ORF » Species Summary » Xenopus tropicalis » kiaa1462 cDNA ORF clone

kiaa1462 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following kiaa1462 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the kiaa1462 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
OXa12060 XM_002940334.5
Latest version!		 Xenopus tropicalis junctional cadherin 5 associated (jcad), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OXa12060 XM_031904018.1
Latest version!		 Xenopus tropicalis junctional cadherin 5 associated (jcad), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OXa12061 XM_004915451.3
Latest version!		 Xenopus tropicalis KIAA1462 ortholog (kiaa1462), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00
View Old Accession Versions >>
OXa12060 XM_002940334.4 Xenopus tropicalis KIAA1462 ortholog (kiaa1462), 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)
    kiaa1462 ( XM_002940334.5 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_002940380.2 Xenopus tropicalis junctional cadherin 5 associated (jcad), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OXa12060
    Clone ID Related Accession (Same CDS sequence) XM_002940334.5 , XM_031904018.1 , XM_002940334.4
    Accession Version XM_002940334.5 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3804bp)
    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 junctional protein associated with coronary artery disease
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_002940334.4. ##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
    ATGTTCAGTG TTGAGGATCT CCTTGTTTCT CATGGGTACA AAGTATCTAA GAACTCTTCA 
    TCCTCTTACC AGCCCAGGAG TGAAGGCTAC CAGCAGGACC CAACAGACAG CAGGACTGGC 
    AATGGAATGG TAAATGGTTA TCAGGCAGAC CCAGAGGTAT TTGCTGTGGA TCCCTATCCT 
    CTTGCTAAGG GCTTCTATGG TGACAGCGAT AAGAACAGCA GACGACAGTT AAGCTCCACT 
    GGGCACCCCA GGGGCCAGAG ATGTTTGGAA GCATGTCATA CTTCAGAAAC AGGGTTATCT 
    GACAGACCTC AAAATGAAAG AGCACACTGG GCAAAGGCTG ATAAGGATAT CCAGTACTGG 
    AGAAGGAGAG GCCAAGACTT CAGCTTATTA TTAGGACAAG GGACTAATGA AGACAAAGAA 
    AAATTAAGAT CCTCCACCGA TTCTGAAGGG AAACCGAGGT GCAATATTTT CGATAAAAAC 
    ACCAGGGAAG CGGCAAAGGA CGTGGTCGAA GCCATGGAAA CTGTGAGAGG CAACACTGTC 
    TATGACAACT GGAAACCATC ACTGGAAGAG CAGTGGGGGA AAATAAACAA ATTTGTGATG 
    AAGGCTACAA AAACCTCAGA AAGAACAATG TCAGAAAGCA GTGGTGAGAA GCTGCTCCAA 
    GACTTCATCT CATTTAACCA AGTAGACAAC ACTGTTGGCT GCCCCAATAA GCTGAAATCC 
    CTGTCATTGC CCAAAGGCCT TTCCCCCGAC AGTATAAATC ACATTAGTCT GCCAGCTGTT 
    AAAGGTGAAA ACTACGCACT GAAGGAGGAT AAAACCCAGG TGCAAAGTAA CTGTGGTACC 
    AATTCGGACT CAGACGGAAA TTCATCCTCA AAACAAAAGT ATAGCAGACC CTCCAAACCT 
    CCCTCATATG AAGTCCATCA GCAAACGTGG GGAGTAGTGG ATGCAAATGA AGGTTCAGAT 
    CATCAACAAA AAGATGAACT TCACTCCGTT GCCAGAGTAC AAGATCTCCC CCAAGAATCC 
    TGTTCTCAAG ACTCAGGCCT GGAACCTCCC AATTACATAC CTCCACCCTC ATACAAATCT 
    CCCCCTCTTC AGCATGCTAC CAATCAATCT TTTAACAAAG TGCCTAGCAT TCATCACTAC 
    AGGCCAAATA ATCCGGTGGC AAAAACCAGC ACAAAGGACA AATCTCCCAC CAATTCTCAT 
    GATAGTGACA TCCTATACAA TAAGCCAGCT GACCAGAGGC ACACTGATAA TTATATTCAT 
    TCTGTACAAT ACATTCCTTT TGATGACCCC CGTATCAAGC ATATACCATT AAGTCATGAA 
    GCGGAAAAAC AAAGACACCA CAATCACGCC ACTGATATGA AGGATACTTT CTGGGTTGCA 
    CACACAAGTC AGGAAGGTCA TCTTCAAGAC AGAGAAAGTG CCTTTATAGA TTTTAAAAGT 
    GCAAAACTTA ATTATGGGAA AAGAGAAGGA ATTAAACACA AGCAGTGGAT GCACATCTCT 
    ATCCCAGGTC AGATATGCTG CTCGTTGCCT GAAACCAGAG AGGGGTCCAC TGCGTGTAGC 
    TTACCAGAAA GCAGTGACCC CTCTGACAGG CTAACTTTAA AAAAGACACA TTCAGACAGC 
    GCTTGTGAAA TAGTCACAAA GGTGAAGAAG TTTGAACCTG AAGCGTGTCT TCACAACAGG 
    AAAAGTTCAA AGCGAAAGTT GAACGAAACA ATATTTTGCT TAGTGTCGAT TCCAATCAAA 
    TCTGATTCTG CCCCATCAGA TATGTGCAAG AACAACAAGA TTTTAGCAGA CAATGTGGAC 
    AGGATGAATA TGTTAAAACA CAGCAATGGG GGACTGTTTG AAGAGAGACT TTTAAGTGCG 
    TCTTCCAGTG ATTTGGAGCT ACAAACCCTT ACAGGAAACA TGAACAATAA AGTGGAGCTG 
    CGAAAACACG AGCAGTCCAA AACAGAGGAA AATAAACAAG CGAATGACCT CAGATGTGCA 
    GATCCAAGGA AGCATAGAGA TCTTGCCTAT TCTGGTTCTT GGCCAGGTGA CCAGTACAAA 
    GACCAGCAAA CTCAAACTGT GTTTAGCGAC ATACAAAATT CAAAATGTCA TAATGGAACA 
    AAAGCAAATG AGCCGCACAA TAAGTTTGCT CATAAGTCTC AGTGTAGCTC TGAAAGCGGA 
    CTAGAAAAGC CAAGTGCCAG GCAAAATATG TTCAGTATTA AAGGCCAGAT GAGTCTTAGC 
    CCCTCCAGCA ACAGTGCATT TTCAAGAACA TCCTTATTAA TTACTCACAT GCCTAAAACA 
    GAACAGTGCC AAAGGCCAGA ACATGGTAAC GAACGTGCAG AAGGAAAGGA AAAAATAGCA 
    ACTGGTAAAT ATGAAAAGAA AGAGAGCGAA TCGGAAAGTT TTTGCAATAA AAAAGAGGTG 
    TTCGGGCAGT TTCTTCTGAA ACCTGTTAAT CGGCGACCCT GGGATGCAAT AAGTGAGCTA 
    GAAAGTTTGA ACAAAGAGTT TCAAGACCAA GAGAACTGTT CTAATGATGG GGATAGAAGT 
    TCATTAAAGG AGCAAACAAA AGAATCGAAT ATAGACATGG CTGCAATCAG GAGTGAAATG 
    GTGGCTAACA AGCGGCATGT GATTGAGGTA GAAGAGGTTC CAGTGTTTGA ACCTTCGCAG 
    GTTAGATGTA TGTCAGAAAG TTGGTACCCT GAAAAGTTAA AATGTGACAA GGTGAGGAGT 
    GGTGCTGAGC TGCCAAAGTC TGCCCAAATG AAAGATGGCA AAAGTATACC TGAAAAGTTA 
    TCCGATGGAT GCGTGAAAAT AGAAAAACAA GTCCAGAACA AAAGAATAGG AACAACCATA 
    AATCTTCACA CTGTTCATAC CCCTAATGTG GACCAAAAAG ACATAGCTGT GCAAATAAAT 
    CCCAGCAACA TCCAGATAGA CAAAGCCCCC CATGCCCCTG AGTCAAGTTG CAGAGTTTTC 
    AGGCAAGTCA GATCTCAATT TGAGCATTCA GAGATCTCAG CCAAATGTAG TCAGGTTGAA 
    GATAAAGCAA TAAGAAAGCT CTCTCAGAAC AACGGGAGTC CAGGGCTCTC GCTACCTGAT 
    CTAAACCAAC ATTTCATCAC AGCAAACCAT AATGGAGAGT TCCATGAGCC ACAGAGCGAT 
    TCAGAAATTC CAGAAAATGA ATCTCTACAA GAGAGAGCCA CACGGATTTT GGGGATTGAT 
    GTAGCAGATG ATTCACTTGT ATCTACTGGG AGCTCTGAGG GACAAAGCCC CGAGAATCTT 
    GCCTTTAGTG CTGTTGCACA AAATGAAGCA AAGTTGAAAG GAAATGTGTG TGAAATTAAA 
    CTTCCTGCCA AGGAGAGCCC AGAGGTCTGC AACAGTGTTC TTCAGCCTCA TATGCATGTT 
    AACAAAGATG TAGAAAACCT TGCACAAGTG CTGGACCAGC CCTTTATACA TCAGCCGGTG 
    TATTTGCCGA GTGAAGTTAG CGCCTTCCGT AACTGTGAAA AGAAAGTGCG AAATACTTCA 
    AAGATGATTG AAACCTTACA GGGGAAGCTT GCTTCTACGC CTCCTCGGAC TGCTGTGGAC 
    CGGCTGGCAC GGATGAAAGA AGTTGACTCT GTGTCTCGCA TGAGACGGCT GAGCATTAAG 
    AGTACCGATT CGGGAGATGA AGTAGAGGAC GACAAGCAAT CGCACAGAGG TCAGGATTTA 
    GGCTCACGCA AATTTTCTGC TGGTTCCATC TACAAAAGAG TCATATCCCT TGACGAAAGT 
    TTGCTTATTA CAACAAAAAG CAGAGAAAAG TTTGAACTTT CTTTTGCTGA CTCTTATGAC 
    CCAACCAGAG TGGAAAGAGT TTAA

