ORF » Species Summary » Xenopus tropicalis » tjp1 cDNA ORF clone

tjp1 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

  • Gene

  • Clones

  • gRNAs

The following tjp1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the tjp1 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
OXa43354 XM_018092414.1
Latest version!		 Xenopus tropicalis tight junction protein 1 (tjp1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OXa55060 XM_031899168.1
Latest version!		 Xenopus tropicalis tight junction protein 1 (tjp1), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa55052 XM_031899160.1
Latest version!		 Xenopus tropicalis tight junction protein 1 (tjp1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OXa55053 XM_031899161.1
Latest version!		 Xenopus tropicalis tight junction protein 1 (tjp1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OXa55054 XM_031899162.1
Latest version!		 Xenopus tropicalis tight junction protein 1 (tjp1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OXa55055 XM_031899163.1
Latest version!		 Xenopus tropicalis tight junction protein 1 (tjp1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OXa55056 XM_031899164.1
Latest version!		 Xenopus tropicalis tight junction protein 1 (tjp1), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OXa55057 XM_031899165.1
Latest version!		 Xenopus tropicalis tight junction protein 1 (tjp1), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OXa55058 XM_031899166.1
Latest version!		 Xenopus tropicalis tight junction protein 1 (tjp1), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OXa55059 XM_031899167.1
Latest version!		 Xenopus tropicalis tight junction protein 1 (tjp1), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OXa55061 XM_031899169.1
Latest version!		 Xenopus tropicalis tight junction protein 1 (tjp1), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00

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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)
    tjp1 ( XM_018092414.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_017947903.1 Xenopus tropicalis tight junction protein 1 (tjp1), mRNA.
    Price & Availability↑
    CloneID OXa43354
    Clone ID Related Accession (Same CDS sequence) XM_018092414.1
    Accession Version XM_018092414.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3975bp)
    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 tight junction protein ZO-1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030679.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGCTTCGGC CAAGCATGAA ACTGGTGAAG TTCAGGAAAG GAGACAGTGT AGGCCTTCGT 
    TTGGCTGGTG GTAATGATGT GGGAATTTTT GTTGCTGGTG TATTAGACGA CAGTCCTGCC 
    GCAAAAGAAG GTTTGGAGGA AGGGGACCAG ATACTCAGAG TTAACAATGT GGATTTCACC 
    AATATAATAA GGGAAGAAGC GGTACTGTTC CTTCTTGATC TGCCCAAAGG AGAAGAGGTT 
    ACCATTCTTG CTCAGAAAAA GAAAGATGTG TATCGCCGCA TTGTTGAGTC AGATGTTGGG 
    GATTCATTTT ATATAAGAAC TCACTTTGAA TATGAGAAAG AGTCACCATA CGGGCTAAGT 
    TTCAACAAAG GAGAGGTCTT TCGAGTTGTG GATACTCTTT ACAATGGCAA ACTAGGGTCA 
    TGGTTGGCCA TTAGAATTGG TAGAAATCAC AAGGAGGTGG AAAGAGGGAT AATCCCCAAC 
    AAGAATAGGG CTGAGCAACT GGCTAGTGTA CAGTACACTC TTCCTAAAAC TGCTGGTGGA 
    GATCGTGCAG ACTTCTGGAG ATTCCGTGGC CTTCGTAGTT CCAAGCGAAA TCTACGGAAA 
    AGCAGAGAGG ATCTTTCTGC GCAACCTGTT CAAACAAAGT TCCCTGCTTA TGAGAGAGTC 
    GTCTTGAGAG AAGCTGGATT TCTCAGGCCT GTGGTTATTT TTGGCCCTAT TGCTGACGTT 
    GCAAGAGAAA AGTTGGCAAG AGAAGAACCA GATATTTATG AAGTAGCAAG AAGTGAACCC 
    AGAGATGCAG GTACTGACCA GCGAAGTTCT GGAATTATCC GCCTTCATAC TATTAAACAG 
    ATTATTGATA GGGATAAGCA TGCTCTTCTA GATGTGACTC CAAATGCTGT GGACCGCTTA 
    AATTATGCAC AATGGTATCC GATAGTAGTG TTTCTTAACC CAGACTCTAA ACAAGGTGTG 
    AAAACAATGA GAATGAGGTT ATGCCCAGAA TCACGCAAAA GTGCCAGGAA ACTATATGAA 
    CGTTCACACA AACTACGCAA AAACAATCAC CATCTTTTCA CAACTACAAT AAATCTCAAC 
    TCCATGAATG ATGGCTGGTA TGGTGGCCTT AAAGAGGCAG CACAGCAGCA ACAGAACCAG 
    CTAGTTTGGG TCTCAGAGGG CAAAGCAGAA GGTGGCACAG ATGATGACCT TGATTTGCAT 
    GACGACCGTC TTTCCTACCT ATCAGCACCA GGTAGTGAAT ATTCAATGTA TAGCACTGAT 
    AGTAGGCACA CATCAGACTA TGAAGACACA GACACAGAAG GAGGGGCTTA CACTGACCAG 
    GACCTGGATG AGACACTTAA TGATGAGGCT GGGACTCCAC CAGAATCTGC AATCACACGA 
    TCTTCTGAAC CAGTCAGAGA AGACACATCA GGGATGCAAG AAAACCCAGC ATACCCAACA 
    TATCCACCTC AGCCAATCCT TAGAACAGAT TCTCCTGGGT ATAAAAATGT ACCTTCTCAA 
    CAGAAAGCAG AAGCCTTACC TGCAGCCCCT TACCTTTCTG TGTCGTCTGA AACAAACCAT 
    ACAACTTCAA CTGCTGCTGT TAATCCCATG GGTGGCCTTT TGAGATCACC AAGCACTGAG 
    GCAGCTCATA TTATACTAAG AGACCAAGAA CCTTCATCTT TACCAGTGCA AATTGACTCA 
    GCAAAGGTTT ATAGAAAAGA GGCCTATGCT ATGGAAGAGA ATCCTAGACA AAATTATTTG 
    ATGAAGCAGC AAGTGCTTGG CCATCAAATT CAAAGACATG AAAAAGAGAC CAATTTAAAC 
    TATGATGGCG TGCCAGCATA TGCAGAGAAA CCACTGAATA GAGAATATGA CCAGTCTTAT 
    TGCTATGATT CTACTTCTGA TTATGTAGAT CAGTTTCCCC ACAATTATGA TTCTCGAATA 
    AATTTTGATG ATCACGTGCC TACATATGAT GAACAGTGGG GTTATTATGA TGACAAACAG 
    TCATATCCCC AGAGACCACC ATTTGACAGT AAACGCAATA GGGACTTCAA TATTAGACAG 
    CACTCTGATG AAAACCTTGA ACGTAATTAC TTTCAGCAGC CTCGATTGGA GGAGCCACCT 
    CCTGTTGCTT ATGACAATCG CCCCCGCCCA TCCCAAAACT ACAAACCAAC CCAAGTACAT 
    TATGAAGACT CCACAACAGC AGAGTATGAT ATGCATATGC GTTACAAACC TGAACCTCAA 
    ACCATTCCTT CTGTGCCAAC ATCAAAGTCT TCTGATGCAA AGCCGTATTT TGATCAACAC 
    ATAAGGGGTT ATGAACATAG TCCTACCCAG GTATTTAACA CAAAACCAGG GCAGTATGAT 
    ACATCTCCTA GAATGGAGGC AATGCCACCT CCACCTGTTC AGAGTAAGCC AGAGCTCCTT 
    TCAACAAGCT CAAAACCTTT GCCTGCCCCT GCTCCTTCCG TTGCTCCTGC AGCAACTGAA 
    GAAGACGATG ATCCAGCTAT GAAGCCACAG TCTGTACTTA CTAGAGTGAA AATGTTTGAG 
    AACAAACGTT CTAATCAAGG TGAAAAGAAC AAGGATATAA ATGATTCCAC TCTTGTTAAG 
    GCCCCAGATG TTGCACCTAA ACCTATACTT AATCAAGTAA GTGCTACAAA GGCTGCCCCC 
    GTTCCACATT ATGATCAGGA CAAGGCAACT TATAGAGTAC CTGAACCTCA AAAGCCTCAA 
    GTGAAGCCCC CAGAAGATAT AATTCGGGCC AACCACTATG ACCCCGATGA AGATGAAGAA 
    TACTATCGAA AGCAGCTGTC TTACTTTGAT CGAAGAAGCT TTGAAAAGCC CACACCCTTG 
    CTGTCTGGAA ACATCCTGCC TGAGCCTGCC AAACCAGCGC AGTCTCAAAG CCAACTTAGC 
    TTTAACAGCT ACCCCTCCAA GGGAAAGCCT GCAGATTTGG AGCCACTTGA CAGACCCATT 
    AATGAAAAAC GCTATGATCC AGTTCCACAG GTTACTTCTT CTAACCAGTA TACTCAGCCT 
    TCACCAGTGG TTGTAAATCA TTCAACACAC GCTAAACATA TGCATTTAGA AGCCAGCTCT 
    GTGTCTGTGG AGGTTCCAAG TTCCACAGTG TCTAAGCCAG AGCCCCCACC TACTCAGGCC 
    AAGCCAACAT TGTTCCGACC ATCAAACAGA GAGGACACTG TACAGTCAAA CTTCTATCCT 
    CAGAAGAGTT TCCCTGAAAA AAGCCCTGTA AATGGCACTG AACAGGCTCC AAAAACAGTA 
    ACACCATCCT ACAATCGTTT TACACCTAAA CCTTACACAA ATTCAGCGAG ACCCTTTGAA 
    CGCAAGTTTG AAAGCCCAAA ATTTAACCAC AACCTCCTGC CAAATGAAGC ACAAGTAAAG 
    CCAGAGCTGC CCACTAAACC TCAGAATTCT CCACAGCCTG TTTTAAAATC AAATACGTCA 
    ATTTCTTCTG AACTGGATAG CATATCCAAG CAAACGGAGA ACAAATCTAA ATATCAACCA 
    AACAATGTTA ATCCAGTGCC TAAAGCAATC CCAGTCAGTC CTTCTGCATT GGAAGATGAC 
    GATGAAGATG ATGCACATAC AGTTGTAGCA ACAGCTAGAG GCTTCTTTAA TAGTAATGGA 
    GGTGTGTTAA GTTCCATAGA AACGGGAGTC AGTATCATCA TACCCCAAGG AGCAATTCCA 
    GATGGCATTG AGCAAGAAAT ATATTTCAAG GTCTGCAGGG ATAACAGTAT CCTTCCACCC 
    TTGGACAAAG AGAAAGGAGA GACGCTACTT AGTCCATTAG TAATGTGCGG ACCTCATGGG 
    TTAAAATTCG TGAAACCAGT GGAGCTACGC TTACCACACT GTGCGTCTAT GACTCCTGAT 
    GGTTGGTCTT TTGCTCTAAA ATCATCCGAC ACCTCGTCGG GTGACCCAAA ACACTGGCAG 
    AACAAGTCAC TTCCTGGCGA CCCCAACTAT CTTGTCGGAG CAAACTGTGT CTCAGTTTTG 
    ATAGACCACT TCTAA

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

    RefSeq XP_017947903.1
    CDS102..4076
    Translation

    Target ORF information:

    RefSeq Version XM_018092414.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis tight junction protein 1 (tjp1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_018092414.1

    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
    ATGCTTCGGC CAAGCATGAA ACTGGTGAAG TTCAGGAAAG GAGACAGTGT AGGCCTTCGT 
    TTGGCTGGTG GTAATGATGT GGGAATTTTT GTTGCTGGTG TATTAGACGA CAGTCCTGCC 
    GCAAAAGAAG GTTTGGAGGA AGGGGACCAG ATACTCAGAG TTAACAATGT GGATTTCACC 
    AATATAATAA GGGAAGAAGC GGTACTGTTC CTTCTTGATC TGCCCAAAGG AGAAGAGGTT 
    ACCATTCTTG CTCAGAAAAA GAAAGATGTG TATCGCCGCA TTGTTGAGTC AGATGTTGGG 
    GATTCATTTT ATATAAGAAC TCACTTTGAA TATGAGAAAG AGTCACCATA CGGGCTAAGT 
    TTCAACAAAG GAGAGGTCTT TCGAGTTGTG GATACTCTTT ACAATGGCAA ACTAGGGTCA 
    TGGTTGGCCA TTAGAATTGG TAGAAATCAC AAGGAGGTGG AAAGAGGGAT AATCCCCAAC 
    AAGAATAGGG CTGAGCAACT GGCTAGTGTA CAGTACACTC TTCCTAAAAC TGCTGGTGGA 
    GATCGTGCAG ACTTCTGGAG ATTCCGTGGC CTTCGTAGTT CCAAGCGAAA TCTACGGAAA 
    AGCAGAGAGG ATCTTTCTGC GCAACCTGTT CAAACAAAGT TCCCTGCTTA TGAGAGAGTC 
    GTCTTGAGAG AAGCTGGATT TCTCAGGCCT GTGGTTATTT TTGGCCCTAT TGCTGACGTT 
    GCAAGAGAAA AGTTGGCAAG AGAAGAACCA GATATTTATG AAGTAGCAAG AAGTGAACCC 
    AGAGATGCAG GTACTGACCA GCGAAGTTCT GGAATTATCC GCCTTCATAC TATTAAACAG 
    ATTATTGATA GGGATAAGCA TGCTCTTCTA GATGTGACTC CAAATGCTGT GGACCGCTTA 
    AATTATGCAC AATGGTATCC GATAGTAGTG TTTCTTAACC CAGACTCTAA ACAAGGTGTG 
    AAAACAATGA GAATGAGGTT ATGCCCAGAA TCACGCAAAA GTGCCAGGAA ACTATATGAA 
    CGTTCACACA AACTACGCAA AAACAATCAC CATCTTTTCA CAACTACAAT AAATCTCAAC 
    TCCATGAATG ATGGCTGGTA TGGTGGCCTT AAAGAGGCAG CACAGCAGCA ACAGAACCAG 
    CTAGTTTGGG TCTCAGAGGG CAAAGCAGAA GGTGGCACAG ATGATGACCT TGATTTGCAT 
    GACGACCGTC TTTCCTACCT ATCAGCACCA GGTAGTGAAT ATTCAATGTA TAGCACTGAT 
    AGTAGGCACA CATCAGACTA TGAAGACACA GACACAGAAG GAGGGGCTTA CACTGACCAG 
    GACCTGGATG AGACACTTAA TGATGAGGCT GGGACTCCAC CAGAATCTGC AATCACACGA 
    TCTTCTGAAC CAGTCAGAGA AGACACATCA GGGATGCAAG AAAACCCAGC ATACCCAACA 
    TATCCACCTC AGCCAATCCT TAGAACAGAT TCTCCTGGGT ATAAAAATGT ACCTTCTCAA 
    CAGAAAGCAG AAGCCTTACC TGCAGCCCCT TACCTTTCTG TGTCGTCTGA AACAAACCAT 
    ACAACTTCAA CTGCTGCTGT TAATCCCATG GGTGGCCTTT TGAGATCACC AAGCACTGAG 
    GCAGCTCATA TTATACTAAG AGACCAAGAA CCTTCATCTT TACCAGTGCA AATTGACTCA 
    GCAAAGGTTT ATAGAAAAGA GGCCTATGCT ATGGAAGAGA ATCCTAGACA AAATTATTTG 
    ATGAAGCAGC AAGTGCTTGG CCATCAAATT CAAAGACATG AAAAAGAGAC CAATTTAAAC 
    TATGATGGCG TGCCAGCATA TGCAGAGAAA CCACTGAATA GAGAATATGA CCAGTCTTAT 
    TGCTATGATT CTACTTCTGA TTATGTAGAT CAGTTTCCCC ACAATTATGA TTCTCGAATA 
    AATTTTGATG ATCACGTGCC TACATATGAT GAACAGTGGG GTTATTATGA TGACAAACAG 
    TCATATCCCC AGAGACCACC ATTTGACAGT AAACGCAATA GGGACTTCAA TATTAGACAG 
    CACTCTGATG AAAACCTTGA ACGTAATTAC TTTCAGCAGC CTCGATTGGA GGAGCCACCT 
    CCTGTTGCTT ATGACAATCG CCCCCGCCCA TCCCAAAACT ACAAACCAAC CCAAGTACAT 
    TATGAAGACT CCACAACAGC AGAGTATGAT ATGCATATGC GTTACAAACC TGAACCTCAA 
    ACCATTCCTT CTGTGCCAAC ATCAAAGTCT TCTGATGCAA AGCCGTATTT TGATCAACAC 
    ATAAGGGGTT ATGAACATAG TCCTACCCAG GTATTTAACA CAAAACCAGG GCAGTATGAT 
    ACATCTCCTA GAATGGAGGC AATGCCACCT CCACCTGTTC AGAGTAAGCC AGAGCTCCTT 
    TCAACAAGCT CAAAACCTTT GCCTGCCCCT GCTCCTTCCG TTGCTCCTGC AGCAACTGAA 
    GAAGACGATG ATCCAGCTAT GAAGCCACAG TCTGTACTTA CTAGAGTGAA AATGTTTGAG 
    AACAAACGTT CTAATCAAGG TGAAAAGAAC AAGGATATAA ATGATTCCAC TCTTGTTAAG 
    GCCCCAGATG TTGCACCTAA ACCTATACTT AATCAAGTAA GTGCTACAAA GGCTGCCCCC 
    GTTCCACATT ATGATCAGGA CAAGGCAACT TATAGAGTAC CTGAACCTCA AAAGCCTCAA 
    GTGAAGCCCC CAGAAGATAT AATTCGGGCC AACCACTATG ACCCCGATGA AGATGAAGAA 
    TACTATCGAA AGCAGCTGTC TTACTTTGAT CGAAGAAGCT TTGAAAAGCC CACACCCTTG 
    CTGTCTGGAA ACATCCTGCC TGAGCCTGCC AAACCAGCGC AGTCTCAAAG CCAACTTAGC 
    TTTAACAGCT ACCCCTCCAA GGGAAAGCCT GCAGATTTGG AGCCACTTGA CAGACCCATT 
    AATGAAAAAC GCTATGATCC AGTTCCACAG GTTACTTCTT CTAACCAGTA TACTCAGCCT 
    TCACCAGTGG TTGTAAATCA TTCAACACAC GCTAAACATA TGCATTTAGA AGCCAGCTCT 
    GTGTCTGTGG AGGTTCCAAG TTCCACAGTG TCTAAGCCAG AGCCCCCACC TACTCAGGCC 
    AAGCCAACAT TGTTCCGACC ATCAAACAGA GAGGACACTG TACAGTCAAA CTTCTATCCT 
    CAGAAGAGTT TCCCTGAAAA AAGCCCTGTA AATGGCACTG AACAGGCTCC AAAAACAGTA 
    ACACCATCCT ACAATCGTTT TACACCTAAA CCTTACACAA ATTCAGCGAG ACCCTTTGAA 
    CGCAAGTTTG AAAGCCCAAA ATTTAACCAC AACCTCCTGC CAAATGAAGC ACAAGTAAAG 
    CCAGAGCTGC CCACTAAACC TCAGAATTCT CCACAGCCTG TTTTAAAATC AAATACGTCA 
    ATTTCTTCTG AACTGGATAG CATATCCAAG CAAACGGAGA ACAAATCTAA ATATCAACCA 
    AACAATGTTA ATCCAGTGCC TAAAGCAATC CCAGTCAGTC CTTCTGCATT GGAAGATGAC 
    GATGAAGATG ATGCACATAC AGTTGTAGCA ACAGCTAGAG GCTTCTTTAA TAGTAATGGA 
    GGTGTGTTAA GTTCCATAGA AACGGGAGTC AGTATCATCA TACCCCAAGG AGCAATTCCA 
    GATGGCATTG AGCAAGAAAT ATATTTCAAG GTCTGCAGGG ATAACAGTAT CCTTCCACCC 
    TTGGACAAAG AGAAAGGAGA GACGCTACTT AGTCCATTAG TAATGTGCGG ACCTCATGGG 
    TTAAAATTCG TGAAACCAGT GGAGCTACGC TTACCACACT GTGCGTCTAT GACTCCTGAT 
    GGTTGGTCTT TTGCTCTAAA ATCATCCGAC ACCTCGTCGG GTGACCCAAA ACACTGGCAG 
    AACAAGTCAC TTCCTGGCGA CCCCAACTAT CTTGTCGGAG CAAACTGTGT CTCAGTTTTG 
    ATAGACCACT TCTAA

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

    tjp1 ( XM_031899168.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031755028.1 Xenopus tropicalis tight junction protein 1 (tjp1), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OXa55060
    Clone ID Related Accession (Same CDS sequence) XM_031899168.1
    Accession Version XM_031899168.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4350bp)
    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 tight junction protein ZO-1 isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030679.2) 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
    ATGAAATACC AGAAATACCT GACTGTGCTG CAGATGGCGA TCGGAGTGAC TCCTTCCAAC 
    AGAGGGAATA TACTGCCTTA CAAGCGGAGG CTGTGGGTCA CTCCGTCATC TGAGAATCCC 
    AATGCTGCTG CATCGAGTAC GAGTCAGGGA AAACCATCTC TAAGGAGAAT AAAGGGACGG 
    ATCCACAGAA GCAAAAGCTT GGATAGCGTT GACCTCTGCG ATTTTAATAA TACTGTAATG 
    GAAGAAACTG CAATATGGGA ACAGCAAACA GTTACTCTCC ACAGGGCCCC TGGATTTGGA 
    TTTGGCATTG CAATATCTGG AGGCAGAGAT AACCCACATT TTCAAAGTGG GGAAACATCA 
    ATTGTCATCT CTGATGTTCT TAAAGGAGGG CCTGCAGAAG GTTTGCTTCA GGAAAATGAT 
    CGTGTTGCAA TGGTCAATGG GGTTTCTATG GATAATGTCG AGCATGCCTT TGCTGTTCAG 
    CAGTTGAGGA AAAGTGGAAA AAATGCCAAA ATTACTATCC GGCGGAAGAA AAAAGTGCAA 
    CTTCCAGTAG TTCGTTCTGA CCCAGACCCA GTGTCTGAGA ATGAAGAGGA CAGTTATGAG 
    GAGGATGTGC CTGACCAGAG AAGTGCCCAC AGTGGTCCTG GTGCCAGCAG GAGAAGTGAA 
    AAAAGTTGGG TGAGGGACAG AAGTGCAAGC AGAGAAAGAA GTTTATCACC AAGATCAGAC 
    AGAAGATCTG TTTCTTCCAG TCAACCTGCT AAACCTACCA AAGTGACCTT GGTGAAATCT 
    AGAAAAAATG AAGAATATGG TTTAAGGTTG GCTAGCCACA TATTTGTAAA AGAAATTTCC 
    CAAGACAGTC TTGCGGCAAG AGATGGAAAT ATTCAAGAAG GGGATGTTGT GCTTAAGATT 
    AATGGCACAG TCACAGAAAA CATGTCTTTG GCTGATGCAA AAACATTAAT AGAAAGGTCG 
    AAGGGCAAAT TAAAAATGGT AGTTCAAAGA GATGAACGAG CAACTCTACT TAATGTCCCA 
    GATCTAGATG ACAGTCTCCA TTCTGCAAAT GCTTCAGAAA GAGATGACAT TTCAGAAATT 
    CAGTCGCTAA CATCAGATCA TTCCAACCGT TCACATGATA AACCTCGCCG TAGCCGTTCA 
    CGGTCACCGG ACCAGAGGTC AGAGCCTTCA GACCATTCCA GACATTCTCC ACAACAGCAC 
    AGCAACAGCA GTAGTCGAAG TCGAGAGGAT GAAAGAGTTT CAAAGCCTGG TGCAATATCT 
    ACTCCGGTGA AGAATGTCAA TAGTGTACCT CTTTCCAGAA CTGCAGAAGA ACCCTTTTTA 
    GAAAAGGCAG ATAAACAAAC ACCTCCTCTT CCAGAGCCAA AACCTGTATA TGCCCAGCCA 
    GGACAACCAG ATGTGGATTT GCCAGTCAGC CCATCTGATG GACCTTTCCC TAATTCTACA 
    CATGAAGATG GCATGCTTCG GCCAAGCATG AAACTGGTGA AGTTCAGGAA AGGAGACAGT 
    GTAGGCCTTC GTTTGGCTGG TGGTAATGAT GTGGGAATTT TTGTTGCTGG TGTATTAGAC 
    GACAGTCCTG CCGCAAAAGA AGGTTTGGAG GAAGGGGACC AGATACTCAG AGTTAACAAT 
    GTGGATTTCA CCAATATAAT AAGGGAAGAA GCGGTACTGT TCCTTCTTGA TCTGCCCAAA 
    GGAGAAGAGG TTACCATTCT TGCTCAGAAA AAGAAAGATG TGTATCGCCG CATTGTTGAG 
    TCAGATGTTG GGGATTCATT TTATATAAGA ACTCACTTTG AATATGAGAA AGAGTCACCA 
    TACGGGCTAA GTTTCAACAA AGGAGAGGTC TTTCGAGTTG TGGATACTCT TTACAATGGC 
    AAACTAGGGT CATGGTTGGC CATTAGAATT GGTAGAAATC ACAAGGAGGT GGAAAGAGGG 
    ATAATCCCCA ACAAGAATAG GGCTGAGCAA CTGGCTAGTG TACAGTACAC TCTTCCTAAA 
    ACTGCTGGTG GAGATCGTGC AGACTTCTGG AGATTCCGTG GCCTTCGTAG TTCCAAGCGA 
    AATCTACGGA AAAGCAGAGA GGATCTTTCT GCGCAACCTG TTCAAACAAA GTTCCCTGCT 
    TATGAGAGAG TCGTCTTGAG AGAAGCTGGA TTTCTCAGGC CTGTGGTTAT TTTTGGCCCT 
    ATTGCTGACG TTGCAAGAGA AAAGTTGGCA AGAGAAGAAC CAGATATTTA TGAAGTAGCA 
    AGAAGTGAAC CCAGAGATGC AGGTACTGAC CAGCGAAGTT CTGGAATTAT CCGCCTTCAT 
    ACTATTAAAC AGATTATTGA TAGGGATAAG CATGCTCTTC TAGATGTGAC TCCAAATGCT 
    GTGGACCGCT TAAATTATGC ACAATGGTAT CCGATAGTAG TGTTTCTTAA CCCAGACTCT 
    AAACAAGGTG TGAAAACAAT GAGAATGAGG TTATGCCCAG AATCACGCAA AAGTGCCAGG 
    AAACTATATG AACGTTCACA CAAACTACGC AAAAACAATC ACCATCTTTT CACAACTACA 
    ATAAATCTCA ACTCCATGAA TGATGGCTGG TATGGTGGCC TTAAAGAGGC AGCACAGCAG 
    CAACAGAACC AGCTAGTTTG GGTCTCAGAG GGCAAAGCAG AAGGTGGCAC AGATGATGAC 
    CTTGATTTGC ATGACGACCG TCTTTCCTAC CTATCAGCAC CAGGTAGTGA ATATTCAATG 
    TATAGCACTG ATAGTAGGCA CACATCAGAC TATGAAGACA CAGACACAGA AGGAGGGGCT 
    TACACTGACC AGGACCTGGA TGAGACACTT AATGATGAGG CTGGGACTCC ACCAGAATCT 
    GCAATCACAC GATCTTCTGA ACCAGTCAGA GAAGACACAT CAGGGATGCA AGAAAACCCA 
    GCATACCCAA CATATCCACC TCAGCCAATC CTTAGAACAG ATTCTCCTGG GTATAAAAAT 
    GTACCTTCTC AACAGGCCCC AGATGTTGCA CCTAAACCTA TACTTAATCA AGTAAGTGCT 
    ACAAAGGCTG CCCCCGTTCC ACATTATGAT CAGGACAAGG CAACTTATAG AGTACCTGAA 
    CCTCAAAAGC CTCAAGTGAA GCCCCCAGAA GATATAATTC GGGCCAACCA CTATGACCCC 
    GATGAAGATG AAGAATACTA TCGAAAGCAG CTGTCTTACT TTGATCGAAG AAGCTTTGAA 
    AAGCCCACAC CCTTGCTGTC TGGAAACATC CTGCCTGAGC CTGCCAAACC AGCGCAGTCT 
    CAAAGCCAAC TTAGCTTTAA CAGCTACCCC TCCAAGGGAA AGCCTGCAGA TTTGGAGCCA 
    CTTGACAGAC CCATTAATGA AAAACGCTAT GATCCAGTTC CACAGGTTAC TTCTTCTAAC 
    CAGTATACTC AGCCTTCACC AGTGGTTGTA AATCATTCAA CACACACTAA ACATATGCAT 
    TTAGAAGCCA GCTCTGTGTC TGTGGAGGTT CCAAGTTCCA CAGTGTCTAA GCCAGAGCCC 
    CCACCTACTC AGGCCAAGCC AACATTGTTC CGACCATCAA ACAGAGAGGA CACTGTACAG 
    TCAAACTTCT ATCCTCAGAA GAGTTTCCCT GAAAAAAGCC CTGTAAATGG CACTGAACAG 
    GCTCCAAAAA CAGTAACACC ATCCTACAAT CGTTTTACAC CTAAACCTTA CACAAATTCA 
    GCGAGACCCT TTGAACGCAA GTTTGAAAGC CCAAAATTTA ACCACAACCT CCTGCCAAAT 
    GAAGCACAAG TAAAGCCAGA GCTGCCCACT AAACCTCAGA ATTCTCCACA GCCTGTTTTA 
    AAATCAAATA CGTCAATTTC TTCTGAACTG GATAGCATAT CCAAGCAAAC GGAGAACAAA 
    TCTAAATATC AACCAAACAA TGTTAATCCA GTGCCTAAAG CAATCCCAGT CAGTCCTTCT 
    GCATTGGAAG ATGACGATGA AGATGATGCA CATACAGTTG TAGCAACAGC TAGAGGCTTC 
    TTTAATAGTA ATGGAGGTGT GTTAAGTTCC ATAGAAACGG GAGTCAGTAT CATCATACCC 
    CAAGGAGCAA TTCCAGATGG CATTGAGCAA GAAATATATT TCAAGGTCTG CAGGGATAAC 
    AGTATCCTTC CACCCTTGGA CAAAGAGAAA GGAGAGACGC TACTTAGTCC ATTAGTAATG 
    TGCGGACCTC ATGGGTTAAA ATTCGTGAAA CCAGTGGAGC TACGCTTACC ACACTGTGCG 
    TCTATGACTC CTGATGGTTG GTCTTTTGCT CTAAAATCAT CCGACACCTC GTCGGGTGAC 
    CCAAAACACT GGCAGAACAA GTCACTTCCT GGCGACCCCA ACTATCTTGT CGGAGCAAAC 
    TGTGTCTCAG TTTTGATAGA CCACTTCTAA

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

    RefSeq XP_031755028.1
    CDS25..4374
    Translation

    Target ORF information:

    RefSeq Version XM_031899168.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis tight junction protein 1 (tjp1), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031899168.1

