ORF » Species Summary » Mus caroli » Tjp1 cDNA ORF clone

Tjp1 cDNA ORF clone, Mus caroli(Ryukyu mouse)

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
OMv03978 XM_021166164.2
Latest version!		 Mus caroli tight junction protein 1 (Tjp1), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OMv03979 XM_021166165.2
Latest version!		 Mus caroli tight junction protein 1 (Tjp1), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OMv03980 XM_021166166.2
Latest version!		 Mus caroli tight junction protein 1 (Tjp1), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OMv03981 XM_021166167.2
Latest version!		 Mus caroli tight junction protein 1 (Tjp1), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OMv74613 XM_029479116.1
Latest version!		 Mus caroli tight junction protein 1 (Tjp1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OMv74614 XM_029479117.1
Latest version!		 Mus caroli tight junction protein 1 (Tjp1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OMv74615 XM_029479118.1
Latest version!		 Mus caroli tight junction protein 1 (Tjp1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OMv74616 XM_029479119.1
Latest version!		 Mus caroli tight junction protein 1 (Tjp1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OMv74617 XM_029479120.1
Latest version!		 Mus caroli tight junction protein 1 (Tjp1), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OMv74618 XM_029479121.1
Latest version!		 Mus caroli tight junction protein 1 (Tjp1), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
View Old Accession Versions >>
OMv03980 XM_021166166.1 Mus caroli tight junction protein 1 (Tjp1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OMv03978 XM_021166164.1 Mus caroli tight junction protein 1 (Tjp1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OMv03981 XM_021166167.1 Mus caroli tight junction protein 1 (Tjp1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OMv03979 XM_021166165.1 Mus caroli tight junction protein 1 (Tjp1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
Hide Old Accession Versions >>

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

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

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

  • Reference Sequences (Refseq)
    Tjp1 ( XM_021166164.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021021823.1 Mus caroli tight junction protein 1 (Tjp1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMv03978
    Clone ID Related Accession (Same CDS sequence) XM_021166164.1 , XM_021166164.2
    Accession Version XM_021166164.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5298bp)
    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 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    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_034576.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGTCCACCA GGGCCGCGGC CGCTAAGAGC ACAGCAATGG AGGAAACGGC TATATGGGAA 
    CAGCACACAG TGATGCTTCA CAGGGCTCCT GGGTTTGGAT TTGGAATTGC AATCTCTGGT 
    GGAAGAGATA ATCCTCATTT TCAGAGTGGG GAAACCTCCA TAGTGATTTC TGATGTGCTA 
    AAAGGAGGGC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAATGGA 
    GTTTCAATGG ATAACGTTGA ACATGCTTTT GCTGTTCAGC AGCTAAGGAA AAGTGGGAAA 
    AACGCAAAAA TTACTATGCG AAGGAAGAAG AAAGTTCAGA TCCCTGTAAG TCACCCAGAT 
    CCTGAGCCGG TGTCTGATAA TGAAGATGAT AGCTACGACG AAGAAGTACA TGATCCAAGA 
    GCTGGCCGCA GTGCTTTAGC GAACAGAAGG AGCGAGAAGA GCTGGGCAAG GGATAGGAGT 
    GCAAGCAGGG AGAGGAGCCT GTCCCCTCGC TCGGACAGGC GGTCGGTGGC CTCCAGTCAG 
    CCCGCAAAAC CCACCAAGGT CGCACTGGTG AAGTCTCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCCA GCCATATATT TGTAAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGTAACATTC AAGAAGGGGA TGTTGTCTTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAAAC ACTGATAGAA AGGTCTAAAG GCAAGTTAAA AATGGTAGTG 
    CAAAGAGATG AGCGGGCTAC CTTACTGAAC GTCCCTGACC TTTCGGATAG TATCCATTCT 
    GCTAATGCCT CGGAAAGAGA TGACATTTCA GAAATTCAGT CACTAGCATC AGACCATTCA 
    GGTCGCTCGC ATGACAGGCC ACCCCGCCGC AGCCAGTCAC GATCTCCTGA CCAACGTTCA 
    GAGCCCTCCG ATCATTCCAC ACAGTCTCCA CAGCAGCCCA GCAATGGCAG TCTCCGGAGC 
    AGAGAGCAAG AGCGAATGTC TAAACCTGGG GCCATCTCAA CTCCTGTAAA ACATGCAGAT 
    GATCATACAC CCAAAGCAGT GGAAGAAGTT ACAGTTGAGA AAAATGAGAA GCAGACACCC 
    ACTCTTCCAG AACCGAAGCC TGTATATGCT CAAGTTGGAC AACCAGATGT GGATTTACCC 
    GTCAGCCCTT CTGATGGTGT TCTGCCTAAT TCAACTCATG AAGATGGGAT ACTTAGGCCC 
    AGCATGAAAC TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGACT AGCTGGTGGA 
    AATGATGTCG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAAGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTG AACAATGTAG ATTTCACAAA TATCATAAGA 
    GAAGAGGCTG TCCTTTTCCT CCTTGACCTC CCTAAAGGTG AAGAAGTGAC CATCCTGGCT 
    CAGAAGAAGA AGGGTGTTTA TCGCCGCATT GTAGAATCAG ATGTAGGAGA TTCATTCTAT 
    ATTAGAACGC ATTTTGAGTA TGAAAAAGAA TCTCCTTACG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GGGTCGTGGA TACTTTATAC AATGGAAAGC TGGGCTCTTG GCTTGCCATT 
    CGAATTGGCA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGTTAG CCAGTGTACA GTACACACTT CCAAAGACAG CGGGTGGTGA TCGGGCAGAC 
    TTCTGGAGGT TTCGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAC 
    TTGTCAGCTC AGCCAGTTCA AACTAAGTTC CCAGCTTATG AAAGGGTTGT TCTTCGAGAA 
    GCTGGATTCC TAAGACCTGT AACCATCTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    TTGGCAAGAG AGGAACCAGA TATCTATCAG ATTGCAAAAA GTGAACCACG AGATGCTGGG 
    ACTGACCATC GTAGCTCTGG CATCATTCGC CTTCATACAA TAAAGCAAAT CATAGATCAG 
    GATAAACATG CGTTATTAGA TGTAACGCCA AATGCGGTTG ATCGTCTTAA TTATGCGCAG 
    TGGTATCCAA TTGTTGTGTT CCTTAACCCT GACTCTAAGC AAGGTGTAAA AACAATGAGG 
    ATGAGGTTAT GTCCGGAGTC TCGGAAAAGC GCCAGGAAGC TATATGAACG CTCTCATAAG 
    CTTCGCAAAA ACAATCACCA CCTTTTCACA ACTACAATTA ACTTAAACTC AATGAATGAT 
    GGTTGGTACG GTGCCCTGAA AGAAGCCATT CAGCAGCAAC AGAACCAGCT GGTGTGGGTC 
    TCTGAGGGGA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCCCCAGG TAGTGAGTAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA TACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTGGG GACTCCCCCG GAGTCTGCCA TTACACNGTC CTCTGAGCCT 
    GTAAGAGAGG ATTCCTCTGG GATGCATCAT GAAAACCAGA CCTATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAAGCTAT TCATAGACTA GACTCCCCTG GACTTAAGCC AGCCTCTCAA 
    CAGAAAGCAG AAGCCTCATC TCCAGTCCCT TACCTTTCGC CTGAAACAAA CCCAGCATCG 
    TCAGCCTCTG CAGTTAATCC TAATGTCAGT GTAACTAATG TCAGCCTGGA GGAGCCTGCC 
    CCAGCCCCTC CCGCCTCGCA CGCATCCCAG GCTGGTGGTT TAGGAGCACC AGGTGCTGAG 
    GCAGCTCACG TAGTGCTCAG AGGTGAAGGA CCACCATTGC CGCCGCATGC AGACCCAGCA 
    CAGGTGTATA GAAAGGAGCC GTATCCTGAA GAAATGATGA GACAAAACCA TATTTTAAAA 
    CAACCAGCTC TTGGTCACCC AGGGCAGAGG CCAGATAAAG AGCCAAATCT AGCCTATGAA 
    CCCCAACTTC CATATANAGA AAAACAAGCC AGCAGAGACC TTGAACAGCC GTCATACAGG 
    TATGAGGCCT CAAGCTACCC AGACCAGTTT TCTCGGAACT ATGACCATCG CCTACGGTTT 
    GAAGATCGAA TCCCTACCTA TGAAGACCAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CAACCTCGGC CTTTTGAGAA TCAGCATCCC CGAGACCTGG ACTCCAGACA ACATCCNGAG 
    GAGGCTTCAG AACGAGGTTA TNTCCAGCGT TTTGAAGAGC CAGCCCCTCT GTCATACGAC 
    AGTAGAACAC GCTATGAGCA GCTGCCTCGA ACCTCTACTC TACGACATGA AGAGCAGCCA 
    GCCCCTGCAT ATGAGGTGCA CAACAGGTAC AGGCCAGAGG CACAGCCCTA TTCTTCAACA 
    GGTCCTAAGT CATCTGAGCC CAAGCAGTAC TTTGACCAGT ACCCGCGAAG TTATGAGCAA 
    GTACCACCAC CAGGCTTTAC CTCCAAAACA GGCCATTACG AGCCTCTCCA TGGTGCTGCA 
    GTTGTCCCTC CTCTGATACC TTCCTCTCAA CATAAGCCAG AAGTCCTGCC CTCGGCTACC 
    AAACCACAGC CTCCACCCCC AACCCTAACT GAGGAGGAGG AGGATCCAGC AATGAAACCA 
    CAGTCCGTGC TCANCAGAGT CAAAATGTTT GAAAACAAAA GATCTGCGTC TTTGGAGAAC 
    AAGAAAGATG TGAATGACAC TGCCAGCTTT AAGCCTCCAG AAGTAGCATC TAAACCTCCA 
    AGTGCTTCTC TTGCTGGCCC TAAACCTGTT CCTCAGAGTC AGTTTAGTGA GCANGACAAA 
    ACACTCTACA GGCTCCCAGA GCCTCAGAAA CCTCAAGTGA AGCCACCCGA NGATATTGTT 
    CGATCAAATC ATTACGACCC TGAAGAGGAT GAAGAATATT ACAGGAAACA GCTCTCTTAC 
    TTTGANCGAA GAAGTTTTGA GAGCAAGCCT TCTGCACATC TTCCTGCTGG CCATCACTCA 
    GAGCCTGCTA AGCCAGTCCA TTCTCAGAGC CAGCCCAACT TTTCTAGTTA CTCTTCAAAG 
    GGAAAACCCG AAACTGATGC TGTGGATAGA TCATTCAGTG AGAAACGTTA TGATCCAGCC 
    CAGGCCACGC CTCCTCCTCC TCCGTTGCCC TCACAGTACA GCCAGCCAGC TCCCCCTCTG 
    TCCAGCTCTT CTCTCCACAT ACATTCCAAG GGCGCCCAGG GCGAAGGCAA TTCAGTATCA 
    TTGGATTTTC AGAACTCATA TATGTCCAAA CCAGACCCAC CCCCATCTCA GAGTAAACCA 
    GCAACTTTCA GACCACCAAC CCGAGAAGAC CCTCCTCAGA CTTTCTATCC CCAGAAANGT 
    TTCCCAGACA AAGCTCCAGT TAANGGAGCT GAGCAGACTC AGAAAACCAT CACTCCAGTG 
    TACAATCGAT TCACACCAAA GCCGTACACA AGTTCTGCCC GGCCGTTTGA ACGCAAATTT 
    GAAAGTCCGA AGTTCAACCA TAATCTTCTG CCAAGTGAAA CTGTACATAA ACCTGAATTG 
    TCTTCAAAAA CTCCCACTTC TCCAAAAACT CTTATGAAAG CTCATAGTTC AACACAGCCT 
    CCAGAGTTTG ACAGTGGAGT TGAAACTTTC TCTGTTCACA CAGATNAGCC TAAATATCAA 
    ATGAATAATA TCAGCACCAT GCCTAAAGCT GTCCCTGTGA GTCCTTCAGC TGTGGAAGAA 
    GATGAAGATG AGGATGGTCA TACTGTAGTG GCTACAGCTC GTGGCATTTT TAACAGCAAT 
    GGTGGTGTGT TGAGTTCCAT AGAAACCGGT GTTAGTATAA TTATCCCACA AGGAGCCATT 
    CCTGAAGGAA TTGAACAAGA AATCTATTTC AAAGTCTGCA GAGACAATAG CATTCTCCCA 
    CCTTTAGATA AAGAGAAAGG TGAAACTCTG CTAAGTCCCC TAGTGATGTG TGGGCCCCAT 
    GGCCTCAAGT TCCTGAAGCC CGTGGAGCTG CGCTTGCCAC ACTGTGCGTC CATGACTCCT 
    GACGGTTGGT CTTTTGCTCT AAAATCATCC GACTCCTCGT CGGGTGACCC TAAAACCTGG 
    CAAAACAAGT GTCTTCCTGG AGATCCGAAT TACCTTGTTG GAGCCAACTG TGTTTCTGTC 
    CTGATTGACC ACTTTTAA

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

    RefSeq XP_021021823.1
    CDS38..5335
    Translation

    Target ORF information:

    RefSeq Version XM_021166164.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli 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_021166164.1