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

    RefSeq XP_002940380.2
    CDS367..4170
    Translation

    Target ORF information:

    RefSeq Version XM_002940334.5
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis junctional cadherin 5 associated (jcad), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_002940334.5

    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
    ATGTTCAGTG TTGAGGATCT CCTTGTTTCT CATGGGTACA AAGTATCTAA GAACTCTTCA 
    TCCTCTTACC AGCCCAGGAG TGAAGGCTAC CAGCAGGACC CAACAGACAG CAGGACTGGC 
    AATGGAATGG TAAATGGTTA TCAGGCAGAC CCAGAGGTAT TTGCTGTGGA TCCCTATCCT 
    CTTGCTAAGG GCTTCTATGG TGACAGCGAT AAGAACAGCA GACGACAGTT AAGCTCCACT 
    GGGCACCCCA GGGGCCAGAG ATGTTTGGAA GCATGTCATA CTTCAGAAAC AGGGTTATCT 
    GACAGACCTC AAAATGAAAG AGCACACTGG GCAAAGGCTG ATAAGGATAT CCAGTACTGG 
    AGAAGGAGAG GCCAAGACTT CAGCTTATTA TTAGGACAAG GGACTAATGA AGACAAAGAA 
    AAATTAAGAT CCTCCACCGA TTCTGAAGGG AAACCGAGGT GCAATATTTT CGATAAAAAC 
    ACCAGGGAAG CGGCAAAGGA CGTGGTCGAA GCCATGGAAA CTGTGAGAGG CAACACTGTC 
    TATGACAACT GGAAACCATC ACTGGAAGAG CAGTGGGGGA AAATAAACAA ATTTGTGATG 
    AAGGCTACAA AAACCTCAGA AAGAACAATG TCAGAAAGCA GTGGTGAGAA GCTGCTCCAA 
    GACTTCATCT CATTTAACCA AGTAGACAAC ACTGTTGGCT GCCCCAATAA GCTGAAATCC 
    CTGTCATTGC CCAAAGGCCT TTCCCCCGAC AGTATAAATC ACATTAGTCT GCCAGCTGTT 
    AAAGGTGAAA ACTACGCACT GAAGGAGGAT AAAACCCAGG TGCAAAGTAA CTGTGGTACC 
    AATTCGGACT CAGACGGAAA TTCATCCTCA AAACAAAAGT ATAGCAGACC CTCCAAACCT 
    CCCTCATATG AAGTCCATCA GCAAACGTGG GGAGTAGTGG ATGCAAATGA AGGTTCAGAT 
    CATCAACAAA AAGATGAACT TCACTCCGTT GCCAGAGTAC AAGATCTCCC CCAAGAATCC 
    TGTTCTCAAG ACTCAGGCCT GGAACCTCCC AATTACATAC CTCCACCCTC ATACAAATCT 
    CCCCCTCTTC AGCATGCTAC CAATCAATCT TTTAACAAAG TGCCTAGCAT TCATCACTAC 
    AGGCCAAATA ATCCGGTGGC AAAAACCAGC ACAAAGGACA AATCTCCCAC CAATTCTCAT 
    GATAGTGACA TCCTATACAA TAAGCCAGCT GACCAGAGGC ACACTGATAA TTATATTCAT 
    TCTGTACAAT ACATTCCTTT TGATGACCCC CGTATCAAGC ATATACCATT AAGTCATGAA 
    GCGGAAAAAC AAAGACACCA CAATCACGCC ACTGATATGA AGGATACTTT CTGGGTTGCA 
    CACACAAGTC AGGAAGGTCA TCTTCAAGAC AGAGAAAGTG CCTTTATAGA TTTTAAAAGT 
    GCAAAACTTA ATTATGGGAA AAGAGAAGGA ATTAAACACA AGCAGTGGAT GCACATCTCT 
    ATCCCAGGTC AGATATGCTG CTCGTTGCCT GAAACCAGAG AGGGGTCCAC TGCGTGTAGC 
    TTACCAGAAA GCAGTGACCC CTCTGACAGG CTAACTTTAA AAAAGACACA TTCAGACAGC 
    GCTTGTGAAA TAGTCACAAA GGTGAAGAAG TTTGAACCTG AAGCGTGTCT TCACAACAGG 
    AAAAGTTCAA AGCGAAAGTT GAACGAAACA ATATTTTGCT TAGTGTCGAT TCCAATCAAA 
    TCTGATTCTG CCCCATCAGA TATGTGCAAG AACAACAAGA TTTTAGCAGA CAATGTGGAC 
    AGGATGAATA TGTTAAAACA CAGCAATGGG GGACTGTTTG AAGAGAGACT TTTAAGTGCG 
    TCTTCCAGTG ATTTGGAGCT ACAAACCCTT ACAGGAAACA TGAACAATAA AGTGGAGCTG 
    CGAAAACACG AGCAGTCCAA AACAGAGGAA AATAAACAAG CGAATGACCT CAGATGTGCA 
    GATCCAAGGA AGCATAGAGA TCTTGCCTAT TCTGGTTCTT GGCCAGGTGA CCAGTACAAA 
    GACCAGCAAA CTCAAACTGT GTTTAGCGAC ATACAAAATT CAAAATGTCA TAATGGAACA 
    AAAGCAAATG AGCCGCACAA TAAGTTTGCT CATAAGTCTC AGTGTAGCTC TGAAAGCGGA 
    CTAGAAAAGC CAAGTGCCAG GCAAAATATG TTCAGTATTA AAGGCCAGAT GAGTCTTAGC 
    CCCTCCAGCA ACAGTGCATT TTCAAGAACA TCCTTATTAA TTACTCACAT GCCTAAAACA 
    GAACAGTGCC AAAGGCCAGA ACATGGTAAC GAACGTGCAG AAGGAAAGGA AAAAATAGCA 
    ACTGGTAAAT ATGAAAAGAA AGAGAGCGAA TCGGAAAGTT TTTGCAATAA AAAAGAGGTG 
    TTCGGGCAGT TTCTTCTGAA ACCTGTTAAT CGGCGACCCT GGGATGCAAT AAGTGAGCTA 
    GAAAGTTTGA ACAAAGAGTT TCAAGACCAA GAGAACTGTT CTAATGATGG GGATAGAAGT 
    TCATTAAAGG AGCAAACAAA AGAATCGAAT ATAGACATGG CTGCAATCAG GAGTGAAATG 
    GTGGCTAACA AGCGGCATGT GATTGAGGTA GAAGAGGTTC CAGTGTTTGA ACCTTCGCAG 
    GTTAGATGTA TGTCAGAAAG TTGGTACCCT GAAAAGTTAA AATGTGACAA GGTGAGGAGT 
    GGTGCTGAGC TGCCAAAGTC TGCCCAAATG AAAGATGGCA AAAGTATACC TGAAAAGTTA 
    TCCGATGGAT GCGTGAAAAT AGAAAAACAA GTCCAGAACA AAAGAATAGG AACAACCATA 
    AATCTTCACA CTGTTCATAC CCCTAATGTG GACCAAAAAG ACATAGCTGT GCAAATAAAT 
    CCCAGCAACA TCCAGATAGA CAAAGCCCCC CATGCCCCTG AGTCAAGTTG CAGAGTTTTC 
    AGGCAAGTCA GATCTCAATT TGAGCATTCA GAGATCTCAG CCAAATGTAG TCAGGTTGAA 
    GATAAAGCAA TAAGAAAGCT CTCTCAGAAC AACGGGAGTC CAGGGCTCTC GCTACCTGAT 
    CTAAACCAAC ATTTCATCAC AGCAAACCAT AATGGAGAGT TCCATGAGCC ACAGAGCGAT 
    TCAGAAATTC CAGAAAATGA ATCTCTACAA GAGAGAGCCA CACGGATTTT GGGGATTGAT 
    GTAGCAGATG ATTCACTTGT ATCTACTGGG AGCTCTGAGG GACAAAGCCC CGAGAATCTT 
    GCCTTTAGTG CTGTTGCACA AAATGAAGCA AAGTTGAAAG GAAATGTGTG TGAAATTAAA 
    CTTCCTGCCA AGGAGAGCCC AGAGGTCTGC AACAGTGTTC TTCAGCCTCA TATGCATGTT 
    AACAAAGATG TAGAAAACCT TGCACAAGTG CTGGACCAGC CCTTTATACA TCAGCCGGTG 
    TATTTGCCGA GTGAAGTTAG CGCCTTCCGT AACTGTGAAA AGAAAGTGCG AAATACTTCA 
    AAGATGATTG AAACCTTACA GGGGAAGCTT GCTTCTACGC CTCCTCGGAC TGCTGTGGAC 
    CGGCTGGCAC GGATGAAAGA AGTTGACTCT GTGTCTCGCA TGAGACGGCT GAGCATTAAG 
    AGTACCGATT CGGGAGATGA AGTAGAGGAC GACAAGCAAT CGCACAGAGG TCAGGATTTA 
    GGCTCACGCA AATTTTCTGC TGGTTCCATC TACAAAAGAG TCATATCCCT TGACGAAAGT 
    TTGCTTATTA CAACAAAAAG CAGAGAAAAG TTTGAACTTT CTTTTGCTGA CTCTTATGAC 
    CCAACCAGAG TGGAAAGAGT TTAA