    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
    ATGAAATACC AGAAATACCT GACTGTGCTG CAGATGGCGA TCGGAGTGAC TCCTTCCAAC 
    AGAGGGAATA TACTGCCTTA CAAGCGGAGG CTGTGGGTCA CTCCGTCATC TGAGAATCCC 
    AATGCTGCTG CATCGAGTAC GAGTCAGGGA AAACCATCTC TAAGGAGAAT AAAGGGACGG 
    ATCCACAGAA GCAAAAGCTT GGATAGCGTT GACCTCTGCG ATTTTAATAA TACTGTAATG 
    GAAGAAACTG CAATATGGGA ACAGCAAACA GTTACTCTCC ACAGGGCCCC TGGATTTGGA 
    TTTGGCATTG CAATATCTGG AGGCAGAGAT AACCCACATT TTCAAAGTGG GGAAACATCA 
    ATTGTCATCT CTGATGTTCT TAAAGGAGGG CCTGCAGAAG GTTTGCTTCA GGAAAATGAT 
    CGTGTTGCAA TGGTCAATGG GGTTTCTATG GATAATGTCG AGCATGCCTT TGCTGTTCAG 
    CAGTTGAGGA AAAGTGGAAA AAATGCCAAA ATTACTATCC GGCGGAAGAA AAAAGTGCAA 
    CTTCCAGTAG TTCGTTCTGA CCCAGACCCA GTGTCTGAGA ATGAAGAGGA CAGTTATGAG 
    GAGGATGTGC CTGACCAGAG AAGTGCCCAC AGTGGTCCTG GTGCCAGCAG GAGAAGTGAA 
    AAAAGTTGGG TGAGGGACAG AAGTGCAAGC AGAGAAAGAA GTTTATCACC AAGATCAGAC 
    AGAAGATCTG TTTCTTCCAG TCAACCTGCT AAACCTACCA AAGTGACCTT GGTGAAATCT 
    AGAAAAAATG AAGAATATGG TTTAAGGTTG GCTAGCCACA TATTTGTAAA AGAAATTTCC 
    CAAGACAGTC TTGCGGCAAG AGATGGAAAT ATTCAAGAAG GGGATGTTGT GCTTAAGATT 
    AATGGCACAG TCACAGAAAA CATGTCTTTG GCTGATGCAA AAACATTAAT AGAAAGGTCG 
    AAGGGCAAAT TAAAAATGGT AGTTCAAAGA GATGAACGAG CAACTCTACT TAATGTCCCA 
    GATCTAGATG ACAGTCTCCA TTCTGCAAAT GCTTCAGAAA GAGATGACAT TTCAGAAATT 
    CAGTCGCTAA CATCAGATCA TTCCAACCGT TCACATGATA AACCTCGCCG TAGCCGTTCA 
    CGGTCACCGG ACCAGAGGTC AGAGCCTTCA GACCATTCCA GACATTCTCC ACAACAGCAC 
    AGCAACAGCA GTAGTCGAAG TCGAGAGGAT GAAAGAGTTT CAAAGCCTGG TGCAATATCT 
    ACTCCGGTGA AGAATGTCAA TAGTGTACCT CTTTCCAGAA CTGCAGAAGA ACCCTTTTTA 
    GAAAAGGCAG ATAAACAAAC ACCTCCTCTT CCAGAGCCAA AACCTGTATA TGCCCAGCCA 
    GGACAACCAG ATGTGGATTT GCCAGTCAGC CCATCTGATG GACCTTTCCC TAATTCTACA 
    CATGAAGATG GCATGCTTCG GCCAAGCATG AAACTGGTGA AGTTCAGGAA AGGAGACAGT 
    GTAGGCCTTC GTTTGGCTGG TGGTAATGAT GTGGGAATTT TTGTTGCTGG TGTATTAGAC 
    GACAGTCCTG CCGCAAAAGA AGGTTTGGAG GAAGGGGACC AGATACTCAG AGTTAACAAT 
    GTGGATTTCA CCAATATAAT AAGGGAAGAA GCGGTACTGT TCCTTCTTGA TCTGCCCAAA 
    GGAGAAGAGG TTACCATTCT TGCTCAGAAA AAGAAAGATG TGTATCGCCG CATTGTTGAG 
    TCAGATGTTG GGGATTCATT TTATATAAGA ACTCACTTTG AATATGAGAA AGAGTCACCA 
    TACGGGCTAA GTTTCAACAA AGGAGAGGTC TTTCGAGTTG TGGATACTCT TTACAATGGC 
    AAACTAGGGT CATGGTTGGC CATTAGAATT GGTAGAAATC ACAAGGAGGT GGAAAGAGGG 
    ATAATCCCCA ACAAGAATAG GGCTGAGCAA CTGGCTAGTG TACAGTACAC TCTTCCTAAA 
    ACTGCTGGTG GAGATCGTGC AGACTTCTGG AGATTCCGTG GCCTTCGTAG TTCCAAGCGA 
    AATCTACGGA AAAGCAGAGA GGATCTTTCT GCGCAACCTG TTCAAACAAA GTTCCCTGCT 
    TATGAGAGAG TCGTCTTGAG AGAAGCTGGA TTTCTCAGGC CTGTGGTTAT TTTTGGCCCT 
    ATTGCTGACG TTGCAAGAGA AAAGTTGGCA AGAGAAGAAC CAGATATTTA TGAAGTAGCA 
    AGAAGTGAAC CCAGAGATGC AGGTACTGAC CAGCGAAGTT CTGGAATTAT CCGCCTTCAT 
    ACTATTAAAC AGATTATTGA TAGGGATAAG CATGCTCTTC TAGATGTGAC TCCAAATGCT 
    GTGGACCGCT TAAATTATGC ACAATGGTAT CCGATAGTAG TGTTTCTTAA CCCAGACTCT 
    AAACAAGGTG TGAAAACAAT GAGAATGAGG TTATGCCCAG AATCACGCAA AAGTGCCAGG 
    AAACTATATG AACGTTCACA CAAACTACGC AAAAACAATC ACCATCTTTT CACAACTACA 
    ATAAATCTCA ACTCCATGAA TGATGGCTGG TATGGTGGCC TTAAAGAGGC AGCACAGCAG 
    CAACAGAACC AGCTAGTTTG GGTCTCAGAG GGCAAAGCAG AAGGTGGCAC AGATGATGAC 
    CTTGATTTGC ATGACGACCG TCTTTCCTAC CTATCAGCAC CAGGTAGTGA ATATTCAATG 
    TATAGCACTG ATAGTAGGCA CACATCAGAC TATGAAGACA CAGACACAGA AGGAGGGGCT 
    TACACTGACC AGGACCTGGA TGAGACACTT AATGATGAGG CTGGGACTCC ACCAGAATCT 
    GCAATCACAC GATCTTCTGA ACCAGTCAGA GAAGACACAT CAGGGATGCA AGAAAACCCA 
    GCATACCCAA CATATCCACC TCAGCCAATC CTTAGAACAG ATTCTCCTGG GTATAAAAAT 
    GTACCTTCTC AACAGGCCCC AGATGTTGCA CCTAAACCTA TACTTAATCA AGTAAGTGCT 
    ACAAAGGCTG CCCCCGTTCC ACATTATGAT CAGGACAAGG CAACTTATAG AGTACCTGAA 
    CCTCAAAAGC CTCAAGTGAA GCCCCCAGAA GATATAATTC GGGCCAACCA CTATGACCCC 
    GATGAAGATG AAGAATACTA TCGAAAGCAG CTGTCTTACT TTGATCGAAG AAGCTTTGAA 
    AAGCCCACAC CCTTGCTGTC TGGAAACATC CTGCCTGAGC CTGCCAAACC AGCGCAGTCT 
    CAAAGCCAAC TTAGCTTTAA CAGCTACCCC TCCAAGGGAA AGCCTGCAGA TTTGGAGCCA 
    CTTGACAGAC CCATTAATGA AAAACGCTAT GATCCAGTTC CACAGGTTAC TTCTTCTAAC 
    CAGTATACTC AGCCTTCACC AGTGGTTGTA AATCATTCAA CACACACTAA ACATATGCAT 
    TTAGAAGCCA GCTCTGTGTC TGTGGAGGTT CCAAGTTCCA CAGTGTCTAA GCCAGAGCCC 
    CCACCTACTC AGGCCAAGCC AACATTGTTC CGACCATCAA ACAGAGAGGA CACTGTACAG 
    TCAAACTTCT ATCCTCAGAA GAGTTTCCCT GAAAAAAGCC CTGTAAATGG CACTGAACAG 
    GCTCCAAAAA CAGTAACACC ATCCTACAAT CGTTTTACAC CTAAACCTTA CACAAATTCA 
    GCGAGACCCT TTGAACGCAA GTTTGAAAGC CCAAAATTTA ACCACAACCT CCTGCCAAAT 
    GAAGCACAAG TAAAGCCAGA GCTGCCCACT AAACCTCAGA ATTCTCCACA GCCTGTTTTA 
    AAATCAAATA CGTCAATTTC TTCTGAACTG GATAGCATAT CCAAGCAAAC GGAGAACAAA 
    TCTAAATATC AACCAAACAA TGTTAATCCA GTGCCTAAAG CAATCCCAGT CAGTCCTTCT 
    GCATTGGAAG ATGACGATGA AGATGATGCA CATACAGTTG TAGCAACAGC TAGAGGCTTC 
    TTTAATAGTA ATGGAGGTGT GTTAAGTTCC ATAGAAACGG GAGTCAGTAT CATCATACCC 
    CAAGGAGCAA TTCCAGATGG CATTGAGCAA GAAATATATT TCAAGGTCTG CAGGGATAAC 
    AGTATCCTTC CACCCTTGGA CAAAGAGAAA GGAGAGACGC TACTTAGTCC ATTAGTAATG 
    TGCGGACCTC ATGGGTTAAA ATTCGTGAAA CCAGTGGAGC TACGCTTACC ACACTGTGCG 
    TCTATGACTC CTGATGGTTG GTCTTTTGCT CTAAAATCAT CCGACACCTC GTCGGGTGAC 
    CCAAAACACT GGCAGAACAA GTCACTTCCT GGCGACCCCA ACTATCTTGT CGGAGCAAAC 
    TGTGTCTCAG TTTTGATAGA CCACTTCTAA

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

    tjp1 ( XM_031899160.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031755020.1 Xenopus tropicalis tight junction protein 1 (tjp1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OXa55052
    Clone ID Related Accession (Same CDS sequence) XM_031899160.1
    Accession Version XM_031899160.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5493bp)
    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 tight junction protein ZO-1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030679.2) 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
    ATGAAATACC AGAAATACCT GACTGTGCTG CAGATGGCGA TCGGAGTGAC TCCTTCCAAC 
    AGAGGGAATA TACTGCCTTA CAAGCGGAGG CTGTGGGTCA CTCCGTCATC TGAGAATCCC 
    AATGCTGCTG CATCGAGTAC GAGTCAGGGA AAACCATCTC TAAGGAGAAT AAAGGGACGG 
    ATCCACAGAA GCAAAAGCTT GGATAGCGTT GACCTCTGCG ATTTTAATAA TACTGTAATG 
    GAAGAAACTG CAATATGGGA ACAGCAAACA GTTACTCTCC ACAGGGCCCC TGGATTTGGA 
    TTTGGCATTG CAATATCTGG AGGCAGAGAT AACCCACATT TTCAAAGTGG GGAAACATCA 
    ATTGTCATCT CTGATGTTCT TAAAGGAGGG CCTGCAGAAG GTTTGCTTCA GGAAAATGAT 
    CGTGTTGCAA TGGTCAATGG GGTTTCTATG GATAATGTCG AGCATGCCTT TGCTGTTCAG 
    CAGTTGAGGA AAAGTGGAAA AAATGCCAAA ATTACTATCC GGCGGAAGAA AAAAGTGCAA 
    CTTCCAGTAG TTCGTTCTGA CCCAGACCCA GTGTCTGAGA ATGAAGAGGA CAGTTATGAG 
    GAGGATGTGC CTGACCAGAG AAGTGCCCAC AGTGGTCCTG GTGCCAGCAG GAGAAGTGAA 
    AAAAGTTGGG TGAGGGACAG AAGTGCAAGC AGAGAAAGAA GTTTATCACC AAGATCAGAC 
    AGAAGATCTG TTTCTTCCAG TCAACCTGCT AAACCTACCA AAGTGACCTT GGTGAAATCT 
    AGAAAAAATG AAGAATATGG TTTAAGGTTG GCTAGCCACA TATTTGTAAA AGAAATTTCC 
    CAAGACAGTC TTGCGGCAAG AGATGGAAAT ATTCAAGAAG GGGATGTTGT GCTTAAGATT 
    AATGGCACAG TCACAGAAAA CATGTCTTTG GCTGATGCAA AAACATTAAT AGAAAGGTCG 
    AAGGGCAAAT TAAAAATGGT AGTTCAAAGA GATGAACGAG CAACTCTACT TAATGTCCCA 
    GATCTAGATG ACAGTCTCCA TTCTGCAAAT GCTTCAGAAA GAGATGACAT TTCAGAAATT 
    CAGTCGCTAA CATCAGATCA TTCCAACCGT TCACATGATA AACCTCGCCG TAGCCGTTCA 
    CGGTCACCGG ACCAGAGGTC AGAGCCTTCA GACCATTCCA GACATTCTCC ACAACAGCAC 
    AGCAACAGCA GTAGTCGAAG TCGAGAGGAT GAAAGAGTTT CAAAGCCTGG TGCAATATCT 
    ACTCCGGTGA AGAATGTCAA TAGTGTACCT CTTTCCAGAA CTGCAGAAGA ACCCTTTTTA 
    GAAAAGGCAG ATAAACAAAC ACCTCCTCTT CCAGAGCCAA AACCTGTATA TGCCCAGCCA 
    GGACAACCAG ATGTGGATTT GCCAGTCAGC CCATCTGATG GACCTTTCCC TAATTCTACA 
    CATGAAGATG GCATGCTTCG GCCAAGCATG AAACTGGTGA AGTTCAGGAA AGGAGACAGT 
    GTAGGCCTTC GTTTGGCTGG TGGTAATGAT GTGGGAATTT TTGTTGCTGG TGTATTAGAC 
    GACAGTCCTG CCGCAAAAGA AGGTTTGGAG GAAGGGGACC AGATACTCAG AGTTAACAAT 
    GTGGATTTCA CCAATATAAT AAGGGAAGAA GCGGTACTGT TCCTTCTTGA TCTGCCCAAA 
    GGAGAAGAGG TTACCATTCT TGCTCAGAAA AAGAAAGATG TGTATCGCCG CATTGTTGAG 
    TCAGATGTTG GGGATTCATT TTATATAAGA ACTCACTTTG AATATGAGAA AGAGTCACCA 
    TACGGGCTAA GTTTCAACAA AGGAGAGGTC TTTCGAGTTG TGGATACTCT TTACAATGGC 
    AAACTAGGGT CATGGTTGGC CATTAGAATT GGTAGAAATC ACAAGGAGGT GGAAAGAGGG 
    ATAATCCCCA ACAAGAATAG GGCTGAGCAA CTGGCTAGTG TACAGTACAC TCTTCCTAAA 
    ACTGCTGGTG GAGATCGTGC AGACTTCTGG AGATTCCGTG GCCTTCGTAG TTCCAAGCGA 
    AATCTACGGA AAAGCAGAGA GGATCTTTCT GCGCAACCTG TTCAAACAAA GTTCCCTGCT 
    TATGAGAGAG TCGTCTTGAG AGAAGCTGGA TTTCTCAGGC CTGTGGTTAT TTTTGGCCCT 
    ATTGCTGACG TTGCAAGAGA AAAGTTGGCA AGAGAAGAAC CAGATATTTA TGAAGTAGCA 
    AGAAGTGAAC CCAGAGATGC AGGTACTGAC CAGCGAAGTT CTGGAATTAT CCGCCTTCAT 
    ACTATTAAAC AGATTATTGA TAGGGATAAG CATGCTCTTC TAGATGTGAC TCCAAATGCT 
    GTGGACCGCT TAAATTATGC ACAATGGTAT CCGATAGTAG TGTTTCTTAA CCCAGACTCT 
    AAACAAGGTG TGAAAACAAT GAGAATGAGG TTATGCCCAG AATCACGCAA AAGTGCCAGG 
    AAACTATATG AACGTTCACA CAAACTACGC AAAAACAATC ACCATCTTTT CACAACTACA 
    ATAAATCTCA ACTCCATGAA TGATGGCTGG TATGGTGGCC TTAAAGAGGC AGCACAGCAG 
    CAACAGAACC AGCTAGTTTG GGTCTCAGAG GGCAAAGCAG AAGGTGGCAC AGATGATGAC 
    CTTGATTTGC ATGACGACCG TCTTTCCTAC CTATCAGCAC CAGGTAGTGA ATATTCAATG 
    TATAGCACTG ATAGTAGGCA CACATCAGAC TATGAAGACA CAGACACAGA AGGAGGGGCT 
    TACACTGACC AGGACCTGGA TGAGACACTT AATGATGAGG CTGGGACTCC ACCAGAATCT 
    GCAATCACAC GATCTTCTGA ACCAGTCAGA GAAGACACAT CAGGGATGCA AGAAAACCCA 
    GCATACCCAA CATATCCACC TCAGCCAATC CTTAGAACAG ATTCTCCTGG GTATAAAAAT 
    GTACCTTCTC AACAGAAAGC AGAAGCCTTA CCTGCAGCCC CTTACCTTTC TGTGTCGTCT 
    GAAACAAACC ATACAACTTC AACTGCTGCT GTTAATCCCA TGGTAAATCT AAATAATGTT 
    CGATTGGAGG ATCCCAACCA TGCCCCTTAC AGCTCTTATC AATCACAGGG TGGCCTTTTG 
    AGATCACCAA GCACTGAGGC AGCTCATATT ATACTAAGAG ACCAAGAACC TTCATCTTTA 
    CCAGTGCAAA TTGACTCAGC AAAGGTTTAT AGAAAAGAGG CCTATGCTAT GGAAGAGAAT 
    CCTAGACAAA ATTATTTGAT GAAGCAGCAA GTGCTTGGCC ATCAAATTCA AAGACATGAA 
    AAAGAGACCA ATTTAAACTA TGATGGCGTG CCAGCATATG CAGAGAAACC ACTGAATAGA 
    GAATATGACC AGTCTTATTG CTATGATTCT ACTTCTGATT ATGTAGATCA GTTTCCCCAC 
    AATTATGATT CTCGAATAAA TTTTGATGAT CACGTGCCTA CATATGATGA ACAGTGGGGT 
    TATTATGATG ACAAACAGTC ATATCCCCAG AGACCACCAT TTGACAGTAA ACGCAATAGG 
    GACTTCAATA TTAGACAGCA CTCTGATGAA AACCTTGAAC GTAATTACTT TCAGCAGCCT 
    CGATTGGAGG AGCCACCTCC TGTTGCTTAT GACAATCGCC CCCGCCCATC CCAAAACTAC 
    AAACCAACCC AAGTACATTA TGAAGACTCC ACAACAGCAG AGTATGATAT GCATATGCGT 
    TACAAACCTG AACCTCAAAC CATTCCTTCT GTGCCAACAT CAAAGTCTTC TGATGCAAAG 
    CCGTATTTTG ATCAACACAT AAGGGGTTAT GAACATAGTC CTACCCAGGT ATTTAACACA 
    AAACCAGGGC AGTATGATAC ATCTCCTAGA ATGGAGGCAA TGCCACCTCC ACCTGTTCAG 
    AGTAAGCCAG AGCTCCTTTC AACAAGCTCA AAACCTTTGC CTGCCCCTGC TCCTTCCGTT 
    GCTCCTGCAG CAACTGAAGA AGACGATGAT CCAGCTATGA AGCCACAGTC TGTACTTACT 
    AGAGTGAAAA TGTTTGAGAA CAAACGTTCT AATCAAGGTG AAAAGAACAA GGATATAAAT 
    GATTCCACTC TTGTTAAGGC CCCAGATGTT GCACCTAAAC CTATACTTAA TCAAGTAAGT 
    GCTACAAAGG CTGCCCCCGT TCCACATTAT GATCAGGACA AGGCAACTTA TAGAGTACCT 
    GAACCTCAAA AGCCTCAAGT GAAGCCCCCA GAAGATATAA TTCGGGCCAA CCACTATGAC 
    CCCGATGAAG ATGAAGAATA CTATCGAAAG CAGCTGTCTT ACTTTGATCG AAGAAGCTTT 
    GAAAAGCCCA CACCCTTGCT GTCTGGAAAC ATCCTGCCTG AGCCTGCCAA ACCAGCGCAG 
    TCTCAAAGCC AACTTAGCTT TAACAGCTAC CCCTCCAAGG GAAAGCCTGC AGATTTGGAG 
    CCACTTGACA GACCCATTAA TGAAAAACGC TATGATCCAG TTCCACAGGT TACTTCTTCT 
    AACCAGTATA CTCAGCCTTC ACCAGTGGTT GTAAATCATT CAACACACAC TAAACATATG 
    CATTTAGAAG CCAGCTCTGT GTCTGTGGAG GTTCCAAGTT CCACAGTGTC TAAGCCAGAG 
    CCCCCACCTA CTCAGGCCAA GCCAACATTG TTCCGACCAT CAAACAGAGA GGACACTGTA 
    CAGTCAAACT TCTATCCTCA GAAGAGTTTC CCTGAAAAAA GCCCTGTAAA TGGCACTGAA 
    CAGGCTCCAA AAACAGTAAC ACCATCCTAC AATCGTTTTA CACCTAAACC TTACACAAAT 
    TCAGCGAGAC CCTTTGAACG CAAGTTTGAA AGCCCAAAAT TTAACCACAA CCTCCTGCCA 
    AATGAAGCAC AAGTAAAGCC AGAGCTGCCC ACTAAACCTC AGAATTCTCC ACAGCCTGTT 
    TTAAAATCAA ATACGTCAAT TTCTTCTGAA CTGGATAGCA TATCCAAGCA AACGGAGAAC 
    AAATCTAAAT ATCAACCAAA CAATGTTAAT CCAGTGCCTA AAGCAATCCC AGTCAGTCCT 
    TCTGCATTGG AAGATGACGA TGAAGATGAT GCACATACAG TTGTAGCAAC AGCTAGAGGC 
    TTCTTTAATA GTAATGGAGG TGTGTTAAGT TCCATAGAAA CGGGAGTCAG TATCATCATA 
    CCCCAAGGAG CAATTCCAGA TGGCATTGAG CAAGAAATAT ATTTCAAGGT CTGCAGGGAT 
    AACAGTATCC TTCCACCCTT GGACAAAGAG AAAGGAGAGA CGCTACTTAG TCCATTAGTA 
    ATGTGCGGAC CTCATGGGTT AAAATTCGTG AAACCAGTGG AGCTACGCTT ACCACACTGT 
    GCGTCTATGA CTCCTGATGG TTGGTCTTTT GCTCTAAAAT CATCCGACAC CTCGTCGGGT 
    GACCCAAAAC ACTGGCAGAA CAAGTCACTT CCTGGCGACC CCAACTATCT TGTCGGAGCA 
    AACTGTGTCT CAGTTTTGAT AGACCACTTC TAA

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

    RefSeq XP_031755020.1
    CDS25..5517
    Translation

    Target ORF information:

    RefSeq Version XM_031899160.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis tight junction protein 1 (tjp1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031899160.1

    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
    ATGAAATACC AGAAATACCT GACTGTGCTG CAGATGGCGA TCGGAGTGAC TCCTTCCAAC 
    AGAGGGAATA TACTGCCTTA CAAGCGGAGG CTGTGGGTCA CTCCGTCATC TGAGAATCCC 
    AATGCTGCTG CATCGAGTAC GAGTCAGGGA AAACCATCTC TAAGGAGAAT AAAGGGACGG 
    ATCCACAGAA GCAAAAGCTT GGATAGCGTT GACCTCTGCG ATTTTAATAA TACTGTAATG 
    GAAGAAACTG CAATATGGGA ACAGCAAACA GTTACTCTCC ACAGGGCCCC TGGATTTGGA 
    TTTGGCATTG CAATATCTGG AGGCAGAGAT AACCCACATT TTCAAAGTGG GGAAACATCA 
    ATTGTCATCT CTGATGTTCT TAAAGGAGGG CCTGCAGAAG GTTTGCTTCA GGAAAATGAT 
    CGTGTTGCAA TGGTCAATGG GGTTTCTATG GATAATGTCG AGCATGCCTT TGCTGTTCAG 
    CAGTTGAGGA AAAGTGGAAA AAATGCCAAA ATTACTATCC GGCGGAAGAA AAAAGTGCAA 
    CTTCCAGTAG TTCGTTCTGA CCCAGACCCA GTGTCTGAGA ATGAAGAGGA CAGTTATGAG 
    GAGGATGTGC CTGACCAGAG AAGTGCCCAC AGTGGTCCTG GTGCCAGCAG GAGAAGTGAA 
    AAAAGTTGGG TGAGGGACAG AAGTGCAAGC AGAGAAAGAA GTTTATCACC AAGATCAGAC 
    AGAAGATCTG TTTCTTCCAG TCAACCTGCT AAACCTACCA AAGTGACCTT GGTGAAATCT 
    AGAAAAAATG AAGAATATGG TTTAAGGTTG GCTAGCCACA TATTTGTAAA AGAAATTTCC 
    CAAGACAGTC TTGCGGCAAG AGATGGAAAT ATTCAAGAAG GGGATGTTGT GCTTAAGATT 
    AATGGCACAG TCACAGAAAA CATGTCTTTG GCTGATGCAA AAACATTAAT AGAAAGGTCG 
    AAGGGCAAAT TAAAAATGGT AGTTCAAAGA GATGAACGAG CAACTCTACT TAATGTCCCA 
    GATCTAGATG ACAGTCTCCA TTCTGCAAAT GCTTCAGAAA GAGATGACAT TTCAGAAATT 
    CAGTCGCTAA CATCAGATCA TTCCAACCGT TCACATGATA AACCTCGCCG TAGCCGTTCA 
    CGGTCACCGG ACCAGAGGTC AGAGCCTTCA GACCATTCCA GACATTCTCC ACAACAGCAC 
    AGCAACAGCA GTAGTCGAAG TCGAGAGGAT GAAAGAGTTT CAAAGCCTGG TGCAATATCT 
    ACTCCGGTGA AGAATGTCAA TAGTGTACCT CTTTCCAGAA CTGCAGAAGA ACCCTTTTTA 
    GAAAAGGCAG ATAAACAAAC ACCTCCTCTT CCAGAGCCAA AACCTGTATA TGCCCAGCCA 
    GGACAACCAG ATGTGGATTT GCCAGTCAGC CCATCTGATG GACCTTTCCC TAATTCTACA 
    CATGAAGATG GCATGCTTCG GCCAAGCATG AAACTGGTGA AGTTCAGGAA AGGAGACAGT 
    GTAGGCCTTC GTTTGGCTGG TGGTAATGAT GTGGGAATTT TTGTTGCTGG TGTATTAGAC 
    GACAGTCCTG CCGCAAAAGA AGGTTTGGAG GAAGGGGACC AGATACTCAG AGTTAACAAT 
    GTGGATTTCA CCAATATAAT AAGGGAAGAA GCGGTACTGT TCCTTCTTGA TCTGCCCAAA 
    GGAGAAGAGG TTACCATTCT TGCTCAGAAA AAGAAAGATG TGTATCGCCG CATTGTTGAG 
    TCAGATGTTG GGGATTCATT TTATATAAGA ACTCACTTTG AATATGAGAA AGAGTCACCA 
    TACGGGCTAA GTTTCAACAA AGGAGAGGTC TTTCGAGTTG TGGATACTCT TTACAATGGC 
    AAACTAGGGT CATGGTTGGC CATTAGAATT GGTAGAAATC ACAAGGAGGT GGAAAGAGGG 
    ATAATCCCCA ACAAGAATAG GGCTGAGCAA CTGGCTAGTG TACAGTACAC TCTTCCTAAA 
    ACTGCTGGTG GAGATCGTGC AGACTTCTGG AGATTCCGTG GCCTTCGTAG TTCCAAGCGA 
    AATCTACGGA AAAGCAGAGA GGATCTTTCT GCGCAACCTG TTCAAACAAA GTTCCCTGCT 
    TATGAGAGAG TCGTCTTGAG AGAAGCTGGA TTTCTCAGGC CTGTGGTTAT TTTTGGCCCT 
    ATTGCTGACG TTGCAAGAGA AAAGTTGGCA AGAGAAGAAC CAGATATTTA TGAAGTAGCA 
    AGAAGTGAAC CCAGAGATGC AGGTACTGAC CAGCGAAGTT CTGGAATTAT CCGCCTTCAT 
    ACTATTAAAC AGATTATTGA TAGGGATAAG CATGCTCTTC TAGATGTGAC TCCAAATGCT 
    GTGGACCGCT TAAATTATGC ACAATGGTAT CCGATAGTAG TGTTTCTTAA CCCAGACTCT 
    AAACAAGGTG TGAAAACAAT GAGAATGAGG TTATGCCCAG AATCACGCAA AAGTGCCAGG 
    AAACTATATG AACGTTCACA CAAACTACGC AAAAACAATC ACCATCTTTT CACAACTACA 
    ATAAATCTCA ACTCCATGAA TGATGGCTGG TATGGTGGCC TTAAAGAGGC AGCACAGCAG 
    CAACAGAACC AGCTAGTTTG GGTCTCAGAG GGCAAAGCAG AAGGTGGCAC AGATGATGAC 
    CTTGATTTGC ATGACGACCG TCTTTCCTAC CTATCAGCAC CAGGTAGTGA ATATTCAATG 
    TATAGCACTG ATAGTAGGCA CACATCAGAC TATGAAGACA CAGACACAGA AGGAGGGGCT 
    TACACTGACC AGGACCTGGA TGAGACACTT AATGATGAGG CTGGGACTCC ACCAGAATCT 
    GCAATCACAC GATCTTCTGA ACCAGTCAGA GAAGACACAT CAGGGATGCA AGAAAACCCA 
    GCATACCCAA CATATCCACC TCAGCCAATC CTTAGAACAG ATTCTCCTGG GTATAAAAAT 
    GTACCTTCTC AACAGAAAGC AGAAGCCTTA CCTGCAGCCC CTTACCTTTC TGTGTCGTCT 
    GAAACAAACC ATACAACTTC AACTGCTGCT GTTAATCCCA TGGTAAATCT AAATAATGTT 
    CGATTGGAGG ATCCCAACCA TGCCCCTTAC AGCTCTTATC AATCACAGGG TGGCCTTTTG 
    AGATCACCAA GCACTGAGGC AGCTCATATT ATACTAAGAG ACCAAGAACC TTCATCTTTA 
    CCAGTGCAAA TTGACTCAGC AAAGGTTTAT AGAAAAGAGG CCTATGCTAT GGAAGAGAAT 
    CCTAGACAAA ATTATTTGAT GAAGCAGCAA GTGCTTGGCC ATCAAATTCA AAGACATGAA 
    AAAGAGACCA ATTTAAACTA TGATGGCGTG CCAGCATATG CAGAGAAACC ACTGAATAGA 
    GAATATGACC AGTCTTATTG CTATGATTCT ACTTCTGATT ATGTAGATCA GTTTCCCCAC 
    AATTATGATT CTCGAATAAA TTTTGATGAT CACGTGCCTA CATATGATGA ACAGTGGGGT 
    TATTATGATG ACAAACAGTC ATATCCCCAG AGACCACCAT TTGACAGTAA ACGCAATAGG 
    GACTTCAATA TTAGACAGCA CTCTGATGAA AACCTTGAAC GTAATTACTT TCAGCAGCCT 
    CGATTGGAGG AGCCACCTCC TGTTGCTTAT GACAATCGCC CCCGCCCATC CCAAAACTAC 
    AAACCAACCC AAGTACATTA TGAAGACTCC ACAACAGCAG AGTATGATAT GCATATGCGT 
    TACAAACCTG AACCTCAAAC CATTCCTTCT GTGCCAACAT CAAAGTCTTC TGATGCAAAG 
    CCGTATTTTG ATCAACACAT AAGGGGTTAT GAACATAGTC CTACCCAGGT ATTTAACACA 
    AAACCAGGGC AGTATGATAC ATCTCCTAGA ATGGAGGCAA TGCCACCTCC ACCTGTTCAG 
    AGTAAGCCAG AGCTCCTTTC AACAAGCTCA AAACCTTTGC CTGCCCCTGC TCCTTCCGTT 
    GCTCCTGCAG CAACTGAAGA AGACGATGAT CCAGCTATGA AGCCACAGTC TGTACTTACT 
    AGAGTGAAAA TGTTTGAGAA CAAACGTTCT AATCAAGGTG AAAAGAACAA GGATATAAAT 
    GATTCCACTC TTGTTAAGGC CCCAGATGTT GCACCTAAAC CTATACTTAA TCAAGTAAGT 
    GCTACAAAGG CTGCCCCCGT TCCACATTAT GATCAGGACA AGGCAACTTA TAGAGTACCT 
    GAACCTCAAA AGCCTCAAGT GAAGCCCCCA GAAGATATAA TTCGGGCCAA CCACTATGAC 
    CCCGATGAAG ATGAAGAATA CTATCGAAAG CAGCTGTCTT ACTTTGATCG AAGAAGCTTT 
    GAAAAGCCCA CACCCTTGCT GTCTGGAAAC ATCCTGCCTG AGCCTGCCAA ACCAGCGCAG 
    TCTCAAAGCC AACTTAGCTT TAACAGCTAC CCCTCCAAGG GAAAGCCTGC AGATTTGGAG 
    CCACTTGACA GACCCATTAA TGAAAAACGC TATGATCCAG TTCCACAGGT TACTTCTTCT 
    AACCAGTATA CTCAGCCTTC ACCAGTGGTT GTAAATCATT CAACACACAC TAAACATATG 
    CATTTAGAAG CCAGCTCTGT GTCTGTGGAG GTTCCAAGTT CCACAGTGTC TAAGCCAGAG 
    CCCCCACCTA CTCAGGCCAA GCCAACATTG TTCCGACCAT CAAACAGAGA GGACACTGTA 
    CAGTCAAACT TCTATCCTCA GAAGAGTTTC CCTGAAAAAA GCCCTGTAAA TGGCACTGAA 
    CAGGCTCCAA AAACAGTAAC ACCATCCTAC AATCGTTTTA CACCTAAACC TTACACAAAT 
    TCAGCGAGAC CCTTTGAACG CAAGTTTGAA AGCCCAAAAT TTAACCACAA CCTCCTGCCA 
    AATGAAGCAC AAGTAAAGCC AGAGCTGCCC ACTAAACCTC AGAATTCTCC ACAGCCTGTT 
    TTAAAATCAA ATACGTCAAT TTCTTCTGAA CTGGATAGCA TATCCAAGCA AACGGAGAAC 
    AAATCTAAAT ATCAACCAAA CAATGTTAAT CCAGTGCCTA AAGCAATCCC AGTCAGTCCT 
    TCTGCATTGG AAGATGACGA TGAAGATGAT GCACATACAG TTGTAGCAAC AGCTAGAGGC 
    TTCTTTAATA GTAATGGAGG TGTGTTAAGT TCCATAGAAA CGGGAGTCAG TATCATCATA 
    CCCCAAGGAG CAATTCCAGA TGGCATTGAG CAAGAAATAT ATTTCAAGGT CTGCAGGGAT 
    AACAGTATCC TTCCACCCTT GGACAAAGAG AAAGGAGAGA CGCTACTTAG TCCATTAGTA 
    ATGTGCGGAC CTCATGGGTT AAAATTCGTG AAACCAGTGG AGCTACGCTT ACCACACTGT 
    GCGTCTATGA CTCCTGATGG TTGGTCTTTT GCTCTAAAAT CATCCGACAC CTCGTCGGGT 
    GACCCAAAAC ACTGGCAGAA CAAGTCACTT CCTGGCGACC CCAACTATCT TGTCGGAGCA 
    AACTGTGTCT CAGTTTTGAT AGACCACTTC TAA