    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
    ATGTCCACCA GGGCCGCGGC CGCTAAGAGC ACAGCAATGG AGGAAACGGC TATATGGGAA 
    CAGCACACAG TGATGCTTCA CAGGGCTCCT GGGTTTGGAT TTGGAATTGC AATCTCTGGT 
    GGAAGAGATA ATCCTCATTT TCAGAGTGGG GAAACCTCCA TAGTGATTTC TGATGTGCTA 
    AAAGGAGGGC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAATGGA 
    GTTTCAATGG ATAACGTTGA ACATGCTTTT GCTGTTCAGC AGCTAAGGAA AAGTGGGAAA 
    AACGCAAAAA TTACTATGCG AAGGAAGAAG AAAGTTCAGA TCCCTGTAAG TCACCCAGAT 
    CCTGAGCCGG TGTCTGATAA TGAAGATGAT AGCTACGACG AAGAAGTACA TGATCCAAGA 
    GCTGGCCGCA GTGCTTTAGC GAACAGAAGG AGCGAGAAGA GCTGGGCAAG GGATAGGAGT 
    GCAAGCAGGG AGAGGAGCCT GTCCCCTCGC TCGGACAGGC GGTCGGTGGC CTCCAGTCAG 
    CCCGCAAAAC CCACCAAGGT CGCACTGGTG AAGTCTCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCCA GCCATATATT TGTAAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGTAACATTC AAGAAGGGGA TGTTGTCTTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAAAC ACTGATAGAA AGGTCTAAAG GCAAGTTAAA AATGGTAGTG 
    CAAAGAGATG AGCGGGCTAC CTTACTGAAC GTCCCTGACC TTTCGGATAG TATCCATTCT 
    GCTAATGCCT CGGAAAGAGA TGACATTTCA GAAATTCAGT CACTAGCATC AGACCATTCA 
    GGTCGCTCGC ATGACAGGCC ACCCCGCCGC AGCCAGTCAC GATCTCCTGA CCAACGTTCA 
    GAGCCCTCCG ATCATTCCAC ACAGTCTCCA CAGCAGCCCA GCAATGGCAG TCTCCGGAGC 
    AGAGAGCAAG AGCGAATGTC TAAACCTGGG GCCATCTCAA CTCCTGTAAA ACATGCAGAT 
    GATCATACAC CCAAAGCAGT GGAAGAAGTT ACAGTTGAGA AAAATGAGAA GCAGACACCC 
    ACTCTTCCAG AACCGAAGCC TGTATATGCT CAAGTTGGAC AACCAGATGT GGATTTACCC 
    GTCAGCCCTT CTGATGGTGT TCTGCCTAAT TCAACTCATG AAGATGGGAT ACTTAGGCCC 
    AGCATGAAAC TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGACT AGCTGGTGGA 
    AATGATGTCG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAAGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTG AACAATGTAG ATTTCACAAA TATCATAAGA 
    GAAGAGGCTG TCCTTTTCCT CCTTGACCTC CCTAAAGGTG AAGAAGTGAC CATCCTGGCT 
    CAGAAGAAGA AGGGTGTTTA TCGCCGCATT GTAGAATCAG ATGTAGGAGA TTCATTCTAT 
    ATTAGAACGC ATTTTGAGTA TGAAAAAGAA TCTCCTTACG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GGGTCGTGGA TACTTTATAC AATGGAAAGC TGGGCTCTTG GCTTGCCATT 
    CGAATTGGCA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGTTAG CCAGTGTACA GTACACACTT CCAAAGACAG CGGGTGGTGA TCGGGCAGAC 
    TTCTGGAGGT TTCGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAC 
    TTGTCAGCTC AGCCAGTTCA AACTAAGTTC CCAGCTTATG AAAGGGTTGT TCTTCGAGAA 
    GCTGGATTCC TAAGACCTGT AACCATCTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    TTGGCAAGAG AGGAACCAGA TATCTATCAG ATTGCAAAAA GTGAACCACG AGATGCTGGG 
    ACTGACCATC GTAGCTCTGG CATCATTCGC CTTCATACAA TAAAGCAAAT CATAGATCAG 
    GATAAACATG CGTTATTAGA TGTAACGCCA AATGCGGTTG ATCGTCTTAA TTATGCGCAG 
    TGGTATCCAA TTGTTGTGTT CCTTAACCCT GACTCTAAGC AAGGTGTAAA AACAATGAGG 
    ATGAGGTTAT GTCCGGAGTC TCGGAAAAGC GCCAGGAAGC TATATGAACG CTCTCATAAG 
    CTTCGCAAAA ACAATCACCA CCTTTTCACA ACTACAATTA ACTTAAACTC AATGAATGAT 
    GGTTGGTACG GTGCCCTGAA AGAAGCCATT CAGCAGCAAC AGAACCAGCT GGTGTGGGTC 
    TCTGAGGGGA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCCCCAGG TAGTGAGTAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA TACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTGGG GACTCCCCCG GAGTCTGCCA TTACACNGTC CTCTGAGCCT 
    GTAAGAGAGG ATTCCTCTGG GATGCATCAT GAAAACCAGA CCTATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAAGCTAT TCATAGACTA GACTCCCCTG GACTTAAGCC AGCCTCTCAA 
    CAGAAAGCAG AAGCCTCATC TCCAGTCCCT TACCTTTCGC CTGAAACAAA CCCAGCATCG 
    TCAGCCTCTG CAGTTAATCC TAATGTCAGT GTAACTAATG TCAGCCTGGA GGAGCCTGCC 
    CCAGCCCCTC CCGCCTCGCA CGCATCCCAG GCTGGTGGTT TAGGAGCACC AGGTGCTGAG 
    GCAGCTCACG TAGTGCTCAG AGGTGAAGGA CCACCATTGC CGCCGCATGC AGACCCAGCA 
    CAGGTGTATA GAAAGGAGCC GTATCCTGAA GAAATGATGA GACAAAACCA TATTTTAAAA 
    CAACCAGCTC TTGGTCACCC AGGGCAGAGG CCAGATAAAG AGCCAAATCT AGCCTATGAA 
    CCCCAACTTC CATATANAGA AAAACAAGCC AGCAGAGACC TTGAACAGCC GTCATACAGG 
    TATGAGGCCT CAAGCTACCC AGACCAGTTT TCTCGGAACT ATGACCATCG CCTACGGTTT 
    GAAGATCGAA TCCCTACCTA TGAAGACCAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CAACCTCGGC CTTTTGAGAA TCAGCATCCC CGAGACCTGG ACTCCAGACA ACATCCNGAG 
    GAGGCTTCAG AACGAGGTTA TNTCCAGCGT TTTGAAGAGC CAGCCCCTCT GTCATACGAC 
    AGTAGAACAC GCTATGAGCA GCTGCCTCGA ACCTCTACTC TACGACATGA AGAGCAGCCA 
    GCCCCTGCAT ATGAGGTGCA CAACAGGTAC AGGCCAGAGG CACAGCCCTA TTCTTCAACA 
    GGTCCTAAGT CATCTGAGCC CAAGCAGTAC TTTGACCAGT ACCCGCGAAG TTATGAGCAA 
    GTACCACCAC CAGGCTTTAC CTCCAAAACA GGCCATTACG AGCCTCTCCA TGGTGCTGCA 
    GTTGTCCCTC CTCTGATACC TTCCTCTCAA CATAAGCCAG AAGTCCTGCC CTCGGCTACC 
    AAACCACAGC CTCCACCCCC AACCCTAACT GAGGAGGAGG AGGATCCAGC AATGAAACCA 
    CAGTCCGTGC TCANCAGAGT CAAAATGTTT GAAAACAAAA GATCTGCGTC TTTGGAGAAC 
    AAGAAAGATG TGAATGACAC TGCCAGCTTT AAGCCTCCAG AAGTAGCATC TAAACCTCCA 
    AGTGCTTCTC TTGCTGGCCC TAAACCTGTT CCTCAGAGTC AGTTTAGTGA GCANGACAAA 
    ACACTCTACA GGCTCCCAGA GCCTCAGAAA CCTCAAGTGA AGCCACCCGA NGATATTGTT 
    CGATCAAATC ATTACGACCC TGAAGAGGAT GAAGAATATT ACAGGAAACA GCTCTCTTAC 
    TTTGANCGAA GAAGTTTTGA GAGCAAGCCT TCTGCACATC TTCCTGCTGG CCATCACTCA 
    GAGCCTGCTA AGCCAGTCCA TTCTCAGAGC CAGCCCAACT TTTCTAGTTA CTCTTCAAAG 
    GGAAAACCCG AAACTGATGC TGTGGATAGA TCATTCAGTG AGAAACGTTA TGATCCAGCC 
    CAGGCCACGC CTCCTCCTCC TCCGTTGCCC TCACAGTACA GCCAGCCAGC TCCCCCTCTG 
    TCCAGCTCTT CTCTCCACAT ACATTCCAAG GGCGCCCAGG GCGAAGGCAA TTCAGTATCA 
    TTGGATTTTC AGAACTCATA TATGTCCAAA CCAGACCCAC CCCCATCTCA GAGTAAACCA 
    GCAACTTTCA GACCACCAAC CCGAGAAGAC CCTCCTCAGA CTTTCTATCC CCAGAAANGT 
    TTCCCAGACA AAGCTCCAGT TAANGGAGCT GAGCAGACTC AGAAAACCAT CACTCCAGTG 
    TACAATCGAT TCACACCAAA GCCGTACACA AGTTCTGCCC GGCCGTTTGA ACGCAAATTT 
    GAAAGTCCGA AGTTCAACCA TAATCTTCTG CCAAGTGAAA CTGTACATAA ACCTGAATTG 
    TCTTCAAAAA CTCCCACTTC TCCAAAAACT CTTATGAAAG CTCATAGTTC AACACAGCCT 
    CCAGAGTTTG ACAGTGGAGT TGAAACTTTC TCTGTTCACA CAGATNAGCC TAAATATCAA 
    ATGAATAATA TCAGCACCAT GCCTAAAGCT GTCCCTGTGA GTCCTTCAGC TGTGGAAGAA 
    GATGAAGATG AGGATGGTCA TACTGTAGTG GCTACAGCTC GTGGCATTTT TAACAGCAAT 
    GGTGGTGTGT TGAGTTCCAT AGAAACCGGT GTTAGTATAA TTATCCCACA AGGAGCCATT 
    CCTGAAGGAA TTGAACAAGA AATCTATTTC AAAGTCTGCA GAGACAATAG CATTCTCCCA 
    CCTTTAGATA AAGAGAAAGG TGAAACTCTG CTAAGTCCCC TAGTGATGTG TGGGCCCCAT 
    GGCCTCAAGT TCCTGAAGCC CGTGGAGCTG CGCTTGCCAC ACTGTGCGTC CATGACTCCT 
    GACGGTTGGT CTTTTGCTCT AAAATCATCC GACTCCTCGT CGGGTGACCC TAAAACCTGG 
    CAAAACAAGT GTCTTCCTGG AGATCCGAAT TACCTTGTTG GAGCCAACTG TGTTTCTGTC 
    CTGATTGACC ACTTTTAA