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

    kiaa1462 ( XM_031904018.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031759878.1 Xenopus tropicalis junctional cadherin 5 associated (jcad), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OXa12060
    Clone ID Related Accession (Same CDS sequence) XM_002940334.5 , XM_031904018.1 , XM_002940334.4
    Accession Version XM_031904018.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3804bp)
    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 junctional protein associated with coronary artery disease
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGTTCAGTG TTGAGGATCT CCTTGTTTCT CATGGGTACA AAGTATCTAA GAACTCTTCA 
    TCCTCTTACC AGCCCAGGAG TGAAGGCTAC CAGCAGGACC CAACAGACAG CAGGACTGGC 
    AATGGAATGG TAAATGGTTA TCAGGCAGAC CCAGAGGTAT TTGCTGTGGA TCCCTATCCT 
    CTTGCTAAGG GCTTCTATGG TGACAGCGAT AAGAACAGCA GACGACAGTT AAGCTCCACT 
    GGGCACCCCA GGGGCCAGAG ATGTTTGGAA GCATGTCATA CTTCAGAAAC AGGGTTATCT 
    GACAGACCTC AAAATGAAAG AGCACACTGG GCAAAGGCTG ATAAGGATAT CCAGTACTGG 
    AGAAGGAGAG GCCAAGACTT CAGCTTATTA TTAGGACAAG GGACTAATGA AGACAAAGAA 
    AAATTAAGAT CCTCCACCGA TTCTGAAGGG AAACCGAGGT GCAATATTTT CGATAAAAAC 
    ACCAGGGAAG CGGCAAAGGA CGTGGTCGAA GCCATGGAAA CTGTGAGAGG CAACACTGTC 
    TATGACAACT GGAAACCATC ACTGGAAGAG CAGTGGGGGA AAATAAACAA ATTTGTGATG 
    AAGGCTACAA AAACCTCAGA AAGAACAATG TCAGAAAGCA GTGGTGAGAA GCTGCTCCAA 
    GACTTCATCT CATTTAACCA AGTAGACAAC ACTGTTGGCT GCCCCAATAA GCTGAAATCC 
    CTGTCATTGC CCAAAGGCCT TTCCCCCGAC AGTATAAATC ACATTAGTCT GCCAGCTGTT 
    AAAGGTGAAA ACTACGCACT GAAGGAGGAT AAAACCCAGG TGCAAAGTAA CTGTGGTACC 
    AATTCGGACT CAGACGGAAA TTCATCCTCA AAACAAAAGT ATAGCAGACC CTCCAAACCT 
    CCCTCATATG AAGTCCATCA GCAAACGTGG GGAGTAGTGG ATGCAAATGA AGGTTCAGAT 
    CATCAACAAA AAGATGAACT TCACTCCGTT GCCAGAGTAC AAGATCTCCC CCAAGAATCC 
    TGTTCTCAAG ACTCAGGCCT GGAACCTCCC AATTACATAC CTCCACCCTC ATACAAATCT 
    CCCCCTCTTC AGCATGCTAC CAATCAATCT TTTAACAAAG TGCCTAGCAT TCATCACTAC 
    AGGCCAAATA ATCCGGTGGC AAAAACCAGC ACAAAGGACA AATCTCCCAC CAATTCTCAT 
    GATAGTGACA TCCTATACAA TAAGCCAGCT GACCAGAGGC ACACTGATAA TTATATTCAT 
    TCTGTACAAT ACATTCCTTT TGATGACCCC CGTATCAAGC ATATACCATT AAGTCATGAA 
    GCGGAAAAAC AAAGACACCA CAATCACGCC ACTGATATGA AGGATACTTT CTGGGTTGCA 
    CACACAAGTC AGGAAGGTCA TCTTCAAGAC AGAGAAAGTG CCTTTATAGA TTTTAAAAGT 
    GCAAAACTTA ATTATGGGAA AAGAGAAGGA ATTAAACACA AGCAGTGGAT GCACATCTCT 
    ATCCCAGGTC AGATATGCTG CTCGTTGCCT GAAACCAGAG AGGGGTCCAC TGCGTGTAGC 
    TTACCAGAAA GCAGTGACCC CTCTGACAGG CTAACTTTAA AAAAGACACA TTCAGACAGC 
    GCTTGTGAAA TAGTCACAAA GGTGAAGAAG TTTGAACCTG AAGCGTGTCT TCACAACAGG 
    AAAAGTTCAA AGCGAAAGTT GAACGAAACA ATATTTTGCT TAGTGTCGAT TCCAATCAAA 
    TCTGATTCTG CCCCATCAGA TATGTGCAAG AACAACAAGA TTTTAGCAGA CAATGTGGAC 
    AGGATGAATA TGTTAAAACA CAGCAATGGG GGACTGTTTG AAGAGAGACT TTTAAGTGCG 
    TCTTCCAGTG ATTTGGAGCT ACAAACCCTT ACAGGAAACA TGAACAATAA AGTGGAGCTG 
    CGAAAACACG AGCAGTCCAA AACAGAGGAA AATAAACAAG CGAATGACCT CAGATGTGCA 
    GATCCAAGGA AGCATAGAGA TCTTGCCTAT TCTGGTTCTT GGCCAGGTGA CCAGTACAAA 
    GACCAGCAAA CTCAAACTGT GTTTAGCGAC ATACAAAATT CAAAATGTCA TAATGGAACA 
    AAAGCAAATG AGCCGCACAA TAAGTTTGCT CATAAGTCTC AGTGTAGCTC TGAAAGCGGA 
    CTAGAAAAGC CAAGTGCCAG GCAAAATATG TTCAGTATTA AAGGCCAGAT GAGTCTTAGC 
    CCCTCCAGCA ACAGTGCATT TTCAAGAACA TCCTTATTAA TTACTCACAT GCCTAAAACA 
    GAACAGTGCC AAAGGCCAGA ACATGGTAAC GAACGTGCAG AAGGAAAGGA AAAAATAGCA 
    ACTGGTAAAT ATGAAAAGAA AGAGAGCGAA TCGGAAAGTT TTTGCAATAA AAAAGAGGTG 
    TTCGGGCAGT TTCTTCTGAA ACCTGTTAAT CGGCGACCCT GGGATGCAAT AAGTGAGCTA 
    GAAAGTTTGA ACAAAGAGTT TCAAGACCAA GAGAACTGTT CTAATGATGG GGATAGAAGT 
    TCATTAAAGG AGCAAACAAA AGAATCGAAT ATAGACATGG CTGCAATCAG GAGTGAAATG 
    GTGGCTAACA AGCGGCATGT GATTGAGGTA GAAGAGGTTC CAGTGTTTGA ACCTTCGCAG 
    GTTAGATGTA TGTCAGAAAG TTGGTACCCT GAAAAGTTAA AATGTGACAA GGTGAGGAGT 
    GGTGCTGAGC TGCCAAAGTC TGCCCAAATG AAAGATGGCA AAAGTATACC TGAAAAGTTA 
    TCCGATGGAT GCGTGAAAAT AGAAAAACAA GTCCAGAACA AAAGAATAGG AACAACCATA 
    AATCTTCACA CTGTTCATAC CCCTAATGTG GACCAAAAAG ACATAGCTGT GCAAATAAAT 
    CCCAGCAACA TCCAGATAGA CAAAGCCCCC CATGCCCCTG AGTCAAGTTG CAGAGTTTTC 
    AGGCAAGTCA GATCTCAATT TGAGCATTCA GAGATCTCAG CCAAATGTAG TCAGGTTGAA 
    GATAAAGCAA TAAGAAAGCT CTCTCAGAAC AACGGGAGTC CAGGGCTCTC GCTACCTGAT 
    CTAAACCAAC ATTTCATCAC AGCAAACCAT AATGGAGAGT TCCATGAGCC ACAGAGCGAT 
    TCAGAAATTC CAGAAAATGA ATCTCTACAA GAGAGAGCCA CACGGATTTT GGGGATTGAT 
    GTAGCAGATG ATTCACTTGT ATCTACTGGG AGCTCTGAGG GACAAAGCCC CGAGAATCTT 
    GCCTTTAGTG CTGTTGCACA AAATGAAGCA AAGTTGAAAG GAAATGTGTG TGAAATTAAA 
    CTTCCTGCCA AGGAGAGCCC AGAGGTCTGC AACAGTGTTC TTCAGCCTCA TATGCATGTT 
    AACAAAGATG TAGAAAACCT TGCACAAGTG CTGGACCAGC CCTTTATACA TCAGCCGGTG 
    TATTTGCCGA GTGAAGTTAG CGCCTTCCGT AACTGTGAAA AGAAAGTGCG AAATACTTCA 
    AAGATGATTG AAACCTTACA GGGGAAGCTT GCTTCTACGC CTCCTCGGAC TGCTGTGGAC 
    CGGCTGGCAC GGATGAAAGA AGTTGACTCT GTGTCTCGCA TGAGACGGCT GAGCATTAAG 
    AGTACCGATT CGGGAGATGA AGTAGAGGAC GACAAGCAAT CGCACAGAGG TCAGGATTTA 
    GGCTCACGCA AATTTTCTGC TGGTTCCATC TACAAAAGAG TCATATCCCT TGACGAAAGT 
    TTGCTTATTA CAACAAAAAG CAGAGAAAAG TTTGAACTTT CTTTTGCTGA CTCTTATGAC 
    CCAACCAGAG TGGAAAGAGT TTAA