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

    tjp1 ( XM_031899161.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031755021.1 Xenopus tropicalis tight junction protein 1 (tjp1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OXa55053
    Clone ID Related Accession (Same CDS sequence) XM_031899161.1
    Accession Version XM_031899161.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5454bp)
    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 tight junction protein ZO-1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030679.2) 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
    ATGAAATACC AGAAATACCT GACTGTGCTG CAGATGGCGA TCGGAGTGAC TCCTTCCAAC 
    AGAGGGAATA TACTGCCTTA CAAGCGGAGG CTGTGGGTCA CTCCGTCATC TGAGAATCCC 
    AATGCTGCTG CATCGAGTAC GAGTCAGGGA AAACCATCTC TAAGGAGAAT AAAGGGACGG 
    ATCCACAGAA GCAAAAGCTT GGATAGCGTT GACCTCTGCG ATTTTAATAA TACTGTAATG 
    GAAGAAACTG CAATATGGGA ACAGCAAACA GTTACTCTCC ACAGGGCCCC TGGATTTGGA 
    TTTGGCATTG CAATATCTGG AGGCAGAGAT AACCCACATT TTCAAAGTGG GGAAACATCA 
    ATTGTCATCT CTGATGTTCT TAAAGGAGGG CCTGCAGAAG GTTTGCTTCA GGAAAATGAT 
    CGTGTTGCAA TGGTCAATGG GGTTTCTATG GATAATGTCG AGCATGCCTT TGCTGTTCAG 
    CAGTTGAGGA AAAGTGGAAA AAATGCCAAA ATTACTATCC GGCGGAAGAA AAAAGTGCAA 
    CTTCCAGTAG TTCGTTCTGA CCCAGACCCA GTGTCTGAGA ATGAAGAGGA CAGTTATGAG 
    GAGGATGTGC CTGACCAGAG AAGTGCCCAC AGTGGTCCTG GTGCCAGCAG GAGAAGTGAA 
    AAAAGTTGGG TGAGGGACAG AAGTGCAAGC AGAGAAAGAA GTTTATCACC AAGATCAGAC 
    AGAAGATCTG TTTCTTCCAG TCAACCTGCT AAACCTACCA AAGTGACCTT GGTGAAATCT 
    AGAAAAAATG AAGAATATGG TTTAAGGTTG GCTAGCCACA TATTTGTAAA AGAAATTTCC 
    CAAGACAGTC TTGCGGCAAG AGATGGAAAT ATTCAAGAAG GGGATGTTGT GCTTAAGATT 
    AATGGCACAG TCACAGAAAA CATGTCTTTG GCTGATGCAA AAACATTAAT AGAAAGGTCG 
    AAGGGCAAAT TAAAAATGGT AGTTCAAAGA GATGAACGAG CAACTCTACT TAATGTCCCA 
    GATCTAGATG ACAGTCTCCA TTCTGCAAAT GCTTCAGAAA GAGATGACAT TTCAGAAATT 
    CAGTCGCTAA CATCAGATCA TTCCAACCGT TCACATGATA AACCTCGCCG TAGCCGTTCA 
    CGGTCACCGG ACCAGAGGTC AGAGCCTTCA GACCATTCCA GACATTCTCC ACAACAGCAC 
    AGCAACAGCA GTAGTCGAAG TCGAGAGGAT GAAAGAGTTT CAAAGCCTGG TGCAATATCT 
    ACTCCGGTGA AGAATGTCAA TAGTGTACCT CTTTCCAGAA CTGCAGAAGA ACCCTTTTTA 
    GAAAAGGCAG ATAAACAAAC ACCTCCTCTT CCAGAGCCAA AACCTGTATA TGCCCAGCCA 
    GGACAACCAG ATGTGGATTT GCCAGTCAGC CCATCTGATG GACCTTTCCC TAATTCTACA 
    CATGAAGATG GCATGCTTCG GCCAAGCATG AAACTGGTGA AGTTCAGGAA AGGAGACAGT 
    GTAGGCCTTC GTTTGGCTGG TGGTAATGAT GTGGGAATTT TTGTTGCTGG TGTATTAGAC 
    GACAGTCCTG CCGCAAAAGA AGGTTTGGAG GAAGGGGACC AGATACTCAG AGTTAACAAT 
    GTGGATTTCA CCAATATAAT AAGGGAAGAA GCGGTACTGT TCCTTCTTGA TCTGCCCAAA 
    GGAGAAGAGG TTACCATTCT TGCTCAGAAA AAGAAAGATG TGTATCGCCG CATTGTTGAG 
    TCAGATGTTG GGGATTCATT TTATATAAGA ACTCACTTTG AATATGAGAA AGAGTCACCA 
    TACGGGCTAA GTTTCAACAA AGGAGAGGTC TTTCGAGTTG TGGATACTCT TTACAATGGC 
    AAACTAGGGT CATGGTTGGC CATTAGAATT GGTAGAAATC ACAAGGAGGT GGAAAGAGGG 
    ATAATCCCCA ACAAGAATAG GGCTGAGCAA CTGGCTAGTG TACAGTACAC TCTTCCTAAA 
    ACTGCTGGTG GAGATCGTGC AGACTTCTGG AGATTCCGTG GCCTTCGTAG TTCCAAGCGA 
    AATCTACGGA AAAGCAGAGA GGATCTTTCT GCGCAACCTG TTCAAACAAA GTTCCCTGCT 
    TATGAGAGAG TCGTCTTGAG AGAAGCTGGA TTTCTCAGGC CTGTGGTTAT TTTTGGCCCT 
    ATTGCTGACG TTGCAAGAGA AAAGTTGGCA AGAGAAGAAC CAGATATTTA TGAAGTAGCA 
    AGAAGTGAAC CCAGAGATGC AGGTACTGAC CAGCGAAGTT CTGGAATTAT CCGCCTTCAT 
    ACTATTAAAC AGATTATTGA TAGGGATAAG CATGCTCTTC TAGATGTGAC TCCAAATGCT 
    GTGGACCGCT TAAATTATGC ACAATGGTAT CCGATAGTAG TGTTTCTTAA CCCAGACTCT 
    AAACAAGGTG TGAAAACAAT GAGAATGAGG TTATGCCCAG AATCACGCAA AAGTGCCAGG 
    AAACTATATG AACGTTCACA CAAACTACGC AAAAACAATC ACCATCTTTT CACAACTACA 
    ATAAATCTCA ACTCCATGAA TGATGGCTGG TATGGTGGCC TTAAAGAGGC AGCACAGCAG 
    CAACAGAACC AGCTAGTTTG GGTCTCAGAG GGCAAAGCAG AAGGTGGCAC AGATGATGAC 
    CTTGATTTGC ATGACGACCG TCTTTCCTAC CTATCAGCAC CAGGTAGTGA ATATTCAATG 
    TATAGCACTG ATAGTAGGCA CACATCAGAC TATGAAGACA CAGACACAGA AGGAGGGGCT 
    TACACTGACC AGGACCTGGA TGAGACACTT AATGATGAGG CTGGGACTCC ACCAGAATCT 
    GCAATCACAC GATCTTCTGA ACCAGTCAGA GAAGACACAT CAGGGATGCA AGAAAACCCA 
    GCATACCCAA CATATCCACC TCAGCCAATC CTTAGAACAG ATTCTCCTGG GTATAAAAAT 
    GTACCTTCTC AACAGAAAGC AGAAGCCTTA CCTGCAGCCC CTTACCTTTC TGTGTCGTCT 
    GAAACAAACC ATACAACTTC AACTGCTGCT GTTAATCCCA TGGTAAATCT AAATAATGTT 
    CGATTGGAGG ATCCCAACCA TGCCCCTTAC AGCTCTTATC AATCACAGGG TGGCCTTTTG 
    AGATCACCAA GCACTGAGGC AGCTCATATT ATACTAAGAG ACCAAGAACC TTCATCTTTA 
    CCAGTGCAAA TTGACTCAGC AAAGGTTTAT AGAAAAGAGG CCTATGCTAT GGAAGAGAAT 
    CCTAGACAAA ATTATTTGAT GAAGCAGCAA GTGCTTGGCC ATCAAATTCA AAGACATGAA 
    AAAGAGACCA ATTTAAACTA TGATGGCGTG CCAGCATATG CAGAGAAACC ACTGAATAGA 
    GAATATGACC AGTCTTATTG CTATGATTCT ACTTCTGATT ATGTAGATCA GTTTCCCCAC 
    AATTATGATT CTCGAATAAA TTTTGATGAT CACGTGCCTA CATATGATGA ACAGTGGGGT 
    TATTATGATG ACAAACAGTC ATATCCCCAG AGACCACCAT TTGACAGTAA ACGCAATAGG 
    GACTTCAATA TTAGACAGCA CTCTGATGAA AACCTTGAAC GTAATTACTT TCAGCAGCCT 
    CGATTGGAGG AGCCACCTCC TGTTGCTTAT GACAATCGCC CCCGCCCATC CCAAAACTAC 
    AAACCAACCC AAGTACATTA TGAAGACTCC ACAACAGCAG AGTATGATAT GCATATGCGT 
    TACAAACCTG AACCTCAAAC CATTCCTTCT GTGCCAACAT CAAAGTCTTC TGATGCAAAG 
    CCGTATTTTG ATCAACACAT AAGGGGTTAT GAACATAGTC CTACCCAGGT ATTTAACACA 
    AAACCAGGGC AGTATGATAC ATCTCCTAGA ATGGAGGCAA TGCCACCTCC ACCTGTTCAG 
    AGTAAGCCAG AGCTCCTTTC AACAAGCTCA AAACCTTTGC CTGCCCCTGC TCCTTCCGTT 
    GCTCCTGCAG CAACTGAAGA AGACGATGAT CCAGCTATGA AGCCACAGTC TGTACTTACT 
    AGAGTGAAAA TGTTTGAGAA CAAACGTTCT AATCAAGGTG AAAAGAACAA GGATATAAAT 
    GATTCCACTC TTGTTAAGGC CCCAGATGTT GCACCTAAAC CTATACTTAA TCAAGTAAGT 
    GCTACAAAGG CTGCCCCCGT TCCACATTAT GATCAGGACA AGGCAACTTA TAGAGTACCT 
    GAACCTCAAA AGCCTCAAGT GAAGCCCCCA GAAGATATAA TTCGGGCCAA CCACTATGAC 
    CCCGATGAAG ATGAAGAATA CTATCGAAAG CAGCTGTCTT ACTTTGATCG AAGAAGCTTT 
    GAAAAGCCCA CACCCTTGCT GTCTGGAAAC ATCCTGCCTG AGCCTGCCAA ACCAGCGCAG 
    TCTCAAAGCC AACTTAGCTT TAACAGCTAC CCCTCCAAGG GAAAGCCTGC AGATTTGGAG 
    CCACTTGACA GACCCATTAA TGAAAAACGC TATGATCCAG TTCCACAGGT TACTTCTTCT 
    AACCAGTATA CTCAGCCTTC ACCAGTGGTT GTAAATCATT CAACACACAC TAAACATATG 
    CATTTAGAAG CCAGCTCTGT GTCTGTGGAG GTTCCAAGTT CCACAGTGTC TAAGCCAGAG 
    CCCCCACCTA CTCAGGCCAA GCCAACATTG TTCCGACCAT CAAACAGAGA GGACACTGTA 
    CAGTCAAACT TCTATCCTCA GAAGAGTTTC CCTGAAAAAA GCCCTGTAAA TGGCACTGAA 
    CAGGCTCCAA AAACAGTAAC ACCATCCTAC AATCGTTTTA CACCTAAACC TTACACAAAT 
    TCAGCGAGAC CCTTTGAACG CAAGTTTGAA AGCCCAAAAT TTAACCACAA CCTCCTGCCA 
    AATGAAGCAC AAGTAAAGCC AGAGCTGCCC ACTAAACCTC AGAATTCTCC ACAGCCTGTT 
    TTAAAATCAA ATACGTCAAT TTCTTCTGAA CTGGATAGCA TATCCAAGCA AACGGAGAAC 
    AAATCTAAAT ATCAACCAAA CAATGTTAAT CCAGTGCCTA AAGCAATCCC AGTCAGTCCT 
    TCTGCATTGG AAGATGACGA TGAAGATGAT GCACATACAG TTGTAGCAAC AGCTAGAGGC 
    TTCTTTAATA GTAATGGAGG TGTGTTAAGT TCCATAGAAA CGGGAGTCAG TATCATCATA 
    CCCCAAGGAG CAATTCCAGA TGGCATTGAG CAAGAAATAT ATTTCAAGGT CTGCAGGGAT 
    AACAGTATCC TTCCACCCTT GGACAAAGAG AAAGGAGAGA CGCTACTTAG TCCATTAGTA 
    ATGTGCGGAC CTCATGGGTT AAAATTCGTG AAACCAGTGG AGCTACGCTT ACCACACTGT 
    GCGTCTATGA CTCCTGATGG TGACCCAAAA CACTGGCAGA ACAAGTCACT TCCTGGCGAC 
    CCCAACTATC TTGTCGGAGC AAACTGTGTC TCAGTTTTGA TAGACCACTT CTAA

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

    RefSeq XP_031755021.1
    CDS25..5478
    Translation

    Target ORF information:

    RefSeq Version XM_031899161.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis tight junction protein 1 (tjp1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031899161.1

    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
    ATGAAATACC AGAAATACCT GACTGTGCTG CAGATGGCGA TCGGAGTGAC TCCTTCCAAC 
    AGAGGGAATA TACTGCCTTA CAAGCGGAGG CTGTGGGTCA CTCCGTCATC TGAGAATCCC 
    AATGCTGCTG CATCGAGTAC GAGTCAGGGA AAACCATCTC TAAGGAGAAT AAAGGGACGG 
    ATCCACAGAA GCAAAAGCTT GGATAGCGTT GACCTCTGCG ATTTTAATAA TACTGTAATG 
    GAAGAAACTG CAATATGGGA ACAGCAAACA GTTACTCTCC ACAGGGCCCC TGGATTTGGA 
    TTTGGCATTG CAATATCTGG AGGCAGAGAT AACCCACATT TTCAAAGTGG GGAAACATCA 
    ATTGTCATCT CTGATGTTCT TAAAGGAGGG CCTGCAGAAG GTTTGCTTCA GGAAAATGAT 
    CGTGTTGCAA TGGTCAATGG GGTTTCTATG GATAATGTCG AGCATGCCTT TGCTGTTCAG 
    CAGTTGAGGA AAAGTGGAAA AAATGCCAAA ATTACTATCC GGCGGAAGAA AAAAGTGCAA 
    CTTCCAGTAG TTCGTTCTGA CCCAGACCCA GTGTCTGAGA ATGAAGAGGA CAGTTATGAG 
    GAGGATGTGC CTGACCAGAG AAGTGCCCAC AGTGGTCCTG GTGCCAGCAG GAGAAGTGAA 
    AAAAGTTGGG TGAGGGACAG AAGTGCAAGC AGAGAAAGAA GTTTATCACC AAGATCAGAC 
    AGAAGATCTG TTTCTTCCAG TCAACCTGCT AAACCTACCA AAGTGACCTT GGTGAAATCT 
    AGAAAAAATG AAGAATATGG TTTAAGGTTG GCTAGCCACA TATTTGTAAA AGAAATTTCC 
    CAAGACAGTC TTGCGGCAAG AGATGGAAAT ATTCAAGAAG GGGATGTTGT GCTTAAGATT 
    AATGGCACAG TCACAGAAAA CATGTCTTTG GCTGATGCAA AAACATTAAT AGAAAGGTCG 
    AAGGGCAAAT TAAAAATGGT AGTTCAAAGA GATGAACGAG CAACTCTACT TAATGTCCCA 
    GATCTAGATG ACAGTCTCCA TTCTGCAAAT GCTTCAGAAA GAGATGACAT TTCAGAAATT 
    CAGTCGCTAA CATCAGATCA TTCCAACCGT TCACATGATA AACCTCGCCG TAGCCGTTCA 
    CGGTCACCGG ACCAGAGGTC AGAGCCTTCA GACCATTCCA GACATTCTCC ACAACAGCAC 
    AGCAACAGCA GTAGTCGAAG TCGAGAGGAT GAAAGAGTTT CAAAGCCTGG TGCAATATCT 
    ACTCCGGTGA AGAATGTCAA TAGTGTACCT CTTTCCAGAA CTGCAGAAGA ACCCTTTTTA 
    GAAAAGGCAG ATAAACAAAC ACCTCCTCTT CCAGAGCCAA AACCTGTATA TGCCCAGCCA 
    GGACAACCAG ATGTGGATTT GCCAGTCAGC CCATCTGATG GACCTTTCCC TAATTCTACA 
    CATGAAGATG GCATGCTTCG GCCAAGCATG AAACTGGTGA AGTTCAGGAA AGGAGACAGT 
    GTAGGCCTTC GTTTGGCTGG TGGTAATGAT GTGGGAATTT TTGTTGCTGG TGTATTAGAC 
    GACAGTCCTG CCGCAAAAGA AGGTTTGGAG GAAGGGGACC AGATACTCAG AGTTAACAAT 
    GTGGATTTCA CCAATATAAT AAGGGAAGAA GCGGTACTGT TCCTTCTTGA TCTGCCCAAA 
    GGAGAAGAGG TTACCATTCT TGCTCAGAAA AAGAAAGATG TGTATCGCCG CATTGTTGAG 
    TCAGATGTTG GGGATTCATT TTATATAAGA ACTCACTTTG AATATGAGAA AGAGTCACCA 
    TACGGGCTAA GTTTCAACAA AGGAGAGGTC TTTCGAGTTG TGGATACTCT TTACAATGGC 
    AAACTAGGGT CATGGTTGGC CATTAGAATT GGTAGAAATC ACAAGGAGGT GGAAAGAGGG 
    ATAATCCCCA ACAAGAATAG GGCTGAGCAA CTGGCTAGTG TACAGTACAC TCTTCCTAAA 
    ACTGCTGGTG GAGATCGTGC AGACTTCTGG AGATTCCGTG GCCTTCGTAG TTCCAAGCGA 
    AATCTACGGA AAAGCAGAGA GGATCTTTCT GCGCAACCTG TTCAAACAAA GTTCCCTGCT 
    TATGAGAGAG TCGTCTTGAG AGAAGCTGGA TTTCTCAGGC CTGTGGTTAT TTTTGGCCCT 
    ATTGCTGACG TTGCAAGAGA AAAGTTGGCA AGAGAAGAAC CAGATATTTA TGAAGTAGCA 
    AGAAGTGAAC CCAGAGATGC AGGTACTGAC CAGCGAAGTT CTGGAATTAT CCGCCTTCAT 
    ACTATTAAAC AGATTATTGA TAGGGATAAG CATGCTCTTC TAGATGTGAC TCCAAATGCT 
    GTGGACCGCT TAAATTATGC ACAATGGTAT CCGATAGTAG TGTTTCTTAA CCCAGACTCT 
    AAACAAGGTG TGAAAACAAT GAGAATGAGG TTATGCCCAG AATCACGCAA AAGTGCCAGG 
    AAACTATATG AACGTTCACA CAAACTACGC AAAAACAATC ACCATCTTTT CACAACTACA 
    ATAAATCTCA ACTCCATGAA TGATGGCTGG TATGGTGGCC TTAAAGAGGC AGCACAGCAG 
    CAACAGAACC AGCTAGTTTG GGTCTCAGAG GGCAAAGCAG AAGGTGGCAC AGATGATGAC 
    CTTGATTTGC ATGACGACCG TCTTTCCTAC CTATCAGCAC CAGGTAGTGA ATATTCAATG 
    TATAGCACTG ATAGTAGGCA CACATCAGAC TATGAAGACA CAGACACAGA AGGAGGGGCT 
    TACACTGACC AGGACCTGGA TGAGACACTT AATGATGAGG CTGGGACTCC ACCAGAATCT 
    GCAATCACAC GATCTTCTGA ACCAGTCAGA GAAGACACAT CAGGGATGCA AGAAAACCCA 
    GCATACCCAA CATATCCACC TCAGCCAATC CTTAGAACAG ATTCTCCTGG GTATAAAAAT 
    GTACCTTCTC AACAGAAAGC AGAAGCCTTA CCTGCAGCCC CTTACCTTTC TGTGTCGTCT 
    GAAACAAACC ATACAACTTC AACTGCTGCT GTTAATCCCA TGGTAAATCT AAATAATGTT 
    CGATTGGAGG ATCCCAACCA TGCCCCTTAC AGCTCTTATC AATCACAGGG TGGCCTTTTG 
    AGATCACCAA GCACTGAGGC AGCTCATATT ATACTAAGAG ACCAAGAACC TTCATCTTTA 
    CCAGTGCAAA TTGACTCAGC AAAGGTTTAT AGAAAAGAGG CCTATGCTAT GGAAGAGAAT 
    CCTAGACAAA ATTATTTGAT GAAGCAGCAA GTGCTTGGCC ATCAAATTCA AAGACATGAA 
    AAAGAGACCA ATTTAAACTA TGATGGCGTG CCAGCATATG CAGAGAAACC ACTGAATAGA 
    GAATATGACC AGTCTTATTG CTATGATTCT ACTTCTGATT ATGTAGATCA GTTTCCCCAC 
    AATTATGATT CTCGAATAAA TTTTGATGAT CACGTGCCTA CATATGATGA ACAGTGGGGT 
    TATTATGATG ACAAACAGTC ATATCCCCAG AGACCACCAT TTGACAGTAA ACGCAATAGG 
    GACTTCAATA TTAGACAGCA CTCTGATGAA AACCTTGAAC GTAATTACTT TCAGCAGCCT 
    CGATTGGAGG AGCCACCTCC TGTTGCTTAT GACAATCGCC CCCGCCCATC CCAAAACTAC 
    AAACCAACCC AAGTACATTA TGAAGACTCC ACAACAGCAG AGTATGATAT GCATATGCGT 
    TACAAACCTG AACCTCAAAC CATTCCTTCT GTGCCAACAT CAAAGTCTTC TGATGCAAAG 
    CCGTATTTTG ATCAACACAT AAGGGGTTAT GAACATAGTC CTACCCAGGT ATTTAACACA 
    AAACCAGGGC AGTATGATAC ATCTCCTAGA ATGGAGGCAA TGCCACCTCC ACCTGTTCAG 
    AGTAAGCCAG AGCTCCTTTC AACAAGCTCA AAACCTTTGC CTGCCCCTGC TCCTTCCGTT 
    GCTCCTGCAG CAACTGAAGA AGACGATGAT CCAGCTATGA AGCCACAGTC TGTACTTACT 
    AGAGTGAAAA TGTTTGAGAA CAAACGTTCT AATCAAGGTG AAAAGAACAA GGATATAAAT 
    GATTCCACTC TTGTTAAGGC CCCAGATGTT GCACCTAAAC CTATACTTAA TCAAGTAAGT 
    GCTACAAAGG CTGCCCCCGT TCCACATTAT GATCAGGACA AGGCAACTTA TAGAGTACCT 
    GAACCTCAAA AGCCTCAAGT GAAGCCCCCA GAAGATATAA TTCGGGCCAA CCACTATGAC 
    CCCGATGAAG ATGAAGAATA CTATCGAAAG CAGCTGTCTT ACTTTGATCG AAGAAGCTTT 
    GAAAAGCCCA CACCCTTGCT GTCTGGAAAC ATCCTGCCTG AGCCTGCCAA ACCAGCGCAG 
    TCTCAAAGCC AACTTAGCTT TAACAGCTAC CCCTCCAAGG GAAAGCCTGC AGATTTGGAG 
    CCACTTGACA GACCCATTAA TGAAAAACGC TATGATCCAG TTCCACAGGT TACTTCTTCT 
    AACCAGTATA CTCAGCCTTC ACCAGTGGTT GTAAATCATT CAACACACAC TAAACATATG 
    CATTTAGAAG CCAGCTCTGT GTCTGTGGAG GTTCCAAGTT CCACAGTGTC TAAGCCAGAG 
    CCCCCACCTA CTCAGGCCAA GCCAACATTG TTCCGACCAT CAAACAGAGA GGACACTGTA 
    CAGTCAAACT TCTATCCTCA GAAGAGTTTC CCTGAAAAAA GCCCTGTAAA TGGCACTGAA 
    CAGGCTCCAA AAACAGTAAC ACCATCCTAC AATCGTTTTA CACCTAAACC TTACACAAAT 
    TCAGCGAGAC CCTTTGAACG CAAGTTTGAA AGCCCAAAAT TTAACCACAA CCTCCTGCCA 
    AATGAAGCAC AAGTAAAGCC AGAGCTGCCC ACTAAACCTC AGAATTCTCC ACAGCCTGTT 
    TTAAAATCAA ATACGTCAAT TTCTTCTGAA CTGGATAGCA TATCCAAGCA AACGGAGAAC 
    AAATCTAAAT ATCAACCAAA CAATGTTAAT CCAGTGCCTA AAGCAATCCC AGTCAGTCCT 
    TCTGCATTGG AAGATGACGA TGAAGATGAT GCACATACAG TTGTAGCAAC AGCTAGAGGC 
    TTCTTTAATA GTAATGGAGG TGTGTTAAGT TCCATAGAAA CGGGAGTCAG TATCATCATA 
    CCCCAAGGAG CAATTCCAGA TGGCATTGAG CAAGAAATAT ATTTCAAGGT CTGCAGGGAT 
    AACAGTATCC TTCCACCCTT GGACAAAGAG AAAGGAGAGA CGCTACTTAG TCCATTAGTA 
    ATGTGCGGAC CTCATGGGTT AAAATTCGTG AAACCAGTGG AGCTACGCTT ACCACACTGT 
    GCGTCTATGA CTCCTGATGG TGACCCAAAA CACTGGCAGA ACAAGTCACT TCCTGGCGAC 
    CCCAACTATC TTGTCGGAGC AAACTGTGTC TCAGTTTTGA TAGACCACTT CTAA

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

    tjp1 ( XM_031899162.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031755022.1 Xenopus tropicalis tight junction protein 1 (tjp1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OXa55054
    Clone ID Related Accession (Same CDS sequence) XM_031899162.1
    Accession Version XM_031899162.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5433bp)
    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 tight junction protein ZO-1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030679.2) 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
    ATGAAATACC AGAAATACCT GACTGTGCTG CAGATGGCGA TCGGAGTGAC TCCTTCCAAC 
    AGAGGGAATA TACTGCCTTA CAAGCGGAGG CTGTGGGTCA CTCCGTCATC TGAGAATCCC 
    AATGCTGCTG CATCGAGTAC GAGTCAGGGA AAACCATCTC TAAGGAGAAT AAAGGGACGG 
    ATCCACAGAA GCAAAAGCTT GGATAGCGTT GACCTCTGCG ATTTTAATAA TACTGTAATG 
    GAAGAAACTG CAATATGGGA ACAGCAAACA GTTACTCTCC ACAGGGCCCC TGGATTTGGA 
    TTTGGCATTG CAATATCTGG AGGCAGAGAT AACCCACATT TTCAAAGTGG GGAAACATCA 
    ATTGTCATCT CTGATGTTCT TAAAGGAGGG CCTGCAGAAG GTTTGCTTCA GGAAAATGAT 
    CGTGTTGCAA TGGTCAATGG GGTTTCTATG GATAATGTCG AGCATGCCTT TGCTGTTCAG 
    CAGTTGAGGA AAAGTGGAAA AAATGCCAAA ATTACTATCC GGCGGAAGAA AAAAGTGCAA 
    CTTCCAGTAG TTCGTTCTGA CCCAGACCCA GTGTCTGAGA ATGAAGAGGA CAGTTATGAG 
    GAGGATGTGC CTGACCAGAG AAGTGCCCAC AGTGGTCCTG GTGCCAGCAG GAGAAGTGAA 
    AAAAGTTGGG TGAGGGACAG AAGTGCAAGC AGAGAAAGAA GTTTATCACC AAGATCAGAC 
    AGAAGATCTG TTTCTTCCAG TCAACCTGCT AAACCTACCA AAGTGACCTT GGTGAAATCT 
    AGAAAAAATG AAGAATATGG TTTAAGGTTG GCTAGCCACA TATTTGTAAA AGAAATTTCC 
    CAAGACAGTC TTGCGGCAAG AGATGGAAAT ATTCAAGAAG GGGATGTTGT GCTTAAGATT 
    AATGGCACAG TCACAGAAAA CATGTCTTTG GCTGATGCAA AAACATTAAT AGAAAGGTCG 
    AAGGGCAAAT TAAAAATGGT AGTTCAAAGA GATGAACGAG CAACTCTACT TAATGTCCCA 
    GATCTAGATG ACAGTCTCCA TTCTGCAAAT GCTTCAGAAA GAGATGACAT TTCAGAAATT 
    CAGTCGCTAA CATCAGATCA TTCCAACCGT TCACATGATA AACCTCGCCG TAGCCGTTCA 
    CGGTCACCGG ACCAGAGGTC AGAGCCTTCA GACCATTCCA GACATTCTCC ACAACAGCAC 
    AGCAACAGCA GTAGTCGAAG TCGAGAGGAT GAAAGAGTTT CAAAGCCTGG TGCAATATCT 
    ACTCCGGTGA AGAATGTCAA TAGTGTACCT CTTTCCAGAA CTGCAGAAGA ACCCTTTTTA 
    GAAAAGGCAG ATAAACAAAC ACCTCCTCTT CCAGAGCCAA AACCTGTATA TGCCCAGCCA 
    GGACAACCAG ATGTGGATTT GCCAGTCAGC CCATCTGATG GACCTTTCCC TAATTCTACA 
    CATGAAGATG GCATGCTTCG GCCAAGCATG AAACTGGTGA AGTTCAGGAA AGGAGACAGT 
    GTAGGCCTTC GTTTGGCTGG TGGTAATGAT GTGGGAATTT TTGTTGCTGG TGTATTAGAC 
    GACAGTCCTG CCGCAAAAGA AGGTTTGGAG GAAGGGGACC AGATACTCAG AGTTAACAAT 
    GTGGATTTCA CCAATATAAT AAGGGAAGAA GCGGTACTGT TCCTTCTTGA TCTGCCCAAA 
    GGAGAAGAGG TTACCATTCT TGCTCAGAAA AAGAAAGATG TGTATCGCCG CATTGTTGAG 
    TCAGATGTTG GGGATTCATT TTATATAAGA ACTCACTTTG AATATGAGAA AGAGTCACCA 
    TACGGGCTAA GTTTCAACAA AGGAGAGGTC TTTCGAGTTG TGGATACTCT TTACAATGGC 
    AAACTAGGGT CATGGTTGGC CATTAGAATT GGTAGAAATC ACAAGGAGGT GGAAAGAGGG 
    ATAATCCCCA ACAAGAATAG GGCTGAGCAA CTGGCTAGTG TACAGTACAC TCTTCCTAAA 
    ACTGCTGGTG GAGATCGTGC AGACTTCTGG AGATTCCGTG GCCTTCGTAG TTCCAAGCGA 
    AATCTACGGA AAAGCAGAGA GGATCTTTCT GCGCAACCTG TTCAAACAAA GTTCCCTGCT 
    TATGAGAGAG TCGTCTTGAG AGAAGCTGGA TTTCTCAGGC CTGTGGTTAT TTTTGGCCCT 
    ATTGCTGACG TTGCAAGAGA AAAGTTGGCA AGAGAAGAAC CAGATATTTA TGAAGTAGCA 
    AGAAGTGAAC CCAGAGATGC AGGTACTGAC CAGCGAAGTT CTGGAATTAT CCGCCTTCAT 
    ACTATTAAAC AGATTATTGA TAGGGATAAG CATGCTCTTC TAGATGTGAC TCCAAATGCT 
    GTGGACCGCT TAAATTATGC ACAATGGTAT CCGATAGTAG TGTTTCTTAA CCCAGACTCT 
    AAACAAGGTG TGAAAACAAT GAGAATGAGG TTATGCCCAG AATCACGCAA AAGTGCCAGG 
    AAACTATATG AACGTTCACA CAAACTACGC AAAAACAATC ACCATCTTTT CACAACTACA 
    ATAAATCTCA ACTCCATGAA TGATGGCTGG TATGGTGGCC TTAAAGAGGC AGCACAGCAG 
    CAACAGAACC AGCTAGTTTG GGTCTCAGAG GGCAAAGCAG AAGGTGGCAC AGATGATGAC 
    CTTGATTTGC ATGACGACCG TCTTTCCTAC CTATCAGCAC CAGGTAGTGA ATATTCAATG 
    TATAGCACTG ATAGTAGGCA CACATCAGAC TATGAAGACA CAGACACAGA AGGAGGGGCT 
    TACACTGACC AGGACCTGGA TGAGACACTT AATGATGAGG CTGGGACTCC ACCAGAATCT 
    GCAATCACAC GATCTTCTGA ACCAGTCAGA GAAGACACAT CAGGGATGCA AGAAAACCCA 
    GCATACCCAA CATATCCACC TCAGCCAATC CTTAGAACAG ATTCTCCTGG GTATAAAAAT 
    GTACCTTCTC AACAGAAAGC AGAAGCCTTA CCTGCAGCCC CTTACCTTTC TGTGTCGTCT 
    GAAACAAACC ATACAACTTC AACTGCTGCT GTTAATCCCA TGGTAAATCT AAATAATGTT 
    CGATTGGAGG ATCCCAACCA TGCCCCTTAC AGCTCTTATC AATCACAGGG TGGCCTTTTG 
    AGATCACCAA GCACTGAGGC AGCTCATATT ATACTAAGAG ACCAAGAACC TTCATCTTTA 
    CCAGTGCAAA TTGACTCAGC AAAGGTTTAT AGAAAAGAGG CCTATGCTAT GGAAGAGAAT 
    CCTAGACAAA ATTATTTGAT GAAGCAGCAA GTGCTTGGCC ATCAAATTCA AAGACATGAA 
    AAAGAGACCA ATTTAAACTA TGATGGCGTG CCAGCATATG CAGAGAAACC ACTGAATAGA 
    GAATATGACC AGTCTTATTG CTATGATTCT ACTTCTGATT ATGTAGATCA GTTTCCCCAC 
    AATTATGATT CTCGAATAAA TTTTGATGAT CACGTGCCTA CATATGATGA ACAGTGGGGT 
    TATTATGATG ACAAACAGTC ATATCCCCAG AGACCACCAT TTGACAGTAA ACGCAATAGG 
    GACTTCAATA TTAGACAGCA CTCTGATGAA AACCTTGAAC GTAATTACTT TCAGCAGCCT 
    CGATTGGAGG AGCCACCTCC TGTTGCTTAT GACAATCGCC CCCGCCCATC CCAAAACTAC 
    AAACCAACCC AAGTACATTA TGAAGACTCC ACAACAGCAG AGTATGATAT GCATATGCGT 
    TACAAACCTG AACCTCAAAC CATTCCTTCT GTGCCAACAT CAAAGTCTTC TGATGCAAAG 
    CCGTATTTTG ATCAACACAT AAGGGGTTAT GAACATAGTC CTACCCAGGT ATTTAACACA 
    AAACCAGGGC AGTATGATAC ATCTCCTAGA ATGGAGGCAA TGCCACCTCC ACCTGTTCAG 
    AGTAAGCCAG AGCTCCTTTC AACAAGCTCA AAACCTTTGC CTGCCCCTGC TCCTTCCGTT 
    GCTCCTGCAG CAACTGAAGA AGACGATGAT CCAGCTATGA AGCCACAGTC TGTACTTACT 
    AGAGTGAAAA TGTTTGAGAA CAAACGTTCT AATCAAGGTG AAAAGAACAA GGATATAAAT 
    GATTCCACTC TTGTTAAGGC CCCAGATGTT GCACCTAAAC CTATACTTAA TCAAGTAAGT 
    GCTACAAAGG CTGCCCCCGT TCCACATTAT GATCAGGACA AGGCAACTTA TAGAGTACCT 
    GAACCTCAAA AGCCTCAAGT GAAGCCCCCA GAAGATATAA TTCGGGCCAA CCACTATGAC 
    CCCGATGAAG ATGAAGAATA CTATCGAAAG CAGCTGTCTT ACTTTGATCG AAGAAGCTTT 
    GAAAAGCCCA CACCCTTGCT GTCTGGAAAC ATCCTGCCTG AGCCTGCCAA ACCAGCGCAG 
    TCTCAAAGCC AACTTAGCTT TAACAGCTAC CCCTCCAAGG GAAAGCCTGC AGATTTGGAG 
    CCACTTGACA GACCCATTAA TGAAAAACGC TATGATCCAG TTCCACAGGT TACTTCTTCT 
    AACCAGTATA CTCAGCCTTC ACCAGTGGTT GTAAATCATT CAACACACAC TAAACATATG 
    CATTTAGAAG CCAGCTCTGT GTCTGTGGAG GTTCCAAGTT CCACAGTGTC TAAGCCAGAG 
    CCCCCACCTA CTCAGGCCAA GCCAACATTG TTCCGACCAT CAAACAGAGA GGACACTGTA 
    CAGTCAAACT TCTATCCTCA GAAGAGTTTC CCTGAAAAAA GCCCTGTAAA TGGCACTGAA 
    CAGGCTCCAA AAACAGTAAC ACCATCCTAC AATCGTTTTA CACCTAAACC TTACACAAAT 
    TCAGCGAGAC CCTTTGAACG CAAGTTTGAA AGCCCAAAAT TTAACCACAA CCTCCTGCCA 
    AATGAAGCAC AAGTAAAGCC AGAGCTGCCC ACTAAACCTC AGAATTCTCC ACAGCCTGTT 
    TTAAAATCAA ATACGTCAAT TTCTTCTGAA CTGGATAGCA TATCCAAGCA AACGGAGAAC 
    AAATCTAAAT ATCAACCAAA CAATGTTAAT CCAGTGCCTA AAGCAATCCC AGTCAGTCCT 
    TCTGCATTGG AAGATGACGA TGAAGATGAT GCACATACAG TTGTAGCAAC AGCTAGAGGC 
    TTCTTTAATA GTAATGGAGG TGTGTTAAGT TCCATAGAAA CGGGAGTCAG TATCATCATA 
    CCCCAAGGAG CAATTCCAGA TGGCATTGAG CAAGAAATAT ATTTCAAGGT CTGCAGGGAT 
    AACAGTATCC TTCCACCCTT GGACAAAGAG AAAGGAGAGA CGCTACTTAG TCCATTAGTA 
    ATGTGCGGAC CTCATGGGTT AAAATTCGTG AAACCAGTGG AGCTACGCTT ACCACACTGT 
    GACCCAAAAC ACTGGCAGAA CAAGTCACTT CCTGGCGACC CCAACTATCT TGTCGGAGCA 
    AACTGTGTCT CAGTTTTGAT AGACCACTTC TAA

