 
    GTTAATCGGA AGTTTTTGCT TGAAAGAAAC CTCAAAGCAG CCTTTAAGTA TCCCTTAAAA 
    CCACAGGCTA TAGAGGCATT TATTGAATTA CAAATGATGA TGGAAACCAA ACAATTCATA 
    GAAAATAGAA TATACAGTCT TAAAGGTGAG CCCACATTCA GAAGTCTCTT GTATTATGAC 
    AGCTCTCTCT ACCTTGAGTT ACTTGATGGA GACAGGGGAT ACCAACAACA GTCCAATTTT 
    TATGTTGGAT TTCAACAAAA GCTAAAATGT GATCCTCTTG TTACTCTGGA AAACCACCAT 
    GCTCAACTTT GTGATGTTCT TGAGAAAATT CATGAAAAAT GCAGATCATA TTATGTCCTC 
    CTTAAATACC GGAGAGAAGT TGAGGAATGT GAAGCTGTTT TAAAGAACTC TGCTGATCAT 
    TTGGATTTTT GTCTCTCAGT CCCCTTATCT TGTGGAGTTC ATACTGGGGA CACATTAGAG 
    GAGTTAAAAA ACTTGCAGAC AGGAACTTTA GAGCTTATTA AAGCCTATTA TAATCTTCCA 
    GATTGTGATG CTGGAAAACA AGAACATGCA CTGTGCCTTT TAGAATTAAT CTGTGCAAAA 
    ATTGATTATA TTCAGACCTC AGAGTCTTTA AACACTGAAC TGTCACTTTT TGGCATTGAA 
    CACTTATTGT TTGATGCAGC CAAAAGCACC ATTTTGAAGG AGAACGCAAG ATCTTCTAAA 
    CAGAAAAAAA TACCCTCACT AATTTTGGAG TCTATCCACA AACTGAACCA TTTTGCCTTA 
    TTAAAATTAT ATGAAGTCTA TGGTACATGT GTTGAAGAAA CCACAGTCAT AAAAACTTCT 
    GGTGACAAAC AGAAAAAATA CAAAGAGTCA AACTTTAATC CAGAGTTTAA CAGCGGGGAA 
    GATGTATATT ATGTTGGGAA AATCATAGAC CAAGCGCGAT GTGCAGACAC TGCATCAGTG 
    AATCAAATGA TTGCTGGCTG TAAGAAGCAT TTAGAAGCTC TAAAAAAATA TTTTCAGATA 
    ATGCAAGAAT GTGATGCAGA TGAAGTCATA ATCACAGAGA ATAATGTTTT TGATGCAGCT 
    AAAAAAAATA CTCAGCCTGC AATACTTCTA AAACCAGAGG CAATAGAAAG CTACATTGAT 
    ATTCTCATGG CTTATGAAAC TTTACATTTC CTGAAATGTT TAAAGGCTTC CAAAAAGAAC 
    AAAAAGAGAT TCAGAGGGCT CCTGTGGTTT GAAAAATCTC TCCTTCCTGA ATTAATTCTA 
    TCCCAAAACA GAATTGGATC ATATCTTAAA GCAAACTTGA ATTCTGATGT CATAGAAGTC 
    ATAAATAGTA ATATATATGA GATTAAGACA GAGCTTGAAA TAATATGTGA CTATTCAGAT 
    TCAGTCAATT ATACCTATGC CCTTCAGATA ATGACACGGG AACTTTCAGA GCTCTCAGAA 
    CTTAAAACAT TTGTTTCAAA ATCCAGGTTT GCAATGCAAT CCTATATCCA CTTTTCCCCA 
    CATATTGCCT CTCTGCACTA TGGAAGTACT TTGGTGGATC TTGATCATAA CTACAACCAG 
    TTTTCTGATC TGCTAGGGCT TTTAATGTCC TGTCCAAAGA AAGACTTGGG AAAAATTGCC 
    CAAACAATGA AAATCATGAA AACTATTGAG CTTATGAAAC AAGCCACTTC CAGGTCAGAC 
    ACTTCAGCAT TTGGTGTATG TTCTTGCCAG ATCATGGAGA ACAAAAGAAA ACGTGAACAC 
    CTACAAGATA AAGGTGATCA ATGTTATTGG ATGCTGAACA CAAAGAAAAG ACCATCATTG 
    GTTCAGGATG ATCAGACATA TTTTACGAGC CCCAAAAAGC GAAAGGTGGT GAATTCCCCT 
    CCACATGATT CAAAAGGAGA GCAAGAAAAA AGCAAACAGA AAAGCAACAC AAGGATAAAA 
    AACAAAGATC ACAGTAATGC AGCTGAGAAA CAATGCAAGA AGTCTGAAAA GACTCCAAAA 
    GATGTAACAG GTGTAGAAAT AAAAGATCAG TCTTCATCTA TTAATGAACA TACATTTCAA 
    AAAAATGATG GATTGTCTTC AGTCAAAGCA ATAGTGTTAG AACATGCCAA TGATAGAGAA 
    GTTAAAATAA AATGTTCCAC TGATGACCCA GTAAAGGAAG TCCTAAATGA TTCACATCTT 
    AATCTGCACA CAAAAAGTCA ACTTCAGGTA CCAGATAAAA ATGTAAATGT TATATCAGAA 
    CACCAGTCTC TCTCTGATCA AAATAAGAAA AACACTGATG TAGTATCTCA AACAGCTGAA 
    CAGAAATCTA TTCTTAAAAA GCTGTATTTT TCAGGCAAGC AAAAGAAGAG CAATAATGTA 
    CACTTTGCTG ACATATGTTC ATTAGACACA AGTCCTACGA TGGAACAGAA AAATGAAACG 
    GCAACTCCCA TTACTGAAGC AAAAGACAAG AAGAATGAAC CATTGGTACA GCATAATGAC 
    CCATCCAGTT GTAGTGATTT AAACAACAGC CATTCTCAGA GCTTTACACA GATGACTGGC 
    ACATATTCCC AGCTATCCAG CTGCCTCTAC CCTTGGCAAT ATTATTTACA TTACTGGTAT 
    CAAAATAGCA GTAACACAGG TGTAATGACC CAGCCTTACC AAGGAATGCC TTACAATACA 
    CAGCAATTCA TGCCATATAA TGGGACATCC TTATTCACTA CCCAGAATCC TTATACTGGT 
    AACCAGCCTT ATCCTTACCC AAACAGCCAA GTTCCGCCTC AGATGTTTCA GACAACAGAT 
    GCACTTAAAG CCACAATGAA TTACAGTTAC CCAGATCCAC ATTCTGCATC ACAAGATTCC 
    GTGCAGGCAA GATATGCTTA TGATGCTACA CCAACAGGAA CATGGTCATG GGGTTCTTGG 
    TAA

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

見積依頼

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03-6811-6573
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