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

    RefSeq XP_031759878.1
    CDS199..4002
    Translation

    Target ORF information:

    RefSeq Version XM_031904018.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis junctional cadherin 5 associated (jcad), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031904018.1

    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
    ATGTTCAGTG TTGAGGATCT CCTTGTTTCT CATGGGTACA AAGTATCTAA GAACTCTTCA 
    TCCTCTTACC AGCCCAGGAG TGAAGGCTAC CAGCAGGACC CAACAGACAG CAGGACTGGC 
    AATGGAATGG TAAATGGTTA TCAGGCAGAC CCAGAGGTAT TTGCTGTGGA TCCCTATCCT 
    CTTGCTAAGG GCTTCTATGG TGACAGCGAT AAGAACAGCA GACGACAGTT AAGCTCCACT 
    GGGCACCCCA GGGGCCAGAG ATGTTTGGAA GCATGTCATA CTTCAGAAAC AGGGTTATCT 
    GACAGACCTC AAAATGAAAG AGCACACTGG GCAAAGGCTG ATAAGGATAT CCAGTACTGG 
    AGAAGGAGAG GCCAAGACTT CAGCTTATTA TTAGGACAAG GGACTAATGA AGACAAAGAA 
    AAATTAAGAT CCTCCACCGA TTCTGAAGGG AAACCGAGGT GCAATATTTT CGATAAAAAC 
    ACCAGGGAAG CGGCAAAGGA CGTGGTCGAA GCCATGGAAA CTGTGAGAGG CAACACTGTC 
    TATGACAACT GGAAACCATC ACTGGAAGAG CAGTGGGGGA AAATAAACAA ATTTGTGATG 
    AAGGCTACAA AAACCTCAGA AAGAACAATG TCAGAAAGCA GTGGTGAGAA GCTGCTCCAA 
    GACTTCATCT CATTTAACCA AGTAGACAAC ACTGTTGGCT GCCCCAATAA GCTGAAATCC 
    CTGTCATTGC CCAAAGGCCT TTCCCCCGAC AGTATAAATC ACATTAGTCT GCCAGCTGTT 
    AAAGGTGAAA ACTACGCACT GAAGGAGGAT AAAACCCAGG TGCAAAGTAA CTGTGGTACC 
    AATTCGGACT CAGACGGAAA TTCATCCTCA AAACAAAAGT ATAGCAGACC CTCCAAACCT 
    CCCTCATATG AAGTCCATCA GCAAACGTGG GGAGTAGTGG ATGCAAATGA AGGTTCAGAT 
    CATCAACAAA AAGATGAACT TCACTCCGTT GCCAGAGTAC AAGATCTCCC CCAAGAATCC 
    TGTTCTCAAG ACTCAGGCCT GGAACCTCCC AATTACATAC CTCCACCCTC ATACAAATCT 
    CCCCCTCTTC AGCATGCTAC CAATCAATCT TTTAACAAAG TGCCTAGCAT TCATCACTAC 
    AGGCCAAATA ATCCGGTGGC AAAAACCAGC ACAAAGGACA AATCTCCCAC CAATTCTCAT 
    GATAGTGACA TCCTATACAA TAAGCCAGCT GACCAGAGGC ACACTGATAA TTATATTCAT 
    TCTGTACAAT ACATTCCTTT TGATGACCCC CGTATCAAGC ATATACCATT AAGTCATGAA 
    GCGGAAAAAC AAAGACACCA CAATCACGCC ACTGATATGA AGGATACTTT CTGGGTTGCA 
    CACACAAGTC AGGAAGGTCA TCTTCAAGAC AGAGAAAGTG CCTTTATAGA TTTTAAAAGT 
    GCAAAACTTA ATTATGGGAA AAGAGAAGGA ATTAAACACA AGCAGTGGAT GCACATCTCT 
    ATCCCAGGTC AGATATGCTG CTCGTTGCCT GAAACCAGAG AGGGGTCCAC TGCGTGTAGC 
    TTACCAGAAA GCAGTGACCC CTCTGACAGG CTAACTTTAA AAAAGACACA TTCAGACAGC 
    GCTTGTGAAA TAGTCACAAA GGTGAAGAAG TTTGAACCTG AAGCGTGTCT TCACAACAGG 
    AAAAGTTCAA AGCGAAAGTT GAACGAAACA ATATTTTGCT TAGTGTCGAT TCCAATCAAA 
    TCTGATTCTG CCCCATCAGA TATGTGCAAG AACAACAAGA TTTTAGCAGA CAATGTGGAC 
    AGGATGAATA TGTTAAAACA CAGCAATGGG GGACTGTTTG AAGAGAGACT TTTAAGTGCG 
    TCTTCCAGTG ATTTGGAGCT ACAAACCCTT ACAGGAAACA TGAACAATAA AGTGGAGCTG 
    CGAAAACACG AGCAGTCCAA AACAGAGGAA AATAAACAAG CGAATGACCT CAGATGTGCA 
    GATCCAAGGA AGCATAGAGA TCTTGCCTAT TCTGGTTCTT GGCCAGGTGA CCAGTACAAA 
    GACCAGCAAA CTCAAACTGT GTTTAGCGAC ATACAAAATT CAAAATGTCA TAATGGAACA 
    AAAGCAAATG AGCCGCACAA TAAGTTTGCT CATAAGTCTC AGTGTAGCTC TGAAAGCGGA 
    CTAGAAAAGC CAAGTGCCAG GCAAAATATG TTCAGTATTA AAGGCCAGAT GAGTCTTAGC 
    CCCTCCAGCA ACAGTGCATT TTCAAGAACA TCCTTATTAA TTACTCACAT GCCTAAAACA 
    GAACAGTGCC AAAGGCCAGA ACATGGTAAC GAACGTGCAG AAGGAAAGGA AAAAATAGCA 
    ACTGGTAAAT ATGAAAAGAA AGAGAGCGAA TCGGAAAGTT TTTGCAATAA AAAAGAGGTG 
    TTCGGGCAGT TTCTTCTGAA ACCTGTTAAT CGGCGACCCT GGGATGCAAT AAGTGAGCTA 
    GAAAGTTTGA ACAAAGAGTT TCAAGACCAA GAGAACTGTT CTAATGATGG GGATAGAAGT 
    TCATTAAAGG AGCAAACAAA AGAATCGAAT ATAGACATGG CTGCAATCAG GAGTGAAATG 
    GTGGCTAACA AGCGGCATGT GATTGAGGTA GAAGAGGTTC CAGTGTTTGA ACCTTCGCAG 
    GTTAGATGTA TGTCAGAAAG TTGGTACCCT GAAAAGTTAA AATGTGACAA GGTGAGGAGT 
    GGTGCTGAGC TGCCAAAGTC TGCCCAAATG AAAGATGGCA AAAGTATACC TGAAAAGTTA 
    TCCGATGGAT GCGTGAAAAT AGAAAAACAA GTCCAGAACA AAAGAATAGG AACAACCATA 
    AATCTTCACA CTGTTCATAC CCCTAATGTG GACCAAAAAG ACATAGCTGT GCAAATAAAT 
    CCCAGCAACA TCCAGATAGA CAAAGCCCCC CATGCCCCTG AGTCAAGTTG CAGAGTTTTC 
    AGGCAAGTCA GATCTCAATT TGAGCATTCA GAGATCTCAG CCAAATGTAG TCAGGTTGAA 
    GATAAAGCAA TAAGAAAGCT CTCTCAGAAC AACGGGAGTC CAGGGCTCTC GCTACCTGAT 
    CTAAACCAAC ATTTCATCAC AGCAAACCAT AATGGAGAGT TCCATGAGCC ACAGAGCGAT 
    TCAGAAATTC CAGAAAATGA ATCTCTACAA GAGAGAGCCA CACGGATTTT GGGGATTGAT 
    GTAGCAGATG ATTCACTTGT ATCTACTGGG AGCTCTGAGG GACAAAGCCC CGAGAATCTT 
    GCCTTTAGTG CTGTTGCACA AAATGAAGCA AAGTTGAAAG GAAATGTGTG TGAAATTAAA 
    CTTCCTGCCA AGGAGAGCCC AGAGGTCTGC AACAGTGTTC TTCAGCCTCA TATGCATGTT 
    AACAAAGATG TAGAAAACCT TGCACAAGTG CTGGACCAGC CCTTTATACA TCAGCCGGTG 
    TATTTGCCGA GTGAAGTTAG CGCCTTCCGT AACTGTGAAA AGAAAGTGCG AAATACTTCA 
    AAGATGATTG AAACCTTACA GGGGAAGCTT GCTTCTACGC CTCCTCGGAC TGCTGTGGAC 
    CGGCTGGCAC GGATGAAAGA AGTTGACTCT GTGTCTCGCA TGAGACGGCT GAGCATTAAG 
    AGTACCGATT CGGGAGATGA AGTAGAGGAC GACAAGCAAT CGCACAGAGG TCAGGATTTA 
    GGCTCACGCA AATTTTCTGC TGGTTCCATC TACAAAAGAG TCATATCCCT TGACGAAAGT 
    TTGCTTATTA CAACAAAAAG CAGAGAAAAG TTTGAACTTT CTTTTGCTGA CTCTTATGAC 
    CCAACCAGAG TGGAAAGAGT TTAA