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

    RefSeq XP_031755022.1
    CDS25..5457
    Translation

    Target ORF information:

    RefSeq Version XM_031899162.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis tight junction protein 1 (tjp1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031899162.1

    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
    ATGAAATACC AGAAATACCT GACTGTGCTG CAGATGGCGA TCGGAGTGAC TCCTTCCAAC 
    AGAGGGAATA TACTGCCTTA CAAGCGGAGG CTGTGGGTCA CTCCGTCATC TGAGAATCCC 
    AATGCTGCTG CATCGAGTAC GAGTCAGGGA AAACCATCTC TAAGGAGAAT AAAGGGACGG 
    ATCCACAGAA GCAAAAGCTT GGATAGCGTT GACCTCTGCG ATTTTAATAA TACTGTAATG 
    GAAGAAACTG CAATATGGGA ACAGCAAACA GTTACTCTCC ACAGGGCCCC TGGATTTGGA 
    TTTGGCATTG CAATATCTGG AGGCAGAGAT AACCCACATT TTCAAAGTGG GGAAACATCA 
    ATTGTCATCT CTGATGTTCT TAAAGGAGGG CCTGCAGAAG GTTTGCTTCA GGAAAATGAT 
    CGTGTTGCAA TGGTCAATGG GGTTTCTATG GATAATGTCG AGCATGCCTT TGCTGTTCAG 
    CAGTTGAGGA AAAGTGGAAA AAATGCCAAA ATTACTATCC GGCGGAAGAA AAAAGTGCAA 
    CTTCCAGTAG TTCGTTCTGA CCCAGACCCA GTGTCTGAGA ATGAAGAGGA CAGTTATGAG 
    GAGGATGTGC CTGACCAGAG AAGTGCCCAC AGTGGTCCTG GTGCCAGCAG GAGAAGTGAA 
    AAAAGTTGGG TGAGGGACAG AAGTGCAAGC AGAGAAAGAA GTTTATCACC AAGATCAGAC 
    AGAAGATCTG TTTCTTCCAG TCAACCTGCT AAACCTACCA AAGTGACCTT GGTGAAATCT 
    AGAAAAAATG AAGAATATGG TTTAAGGTTG GCTAGCCACA TATTTGTAAA AGAAATTTCC 
    CAAGACAGTC TTGCGGCAAG AGATGGAAAT ATTCAAGAAG GGGATGTTGT GCTTAAGATT 
    AATGGCACAG TCACAGAAAA CATGTCTTTG GCTGATGCAA AAACATTAAT AGAAAGGTCG 
    AAGGGCAAAT TAAAAATGGT AGTTCAAAGA GATGAACGAG CAACTCTACT TAATGTCCCA 
    GATCTAGATG ACAGTCTCCA TTCTGCAAAT GCTTCAGAAA GAGATGACAT TTCAGAAATT 
    CAGTCGCTAA CATCAGATCA TTCCAACCGT TCACATGATA AACCTCGCCG TAGCCGTTCA 
    CGGTCACCGG ACCAGAGGTC AGAGCCTTCA GACCATTCCA GACATTCTCC ACAACAGCAC 
    AGCAACAGCA GTAGTCGAAG TCGAGAGGAT GAAAGAGTTT CAAAGCCTGG TGCAATATCT 
    ACTCCGGTGA AGAATGTCAA TAGTGTACCT CTTTCCAGAA CTGCAGAAGA ACCCTTTTTA 
    GAAAAGGCAG ATAAACAAAC ACCTCCTCTT CCAGAGCCAA AACCTGTATA TGCCCAGCCA 
    GGACAACCAG ATGTGGATTT GCCAGTCAGC CCATCTGATG GACCTTTCCC TAATTCTACA 
    CATGAAGATG GCATGCTTCG GCCAAGCATG AAACTGGTGA AGTTCAGGAA AGGAGACAGT 
    GTAGGCCTTC GTTTGGCTGG TGGTAATGAT GTGGGAATTT TTGTTGCTGG TGTATTAGAC 
    GACAGTCCTG CCGCAAAAGA AGGTTTGGAG GAAGGGGACC AGATACTCAG AGTTAACAAT 
    GTGGATTTCA CCAATATAAT AAGGGAAGAA GCGGTACTGT TCCTTCTTGA TCTGCCCAAA 
    GGAGAAGAGG TTACCATTCT TGCTCAGAAA AAGAAAGATG TGTATCGCCG CATTGTTGAG 
    TCAGATGTTG GGGATTCATT TTATATAAGA ACTCACTTTG AATATGAGAA AGAGTCACCA 
    TACGGGCTAA GTTTCAACAA AGGAGAGGTC TTTCGAGTTG TGGATACTCT TTACAATGGC 
    AAACTAGGGT CATGGTTGGC CATTAGAATT GGTAGAAATC ACAAGGAGGT GGAAAGAGGG 
    ATAATCCCCA ACAAGAATAG GGCTGAGCAA CTGGCTAGTG TACAGTACAC TCTTCCTAAA 
    ACTGCTGGTG GAGATCGTGC AGACTTCTGG AGATTCCGTG GCCTTCGTAG TTCCAAGCGA 
    AATCTACGGA AAAGCAGAGA GGATCTTTCT GCGCAACCTG TTCAAACAAA GTTCCCTGCT 
    TATGAGAGAG TCGTCTTGAG AGAAGCTGGA TTTCTCAGGC CTGTGGTTAT TTTTGGCCCT 
    ATTGCTGACG TTGCAAGAGA AAAGTTGGCA AGAGAAGAAC CAGATATTTA TGAAGTAGCA 
    AGAAGTGAAC CCAGAGATGC AGGTACTGAC CAGCGAAGTT CTGGAATTAT CCGCCTTCAT 
    ACTATTAAAC AGATTATTGA TAGGGATAAG CATGCTCTTC TAGATGTGAC TCCAAATGCT 
    GTGGACCGCT TAAATTATGC ACAATGGTAT CCGATAGTAG TGTTTCTTAA CCCAGACTCT 
    AAACAAGGTG TGAAAACAAT GAGAATGAGG TTATGCCCAG AATCACGCAA AAGTGCCAGG 
    AAACTATATG AACGTTCACA CAAACTACGC AAAAACAATC ACCATCTTTT CACAACTACA 
    ATAAATCTCA ACTCCATGAA TGATGGCTGG TATGGTGGCC TTAAAGAGGC AGCACAGCAG 
    CAACAGAACC AGCTAGTTTG GGTCTCAGAG GGCAAAGCAG AAGGTGGCAC AGATGATGAC 
    CTTGATTTGC ATGACGACCG TCTTTCCTAC CTATCAGCAC CAGGTAGTGA ATATTCAATG 
    TATAGCACTG ATAGTAGGCA CACATCAGAC TATGAAGACA CAGACACAGA AGGAGGGGCT 
    TACACTGACC AGGACCTGGA TGAGACACTT AATGATGAGG CTGGGACTCC ACCAGAATCT 
    GCAATCACAC GATCTTCTGA ACCAGTCAGA GAAGACACAT CAGGGATGCA AGAAAACCCA 
    GCATACCCAA CATATCCACC TCAGCCAATC CTTAGAACAG ATTCTCCTGG GTATAAAAAT 
    GTACCTTCTC AACAGAAAGC AGAAGCCTTA CCTGCAGCCC CTTACCTTTC TGTGTCGTCT 
    GAAACAAACC ATACAACTTC AACTGCTGCT GTTAATCCCA TGGTAAATCT AAATAATGTT 
    CGATTGGAGG ATCCCAACCA TGCCCCTTAC AGCTCTTATC AATCACAGGG TGGCCTTTTG 
    AGATCACCAA GCACTGAGGC AGCTCATATT ATACTAAGAG ACCAAGAACC TTCATCTTTA 
    CCAGTGCAAA TTGACTCAGC AAAGGTTTAT AGAAAAGAGG CCTATGCTAT GGAAGAGAAT 
    CCTAGACAAA ATTATTTGAT GAAGCAGCAA GTGCTTGGCC ATCAAATTCA AAGACATGAA 
    AAAGAGACCA ATTTAAACTA TGATGGCGTG CCAGCATATG CAGAGAAACC ACTGAATAGA 
    GAATATGACC AGTCTTATTG CTATGATTCT ACTTCTGATT ATGTAGATCA GTTTCCCCAC 
    AATTATGATT CTCGAATAAA TTTTGATGAT CACGTGCCTA CATATGATGA ACAGTGGGGT 
    TATTATGATG ACAAACAGTC ATATCCCCAG AGACCACCAT TTGACAGTAA ACGCAATAGG 
    GACTTCAATA TTAGACAGCA CTCTGATGAA AACCTTGAAC GTAATTACTT TCAGCAGCCT 
    CGATTGGAGG AGCCACCTCC TGTTGCTTAT GACAATCGCC CCCGCCCATC CCAAAACTAC 
    AAACCAACCC AAGTACATTA TGAAGACTCC ACAACAGCAG AGTATGATAT GCATATGCGT 
    TACAAACCTG AACCTCAAAC CATTCCTTCT GTGCCAACAT CAAAGTCTTC TGATGCAAAG 
    CCGTATTTTG ATCAACACAT AAGGGGTTAT GAACATAGTC CTACCCAGGT ATTTAACACA 
    AAACCAGGGC AGTATGATAC ATCTCCTAGA ATGGAGGCAA TGCCACCTCC ACCTGTTCAG 
    AGTAAGCCAG AGCTCCTTTC AACAAGCTCA AAACCTTTGC CTGCCCCTGC TCCTTCCGTT 
    GCTCCTGCAG CAACTGAAGA AGACGATGAT CCAGCTATGA AGCCACAGTC TGTACTTACT 
    AGAGTGAAAA TGTTTGAGAA CAAACGTTCT AATCAAGGTG AAAAGAACAA GGATATAAAT 
    GATTCCACTC TTGTTAAGGC CCCAGATGTT GCACCTAAAC CTATACTTAA TCAAGTAAGT 
    GCTACAAAGG CTGCCCCCGT TCCACATTAT GATCAGGACA AGGCAACTTA TAGAGTACCT 
    GAACCTCAAA AGCCTCAAGT GAAGCCCCCA GAAGATATAA TTCGGGCCAA CCACTATGAC 
    CCCGATGAAG ATGAAGAATA CTATCGAAAG CAGCTGTCTT ACTTTGATCG AAGAAGCTTT 
    GAAAAGCCCA CACCCTTGCT GTCTGGAAAC ATCCTGCCTG AGCCTGCCAA ACCAGCGCAG 
    TCTCAAAGCC AACTTAGCTT TAACAGCTAC CCCTCCAAGG GAAAGCCTGC AGATTTGGAG 
    CCACTTGACA GACCCATTAA TGAAAAACGC TATGATCCAG TTCCACAGGT TACTTCTTCT 
    AACCAGTATA CTCAGCCTTC ACCAGTGGTT GTAAATCATT CAACACACAC TAAACATATG 
    CATTTAGAAG CCAGCTCTGT GTCTGTGGAG GTTCCAAGTT CCACAGTGTC TAAGCCAGAG 
    CCCCCACCTA CTCAGGCCAA GCCAACATTG TTCCGACCAT CAAACAGAGA GGACACTGTA 
    CAGTCAAACT TCTATCCTCA GAAGAGTTTC CCTGAAAAAA GCCCTGTAAA TGGCACTGAA 
    CAGGCTCCAA AAACAGTAAC ACCATCCTAC AATCGTTTTA CACCTAAACC TTACACAAAT 
    TCAGCGAGAC CCTTTGAACG CAAGTTTGAA AGCCCAAAAT TTAACCACAA CCTCCTGCCA 
    AATGAAGCAC AAGTAAAGCC AGAGCTGCCC ACTAAACCTC AGAATTCTCC ACAGCCTGTT 
    TTAAAATCAA ATACGTCAAT TTCTTCTGAA CTGGATAGCA TATCCAAGCA AACGGAGAAC 
    AAATCTAAAT ATCAACCAAA CAATGTTAAT CCAGTGCCTA AAGCAATCCC AGTCAGTCCT 
    TCTGCATTGG AAGATGACGA TGAAGATGAT GCACATACAG TTGTAGCAAC AGCTAGAGGC 
    TTCTTTAATA GTAATGGAGG TGTGTTAAGT TCCATAGAAA CGGGAGTCAG TATCATCATA 
    CCCCAAGGAG CAATTCCAGA TGGCATTGAG CAAGAAATAT ATTTCAAGGT CTGCAGGGAT 
    AACAGTATCC TTCCACCCTT GGACAAAGAG AAAGGAGAGA CGCTACTTAG TCCATTAGTA 
    ATGTGCGGAC CTCATGGGTT AAAATTCGTG AAACCAGTGG AGCTACGCTT ACCACACTGT 
    GACCCAAAAC ACTGGCAGAA CAAGTCACTT CCTGGCGACC CCAACTATCT TGTCGGAGCA 
    AACTGTGTCT CAGTTTTGAT AGACCACTTC TAA

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

    tjp1 ( XM_031899163.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031755023.1 Xenopus tropicalis tight junction protein 1 (tjp1), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OXa55055
    Clone ID Related Accession (Same CDS sequence) XM_031899163.1
    Accession Version XM_031899163.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5427bp)
    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 tight junction protein ZO-1 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030679.2) 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
    ATGAAATACC AGAAATACCT GACTGTGCTG CAGATGGCGA TCGGAGTGAC TCCTTCCAAC 
    AGAGGGAATA TACTGCCTTA CAAGCGGAGG CTGTGGGTCA CTCCGTCATC TGAGAATCCC 
    AATGCTGCTG CATCGAGTAC GAGTCAGGGA AAACCATCTC TAAGGAGAAT AAAGGGACGG 
    ATCCACAGAA GCAAAAGCTT GGATAGCGTT GACCTCTGCG ATTTTAATAA TACTGTAATG 
    GAAGAAACTG CAATATGGGA ACAGCAAACA GTTACTCTCC ACAGGGCCCC TGGATTTGGA 
    TTTGGCATTG CAATATCTGG AGGCAGAGAT AACCCACATT TTCAAAGTGG GGAAACATCA 
    ATTGTCATCT CTGATGTTCT TAAAGGAGGG CCTGCAGAAG GTTTGCTTCA GGAAAATGAT 
    CGTGTTGCAA TGGTCAATGG GGTTTCTATG GATAATGTCG AGCATGCCTT TGCTGTTCAG 
    CAGTTGAGGA AAAGTGGAAA AAATGCCAAA ATTACTATCC GGCGGAAGAA AAAAGTGCAA 
    CTTCCAGTAG TTCGTTCTGA CCCAGACCCA GTGTCTGAGA ATGAAGAGGA CAGTTATGAG 
    GAGGATGTGC CTGACCAGAG AAGTGCCCAC AGTGGTCCTG GTGCCAGCAG GAGAAGTGAA 
    AAAAGTTGGG TGAGGGACAG AAGTGCAAGC AGAGAAAGAA GTTTATCACC AAGATCAGAC 
    AGAAGATCTG TTTCTTCCAG TCAACCTGCT AAACCTACCA AAGTGACCTT GGTGAAATCT 
    AGAAAAAATG AAGAATATGG TTTAAGGTTG GCTAGCCACA TATTTGTAAA AGAAATTTCC 
    CAAGACAGTC TTGCGGCAAG AGATGGAAAT ATTCAAGAAG GGGATGTTGT GCTTAAGATT 
    AATGGCACAG TCACAGAAAA CATGTCTTTG GCTGATGCAA AAACATTAAT AGAAAGGTCG 
    AAGGGCAAAT TAAAAATGGT AGTTCAAAGA GATGAACGAG CAACTCTACT TAATGTCCCA 
    GATCTAGATG ACAGTCTCCA TTCTGCAAAT GCTTCAGAAA GAGATGACAT TTCAGAAATT 
    CAGTCGCTAA CATCAGATCA TTCCAACCGT TCACATGATA AACCTCGCCG TAGCCGTTCA 
    CGGTCACCGG ACCAGAGGTC AGAGCCTTCA GACCATTCCA GACATTCTCC ACAACAGCAC 
    AGCAACAGCA GTAGTCGAAG TCGAGAGGAT GAAAGAGTTT CAAAGCCTGG TGCAATATCT 
    ACTCCGGTGA AGAATGTCAA TAGTGTACCT CTTTCCAGAA CTGCAGAAGA ACCCTTTTTA 
    GAAAAGGCAG ATAAACAAAC ACCTCCTCTT CCAGAGCCAA AACCTGTATA TGCCCAGCCA 
    GGACAACCAG ATGTGGATTT GCCAGTCAGC CCATCTGATG GACCTTTCCC TAATTCTACA 
    CATGAAGATG GCATGCTTCG GCCAAGCATG AAACTGGTGA AGTTCAGGAA AGGAGACAGT 
    GTAGGCCTTC GTTTGGCTGG TGGTAATGAT GTGGGAATTT TTGTTGCTGG TGTATTAGAC 
    GACAGTCCTG CCGCAAAAGA AGGTTTGGAG GAAGGGGACC AGATACTCAG AGTTAACAAT 
    GTGGATTTCA CCAATATAAT AAGGGAAGAA GCGGTACTGT TCCTTCTTGA TCTGCCCAAA 
    GGAGAAGAGG TTACCATTCT TGCTCAGAAA AAGAAAGATG TGTATCGCCG CATTGTTGAG 
    TCAGATGTTG GGGATTCATT TTATATAAGA ACTCACTTTG AATATGAGAA AGAGTCACCA 
    TACGGGCTAA GTTTCAACAA AGGAGAGGTC TTTCGAGTTG TGGATACTCT TTACAATGGC 
    AAACTAGGGT CATGGTTGGC CATTAGAATT GGTAGAAATC ACAAGGAGGT GGAAAGAGGG 
    ATAATCCCCA ACAAGAATAG GGCTGAGCAA CTGGCTAGTG TACAGTACAC TCTTCCTAAA 
    ACTGCTGGTG GAGATCGTGC AGACTTCTGG AGATTCCGTG GCCTTCGTAG TTCCAAGCGA 
    AATCTACGGA AAAGCAGAGA GGATCTTTCT GCGCAACCTG TTCAAACAAA GTTCCCTGCT 
    TATGAGAGAG TCGTCTTGAG AGAAGCTGGA TTTCTCAGGC CTGTGGTTAT TTTTGGCCCT 
    ATTGCTGACG TTGCAAGAGA AAAGTTGGCA AGAGAAGAAC CAGATATTTA TGAAGTAGCA 
    AGAAGTGAAC CCAGAGATGC AGGTACTGAC CAGCGAAGTT CTGGAATTAT CCGCCTTCAT 
    ACTATTAAAC AGATTATTGA TAGGGATAAG CATGCTCTTC TAGATGTGAC TCCAAATGCT 
    GTGGACCGCT TAAATTATGC ACAATGGTAT CCGATAGTAG TGTTTCTTAA CCCAGACTCT 
    AAACAAGGTG TGAAAACAAT GAGAATGAGG TTATGCCCAG AATCACGCAA AAGTGCCAGG 
    AAACTATATG AACGTTCACA CAAACTACGC AAAAACAATC ACCATCTTTT CACAACTACA 
    ATAAATCTCA ACTCCATGAA TGATGGCTGG TATGGTGGCC TTAAAGAGGC AGCACAGCAG 
    CAACAGAACC AGCTAGTTTG GGTCTCAGAG GGCAAAGCAG AAGGTGGCAC AGATGATGAC 
    CTTGATTTGC ATGACGACCG TCTTTCCTAC CTATCAGCAC CAGGTAGTGA ATATTCAATG 
    TATAGCACTG ATAGTAGGCA CACATCAGAC TATGAAGACA CAGACACAGA AGGAGGGGCT 
    TACACTGACC AGGACCTGGA TGAGACACTT AATGATGAGG CTGGGACTCC ACCAGAATCT 
    GCAATCACAC GATCTTCTGA ACCAGTCAGA GAAGACACAT CAGGGATGCA AGAAAACCCA 
    GCATACCCAA CATATCCACC TCAGCCAATC CTTAGAACAG ATTCTCCTGG GTATAAAAAT 
    GTACCTTCTC AACAGAAAGC AGAAGCCTTA CCTGCAGCCC CTTACCTTTC TGTGTCGTCT 
    GAAACAAACC ATACAACTTC AACTGCTGCT GTTAATCCCA TGGGTGGCCT TTTGAGATCA 
    CCAAGCACTG AGGCAGCTCA TATTATACTA AGAGACCAAG AACCTTCATC TTTACCAGTG 
    CAAATTGACT CAGCAAAGGT TTATAGAAAA GAGGCCTATG CTATGGAAGA GAATCCTAGA 
    CAAAATTATT TGATGAAGCA GCAAGTGCTT GGCCATCAAA TTCAAAGACA TGAAAAAGAG 
    ACCAATTTAA ACTATGATGG CGTGCCAGCA TATGCAGAGA AACCACTGAA TAGAGAATAT 
    GACCAGTCTT ATTGCTATGA TTCTACTTCT GATTATGTAG ATCAGTTTCC CCACAATTAT 
    GATTCTCGAA TAAATTTTGA TGATCACGTG CCTACATATG ATGAACAGTG GGGTTATTAT 
    GATGACAAAC AGTCATATCC CCAGAGACCA CCATTTGACA GTAAACGCAA TAGGGACTTC 
    AATATTAGAC AGCACTCTGA TGAAAACCTT GAACGTAATT ACTTTCAGCA GCCTCGATTG 
    GAGGAGCCAC CTCCTGTTGC TTATGACAAT CGCCCCCGCC CATCCCAAAA CTACAAACCA 
    ACCCAAGTAC ATTATGAAGA CTCCACAACA GCAGAGTATG ATATGCATAT GCGTTACAAA 
    CCTGAACCTC AAACCATTCC TTCTGTGCCA ACATCAAAGT CTTCTGATGC AAAGCCGTAT 
    TTTGATCAAC ACATAAGGGG TTATGAACAT AGTCCTACCC AGGTATTTAA CACAAAACCA 
    GGGCAGTATG ATACATCTCC TAGAATGGAG GCAATGCCAC CTCCACCTGT TCAGAGTAAG 
    CCAGAGCTCC TTTCAACAAG CTCAAAACCT TTGCCTGCCC CTGCTCCTTC CGTTGCTCCT 
    GCAGCAACTG AAGAAGACGA TGATCCAGCT ATGAAGCCAC AGTCTGTACT TACTAGAGTG 
    AAAATGTTTG AGAACAAACG TTCTAATCAA GGTGAAAAGA ACAAGGATAT AAATGATTCC 
    ACTCTTGTTA AGGCCCCAGA TGTTGCACCT AAACCTATAC TTAATCAAGT AAGTGCTACA 
    AAGGCTGCCC CCGTTCCACA TTATGATCAG GACAAGGCAA CTTATAGAGT ACCTGAACCT 
    CAAAAGCCTC AAGTGAAGCC CCCAGAAGAT ATAATTCGGG CCAACCACTA TGACCCCGAT 
    GAAGATGAAG AATACTATCG AAAGCAGCTG TCTTACTTTG ATCGAAGAAG CTTTGAAAAG 
    CCCACACCCT TGCTGTCTGG AAACATCCTG CCTGAGCCTG CCAAACCAGC GCAGTCTCAA 
    AGCCAACTTA GCTTTAACAG CTACCCCTCC AAGGGAAAGC CTGCAGATTT GGAGCCACTT 
    GACAGACCCA TTAATGAAAA ACGCTATGAT CCAGTTCCAC AGGTTACTTC TTCTAACCAG 
    TATACTCAGC CTTCACCAGT GGTTGTAAAT CATTCAACAC ACACTAAACA TATGCATTTA 
    GAAGCCAGCT CTGTGTCTGT GGAGGTTCCA AGTTCCACAG TGTCTAAGCC AGAGCCCCCA 
    CCTACTCAGG CCAAGCCAAC ATTGTTCCGA CCATCAAACA GAGAGGACAC TGTACAGTCA 
    AACTTCTATC CTCAGAAGAG TTTCCCTGAA AAAAGCCCTG TAAATGGCAC TGAACAGGCT 
    CCAAAAACAG TAACACCATC CTACAATCGT TTTACACCTA AACCTTACAC AAATTCAGCG 
    AGACCCTTTG AACGCAAGTT TGAAAGCCCA AAATTTAACC ACAACCTCCT GCCAAATGAA 
    GCACAAGTAA AGCCAGAGCT GCCCACTAAA CCTCAGAATT CTCCACAGCC TGTTTTAAAA 
    TCAAATACGT CAATTTCTTC TGAACTGGAT AGCATATCCA AGCAAACGGA GAACAAATCT 
    AAATATCAAC CAAACAATGT TAATCCAGTG CCTAAAGCAA TCCCAGTCAG TCCTTCTGCA 
    TTGGAAGATG ACGATGAAGA TGATGCACAT ACAGTTGTAG CAACAGCTAG AGGCTTCTTT 
    AATAGTAATG GAGGTGTGTT AAGTTCCATA GAAACGGGAG TCAGTATCAT CATACCCCAA 
    GGAGCAATTC CAGATGGCAT TGAGCAAGAA ATATATTTCA AGGTCTGCAG GGATAACAGT 
    ATCCTTCCAC CCTTGGACAA AGAGAAAGGA GAGACGCTAC TTAGTCCATT AGTAATGTGC 
    GGACCTCATG GGTTAAAATT CGTGAAACCA GTGGAGCTAC GCTTACCACA CTGTGCGTCT 
    ATGACTCCTG ATGGTTGGTC TTTTGCTCTA AAATCATCCG ACACCTCGTC GGGTGACCCA 
    AAACACTGGC AGAACAAGTC ACTTCCTGGC GACCCCAACT ATCTTGTCGG AGCAAACTGT 
    GTCTCAGTTT TGATAGACCA CTTCTAA

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

    RefSeq XP_031755023.1
    CDS25..5451
    Translation

    Target ORF information:

    RefSeq Version XM_031899163.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis tight junction protein 1 (tjp1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031899163.1