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

    Tjp1 ( XM_021166164.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021021823.1 Mus caroli tight junction protein 1 (Tjp1), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OMv03978
    Clone ID Related Accession (Same CDS sequence) XM_021166164.1 , XM_021166164.2
    Accession Version XM_021166164.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5298bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    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_034576.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021166164.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGTCCACCA GGGCCGCGGC CGCTAAGAGC ACAGCAATGG AGGAAACGGC TATATGGGAA 
    CAGCACACAG TGATGCTTCA CAGGGCTCCT GGGTTTGGAT TTGGAATTGC AATCTCTGGT 
    GGAAGAGATA ATCCTCATTT TCAGAGTGGG GAAACCTCCA TAGTGATTTC TGATGTGCTA 
    AAAGGAGGGC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAATGGA 
    GTTTCAATGG ATAACGTTGA ACATGCTTTT GCTGTTCAGC AGCTAAGGAA AAGTGGGAAA 
    AACGCAAAAA TTACTATGCG AAGGAAGAAG AAAGTTCAGA TCCCTGTAAG TCACCCAGAT 
    CCTGAGCCGG TGTCTGATAA TGAAGATGAT AGCTACGACG AAGAAGTACA TGATCCAAGA 
    GCTGGCCGCA GTGCTTTAGC GAACAGAAGG AGCGAGAAGA GCTGGGCAAG GGATAGGAGT 
    GCAAGCAGGG AGAGGAGCCT GTCCCCTCGC TCGGACAGGC GGTCGGTGGC CTCCAGTCAG 
    CCCGCAAAAC CCACCAAGGT CGCACTGGTG AAGTCTCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCCA GCCATATATT TGTAAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGTAACATTC AAGAAGGGGA TGTTGTCTTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAAAC ACTGATAGAA AGGTCTAAAG GCAAGTTAAA AATGGTAGTG 
    CAAAGAGATG AGCGGGCTAC CTTACTGAAC GTCCCTGACC TTTCGGATAG TATCCATTCT 
    GCTAATGCCT CGGAAAGAGA TGACATTTCA GAAATTCAGT CACTAGCATC AGACCATTCA 
    GGTCGCTCGC ATGACAGGCC ACCCCGCCGC AGCCAGTCAC GATCTCCTGA CCAACGTTCA 
    GAGCCCTCCG ATCATTCCAC ACAGTCTCCA CAGCAGCCCA GCAATGGCAG TCTCCGGAGC 
    AGAGAGCAAG AGCGAATGTC TAAACCTGGG GCCATCTCAA CTCCTGTAAA ACATGCAGAT 
    GATCATACAC CCAAAGCAGT GGAAGAAGTT ACAGTTGAGA AAAATGAGAA GCAGACACCC 
    ACTCTTCCAG AACCGAAGCC TGTATATGCT CAAGTTGGAC AACCAGATGT GGATTTACCC 
    GTCAGCCCTT CTGATGGTGT TCTGCCTAAT TCAACTCATG AAGATGGGAT ACTTAGGCCC 
    AGCATGAAAC TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGACT AGCTGGTGGA 
    AATGATGTCG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAAGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTG AACAATGTAG ATTTCACAAA TATCATAAGA 
    GAAGAGGCTG TCCTTTTCCT CCTTGACCTC CCTAAAGGTG AAGAAGTGAC CATCCTGGCT 
    CAGAAGAAGA AGGGTGTTTA TCGCCGCATT GTAGAATCAG ATGTAGGAGA TTCATTCTAT 
    ATTAGAACGC ATTTTGAGTA TGAAAAAGAA TCTCCTTACG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GGGTCGTGGA TACTTTATAC AATGGAAAGC TGGGCTCTTG GCTTGCCATT 
    CGAATTGGCA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGTTAG CCAGTGTACA GTACACACTT CCAAAGACAG CGGGTGGTGA TCGGGCAGAC 
    TTCTGGAGGT TTCGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAC 
    TTGTCAGCTC AGCCAGTTCA AACTAAGTTC CCAGCTTATG AAAGGGTTGT TCTTCGAGAA 
    GCTGGATTCC TAAGACCTGT AACCATCTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    TTGGCAAGAG AGGAACCAGA TATCTATCAG ATTGCAAAAA GTGAACCACG AGATGCTGGG 
    ACTGACCATC GTAGCTCTGG CATCATTCGC CTTCATACAA TAAAGCAAAT CATAGATCAG 
    GATAAACATG CGTTATTAGA TGTAACGCCA AATGCGGTTG ATCGTCTTAA TTATGCGCAG 
    TGGTATCCAA TTGTTGTGTT CCTTAACCCT GACTCTAAGC AAGGTGTAAA AACAATGAGG 
    ATGAGGTTAT GTCCGGAGTC TCGGAAAAGC GCCAGGAAGC TATATGAACG CTCTCATAAG 
    CTTCGCAAAA ACAATCACCA CCTTTTCACA ACTACAATTA ACTTAAACTC AATGAATGAT 
    GGTTGGTACG GTGCCCTGAA AGAAGCCATT CAGCAGCAAC AGAACCAGCT GGTGTGGGTC 
    TCTGAGGGGA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCCCCAGG TAGTGAGTAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA TACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTGGG GACTCCCCCG GAGTCTGCCA TTACACNGTC CTCTGAGCCT 
    GTAAGAGAGG ATTCCTCTGG GATGCATCAT GAAAACCAGA CCTATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAAGCTAT TCATAGACTA GACTCCCCTG GACTTAAGCC AGCCTCTCAA 
    CAGAAAGCAG AAGCCTCATC TCCAGTCCCT TACCTTTCGC CTGAAACAAA CCCAGCATCG 
    TCAGCCTCTG CAGTTAATCC TAATGTCAGT GTAACTAATG TCAGCCTGGA GGAGCCTGCC 
    CCAGCCCCTC CCGCCTCGCA CGCATCCCAG GCTGGTGGTT TAGGAGCACC AGGTGCTGAG 
    GCAGCTCACG TAGTGCTCAG AGGTGAAGGA CCACCATTGC CGCCGCATGC AGACCCAGCA 
    CAGGTGTATA GAAAGGAGCC GTATCCTGAA GAAATGATGA GACAAAACCA TATTTTAAAA 
    CAACCAGCTC TTGGTCACCC AGGGCAGAGG CCAGATAAAG AGCCAAATCT AGCCTATGAA 
    CCCCAACTTC CATATANAGA AAAACAAGCC AGCAGAGACC TTGAACAGCC GTCATACAGG 
    TATGAGGCCT CAAGCTACCC AGACCAGTTT TCTCGGAACT ATGACCATCG CCTACGGTTT 
    GAAGATCGAA TCCCTACCTA TGAAGACCAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CAACCTCGGC CTTTTGAGAA TCAGCATCCC CGAGACCTGG ACTCCAGACA ACATCCNGAG 
    GAGGCTTCAG AACGAGGTTA TNTCCAGCGT TTTGAAGAGC CAGCCCCTCT GTCATACGAC 
    AGTAGAACAC GCTATGAGCA GCTGCCTCGA ACCTCTACTC TACGACATGA AGAGCAGCCA 
    GCCCCTGCAT ATGAGGTGCA CAACAGGTAC AGGCCAGAGG CACAGCCCTA TTCTTCAACA 
    GGTCCTAAGT CATCTGAGCC CAAGCAGTAC TTTGACCAGT ACCCGCGAAG TTATGAGCAA 
    GTACCACCAC CAGGCTTTAC CTCCAAAACA GGCCATTACG AGCCTCTCCA TGGTGCTGCA 
    GTTGTCCCTC CTCTGATACC TTCCTCTCAA CATAAGCCAG AAGTCCTGCC CTCGGCTACC 
    AAACCACAGC CTCCACCCCC AACCCTAACT GAGGAGGAGG AGGATCCAGC AATGAAACCA 
    CAGTCCGTGC TCANCAGAGT CAAAATGTTT GAAAACAAAA GATCTGCGTC TTTGGAGAAC 
    AAGAAAGATG TGAATGACAC TGCCAGCTTT AAGCCTCCAG AAGTAGCATC TAAACCTCCA 
    AGTGCTTCTC TTGCTGGCCC TAAACCTGTT CCTCAGAGTC AGTTTAGTGA GCANGACAAA 
    ACACTCTACA GGCTCCCAGA GCCTCAGAAA CCTCAAGTGA AGCCACCCGA NGATATTGTT 
    CGATCAAATC ATTACGACCC TGAAGAGGAT GAAGAATATT ACAGGAAACA GCTCTCTTAC 
    TTTGANCGAA GAAGTTTTGA GAGCAAGCCT TCTGCACATC TTCCTGCTGG CCATCACTCA 
    GAGCCTGCTA AGCCAGTCCA TTCTCAGAGC CAGCCCAACT TTTCTAGTTA CTCTTCAAAG 
    GGAAAACCCG AAACTGATGC TGTGGATAGA TCATTCAGTG AGAAACGTTA TGATCCAGCC 
    CAGGCCACGC CTCCTCCTCC TCCGTTGCCC TCACAGTACA GCCAGCCAGC TCCCCCTCTG 
    TCCAGCTCTT CTCTCCACAT ACATTCCAAG GGCGCCCAGG GCGAAGGCAA TTCAGTATCA 
    TTGGATTTTC AGAACTCATA TATGTCCAAA CCAGACCCAC CCCCATCTCA GAGTAAACCA 
    GCAACTTTCA GACCACCAAC CCGAGAAGAC CCTCCTCAGA CTTTCTATCC CCAGAAANGT 
    TTCCCAGACA AAGCTCCAGT TAANGGAGCT GAGCAGACTC AGAAAACCAT CACTCCAGTG 
    TACAATCGAT TCACACCAAA GCCGTACACA AGTTCTGCCC GGCCGTTTGA ACGCAAATTT 
    GAAAGTCCGA AGTTCAACCA TAATCTTCTG CCAAGTGAAA CTGTACATAA ACCTGAATTG 
    TCTTCAAAAA CTCCCACTTC TCCAAAAACT CTTATGAAAG CTCATAGTTC AACACAGCCT 
    CCAGAGTTTG ACAGTGGAGT TGAAACTTTC TCTGTTCACA CAGATNAGCC TAAATATCAA 
    ATGAATAATA TCAGCACCAT GCCTAAAGCT GTCCCTGTGA GTCCTTCAGC TGTGGAAGAA 
    GATGAAGATG AGGATGGTCA TACTGTAGTG GCTACAGCTC GTGGCATTTT TAACAGCAAT 
    GGTGGTGTGT TGAGTTCCAT AGAAACCGGT GTTAGTATAA TTATCCCACA AGGAGCCATT 
    CCTGAAGGAA TTGAACAAGA AATCTATTTC AAAGTCTGCA GAGACAATAG CATTCTCCCA 
    CCTTTAGATA AAGAGAAAGG TGAAACTCTG CTAAGTCCCC TAGTGATGTG TGGGCCCCAT 
    GGCCTCAAGT TCCTGAAGCC CGTGGAGCTG CGCTTGCCAC ACTGTGCGTC CATGACTCCT 
    GACGGTTGGT CTTTTGCTCT AAAATCATCC GACTCCTCGT CGGGTGACCC TAAAACCTGG 
    CAAAACAAGT GTCTTCCTGG AGATCCGAAT TACCTTGTTG GAGCCAACTG TGTTTCTGTC 
    CTGATTGACC ACTTTTAA

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

    RefSeq XP_021021823.1
    CDS65..5362
    Translation

    Target ORF information:

    RefSeq Version XM_021166164.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli 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_021166164.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    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
    ATGTCCACCA GGGCCGCGGC CGCTAAGAGC ACAGCAATGG AGGAAACGGC TATATGGGAA 
    CAGCACACAG TGATGCTTCA CAGGGCTCCT GGGTTTGGAT TTGGAATTGC AATCTCTGGT 
    GGAAGAGATA ATCCTCATTT TCAGAGTGGG GAAACCTCCA TAGTGATTTC TGATGTGCTA 
    AAAGGAGGGC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAATGGA 
    GTTTCAATGG ATAACGTTGA ACATGCTTTT GCTGTTCAGC AGCTAAGGAA AAGTGGGAAA 
    AACGCAAAAA TTACTATGCG AAGGAAGAAG AAAGTTCAGA TCCCTGTAAG TCACCCAGAT 
    CCTGAGCCGG TGTCTGATAA TGAAGATGAT AGCTACGACG AAGAAGTACA TGATCCAAGA 
    GCTGGCCGCA GTGCTTTAGC GAACAGAAGG AGCGAGAAGA GCTGGGCAAG GGATAGGAGT 
    GCAAGCAGGG AGAGGAGCCT GTCCCCTCGC TCGGACAGGC GGTCGGTGGC CTCCAGTCAG 
    CCCGCAAAAC CCACCAAGGT CGCACTGGTG AAGTCTCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCCA GCCATATATT TGTAAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGTAACATTC AAGAAGGGGA TGTTGTCTTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAAAC ACTGATAGAA AGGTCTAAAG GCAAGTTAAA AATGGTAGTG 
    CAAAGAGATG AGCGGGCTAC CTTACTGAAC GTCCCTGACC TTTCGGATAG TATCCATTCT 
    GCTAATGCCT CGGAAAGAGA TGACATTTCA GAAATTCAGT CACTAGCATC AGACCATTCA 
    GGTCGCTCGC ATGACAGGCC ACCCCGCCGC AGCCAGTCAC GATCTCCTGA CCAACGTTCA 
    GAGCCCTCCG ATCATTCCAC ACAGTCTCCA CAGCAGCCCA GCAATGGCAG TCTCCGGAGC 
    AGAGAGCAAG AGCGAATGTC TAAACCTGGG GCCATCTCAA CTCCTGTAAA ACATGCAGAT 
    GATCATACAC CCAAAGCAGT GGAAGAAGTT ACAGTTGAGA AAAATGAGAA GCAGACACCC 
    ACTCTTCCAG AACCGAAGCC TGTATATGCT CAAGTTGGAC AACCAGATGT GGATTTACCC 
    GTCAGCCCTT CTGATGGTGT TCTGCCTAAT TCAACTCATG AAGATGGGAT ACTTAGGCCC 
    AGCATGAAAC TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGACT AGCTGGTGGA 
    AATGATGTCG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAAGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTG AACAATGTAG ATTTCACAAA TATCATAAGA 
    GAAGAGGCTG TCCTTTTCCT CCTTGACCTC CCTAAAGGTG AAGAAGTGAC CATCCTGGCT 
    CAGAAGAAGA AGGGTGTTTA TCGCCGCATT GTAGAATCAG ATGTAGGAGA TTCATTCTAT 
    ATTAGAACGC ATTTTGAGTA TGAAAAAGAA TCTCCTTACG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GGGTCGTGGA TACTTTATAC AATGGAAAGC TGGGCTCTTG GCTTGCCATT 
    CGAATTGGCA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGTTAG CCAGTGTACA GTACACACTT CCAAAGACAG CGGGTGGTGA TCGGGCAGAC 
    TTCTGGAGGT TTCGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAC 
    TTGTCAGCTC AGCCAGTTCA AACTAAGTTC CCAGCTTATG AAAGGGTTGT TCTTCGAGAA 
    GCTGGATTCC TAAGACCTGT AACCATCTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    TTGGCAAGAG AGGAACCAGA TATCTATCAG ATTGCAAAAA GTGAACCACG AGATGCTGGG 
    ACTGACCATC GTAGCTCTGG CATCATTCGC CTTCATACAA TAAAGCAAAT CATAGATCAG 
    GATAAACATG CGTTATTAGA TGTAACGCCA AATGCGGTTG ATCGTCTTAA TTATGCGCAG 
    TGGTATCCAA TTGTTGTGTT CCTTAACCCT GACTCTAAGC AAGGTGTAAA AACAATGAGG 
    ATGAGGTTAT GTCCGGAGTC TCGGAAAAGC GCCAGGAAGC TATATGAACG CTCTCATAAG 
    CTTCGCAAAA ACAATCACCA CCTTTTCACA ACTACAATTA ACTTAAACTC AATGAATGAT 
    GGTTGGTACG GTGCCCTGAA AGAAGCCATT CAGCAGCAAC AGAACCAGCT GGTGTGGGTC 
    TCTGAGGGGA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCCCCAGG TAGTGAGTAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA TACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTGGG GACTCCCCCG GAGTCTGCCA TTACACNGTC CTCTGAGCCT 
    GTAAGAGAGG ATTCCTCTGG GATGCATCAT GAAAACCAGA CCTATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAAGCTAT TCATAGACTA GACTCCCCTG GACTTAAGCC AGCCTCTCAA 
    CAGAAAGCAG AAGCCTCATC TCCAGTCCCT TACCTTTCGC CTGAAACAAA CCCAGCATCG 
    TCAGCCTCTG CAGTTAATCC TAATGTCAGT GTAACTAATG TCAGCCTGGA GGAGCCTGCC 
    CCAGCCCCTC CCGCCTCGCA CGCATCCCAG GCTGGTGGTT TAGGAGCACC AGGTGCTGAG 
    GCAGCTCACG TAGTGCTCAG AGGTGAAGGA CCACCATTGC CGCCGCATGC AGACCCAGCA 
    CAGGTGTATA GAAAGGAGCC GTATCCTGAA GAAATGATGA GACAAAACCA TATTTTAAAA 
    CAACCAGCTC TTGGTCACCC AGGGCAGAGG CCAGATAAAG AGCCAAATCT AGCCTATGAA 
    CCCCAACTTC CATATANAGA AAAACAAGCC AGCAGAGACC TTGAACAGCC GTCATACAGG 
    TATGAGGCCT CAAGCTACCC AGACCAGTTT TCTCGGAACT ATGACCATCG CCTACGGTTT 
    GAAGATCGAA TCCCTACCTA TGAAGACCAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CAACCTCGGC CTTTTGAGAA TCAGCATCCC CGAGACCTGG ACTCCAGACA ACATCCNGAG 
    GAGGCTTCAG AACGAGGTTA TNTCCAGCGT TTTGAAGAGC CAGCCCCTCT GTCATACGAC 
    AGTAGAACAC GCTATGAGCA GCTGCCTCGA ACCTCTACTC TACGACATGA AGAGCAGCCA 
    GCCCCTGCAT ATGAGGTGCA CAACAGGTAC AGGCCAGAGG CACAGCCCTA TTCTTCAACA 
    GGTCCTAAGT CATCTGAGCC CAAGCAGTAC TTTGACCAGT ACCCGCGAAG TTATGAGCAA 
    GTACCACCAC CAGGCTTTAC CTCCAAAACA GGCCATTACG AGCCTCTCCA TGGTGCTGCA 
    GTTGTCCCTC CTCTGATACC TTCCTCTCAA CATAAGCCAG AAGTCCTGCC CTCGGCTACC 
    AAACCACAGC CTCCACCCCC AACCCTAACT GAGGAGGAGG AGGATCCAGC AATGAAACCA 
    CAGTCCGTGC TCANCAGAGT CAAAATGTTT GAAAACAAAA GATCTGCGTC TTTGGAGAAC 
    AAGAAAGATG TGAATGACAC TGCCAGCTTT AAGCCTCCAG AAGTAGCATC TAAACCTCCA 
    AGTGCTTCTC TTGCTGGCCC TAAACCTGTT CCTCAGAGTC AGTTTAGTGA GCANGACAAA 
    ACACTCTACA GGCTCCCAGA GCCTCAGAAA CCTCAAGTGA AGCCACCCGA NGATATTGTT 
    CGATCAAATC ATTACGACCC TGAAGAGGAT GAAGAATATT ACAGGAAACA GCTCTCTTAC 
    TTTGANCGAA GAAGTTTTGA GAGCAAGCCT TCTGCACATC TTCCTGCTGG CCATCACTCA 
    GAGCCTGCTA AGCCAGTCCA TTCTCAGAGC CAGCCCAACT TTTCTAGTTA CTCTTCAAAG 
    GGAAAACCCG AAACTGATGC TGTGGATAGA TCATTCAGTG AGAAACGTTA TGATCCAGCC 
    CAGGCCACGC CTCCTCCTCC TCCGTTGCCC TCACAGTACA GCCAGCCAGC TCCCCCTCTG 
    TCCAGCTCTT CTCTCCACAT ACATTCCAAG GGCGCCCAGG GCGAAGGCAA TTCAGTATCA 
    TTGGATTTTC AGAACTCATA TATGTCCAAA CCAGACCCAC CCCCATCTCA GAGTAAACCA 
    GCAACTTTCA GACCACCAAC CCGAGAAGAC CCTCCTCAGA CTTTCTATCC CCAGAAANGT 
    TTCCCAGACA AAGCTCCAGT TAANGGAGCT GAGCAGACTC AGAAAACCAT CACTCCAGTG 
    TACAATCGAT TCACACCAAA GCCGTACACA AGTTCTGCCC GGCCGTTTGA ACGCAAATTT 
    GAAAGTCCGA AGTTCAACCA TAATCTTCTG CCAAGTGAAA CTGTACATAA ACCTGAATTG 
    TCTTCAAAAA CTCCCACTTC TCCAAAAACT CTTATGAAAG CTCATAGTTC AACACAGCCT 
    CCAGAGTTTG ACAGTGGAGT TGAAACTTTC TCTGTTCACA CAGATNAGCC TAAATATCAA 
    ATGAATAATA TCAGCACCAT GCCTAAAGCT GTCCCTGTGA GTCCTTCAGC TGTGGAAGAA 
    GATGAAGATG AGGATGGTCA TACTGTAGTG GCTACAGCTC GTGGCATTTT TAACAGCAAT 
    GGTGGTGTGT TGAGTTCCAT AGAAACCGGT GTTAGTATAA TTATCCCACA AGGAGCCATT 
    CCTGAAGGAA TTGAACAAGA AATCTATTTC AAAGTCTGCA GAGACAATAG CATTCTCCCA 
    CCTTTAGATA AAGAGAAAGG TGAAACTCTG CTAAGTCCCC TAGTGATGTG TGGGCCCCAT 
    GGCCTCAAGT TCCTGAAGCC CGTGGAGCTG CGCTTGCCAC ACTGTGCGTC CATGACTCCT 
    GACGGTTGGT CTTTTGCTCT AAAATCATCC GACTCCTCGT CGGGTGACCC TAAAACCTGG 
    CAAAACAAGT GTCTTCCTGG AGATCCGAAT TACCTTGTTG GAGCCAACTG TGTTTCTGTC 
    CTGATTGACC ACTTTTAA