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

    kiaa1462 ( XM_002940334.4 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_002940380.2 Xenopus tropicalis KIAA1462 ortholog (kiaa1462), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OXa12060
    Clone ID Related Accession (Same CDS sequence) XM_002940334.5 , XM_031904018.1 , XM_002940334.4
    Accession Version XM_002940334.4 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3804bp)
    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 junctional protein associated with coronary artery disease isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.1) 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_002940334.3. ##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
    ATGTTCAGTG TTGAGGATCT CCTTGTTTCT CATGGGTACA AAGTATCTAA GAACTCTTCA 
    TCCTCTTACC AGCCCAGGAG TGAAGGCTAC CAGCAGGACC CAACAGACAG CAGGACTGGC 
    AATGGAATGG TAAATGGTTA TCAGGCAGAC CCAGAGGTAT TTGCTGTGGA TCCCTATCCT 
    CTTGCTAAGG GCTTCTATGG TGACAGCGAT AAGAACAGCA GACGACAGTT AAGCTCCACT 
    GGGCACCCCA GGGGCCAGAG ATGTTTGGAA GCATGTCATA CTTCAGAAAC AGGGTTATCT 
    GACAGACCTC AAAATGAAAG AGCACACTGG GCAAAGGCTG ATAAGGATAT CCAGTACTGG 
    AGAAGGAGAG GCCAAGACTT CAGCTTATTA TTAGGACAAG GGACTAATGA AGACAAAGAA 
    AAATTAAGAT CCTCCACCGA TTCTGAAGGG AAACCGAGGT GCAATATTTT CGATAAAAAC 
    ACCAGGGAAG CGGCAAAGGA CGTGGTCGAA GCCATGGAAA CTGTGAGAGG CAACACTGTC 
    TATGACAACT GGAAACCATC ACTGGAAGAG CAGTGGGGGA AAATAAACAA ATTTGTGATG 
    AAGGCTACAA AAACCTCAGA AAGAACAATG TCAGAAAGCA GTGGTGAGAA GCTGCTCCAA 
    GACTTCATCT CATTTAACCA AGTAGACAAC ACTGTTGGCT GCCCCAATAA GCTGAAATCC 
    CTGTCATTGC CCAAAGGCCT TTCCCCCGAC AGTATAAATC ACATTAGTCT GCCAGCTGTT 
    AAAGGTGAAA ACTACGCACT GAAGGAGGAT AAAACCCAGG TGCAAAGTAA CTGTGGTACC 
    AATTCGGACT CAGACGGAAA TTCATCCTCA AAACAAAAGT ATAGCAGACC CTCCAAACCT 
    CCCTCATATG AAGTCCATCA GCAAACGTGG GGAGTAGTGG ATGCAAATGA AGGTTCAGAT 
    CATCAACAAA AAGATGAACT TCACTCCGTT GCCAGAGTAC AAGATCTCCC CCAAGAATCC 
    TGTTCTCAAG ACTCAGGCCT GGAACCTCCC AATTACATAC CTCCACCCTC ATACAAATCT 
    CCCCCTCTTC AGCATGCTAC CAATCAATCT TTTAACAAAG TGCCTAGCAT TCATCACTAC 
    AGGCCAAATA ATCCGGTGGC AAAAACCAGC ACAAAGGACA AATCTCCCAC CAATTCTCAT 
    GATAGTGACA TCCTATACAA TAAGCCAGCT GACCAGAGGC ACACTGATAA TTATATTCAT 
    TCTGTACAAT ACATTCCTTT TGATGACCCC CGTATCAAGC ATATACCATT AAGTCATGAA 
    GCGGAAAAAC AAAGACACCA CAATCACGCC ACTGATATGA AGGATACTTT CTGGGTTGCA 
    CACACAAGTC AGGAAGGTCA TCTTCAAGAC AGAGAAAGTG CCTTTATAGA TTTTAAAAGT 
    GCAAAACTTA ATTATGGGAA AAGAGAAGGA ATTAAACACA AGCAGTGGAT GCACATCTCT 
    ATCCCAGGTC AGATATGCTG CTCGTTGCCT GAAACCAGAG AGGGGTCCAC TGCGTGTAGC 
    TTACCAGAAA GCAGTGACCC CTCTGACAGG CTAACTTTAA AAAAGACACA TTCAGACAGC 
    GCTTGTGAAA TAGTCACAAA GGTGAAGAAG TTTGAACCTG AAGCGTGTCT TCACAACAGG 
    AAAAGTTCAA AGCGAAAGTT GAACGAAACA ATATTTTGCT TAGTGTCGAT TCCAATCAAA 
    TCTGATTCTG CCCCATCAGA TATGTGCAAG AACAACAAGA TTTTAGCAGA CAATGTGGAC 
    AGGATGAATA TGTTAAAACA CAGCAATGGG GGACTGTTTG AAGAGAGACT TTTAAGTGCG 
    TCTTCCAGTG ATTTGGAGCT ACAAACCCTT ACAGGAAACA TGAACAATAA AGTGGAGCTG 
    CGAAAACACG AGCAGTCCAA AACAGAGGAA AATAAACAAG CGAATGACCT CAGATGTGCA 
    GATCCAAGGA AGCATAGAGA TCTTGCCTAT TCTGGTTCTT GGCCAGGTGA CCAGTACAAA 
    GACCAGCAAA CTCAAACTGT GTTTAGCGAC ATACAAAATT CAAAATGTCA TAATGGAACA 
    AAAGCAAATG AGCCGCACAA TAAGTTTGCT CATAAGTCTC AGTGTAGCTC TGAAAGCGGA 
    CTAGAAAAGC CAAGTGCCAG GCAAAATATG TTCAGTATTA AAGGCCAGAT GAGTCTTAGC 
    CCCTCCAGCA ACAGTGCATT TTCAAGAACA TCCTTATTAA TTACTCACAT GCCTAAAACA 
    GAACAGTGCC AAAGGCCAGA ACATGGTAAC GAACGTGCAG AAGGAAAGGA AAAAATAGCA 
    ACTGGTAAAT ATGAAAAGAA AGAGAGCGAA TCGGAAAGTT TTTGCAATAA AAAAGAGGTG 
    TTCGGGCAGT TTCTTCTGAA ACCTGTTAAT CGGCGACCCT GGGATGCAAT AAGTGAGCTA 
    GAAAGTTTGA ACAAAGAGTT TCAAGACCAA GAGAACTGTT CTAATGATGG GGATAGAAGT 
    TCATTAAAGG AGCAAACAAA AGAATCGAAT ATAGACATGG CTGCAATCAG GAGTGAAATG 
    GTGGCTAACA AGCGGCATGT GATTGAGGTA GAAGAGGTTC CAGTGTTTGA ACCTTCGCAG 
    GTTAGATGTA TGTCAGAAAG TTGGTACCCT GAAAAGTTAA AATGTGACAA GGTGAGGAGT 
    GGTGCTGAGC TGCCAAAGTC TGCCCAAATG AAAGATGGCA AAAGTATACC TGAAAAGTTA 
    TCCGATGGAT GCGTGAAAAT AGAAAAACAA GTCCAGAACA AAAGAATAGG AACAACCATA 
    AATCTTCACA CTGTTCATAC CCCTAATGTG GACCAAAAAG ACATAGCTGT GCAAATAAAT 
    CCCAGCAACA TCCAGATAGA CAAAGCCCCC CATGCCCCTG AGTCAAGTTG CAGAGTTTTC 
    AGGCAAGTCA GATCTCAATT TGAGCATTCA GAGATCTCAG CCAAATGTAG TCAGGTTGAA 
    GATAAAGCAA TAAGAAAGCT CTCTCAGAAC AACGGGAGTC CAGGGCTCTC GCTACCTGAT 
    CTAAACCAAC ATTTCATCAC AGCAAACCAT AATGGAGAGT TCCATGAGCC ACAGAGCGAT 
    TCAGAAATTC CAGAAAATGA ATCTCTACAA GAGAGAGCCA CACGGATTTT GGGGATTGAT 
    GTAGCAGATG ATTCACTTGT ATCTACTGGG AGCTCTGAGG GACAAAGCCC CGAGAATCTT 
    GCCTTTAGTG CTGTTGCACA AAATGAAGCA AAGTTGAAAG GAAATGTGTG TGAAATTAAA 
    CTTCCTGCCA AGGAGAGCCC AGAGGTCTGC AACAGTGTTC TTCAGCCTCA TATGCATGTT 
    AACAAAGATG TAGAAAACCT TGCACAAGTG CTGGACCAGC CCTTTATACA TCAGCCGGTG 
    TATTTGCCGA GTGAAGTTAG CGCCTTCCGT AACTGTGAAA AGAAAGTGCG AAATACTTCA 
    AAGATGATTG AAACCTTACA GGGGAAGCTT GCTTCTACGC CTCCTCGGAC TGCTGTGGAC 
    CGGCTGGCAC GGATGAAAGA AGTTGACTCT GTGTCTCGCA TGAGACGGCT GAGCATTAAG 
    AGTACCGATT CGGGAGATGA AGTAGAGGAC GACAAGCAAT CGCACAGAGG TCAGGATTTA 
    GGCTCACGCA AATTTTCTGC TGGTTCCATC TACAAAAGAG TCATATCCCT TGACGAAAGT 
    TTGCTTATTA CAACAAAAAG CAGAGAAAAG TTTGAACTTT CTTTTGCTGA CTCTTATGAC 
    CCAACCAGAG TGGAAAGAGT TTAA