    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
    ATGAAATACC AGAAATACCT GACTGTGCTG CAGATGGCGA TCGGAGTGAC TCCTTCCAAC 
    AGAGGGAATA TACTGCCTTA CAAGCGGAGG CTGTGGGTCA CTCCGTCATC TGAGAATCCC 
    AATGCTGCTG CATCGAGTAC GAGTCAGGGA AAACCATCTC TAAGGAGAAT AAAGGGACGG 
    ATCCACAGAA GCAAAAGCTT GGATAGCGTT GACCTCTGCG ATTTTAATAA TACTGTAATG 
    GAAGAAACTG CAATATGGGA ACAGCAAACA GTTACTCTCC ACAGGGCCCC TGGATTTGGA 
    TTTGGCATTG CAATATCTGG AGGCAGAGAT AACCCACATT TTCAAAGTGG GGAAACATCA 
    ATTGTCATCT CTGATGTTCT TAAAGGAGGG CCTGCAGAAG GTTTGCTTCA GGAAAATGAT 
    CGTGTTGCAA TGGTCAATGG GGTTTCTATG GATAATGTCG AGCATGCCTT TGCTGTTCAG 
    CAGTTGAGGA AAAGTGGAAA AAATGCCAAA ATTACTATCC GGCGGAAGAA AAAAGTGCAA 
    CTTCCAGTAG TTCGTTCTGA CCCAGACCCA GTGTCTGAGA ATGAAGAGGA CAGTTATGAG 
    GAGGATGTGC CTGACCAGAG AAGTGCCCAC AGTGGTCCTG GTGCCAGCAG GAGAAGTGAA 
    AAAAGTTGGG TGAGGGACAG AAGTGCAAGC AGAGAAAGAA GTTTATCACC AAGATCAGAC 
    AGAAGATCTG TTTCTTCCAG TCAACCTGCT AAACCTACCA AAGTGACCTT GGTGAAATCT 
    AGAAAAAATG AAGAATATGG TTTAAGGTTG GCTAGCCACA TATTTGTAAA AGAAATTTCC 
    CAAGACAGTC TTGCGGCAAG AGATGGAAAT ATTCAAGAAG GGGATGTTGT GCTTAAGATT 
    AATGGCACAG TCACAGAAAA CATGTCTTTG GCTGATGCAA AAACATTAAT AGAAAGGTCG 
    AAGGGCAAAT TAAAAATGGT AGTTCAAAGA GATGAACGAG CAACTCTACT TAATGTCCCA 
    GATCTAGATG ACAGTCTCCA TTCTGCAAAT GCTTCAGAAA GAGATGACAT TTCAGAAATT 
    CAGTCGCTAA CATCAGATCA TTCCAACCGT TCACATGATA AACCTCGCCG TAGCCGTTCA 
    CGGTCACCGG ACCAGAGGTC AGAGCCTTCA GACCATTCCA GACATTCTCC ACAACAGCAC 
    AGCAACAGCA GTAGTCGAAG TCGAGAGGAT GAAAGAGTTT CAAAGCCTGG TGCAATATCT 
    ACTCCGGTGA AGAATGTCAA TAGTGTACCT CTTTCCAGAA CTGCAGAAGA ACCCTTTTTA 
    GAAAAGGCAG ATAAACAAAC ACCTCCTCTT CCAGAGCCAA AACCTGTATA TGCCCAGCCA 
    GGACAACCAG ATGTGGATTT GCCAGTCAGC CCATCTGATG GACCTTTCCC TAATTCTACA 
    CATGAAGATG GCATGCTTCG GCCAAGCATG AAACTGGTGA AGTTCAGGAA AGGAGACAGT 
    GTAGGCCTTC GTTTGGCTGG TGGTAATGAT GTGGGAATTT TTGTTGCTGG TGTATTAGAC 
    GACAGTCCTG CCGCAAAAGA AGGTTTGGAG GAAGGGGACC AGATACTCAG AGTTAACAAT 
    GTGGATTTCA CCAATATAAT AAGGGAAGAA GCGGTACTGT TCCTTCTTGA TCTGCCCAAA 
    GGAGAAGAGG TTACCATTCT TGCTCAGAAA AAGAAAGATG TGTATCGCCG CATTGTTGAG 
    TCAGATGTTG GGGATTCATT TTATATAAGA ACTCACTTTG AATATGAGAA AGAGTCACCA 
    TACGGGCTAA GTTTCAACAA AGGAGAGGTC TTTCGAGTTG TGGATACTCT TTACAATGGC 
    AAACTAGGGT CATGGTTGGC CATTAGAATT GGTAGAAATC ACAAGGAGGT GGAAAGAGGG 
    ATAATCCCCA ACAAGAATAG GGCTGAGCAA CTGGCTAGTG TACAGTACAC TCTTCCTAAA 
    ACTGCTGGTG GAGATCGTGC AGACTTCTGG AGATTCCGTG GCCTTCGTAG TTCCAAGCGA 
    AATCTACGGA AAAGCAGAGA GGATCTTTCT GCGCAACCTG TTCAAACAAA GTTCCCTGCT 
    TATGAGAGAG TCGTCTTGAG AGAAGCTGGA TTTCTCAGGC CTGTGGTTAT TTTTGGCCCT 
    ATTGCTGACG TTGCAAGAGA AAAGTTGGCA AGAGAAGAAC CAGATATTTA TGAAGTAGCA 
    AGAAGTGAAC CCAGAGATGC AGGTACTGAC CAGCGAAGTT CTGGAATTAT CCGCCTTCAT 
    ACTATTAAAC AGATTATTGA TAGGGATAAG CATGCTCTTC TAGATGTGAC TCCAAATGCT 
    GTGGACCGCT TAAATTATGC ACAATGGTAT CCGATAGTAG TGTTTCTTAA CCCAGACTCT 
    AAACAAGGTG TGAAAACAAT GAGAATGAGG TTATGCCCAG AATCACGCAA AAGTGCCAGG 
    AAACTATATG AACGTTCACA CAAACTACGC AAAAACAATC ACCATCTTTT CACAACTACA 
    ATAAATCTCA ACTCCATGAA TGATGGCTGG TATGGTGGCC TTAAAGAGGC AGCACAGCAG 
    CAACAGAACC AGCTAGTTTG GGTCTCAGAG GGCAAAGCAG AAGGTGGCAC AGATGATGAC 
    CTTGATTTGC ATGACGACCG TCTTTCCTAC CTATCAGCAC CAGGTAGTGA ATATTCAATG 
    TATAGCACTG ATAGTAGGCA CACATCAGAC TATGAAGACA CAGACACAGA AGGAGGGGCT 
    TACACTGACC AGGACCTGGA TGAGACACTT AATGATGAGG CTGGGACTCC ACCAGAATCT 
    GCAATCACAC GATCTTCTGA ACCAGTCAGA GAAGACACAT CAGGGATGCA AGAAAACCCA 
    GCATACCCAA CATATCCACC TCAGCCAATC CTTAGAACAG ATTCTCCTGG GTATAAAAAT 
    GTACCTTCTC AACAGAAAGC AGAAGCCTTA CCTGCAGCCC CTTACCTTTC TGTGTCGTCT 
    GAAACAAACC ATACAACTTC AACTGCTGCT GTTAATCCCA TGGGTGGCCT TTTGAGATCA 
    CCAAGCACTG AGGCAGCTCA TATTATACTA AGAGACCAAG AACCTTCATC TTTACCAGTG 
    CAAATTGACT CAGCAAAGGT TTATAGAAAA GAGGCCTATG CTATGGAAGA GAATCCTAGA 
    CAAAATTATT TGATGAAGCA GCAAGTGCTT GGCCATCAAA TTCAAAGACA TGAAAAAGAG 
    ACCAATTTAA ACTATGATGG CGTGCCAGCA TATGCAGAGA AACCACTGAA TAGAGAATAT 
    GACCAGTCTT ATTGCTATGA TTCTACTTCT GATTATGTAG ATCAGTTTCC CCACAATTAT 
    GATTCTCGAA TAAATTTTGA TGATCACGTG CCTACATATG ATGAACAGTG GGGTTATTAT 
    GATGACAAAC AGTCATATCC CCAGAGACCA CCATTTGACA GTAAACGCAA TAGGGACTTC 
    AATATTAGAC AGCACTCTGA TGAAAACCTT GAACGTAATT ACTTTCAGCA GCCTCGATTG 
    GAGGAGCCAC CTCCTGTTGC TTATGACAAT CGCCCCCGCC CATCCCAAAA CTACAAACCA 
    ACCCAAGTAC ATTATGAAGA CTCCACAACA GCAGAGTATG ATATGCATAT GCGTTACAAA 
    CCTGAACCTC AAACCATTCC TTCTGTGCCA ACATCAAAGT CTTCTGATGC AAAGCCGTAT 
    TTTGATCAAC ACATAAGGGG TTATGAACAT AGTCCTACCC AGGTATTTAA CACAAAACCA 
    GGGCAGTATG ATACATCTCC TAGAATGGAG GCAATGCCAC CTCCACCTGT TCAGAGTAAG 
    CCAGAGCTCC TTTCAACAAG CTCAAAACCT TTGCCTGCCC CTGCTCCTTC CGTTGCTCCT 
    GCAGCAACTG AAGAAGACGA TGATCCAGCT ATGAAGCCAC AGTCTGTACT TACTAGAGTG 
    AAAATGTTTG AGAACAAACG TTCTAATCAA GGTGAAAAGA ACAAGGATAT AAATGATTCC 
    ACTCTTGTTA AGGCCCCAGA TGTTGCACCT AAACCTATAC TTAATCAAGT AAGTGCTACA 
    AAGGCTGCCC CCGTTCCACA TTATGATCAG GACAAGGCAA CTTATAGAGT ACCTGAACCT 
    CAAAAGCCTC AAGTGAAGCC CCCAGAAGAT ATAATTCGGG CCAACCACTA TGACCCCGAT 
    GAAGATGAAG AATACTATCG AAAGCAGCTG TCTTACTTTG ATCGAAGAAG CTTTGAAAAG 
    CCCACACCCT TGCTGTCTGG AAACATCCTG CCTGAGCCTG CCAAACCAGC GCAGTCTCAA 
    AGCCAACTTA GCTTTAACAG CTACCCCTCC AAGGGAAAGC CTGCAGATTT GGAGCCACTT 
    GACAGACCCA TTAATGAAAA ACGCTATGAT CCAGTTCCAC AGGTTACTTC TTCTAACCAG 
    TATACTCAGC CTTCACCAGT GGTTGTAAAT CATTCAACAC ACACTAAACA TATGCATTTA 
    GAAGCCAGCT CTGTGTCTGT GGAGGTTCCA AGTTCCACAG TGTCTAAGCC AGAGCCCCCA 
    CCTACTCAGG CCAAGCCAAC ATTGTTCCGA CCATCAAACA GAGAGGACAC TGTACAGTCA 
    AACTTCTATC CTCAGAAGAG TTTCCCTGAA AAAAGCCCTG TAAATGGCAC TGAACAGGCT 
    CCAAAAACAG TAACACCATC CTACAATCGT TTTACACCTA AACCTTACAC AAATTCAGCG 
    AGACCCTTTG AACGCAAGTT TGAAAGCCCA AAATTTAACC ACAACCTCCT GCCAAATGAA 
    GCACAAGTAA AGCCAGAGCT GCCCACTAAA CCTCAGAATT CTCCACAGCC TGTTTTAAAA 
    TCAAATACGT CAATTTCTTC TGAACTGGAT AGCATATCCA AGCAAACGGA GAACAAATCT 
    AAATATCAAC CAAACAATGT TAATCCAGTG CCTAAAGCAA TCCCAGTCAG TCCTTCTGCA 
    TTGGAAGATG ACGATGAAGA TGATGCACAT ACAGTTGTAG CAACAGCTAG AGGCTTCTTT 
    AATAGTAATG GAGGTGTGTT AAGTTCCATA GAAACGGGAG TCAGTATCAT CATACCCCAA 
    GGAGCAATTC CAGATGGCAT TGAGCAAGAA ATATATTTCA AGGTCTGCAG GGATAACAGT 
    ATCCTTCCAC CCTTGGACAA AGAGAAAGGA GAGACGCTAC TTAGTCCATT AGTAATGTGC 
    GGACCTCATG GGTTAAAATT CGTGAAACCA GTGGAGCTAC GCTTACCACA CTGTGCGTCT 
    ATGACTCCTG ATGGTTGGTC TTTTGCTCTA AAATCATCCG ACACCTCGTC GGGTGACCCA 
    AAACACTGGC AGAACAAGTC ACTTCCTGGC GACCCCAACT ATCTTGTCGG AGCAAACTGT 
    GTCTCAGTTT TGATAGACCA CTTCTAA

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

    tjp1 ( XM_031899164.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031755024.1 Xenopus tropicalis tight junction protein 1 (tjp1), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OXa55056
    Clone ID Related Accession (Same CDS sequence) XM_031899164.1
    Accession Version XM_031899164.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5340bp)
    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 tight junction protein ZO-1 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030679.2) 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
    ATGAAATACC AGAAATACCT GACTGTGCTG CAGATGGCGA TCGGAGTGAC TCCTTCCAAC 
    AGAGGGAATA TACTGCCTTA CAAGCGGAGG CTGTGGGTCA CTCCGTCATC TGAGAATCCC 
    AATGCTGCTG CATCGAGTAC GAGTCAGGGA AAACCATCTC TAAGGAGAAT AAAGGGACGG 
    ATCCACAGAA GCAAAAGCTT GGATAGCGTT GACCTCTGCG ATTTTAATAA TACTGTAATG 
    GAAGAAACTG CAATATGGGA ACAGCAAACA GTTACTCTCC ACAGGGCCCC TGGATTTGGA 
    TTTGGCATTG CAATATCTGG AGGCAGAGAT AACCCACATT TTCAAAGTGG GGAAACATCA 
    ATTGTCATCT CTGATGTTCT TAAAGGAGGG CCTGCAGAAG GTTTGCTTCA GGAAAATGAT 
    CGTGTTGCAA TGGTCAATGG GGTTTCTATG GATAATGTCG AGCATGCCTT TGCTGTTCAG 
    CAGTTGAGGA AAAGTGGAAA AAATGCCAAA ATTACTATCC GGCGGAAGAA AAAAGTGCAA 
    CTTCCAGTAG TTCGTTCTGA CCCAGACCCA GTGTCTGAGA ATGAAGAGGA CAGTTATGAG 
    GAGGATGTGC CTGACCAGAG AAGTGCCCAC AGTGGTCCTG GTGCCAGCAG GAGAAGTGAA 
    AAAAGTTGGG TGAGGGACAG AAGTGCAAGC AGAGAAAGAA GTTTATCACC AAGATCAGAC 
    AGAAGATCTG TTTCTTCCAG TCAACCTGCT AAACCTACCA AAGTGACCTT GGTGAAATCT 
    AGAAAAAATG AAGAATATGG TTTAAGGTTG GCTAGCCACA TATTTGTAAA AGAAATTTCC 
    CAAGACAGTC TTGCGGCAAG AGATGGAAAT ATTCAAGAAG GGGATGTTGT GCTTAAGATT 
    AATGGCACAG TCACAGAAAA CATGTCTTTG GCTGATGCAA AAACATTAAT AGAAAGGTCG 
    AAGGGCAAAT TAAAAATGGT AGTTCAAAGA GATGAACGAG CAACTCTACT TAATGTCCCA 
    GATCTAGATG ACAGTCTCCA TTCTGCAAAT GCTTCAGAAA GAGATGACAT TTCAGAAATT 
    CAGTCGCTAA CATCAGATCA TTCCAACCGT TCACATGATA AACCTCGCCG TAGCCGTTCA 
    CGGTCACCGG ACCAGAGGTC AGAGCCTTCA GACCATTCCA GACATTCTCC ACAACAGCAC 
    AGCAACAGCA GTAGTCGAAG TCGAGAGGAT GAAAGAGTTT CAAAGCCTGG TGCAATATCT 
    ACTCCGGTGA AGAATGTCAA TAGTGTACCT CTTTCCAGAA CTGCAGAAGA ACCCTTTTTA 
    GAAAAGGCAG ATAAACAAAC ACCTCCTCTT CCAGAGCCAA AACCTGTATA TGCCCAGCCA 
    GGACAACCAG ATGTGGATTT GCCAGTCAGC CCATCTGATG GACCTTTCCC TAATTCTACA 
    CATGAAGATG GCATGCTTCG GCCAAGCATG AAACTGGTGA AGTTCAGGAA AGGAGACAGT 
    GTAGGCCTTC GTTTGGCTGG TGGTAATGAT GTGGGAATTT TTGTTGCTGG TGTATTAGAC 
    GACAGTCCTG CCGCAAAAGA AGGTTTGGAG GAAGGGGACC AGATACTCAG AGTTAACAAT 
    GTGGATTTCA CCAATATAAT AAGGGAAGAA GCGGTACTGT TCCTTCTTGA TCTGCCCAAA 
    GGAGAAGAGG TTACCATTCT TGCTCAGAAA AAGAAAGATG TGTATCGCCG CATTGTTGAG 
    TCAGATGTTG GGGATTCATT TTATATAAGA ACTCACTTTG AATATGAGAA AGAGTCACCA 
    TACGGGCTAA GTTTCAACAA AGGAGAGGTC TTTCGAGTTG TGGATACTCT TTACAATGGC 
    AAACTAGGGT CATGGTTGGC CATTAGAATT GGTAGAAATC ACAAGGAGGT GGAAAGAGGG 
    ATAATCCCCA ACAAGAATAG GGCTGAGCAA CTGGCTAGTG TACAGTACAC TCTTCCTAAA 
    ACTGCTGGTG GAGATCGTGC AGACTTCTGG AGATTCCGTG GCCTTCGTAG TTCCAAGCGA 
    AATCTACGGA AAAGCAGAGA GGATCTTTCT GCGCAACCTG TTCAAACAAA GTTCCCTGCT 
    TATGAGAGAG TCGTCTTGAG AGAAGCTGGA TTTCTCAGGC CTGTGGTTAT TTTTGGCCCT 
    ATTGCTGACG TTGCAAGAGA AAAGTTGGCA AGAGAAGAAC CAGATATTTA TGAAGTAGCA 
    AGAAGTGAAC CCAGAGATGC AGGTACTGAC CAGCGAAGTT CTGGAATTAT CCGCCTTCAT 
    ACTATTAAAC AGATTATTGA TAGGGATAAG CATGCTCTTC TAGATGTGAC TCCAAATGCT 
    GTGGACCGCT TAAATTATGC ACAATGGTAT CCGATAGTAG TGTTTCTTAA CCCAGACTCT 
    AAACAAGGTG TGAAAACAAT GAGAATGAGG TTATGCCCAG AATCACGCAA AAGTGCCAGG 
    AAACTATATG AACGTTCACA CAAACTACGC AAAAACAATC ACCATCTTTT CACAACTACA 
    ATAAATCTCA ACTCCATGAA TGATGGCTGG TATGGTGGCC TTAAAGAGGC AGCACAGCAG 
    CAACAGAACC AGCTAGTTTG GGTCTCAGAG GGCAAAGCAG AAGGTGGCAC AGATGATGAC 
    CTTGATTTGC ATGACGACCG TCTTTCCTAC CTATCAGCAC CAGGTAGTGA ATATTCAATG 
    TATAGCACTG ATAGTAGGCA CACATCAGAC TATGAAGACA CAGACACAGA AGGAGGGGCT 
    TACACTGACC AGGACCTGGA TGAGACACTT AATGATGAGG CTGGGACTCC ACCAGAATCT 
    GCAATCACAC GATCTTCTGA ACCAGTCAGA GAAGACACAT CAGGGATGCA AGAAAACCCA 
    GCATACCCAA CATATCCACC TCAGCCAATC CTTAGAACAG ATTCTCCTGG GTATAAAAAT 
    GTACCTTCTC AACAGGGTGG CCTTTTGAGA TCACCAAGCA CTGAGGCAGC TCATATTATA 
    CTAAGAGACC AAGAACCTTC ATCTTTACCA GTGCAAATTG ACTCAGCAAA GGTTTATAGA 
    AAAGAGGCCT ATGCTATGGA AGAGAATCCT AGACAAAATT ATTTGATGAA GCAGCAAGTG 
    CTTGGCCATC AAATTCAAAG ACATGAAAAA GAGACCAATT TAAACTATGA TGGCGTGCCA 
    GCATATGCAG AGAAACCACT GAATAGAGAA TATGACCAGT CTTATTGCTA TGATTCTACT 
    TCTGATTATG TAGATCAGTT TCCCCACAAT TATGATTCTC GAATAAATTT TGATGATCAC 
    GTGCCTACAT ATGATGAACA GTGGGGTTAT TATGATGACA AACAGTCATA TCCCCAGAGA 
    CCACCATTTG ACAGTAAACG CAATAGGGAC TTCAATATTA GACAGCACTC TGATGAAAAC 
    CTTGAACGTA ATTACTTTCA GCAGCCTCGA TTGGAGGAGC CACCTCCTGT TGCTTATGAC 
    AATCGCCCCC GCCCATCCCA AAACTACAAA CCAACCCAAG TACATTATGA AGACTCCACA 
    ACAGCAGAGT ATGATATGCA TATGCGTTAC AAACCTGAAC CTCAAACCAT TCCTTCTGTG 
    CCAACATCAA AGTCTTCTGA TGCAAAGCCG TATTTTGATC AACACATAAG GGGTTATGAA 
    CATAGTCCTA CCCAGGTATT TAACACAAAA CCAGGGCAGT ATGATACATC TCCTAGAATG 
    GAGGCAATGC CACCTCCACC TGTTCAGAGT AAGCCAGAGC TCCTTTCAAC AAGCTCAAAA 
    CCTTTGCCTG CCCCTGCTCC TTCCGTTGCT CCTGCAGCAA CTGAAGAAGA CGATGATCCA 
    GCTATGAAGC CACAGTCTGT ACTTACTAGA GTGAAAATGT TTGAGAACAA ACGTTCTAAT 
    CAAGGTGAAA AGAACAAGGA TATAAATGAT TCCACTCTTG TTAAGGCCCC AGATGTTGCA 
    CCTAAACCTA TACTTAATCA AGTAAGTGCT ACAAAGGCTG CCCCCGTTCC ACATTATGAT 
    CAGGACAAGG CAACTTATAG AGTACCTGAA CCTCAAAAGC CTCAAGTGAA GCCCCCAGAA 
    GATATAATTC GGGCCAACCA CTATGACCCC GATGAAGATG AAGAATACTA TCGAAAGCAG 
    CTGTCTTACT TTGATCGAAG AAGCTTTGAA AAGCCCACAC CCTTGCTGTC TGGAAACATC 
    CTGCCTGAGC CTGCCAAACC AGCGCAGTCT CAAAGCCAAC TTAGCTTTAA CAGCTACCCC 
    TCCAAGGGAA AGCCTGCAGA TTTGGAGCCA CTTGACAGAC CCATTAATGA AAAACGCTAT 
    GATCCAGTTC CACAGGTTAC TTCTTCTAAC CAGTATACTC AGCCTTCACC AGTGGTTGTA 
    AATCATTCAA CACACACTAA ACATATGCAT TTAGAAGCCA GCTCTGTGTC TGTGGAGGTT 
    CCAAGTTCCA CAGTGTCTAA GCCAGAGCCC CCACCTACTC AGGCCAAGCC AACATTGTTC 
    CGACCATCAA ACAGAGAGGA CACTGTACAG TCAAACTTCT ATCCTCAGAA GAGTTTCCCT 
    GAAAAAAGCC CTGTAAATGG CACTGAACAG GCTCCAAAAA CAGTAACACC ATCCTACAAT 
    CGTTTTACAC CTAAACCTTA CACAAATTCA GCGAGACCCT TTGAACGCAA GTTTGAAAGC 
    CCAAAATTTA ACCACAACCT CCTGCCAAAT GAAGCACAAG TAAAGCCAGA GCTGCCCACT 
    AAACCTCAGA ATTCTCCACA GCCTGTTTTA AAATCAAATA CGTCAATTTC TTCTGAACTG 
    GATAGCATAT CCAAGCAAAC GGAGAACAAA TCTAAATATC AACCAAACAA TGTTAATCCA 
    GTGCCTAAAG CAATCCCAGT CAGTCCTTCT GCATTGGAAG ATGACGATGA AGATGATGCA 
    CATACAGTTG TAGCAACAGC TAGAGGCTTC TTTAATAGTA ATGGAGGTGT GTTAAGTTCC 
    ATAGAAACGG GAGTCAGTAT CATCATACCC CAAGGAGCAA TTCCAGATGG CATTGAGCAA 
    GAAATATATT TCAAGGTCTG CAGGGATAAC AGTATCCTTC CACCCTTGGA CAAAGAGAAA 
    GGAGAGACGC TACTTAGTCC ATTAGTAATG TGCGGACCTC ATGGGTTAAA ATTCGTGAAA 
    CCAGTGGAGC TACGCTTACC ACACTGTGCG TCTATGACTC CTGATGGTTG GTCTTTTGCT 
    CTAAAATCAT CCGACACCTC GTCGGGTGAC CCAAAACACT GGCAGAACAA GTCACTTCCT 
    GGCGACCCCA ACTATCTTGT CGGAGCAAAC TGTGTCTCAG TTTTGATAGA CCACTTCTAA

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

    RefSeq XP_031755024.1
    CDS25..5364
    Translation

    Target ORF information:

    RefSeq Version XM_031899164.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis tight junction protein 1 (tjp1), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031899164.1

    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
    ATGAAATACC AGAAATACCT GACTGTGCTG CAGATGGCGA TCGGAGTGAC TCCTTCCAAC 
    AGAGGGAATA TACTGCCTTA CAAGCGGAGG CTGTGGGTCA CTCCGTCATC TGAGAATCCC 
    AATGCTGCTG CATCGAGTAC GAGTCAGGGA AAACCATCTC TAAGGAGAAT AAAGGGACGG 
    ATCCACAGAA GCAAAAGCTT GGATAGCGTT GACCTCTGCG ATTTTAATAA TACTGTAATG 
    GAAGAAACTG CAATATGGGA ACAGCAAACA GTTACTCTCC ACAGGGCCCC TGGATTTGGA 
    TTTGGCATTG CAATATCTGG AGGCAGAGAT AACCCACATT TTCAAAGTGG GGAAACATCA 
    ATTGTCATCT CTGATGTTCT TAAAGGAGGG CCTGCAGAAG GTTTGCTTCA GGAAAATGAT 
    CGTGTTGCAA TGGTCAATGG GGTTTCTATG GATAATGTCG AGCATGCCTT TGCTGTTCAG 
    CAGTTGAGGA AAAGTGGAAA AAATGCCAAA ATTACTATCC GGCGGAAGAA AAAAGTGCAA 
    CTTCCAGTAG TTCGTTCTGA CCCAGACCCA GTGTCTGAGA ATGAAGAGGA CAGTTATGAG 
    GAGGATGTGC CTGACCAGAG AAGTGCCCAC AGTGGTCCTG GTGCCAGCAG GAGAAGTGAA 
    AAAAGTTGGG TGAGGGACAG AAGTGCAAGC AGAGAAAGAA GTTTATCACC AAGATCAGAC 
    AGAAGATCTG TTTCTTCCAG TCAACCTGCT AAACCTACCA AAGTGACCTT GGTGAAATCT 
    AGAAAAAATG AAGAATATGG TTTAAGGTTG GCTAGCCACA TATTTGTAAA AGAAATTTCC 
    CAAGACAGTC TTGCGGCAAG AGATGGAAAT ATTCAAGAAG GGGATGTTGT GCTTAAGATT 
    AATGGCACAG TCACAGAAAA CATGTCTTTG GCTGATGCAA AAACATTAAT AGAAAGGTCG 
    AAGGGCAAAT TAAAAATGGT AGTTCAAAGA GATGAACGAG CAACTCTACT TAATGTCCCA 
    GATCTAGATG ACAGTCTCCA TTCTGCAAAT GCTTCAGAAA GAGATGACAT TTCAGAAATT 
    CAGTCGCTAA CATCAGATCA TTCCAACCGT TCACATGATA AACCTCGCCG TAGCCGTTCA 
    CGGTCACCGG ACCAGAGGTC AGAGCCTTCA GACCATTCCA GACATTCTCC ACAACAGCAC 
    AGCAACAGCA GTAGTCGAAG TCGAGAGGAT GAAAGAGTTT CAAAGCCTGG TGCAATATCT 
    ACTCCGGTGA AGAATGTCAA TAGTGTACCT CTTTCCAGAA CTGCAGAAGA ACCCTTTTTA 
    GAAAAGGCAG ATAAACAAAC ACCTCCTCTT CCAGAGCCAA AACCTGTATA TGCCCAGCCA 
    GGACAACCAG ATGTGGATTT GCCAGTCAGC CCATCTGATG GACCTTTCCC TAATTCTACA 
    CATGAAGATG GCATGCTTCG GCCAAGCATG AAACTGGTGA AGTTCAGGAA AGGAGACAGT 
    GTAGGCCTTC GTTTGGCTGG TGGTAATGAT GTGGGAATTT TTGTTGCTGG TGTATTAGAC 
    GACAGTCCTG CCGCAAAAGA AGGTTTGGAG GAAGGGGACC AGATACTCAG AGTTAACAAT 
    GTGGATTTCA CCAATATAAT AAGGGAAGAA GCGGTACTGT TCCTTCTTGA TCTGCCCAAA 
    GGAGAAGAGG TTACCATTCT TGCTCAGAAA AAGAAAGATG TGTATCGCCG CATTGTTGAG 
    TCAGATGTTG GGGATTCATT TTATATAAGA ACTCACTTTG AATATGAGAA AGAGTCACCA 
    TACGGGCTAA GTTTCAACAA AGGAGAGGTC TTTCGAGTTG TGGATACTCT TTACAATGGC 
    AAACTAGGGT CATGGTTGGC CATTAGAATT GGTAGAAATC ACAAGGAGGT GGAAAGAGGG 
    ATAATCCCCA ACAAGAATAG GGCTGAGCAA CTGGCTAGTG TACAGTACAC TCTTCCTAAA 
    ACTGCTGGTG GAGATCGTGC AGACTTCTGG AGATTCCGTG GCCTTCGTAG TTCCAAGCGA 
    AATCTACGGA AAAGCAGAGA GGATCTTTCT GCGCAACCTG TTCAAACAAA GTTCCCTGCT 
    TATGAGAGAG TCGTCTTGAG AGAAGCTGGA TTTCTCAGGC CTGTGGTTAT TTTTGGCCCT 
    ATTGCTGACG TTGCAAGAGA AAAGTTGGCA AGAGAAGAAC CAGATATTTA TGAAGTAGCA 
    AGAAGTGAAC CCAGAGATGC AGGTACTGAC CAGCGAAGTT CTGGAATTAT CCGCCTTCAT 
    ACTATTAAAC AGATTATTGA TAGGGATAAG CATGCTCTTC TAGATGTGAC TCCAAATGCT 
    GTGGACCGCT TAAATTATGC ACAATGGTAT CCGATAGTAG TGTTTCTTAA CCCAGACTCT 
    AAACAAGGTG TGAAAACAAT GAGAATGAGG TTATGCCCAG AATCACGCAA AAGTGCCAGG 
    AAACTATATG AACGTTCACA CAAACTACGC AAAAACAATC ACCATCTTTT CACAACTACA 
    ATAAATCTCA ACTCCATGAA TGATGGCTGG TATGGTGGCC TTAAAGAGGC AGCACAGCAG 
    CAACAGAACC AGCTAGTTTG GGTCTCAGAG GGCAAAGCAG AAGGTGGCAC AGATGATGAC 
    CTTGATTTGC ATGACGACCG TCTTTCCTAC CTATCAGCAC CAGGTAGTGA ATATTCAATG 
    TATAGCACTG ATAGTAGGCA CACATCAGAC TATGAAGACA CAGACACAGA AGGAGGGGCT 
    TACACTGACC AGGACCTGGA TGAGACACTT AATGATGAGG CTGGGACTCC ACCAGAATCT 
    GCAATCACAC GATCTTCTGA ACCAGTCAGA GAAGACACAT CAGGGATGCA AGAAAACCCA 
    GCATACCCAA CATATCCACC TCAGCCAATC CTTAGAACAG ATTCTCCTGG GTATAAAAAT 
    GTACCTTCTC AACAGGGTGG CCTTTTGAGA TCACCAAGCA CTGAGGCAGC TCATATTATA 
    CTAAGAGACC AAGAACCTTC ATCTTTACCA GTGCAAATTG ACTCAGCAAA GGTTTATAGA 
    AAAGAGGCCT ATGCTATGGA AGAGAATCCT AGACAAAATT ATTTGATGAA GCAGCAAGTG 
    CTTGGCCATC AAATTCAAAG ACATGAAAAA GAGACCAATT TAAACTATGA TGGCGTGCCA 
    GCATATGCAG AGAAACCACT GAATAGAGAA TATGACCAGT CTTATTGCTA TGATTCTACT 
    TCTGATTATG TAGATCAGTT TCCCCACAAT TATGATTCTC GAATAAATTT TGATGATCAC 
    GTGCCTACAT ATGATGAACA GTGGGGTTAT TATGATGACA AACAGTCATA TCCCCAGAGA 
    CCACCATTTG ACAGTAAACG CAATAGGGAC TTCAATATTA GACAGCACTC TGATGAAAAC 
    CTTGAACGTA ATTACTTTCA GCAGCCTCGA TTGGAGGAGC CACCTCCTGT TGCTTATGAC 
    AATCGCCCCC GCCCATCCCA AAACTACAAA CCAACCCAAG TACATTATGA AGACTCCACA 
    ACAGCAGAGT ATGATATGCA TATGCGTTAC AAACCTGAAC CTCAAACCAT TCCTTCTGTG 
    CCAACATCAA AGTCTTCTGA TGCAAAGCCG TATTTTGATC AACACATAAG GGGTTATGAA 
    CATAGTCCTA CCCAGGTATT TAACACAAAA CCAGGGCAGT ATGATACATC TCCTAGAATG 
    GAGGCAATGC CACCTCCACC TGTTCAGAGT AAGCCAGAGC TCCTTTCAAC AAGCTCAAAA 
    CCTTTGCCTG CCCCTGCTCC TTCCGTTGCT CCTGCAGCAA CTGAAGAAGA CGATGATCCA 
    GCTATGAAGC CACAGTCTGT ACTTACTAGA GTGAAAATGT TTGAGAACAA ACGTTCTAAT 
    CAAGGTGAAA AGAACAAGGA TATAAATGAT TCCACTCTTG TTAAGGCCCC AGATGTTGCA 
    CCTAAACCTA TACTTAATCA AGTAAGTGCT ACAAAGGCTG CCCCCGTTCC ACATTATGAT 
    CAGGACAAGG CAACTTATAG AGTACCTGAA CCTCAAAAGC CTCAAGTGAA GCCCCCAGAA 
    GATATAATTC GGGCCAACCA CTATGACCCC GATGAAGATG AAGAATACTA TCGAAAGCAG 
    CTGTCTTACT TTGATCGAAG AAGCTTTGAA AAGCCCACAC CCTTGCTGTC TGGAAACATC 
    CTGCCTGAGC CTGCCAAACC AGCGCAGTCT CAAAGCCAAC TTAGCTTTAA CAGCTACCCC 
    TCCAAGGGAA AGCCTGCAGA TTTGGAGCCA CTTGACAGAC CCATTAATGA AAAACGCTAT 
    GATCCAGTTC CACAGGTTAC TTCTTCTAAC CAGTATACTC AGCCTTCACC AGTGGTTGTA 
    AATCATTCAA CACACACTAA ACATATGCAT TTAGAAGCCA GCTCTGTGTC TGTGGAGGTT 
    CCAAGTTCCA CAGTGTCTAA GCCAGAGCCC CCACCTACTC AGGCCAAGCC AACATTGTTC 
    CGACCATCAA ACAGAGAGGA CACTGTACAG TCAAACTTCT ATCCTCAGAA GAGTTTCCCT 
    GAAAAAAGCC CTGTAAATGG CACTGAACAG GCTCCAAAAA CAGTAACACC ATCCTACAAT 
    CGTTTTACAC CTAAACCTTA CACAAATTCA GCGAGACCCT TTGAACGCAA GTTTGAAAGC 
    CCAAAATTTA ACCACAACCT CCTGCCAAAT GAAGCACAAG TAAAGCCAGA GCTGCCCACT 
    AAACCTCAGA ATTCTCCACA GCCTGTTTTA AAATCAAATA CGTCAATTTC TTCTGAACTG 
    GATAGCATAT CCAAGCAAAC GGAGAACAAA TCTAAATATC AACCAAACAA TGTTAATCCA 
    GTGCCTAAAG CAATCCCAGT CAGTCCTTCT GCATTGGAAG ATGACGATGA AGATGATGCA 
    CATACAGTTG TAGCAACAGC TAGAGGCTTC TTTAATAGTA ATGGAGGTGT GTTAAGTTCC 
    ATAGAAACGG GAGTCAGTAT CATCATACCC CAAGGAGCAA TTCCAGATGG CATTGAGCAA 
    GAAATATATT TCAAGGTCTG CAGGGATAAC AGTATCCTTC CACCCTTGGA CAAAGAGAAA 
    GGAGAGACGC TACTTAGTCC ATTAGTAATG TGCGGACCTC ATGGGTTAAA ATTCGTGAAA 
    CCAGTGGAGC TACGCTTACC ACACTGTGCG TCTATGACTC CTGATGGTTG GTCTTTTGCT 
    CTAAAATCAT CCGACACCTC GTCGGGTGAC CCAAAACACT GGCAGAACAA GTCACTTCCT 
    GGCGACCCCA ACTATCTTGT CGGAGCAAAC TGTGTCTCAG TTTTGATAGA CCACTTCTAA