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

    Tjp1 ( XM_021166165.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021021824.1 Mus caroli tight junction protein 1 (Tjp1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMv03979
    Clone ID Related Accession (Same CDS sequence) XM_021166165.1 , XM_021166165.2
    Accession Version XM_021166165.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5238bp)
    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 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    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_034576.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGTCCACCA GGGCCGCGGC CGCTAAGAGC ACAGCAATGG AGGAAACGGC TATATGGGAA 
    CAGCACACAG TGATGCTTCA CAGGGCTCCT GGGTTTGGAT TTGGAATTGC AATCTCTGGT 
    GGAAGAGATA ATCCTCATTT TCAGAGTGGG GAAACCTCCA TAGTGATTTC TGATGTGCTA 
    AAAGGAGGGC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAATGGA 
    GTTTCAATGG ATAACGTTGA ACATGCTTTT GCTGTTCAGC AGCTAAGGAA AAGTGGGAAA 
    AACGCAAAAA TTACTATGCG AAGGAAGAAG AAAGTTCAGA TCCCTGTAAG TCACCCAGAT 
    CCTGAGCCGG TGTCTGATAA TGAAGATGAT AGCTACGACG AAGAAGTACA TGATCCAAGA 
    GCTGGCCGCA GTGCTTTAGC GAACAGAAGG AGCGAGAAGA GCTGGGCAAG GGATAGGAGT 
    GCAAGCAGGG AGAGGAGCCT GTCCCCTCGC TCGGACAGGC GGTCGGTGGC CTCCAGTCAG 
    CCCGCAAAAC CCACCAAGGT CGCACTGGTG AAGTCTCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCCA GCCATATATT TGTAAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGTAACATTC AAGAAGGGGA TGTTGTCTTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAAAC ACTGATAGAA AGGTCTAAAG GCAAGTTAAA AATGGTAGTG 
    CAAAGAGATG AGCGGGCTAC CTTACTGAAC GTCCCTGACC TTTCGGATAG TATCCATTCT 
    GCTAATGCCT CGGAAAGAGA TGACATTTCA GAAATTCAGT CACTAGCATC AGACCATTCA 
    GGTCGCTCGC ATGACAGGCC ACCCCGCCGC AGCCAGTCAC GATCTCCTGA CCAACGTTCA 
    GAGCCCTCCG ATCATTCCAC ACAGTCTCCA CAGCAGCCCA GCAATGGCAG TCTCCGGAGC 
    AGAGAGCAAG AGCGAATGTC TAAACCTGGG GCCATCTCAA CTCCTGTAAA ACATGCAGAT 
    GATCATACAC CCAAAGCAGT GGAAGAAGTT ACAGTTGAGA AAAATGAGAA GCAGACACCC 
    ACTCTTCCAG AACCGAAGCC TGTATATGCT CAAGTTGGAC AACCAGATGT GGATTTACCC 
    GTCAGCCCTT CTGATGGTGT TCTGCCTAAT TCAACTCATG AAGATGGGAT ACTTAGGCCC 
    AGCATGAAAC TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGACT AGCTGGTGGA 
    AATGATGTCG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAAGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTG AACAATGTAG ATTTCACAAA TATCATAAGA 
    GAAGAGGCTG TCCTTTTCCT CCTTGACCTC CCTAAAGGTG AAGAAGTGAC CATCCTGGCT 
    CAGAAGAAGA AGGGTGTTTA TCGCCGCATT GTAGAATCAG ATGTAGGAGA TTCATTCTAT 
    ATTAGAACGC ATTTTGAGTA TGAAAAAGAA TCTCCTTACG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GGGTCGTGGA TACTTTATAC AATGGAAAGC TGGGCTCTTG GCTTGCCATT 
    CGAATTGGCA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGTTAG CCAGTGTACA GTACACACTT CCAAAGACAG CGGGTGGTGA TCGGGCAGAC 
    TTCTGGAGGT TTCGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAC 
    TTGTCAGCTC AGCCAGTTCA AACTAAGTTC CCAGCTTATG AAAGGGTTGT TCTTCGAGAA 
    GCTGGATTCC TAAGACCTGT AACCATCTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    TTGGCAAGAG AGGAACCAGA TATCTATCAG ATTGCAAAAA GTGAACCACG AGATGCTGGG 
    ACTGACCATC GTAGCTCTGG CATCATTCGC CTTCATACAA TAAAGCAAAT CATAGATCAG 
    GATAAACATG CGTTATTAGA TGTAACGCCA AATGCGGTTG ATCGTCTTAA TTATGCGCAG 
    TGGTATCCAA TTGTTGTGTT CCTTAACCCT GACTCTAAGC AAGGTGTAAA AACAATGAGG 
    ATGAGGTTAT GTCCGGAGTC TCGGAAAAGC GCCAGGAAGC TATATGAACG CTCTCATAAG 
    CTTCGCAAAA ACAATCACCA CCTTTTCACA ACTACAATTA ACTTAAACTC AATGAATGAT 
    GGTTGGTACG GTGCCCTGAA AGAAGCCATT CAGCAGCAAC AGAACCAGCT GGTGTGGGTC 
    TCTGAGGGGA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCCCCAGG TAGTGAGTAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA TACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTGGG GACTCCCCCG GAGTCTGCCA TTACACNGTC CTCTGAGCCT 
    GTAAGAGAGG ATTCCTCTGG GATGCATCAT GAAAACCAGA CCTATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAAGCTAT TCATAGACTA GACTCCCCTG GACTTAAGCC AGCCTCTCAA 
    CAGAAAGCAG AAGCCTCATC TCCAGTCCCT TACCTTTCGC CTGAAACAAA CCCAGCATCG 
    TCAGCCTCTG CAGTTAATCC TAATGTCAGT GTAACTAATG TCAGCCTGGA GGAGCCTGCC 
    CCAGCCCCTC CCGCCTCGCA CGCATCCCAG GCTGGTGGTT TAGGAGCACC AGGTGCTGAG 
    GCAGCTCACG TAGTGCTCAG AGGTGAAGGA CCACCATTGC CGCCGCATGC AGACCCAGCA 
    CAGGTGTATA GAAAGGAGCC GTATCCTGAA GAAATGATGA GACAAAACCA TATTTTAAAA 
    CAACCAGCTC TTGGTCACCC AGGGCAGAGG CCAGATAAAG AGCCAAATCT AGCCTATGAA 
    CCCCAACTTC CATATANAGA AAAACAAGCC AGCAGAGACC TTGAACAGCC GTCATACAGG 
    TATGAGGCCT CAAGCTACCC AGACCAGTTT TCTCGGAACT ATGACCATCG CCTACGGTTT 
    GAAGATCGAA TCCCTACCTA TGAAGACCAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CAACCTCGGC CTTTTGAGAA TCAGCATCCC CGAGACCTGG ACTCCAGACA ACATCCNGAG 
    GAGGCTTCAG AACGAGGTTA TNTCCAGCGT TTTGAAGAGC CAGCCCCTCT GTCATACGAC 
    AGTAGAACAC GCTATGAGCA GCTGCCTCGA ACCTCTACTC TACGACATGA AGAGCAGCCA 
    GCCCCTGCAT ATGAGGTGCA CAACAGGTAC AGGCCAGAGG CACAGCCCTA TTCTTCAACA 
    GGTCCTAAGT CATCTGAGCC CAAGCAGTAC TTTGACCAGT ACCCGCGAAG TTATGAGCAA 
    GTACCACCAC CAGGCTTTAC CTCCAAAACA GGCCATTACG AGCCTCTCCA TGGTGCTGCA 
    GTTGTCCCTC CTCTGATACC TTCCTCTCAA CATAAGCCAG AAGTCCTGCC CTCGGCTACC 
    AAACCACAGC CTCCACCCCC AACCCTAACT GAGGAGGAGG AGGATCCAGC AATGAAACCA 
    CAGTCCGTGC TCANCAGAGT CAAAATGTTT GAAAACAAAA GATCTGCGTC TTTGGAGAAC 
    AAGAAAGATG TGAATGACAC TGCCAGCTTT AAGCCTCCAG AAGTAGCATC TAAACCTCCA 
    AGTGCTTCTC TTGCTGGCCC TAAACCTGTT CCTCAGAGTC AGTTTAGTGA GCANGACAAA 
    ACACTCTACA GGCTCCCAGA GCCTCAGAAA CCTCAAGTGA AGCCACCCGA NGATATTGTT 
    CGATCAAATC ATTACGACCC TGAAGAGGAT GAAGAATATT ACAGGAAACA GCTCTCTTAC 
    TTTGANCGAA GAAGTTTTGA GAGCAAGCCT TCTGCACATC TTCCTGCTGG CCATCACTCA 
    GAGCCTGCTA AGCCAGTCCA TTCTCAGAGC CAGCCCAACT TTTCTAGTTA CTCTTCAAAG 
    GGAAAACCCG AAACTGATGC TGTGGATAGA TCATTCAGTG AGAAACGTTA TGATCCAGCC 
    CAGGCCACGC CTCCTCCTCC TCCGTTGCCC TCACAGTACA GCCAGCCAGC TCCCCCTCTG 
    TCCAGCTCTT CTCTCCACAT ACATTCCAAG GGCGCCCAGG GCGAAGGCAA TTCAGTATCA 
    TTGGATTTTC AGAACTCATA TATGTCCAAA CCAGACCCAC CCCCATCTCA GAGTAAACCA 
    GCAACTTTCA GACCACCAAC CCGAGAAGAC CCTCCTCAGA CTTTCTATCC CCAGAAANGT 
    TTCCCAGACA AAGCTCCAGT TAANGGAGCT GAGCAGACTC AGAAAACCAT CACTCCAGTG 
    TACAATCGAT TCACACCAAA GCCGTACACA AGTTCTGCCC GGCCGTTTGA ACGCAAATTT 
    GAAAGTCCGA AGTTCAACCA TAATCTTCTG CCAAGTGAAA CTGTACATAA ACCTGAATTG 
    TCTTCAAAAA CTCCCACTTC TCCAAAAACT CTTATGAAAG CTCATAGTTC AACACAGCCT 
    CCAGAGTTTG ACAGTGGAGT TGAAACTTTC TCTGTTCACA CAGATNAGCC TAAATATCAA 
    ATGAATAATA TCAGCACCAT GCCTAAAGCT GTCCCTGTGA GTCCTTCAGC TGTGGAAGAA 
    GATGAAGATG AGGATGGTCA TACTGTAGTG GCTACAGCTC GTGGCATTTT TAACAGCAAT 
    GGTGGTGTGT TGAGTTCCAT AGAAACCGGT GTTAGTATAA TTATCCCACA AGGAGCCATT 
    CCTGAAGGAA TTGAACAAGA AATCTATTTC AAAGTCTGCA GAGACAATAG CATTCTCCCA 
    CCTTTAGATA AAGAGAAAGG TGAAACTCTG CTAAGTCCCC TAGTGATGTG TGGGCCCCAT 
    GGCCTCAAGT TCCTGAAGCC CGTGGAGCTG CGCTTGCCAC ACTGTGACCC TAAAACCTGG 
    CAAAACAAGT GTCTTCCTGG AGATCCGAAT TACCTTGTTG GAGCCAACTG TGTTTCTGTC 
    CTGATTGACC ACTTTTAA

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

    RefSeq XP_021021824.1
    CDS38..5275
    Translation

    Target ORF information:

    RefSeq Version XM_021166165.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli 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_021166165.1