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

    RefSeq XP_002940380.2
    CDS372..4175
    Translation

    Target ORF information:

    RefSeq Version XM_002940334.4
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis KIAA1462 ortholog (kiaa1462), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_002940334.4

    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
    ATGTTCAGTG TTGAGGATCT CCTTGTTTCT CATGGGTACA AAGTATCTAA GAACTCTTCA 
    TCCTCTTACC AGCCCAGGAG TGAAGGCTAC CAGCAGGACC CAACAGACAG CAGGACTGGC 
    AATGGAATGG TAAATGGTTA TCAGGCAGAC CCAGAGGTAT TTGCTGTGGA TCCCTATCCT 
    CTTGCTAAGG GCTTCTATGG TGACAGCGAT AAGAACAGCA GACGACAGTT AAGCTCCACT 
    GGGCACCCCA GGGGCCAGAG ATGTTTGGAA GCATGTCATA CTTCAGAAAC AGGGTTATCT 
    GACAGACCTC AAAATGAAAG AGCACACTGG GCAAAGGCTG ATAAGGATAT CCAGTACTGG 
    AGAAGGAGAG GCCAAGACTT CAGCTTATTA TTAGGACAAG GGACTAATGA AGACAAAGAA 
    AAATTAAGAT CCTCCACCGA TTCTGAAGGG AAACCGAGGT GCAATATTTT CGATAAAAAC 
    ACCAGGGAAG CGGCAAAGGA CGTGGTCGAA GCCATGGAAA CTGTGAGAGG CAACACTGTC 
    TATGACAACT GGAAACCATC ACTGGAAGAG CAGTGGGGGA AAATAAACAA ATTTGTGATG 
    AAGGCTACAA AAACCTCAGA AAGAACAATG TCAGAAAGCA GTGGTGAGAA GCTGCTCCAA 
    GACTTCATCT CATTTAACCA AGTAGACAAC ACTGTTGGCT GCCCCAATAA GCTGAAATCC 
    CTGTCATTGC CCAAAGGCCT TTCCCCCGAC AGTATAAATC ACATTAGTCT GCCAGCTGTT 
    AAAGGTGAAA ACTACGCACT GAAGGAGGAT AAAACCCAGG TGCAAAGTAA CTGTGGTACC 
    AATTCGGACT CAGACGGAAA TTCATCCTCA AAACAAAAGT ATAGCAGACC CTCCAAACCT 
    CCCTCATATG AAGTCCATCA GCAAACGTGG GGAGTAGTGG ATGCAAATGA AGGTTCAGAT 
    CATCAACAAA AAGATGAACT TCACTCCGTT GCCAGAGTAC AAGATCTCCC CCAAGAATCC 
    TGTTCTCAAG ACTCAGGCCT GGAACCTCCC AATTACATAC CTCCACCCTC ATACAAATCT 
    CCCCCTCTTC AGCATGCTAC CAATCAATCT TTTAACAAAG TGCCTAGCAT TCATCACTAC 
    AGGCCAAATA ATCCGGTGGC AAAAACCAGC ACAAAGGACA AATCTCCCAC CAATTCTCAT 
    GATAGTGACA TCCTATACAA TAAGCCAGCT GACCAGAGGC ACACTGATAA TTATATTCAT 
    TCTGTACAAT ACATTCCTTT TGATGACCCC CGTATCAAGC ATATACCATT AAGTCATGAA 
    GCGGAAAAAC AAAGACACCA CAATCACGCC ACTGATATGA AGGATACTTT CTGGGTTGCA 
    CACACAAGTC AGGAAGGTCA TCTTCAAGAC AGAGAAAGTG CCTTTATAGA TTTTAAAAGT 
    GCAAAACTTA ATTATGGGAA AAGAGAAGGA ATTAAACACA AGCAGTGGAT GCACATCTCT 
    ATCCCAGGTC AGATATGCTG CTCGTTGCCT GAAACCAGAG AGGGGTCCAC TGCGTGTAGC 
    TTACCAGAAA GCAGTGACCC CTCTGACAGG CTAACTTTAA AAAAGACACA TTCAGACAGC 
    GCTTGTGAAA TAGTCACAAA GGTGAAGAAG TTTGAACCTG AAGCGTGTCT TCACAACAGG 
    AAAAGTTCAA AGCGAAAGTT GAACGAAACA ATATTTTGCT TAGTGTCGAT TCCAATCAAA 
    TCTGATTCTG CCCCATCAGA TATGTGCAAG AACAACAAGA TTTTAGCAGA CAATGTGGAC 
    AGGATGAATA TGTTAAAACA CAGCAATGGG GGACTGTTTG AAGAGAGACT TTTAAGTGCG 
    TCTTCCAGTG ATTTGGAGCT ACAAACCCTT ACAGGAAACA TGAACAATAA AGTGGAGCTG 
    CGAAAACACG AGCAGTCCAA AACAGAGGAA AATAAACAAG CGAATGACCT CAGATGTGCA 
    GATCCAAGGA AGCATAGAGA TCTTGCCTAT TCTGGTTCTT GGCCAGGTGA CCAGTACAAA 
    GACCAGCAAA CTCAAACTGT GTTTAGCGAC ATACAAAATT CAAAATGTCA TAATGGAACA 
    AAAGCAAATG AGCCGCACAA TAAGTTTGCT CATAAGTCTC AGTGTAGCTC TGAAAGCGGA 
    CTAGAAAAGC CAAGTGCCAG GCAAAATATG TTCAGTATTA AAGGCCAGAT GAGTCTTAGC 
    CCCTCCAGCA ACAGTGCATT TTCAAGAACA TCCTTATTAA TTACTCACAT GCCTAAAACA 
    GAACAGTGCC AAAGGCCAGA ACATGGTAAC GAACGTGCAG AAGGAAAGGA AAAAATAGCA 
    ACTGGTAAAT ATGAAAAGAA AGAGAGCGAA TCGGAAAGTT TTTGCAATAA AAAAGAGGTG 
    TTCGGGCAGT TTCTTCTGAA ACCTGTTAAT CGGCGACCCT GGGATGCAAT AAGTGAGCTA 
    GAAAGTTTGA ACAAAGAGTT TCAAGACCAA GAGAACTGTT CTAATGATGG GGATAGAAGT 
    TCATTAAAGG AGCAAACAAA AGAATCGAAT ATAGACATGG CTGCAATCAG GAGTGAAATG 
    GTGGCTAACA AGCGGCATGT GATTGAGGTA GAAGAGGTTC CAGTGTTTGA ACCTTCGCAG 
    GTTAGATGTA TGTCAGAAAG TTGGTACCCT GAAAAGTTAA AATGTGACAA GGTGAGGAGT 
    GGTGCTGAGC TGCCAAAGTC TGCCCAAATG AAAGATGGCA AAAGTATACC TGAAAAGTTA 
    TCCGATGGAT GCGTGAAAAT AGAAAAACAA GTCCAGAACA AAAGAATAGG AACAACCATA 
    AATCTTCACA CTGTTCATAC CCCTAATGTG GACCAAAAAG ACATAGCTGT GCAAATAAAT 
    CCCAGCAACA TCCAGATAGA CAAAGCCCCC CATGCCCCTG AGTCAAGTTG CAGAGTTTTC 
    AGGCAAGTCA GATCTCAATT TGAGCATTCA GAGATCTCAG CCAAATGTAG TCAGGTTGAA 
    GATAAAGCAA TAAGAAAGCT CTCTCAGAAC AACGGGAGTC CAGGGCTCTC GCTACCTGAT 
    CTAAACCAAC ATTTCATCAC AGCAAACCAT AATGGAGAGT TCCATGAGCC ACAGAGCGAT 
    TCAGAAATTC CAGAAAATGA ATCTCTACAA GAGAGAGCCA CACGGATTTT GGGGATTGAT 
    GTAGCAGATG ATTCACTTGT ATCTACTGGG AGCTCTGAGG GACAAAGCCC CGAGAATCTT 
    GCCTTTAGTG CTGTTGCACA AAATGAAGCA AAGTTGAAAG GAAATGTGTG TGAAATTAAA 
    CTTCCTGCCA AGGAGAGCCC AGAGGTCTGC AACAGTGTTC TTCAGCCTCA TATGCATGTT 
    AACAAAGATG TAGAAAACCT TGCACAAGTG CTGGACCAGC CCTTTATACA TCAGCCGGTG 
    TATTTGCCGA GTGAAGTTAG CGCCTTCCGT AACTGTGAAA AGAAAGTGCG AAATACTTCA 
    AAGATGATTG AAACCTTACA GGGGAAGCTT GCTTCTACGC CTCCTCGGAC TGCTGTGGAC 
    CGGCTGGCAC GGATGAAAGA AGTTGACTCT GTGTCTCGCA TGAGACGGCT GAGCATTAAG 
    AGTACCGATT CGGGAGATGA AGTAGAGGAC GACAAGCAAT CGCACAGAGG TCAGGATTTA 
    GGCTCACGCA AATTTTCTGC TGGTTCCATC TACAAAAGAG TCATATCCCT TGACGAAAGT 
    TTGCTTATTA CAACAAAAAG CAGAGAAAAG TTTGAACTTT CTTTTGCTGA CTCTTATGAC 
    CCAACCAGAG TGGAAAGAGT TTAA