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

    tjp1 ( XM_031899165.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031755025.1 Xenopus tropicalis tight junction protein 1 (tjp1), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OXa55057
    Clone ID Related Accession (Same CDS sequence) XM_031899165.1
    Accession Version XM_031899165.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5331bp)
    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 tight junction protein ZO-1 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030679.2) 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
    ATGAAATACC AGAAATACCT GACTGTGCTG CAGATGGCGA TCGGAGTGAC TCCTTCCAAC 
    AGAGGGAATA TACTGCCTTA CAAGCGGAGG CTGTGGGTCA CTCCGTCATC TGAGAATCCC 
    AATGCTGCTG CATCGAGTAC GAGTCAGGGA AAACCATCTC TAAGGAGAAT AAAGGGACGG 
    ATCCACAGAA GCAAAAGCTT GGATAGCGTT GACCTCTGCG ATTTTAATAA TACTGTAATG 
    GAAGAAACTG CAATATGGGA ACAGCAAACA GTTACTCTCC ACAGGGCCCC TGGATTTGGA 
    TTTGGCATTG CAATATCTGG AGGCAGAGAT AACCCACATT TTCAAAGTGG GGAAACATCA 
    ATTGTCATCT CTGATGTTCT TAAAGGAGGG CCTGCAGAAG GTTTGCTTCA GGAAAATGAT 
    CGTGTTGCAA TGGTCAATGG GGTTTCTATG GATAATGTCG AGCATGCCTT TGCTGTTCAG 
    CAGTTGAGGA AAAGTGGAAA AAATGCCAAA ATTACTATCC GGCGGAAGAA AAAAGTGCAA 
    CTTCCAGTAG TTCGTTCTGA CCCAGACCCA GTGTCTGAGA ATGAAGAGGA CAGTTATGAG 
    GAGGATGTGC CTGACCAGAG AAGTGCCCAC AGTGGTCCTG GTGCCAGCAG GAGAAGTGAA 
    AAAAGTTGGG TGAGGGACAG AAGTGCAAGC AGAGAAAGAA GTTTATCACC AAGATCAGAC 
    AGAAGATCTG TTTCTTCCAG TCAACCTGCT AAACCTACCA AAGTGACCTT GGTGAAATCT 
    AGAAAAAATG AAGAATATGG TTTAAGGTTG GCTAGCCACA TATTTGTAAA AGAAATTTCC 
    CAAGACAGTC TTGCGGCAAG AGATGGAAAT ATTCAAGAAG GGGATGTTGT GCTTAAGATT 
    AATGGCACAG TCACAGAAAA CATGTCTTTG GCTGATGCAA AAACATTAAT AGAAAGGTCG 
    AAGGGCAAAT TAAAAATGGT AGTTCAAAGA GATGAACGAG CAACTCTACT TAATGTCCCA 
    GATCTAGATG ACAGTCTCCA TTCTGCAAAT GCTTCAGAAA GAGATGACAT TTCAGAAATT 
    CAGTCGCTAA CATCAGATCA TTCCAACCGT TCACATGATA AACCTCGCCG TAGCCGTTCA 
    CGGTCACCGG ACCAGAGGTC AGAGCCTTCA GACCATTCCA GACATTCTCC ACAACAGCAC 
    AGCAACAGCA GTAGTCGAAG TCGAGAGGAT GAAAGAGTTT CAAAGCCTGG TGCAATATCT 
    ACTCCGGTGA AGAATGTCAA TAGTGTACCT CTTTCCAGAA CTGCAGAAGA ACCCTTTTTA 
    GAAAAGGCAG ATAAACAAAC ACCTCCTCTT CCAGAGCCAA AACCTGTATA TGCCCAGCCA 
    GGACAACCAG ATGTGGATTT GCCAGTCAGC CCATCTGATG GACCTTTCCC TAATTCTACA 
    CATGAAGATG GCATGCTTCG GCCAAGCATG AAACTGGTGA AGTTCAGGAA AGGAGACAGT 
    GTAGGCCTTC GTTTGGCTGG TGGTAATGAT GTGGGAATTT TTGTTGCTGG TGTATTAGAC 
    GACAGTCCTG CCGCAAAAGA AGGTTTGGAG GAAGGGGACC AGATACTCAG AGTTAACAAT 
    GTGGATTTCA CCAATATAAT AAGGGAAGAA GCGGTACTGT TCCTTCTTGA TCTGCCCAAA 
    GGAGAAGAGG TTACCATTCT TGCTCAGAAA AAGAAAGATG TGTATCGCCG CATTGTTGAG 
    TCAGATGTTG GGGATTCATT TTATATAAGA ACTCACTTTG AATATGAGAA AGAGTCACCA 
    TACGGGCTAA GTTTCAACAA AGGAGAGGTC TTTCGAGTTG TGGATACTCT TTACAATGGC 
    AAACTAGGGT CATGGTTGGC CATTAGAATT GGTAGAAATC ACAAGGAGGT GGAAAGAGGG 
    ATAATCCCCA ACAAGAATAG GGCTGAGCAA CTGGCTAGTG TACAGTACAC TCTTCCTAAA 
    ACTGCTGGTG GAGATCGTGC AGACTTCTGG AGATTCCGTG GCCTTCGTAG TTCCAAGCGA 
    AATCTACGGA AAAGCAGAGA GGATCTTTCT GCGCAACCTG TTCAAACAAA GTTCCCTGCT 
    TATGAGAGAG TCGTCTTGAG AGAAGCTGGA TTTCTCAGGC CTGTGGTTAT TTTTGGCCCT 
    ATTGCTGACG TTGCAAGAGA AAAGTTGGCA AGAGAAGAAC CAGATATTTA TGAAGTAGCA 
    AGAAGTGAAC CCAGAGATGC AGGTACTGAC CAGCGAAGTT CTGGAATTAT CCGCCTTCAT 
    ACTATTAAAC AGATTATTGA TAGGGATAAG CATGCTCTTC TAGATGTGAC TCCAAATGCT 
    GTGGACCGCT TAAATTATGC ACAATGGTAT CCGATAGTAG TGTTTCTTAA CCCAGACTCT 
    AAACAAGGTG TGAAAACAAT GAGAATGAGG TTATGCCCAG AATCACGCAA AAGTGCCAGG 
    AAACTATATG AACGTTCACA CAAACTACGC AAAAACAATC ACCATCTTTT CACAACTACA 
    ATAAATCTCA ACTCCATGAA TGATGGCTGG TATGGTGGCC TTAAAGAGGC AGCACAGCAG 
    CAACAGAACC AGCTAGTTTG GGTCTCAGAG GGCAAAGCAG AAGGTGGCAC AGATGATGAC 
    CTTGATTTGC ATGACGACCG TCTTTCCTAC CTATCAGCAC CAGGTAGTGA ATATTCAATG 
    TATAGCACTG ATAGTAGGCA CACATCAGAC TATGAAGACA CAGACACAGA AGGAGGGGCT 
    TACACTGACC AGGACCTGGA TGAGACACTT AATGATGAGG CTGGGACTCC ACCAGAATCT 
    GCAATCACAC GATCTTCTGA ACCAGTCAGA GAAGACACAT CAGGGATGCA AGAAAACCCA 
    GCATACCCAA CATATCCACC TCAGCCAATC CTTAGAACAG ATTCTCCTGG GTATAAAAAT 
    GTACCTTCTC AACAGAAAGC AGAAGCCTTA CCTGCAGCCC CTTACCTTTC TGTGTCGTCT 
    GAAACAAACC ATACAACTTC AACTGCTGCT GTTAATCCCA TGGTTTATAG AAAAGAGGCC 
    TATGCTATGG AAGAGAATCC TAGACAAAAT TATTTGATGA AGCAGCAAGT GCTTGGCCAT 
    CAAATTCAAA GACATGAAAA AGAGACCAAT TTAAACTATG ATGGCGTGCC AGCATATGCA 
    GAGAAACCAC TGAATAGAGA ATATGACCAG TCTTATTGCT ATGATTCTAC TTCTGATTAT 
    GTAGATCAGT TTCCCCACAA TTATGATTCT CGAATAAATT TTGATGATCA CGTGCCTACA 
    TATGATGAAC AGTGGGGTTA TTATGATGAC AAACAGTCAT ATCCCCAGAG ACCACCATTT 
    GACAGTAAAC GCAATAGGGA CTTCAATATT AGACAGCACT CTGATGAAAA CCTTGAACGT 
    AATTACTTTC AGCAGCCTCG ATTGGAGGAG CCACCTCCTG TTGCTTATGA CAATCGCCCC 
    CGCCCATCCC AAAACTACAA ACCAACCCAA GTACATTATG AAGACTCCAC AACAGCAGAG 
    TATGATATGC ATATGCGTTA CAAACCTGAA CCTCAAACCA TTCCTTCTGT GCCAACATCA 
    AAGTCTTCTG ATGCAAAGCC GTATTTTGAT CAACACATAA GGGGTTATGA ACATAGTCCT 
    ACCCAGGTAT TTAACACAAA ACCAGGGCAG TATGATACAT CTCCTAGAAT GGAGGCAATG 
    CCACCTCCAC CTGTTCAGAG TAAGCCAGAG CTCCTTTCAA CAAGCTCAAA ACCTTTGCCT 
    GCCCCTGCTC CTTCCGTTGC TCCTGCAGCA ACTGAAGAAG ACGATGATCC AGCTATGAAG 
    CCACAGTCTG TACTTACTAG AGTGAAAATG TTTGAGAACA AACGTTCTAA TCAAGGTGAA 
    AAGAACAAGG ATATAAATGA TTCCACTCTT GTTAAGGCCC CAGATGTTGC ACCTAAACCT 
    ATACTTAATC AAGTAAGTGC TACAAAGGCT GCCCCCGTTC CACATTATGA TCAGGACAAG 
    GCAACTTATA GAGTACCTGA ACCTCAAAAG CCTCAAGTGA AGCCCCCAGA AGATATAATT 
    CGGGCCAACC ACTATGACCC CGATGAAGAT GAAGAATACT ATCGAAAGCA GCTGTCTTAC 
    TTTGATCGAA GAAGCTTTGA AAAGCCCACA CCCTTGCTGT CTGGAAACAT CCTGCCTGAG 
    CCTGCCAAAC CAGCGCAGTC TCAAAGCCAA CTTAGCTTTA ACAGCTACCC CTCCAAGGGA 
    AAGCCTGCAG ATTTGGAGCC ACTTGACAGA CCCATTAATG AAAAACGCTA TGATCCAGTT 
    CCACAGGTTA CTTCTTCTAA CCAGTATACT CAGCCTTCAC CAGTGGTTGT AAATCATTCA 
    ACACACACTA AACATATGCA TTTAGAAGCC AGCTCTGTGT CTGTGGAGGT TCCAAGTTCC 
    ACAGTGTCTA AGCCAGAGCC CCCACCTACT CAGGCCAAGC CAACATTGTT CCGACCATCA 
    AACAGAGAGG ACACTGTACA GTCAAACTTC TATCCTCAGA AGAGTTTCCC TGAAAAAAGC 
    CCTGTAAATG GCACTGAACA GGCTCCAAAA ACAGTAACAC CATCCTACAA TCGTTTTACA 
    CCTAAACCTT ACACAAATTC AGCGAGACCC TTTGAACGCA AGTTTGAAAG CCCAAAATTT 
    AACCACAACC TCCTGCCAAA TGAAGCACAA GTAAAGCCAG AGCTGCCCAC TAAACCTCAG 
    AATTCTCCAC AGCCTGTTTT AAAATCAAAT ACGTCAATTT CTTCTGAACT GGATAGCATA 
    TCCAAGCAAA CGGAGAACAA ATCTAAATAT CAACCAAACA ATGTTAATCC AGTGCCTAAA 
    GCAATCCCAG TCAGTCCTTC TGCATTGGAA GATGACGATG AAGATGATGC ACATACAGTT 
    GTAGCAACAG CTAGAGGCTT CTTTAATAGT AATGGAGGTG TGTTAAGTTC CATAGAAACG 
    GGAGTCAGTA TCATCATACC CCAAGGAGCA ATTCCAGATG GCATTGAGCA AGAAATATAT 
    TTCAAGGTCT GCAGGGATAA CAGTATCCTT CCACCCTTGG ACAAAGAGAA AGGAGAGACG 
    CTACTTAGTC CATTAGTAAT GTGCGGACCT CATGGGTTAA AATTCGTGAA ACCAGTGGAG 
    CTACGCTTAC CACACTGTGC GTCTATGACT CCTGATGGTT GGTCTTTTGC TCTAAAATCA 
    TCCGACACCT CGTCGGGTGA CCCAAAACAC TGGCAGAACA AGTCACTTCC TGGCGACCCC 
    AACTATCTTG TCGGAGCAAA CTGTGTCTCA GTTTTGATAG ACCACTTCTA A

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

    RefSeq XP_031755025.1
    CDS25..5355
    Translation

    Target ORF information:

    RefSeq Version XM_031899165.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis tight junction protein 1 (tjp1), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031899165.1

    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
    ATGAAATACC AGAAATACCT GACTGTGCTG CAGATGGCGA TCGGAGTGAC TCCTTCCAAC 
    AGAGGGAATA TACTGCCTTA CAAGCGGAGG CTGTGGGTCA CTCCGTCATC TGAGAATCCC 
    AATGCTGCTG CATCGAGTAC GAGTCAGGGA AAACCATCTC TAAGGAGAAT AAAGGGACGG 
    ATCCACAGAA GCAAAAGCTT GGATAGCGTT GACCTCTGCG ATTTTAATAA TACTGTAATG 
    GAAGAAACTG CAATATGGGA ACAGCAAACA GTTACTCTCC ACAGGGCCCC TGGATTTGGA 
    TTTGGCATTG CAATATCTGG AGGCAGAGAT AACCCACATT TTCAAAGTGG GGAAACATCA 
    ATTGTCATCT CTGATGTTCT TAAAGGAGGG CCTGCAGAAG GTTTGCTTCA GGAAAATGAT 
    CGTGTTGCAA TGGTCAATGG GGTTTCTATG GATAATGTCG AGCATGCCTT TGCTGTTCAG 
    CAGTTGAGGA AAAGTGGAAA AAATGCCAAA ATTACTATCC GGCGGAAGAA AAAAGTGCAA 
    CTTCCAGTAG TTCGTTCTGA CCCAGACCCA GTGTCTGAGA ATGAAGAGGA CAGTTATGAG 
    GAGGATGTGC CTGACCAGAG AAGTGCCCAC AGTGGTCCTG GTGCCAGCAG GAGAAGTGAA 
    AAAAGTTGGG TGAGGGACAG AAGTGCAAGC AGAGAAAGAA GTTTATCACC AAGATCAGAC 
    AGAAGATCTG TTTCTTCCAG TCAACCTGCT AAACCTACCA AAGTGACCTT GGTGAAATCT 
    AGAAAAAATG AAGAATATGG TTTAAGGTTG GCTAGCCACA TATTTGTAAA AGAAATTTCC 
    CAAGACAGTC TTGCGGCAAG AGATGGAAAT ATTCAAGAAG GGGATGTTGT GCTTAAGATT 
    AATGGCACAG TCACAGAAAA CATGTCTTTG GCTGATGCAA AAACATTAAT AGAAAGGTCG 
    AAGGGCAAAT TAAAAATGGT AGTTCAAAGA GATGAACGAG CAACTCTACT TAATGTCCCA 
    GATCTAGATG ACAGTCTCCA TTCTGCAAAT GCTTCAGAAA GAGATGACAT TTCAGAAATT 
    CAGTCGCTAA CATCAGATCA TTCCAACCGT TCACATGATA AACCTCGCCG TAGCCGTTCA 
    CGGTCACCGG ACCAGAGGTC AGAGCCTTCA GACCATTCCA GACATTCTCC ACAACAGCAC 
    AGCAACAGCA GTAGTCGAAG TCGAGAGGAT GAAAGAGTTT CAAAGCCTGG TGCAATATCT 
    ACTCCGGTGA AGAATGTCAA TAGTGTACCT CTTTCCAGAA CTGCAGAAGA ACCCTTTTTA 
    GAAAAGGCAG ATAAACAAAC ACCTCCTCTT CCAGAGCCAA AACCTGTATA TGCCCAGCCA 
    GGACAACCAG ATGTGGATTT GCCAGTCAGC CCATCTGATG GACCTTTCCC TAATTCTACA 
    CATGAAGATG GCATGCTTCG GCCAAGCATG AAACTGGTGA AGTTCAGGAA AGGAGACAGT 
    GTAGGCCTTC GTTTGGCTGG TGGTAATGAT GTGGGAATTT TTGTTGCTGG TGTATTAGAC 
    GACAGTCCTG CCGCAAAAGA AGGTTTGGAG GAAGGGGACC AGATACTCAG AGTTAACAAT 
    GTGGATTTCA CCAATATAAT AAGGGAAGAA GCGGTACTGT TCCTTCTTGA TCTGCCCAAA 
    GGAGAAGAGG TTACCATTCT TGCTCAGAAA AAGAAAGATG TGTATCGCCG CATTGTTGAG 
    TCAGATGTTG GGGATTCATT TTATATAAGA ACTCACTTTG AATATGAGAA AGAGTCACCA 
    TACGGGCTAA GTTTCAACAA AGGAGAGGTC TTTCGAGTTG TGGATACTCT TTACAATGGC 
    AAACTAGGGT CATGGTTGGC CATTAGAATT GGTAGAAATC ACAAGGAGGT GGAAAGAGGG 
    ATAATCCCCA ACAAGAATAG GGCTGAGCAA CTGGCTAGTG TACAGTACAC TCTTCCTAAA 
    ACTGCTGGTG GAGATCGTGC AGACTTCTGG AGATTCCGTG GCCTTCGTAG TTCCAAGCGA 
    AATCTACGGA AAAGCAGAGA GGATCTTTCT GCGCAACCTG TTCAAACAAA GTTCCCTGCT 
    TATGAGAGAG TCGTCTTGAG AGAAGCTGGA TTTCTCAGGC CTGTGGTTAT TTTTGGCCCT 
    ATTGCTGACG TTGCAAGAGA AAAGTTGGCA AGAGAAGAAC CAGATATTTA TGAAGTAGCA 
    AGAAGTGAAC CCAGAGATGC AGGTACTGAC CAGCGAAGTT CTGGAATTAT CCGCCTTCAT 
    ACTATTAAAC AGATTATTGA TAGGGATAAG CATGCTCTTC TAGATGTGAC TCCAAATGCT 
    GTGGACCGCT TAAATTATGC ACAATGGTAT CCGATAGTAG TGTTTCTTAA CCCAGACTCT 
    AAACAAGGTG TGAAAACAAT GAGAATGAGG TTATGCCCAG AATCACGCAA AAGTGCCAGG 
    AAACTATATG AACGTTCACA CAAACTACGC AAAAACAATC ACCATCTTTT CACAACTACA 
    ATAAATCTCA ACTCCATGAA TGATGGCTGG TATGGTGGCC TTAAAGAGGC AGCACAGCAG 
    CAACAGAACC AGCTAGTTTG GGTCTCAGAG GGCAAAGCAG AAGGTGGCAC AGATGATGAC 
    CTTGATTTGC ATGACGACCG TCTTTCCTAC CTATCAGCAC CAGGTAGTGA ATATTCAATG 
    TATAGCACTG ATAGTAGGCA CACATCAGAC TATGAAGACA CAGACACAGA AGGAGGGGCT 
    TACACTGACC AGGACCTGGA TGAGACACTT AATGATGAGG CTGGGACTCC ACCAGAATCT 
    GCAATCACAC GATCTTCTGA ACCAGTCAGA GAAGACACAT CAGGGATGCA AGAAAACCCA 
    GCATACCCAA CATATCCACC TCAGCCAATC CTTAGAACAG ATTCTCCTGG GTATAAAAAT 
    GTACCTTCTC AACAGAAAGC AGAAGCCTTA CCTGCAGCCC CTTACCTTTC TGTGTCGTCT 
    GAAACAAACC ATACAACTTC AACTGCTGCT GTTAATCCCA TGGTTTATAG AAAAGAGGCC 
    TATGCTATGG AAGAGAATCC TAGACAAAAT TATTTGATGA AGCAGCAAGT GCTTGGCCAT 
    CAAATTCAAA GACATGAAAA AGAGACCAAT TTAAACTATG ATGGCGTGCC AGCATATGCA 
    GAGAAACCAC TGAATAGAGA ATATGACCAG TCTTATTGCT ATGATTCTAC TTCTGATTAT 
    GTAGATCAGT TTCCCCACAA TTATGATTCT CGAATAAATT TTGATGATCA CGTGCCTACA 
    TATGATGAAC AGTGGGGTTA TTATGATGAC AAACAGTCAT ATCCCCAGAG ACCACCATTT 
    GACAGTAAAC GCAATAGGGA CTTCAATATT AGACAGCACT CTGATGAAAA CCTTGAACGT 
    AATTACTTTC AGCAGCCTCG ATTGGAGGAG CCACCTCCTG TTGCTTATGA CAATCGCCCC 
    CGCCCATCCC AAAACTACAA ACCAACCCAA GTACATTATG AAGACTCCAC AACAGCAGAG 
    TATGATATGC ATATGCGTTA CAAACCTGAA CCTCAAACCA TTCCTTCTGT GCCAACATCA 
    AAGTCTTCTG ATGCAAAGCC GTATTTTGAT CAACACATAA GGGGTTATGA ACATAGTCCT 
    ACCCAGGTAT TTAACACAAA ACCAGGGCAG TATGATACAT CTCCTAGAAT GGAGGCAATG 
    CCACCTCCAC CTGTTCAGAG TAAGCCAGAG CTCCTTTCAA CAAGCTCAAA ACCTTTGCCT 
    GCCCCTGCTC CTTCCGTTGC TCCTGCAGCA ACTGAAGAAG ACGATGATCC AGCTATGAAG 
    CCACAGTCTG TACTTACTAG AGTGAAAATG TTTGAGAACA AACGTTCTAA TCAAGGTGAA 
    AAGAACAAGG ATATAAATGA TTCCACTCTT GTTAAGGCCC CAGATGTTGC ACCTAAACCT 
    ATACTTAATC AAGTAAGTGC TACAAAGGCT GCCCCCGTTC CACATTATGA TCAGGACAAG 
    GCAACTTATA GAGTACCTGA ACCTCAAAAG CCTCAAGTGA AGCCCCCAGA AGATATAATT 
    CGGGCCAACC ACTATGACCC CGATGAAGAT GAAGAATACT ATCGAAAGCA GCTGTCTTAC 
    TTTGATCGAA GAAGCTTTGA AAAGCCCACA CCCTTGCTGT CTGGAAACAT CCTGCCTGAG 
    CCTGCCAAAC CAGCGCAGTC TCAAAGCCAA CTTAGCTTTA ACAGCTACCC CTCCAAGGGA 
    AAGCCTGCAG ATTTGGAGCC ACTTGACAGA CCCATTAATG AAAAACGCTA TGATCCAGTT 
    CCACAGGTTA CTTCTTCTAA CCAGTATACT CAGCCTTCAC CAGTGGTTGT AAATCATTCA 
    ACACACACTA AACATATGCA TTTAGAAGCC AGCTCTGTGT CTGTGGAGGT TCCAAGTTCC 
    ACAGTGTCTA AGCCAGAGCC CCCACCTACT CAGGCCAAGC CAACATTGTT CCGACCATCA 
    AACAGAGAGG ACACTGTACA GTCAAACTTC TATCCTCAGA AGAGTTTCCC TGAAAAAAGC 
    CCTGTAAATG GCACTGAACA GGCTCCAAAA ACAGTAACAC CATCCTACAA TCGTTTTACA 
    CCTAAACCTT ACACAAATTC AGCGAGACCC TTTGAACGCA AGTTTGAAAG CCCAAAATTT 
    AACCACAACC TCCTGCCAAA TGAAGCACAA GTAAAGCCAG AGCTGCCCAC TAAACCTCAG 
    AATTCTCCAC AGCCTGTTTT AAAATCAAAT ACGTCAATTT CTTCTGAACT GGATAGCATA 
    TCCAAGCAAA CGGAGAACAA ATCTAAATAT CAACCAAACA ATGTTAATCC AGTGCCTAAA 
    GCAATCCCAG TCAGTCCTTC TGCATTGGAA GATGACGATG AAGATGATGC ACATACAGTT 
    GTAGCAACAG CTAGAGGCTT CTTTAATAGT AATGGAGGTG TGTTAAGTTC CATAGAAACG 
    GGAGTCAGTA TCATCATACC CCAAGGAGCA ATTCCAGATG GCATTGAGCA AGAAATATAT 
    TTCAAGGTCT GCAGGGATAA CAGTATCCTT CCACCCTTGG ACAAAGAGAA AGGAGAGACG 
    CTACTTAGTC CATTAGTAAT GTGCGGACCT CATGGGTTAA AATTCGTGAA ACCAGTGGAG 
    CTACGCTTAC CACACTGTGC GTCTATGACT CCTGATGGTT GGTCTTTTGC TCTAAAATCA 
    TCCGACACCT CGTCGGGTGA CCCAAAACAC TGGCAGAACA AGTCACTTCC TGGCGACCCC 
    AACTATCTTG TCGGAGCAAA CTGTGTCTCA GTTTTGATAG ACCACTTCTA A

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

    tjp1 ( XM_031899166.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031755026.1 Xenopus tropicalis tight junction protein 1 (tjp1), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OXa55058
    Clone ID Related Accession (Same CDS sequence) XM_031899166.1
    Accession Version XM_031899166.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5292bp)
    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 tight junction protein ZO-1 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030679.2) 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
    ATGTCGTCTA GAGCGGCTGC CAATAAGAAT ACTGTAATGG AAGAAACTGC AATATGGGAA 
    CAGCAAACAG TTACTCTCCA CAGGGCCCCT GGATTTGGAT TTGGCATTGC AATATCTGGA 
    GGCAGAGATA ACCCACATTT TCAAAGTGGG GAAACATCAA TTGTCATCTC TGATGTTCTT 
    AAAGGAGGGC CTGCAGAAGG TTTGCTTCAG GAAAATGATC GTGTTGCAAT GGTCAATGGG 
    GTTTCTATGG ATAATGTCGA GCATGCCTTT GCTGTTCAGC AGTTGAGGAA AAGTGGAAAA 
    AATGCCAAAA TTACTATCCG GCGGAAGAAA AAAGTGCAAC TTCCAGTAGT TCGTTCTGAC 
    CCAGACCCAG TGTCTGAGAA TGAAGAGGAC AGTTATGAGG AGGATGTGCC TGACCAGAGA 
    AGTGCCCACA GTGGTCCTGG TGCCAGCAGG AGAAGTGAAA AAAGTTGGGT GAGGGACAGA 
    AGTGCAAGCA GAGAAAGAAG TTTATCACCA AGATCAGACA GAAGATCTGT TTCTTCCAGT 
    CAACCTGCTA AACCTACCAA AGTGACCTTG GTGAAATCTA GAAAAAATGA AGAATATGGT 
    TTAAGGTTGG CTAGCCACAT ATTTGTAAAA GAAATTTCCC AAGACAGTCT TGCGGCAAGA 
    GATGGAAATA TTCAAGAAGG GGATGTTGTG CTTAAGATTA ATGGCACAGT CACAGAAAAC 
    ATGTCTTTGG CTGATGCAAA AACATTAATA GAAAGGTCGA AGGGCAAATT AAAAATGGTA 
    GTTCAAAGAG ATGAACGAGC AACTCTACTT AATGTCCCAG ATCTAGATGA CAGTCTCCAT 
    TCTGCAAATG CTTCAGAAAG AGATGACATT TCAGAAATTC AGTCGCTAAC ATCAGATCAT 
    TCCAACCGTT CACATGATAA ACCTCGCCGT AGCCGTTCAC GGTCACCGGA CCAGAGGTCA 
    GAGCCTTCAG ACCATTCCAG ACATTCTCCA CAACAGCACA GCAACAGCAG TAGTCGAAGT 
    CGAGAGGATG AAAGAGTTTC AAAGCCTGGT GCAATATCTA CTCCGGTGAA GAATGTCAAT 
    AGTGTACCTC TTTCCAGAAC TGCAGAAGAA CCCTTTTTAG AAAAGGCAGA TAAACAAACA 
    CCTCCTCTTC CAGAGCCAAA ACCTGTATAT GCCCAGCCAG GACAACCAGA TGTGGATTTG 
    CCAGTCAGCC CATCTGATGG ACCTTTCCCT AATTCTACAC ATGAAGATGG CATGCTTCGG 
    CCAAGCATGA AACTGGTGAA GTTCAGGAAA GGAGACAGTG TAGGCCTTCG TTTGGCTGGT 
    GGTAATGATG TGGGAATTTT TGTTGCTGGT GTATTAGACG ACAGTCCTGC CGCAAAAGAA 
    GGTTTGGAGG AAGGGGACCA GATACTCAGA GTTAACAATG TGGATTTCAC CAATATAATA 
    AGGGAAGAAG CGGTACTGTT CCTTCTTGAT CTGCCCAAAG GAGAAGAGGT TACCATTCTT 
    GCTCAGAAAA AGAAAGATGT GTATCGCCGC ATTGTTGAGT CAGATGTTGG GGATTCATTT 
    TATATAAGAA CTCACTTTGA ATATGAGAAA GAGTCACCAT ACGGGCTAAG TTTCAACAAA 
    GGAGAGGTCT TTCGAGTTGT GGATACTCTT TACAATGGCA AACTAGGGTC ATGGTTGGCC 
    ATTAGAATTG GTAGAAATCA CAAGGAGGTG GAAAGAGGGA TAATCCCCAA CAAGAATAGG 
    GCTGAGCAAC TGGCTAGTGT ACAGTACACT CTTCCTAAAA CTGCTGGTGG AGATCGTGCA 
    GACTTCTGGA GATTCCGTGG CCTTCGTAGT TCCAAGCGAA ATCTACGGAA AAGCAGAGAG 
    GATCTTTCTG CGCAACCTGT TCAAACAAAG TTCCCTGCTT ATGAGAGAGT CGTCTTGAGA 
    GAAGCTGGAT TTCTCAGGCC TGTGGTTATT TTTGGCCCTA TTGCTGACGT TGCAAGAGAA 
    AAGTTGGCAA GAGAAGAACC AGATATTTAT GAAGTAGCAA GAAGTGAACC CAGAGATGCA 
    GGTACTGACC AGCGAAGTTC TGGAATTATC CGCCTTCATA CTATTAAACA GATTATTGAT 
    AGGGATAAGC ATGCTCTTCT AGATGTGACT CCAAATGCTG TGGACCGCTT AAATTATGCA 
    CAATGGTATC CGATAGTAGT GTTTCTTAAC CCAGACTCTA AACAAGGTGT GAAAACAATG 
    AGAATGAGGT TATGCCCAGA ATCACGCAAA AGTGCCAGGA AACTATATGA ACGTTCACAC 
    AAACTACGCA AAAACAATCA CCATCTTTTC ACAACTACAA TAAATCTCAA CTCCATGAAT 
    GATGGCTGGT ATGGTGGCCT TAAAGAGGCA GCACAGCAGC AACAGAACCA GCTAGTTTGG 
    GTCTCAGAGG GCAAAGCAGA AGGTGGCACA GATGATGACC TTGATTTGCA TGACGACCGT 
    CTTTCCTACC TATCAGCACC AGGTAGTGAA TATTCAATGT ATAGCACTGA TAGTAGGCAC 
    ACATCAGACT ATGAAGACAC AGACACAGAA GGAGGGGCTT ACACTGACCA GGACCTGGAT 
    GAGACACTTA ATGATGAGGC TGGGACTCCA CCAGAATCTG CAATCACACG ATCTTCTGAA 
    CCAGTCAGAG AAGACACATC AGGGATGCAA GAAAACCCAG CATACCCAAC ATATCCACCT 
    CAGCCAATCC TTAGAACAGA TTCTCCTGGG TATAAAAATG TACCTTCTCA ACAGAAAGCA 
    GAAGCCTTAC CTGCAGCCCC TTACCTTTCT GTGTCGTCTG AAACAAACCA TACAACTTCA 
    ACTGCTGCTG TTAATCCCAT GGTAAATCTA AATAATGTTC GATTGGAGGA TCCCAACCAT 
    GCCCCTTACA GCTCTTATCA ATCACAGGGT GGCCTTTTGA GATCACCAAG CACTGAGGCA 
    GCTCATATTA TACTAAGAGA CCAAGAACCT TCATCTTTAC CAGTGCAAAT TGACTCAGCA 
    AAGGTTTATA GAAAAGAGGC CTATGCTATG GAAGAGAATC CTAGACAAAA TTATTTGATG 
    AAGCAGCAAG TGCTTGGCCA TCAAATTCAA AGACATGAAA AAGAGACCAA TTTAAACTAT 
    GATGGCGTGC CAGCATATGC AGAGAAACCA CTGAATAGAG AATATGACCA GTCTTATTGC 
    TATGATTCTA CTTCTGATTA TGTAGATCAG TTTCCCCACA ATTATGATTC TCGAATAAAT 
    TTTGATGATC ACGTGCCTAC ATATGATGAA CAGTGGGGTT ATTATGATGA CAAACAGTCA 
    TATCCCCAGA GACCACCATT TGACAGTAAA CGCAATAGGG ACTTCAATAT TAGACAGCAC 
    TCTGATGAAA ACCTTGAACG TAATTACTTT CAGCAGCCTC GATTGGAGGA GCCACCTCCT 
    GTTGCTTATG ACAATCGCCC CCGCCCATCC CAAAACTACA AACCAACCCA AGTACATTAT 
    GAAGACTCCA CAACAGCAGA GTATGATATG CATATGCGTT ACAAACCTGA ACCTCAAACC 
    ATTCCTTCTG TGCCAACATC AAAGTCTTCT GATGCAAAGC CGTATTTTGA TCAACACATA 
    AGGGGTTATG AACATAGTCC TACCCAGGTA TTTAACACAA AACCAGGGCA GTATGATACA 
    TCTCCTAGAA TGGAGGCAAT GCCACCTCCA CCTGTTCAGA GTAAGCCAGA GCTCCTTTCA 
    ACAAGCTCAA AACCTTTGCC TGCCCCTGCT CCTTCCGTTG CTCCTGCAGC AACTGAAGAA 
    GACGATGATC CAGCTATGAA GCCACAGTCT GTACTTACTA GAGTGAAAAT GTTTGAGAAC 
    AAACGTTCTA ATCAAGGTGA AAAGAACAAG GATATAAATG ATTCCACTCT TGTTAAGGCC 
    CCAGATGTTG CACCTAAACC TATACTTAAT CAAGTAAGTG CTACAAAGGC TGCCCCCGTT 
    CCACATTATG ATCAGGACAA GGCAACTTAT AGAGTACCTG AACCTCAAAA GCCTCAAGTG 
    AAGCCCCCAG AAGATATAAT TCGGGCCAAC CACTATGACC CCGATGAAGA TGAAGAATAC 
    TATCGAAAGC AGCTGTCTTA CTTTGATCGA AGAAGCTTTG AAAAGCCCAC ACCCTTGCTG 
    TCTGGAAACA TCCTGCCTGA GCCTGCCAAA CCAGCGCAGT CTCAAAGCCA ACTTAGCTTT 
    AACAGCTACC CCTCCAAGGG AAAGCCTGCA GATTTGGAGC CACTTGACAG ACCCATTAAT 
    GAAAAACGCT ATGATCCAGT TCCACAGGTT ACTTCTTCTA ACCAGTATAC TCAGCCTTCA 
    CCAGTGGTTG TAAATCATTC AACACACACT AAACATATGC ATTTAGAAGC CAGCTCTGTG 
    TCTGTGGAGG TTCCAAGTTC CACAGTGTCT AAGCCAGAGC CCCCACCTAC TCAGGCCAAG 
    CCAACATTGT TCCGACCATC AAACAGAGAG GACACTGTAC AGTCAAACTT CTATCCTCAG 
    AAGAGTTTCC CTGAAAAAAG CCCTGTAAAT GGCACTGAAC AGGCTCCAAA AACAGTAACA 
    CCATCCTACA ATCGTTTTAC ACCTAAACCT TACACAAATT CAGCGAGACC CTTTGAACGC 
    AAGTTTGAAA GCCCAAAATT TAACCACAAC CTCCTGCCAA ATGAAGCACA AGTAAAGCCA 
    GAGCTGCCCA CTAAACCTCA GAATTCTCCA CAGCCTGTTT TAAAATCAAA TACGTCAATT 
    TCTTCTGAAC TGGATAGCAT ATCCAAGCAA ACGGAGAACA AATCTAAATA TCAACCAAAC 
    AATGTTAATC CAGTGCCTAA AGCAATCCCA GTCAGTCCTT CTGCATTGGA AGATGACGAT 
    GAAGATGATG CACATACAGT TGTAGCAACA GCTAGAGGCT TCTTTAATAG TAATGGAGGT 
    GTGTTAAGTT CCATAGAAAC GGGAGTCAGT ATCATCATAC CCCAAGGAGC AATTCCAGAT 
    GGCATTGAGC AAGAAATATA TTTCAAGGTC TGCAGGGATA ACAGTATCCT TCCACCCTTG 
    GACAAAGAGA AAGGAGAGAC GCTACTTAGT CCATTAGTAA TGTGCGGACC TCATGGGTTA 
    AAATTCGTGA AACCAGTGGA GCTACGCTTA CCACACTGTG CGTCTATGAC TCCTGATGGT 
    TGGTCTTTTG CTCTAAAATC ATCCGACACC TCGTCGGGTG ACCCAAAACA CTGGCAGAAC 
    AAGTCACTTC CTGGCGACCC CAACTATCTT GTCGGAGCAA ACTGTGTCTC AGTTTTGATA 
    GACCACTTCT AA