    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
    ATGTCCACCA GGGCCGCGGC CGCTAAGAGC ACAGCAATGG AGGAAACGGC TATATGGGAA 
    CAGCACACAG TGATGCTTCA CAGGGCTCCT GGGTTTGGAT TTGGAATTGC AATCTCTGGT 
    GGAAGAGATA ATCCTCATTT TCAGAGTGGG GAAACCTCCA TAGTGATTTC TGATGTGCTA 
    AAAGGAGGGC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAATGGA 
    GTTTCAATGG ATAACGTTGA ACATGCTTTT GCTGTTCAGC AGCTAAGGAA AAGTGGGAAA 
    AACGCAAAAA TTACTATGCG AAGGAAGAAG AAAGTTCAGA TCCCTGTAAG TCACCCAGAT 
    CCTGAGCCGG TGTCTGATAA TGAAGATGAT AGCTACGACG AAGAAGTACA TGATCCAAGA 
    GCTGGCCGCA GTGCTTTAGC GAACAGAAGG AGCGAGAAGA GCTGGGCAAG GGATAGGAGT 
    GCAAGCAGGG AGAGGAGCCT GTCCCCTCGC TCGGACAGGC GGTCGGTGGC CTCCAGTCAG 
    CCCGCAAAAC CCACCAAGGT CGCACTGGTG AAGTCTCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCCA GCCATATATT TGTAAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGTAACATTC AAGAAGGGGA TGTTGTCTTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAAAC ACTGATAGAA AGGTCTAAAG GCAAGTTAAA AATGGTAGTG 
    CAAAGAGATG AGCGGGCTAC CTTACTGAAC GTCCCTGACC TTTCGGATAG TATCCATTCT 
    GCTAATGCCT CGGAAAGAGA TGACATTTCA GAAATTCAGT CACTAGCATC AGACCATTCA 
    GGTCGCTCGC ATGACAGGCC ACCCCGCCGC AGCCAGTCAC GATCTCCTGA CCAACGTTCA 
    GAGCCCTCCG ATCATTCCAC ACAGTCTCCA CAGCAGCCCA GCAATGGCAG TCTCCGGAGC 
    AGAGAGCAAG AGCGAATGTC TAAACCTGGG GCCATCTCAA CTCCTGTAAA ACATGCAGAT 
    GATCATACAC CCAAAGCAGT GGAAGAAGTT ACAGTTGAGA AAAATGAGAA GCAGACACCC 
    ACTCTTCCAG AACCGAAGCC TGTATATGCT CAAGTTGGAC AACCAGATGT GGATTTACCC 
    GTCAGCCCTT CTGATGGTGT TCTGCCTAAT TCAACTCATG AAGATGGGAT ACTTAGGCCC 
    AGCATGAAAC TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGACT AGCTGGTGGA 
    AATGATGTCG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAAGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTG AACAATGTAG ATTTCACAAA TATCATAAGA 
    GAAGAGGCTG TCCTTTTCCT CCTTGACCTC CCTAAAGGTG AAGAAGTGAC CATCCTGGCT 
    CAGAAGAAGA AGGGTGTTTA TCGCCGCATT GTAGAATCAG ATGTAGGAGA TTCATTCTAT 
    ATTAGAACGC ATTTTGAGTA TGAAAAAGAA TCTCCTTACG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GGGTCGTGGA TACTTTATAC AATGGAAAGC TGGGCTCTTG GCTTGCCATT 
    CGAATTGGCA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGTTAG CCAGTGTACA GTACACACTT CCAAAGACAG CGGGTGGTGA TCGGGCAGAC 
    TTCTGGAGGT TTCGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAC 
    TTGTCAGCTC AGCCAGTTCA AACTAAGTTC CCAGCTTATG AAAGGGTTGT TCTTCGAGAA 
    GCTGGATTCC TAAGACCTGT AACCATCTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    TTGGCAAGAG AGGAACCAGA TATCTATCAG ATTGCAAAAA GTGAACCACG AGATGCTGGG 
    ACTGACCATC GTAGCTCTGG CATCATTCGC CTTCATACAA TAAAGCAAAT CATAGATCAG 
    GATAAACATG CGTTATTAGA TGTAACGCCA AATGCGGTTG ATCGTCTTAA TTATGCGCAG 
    TGGTATCCAA TTGTTGTGTT CCTTAACCCT GACTCTAAGC AAGGTGTAAA AACAATGAGG 
    ATGAGGTTAT GTCCGGAGTC TCGGAAAAGC GCCAGGAAGC TATATGAACG CTCTCATAAG 
    CTTCGCAAAA ACAATCACCA CCTTTTCACA ACTACAATTA ACTTAAACTC AATGAATGAT 
    GGTTGGTACG GTGCCCTGAA AGAAGCCATT CAGCAGCAAC AGAACCAGCT GGTGTGGGTC 
    TCTGAGGGGA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCCCCAGG TAGTGAGTAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA TACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTGGG GACTCCCCCG GAGTCTGCCA TTACACNGTC CTCTGAGCCT 
    GTAAGAGAGG ATTCCTCTGG GATGCATCAT GAAAACCAGA CCTATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAAGCTAT TCATAGACTA GACTCCCCTG GACTTAAGCC AGCCTCTCAA 
    CAGAAAGCAG AAGCCTCATC TCCAGTCCCT TACCTTTCGC CTGAAACAAA CCCAGCATCG 
    TCAGCCTCTG CAGTTAATCC TAATGTCAGT GTAACTAATG TCAGCCTGGA GGAGCCTGCC 
    CCAGCCCCTC CCGCCTCGCA CGCATCCCAG GCTGGTGGTT TAGGAGCACC AGGTGCTGAG 
    GCAGCTCACG TAGTGCTCAG AGGTGAAGGA CCACCATTGC CGCCGCATGC AGACCCAGCA 
    CAGGTGTATA GAAAGGAGCC GTATCCTGAA GAAATGATGA GACAAAACCA TATTTTAAAA 
    CAACCAGCTC TTGGTCACCC AGGGCAGAGG CCAGATAAAG AGCCAAATCT AGCCTATGAA 
    CCCCAACTTC CATATANAGA AAAACAAGCC AGCAGAGACC TTGAACAGCC GTCATACAGG 
    TATGAGGCCT CAAGCTACCC AGACCAGTTT TCTCGGAACT ATGACCATCG CCTACGGTTT 
    GAAGATCGAA TCCCTACCTA TGAAGACCAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CAACCTCGGC CTTTTGAGAA TCAGCATCCC CGAGACCTGG ACTCCAGACA ACATCCNGAG 
    GAGGCTTCAG AACGAGGTTA TNTCCAGCGT TTTGAAGAGC CAGCCCCTCT GTCATACGAC 
    AGTAGAACAC GCTATGAGCA GCTGCCTCGA ACCTCTACTC TACGACATGA AGAGCAGCCA 
    GCCCCTGCAT ATGAGGTGCA CAACAGGTAC AGGCCAGAGG CACAGCCCTA TTCTTCAACA 
    GGTCCTAAGT CATCTGAGCC CAAGCAGTAC TTTGACCAGT ACCCGCGAAG TTATGAGCAA 
    GTACCACCAC CAGGCTTTAC CTCCAAAACA GGCCATTACG AGCCTCTCCA TGGTGCTGCA 
    GTTGTCCCTC CTCTGATACC TTCCTCTCAA CATAAGCCAG AAGTCCTGCC CTCGGCTACC 
    AAACCACAGC CTCCACCCCC AACCCTAACT GAGGAGGAGG AGGATCCAGC AATGAAACCA 
    CAGTCCGTGC TCANCAGAGT CAAAATGTTT GAAAACAAAA GATCTGCGTC TTTGGAGAAC 
    AAGAAAGATG TGAATGACAC TGCCAGCTTT AAGCCTCCAG AAGTAGCATC TAAACCTCCA 
    AGTGCTTCTC TTGCTGGCCC TAAACCTGTT CCTCAGAGTC AGTTTAGTGA GCANGACAAA 
    ACACTCTACA GGCTCCCAGA GCCTCAGAAA CCTCAAGTGA AGCCACCCGA NGATATTGTT 
    CGATCAAATC ATTACGACCC TGAAGAGGAT GAAGAATATT ACAGGAAACA GCTCTCTTAC 
    TTTGANCGAA GAAGTTTTGA GAGCAAGCCT TCTGCACATC TTCCTGCTGG CCATCACTCA 
    GAGCCTGCTA AGCCAGTCCA TTCTCAGAGC CAGCCCAACT TTTCTAGTTA CTCTTCAAAG 
    GGAAAACCCG AAACTGATGC TGTGGATAGA TCATTCAGTG AGAAACGTTA TGATCCAGCC 
    CAGGCCACGC CTCCTCCTCC TCCGTTGCCC TCACAGTACA GCCAGCCAGC TCCCCCTCTG 
    TCCAGCTCTT CTCTCCACAT ACATTCCAAG GGCGCCCAGG GCGAAGGCAA TTCAGTATCA 
    TTGGATTTTC AGAACTCATA TATGTCCAAA CCAGACCCAC CCCCATCTCA GAGTAAACCA 
    GCAACTTTCA GACCACCAAC CCGAGAAGAC CCTCCTCAGA CTTTCTATCC CCAGAAANGT 
    TTCCCAGACA AAGCTCCAGT TAANGGAGCT GAGCAGACTC AGAAAACCAT CACTCCAGTG 
    TACAATCGAT TCACACCAAA GCCGTACACA AGTTCTGCCC GGCCGTTTGA ACGCAAATTT 
    GAAAGTCCGA AGTTCAACCA TAATCTTCTG CCAAGTGAAA CTGTACATAA ACCTGAATTG 
    TCTTCAAAAA CTCCCACTTC TCCAAAAACT CTTATGAAAG CTCATAGTTC AACACAGCCT 
    CCAGAGTTTG ACAGTGGAGT TGAAACTTTC TCTGTTCACA CAGATNAGCC TAAATATCAA 
    ATGAATAATA TCAGCACCAT GCCTAAAGCT GTCCCTGTGA GTCCTTCAGC TGTGGAAGAA 
    GATGAAGATG AGGATGGTCA TACTGTAGTG GCTACAGCTC GTGGCATTTT TAACAGCAAT 
    GGTGGTGTGT TGAGTTCCAT AGAAACCGGT GTTAGTATAA TTATCCCACA AGGAGCCATT 
    CCTGAAGGAA TTGAACAAGA AATCTATTTC AAAGTCTGCA GAGACAATAG CATTCTCCCA 
    CCTTTAGATA AAGAGAAAGG TGAAACTCTG CTAAGTCCCC TAGTGATGTG TGGGCCCCAT 
    GGCCTCAAGT TCCTGAAGCC CGTGGAGCTG CGCTTGCCAC ACTGTGACCC TAAAACCTGG 
    CAAAACAAGT GTCTTCCTGG AGATCCGAAT TACCTTGTTG GAGCCAACTG TGTTTCTGTC 
    CTGATTGACC ACTTTTAA