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

    kiaa1462 ( XM_004915451.3 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_004915508.1 Xenopus tropicalis KIAA1462 ortholog (kiaa1462), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OXa12061
    Clone ID Related Accession (Same CDS sequence) XM_004915451.3
    Accession Version XM_004915451.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3291bp)
    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 junctional protein associated with coronary artery disease isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.1) 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_004915451.2. ##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
    ATGGAAACTG TGAGAGGCAA CACTGTCTAT GACAACTGGA AACCATCACT GGAAGAGCAG 
    TGGGGGAAAA TAAACAAATT TGTGATGAAG GCTACAAAAA CCTCAGAAAG AACAATGTCA 
    GAAAGCAGTG GTGAGAAGCT GCTCCAAGAC TTCATCTCAT TTAACCAAGT AGACAACACT 
    GTTGGCTGCC CCAATAAGCT GAAATCCCTG TCATTGCCCA AAGGCCTTTC CCCCGACAGT 
    ATAAATCACA TTAGTCTGCC AGCTGTTAAA GGTGAAAACT ACGCACTGAA GGAGGATAAA 
    ACCCAGGTGC AAAGTAACTG TGGTACCAAT TCGGACTCAG ACGGAAATTC ATCCTCAAAA 
    CAAAAGTATA GCAGACCCTC CAAACCTCCC TCATATGAAG TCCATCAGCA AACGTGGGGA 
    GTAGTGGATG CAAATGAAGG TTCAGATCAT CAACAAAAAG ATGAACTTCA CTCCGTTGCC 
    AGAGTACAAG ATCTCCCCCA AGAATCCTGT TCTCAAGACT CAGGCCTGGA ACCTCCCAAT 
    TACATACCTC CACCCTCATA CAAATCTCCC CCTCTTCAGC ATGCTACCAA TCAATCTTTT 
    AACAAAGTGC CTAGCATTCA TCACTACAGG CCAAATAATC CGGTGGCAAA AACCAGCACA 
    AAGGACAAAT CTCCCACCAA TTCTCATGAT AGTGACATCC TATACAATAA GCCAGCTGAC 
    CAGAGGCACA CTGATAATTA TATTCATTCT GTACAATACA TTCCTTTTGA TGACCCCCGT 
    ATCAAGCATA TACCATTAAG TCATGAAGCG GAAAAACAAA GACACCACAA TCACGCCACT 
    GATATGAAGG ATACTTTCTG GGTTGCACAC ACAAGTCAGG AAGGTCATCT TCAAGACAGA 
    GAAAGTGCCT TTATAGATTT TAAAAGTGCA AAACTTAATT ATGGGAAAAG AGAAGGAATT 
    AAACACAAGC AGTGGATGCA CATCTCTATC CCAGGTCAGA TATGCTGCTC GTTGCCTGAA 
    ACCAGAGAGG GGTCCACTGC GTGTAGCTTA CCAGAAAGCA GTGACCCCTC TGACAGGCTA 
    ACTTTAAAAA AGACACATTC AGACAGCGCT TGTGAAATAG TCACAAAGGT GAAGAAGTTT 
    GAACCTGAAG CGTGTCTTCA CAACAGGAAA AGTTCAAAGC GAAAGTTGAA CGAAACAATA 
    TTTTGCTTAG TGTCGATTCC AATCAAATCT GATTCTGCCC CATCAGATAT GTGCAAGAAC 
    AACAAGATTT TAGCAGACAA TGTGGACAGG ATGAATATGT TAAAACACAG CAATGGGGGA 
    CTGTTTGAAG AGAGACTTTT AAGTGCGTCT TCCAGTGATT TGGAGCTACA AACCCTTACA 
    GGAAACATGA ACAATAAAGT GGAGCTGCGA AAACACGAGC AGTCCAAAAC AGAGGAAAAT 
    AAACAAGCGA ATGACCTCAG ATGTGCAGAT CCAAGGAAGC ATAGAGATCT TGCCTATTCT 
    GGTTCTTGGC CAGGTGACCA GTACAAAGAC CAGCAAACTC AAACTGTGTT TAGCGACATA 
    CAAAATTCAA AATGTCATAA TGGAACAAAA GCAAATGAGC CGCACAATAA GTTTGCTCAT 
    AAGTCTCAGT GTAGCTCTGA AAGCGGACTA GAAAAGCCAA GTGCCAGGCA AAATATGTTC 
    AGTATTAAAG GCCAGATGAG TCTTAGCCCC TCCAGCAACA GTGCATTTTC AAGAACATCC 
    TTATTAATTA CTCACATGCC TAAAACAGAA CAGTGCCAAA GGCCAGAACA TGGTAACGAA 
    CGTGCAGAAG GAAAGGAAAA AATAGCAACT GGTAAATATG AAAAGAAAGA GAGCGAATCG 
    GAAAGTTTTT GCAATAAAAA AGAGGTGTTC GGGCAGTTTC TTCTGAAACC TGTTAATCGG 
    CGACCCTGGG ATGCAATAAG TGAGCTAGAA AGTTTGAACA AAGAGTTTCA AGACCAAGAG 
    AACTGTTCTA ATGATGGGGA TAGAAGTTCA TTAAAGGAGC AAACAAAAGA ATCGAATATA 
    GACATGGCTG CAATCAGGAG TGAAATGGTG GCTAACAAGC GGCATGTGAT TGAGGTAGAA 
    GAGGTTCCAG TGTTTGAACC TTCGCAGGTT AGATGTATGT CAGAAAGTTG GTACCCTGAA 
    AAGTTAAAAT GTGACAAGGT GAGGAGTGGT GCTGAGCTGC CAAAGTCTGC CCAAATGAAA 
    GATGGCAAAA GTATACCTGA AAAGTTATCC GATGGATGCG TGAAAATAGA AAAACAAGTC 
    CAGAACAAAA GAATAGGAAC AACCATAAAT CTTCACACTG TTCATACCCC TAATGTGGAC 
    CAAAAAGACA TAGCTGTGCA AATAAATCCC AGCAACATCC AGATAGACAA AGCCCCCCAT 
    GCCCCTGAGT CAAGTTGCAG AGTTTTCAGG CAAGTCAGAT CTCAATTTGA GCATTCAGAG 
    ATCTCAGCCA AATGTAGTCA GGTTGAAGAT AAAGCAATAA GAAAGCTCTC TCAGAACAAC 
    GGGAGTCCAG GGCTCTCGCT ACCTGATCTA AACCAACATT TCATCACAGC AAACCATAAT 
    GGAGAGTTCC ATGAGCCACA GAGCGATTCA GAAATTCCAG AAAATGAATC TCTACAAGAG 
    AGAGCCACAC GGATTTTGGG GATTGATGTA GCAGATGATT CACTTGTATC TACTGGGAGC 
    TCTGAGGGAC AAAGCCCCGA GAATCTTGCC TTTAGTGCTG TTGCACAAAA TGAAGCAAAG 
    TTGAAAGGAA ATGTGTGTGA AATTAAACTT CCTGCCAAGG AGAGCCCAGA GGTCTGCAAC 
    AGTGTTCTTC AGCCTCATAT GCATGTTAAC AAAGATGTAG AAAACCTTGC ACAAGTGCTG 
    GACCAGCCCT TTATACATCA GCCGGTGTAT TTGCCGAGTG AAGTTAGCGC CTTCCGTAAC 
    TGTGAAAAGA AAGTGCGAAA TACTTCAAAG ATGATTGAAA CCTTACAGGG GAAGCTTGCT 
    TCTACGCCTC CTCGGACTGC TGTGGACCGG CTGGCACGGA TGAAAGAAGT TGACTCTGTG 
    TCTCGCATGA GACGGCTGAG CATTAAGAGT ACCGATTCGG GAGATGAAGT AGAGGACGAC 
    AAGCAATCGC ACAGAGGTCA GGATTTAGGC TCACGCAAAT TTTCTGCTGG TTCCATCTAC 
    AAAAGAGTCA TATCCCTTGA CGAAAGTTTG CTTATTACAA CAAAAAGCAG AGAAAAGTTT 
    GAACTTTCTT TTGCTGACTC TTATGACCCA ACCAGAGTGG AAAGAGTTTA A