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

    RefSeq XP_031755026.1
    CDS1576..6867
    Translation

    Target ORF information:

    RefSeq Version XM_031899166.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis tight junction protein 1 (tjp1), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031899166.1

    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
    ATGTCGTCTA GAGCGGCTGC CAATAAGAAT ACTGTAATGG AAGAAACTGC AATATGGGAA 
    CAGCAAACAG TTACTCTCCA CAGGGCCCCT GGATTTGGAT TTGGCATTGC AATATCTGGA 
    GGCAGAGATA ACCCACATTT TCAAAGTGGG GAAACATCAA TTGTCATCTC TGATGTTCTT 
    AAAGGAGGGC CTGCAGAAGG TTTGCTTCAG GAAAATGATC GTGTTGCAAT GGTCAATGGG 
    GTTTCTATGG ATAATGTCGA GCATGCCTTT GCTGTTCAGC AGTTGAGGAA AAGTGGAAAA 
    AATGCCAAAA TTACTATCCG GCGGAAGAAA AAAGTGCAAC TTCCAGTAGT TCGTTCTGAC 
    CCAGACCCAG TGTCTGAGAA TGAAGAGGAC AGTTATGAGG AGGATGTGCC TGACCAGAGA 
    AGTGCCCACA GTGGTCCTGG TGCCAGCAGG AGAAGTGAAA AAAGTTGGGT GAGGGACAGA 
    AGTGCAAGCA GAGAAAGAAG TTTATCACCA AGATCAGACA GAAGATCTGT TTCTTCCAGT 
    CAACCTGCTA AACCTACCAA AGTGACCTTG GTGAAATCTA GAAAAAATGA AGAATATGGT 
    TTAAGGTTGG CTAGCCACAT ATTTGTAAAA GAAATTTCCC AAGACAGTCT TGCGGCAAGA 
    GATGGAAATA TTCAAGAAGG GGATGTTGTG CTTAAGATTA ATGGCACAGT CACAGAAAAC 
    ATGTCTTTGG CTGATGCAAA AACATTAATA GAAAGGTCGA AGGGCAAATT AAAAATGGTA 
    GTTCAAAGAG ATGAACGAGC AACTCTACTT AATGTCCCAG ATCTAGATGA CAGTCTCCAT 
    TCTGCAAATG CTTCAGAAAG AGATGACATT TCAGAAATTC AGTCGCTAAC ATCAGATCAT 
    TCCAACCGTT CACATGATAA ACCTCGCCGT AGCCGTTCAC GGTCACCGGA CCAGAGGTCA 
    GAGCCTTCAG ACCATTCCAG ACATTCTCCA CAACAGCACA GCAACAGCAG TAGTCGAAGT 
    CGAGAGGATG AAAGAGTTTC AAAGCCTGGT GCAATATCTA CTCCGGTGAA GAATGTCAAT 
    AGTGTACCTC TTTCCAGAAC TGCAGAAGAA CCCTTTTTAG AAAAGGCAGA TAAACAAACA 
    CCTCCTCTTC CAGAGCCAAA ACCTGTATAT GCCCAGCCAG GACAACCAGA TGTGGATTTG 
    CCAGTCAGCC CATCTGATGG ACCTTTCCCT AATTCTACAC ATGAAGATGG CATGCTTCGG 
    CCAAGCATGA AACTGGTGAA GTTCAGGAAA GGAGACAGTG TAGGCCTTCG TTTGGCTGGT 
    GGTAATGATG TGGGAATTTT TGTTGCTGGT GTATTAGACG ACAGTCCTGC CGCAAAAGAA 
    GGTTTGGAGG AAGGGGACCA GATACTCAGA GTTAACAATG TGGATTTCAC CAATATAATA 
    AGGGAAGAAG CGGTACTGTT CCTTCTTGAT CTGCCCAAAG GAGAAGAGGT TACCATTCTT 
    GCTCAGAAAA AGAAAGATGT GTATCGCCGC ATTGTTGAGT CAGATGTTGG GGATTCATTT 
    TATATAAGAA CTCACTTTGA ATATGAGAAA GAGTCACCAT ACGGGCTAAG TTTCAACAAA 
    GGAGAGGTCT TTCGAGTTGT GGATACTCTT TACAATGGCA AACTAGGGTC ATGGTTGGCC 
    ATTAGAATTG GTAGAAATCA CAAGGAGGTG GAAAGAGGGA TAATCCCCAA CAAGAATAGG 
    GCTGAGCAAC TGGCTAGTGT ACAGTACACT CTTCCTAAAA CTGCTGGTGG AGATCGTGCA 
    GACTTCTGGA GATTCCGTGG CCTTCGTAGT TCCAAGCGAA ATCTACGGAA AAGCAGAGAG 
    GATCTTTCTG CGCAACCTGT TCAAACAAAG TTCCCTGCTT ATGAGAGAGT CGTCTTGAGA 
    GAAGCTGGAT TTCTCAGGCC TGTGGTTATT TTTGGCCCTA TTGCTGACGT TGCAAGAGAA 
    AAGTTGGCAA GAGAAGAACC AGATATTTAT GAAGTAGCAA GAAGTGAACC CAGAGATGCA 
    GGTACTGACC AGCGAAGTTC TGGAATTATC CGCCTTCATA CTATTAAACA GATTATTGAT 
    AGGGATAAGC ATGCTCTTCT AGATGTGACT CCAAATGCTG TGGACCGCTT AAATTATGCA 
    CAATGGTATC CGATAGTAGT GTTTCTTAAC CCAGACTCTA AACAAGGTGT GAAAACAATG 
    AGAATGAGGT TATGCCCAGA ATCACGCAAA AGTGCCAGGA AACTATATGA ACGTTCACAC 
    AAACTACGCA AAAACAATCA CCATCTTTTC ACAACTACAA TAAATCTCAA CTCCATGAAT 
    GATGGCTGGT ATGGTGGCCT TAAAGAGGCA GCACAGCAGC AACAGAACCA GCTAGTTTGG 
    GTCTCAGAGG GCAAAGCAGA AGGTGGCACA GATGATGACC TTGATTTGCA TGACGACCGT 
    CTTTCCTACC TATCAGCACC AGGTAGTGAA TATTCAATGT ATAGCACTGA TAGTAGGCAC 
    ACATCAGACT ATGAAGACAC AGACACAGAA GGAGGGGCTT ACACTGACCA GGACCTGGAT 
    GAGACACTTA ATGATGAGGC TGGGACTCCA CCAGAATCTG CAATCACACG ATCTTCTGAA 
    CCAGTCAGAG AAGACACATC AGGGATGCAA GAAAACCCAG CATACCCAAC ATATCCACCT 
    CAGCCAATCC TTAGAACAGA TTCTCCTGGG TATAAAAATG TACCTTCTCA ACAGAAAGCA 
    GAAGCCTTAC CTGCAGCCCC TTACCTTTCT GTGTCGTCTG AAACAAACCA TACAACTTCA 
    ACTGCTGCTG TTAATCCCAT GGTAAATCTA AATAATGTTC GATTGGAGGA TCCCAACCAT 
    GCCCCTTACA GCTCTTATCA ATCACAGGGT GGCCTTTTGA GATCACCAAG CACTGAGGCA 
    GCTCATATTA TACTAAGAGA CCAAGAACCT TCATCTTTAC CAGTGCAAAT TGACTCAGCA 
    AAGGTTTATA GAAAAGAGGC CTATGCTATG GAAGAGAATC CTAGACAAAA TTATTTGATG 
    AAGCAGCAAG TGCTTGGCCA TCAAATTCAA AGACATGAAA AAGAGACCAA TTTAAACTAT 
    GATGGCGTGC CAGCATATGC AGAGAAACCA CTGAATAGAG AATATGACCA GTCTTATTGC 
    TATGATTCTA CTTCTGATTA TGTAGATCAG TTTCCCCACA ATTATGATTC TCGAATAAAT 
    TTTGATGATC ACGTGCCTAC ATATGATGAA CAGTGGGGTT ATTATGATGA CAAACAGTCA 
    TATCCCCAGA GACCACCATT TGACAGTAAA CGCAATAGGG ACTTCAATAT TAGACAGCAC 
    TCTGATGAAA ACCTTGAACG TAATTACTTT CAGCAGCCTC GATTGGAGGA GCCACCTCCT 
    GTTGCTTATG ACAATCGCCC CCGCCCATCC CAAAACTACA AACCAACCCA AGTACATTAT 
    GAAGACTCCA CAACAGCAGA GTATGATATG CATATGCGTT ACAAACCTGA ACCTCAAACC 
    ATTCCTTCTG TGCCAACATC AAAGTCTTCT GATGCAAAGC CGTATTTTGA TCAACACATA 
    AGGGGTTATG AACATAGTCC TACCCAGGTA TTTAACACAA AACCAGGGCA GTATGATACA 
    TCTCCTAGAA TGGAGGCAAT GCCACCTCCA CCTGTTCAGA GTAAGCCAGA GCTCCTTTCA 
    ACAAGCTCAA AACCTTTGCC TGCCCCTGCT CCTTCCGTTG CTCCTGCAGC AACTGAAGAA 
    GACGATGATC CAGCTATGAA GCCACAGTCT GTACTTACTA GAGTGAAAAT GTTTGAGAAC 
    AAACGTTCTA ATCAAGGTGA AAAGAACAAG GATATAAATG ATTCCACTCT TGTTAAGGCC 
    CCAGATGTTG CACCTAAACC TATACTTAAT CAAGTAAGTG CTACAAAGGC TGCCCCCGTT 
    CCACATTATG ATCAGGACAA GGCAACTTAT AGAGTACCTG AACCTCAAAA GCCTCAAGTG 
    AAGCCCCCAG AAGATATAAT TCGGGCCAAC CACTATGACC CCGATGAAGA TGAAGAATAC 
    TATCGAAAGC AGCTGTCTTA CTTTGATCGA AGAAGCTTTG AAAAGCCCAC ACCCTTGCTG 
    TCTGGAAACA TCCTGCCTGA GCCTGCCAAA CCAGCGCAGT CTCAAAGCCA ACTTAGCTTT 
    AACAGCTACC CCTCCAAGGG AAAGCCTGCA GATTTGGAGC CACTTGACAG ACCCATTAAT 
    GAAAAACGCT ATGATCCAGT TCCACAGGTT ACTTCTTCTA ACCAGTATAC TCAGCCTTCA 
    CCAGTGGTTG TAAATCATTC AACACACACT AAACATATGC ATTTAGAAGC CAGCTCTGTG 
    TCTGTGGAGG TTCCAAGTTC CACAGTGTCT AAGCCAGAGC CCCCACCTAC TCAGGCCAAG 
    CCAACATTGT TCCGACCATC AAACAGAGAG GACACTGTAC AGTCAAACTT CTATCCTCAG 
    AAGAGTTTCC CTGAAAAAAG CCCTGTAAAT GGCACTGAAC AGGCTCCAAA AACAGTAACA 
    CCATCCTACA ATCGTTTTAC ACCTAAACCT TACACAAATT CAGCGAGACC CTTTGAACGC 
    AAGTTTGAAA GCCCAAAATT TAACCACAAC CTCCTGCCAA ATGAAGCACA AGTAAAGCCA 
    GAGCTGCCCA CTAAACCTCA GAATTCTCCA CAGCCTGTTT TAAAATCAAA TACGTCAATT 
    TCTTCTGAAC TGGATAGCAT ATCCAAGCAA ACGGAGAACA AATCTAAATA TCAACCAAAC 
    AATGTTAATC CAGTGCCTAA AGCAATCCCA GTCAGTCCTT CTGCATTGGA AGATGACGAT 
    GAAGATGATG CACATACAGT TGTAGCAACA GCTAGAGGCT TCTTTAATAG TAATGGAGGT 
    GTGTTAAGTT CCATAGAAAC GGGAGTCAGT ATCATCATAC CCCAAGGAGC AATTCCAGAT 
    GGCATTGAGC AAGAAATATA TTTCAAGGTC TGCAGGGATA ACAGTATCCT TCCACCCTTG 
    GACAAAGAGA AAGGAGAGAC GCTACTTAGT CCATTAGTAA TGTGCGGACC TCATGGGTTA 
    AAATTCGTGA AACCAGTGGA GCTACGCTTA CCACACTGTG CGTCTATGAC TCCTGATGGT 
    TGGTCTTTTG CTCTAAAATC ATCCGACACC TCGTCGGGTG ACCCAAAACA CTGGCAGAAC 
    AAGTCACTTC CTGGCGACCC CAACTATCTT GTCGGAGCAA ACTGTGTCTC AGTTTTGATA 
    GACCACTTCT AA

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

    tjp1 ( XM_031899167.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031755027.1 Xenopus tropicalis tight junction protein 1 (tjp1), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OXa55059
    Clone ID Related Accession (Same CDS sequence) XM_031899167.1
    Accession Version XM_031899167.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5244bp)
    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 tight junction protein ZO-1 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030679.2) 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
    ATGAAATACC AGAAATACCT GACTGTGCTG CAGATGGCGA TCGGAGTGAC TCCTTCCAAC 
    AGAGGGAATA TACTGCCTTA CAAGCGGAGG CTGTGGGTCA CTCCGTCATC TGAGAATCCC 
    AATGCTGCTG CATCGAGTAC GAGTCAGGGA AAACCATCTC TAAGGAGAAT AAAGGGACGG 
    ATCCACAGAA GCAAAAGCTT GGATAGCGTT GACCTCTGCG ATTTTAATAA TACTGTAATG 
    GAAGAAACTG CAATATGGGA ACAGCAAACA GTTACTCTCC ACAGGGCCCC TGGATTTGGA 
    TTTGGCATTG CAATATCTGG AGGCAGAGAT AACCCACATT TTCAAAGTGG GGAAACATCA 
    ATTGTCATCT CTGATGTTCT TAAAGGAGGG CCTGCAGAAG GTTTGCTTCA GGAAAATGAT 
    CGTGTTGCAA TGGTCAATGG GGTTTCTATG GATAATGTCG AGCATGCCTT TGCTGTTCAG 
    CAGTTGAGGA AAAGTGGAAA AAATGCCAAA ATTACTATCC GGCGGAAGAA AAAAGTGCAA 
    CTTCCAGTAG TTCGTTCTGA CCCAGACCCA GTGTCTGAGA ATGAAGAGGA CAGTTATGAG 
    GAGGATGTGC CTGACCAGAG AAGTGCCCAC AGTGGTCCTG GTGCCAGCAG GAGAAGTGAA 
    AAAAGTTGGG TGAGGGACAG AAGTGCAAGC AGAGAAAGAA GTTTATCACC AAGATCAGAC 
    AGAAGATCTG TTTCTTCCAG TCAACCTGCT AAACCTACCA AAGTGACCTT GGTGAAATCT 
    AGAAAAAATG AAGAATATGG TTTAAGGTTG GCTAGCCACA TATTTGTAAA AGAAATTTCC 
    CAAGACAGTC TTGCGGCAAG AGATGGAAAT ATTCAAGAAG GGGATGTTGT GCTTAAGATT 
    AATGGCACAG TCACAGAAAA CATGTCTTTG GCTGATGCAA AAACATTAAT AGAAAGGTCG 
    AAGGGCAAAT TAAAAATGGT AGTTCAAAGA GATGAACGAG CAACTCTACT TAATGTCCCA 
    GATCTAGATG ACAGTCTCCA TTCTGCAAAT GCTTCAGAAA GAGATGACAT TTCAGAAATT 
    CAGTCGCTAA CATCAGATCA TTCCAACCGT TCACATGATA AACCTCGCCG TAGCCGTTCA 
    CGGTCACCGG ACCAGAGGTC AGAGCCTTCA GACCATTCCA GACATTCTCC ACAACAGCAC 
    AGCAACAGCA GTAGTCGAAG TCGAGAGGAT GAAAGAGTTT CAAAGCCTGG TGCAATATCT 
    ACTCCGGTGA AGAATGTCAA TAGTGTACCT CTTTCCAGAA CTGCAGAAGA ACCCTTTTTA 
    GAAAAGGCAG ATAAACAAAC ACCTCCTCTT CCAGAGCCAA AACCTGTATA TGCCCAGCCA 
    GGACAACCAG ATGTGGATTT GCCAGTCAGC CCATCTGATG GACCTTTCCC TAATTCTACA 
    CATGAAGATG GCATGCTTCG GCCAAGCATG AAACTGGTGA AGTTCAGGAA AGGAGACAGT 
    GTAGGCCTTC GTTTGGCTGG TGGTAATGAT GTGGGAATTT TTGTTGCTGG TGTATTAGAC 
    GACAGTCCTG CCGCAAAAGA AGGTTTGGAG GAAGGGGACC AGATACTCAG AGTTAACAAT 
    GTGGATTTCA CCAATATAAT AAGGGAAGAA GCGGTACTGT TCCTTCTTGA TCTGCCCAAA 
    GGAGAAGAGG TTACCATTCT TGCTCAGAAA AAGAAAGATG TGTATCGCCG CATTGTTGAG 
    TCAGATGTTG GGGATTCATT TTATATAAGA ACTCACTTTG AATATGAGAA AGAGTCACCA 
    TACGGGCTAA GTTTCAACAA AGGAGAGGTC TTTCGAGTTG TGGATACTCT TTACAATGGC 
    AAACTAGGGT CATGGTTGGC CATTAGAATT GGTAGAAATC ACAAGGAGGT GGAAAGAGGG 
    ATAATCCCCA ACAAGAATAG GGCTGAGCAA CTGGCTAGTG TACAGTACAC TCTTCCTAAA 
    ACTGCTGGTG GAGATCGTGC AGACTTCTGG AGATTCCGTG GCCTTCGTAG TTCCAAGCGA 
    AATCTACGGA AAAGCAGAGA GGATCTTTCT GCGCAACCTG TTCAAACAAA GTTCCCTGCT 
    TATGAGAGAG TCGTCTTGAG AGAAGCTGGA TTTCTCAGGC CTGTGGTTAT TTTTGGCCCT 
    ATTGCTGACG TTGCAAGAGA AAAGTTGGCA AGAGAAGAAC CAGATATTTA TGAAGTAGCA 
    AGAAGTGAAC CCAGAGATGC AGGTACTGAC CAGCGAAGTT CTGGAATTAT CCGCCTTCAT 
    ACTATTAAAC AGATTATTGA TAGGGATAAG CATGCTCTTC TAGATGTGAC TCCAAATGCT 
    GTGGACCGCT TAAATTATGC ACAATGGTAT CCGATAGTAG TGTTTCTTAA CCCAGACTCT 
    AAACAAGGTG TGAAAACAAT GAGAATGAGG TTATGCCCAG AATCACGCAA AAGTGCCAGG 
    AAACTATATG AACGTTCACA CAAACTACGC AAAAACAATC ACCATCTTTT CACAACTACA 
    ATAAATCTCA ACTCCATGAA TGATGGCTGG TATGGTGGCC TTAAAGAGGC AGCACAGCAG 
    CAACAGAACC AGCTAGTTTG GGTCTCAGAG GGCAAAGCAG AAGGTGGCAC AGATGATGAC 
    CTTGATTTGC ATGACGACCG TCTTTCCTAC CTATCAGCAC CAGGTAGTGA ATATTCAATG 
    TATAGCACTG ATAGTAGGCA CACATCAGAC TATGAAGACA CAGACACAGA AGGAGGGGCT 
    TACACTGACC AGGACCTGGA TGAGACACTT AATGATGAGG CTGGGACTCC ACCAGAATCT 
    GCAATCACAC GATCTTCTGA ACCAGTCAGA GAAGACACAT CAGGGATGCA AGAAAACCCA 
    GCATACCCAA CATATCCACC TCAGCCAATC CTTAGAACAG ATTCTCCTGG GTATAAAAAT 
    GTACCTTCTC AACAGGTTTA TAGAAAAGAG GCCTATGCTA TGGAAGAGAA TCCTAGACAA 
    AATTATTTGA TGAAGCAGCA AGTGCTTGGC CATCAAATTC AAAGACATGA AAAAGAGACC 
    AATTTAAACT ATGATGGCGT GCCAGCATAT GCAGAGAAAC CACTGAATAG AGAATATGAC 
    CAGTCTTATT GCTATGATTC TACTTCTGAT TATGTAGATC AGTTTCCCCA CAATTATGAT 
    TCTCGAATAA ATTTTGATGA TCACGTGCCT ACATATGATG AACAGTGGGG TTATTATGAT 
    GACAAACAGT CATATCCCCA GAGACCACCA TTTGACAGTA AACGCAATAG GGACTTCAAT 
    ATTAGACAGC ACTCTGATGA AAACCTTGAA CGTAATTACT TTCAGCAGCC TCGATTGGAG 
    GAGCCACCTC CTGTTGCTTA TGACAATCGC CCCCGCCCAT CCCAAAACTA CAAACCAACC 
    CAAGTACATT ATGAAGACTC CACAACAGCA GAGTATGATA TGCATATGCG TTACAAACCT 
    GAACCTCAAA CCATTCCTTC TGTGCCAACA TCAAAGTCTT CTGATGCAAA GCCGTATTTT 
    GATCAACACA TAAGGGGTTA TGAACATAGT CCTACCCAGG TATTTAACAC AAAACCAGGG 
    CAGTATGATA CATCTCCTAG AATGGAGGCA ATGCCACCTC CACCTGTTCA GAGTAAGCCA 
    GAGCTCCTTT CAACAAGCTC AAAACCTTTG CCTGCCCCTG CTCCTTCCGT TGCTCCTGCA 
    GCAACTGAAG AAGACGATGA TCCAGCTATG AAGCCACAGT CTGTACTTAC TAGAGTGAAA 
    ATGTTTGAGA ACAAACGTTC TAATCAAGGT GAAAAGAACA AGGATATAAA TGATTCCACT 
    CTTGTTAAGG CCCCAGATGT TGCACCTAAA CCTATACTTA ATCAAGTAAG TGCTACAAAG 
    GCTGCCCCCG TTCCACATTA TGATCAGGAC AAGGCAACTT ATAGAGTACC TGAACCTCAA 
    AAGCCTCAAG TGAAGCCCCC AGAAGATATA ATTCGGGCCA ACCACTATGA CCCCGATGAA 
    GATGAAGAAT ACTATCGAAA GCAGCTGTCT TACTTTGATC GAAGAAGCTT TGAAAAGCCC 
    ACACCCTTGC TGTCTGGAAA CATCCTGCCT GAGCCTGCCA AACCAGCGCA GTCTCAAAGC 
    CAACTTAGCT TTAACAGCTA CCCCTCCAAG GGAAAGCCTG CAGATTTGGA GCCACTTGAC 
    AGACCCATTA ATGAAAAACG CTATGATCCA GTTCCACAGG TTACTTCTTC TAACCAGTAT 
    ACTCAGCCTT CACCAGTGGT TGTAAATCAT TCAACACACA CTAAACATAT GCATTTAGAA 
    GCCAGCTCTG TGTCTGTGGA GGTTCCAAGT TCCACAGTGT CTAAGCCAGA GCCCCCACCT 
    ACTCAGGCCA AGCCAACATT GTTCCGACCA TCAAACAGAG AGGACACTGT ACAGTCAAAC 
    TTCTATCCTC AGAAGAGTTT CCCTGAAAAA AGCCCTGTAA ATGGCACTGA ACAGGCTCCA 
    AAAACAGTAA CACCATCCTA CAATCGTTTT ACACCTAAAC CTTACACAAA TTCAGCGAGA 
    CCCTTTGAAC GCAAGTTTGA AAGCCCAAAA TTTAACCACA ACCTCCTGCC AAATGAAGCA 
    CAAGTAAAGC CAGAGCTGCC CACTAAACCT CAGAATTCTC CACAGCCTGT TTTAAAATCA 
    AATACGTCAA TTTCTTCTGA ACTGGATAGC ATATCCAAGC AAACGGAGAA CAAATCTAAA 
    TATCAACCAA ACAATGTTAA TCCAGTGCCT AAAGCAATCC CAGTCAGTCC TTCTGCATTG 
    GAAGATGACG ATGAAGATGA TGCACATACA GTTGTAGCAA CAGCTAGAGG CTTCTTTAAT 
    AGTAATGGAG GTGTGTTAAG TTCCATAGAA ACGGGAGTCA GTATCATCAT ACCCCAAGGA 
    GCAATTCCAG ATGGCATTGA GCAAGAAATA TATTTCAAGG TCTGCAGGGA TAACAGTATC 
    CTTCCACCCT TGGACAAAGA GAAAGGAGAG ACGCTACTTA GTCCATTAGT AATGTGCGGA 
    CCTCATGGGT TAAAATTCGT GAAACCAGTG GAGCTACGCT TACCACACTG TGCGTCTATG 
    ACTCCTGATG GTTGGTCTTT TGCTCTAAAA TCATCCGACA CCTCGTCGGG TGACCCAAAA 
    CACTGGCAGA ACAAGTCACT TCCTGGCGAC CCCAACTATC TTGTCGGAGC AAACTGTGTC 
    TCAGTTTTGA TAGACCACTT CTAA

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

    RefSeq XP_031755027.1
    CDS25..5268
    Translation

    Target ORF information:

    RefSeq Version XM_031899167.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis tight junction protein 1 (tjp1), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031899167.1