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

    Tjp1 ( XM_021166165.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021021824.1 Mus caroli tight junction protein 1 (Tjp1), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OMv03979
    Clone ID Related Accession (Same CDS sequence) XM_021166165.1 , XM_021166165.2
    Accession Version XM_021166165.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5238bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    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_034576.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021166165.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGTCCACCA GGGCCGCGGC CGCTAAGAGC ACAGCAATGG AGGAAACGGC TATATGGGAA 
    CAGCACACAG TGATGCTTCA CAGGGCTCCT GGGTTTGGAT TTGGAATTGC AATCTCTGGT 
    GGAAGAGATA ATCCTCATTT TCAGAGTGGG GAAACCTCCA TAGTGATTTC TGATGTGCTA 
    AAAGGAGGGC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAATGGA 
    GTTTCAATGG ATAACGTTGA ACATGCTTTT GCTGTTCAGC AGCTAAGGAA AAGTGGGAAA 
    AACGCAAAAA TTACTATGCG AAGGAAGAAG AAAGTTCAGA TCCCTGTAAG TCACCCAGAT 
    CCTGAGCCGG TGTCTGATAA TGAAGATGAT AGCTACGACG AAGAAGTACA TGATCCAAGA 
    GCTGGCCGCA GTGCTTTAGC GAACAGAAGG AGCGAGAAGA GCTGGGCAAG GGATAGGAGT 
    GCAAGCAGGG AGAGGAGCCT GTCCCCTCGC TCGGACAGGC GGTCGGTGGC CTCCAGTCAG 
    CCCGCAAAAC CCACCAAGGT CGCACTGGTG AAGTCTCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCCA GCCATATATT TGTAAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGTAACATTC AAGAAGGGGA TGTTGTCTTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAAAC ACTGATAGAA AGGTCTAAAG GCAAGTTAAA AATGGTAGTG 
    CAAAGAGATG AGCGGGCTAC CTTACTGAAC GTCCCTGACC TTTCGGATAG TATCCATTCT 
    GCTAATGCCT CGGAAAGAGA TGACATTTCA GAAATTCAGT CACTAGCATC AGACCATTCA 
    GGTCGCTCGC ATGACAGGCC ACCCCGCCGC AGCCAGTCAC GATCTCCTGA CCAACGTTCA 
    GAGCCCTCCG ATCATTCCAC ACAGTCTCCA CAGCAGCCCA GCAATGGCAG TCTCCGGAGC 
    AGAGAGCAAG AGCGAATGTC TAAACCTGGG GCCATCTCAA CTCCTGTAAA ACATGCAGAT 
    GATCATACAC CCAAAGCAGT GGAAGAAGTT ACAGTTGAGA AAAATGAGAA GCAGACACCC 
    ACTCTTCCAG AACCGAAGCC TGTATATGCT CAAGTTGGAC AACCAGATGT GGATTTACCC 
    GTCAGCCCTT CTGATGGTGT TCTGCCTAAT TCAACTCATG AAGATGGGAT ACTTAGGCCC 
    AGCATGAAAC TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGACT AGCTGGTGGA 
    AATGATGTCG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAAGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTG AACAATGTAG ATTTCACAAA TATCATAAGA 
    GAAGAGGCTG TCCTTTTCCT CCTTGACCTC CCTAAAGGTG AAGAAGTGAC CATCCTGGCT 
    CAGAAGAAGA AGGGTGTTTA TCGCCGCATT GTAGAATCAG ATGTAGGAGA TTCATTCTAT 
    ATTAGAACGC ATTTTGAGTA TGAAAAAGAA TCTCCTTACG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GGGTCGTGGA TACTTTATAC AATGGAAAGC TGGGCTCTTG GCTTGCCATT 
    CGAATTGGCA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGTTAG CCAGTGTACA GTACACACTT CCAAAGACAG CGGGTGGTGA TCGGGCAGAC 
    TTCTGGAGGT TTCGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAC 
    TTGTCAGCTC AGCCAGTTCA AACTAAGTTC CCAGCTTATG AAAGGGTTGT TCTTCGAGAA 
    GCTGGATTCC TAAGACCTGT AACCATCTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    TTGGCAAGAG AGGAACCAGA TATCTATCAG ATTGCAAAAA GTGAACCACG AGATGCTGGG 
    ACTGACCATC GTAGCTCTGG CATCATTCGC CTTCATACAA TAAAGCAAAT CATAGATCAG 
    GATAAACATG CGTTATTAGA TGTAACGCCA AATGCGGTTG ATCGTCTTAA TTATGCGCAG 
    TGGTATCCAA TTGTTGTGTT CCTTAACCCT GACTCTAAGC AAGGTGTAAA AACAATGAGG 
    ATGAGGTTAT GTCCGGAGTC TCGGAAAAGC GCCAGGAAGC TATATGAACG CTCTCATAAG 
    CTTCGCAAAA ACAATCACCA CCTTTTCACA ACTACAATTA ACTTAAACTC AATGAATGAT 
    GGTTGGTACG GTGCCCTGAA AGAAGCCATT CAGCAGCAAC AGAACCAGCT GGTGTGGGTC 
    TCTGAGGGGA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCCCCAGG TAGTGAGTAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA TACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTGGG GACTCCCCCG GAGTCTGCCA TTACACNGTC CTCTGAGCCT 
    GTAAGAGAGG ATTCCTCTGG GATGCATCAT GAAAACCAGA CCTATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAAGCTAT TCATAGACTA GACTCCCCTG GACTTAAGCC AGCCTCTCAA 
    CAGAAAGCAG AAGCCTCATC TCCAGTCCCT TACCTTTCGC CTGAAACAAA CCCAGCATCG 
    TCAGCCTCTG CAGTTAATCC TAATGTCAGT GTAACTAATG TCAGCCTGGA GGAGCCTGCC 
    CCAGCCCCTC CCGCCTCGCA CGCATCCCAG GCTGGTGGTT TAGGAGCACC AGGTGCTGAG 
    GCAGCTCACG TAGTGCTCAG AGGTGAAGGA CCACCATTGC CGCCGCATGC AGACCCAGCA 
    CAGGTGTATA GAAAGGAGCC GTATCCTGAA GAAATGATGA GACAAAACCA TATTTTAAAA 
    CAACCAGCTC TTGGTCACCC AGGGCAGAGG CCAGATAAAG AGCCAAATCT AGCCTATGAA 
    CCCCAACTTC CATATANAGA AAAACAAGCC AGCAGAGACC TTGAACAGCC GTCATACAGG 
    TATGAGGCCT CAAGCTACCC AGACCAGTTT TCTCGGAACT ATGACCATCG CCTACGGTTT 
    GAAGATCGAA TCCCTACCTA TGAAGACCAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CAACCTCGGC CTTTTGAGAA TCAGCATCCC CGAGACCTGG ACTCCAGACA ACATCCNGAG 
    GAGGCTTCAG AACGAGGTTA TNTCCAGCGT TTTGAAGAGC CAGCCCCTCT GTCATACGAC 
    AGTAGAACAC GCTATGAGCA GCTGCCTCGA ACCTCTACTC TACGACATGA AGAGCAGCCA 
    GCCCCTGCAT ATGAGGTGCA CAACAGGTAC AGGCCAGAGG CACAGCCCTA TTCTTCAACA 
    GGTCCTAAGT CATCTGAGCC CAAGCAGTAC TTTGACCAGT ACCCGCGAAG TTATGAGCAA 
    GTACCACCAC CAGGCTTTAC CTCCAAAACA GGCCATTACG AGCCTCTCCA TGGTGCTGCA 
    GTTGTCCCTC CTCTGATACC TTCCTCTCAA CATAAGCCAG AAGTCCTGCC CTCGGCTACC 
    AAACCACAGC CTCCACCCCC AACCCTAACT GAGGAGGAGG AGGATCCAGC AATGAAACCA 
    CAGTCCGTGC TCANCAGAGT CAAAATGTTT GAAAACAAAA GATCTGCGTC TTTGGAGAAC 
    AAGAAAGATG TGAATGACAC TGCCAGCTTT AAGCCTCCAG AAGTAGCATC TAAACCTCCA 
    AGTGCTTCTC TTGCTGGCCC TAAACCTGTT CCTCAGAGTC AGTTTAGTGA GCANGACAAA 
    ACACTCTACA GGCTCCCAGA GCCTCAGAAA CCTCAAGTGA AGCCACCCGA NGATATTGTT 
    CGATCAAATC ATTACGACCC TGAAGAGGAT GAAGAATATT ACAGGAAACA GCTCTCTTAC 
    TTTGANCGAA GAAGTTTTGA GAGCAAGCCT TCTGCACATC TTCCTGCTGG CCATCACTCA 
    GAGCCTGCTA AGCCAGTCCA TTCTCAGAGC CAGCCCAACT TTTCTAGTTA CTCTTCAAAG 
    GGAAAACCCG AAACTGATGC TGTGGATAGA TCATTCAGTG AGAAACGTTA TGATCCAGCC 
    CAGGCCACGC CTCCTCCTCC TCCGTTGCCC TCACAGTACA GCCAGCCAGC TCCCCCTCTG 
    TCCAGCTCTT CTCTCCACAT ACATTCCAAG GGCGCCCAGG GCGAAGGCAA TTCAGTATCA 
    TTGGATTTTC AGAACTCATA TATGTCCAAA CCAGACCCAC CCCCATCTCA GAGTAAACCA 
    GCAACTTTCA GACCACCAAC CCGAGAAGAC CCTCCTCAGA CTTTCTATCC CCAGAAANGT 
    TTCCCAGACA AAGCTCCAGT TAANGGAGCT GAGCAGACTC AGAAAACCAT CACTCCAGTG 
    TACAATCGAT TCACACCAAA GCCGTACACA AGTTCTGCCC GGCCGTTTGA ACGCAAATTT 
    GAAAGTCCGA AGTTCAACCA TAATCTTCTG CCAAGTGAAA CTGTACATAA ACCTGAATTG 
    TCTTCAAAAA CTCCCACTTC TCCAAAAACT CTTATGAAAG CTCATAGTTC AACACAGCCT 
    CCAGAGTTTG ACAGTGGAGT TGAAACTTTC TCTGTTCACA CAGATNAGCC TAAATATCAA 
    ATGAATAATA TCAGCACCAT GCCTAAAGCT GTCCCTGTGA GTCCTTCAGC TGTGGAAGAA 
    GATGAAGATG AGGATGGTCA TACTGTAGTG GCTACAGCTC GTGGCATTTT TAACAGCAAT 
    GGTGGTGTGT TGAGTTCCAT AGAAACCGGT GTTAGTATAA TTATCCCACA AGGAGCCATT 
    CCTGAAGGAA TTGAACAAGA AATCTATTTC AAAGTCTGCA GAGACAATAG CATTCTCCCA 
    CCTTTAGATA AAGAGAAAGG TGAAACTCTG CTAAGTCCCC TAGTGATGTG TGGGCCCCAT 
    GGCCTCAAGT TCCTGAAGCC CGTGGAGCTG CGCTTGCCAC ACTGTGACCC TAAAACCTGG 
    CAAAACAAGT GTCTTCCTGG AGATCCGAAT TACCTTGTTG GAGCCAACTG TGTTTCTGTC 
    CTGATTGACC ACTTTTAA

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

    RefSeq XP_021021824.1
    CDS65..5302
    Translation

    Target ORF information:

    RefSeq Version XM_021166165.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli 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_021166165.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    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
    ATGTCCACCA GGGCCGCGGC CGCTAAGAGC ACAGCAATGG AGGAAACGGC TATATGGGAA 
    CAGCACACAG TGATGCTTCA CAGGGCTCCT GGGTTTGGAT TTGGAATTGC AATCTCTGGT 
    GGAAGAGATA ATCCTCATTT TCAGAGTGGG GAAACCTCCA TAGTGATTTC TGATGTGCTA 
    AAAGGAGGGC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAATGGA 
    GTTTCAATGG ATAACGTTGA ACATGCTTTT GCTGTTCAGC AGCTAAGGAA AAGTGGGAAA 
    AACGCAAAAA TTACTATGCG AAGGAAGAAG AAAGTTCAGA TCCCTGTAAG TCACCCAGAT 
    CCTGAGCCGG TGTCTGATAA TGAAGATGAT AGCTACGACG AAGAAGTACA TGATCCAAGA 
    GCTGGCCGCA GTGCTTTAGC GAACAGAAGG AGCGAGAAGA GCTGGGCAAG GGATAGGAGT 
    GCAAGCAGGG AGAGGAGCCT GTCCCCTCGC TCGGACAGGC GGTCGGTGGC CTCCAGTCAG 
    CCCGCAAAAC CCACCAAGGT CGCACTGGTG AAGTCTCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCCA GCCATATATT TGTAAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGTAACATTC AAGAAGGGGA TGTTGTCTTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAAAC ACTGATAGAA AGGTCTAAAG GCAAGTTAAA AATGGTAGTG 
    CAAAGAGATG AGCGGGCTAC CTTACTGAAC GTCCCTGACC TTTCGGATAG TATCCATTCT 
    GCTAATGCCT CGGAAAGAGA TGACATTTCA GAAATTCAGT CACTAGCATC AGACCATTCA 
    GGTCGCTCGC ATGACAGGCC ACCCCGCCGC AGCCAGTCAC GATCTCCTGA CCAACGTTCA 
    GAGCCCTCCG ATCATTCCAC ACAGTCTCCA CAGCAGCCCA GCAATGGCAG TCTCCGGAGC 
    AGAGAGCAAG AGCGAATGTC TAAACCTGGG GCCATCTCAA CTCCTGTAAA ACATGCAGAT 
    GATCATACAC CCAAAGCAGT GGAAGAAGTT ACAGTTGAGA AAAATGAGAA GCAGACACCC 
    ACTCTTCCAG AACCGAAGCC TGTATATGCT CAAGTTGGAC AACCAGATGT GGATTTACCC 
    GTCAGCCCTT CTGATGGTGT TCTGCCTAAT TCAACTCATG AAGATGGGAT ACTTAGGCCC 
    AGCATGAAAC TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGACT AGCTGGTGGA 
    AATGATGTCG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAAGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTG AACAATGTAG ATTTCACAAA TATCATAAGA 
    GAAGAGGCTG TCCTTTTCCT CCTTGACCTC CCTAAAGGTG AAGAAGTGAC CATCCTGGCT 
    CAGAAGAAGA AGGGTGTTTA TCGCCGCATT GTAGAATCAG ATGTAGGAGA TTCATTCTAT 
    ATTAGAACGC ATTTTGAGTA TGAAAAAGAA TCTCCTTACG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GGGTCGTGGA TACTTTATAC AATGGAAAGC TGGGCTCTTG GCTTGCCATT 
    CGAATTGGCA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGTTAG CCAGTGTACA GTACACACTT CCAAAGACAG CGGGTGGTGA TCGGGCAGAC 
    TTCTGGAGGT TTCGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAC 
    TTGTCAGCTC AGCCAGTTCA AACTAAGTTC CCAGCTTATG AAAGGGTTGT TCTTCGAGAA 
    GCTGGATTCC TAAGACCTGT AACCATCTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    TTGGCAAGAG AGGAACCAGA TATCTATCAG ATTGCAAAAA GTGAACCACG AGATGCTGGG 
    ACTGACCATC GTAGCTCTGG CATCATTCGC CTTCATACAA TAAAGCAAAT CATAGATCAG 
    GATAAACATG CGTTATTAGA TGTAACGCCA AATGCGGTTG ATCGTCTTAA TTATGCGCAG 
    TGGTATCCAA TTGTTGTGTT CCTTAACCCT GACTCTAAGC AAGGTGTAAA AACAATGAGG 
    ATGAGGTTAT GTCCGGAGTC TCGGAAAAGC GCCAGGAAGC TATATGAACG CTCTCATAAG 
    CTTCGCAAAA ACAATCACCA CCTTTTCACA ACTACAATTA ACTTAAACTC AATGAATGAT 
    GGTTGGTACG GTGCCCTGAA AGAAGCCATT CAGCAGCAAC AGAACCAGCT GGTGTGGGTC 
    TCTGAGGGGA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCCCCAGG TAGTGAGTAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA TACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTGGG GACTCCCCCG GAGTCTGCCA TTACACNGTC CTCTGAGCCT 
    GTAAGAGAGG ATTCCTCTGG GATGCATCAT GAAAACCAGA CCTATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAAGCTAT TCATAGACTA GACTCCCCTG GACTTAAGCC AGCCTCTCAA 
    CAGAAAGCAG AAGCCTCATC TCCAGTCCCT TACCTTTCGC CTGAAACAAA CCCAGCATCG 
    TCAGCCTCTG CAGTTAATCC TAATGTCAGT GTAACTAATG TCAGCCTGGA GGAGCCTGCC 
    CCAGCCCCTC CCGCCTCGCA CGCATCCCAG GCTGGTGGTT TAGGAGCACC AGGTGCTGAG 
    GCAGCTCACG TAGTGCTCAG AGGTGAAGGA CCACCATTGC CGCCGCATGC AGACCCAGCA 
    CAGGTGTATA GAAAGGAGCC GTATCCTGAA GAAATGATGA GACAAAACCA TATTTTAAAA 
    CAACCAGCTC TTGGTCACCC AGGGCAGAGG CCAGATAAAG AGCCAAATCT AGCCTATGAA 
    CCCCAACTTC CATATANAGA AAAACAAGCC AGCAGAGACC TTGAACAGCC GTCATACAGG 
    TATGAGGCCT CAAGCTACCC AGACCAGTTT TCTCGGAACT ATGACCATCG CCTACGGTTT 
    GAAGATCGAA TCCCTACCTA TGAAGACCAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CAACCTCGGC CTTTTGAGAA TCAGCATCCC CGAGACCTGG ACTCCAGACA ACATCCNGAG 
    GAGGCTTCAG AACGAGGTTA TNTCCAGCGT TTTGAAGAGC CAGCCCCTCT GTCATACGAC 
    AGTAGAACAC GCTATGAGCA GCTGCCTCGA ACCTCTACTC TACGACATGA AGAGCAGCCA 
    GCCCCTGCAT ATGAGGTGCA CAACAGGTAC AGGCCAGAGG CACAGCCCTA TTCTTCAACA 
    GGTCCTAAGT CATCTGAGCC CAAGCAGTAC TTTGACCAGT ACCCGCGAAG TTATGAGCAA 
    GTACCACCAC CAGGCTTTAC CTCCAAAACA GGCCATTACG AGCCTCTCCA TGGTGCTGCA 
    GTTGTCCCTC CTCTGATACC TTCCTCTCAA CATAAGCCAG AAGTCCTGCC CTCGGCTACC 
    AAACCACAGC CTCCACCCCC AACCCTAACT GAGGAGGAGG AGGATCCAGC AATGAAACCA 
    CAGTCCGTGC TCANCAGAGT CAAAATGTTT GAAAACAAAA GATCTGCGTC TTTGGAGAAC 
    AAGAAAGATG TGAATGACAC TGCCAGCTTT AAGCCTCCAG AAGTAGCATC TAAACCTCCA 
    AGTGCTTCTC TTGCTGGCCC TAAACCTGTT CCTCAGAGTC AGTTTAGTGA GCANGACAAA 
    ACACTCTACA GGCTCCCAGA GCCTCAGAAA CCTCAAGTGA AGCCACCCGA NGATATTGTT 
    CGATCAAATC ATTACGACCC TGAAGAGGAT GAAGAATATT ACAGGAAACA GCTCTCTTAC 
    TTTGANCGAA GAAGTTTTGA GAGCAAGCCT TCTGCACATC TTCCTGCTGG CCATCACTCA 
    GAGCCTGCTA AGCCAGTCCA TTCTCAGAGC CAGCCCAACT TTTCTAGTTA CTCTTCAAAG 
    GGAAAACCCG AAACTGATGC TGTGGATAGA TCATTCAGTG AGAAACGTTA TGATCCAGCC 
    CAGGCCACGC CTCCTCCTCC TCCGTTGCCC TCACAGTACA GCCAGCCAGC TCCCCCTCTG 
    TCCAGCTCTT CTCTCCACAT ACATTCCAAG GGCGCCCAGG GCGAAGGCAA TTCAGTATCA 
    TTGGATTTTC AGAACTCATA TATGTCCAAA CCAGACCCAC CCCCATCTCA GAGTAAACCA 
    GCAACTTTCA GACCACCAAC CCGAGAAGAC CCTCCTCAGA CTTTCTATCC CCAGAAANGT 
    TTCCCAGACA AAGCTCCAGT TAANGGAGCT GAGCAGACTC AGAAAACCAT CACTCCAGTG 
    TACAATCGAT TCACACCAAA GCCGTACACA AGTTCTGCCC GGCCGTTTGA ACGCAAATTT 
    GAAAGTCCGA AGTTCAACCA TAATCTTCTG CCAAGTGAAA CTGTACATAA ACCTGAATTG 
    TCTTCAAAAA CTCCCACTTC TCCAAAAACT CTTATGAAAG CTCATAGTTC AACACAGCCT 
    CCAGAGTTTG ACAGTGGAGT TGAAACTTTC TCTGTTCACA CAGATNAGCC TAAATATCAA 
    ATGAATAATA TCAGCACCAT GCCTAAAGCT GTCCCTGTGA GTCCTTCAGC TGTGGAAGAA 
    GATGAAGATG AGGATGGTCA TACTGTAGTG GCTACAGCTC GTGGCATTTT TAACAGCAAT 
    GGTGGTGTGT TGAGTTCCAT AGAAACCGGT GTTAGTATAA TTATCCCACA AGGAGCCATT 
    CCTGAAGGAA TTGAACAAGA AATCTATTTC AAAGTCTGCA GAGACAATAG CATTCTCCCA 
    CCTTTAGATA AAGAGAAAGG TGAAACTCTG CTAAGTCCCC TAGTGATGTG TGGGCCCCAT 
    GGCCTCAAGT TCCTGAAGCC CGTGGAGCTG CGCTTGCCAC ACTGTGACCC TAAAACCTGG 
    CAAAACAAGT GTCTTCCTGG AGATCCGAAT TACCTTGTTG GAGCCAACTG TGTTTCTGTC 
    CTGATTGACC ACTTTTAA