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

    RefSeq XP_004915508.1
    CDS511..3801
    Translation

    Target ORF information:

    RefSeq Version XM_004915451.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis KIAA1462 ortholog (kiaa1462), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_004915451.3

    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
    ATGGAAACTG TGAGAGGCAA CACTGTCTAT GACAACTGGA AACCATCACT GGAAGAGCAG 
    TGGGGGAAAA TAAACAAATT TGTGATGAAG GCTACAAAAA CCTCAGAAAG AACAATGTCA 
    GAAAGCAGTG GTGAGAAGCT GCTCCAAGAC TTCATCTCAT TTAACCAAGT AGACAACACT 
    GTTGGCTGCC CCAATAAGCT GAAATCCCTG TCATTGCCCA AAGGCCTTTC CCCCGACAGT 
    ATAAATCACA TTAGTCTGCC AGCTGTTAAA GGTGAAAACT ACGCACTGAA GGAGGATAAA 
    ACCCAGGTGC AAAGTAACTG TGGTACCAAT TCGGACTCAG ACGGAAATTC ATCCTCAAAA 
    CAAAAGTATA GCAGACCCTC CAAACCTCCC TCATATGAAG TCCATCAGCA AACGTGGGGA 
    GTAGTGGATG CAAATGAAGG TTCAGATCAT CAACAAAAAG ATGAACTTCA CTCCGTTGCC 
    AGAGTACAAG ATCTCCCCCA AGAATCCTGT TCTCAAGACT CAGGCCTGGA ACCTCCCAAT 
    TACATACCTC CACCCTCATA CAAATCTCCC CCTCTTCAGC ATGCTACCAA TCAATCTTTT 
    AACAAAGTGC CTAGCATTCA TCACTACAGG CCAAATAATC CGGTGGCAAA AACCAGCACA 
    AAGGACAAAT CTCCCACCAA TTCTCATGAT AGTGACATCC TATACAATAA GCCAGCTGAC 
    CAGAGGCACA CTGATAATTA TATTCATTCT GTACAATACA TTCCTTTTGA TGACCCCCGT 
    ATCAAGCATA TACCATTAAG TCATGAAGCG GAAAAACAAA GACACCACAA TCACGCCACT 
    GATATGAAGG ATACTTTCTG GGTTGCACAC ACAAGTCAGG AAGGTCATCT TCAAGACAGA 
    GAAAGTGCCT TTATAGATTT TAAAAGTGCA AAACTTAATT ATGGGAAAAG AGAAGGAATT 
    AAACACAAGC AGTGGATGCA CATCTCTATC CCAGGTCAGA TATGCTGCTC GTTGCCTGAA 
    ACCAGAGAGG GGTCCACTGC GTGTAGCTTA CCAGAAAGCA GTGACCCCTC TGACAGGCTA 
    ACTTTAAAAA AGACACATTC AGACAGCGCT TGTGAAATAG TCACAAAGGT GAAGAAGTTT 
    GAACCTGAAG CGTGTCTTCA CAACAGGAAA AGTTCAAAGC GAAAGTTGAA CGAAACAATA 
    TTTTGCTTAG TGTCGATTCC AATCAAATCT GATTCTGCCC CATCAGATAT GTGCAAGAAC 
    AACAAGATTT TAGCAGACAA TGTGGACAGG ATGAATATGT TAAAACACAG CAATGGGGGA 
    CTGTTTGAAG AGAGACTTTT AAGTGCGTCT TCCAGTGATT TGGAGCTACA AACCCTTACA 
    GGAAACATGA ACAATAAAGT GGAGCTGCGA AAACACGAGC AGTCCAAAAC AGAGGAAAAT 
    AAACAAGCGA ATGACCTCAG ATGTGCAGAT CCAAGGAAGC ATAGAGATCT TGCCTATTCT 
    GGTTCTTGGC CAGGTGACCA GTACAAAGAC CAGCAAACTC AAACTGTGTT TAGCGACATA 
    CAAAATTCAA AATGTCATAA TGGAACAAAA GCAAATGAGC CGCACAATAA GTTTGCTCAT 
    AAGTCTCAGT GTAGCTCTGA AAGCGGACTA GAAAAGCCAA GTGCCAGGCA AAATATGTTC 
    AGTATTAAAG GCCAGATGAG TCTTAGCCCC TCCAGCAACA GTGCATTTTC AAGAACATCC 
    TTATTAATTA CTCACATGCC TAAAACAGAA CAGTGCCAAA GGCCAGAACA TGGTAACGAA 
    CGTGCAGAAG GAAAGGAAAA AATAGCAACT GGTAAATATG AAAAGAAAGA GAGCGAATCG 
    GAAAGTTTTT GCAATAAAAA AGAGGTGTTC GGGCAGTTTC TTCTGAAACC TGTTAATCGG 
    CGACCCTGGG ATGCAATAAG TGAGCTAGAA AGTTTGAACA AAGAGTTTCA AGACCAAGAG 
    AACTGTTCTA ATGATGGGGA TAGAAGTTCA TTAAAGGAGC AAACAAAAGA ATCGAATATA 
    GACATGGCTG CAATCAGGAG TGAAATGGTG GCTAACAAGC GGCATGTGAT TGAGGTAGAA 
    GAGGTTCCAG TGTTTGAACC TTCGCAGGTT AGATGTATGT CAGAAAGTTG GTACCCTGAA 
    AAGTTAAAAT GTGACAAGGT GAGGAGTGGT GCTGAGCTGC CAAAGTCTGC CCAAATGAAA 
    GATGGCAAAA GTATACCTGA AAAGTTATCC GATGGATGCG TGAAAATAGA AAAACAAGTC 
    CAGAACAAAA GAATAGGAAC AACCATAAAT CTTCACACTG TTCATACCCC TAATGTGGAC 
    CAAAAAGACA TAGCTGTGCA AATAAATCCC AGCAACATCC AGATAGACAA AGCCCCCCAT 
    GCCCCTGAGT CAAGTTGCAG AGTTTTCAGG CAAGTCAGAT CTCAATTTGA GCATTCAGAG 
    ATCTCAGCCA AATGTAGTCA GGTTGAAGAT AAAGCAATAA GAAAGCTCTC TCAGAACAAC 
    GGGAGTCCAG GGCTCTCGCT ACCTGATCTA AACCAACATT TCATCACAGC AAACCATAAT 
    GGAGAGTTCC ATGAGCCACA GAGCGATTCA GAAATTCCAG AAAATGAATC TCTACAAGAG 
    AGAGCCACAC GGATTTTGGG GATTGATGTA GCAGATGATT CACTTGTATC TACTGGGAGC 
    TCTGAGGGAC AAAGCCCCGA GAATCTTGCC TTTAGTGCTG TTGCACAAAA TGAAGCAAAG 
    TTGAAAGGAA ATGTGTGTGA AATTAAACTT CCTGCCAAGG AGAGCCCAGA GGTCTGCAAC 
    AGTGTTCTTC AGCCTCATAT GCATGTTAAC AAAGATGTAG AAAACCTTGC ACAAGTGCTG 
    GACCAGCCCT TTATACATCA GCCGGTGTAT TTGCCGAGTG AAGTTAGCGC CTTCCGTAAC 
    TGTGAAAAGA AAGTGCGAAA TACTTCAAAG ATGATTGAAA CCTTACAGGG GAAGCTTGCT 
    TCTACGCCTC CTCGGACTGC TGTGGACCGG CTGGCACGGA TGAAAGAAGT TGACTCTGTG 
    TCTCGCATGA GACGGCTGAG CATTAAGAGT ACCGATTCGG GAGATGAAGT AGAGGACGAC 
    AAGCAATCGC ACAGAGGTCA GGATTTAGGC TCACGCAAAT TTTCTGCTGG TTCCATCTAC 
    AAAAGAGTCA TATCCCTTGA CGAAAGTTTG CTTATTACAA CAAAAAGCAG AGAAAAGTTT 
    GAACTTTCTT TTGCTGACTC TTATGACCCA ACCAGAGTGG AAAGAGTTTA A

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

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