    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
    ATGAAATACC AGAAATACCT GACTGTGCTG CAGATGGCGA TCGGAGTGAC TCCTTCCAAC 
    AGAGGGAATA TACTGCCTTA CAAGCGGAGG CTGTGGGTCA CTCCGTCATC TGAGAATCCC 
    AATGCTGCTG CATCGAGTAC GAGTCAGGGA AAACCATCTC TAAGGAGAAT AAAGGGACGG 
    ATCCACAGAA GCAAAAGCTT GGATAGCGTT GACCTCTGCG ATTTTAATAA TACTGTAATG 
    GAAGAAACTG CAATATGGGA ACAGCAAACA GTTACTCTCC ACAGGGCCCC TGGATTTGGA 
    TTTGGCATTG CAATATCTGG AGGCAGAGAT AACCCACATT TTCAAAGTGG GGAAACATCA 
    ATTGTCATCT CTGATGTTCT TAAAGGAGGG CCTGCAGAAG GTTTGCTTCA GGAAAATGAT 
    CGTGTTGCAA TGGTCAATGG GGTTTCTATG GATAATGTCG AGCATGCCTT TGCTGTTCAG 
    CAGTTGAGGA AAAGTGGAAA AAATGCCAAA ATTACTATCC GGCGGAAGAA AAAAGTGCAA 
    CTTCCAGTAG TTCGTTCTGA CCCAGACCCA GTGTCTGAGA ATGAAGAGGA CAGTTATGAG 
    GAGGATGTGC CTGACCAGAG AAGTGCCCAC AGTGGTCCTG GTGCCAGCAG GAGAAGTGAA 
    AAAAGTTGGG TGAGGGACAG AAGTGCAAGC AGAGAAAGAA GTTTATCACC AAGATCAGAC 
    AGAAGATCTG TTTCTTCCAG TCAACCTGCT AAACCTACCA AAGTGACCTT GGTGAAATCT 
    AGAAAAAATG AAGAATATGG TTTAAGGTTG GCTAGCCACA TATTTGTAAA AGAAATTTCC 
    CAAGACAGTC TTGCGGCAAG AGATGGAAAT ATTCAAGAAG GGGATGTTGT GCTTAAGATT 
    AATGGCACAG TCACAGAAAA CATGTCTTTG GCTGATGCAA AAACATTAAT AGAAAGGTCG 
    AAGGGCAAAT TAAAAATGGT AGTTCAAAGA GATGAACGAG CAACTCTACT TAATGTCCCA 
    GATCTAGATG ACAGTCTCCA TTCTGCAAAT GCTTCAGAAA GAGATGACAT TTCAGAAATT 
    CAGTCGCTAA CATCAGATCA TTCCAACCGT TCACATGATA AACCTCGCCG TAGCCGTTCA 
    CGGTCACCGG ACCAGAGGTC AGAGCCTTCA GACCATTCCA GACATTCTCC ACAACAGCAC 
    AGCAACAGCA GTAGTCGAAG TCGAGAGGAT GAAAGAGTTT CAAAGCCTGG TGCAATATCT 
    ACTCCGGTGA AGAATGTCAA TAGTGTACCT CTTTCCAGAA CTGCAGAAGA ACCCTTTTTA 
    GAAAAGGCAG ATAAACAAAC ACCTCCTCTT CCAGAGCCAA AACCTGTATA TGCCCAGCCA 
    GGACAACCAG ATGTGGATTT GCCAGTCAGC CCATCTGATG GACCTTTCCC TAATTCTACA 
    CATGAAGATG GCATGCTTCG GCCAAGCATG AAACTGGTGA AGTTCAGGAA AGGAGACAGT 
    GTAGGCCTTC GTTTGGCTGG TGGTAATGAT GTGGGAATTT TTGTTGCTGG TGTATTAGAC 
    GACAGTCCTG CCGCAAAAGA AGGTTTGGAG GAAGGGGACC AGATACTCAG AGTTAACAAT 
    GTGGATTTCA CCAATATAAT AAGGGAAGAA GCGGTACTGT TCCTTCTTGA TCTGCCCAAA 
    GGAGAAGAGG TTACCATTCT TGCTCAGAAA AAGAAAGATG TGTATCGCCG CATTGTTGAG 
    TCAGATGTTG GGGATTCATT TTATATAAGA ACTCACTTTG AATATGAGAA AGAGTCACCA 
    TACGGGCTAA GTTTCAACAA AGGAGAGGTC TTTCGAGTTG TGGATACTCT TTACAATGGC 
    AAACTAGGGT CATGGTTGGC CATTAGAATT GGTAGAAATC ACAAGGAGGT GGAAAGAGGG 
    ATAATCCCCA ACAAGAATAG GGCTGAGCAA CTGGCTAGTG TACAGTACAC TCTTCCTAAA 
    ACTGCTGGTG GAGATCGTGC AGACTTCTGG AGATTCCGTG GCCTTCGTAG TTCCAAGCGA 
    AATCTACGGA AAAGCAGAGA GGATCTTTCT GCGCAACCTG TTCAAACAAA GTTCCCTGCT 
    TATGAGAGAG TCGTCTTGAG AGAAGCTGGA TTTCTCAGGC CTGTGGTTAT TTTTGGCCCT 
    ATTGCTGACG TTGCAAGAGA AAAGTTGGCA AGAGAAGAAC CAGATATTTA TGAAGTAGCA 
    AGAAGTGAAC CCAGAGATGC AGGTACTGAC CAGCGAAGTT CTGGAATTAT CCGCCTTCAT 
    ACTATTAAAC AGATTATTGA TAGGGATAAG CATGCTCTTC TAGATGTGAC TCCAAATGCT 
    GTGGACCGCT TAAATTATGC ACAATGGTAT CCGATAGTAG TGTTTCTTAA CCCAGACTCT 
    AAACAAGGTG TGAAAACAAT GAGAATGAGG TTATGCCCAG AATCACGCAA AAGTGCCAGG 
    AAACTATATG AACGTTCACA CAAACTACGC AAAAACAATC ACCATCTTTT CACAACTACA 
    ATAAATCTCA ACTCCATGAA TGATGGCTGG TATGGTGGCC TTAAAGAGGC AGCACAGCAG 
    CAACAGAACC AGCTAGTTTG GGTCTCAGAG GGCAAAGCAG AAGGTGGCAC AGATGATGAC 
    CTTGATTTGC ATGACGACCG TCTTTCCTAC CTATCAGCAC CAGGTAGTGA ATATTCAATG 
    TATAGCACTG ATAGTAGGCA CACATCAGAC TATGAAGACA CAGACACAGA AGGAGGGGCT 
    TACACTGACC AGGACCTGGA TGAGACACTT AATGATGAGG CTGGGACTCC ACCAGAATCT 
    GCAATCACAC GATCTTCTGA ACCAGTCAGA GAAGACACAT CAGGGATGCA AGAAAACCCA 
    GCATACCCAA CATATCCACC TCAGCCAATC CTTAGAACAG ATTCTCCTGG GTATAAAAAT 
    GTACCTTCTC AACAGGTTTA TAGAAAAGAG GCCTATGCTA TGGAAGAGAA TCCTAGACAA 
    AATTATTTGA TGAAGCAGCA AGTGCTTGGC CATCAAATTC AAAGACATGA AAAAGAGACC 
    AATTTAAACT ATGATGGCGT GCCAGCATAT GCAGAGAAAC CACTGAATAG AGAATATGAC 
    CAGTCTTATT GCTATGATTC TACTTCTGAT TATGTAGATC AGTTTCCCCA CAATTATGAT 
    TCTCGAATAA ATTTTGATGA TCACGTGCCT ACATATGATG AACAGTGGGG TTATTATGAT 
    GACAAACAGT CATATCCCCA GAGACCACCA TTTGACAGTA AACGCAATAG GGACTTCAAT 
    ATTAGACAGC ACTCTGATGA AAACCTTGAA CGTAATTACT TTCAGCAGCC TCGATTGGAG 
    GAGCCACCTC CTGTTGCTTA TGACAATCGC CCCCGCCCAT CCCAAAACTA CAAACCAACC 
    CAAGTACATT ATGAAGACTC CACAACAGCA GAGTATGATA TGCATATGCG TTACAAACCT 
    GAACCTCAAA CCATTCCTTC TGTGCCAACA TCAAAGTCTT CTGATGCAAA GCCGTATTTT 
    GATCAACACA TAAGGGGTTA TGAACATAGT CCTACCCAGG TATTTAACAC AAAACCAGGG 
    CAGTATGATA CATCTCCTAG AATGGAGGCA ATGCCACCTC CACCTGTTCA GAGTAAGCCA 
    GAGCTCCTTT CAACAAGCTC AAAACCTTTG CCTGCCCCTG CTCCTTCCGT TGCTCCTGCA 
    GCAACTGAAG AAGACGATGA TCCAGCTATG AAGCCACAGT CTGTACTTAC TAGAGTGAAA 
    ATGTTTGAGA ACAAACGTTC TAATCAAGGT GAAAAGAACA AGGATATAAA TGATTCCACT 
    CTTGTTAAGG CCCCAGATGT TGCACCTAAA CCTATACTTA ATCAAGTAAG TGCTACAAAG 
    GCTGCCCCCG TTCCACATTA TGATCAGGAC AAGGCAACTT ATAGAGTACC TGAACCTCAA 
    AAGCCTCAAG TGAAGCCCCC AGAAGATATA ATTCGGGCCA ACCACTATGA CCCCGATGAA 
    GATGAAGAAT ACTATCGAAA GCAGCTGTCT TACTTTGATC GAAGAAGCTT TGAAAAGCCC 
    ACACCCTTGC TGTCTGGAAA CATCCTGCCT GAGCCTGCCA AACCAGCGCA GTCTCAAAGC 
    CAACTTAGCT TTAACAGCTA CCCCTCCAAG GGAAAGCCTG CAGATTTGGA GCCACTTGAC 
    AGACCCATTA ATGAAAAACG CTATGATCCA GTTCCACAGG TTACTTCTTC TAACCAGTAT 
    ACTCAGCCTT CACCAGTGGT TGTAAATCAT TCAACACACA CTAAACATAT GCATTTAGAA 
    GCCAGCTCTG TGTCTGTGGA GGTTCCAAGT TCCACAGTGT CTAAGCCAGA GCCCCCACCT 
    ACTCAGGCCA AGCCAACATT GTTCCGACCA TCAAACAGAG AGGACACTGT ACAGTCAAAC 
    TTCTATCCTC AGAAGAGTTT CCCTGAAAAA AGCCCTGTAA ATGGCACTGA ACAGGCTCCA 
    AAAACAGTAA CACCATCCTA CAATCGTTTT ACACCTAAAC CTTACACAAA TTCAGCGAGA 
    CCCTTTGAAC GCAAGTTTGA AAGCCCAAAA TTTAACCACA ACCTCCTGCC AAATGAAGCA 
    CAAGTAAAGC CAGAGCTGCC CACTAAACCT CAGAATTCTC CACAGCCTGT TTTAAAATCA 
    AATACGTCAA TTTCTTCTGA ACTGGATAGC ATATCCAAGC AAACGGAGAA CAAATCTAAA 
    TATCAACCAA ACAATGTTAA TCCAGTGCCT AAAGCAATCC CAGTCAGTCC TTCTGCATTG 
    GAAGATGACG ATGAAGATGA TGCACATACA GTTGTAGCAA CAGCTAGAGG CTTCTTTAAT 
    AGTAATGGAG GTGTGTTAAG TTCCATAGAA ACGGGAGTCA GTATCATCAT ACCCCAAGGA 
    GCAATTCCAG ATGGCATTGA GCAAGAAATA TATTTCAAGG TCTGCAGGGA TAACAGTATC 
    CTTCCACCCT TGGACAAAGA GAAAGGAGAG ACGCTACTTA GTCCATTAGT AATGTGCGGA 
    CCTCATGGGT TAAAATTCGT GAAACCAGTG GAGCTACGCT TACCACACTG TGCGTCTATG 
    ACTCCTGATG GTTGGTCTTT TGCTCTAAAA TCATCCGACA CCTCGTCGGG TGACCCAAAA 
    CACTGGCAGA ACAAGTCACT TCCTGGCGAC CCCAACTATC TTGTCGGAGC AAACTGTGTC 
    TCAGTTTTGA TAGACCACTT CTAA

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

    tjp1 ( XM_031899169.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031755029.1 Xenopus tropicalis tight junction protein 1 (tjp1), transcript variant X10, mRNA.
    Price & Availability↑
    CloneID OXa55061
    Clone ID Related Accession (Same CDS sequence) XM_031899169.1
    Accession Version XM_031899169.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5184bp)
    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 tight junction protein ZO-1 isoform X10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030679.2) 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
    ATGAAATACC AGAAATACCT GACTGTGCTG CAGATGGCGA TCGGAGTGAC TCCTTCCAAC 
    AGAGGGAATA TACTGCCTTA CAAGCGGAGG CTGTGGGTCA CTCCGTCATC TGAGAATCCC 
    AATGCTGCTG CATCGAGTAC GAGTCAGGGA AAACCATCTC TAAGGAGAAT AAAGGGACGG 
    ATCCACAGAA GCAAAAGCTT GGATAGCGTT GACCTCTGCG ATTTTAATAA TACTGTAATG 
    GAAGAAACTG CAATATGGGA ACAGCAAACA GTTACTCTCC ACAGGGCCCC TGGATTTGGA 
    TTTGGCATTG CAATATCTGG AGGCAGAGAT AACCCACATT TTCAAAGTGG GGAAACATCA 
    ATTGTCATCT CTGATGTTCT TAAAGGAGGG CCTGCAGAAG GTTTGCTTCA GGAAAATGAT 
    CGTGTTGCAA TGGTCAATGG GGTTTCTATG GATAATGTCG AGCATGCCTT TGCTGTTCAG 
    CAGTTGAGGA AAAGTGGAAA AAATGCCAAA ATTACTATCC GGCGGAAGAA AAAAGTGCAA 
    CTTCCAGTAG TTCGTTCTGA CCCAGACCCA GTGTCTGAGA ATGAAGAGGA CAGTTATGAG 
    GAGGATGTGC CTGACCAGAG AAGTGCCCAC AGTGGTCCTG GTGCCAGCAG GAGAAGTGAA 
    AAAAGTTGGG TGAGGGACAG AAGTGCAAGC AGAGAAAGAA GTTTATCACC AAGATCAGAC 
    AGAAGATCTG TTTCTTCCAG TCAACCTGCT AAACCTACCA AAGTGACCTT GGTGAAATCT 
    AGAAAAAATG AAGAATATGG TTTAAGGTTG GCTAGCCACA TATTTGTAAA AGAAATTTCC 
    CAAGACAGTC TTGCGGCAAG AGATGGAAAT ATTCAAGAAG GGGATGTTGT GCTTAAGATT 
    AATGGCACAG TCACAGAAAA CATGTCTTTG GCTGATGCAA AAACATTAAT AGAAAGGTCG 
    AAGGGCAAAT TAAAAATGGT AGTTCAAAGA GATGAACGAG CAACTCTACT TAATGTCCCA 
    GATCTAGATG ACAGTCTCCA TTCTGCAAAT GCTTCAGAAA GAGATGACAT TTCAGAAATT 
    CAGTCGCTAA CATCAGATCA TTCCAACCGT TCACATGATA AACCTCGCCG TAGCCGTTCA 
    CGGTCACCGG ACCAGAGGTC AGAGCCTTCA GACCATTCCA GACATTCTCC ACAACAGCAC 
    AGCAACAGCA GTAGTCGAAG TCGAGAGGAT GAAAGAGTTT CAAAGCCTGG TGCAATATCT 
    ACTCCGGTGA AGAATGTCAA TAGTGTACCT CTTTCCAGAA CTGCAGAAGA ACCCTTTTTA 
    GAAAAGGCAG ATAAACAAAC ACCTCCTCTT CCAGAGCCAA AACCTGTATA TGCCCAGCCA 
    GGACAACCAG ATGTGGATTT GCCAGTCAGC CCATCTGATG GACCTTTCCC TAATTCTACA 
    CATGAAGATG GCATGCTTCG GCCAAGCATG AAACTGGTGA AGTTCAGGAA AGGAGACAGT 
    GTAGGCCTTC GTTTGGCTGG TGGTAATGAT GTGGGAATTT TTGTTGCTGG TGTATTAGAC 
    GACAGTCCTG CCGCAAAAGA AGGTTTGGAG GAAGGGGACC AGATACTCAG AGTTAACAAT 
    GTGGATTTCA CCAATATAAT AAGGGAAGAA GCGGTACTGT TCCTTCTTGA TCTGCCCAAA 
    GGAGAAGAGG TTACCATTCT TGCTCAGAAA AAGAAAGATG TGTATCGCCG CATTGTTGAG 
    TCAGATGTTG GGGATTCATT TTATATAAGA ACTCACTTTG AATATGAGAA AGAGTCACCA 
    TACGGGCTAA GTTTCAACAA AGGAGAGGTC TTTCGAGTTG TGGATACTCT TTACAATGGC 
    AAACTAGGGT CATGGTTGGC CATTAGAATT GGTAGAAATC ACAAGGAGGT GGAAAGAGGG 
    ATAATCCCCA ACAAGAATAG GGCTGAGCAA CTGGCTAGTG TACAGTACAC TCTTCCTAAA 
    ACTGCTGGTG GAGATCGTGC AGACTTCTGG AGATTCCGTG GCCTTCGTAG TTCCAAGCGA 
    AATCTACGGA AAAGCAGAGA GGATCTTTCT GCGCAACCTG TTCAAACAAA GTTCCCTGCT 
    TATGAGAGAG TCGTCTTGAG AGAAGCTGGA TTTCTCAGGC CTGTGGTTAT TTTTGGCCCT 
    ATTGCTGACG TTGCAAGAGA AAAGTTGGCA AGAGAAGAAC CAGATATTTA TGAAGTAGCA 
    AGAAGTGAAC CCAGAGATGC AGGTACTGAC CAGCGAAGTT CTGGAATTAT CCGCCTTCAT 
    ACTATTAAAC AGATTATTGA TAGGGATAAG CATGCTCTTC TAGATGTGAC TCCAAATGCT 
    GTGGACCGCT TAAATTATGC ACAATGGTAT CCGATAGTAG TGTTTCTTAA CCCAGACTCT 
    AAACAAGGTG TGAAAACAAT GAGAATGAGG TTATGCCCAG AATCACGCAA AAGTGCCAGG 
    AAACTATATG AACGTTCACA CAAACTACGC AAAAACAATC ACCATCTTTT CACAACTACA 
    ATAAATCTCA ACTCCATGAA TGATGGCTGG TATGGTGGCC TTAAAGAGGC AGCACAGCAG 
    CAACAGAACC AGCTAGTTTG GGTCTCAGAG GGCAAAGCAG AAGGTGGCAC AGATGATGAC 
    CTTGATTTGC ATGACGACCG TCTTTCCTAC CTATCAGCAC CAGGTAGTGA ATATTCAATG 
    TATAGCACTG ATAGTAGGCA CACATCAGAC TATGAAGACA CAGACACAGA AGGAGGGGCT 
    TACACTGACC AGGACCTGGA TGAGACACTT AATGATGAGG CTGGGACTCC ACCAGAATCT 
    GCAATCACAC GATCTTCTGA ACCAGTCAGA GAAGACACAT CAGGGATGCA AGAAAACCCA 
    GCATACCCAA CATATCCACC TCAGCCAATC CTTAGAACAG ATTCTCCTGG GTATAAAAAT 
    GTACCTTCTC AACAGGTTTA TAGAAAAGAG GCCTATGCTA TGGAAGAGAA TCCTAGACAA 
    AATTATTTGA TGAAGCAGCA AGTGCTTGGC CATCAAATTC AAAGACATGA AAAAGAGACC 
    AATTTAAACT ATGATGGCGT GCCAGCATAT GCAGAGAAAC CACTGAATAG AGAATATGAC 
    CAGTCTTATT GCTATGATTC TACTTCTGAT TATGTAGATC AGTTTCCCCA CAATTATGAT 
    TCTCGAATAA ATTTTGATGA TCACGTGCCT ACATATGATG AACAGTGGGG TTATTATGAT 
    GACAAACAGT CATATCCCCA GAGACCACCA TTTGACAGTA AACGCAATAG GGACTTCAAT 
    ATTAGACAGC ACTCTGATGA AAACCTTGAA CGTAATTACT TTCAGCAGCC TCGATTGGAG 
    GAGCCACCTC CTGTTGCTTA TGACAATCGC CCCCGCCCAT CCCAAAACTA CAAACCAACC 
    CAAGTACATT ATGAAGACTC CACAACAGCA GAGTATGATA TGCATATGCG TTACAAACCT 
    GAACCTCAAA CCATTCCTTC TGTGCCAACA TCAAAGTCTT CTGATGCAAA GCCGTATTTT 
    GATCAACACA TAAGGGGTTA TGAACATAGT CCTACCCAGG TATTTAACAC AAAACCAGGG 
    CAGTATGATA CATCTCCTAG AATGGAGGCA ATGCCACCTC CACCTGTTCA GAGTAAGCCA 
    GAGCTCCTTT CAACAAGCTC AAAACCTTTG CCTGCCCCTG CTCCTTCCGT TGCTCCTGCA 
    GCAACTGAAG AAGACGATGA TCCAGCTATG AAGCCACAGT CTGTACTTAC TAGAGTGAAA 
    ATGTTTGAGA ACAAACGTTC TAATCAAGGT GAAAAGAACA AGGATATAAA TGATTCCACT 
    CTTGTTAAGG CCCCAGATGT TGCACCTAAA CCTATACTTA ATCAAGTAAG TGCTACAAAG 
    GCTGCCCCCG TTCCACATTA TGATCAGGAC AAGGCAACTT ATAGAGTACC TGAACCTCAA 
    AAGCCTCAAG TGAAGCCCCC AGAAGATATA ATTCGGGCCA ACCACTATGA CCCCGATGAA 
    GATGAAGAAT ACTATCGAAA GCAGCTGTCT TACTTTGATC GAAGAAGCTT TGAAAAGCCC 
    ACACCCTTGC TGTCTGGAAA CATCCTGCCT GAGCCTGCCA AACCAGCGCA GTCTCAAAGC 
    CAACTTAGCT TTAACAGCTA CCCCTCCAAG GGAAAGCCTG CAGATTTGGA GCCACTTGAC 
    AGACCCATTA ATGAAAAACG CTATGATCCA GTTCCACAGG TTACTTCTTC TAACCAGTAT 
    ACTCAGCCTT CACCAGTGGT TGTAAATCAT TCAACACACA CTAAACATAT GCATTTAGAA 
    GCCAGCTCTG TGTCTGTGGA GGTTCCAAGT TCCACAGTGT CTAAGCCAGA GCCCCCACCT 
    ACTCAGGCCA AGCCAACATT GTTCCGACCA TCAAACAGAG AGGACACTGT ACAGTCAAAC 
    TTCTATCCTC AGAAGAGTTT CCCTGAAAAA AGCCCTGTAA ATGGCACTGA ACAGGCTCCA 
    AAAACAGTAA CACCATCCTA CAATCGTTTT ACACCTAAAC CTTACACAAA TTCAGCGAGA 
    CCCTTTGAAC GCAAGTTTGA AAGCCCAAAA TTTAACCACA ACCTCCTGCC AAATGAAGCA 
    CAAGTAAAGC CAGAGCTGCC CACTAAACCT CAGAATTCTC CACAGCCTGT TTTAAAATCA 
    AATACGTCAA TTTCTTCTGA ACTGGATAGC ATATCCAAGC AAACGGAGAA CAAATCTAAA 
    TATCAACCAA ACAATGTTAA TCCAGTGCCT AAAGCAATCC CAGTCAGTCC TTCTGCATTG 
    GAAGATGACG ATGAAGATGA TGCACATACA GTTGTAGCAA CAGCTAGAGG CTTCTTTAAT 
    AGTAATGGAG GTGTGTTAAG TTCCATAGAA ACGGGAGTCA GTATCATCAT ACCCCAAGGA 
    GCAATTCCAG ATGGCATTGA GCAAGAAATA TATTTCAAGG TCTGCAGGGA TAACAGTATC 
    CTTCCACCCT TGGACAAAGA GAAAGGAGAG ACGCTACTTA GTCCATTAGT AATGTGCGGA 
    CCTCATGGGT TAAAATTCGT GAAACCAGTG GAGCTACGCT TACCACACTG TGACCCAAAA 
    CACTGGCAGA ACAAGTCACT TCCTGGCGAC CCCAACTATC TTGTCGGAGC AAACTGTGTC 
    TCAGTTTTGA TAGACCACTT CTAA

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

    RefSeq XP_031755029.1
    CDS25..5208
    Translation

    Target ORF information:

    RefSeq Version XM_031899169.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis tight junction protein 1 (tjp1), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031899169.1

    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
    ATGAAATACC AGAAATACCT GACTGTGCTG CAGATGGCGA TCGGAGTGAC TCCTTCCAAC 
    AGAGGGAATA TACTGCCTTA CAAGCGGAGG CTGTGGGTCA CTCCGTCATC TGAGAATCCC 
    AATGCTGCTG CATCGAGTAC GAGTCAGGGA AAACCATCTC TAAGGAGAAT AAAGGGACGG 
    ATCCACAGAA GCAAAAGCTT GGATAGCGTT GACCTCTGCG ATTTTAATAA TACTGTAATG 
    GAAGAAACTG CAATATGGGA ACAGCAAACA GTTACTCTCC ACAGGGCCCC TGGATTTGGA 
    TTTGGCATTG CAATATCTGG AGGCAGAGAT AACCCACATT TTCAAAGTGG GGAAACATCA 
    ATTGTCATCT CTGATGTTCT TAAAGGAGGG CCTGCAGAAG GTTTGCTTCA GGAAAATGAT 
    CGTGTTGCAA TGGTCAATGG GGTTTCTATG GATAATGTCG AGCATGCCTT TGCTGTTCAG 
    CAGTTGAGGA AAAGTGGAAA AAATGCCAAA ATTACTATCC GGCGGAAGAA AAAAGTGCAA 
    CTTCCAGTAG TTCGTTCTGA CCCAGACCCA GTGTCTGAGA ATGAAGAGGA CAGTTATGAG 
    GAGGATGTGC CTGACCAGAG AAGTGCCCAC AGTGGTCCTG GTGCCAGCAG GAGAAGTGAA 
    AAAAGTTGGG TGAGGGACAG AAGTGCAAGC AGAGAAAGAA GTTTATCACC AAGATCAGAC 
    AGAAGATCTG TTTCTTCCAG TCAACCTGCT AAACCTACCA AAGTGACCTT GGTGAAATCT 
    AGAAAAAATG AAGAATATGG TTTAAGGTTG GCTAGCCACA TATTTGTAAA AGAAATTTCC 
    CAAGACAGTC TTGCGGCAAG AGATGGAAAT ATTCAAGAAG GGGATGTTGT GCTTAAGATT 
    AATGGCACAG TCACAGAAAA CATGTCTTTG GCTGATGCAA AAACATTAAT AGAAAGGTCG 
    AAGGGCAAAT TAAAAATGGT AGTTCAAAGA GATGAACGAG CAACTCTACT TAATGTCCCA 
    GATCTAGATG ACAGTCTCCA TTCTGCAAAT GCTTCAGAAA GAGATGACAT TTCAGAAATT 
    CAGTCGCTAA CATCAGATCA TTCCAACCGT TCACATGATA AACCTCGCCG TAGCCGTTCA 
    CGGTCACCGG ACCAGAGGTC AGAGCCTTCA GACCATTCCA GACATTCTCC ACAACAGCAC 
    AGCAACAGCA GTAGTCGAAG TCGAGAGGAT GAAAGAGTTT CAAAGCCTGG TGCAATATCT 
    ACTCCGGTGA AGAATGTCAA TAGTGTACCT CTTTCCAGAA CTGCAGAAGA ACCCTTTTTA 
    GAAAAGGCAG ATAAACAAAC ACCTCCTCTT CCAGAGCCAA AACCTGTATA TGCCCAGCCA 
    GGACAACCAG ATGTGGATTT GCCAGTCAGC CCATCTGATG GACCTTTCCC TAATTCTACA 
    CATGAAGATG GCATGCTTCG GCCAAGCATG AAACTGGTGA AGTTCAGGAA AGGAGACAGT 
    GTAGGCCTTC GTTTGGCTGG TGGTAATGAT GTGGGAATTT TTGTTGCTGG TGTATTAGAC 
    GACAGTCCTG CCGCAAAAGA AGGTTTGGAG GAAGGGGACC AGATACTCAG AGTTAACAAT 
    GTGGATTTCA CCAATATAAT AAGGGAAGAA GCGGTACTGT TCCTTCTTGA TCTGCCCAAA 
    GGAGAAGAGG TTACCATTCT TGCTCAGAAA AAGAAAGATG TGTATCGCCG CATTGTTGAG 
    TCAGATGTTG GGGATTCATT TTATATAAGA ACTCACTTTG AATATGAGAA AGAGTCACCA 
    TACGGGCTAA GTTTCAACAA AGGAGAGGTC TTTCGAGTTG TGGATACTCT TTACAATGGC 
    AAACTAGGGT CATGGTTGGC CATTAGAATT GGTAGAAATC ACAAGGAGGT GGAAAGAGGG 
    ATAATCCCCA ACAAGAATAG GGCTGAGCAA CTGGCTAGTG TACAGTACAC TCTTCCTAAA 
    ACTGCTGGTG GAGATCGTGC AGACTTCTGG AGATTCCGTG GCCTTCGTAG TTCCAAGCGA 
    AATCTACGGA AAAGCAGAGA GGATCTTTCT GCGCAACCTG TTCAAACAAA GTTCCCTGCT 
    TATGAGAGAG TCGTCTTGAG AGAAGCTGGA TTTCTCAGGC CTGTGGTTAT TTTTGGCCCT 
    ATTGCTGACG TTGCAAGAGA AAAGTTGGCA AGAGAAGAAC CAGATATTTA TGAAGTAGCA 
    AGAAGTGAAC CCAGAGATGC AGGTACTGAC CAGCGAAGTT CTGGAATTAT CCGCCTTCAT 
    ACTATTAAAC AGATTATTGA TAGGGATAAG CATGCTCTTC TAGATGTGAC TCCAAATGCT 
    GTGGACCGCT TAAATTATGC ACAATGGTAT CCGATAGTAG TGTTTCTTAA CCCAGACTCT 
    AAACAAGGTG TGAAAACAAT GAGAATGAGG TTATGCCCAG AATCACGCAA AAGTGCCAGG 
    AAACTATATG AACGTTCACA CAAACTACGC AAAAACAATC ACCATCTTTT CACAACTACA 
    ATAAATCTCA ACTCCATGAA TGATGGCTGG TATGGTGGCC TTAAAGAGGC AGCACAGCAG 
    CAACAGAACC AGCTAGTTTG GGTCTCAGAG GGCAAAGCAG AAGGTGGCAC AGATGATGAC 
    CTTGATTTGC ATGACGACCG TCTTTCCTAC CTATCAGCAC CAGGTAGTGA ATATTCAATG 
    TATAGCACTG ATAGTAGGCA CACATCAGAC TATGAAGACA CAGACACAGA AGGAGGGGCT 
    TACACTGACC AGGACCTGGA TGAGACACTT AATGATGAGG CTGGGACTCC ACCAGAATCT 
    GCAATCACAC GATCTTCTGA ACCAGTCAGA GAAGACACAT CAGGGATGCA AGAAAACCCA 
    GCATACCCAA CATATCCACC TCAGCCAATC CTTAGAACAG ATTCTCCTGG GTATAAAAAT 
    GTACCTTCTC AACAGGTTTA TAGAAAAGAG GCCTATGCTA TGGAAGAGAA TCCTAGACAA 
    AATTATTTGA TGAAGCAGCA AGTGCTTGGC CATCAAATTC AAAGACATGA AAAAGAGACC 
    AATTTAAACT ATGATGGCGT GCCAGCATAT GCAGAGAAAC CACTGAATAG AGAATATGAC 
    CAGTCTTATT GCTATGATTC TACTTCTGAT TATGTAGATC AGTTTCCCCA CAATTATGAT 
    TCTCGAATAA ATTTTGATGA TCACGTGCCT ACATATGATG AACAGTGGGG TTATTATGAT 
    GACAAACAGT CATATCCCCA GAGACCACCA TTTGACAGTA AACGCAATAG GGACTTCAAT 
    ATTAGACAGC ACTCTGATGA AAACCTTGAA CGTAATTACT TTCAGCAGCC TCGATTGGAG 
    GAGCCACCTC CTGTTGCTTA TGACAATCGC CCCCGCCCAT CCCAAAACTA CAAACCAACC 
    CAAGTACATT ATGAAGACTC CACAACAGCA GAGTATGATA TGCATATGCG TTACAAACCT 
    GAACCTCAAA CCATTCCTTC TGTGCCAACA TCAAAGTCTT CTGATGCAAA GCCGTATTTT 
    GATCAACACA TAAGGGGTTA TGAACATAGT CCTACCCAGG TATTTAACAC AAAACCAGGG 
    CAGTATGATA CATCTCCTAG AATGGAGGCA ATGCCACCTC CACCTGTTCA GAGTAAGCCA 
    GAGCTCCTTT CAACAAGCTC AAAACCTTTG CCTGCCCCTG CTCCTTCCGT TGCTCCTGCA 
    GCAACTGAAG AAGACGATGA TCCAGCTATG AAGCCACAGT CTGTACTTAC TAGAGTGAAA 
    ATGTTTGAGA ACAAACGTTC TAATCAAGGT GAAAAGAACA AGGATATAAA TGATTCCACT 
    CTTGTTAAGG CCCCAGATGT TGCACCTAAA CCTATACTTA ATCAAGTAAG TGCTACAAAG 
    GCTGCCCCCG TTCCACATTA TGATCAGGAC AAGGCAACTT ATAGAGTACC TGAACCTCAA 
    AAGCCTCAAG TGAAGCCCCC AGAAGATATA ATTCGGGCCA ACCACTATGA CCCCGATGAA 
    GATGAAGAAT ACTATCGAAA GCAGCTGTCT TACTTTGATC GAAGAAGCTT TGAAAAGCCC 
    ACACCCTTGC TGTCTGGAAA CATCCTGCCT GAGCCTGCCA AACCAGCGCA GTCTCAAAGC 
    CAACTTAGCT TTAACAGCTA CCCCTCCAAG GGAAAGCCTG CAGATTTGGA GCCACTTGAC 
    AGACCCATTA ATGAAAAACG CTATGATCCA GTTCCACAGG TTACTTCTTC TAACCAGTAT 
    ACTCAGCCTT CACCAGTGGT TGTAAATCAT TCAACACACA CTAAACATAT GCATTTAGAA 
    GCCAGCTCTG TGTCTGTGGA GGTTCCAAGT TCCACAGTGT CTAAGCCAGA GCCCCCACCT 
    ACTCAGGCCA AGCCAACATT GTTCCGACCA TCAAACAGAG AGGACACTGT ACAGTCAAAC 
    TTCTATCCTC AGAAGAGTTT CCCTGAAAAA AGCCCTGTAA ATGGCACTGA ACAGGCTCCA 
    AAAACAGTAA CACCATCCTA CAATCGTTTT ACACCTAAAC CTTACACAAA TTCAGCGAGA 
    CCCTTTGAAC GCAAGTTTGA AAGCCCAAAA TTTAACCACA ACCTCCTGCC AAATGAAGCA 
    CAAGTAAAGC CAGAGCTGCC CACTAAACCT CAGAATTCTC CACAGCCTGT TTTAAAATCA 
    AATACGTCAA TTTCTTCTGA ACTGGATAGC ATATCCAAGC AAACGGAGAA CAAATCTAAA 
    TATCAACCAA ACAATGTTAA TCCAGTGCCT AAAGCAATCC CAGTCAGTCC TTCTGCATTG 
    GAAGATGACG ATGAAGATGA TGCACATACA GTTGTAGCAA CAGCTAGAGG CTTCTTTAAT 
    AGTAATGGAG GTGTGTTAAG TTCCATAGAA ACGGGAGTCA GTATCATCAT ACCCCAAGGA 
    GCAATTCCAG ATGGCATTGA GCAAGAAATA TATTTCAAGG TCTGCAGGGA TAACAGTATC 
    CTTCCACCCT TGGACAAAGA GAAAGGAGAG ACGCTACTTA GTCCATTAGT AATGTGCGGA 
    CCTCATGGGT TAAAATTCGT GAAACCAGTG GAGCTACGCT TACCACACTG TGACCCAAAA 
    CACTGGCAGA ACAAGTCACT TCCTGGCGAC CCCAACTATC TTGTCGGAGC AAACTGTGTC 
    TCAGTTTTGA TAGACCACTT CTAA

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

見積依頼

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