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

    Tjp1 ( XM_021166166.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021021825.1 Mus caroli tight junction protein 1 (Tjp1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OMv03980
    Clone ID Related Accession (Same CDS sequence) XM_021166166.1 , XM_021166166.2
    Accession Version XM_021166166.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5058bp)
    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 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    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_034576.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGTCCACCA GGGCCGCGGC CGCTAAGAGC ACAGCAATGG AGGAAACGGC TATATGGGAA 
    CAGCACACAG TGATGCTTCA CAGGGCTCCT GGGTTTGGAT TTGGAATTGC AATCTCTGGT 
    GGAAGAGATA ATCCTCATTT TCAGAGTGGG GAAACCTCCA TAGTGATTTC TGATGTGCTA 
    AAAGGAGGGC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAATGGA 
    GTTTCAATGG ATAACGTTGA ACATGCTTTT GCTGTTCAGC AGCTAAGGAA AAGTGGGAAA 
    AACGCAAAAA TTACTATGCG AAGGAAGAAG AAAGTTCAGA TCCCTGTAAG TCACCCAGAT 
    CCTGAGCCGG TGTCTGATAA TGAAGATGAT AGCTACGACG AAGAAGTACA TGATCCAAGA 
    GCTGGCCGCA GTGCTTTAGC GAACAGAAGG AGCGAGAAGA GCTGGGCAAG GGATAGGAGT 
    GCAAGCAGGG AGAGGAGCCT GTCCCCTCGC TCGGACAGGC GGTCGGTGGC CTCCAGTCAG 
    CCCGCAAAAC CCACCAAGGT CGCACTGGTG AAGTCTCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCCA GCCATATATT TGTAAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGTAACATTC AAGAAGGGGA TGTTGTCTTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAAAC ACTGATAGAA AGGTCTAAAG GCAAGTTAAA AATGGTAGTG 
    CAAAGAGATG AGCGGGCTAC CTTACTGAAC GTCCCTGACC TTTCGGATAG TATCCATTCT 
    GCTAATGCCT CGGAAAGAGA TGACATTTCA GAAATTCAGT CACTAGCATC AGACCATTCA 
    GGTCGCTCGC ATGACAGGCC ACCCCGCCGC AGCCAGTCAC GATCTCCTGA CCAACGTTCA 
    GAGCCCTCCG ATCATTCCAC ACAGTCTCCA CAGCAGCCCA GCAATGGCAG TCTCCGGAGC 
    AGAGAGCAAG AGCGAATGTC TAAACCTGGG GCCATCTCAA CTCCTGTAAA ACATGCAGAT 
    GATCATACAC CCAAAGCAGT GGAAGAAGTT ACAGTTGAGA AAAATGAGAA GCAGACACCC 
    ACTCTTCCAG AACCGAAGCC TGTATATGCT CAAGTTGGAC AACCAGATGT GGATTTACCC 
    GTCAGCCCTT CTGATGGTGT TCTGCCTAAT TCAACTCATG AAGATGGGAT ACTTAGGCCC 
    AGCATGAAAC TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGACT AGCTGGTGGA 
    AATGATGTCG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAAGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTG AACAATGTAG ATTTCACAAA TATCATAAGA 
    GAAGAGGCTG TCCTTTTCCT CCTTGACCTC CCTAAAGGTG AAGAAGTGAC CATCCTGGCT 
    CAGAAGAAGA AGGGTGTTTA TCGCCGCATT GTAGAATCAG ATGTAGGAGA TTCATTCTAT 
    ATTAGAACGC ATTTTGAGTA TGAAAAAGAA TCTCCTTACG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GGGTCGTGGA TACTTTATAC AATGGAAAGC TGGGCTCTTG GCTTGCCATT 
    CGAATTGGCA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGTTAG CCAGTGTACA GTACACACTT CCAAAGACAG CGGGTGGTGA TCGGGCAGAC 
    TTCTGGAGGT TTCGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAC 
    TTGTCAGCTC AGCCAGTTCA AACTAAGTTC CCAGCTTATG AAAGGGTTGT TCTTCGAGAA 
    GCTGGATTCC TAAGACCTGT AACCATCTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    TTGGCAAGAG AGGAACCAGA TATCTATCAG ATTGCAAAAA GTGAACCACG AGATGCTGGG 
    ACTGACCATC GTAGCTCTGG CATCATTCGC CTTCATACAA TAAAGCAAAT CATAGATCAG 
    GATAAACATG CGTTATTAGA TGTAACGCCA AATGCGGTTG ATCGTCTTAA TTATGCGCAG 
    TGGTATCCAA TTGTTGTGTT CCTTAACCCT GACTCTAAGC AAGGTGTAAA AACAATGAGG 
    ATGAGGTTAT GTCCGGAGTC TCGGAAAAGC GCCAGGAAGC TATATGAACG CTCTCATAAG 
    CTTCGCAAAA ACAATCACCA CCTTTTCACA ACTACAATTA ACTTAAACTC AATGAATGAT 
    GGTTGGTACG GTGCCCTGAA AGAAGCCATT CAGCAGCAAC AGAACCAGCT GGTGTGGGTC 
    TCTGAGGGGA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCCCCAGG TAGTGAGTAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA TACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTGGG GACTCCCCCG GAGTCTGCCA TTACACNGTC CTCTGAGCCT 
    GTAAGAGAGG ATTCCTCTGG GATGCATCAT GAAAACCAGA CCTATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAAGCTAT TCATAGACTA GACTCCCCTG GACTTAAGCC AGCCTCTCAA 
    CAGGTGTATA GAAAGGAGCC GTATCCTGAA GAAATGATGA GACAAAACCA TATTTTAAAA 
    CAACCAGCTC TTGGTCACCC AGGGCAGAGG CCAGATAAAG AGCCAAATCT AGCCTATGAA 
    CCCCAACTTC CATATANAGA AAAACAAGCC AGCAGAGACC TTGAACAGCC GTCATACAGG 
    TATGAGGCCT CAAGCTACCC AGACCAGTTT TCTCGGAACT ATGACCATCG CCTACGGTTT 
    GAAGATCGAA TCCCTACCTA TGAAGACCAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CAACCTCGGC CTTTTGAGAA TCAGCATCCC CGAGACCTGG ACTCCAGACA ACATCCNGAG 
    GAGGCTTCAG AACGAGGTTA TNTCCAGCGT TTTGAAGAGC CAGCCCCTCT GTCATACGAC 
    AGTAGAACAC GCTATGAGCA GCTGCCTCGA ACCTCTACTC TACGACATGA AGAGCAGCCA 
    GCCCCTGCAT ATGAGGTGCA CAACAGGTAC AGGCCAGAGG CACAGCCCTA TTCTTCAACA 
    GGTCCTAAGT CATCTGAGCC CAAGCAGTAC TTTGACCAGT ACCCGCGAAG TTATGAGCAA 
    GTACCACCAC CAGGCTTTAC CTCCAAAACA GGCCATTACG AGCCTCTCCA TGGTGCTGCA 
    GTTGTCCCTC CTCTGATACC TTCCTCTCAA CATAAGCCAG AAGTCCTGCC CTCGGCTACC 
    AAACCACAGC CTCCACCCCC AACCCTAACT GAGGAGGAGG AGGATCCAGC AATGAAACCA 
    CAGTCCGTGC TCANCAGAGT CAAAATGTTT GAAAACAAAA GATCTGCGTC TTTGGAGAAC 
    AAGAAAGATG TGAATGACAC TGCCAGCTTT AAGCCTCCAG AAGTAGCATC TAAACCTCCA 
    AGTGCTTCTC TTGCTGGCCC TAAACCTGTT CCTCAGAGTC AGTTTAGTGA GCANGACAAA 
    ACACTCTACA GGCTCCCAGA GCCTCAGAAA CCTCAAGTGA AGCCACCCGA NGATATTGTT 
    CGATCAAATC ATTACGACCC TGAAGAGGAT GAAGAATATT ACAGGAAACA GCTCTCTTAC 
    TTTGANCGAA GAAGTTTTGA GAGCAAGCCT TCTGCACATC TTCCTGCTGG CCATCACTCA 
    GAGCCTGCTA AGCCAGTCCA TTCTCAGAGC CAGCCCAACT TTTCTAGTTA CTCTTCAAAG 
    GGAAAACCCG AAACTGATGC TGTGGATAGA TCATTCAGTG AGAAACGTTA TGATCCAGCC 
    CAGGCCACGC CTCCTCCTCC TCCGTTGCCC TCACAGTACA GCCAGCCAGC TCCCCCTCTG 
    TCCAGCTCTT CTCTCCACAT ACATTCCAAG GGCGCCCAGG GCGAAGGCAA TTCAGTATCA 
    TTGGATTTTC AGAACTCATA TATGTCCAAA CCAGACCCAC CCCCATCTCA GAGTAAACCA 
    GCAACTTTCA GACCACCAAC CCGAGAAGAC CCTCCTCAGA CTTTCTATCC CCAGAAANGT 
    TTCCCAGACA AAGCTCCAGT TAANGGAGCT GAGCAGACTC AGAAAACCAT CACTCCAGTG 
    TACAATCGAT TCACACCAAA GCCGTACACA AGTTCTGCCC GGCCGTTTGA ACGCAAATTT 
    GAAAGTCCGA AGTTCAACCA TAATCTTCTG CCAAGTGAAA CTGTACATAA ACCTGAATTG 
    TCTTCAAAAA CTCCCACTTC TCCAAAAACT CTTATGAAAG CTCATAGTTC AACACAGCCT 
    CCAGAGTTTG ACAGTGGAGT TGAAACTTTC TCTGTTCACA CAGATNAGCC TAAATATCAA 
    ATGAATAATA TCAGCACCAT GCCTAAAGCT GTCCCTGTGA GTCCTTCAGC TGTGGAAGAA 
    GATGAAGATG AGGATGGTCA TACTGTAGTG GCTACAGCTC GTGGCATTTT TAACAGCAAT 
    GGTGGTGTGT TGAGTTCCAT AGAAACCGGT GTTAGTATAA TTATCCCACA AGGAGCCATT 
    CCTGAAGGAA TTGAACAAGA AATCTATTTC AAAGTCTGCA GAGACAATAG CATTCTCCCA 
    CCTTTAGATA AAGAGAAAGG TGAAACTCTG CTAAGTCCCC TAGTGATGTG TGGGCCCCAT 
    GGCCTCAAGT TCCTGAAGCC CGTGGAGCTG CGCTTGCCAC ACTGTGCGTC CATGACTCCT 
    GACGGTTGGT CTTTTGCTCT AAAATCATCC GACTCCTCGT CGGGTGACCC TAAAACCTGG 
    CAAAACAAGT GTCTTCCTGG AGATCCGAAT TACCTTGTTG GAGCCAACTG TGTTTCTGTC 
    CTGATTGACC ACTTTTAA

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

    RefSeq XP_021021825.1
    CDS38..5095
    Translation

    Target ORF information:

    RefSeq Version XM_021166166.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli 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_021166166.1

    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
    ATGTCCACCA GGGCCGCGGC CGCTAAGAGC ACAGCAATGG AGGAAACGGC TATATGGGAA 
    CAGCACACAG TGATGCTTCA CAGGGCTCCT GGGTTTGGAT TTGGAATTGC AATCTCTGGT 
    GGAAGAGATA ATCCTCATTT TCAGAGTGGG GAAACCTCCA TAGTGATTTC TGATGTGCTA 
    AAAGGAGGGC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAATGGA 
    GTTTCAATGG ATAACGTTGA ACATGCTTTT GCTGTTCAGC AGCTAAGGAA AAGTGGGAAA 
    AACGCAAAAA TTACTATGCG AAGGAAGAAG AAAGTTCAGA TCCCTGTAAG TCACCCAGAT 
    CCTGAGCCGG TGTCTGATAA TGAAGATGAT AGCTACGACG AAGAAGTACA TGATCCAAGA 
    GCTGGCCGCA GTGCTTTAGC GAACAGAAGG AGCGAGAAGA GCTGGGCAAG GGATAGGAGT 
    GCAAGCAGGG AGAGGAGCCT GTCCCCTCGC TCGGACAGGC GGTCGGTGGC CTCCAGTCAG 
    CCCGCAAAAC CCACCAAGGT CGCACTGGTG AAGTCTCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCCA GCCATATATT TGTAAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGTAACATTC AAGAAGGGGA TGTTGTCTTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAAAC ACTGATAGAA AGGTCTAAAG GCAAGTTAAA AATGGTAGTG 
    CAAAGAGATG AGCGGGCTAC CTTACTGAAC GTCCCTGACC TTTCGGATAG TATCCATTCT 
    GCTAATGCCT CGGAAAGAGA TGACATTTCA GAAATTCAGT CACTAGCATC AGACCATTCA 
    GGTCGCTCGC ATGACAGGCC ACCCCGCCGC AGCCAGTCAC GATCTCCTGA CCAACGTTCA 
    GAGCCCTCCG ATCATTCCAC ACAGTCTCCA CAGCAGCCCA GCAATGGCAG TCTCCGGAGC 
    AGAGAGCAAG AGCGAATGTC TAAACCTGGG GCCATCTCAA CTCCTGTAAA ACATGCAGAT 
    GATCATACAC CCAAAGCAGT GGAAGAAGTT ACAGTTGAGA AAAATGAGAA GCAGACACCC 
    ACTCTTCCAG AACCGAAGCC TGTATATGCT CAAGTTGGAC AACCAGATGT GGATTTACCC 
    GTCAGCCCTT CTGATGGTGT TCTGCCTAAT TCAACTCATG AAGATGGGAT ACTTAGGCCC 
    AGCATGAAAC TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGACT AGCTGGTGGA 
    AATGATGTCG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAAGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTG AACAATGTAG ATTTCACAAA TATCATAAGA 
    GAAGAGGCTG TCCTTTTCCT CCTTGACCTC CCTAAAGGTG AAGAAGTGAC CATCCTGGCT 
    CAGAAGAAGA AGGGTGTTTA TCGCCGCATT GTAGAATCAG ATGTAGGAGA TTCATTCTAT 
    ATTAGAACGC ATTTTGAGTA TGAAAAAGAA TCTCCTTACG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GGGTCGTGGA TACTTTATAC AATGGAAAGC TGGGCTCTTG GCTTGCCATT 
    CGAATTGGCA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGTTAG CCAGTGTACA GTACACACTT CCAAAGACAG CGGGTGGTGA TCGGGCAGAC 
    TTCTGGAGGT TTCGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAC 
    TTGTCAGCTC AGCCAGTTCA AACTAAGTTC CCAGCTTATG AAAGGGTTGT TCTTCGAGAA 
    GCTGGATTCC TAAGACCTGT AACCATCTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    TTGGCAAGAG AGGAACCAGA TATCTATCAG ATTGCAAAAA GTGAACCACG AGATGCTGGG 
    ACTGACCATC GTAGCTCTGG CATCATTCGC CTTCATACAA TAAAGCAAAT CATAGATCAG 
    GATAAACATG CGTTATTAGA TGTAACGCCA AATGCGGTTG ATCGTCTTAA TTATGCGCAG 
    TGGTATCCAA TTGTTGTGTT CCTTAACCCT GACTCTAAGC AAGGTGTAAA AACAATGAGG 
    ATGAGGTTAT GTCCGGAGTC TCGGAAAAGC GCCAGGAAGC TATATGAACG CTCTCATAAG 
    CTTCGCAAAA ACAATCACCA CCTTTTCACA ACTACAATTA ACTTAAACTC AATGAATGAT 
    GGTTGGTACG GTGCCCTGAA AGAAGCCATT CAGCAGCAAC AGAACCAGCT GGTGTGGGTC 
    TCTGAGGGGA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCCCCAGG TAGTGAGTAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA TACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTGGG GACTCCCCCG GAGTCTGCCA TTACACNGTC CTCTGAGCCT 
    GTAAGAGAGG ATTCCTCTGG GATGCATCAT GAAAACCAGA CCTATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAAGCTAT TCATAGACTA GACTCCCCTG GACTTAAGCC AGCCTCTCAA 
    CAGGTGTATA GAAAGGAGCC GTATCCTGAA GAAATGATGA GACAAAACCA TATTTTAAAA 
    CAACCAGCTC TTGGTCACCC AGGGCAGAGG CCAGATAAAG AGCCAAATCT AGCCTATGAA 
    CCCCAACTTC CATATANAGA AAAACAAGCC AGCAGAGACC TTGAACAGCC GTCATACAGG 
    TATGAGGCCT CAAGCTACCC AGACCAGTTT TCTCGGAACT ATGACCATCG CCTACGGTTT 
    GAAGATCGAA TCCCTACCTA TGAAGACCAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CAACCTCGGC CTTTTGAGAA TCAGCATCCC CGAGACCTGG ACTCCAGACA ACATCCNGAG 
    GAGGCTTCAG AACGAGGTTA TNTCCAGCGT TTTGAAGAGC CAGCCCCTCT GTCATACGAC 
    AGTAGAACAC GCTATGAGCA GCTGCCTCGA ACCTCTACTC TACGACATGA AGAGCAGCCA 
    GCCCCTGCAT ATGAGGTGCA CAACAGGTAC AGGCCAGAGG CACAGCCCTA TTCTTCAACA 
    GGTCCTAAGT CATCTGAGCC CAAGCAGTAC TTTGACCAGT ACCCGCGAAG TTATGAGCAA 
    GTACCACCAC CAGGCTTTAC CTCCAAAACA GGCCATTACG AGCCTCTCCA TGGTGCTGCA 
    GTTGTCCCTC CTCTGATACC TTCCTCTCAA CATAAGCCAG AAGTCCTGCC CTCGGCTACC 
    AAACCACAGC CTCCACCCCC AACCCTAACT GAGGAGGAGG AGGATCCAGC AATGAAACCA 
    CAGTCCGTGC TCANCAGAGT CAAAATGTTT GAAAACAAAA GATCTGCGTC TTTGGAGAAC 
    AAGAAAGATG TGAATGACAC TGCCAGCTTT AAGCCTCCAG AAGTAGCATC TAAACCTCCA 
    AGTGCTTCTC TTGCTGGCCC TAAACCTGTT CCTCAGAGTC AGTTTAGTGA GCANGACAAA 
    ACACTCTACA GGCTCCCAGA GCCTCAGAAA CCTCAAGTGA AGCCACCCGA NGATATTGTT 
    CGATCAAATC ATTACGACCC TGAAGAGGAT GAAGAATATT ACAGGAAACA GCTCTCTTAC 
    TTTGANCGAA GAAGTTTTGA GAGCAAGCCT TCTGCACATC TTCCTGCTGG CCATCACTCA 
    GAGCCTGCTA AGCCAGTCCA TTCTCAGAGC CAGCCCAACT TTTCTAGTTA CTCTTCAAAG 
    GGAAAACCCG AAACTGATGC TGTGGATAGA TCATTCAGTG AGAAACGTTA TGATCCAGCC 
    CAGGCCACGC CTCCTCCTCC TCCGTTGCCC TCACAGTACA GCCAGCCAGC TCCCCCTCTG 
    TCCAGCTCTT CTCTCCACAT ACATTCCAAG GGCGCCCAGG GCGAAGGCAA TTCAGTATCA 
    TTGGATTTTC AGAACTCATA TATGTCCAAA CCAGACCCAC CCCCATCTCA GAGTAAACCA 
    GCAACTTTCA GACCACCAAC CCGAGAAGAC CCTCCTCAGA CTTTCTATCC CCAGAAANGT 
    TTCCCAGACA AAGCTCCAGT TAANGGAGCT GAGCAGACTC AGAAAACCAT CACTCCAGTG 
    TACAATCGAT TCACACCAAA GCCGTACACA AGTTCTGCCC GGCCGTTTGA ACGCAAATTT 
    GAAAGTCCGA AGTTCAACCA TAATCTTCTG CCAAGTGAAA CTGTACATAA ACCTGAATTG 
    TCTTCAAAAA CTCCCACTTC TCCAAAAACT CTTATGAAAG CTCATAGTTC AACACAGCCT 
    CCAGAGTTTG ACAGTGGAGT TGAAACTTTC TCTGTTCACA CAGATNAGCC TAAATATCAA 
    ATGAATAATA TCAGCACCAT GCCTAAAGCT GTCCCTGTGA GTCCTTCAGC TGTGGAAGAA 
    GATGAAGATG AGGATGGTCA TACTGTAGTG GCTACAGCTC GTGGCATTTT TAACAGCAAT 
    GGTGGTGTGT TGAGTTCCAT AGAAACCGGT GTTAGTATAA TTATCCCACA AGGAGCCATT 
    CCTGAAGGAA TTGAACAAGA AATCTATTTC AAAGTCTGCA GAGACAATAG CATTCTCCCA 
    CCTTTAGATA AAGAGAAAGG TGAAACTCTG CTAAGTCCCC TAGTGATGTG TGGGCCCCAT 
    GGCCTCAAGT TCCTGAAGCC CGTGGAGCTG CGCTTGCCAC ACTGTGCGTC CATGACTCCT 
    GACGGTTGGT CTTTTGCTCT AAAATCATCC GACTCCTCGT CGGGTGACCC TAAAACCTGG 
    CAAAACAAGT GTCTTCCTGG AGATCCGAAT TACCTTGTTG GAGCCAACTG TGTTTCTGTC 
    CTGATTGACC ACTTTTAA

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

    Tjp1 ( XM_021166166.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021021825.1 Mus caroli tight junction protein 1 (Tjp1), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OMv03980
    Clone ID Related Accession (Same CDS sequence) XM_021166166.1 , XM_021166166.2
    Accession Version XM_021166166.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5058bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    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_034576.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021166166.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGTCCACCA GGGCCGCGGC CGCTAAGAGC ACAGCAATGG AGGAAACGGC TATATGGGAA 
    CAGCACACAG TGATGCTTCA CAGGGCTCCT GGGTTTGGAT TTGGAATTGC AATCTCTGGT 
    GGAAGAGATA ATCCTCATTT TCAGAGTGGG GAAACCTCCA TAGTGATTTC TGATGTGCTA 
    AAAGGAGGGC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAATGGA 
    GTTTCAATGG ATAACGTTGA ACATGCTTTT GCTGTTCAGC AGCTAAGGAA AAGTGGGAAA 
    AACGCAAAAA TTACTATGCG AAGGAAGAAG AAAGTTCAGA TCCCTGTAAG TCACCCAGAT 
    CCTGAGCCGG TGTCTGATAA TGAAGATGAT AGCTACGACG AAGAAGTACA TGATCCAAGA 
    GCTGGCCGCA GTGCTTTAGC GAACAGAAGG AGCGAGAAGA GCTGGGCAAG GGATAGGAGT 
    GCAAGCAGGG AGAGGAGCCT GTCCCCTCGC TCGGACAGGC GGTCGGTGGC CTCCAGTCAG 
    CCCGCAAAAC CCACCAAGGT CGCACTGGTG AAGTCTCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCCA GCCATATATT TGTAAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGTAACATTC AAGAAGGGGA TGTTGTCTTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAAAC ACTGATAGAA AGGTCTAAAG GCAAGTTAAA AATGGTAGTG 
    CAAAGAGATG AGCGGGCTAC CTTACTGAAC GTCCCTGACC TTTCGGATAG TATCCATTCT 
    GCTAATGCCT CGGAAAGAGA TGACATTTCA GAAATTCAGT CACTAGCATC AGACCATTCA 
    GGTCGCTCGC ATGACAGGCC ACCCCGCCGC AGCCAGTCAC GATCTCCTGA CCAACGTTCA 
    GAGCCCTCCG ATCATTCCAC ACAGTCTCCA CAGCAGCCCA GCAATGGCAG TCTCCGGAGC 
    AGAGAGCAAG AGCGAATGTC TAAACCTGGG GCCATCTCAA CTCCTGTAAA ACATGCAGAT 
    GATCATACAC CCAAAGCAGT GGAAGAAGTT ACAGTTGAGA AAAATGAGAA GCAGACACCC 
    ACTCTTCCAG AACCGAAGCC TGTATATGCT CAAGTTGGAC AACCAGATGT GGATTTACCC 
    GTCAGCCCTT CTGATGGTGT TCTGCCTAAT TCAACTCATG AAGATGGGAT ACTTAGGCCC 
    AGCATGAAAC TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGACT AGCTGGTGGA 
    AATGATGTCG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAAGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTG AACAATGTAG ATTTCACAAA TATCATAAGA 
    GAAGAGGCTG TCCTTTTCCT CCTTGACCTC CCTAAAGGTG AAGAAGTGAC CATCCTGGCT 
    CAGAAGAAGA AGGGTGTTTA TCGCCGCATT GTAGAATCAG ATGTAGGAGA TTCATTCTAT 
    ATTAGAACGC ATTTTGAGTA TGAAAAAGAA TCTCCTTACG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GGGTCGTGGA TACTTTATAC AATGGAAAGC TGGGCTCTTG GCTTGCCATT 
    CGAATTGGCA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGTTAG CCAGTGTACA GTACACACTT CCAAAGACAG CGGGTGGTGA TCGGGCAGAC 
    TTCTGGAGGT TTCGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAC 
    TTGTCAGCTC AGCCAGTTCA AACTAAGTTC CCAGCTTATG AAAGGGTTGT TCTTCGAGAA 
    GCTGGATTCC TAAGACCTGT AACCATCTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    TTGGCAAGAG AGGAACCAGA TATCTATCAG ATTGCAAAAA GTGAACCACG AGATGCTGGG 
    ACTGACCATC GTAGCTCTGG CATCATTCGC CTTCATACAA TAAAGCAAAT CATAGATCAG 
    GATAAACATG CGTTATTAGA TGTAACGCCA AATGCGGTTG ATCGTCTTAA TTATGCGCAG 
    TGGTATCCAA TTGTTGTGTT CCTTAACCCT GACTCTAAGC AAGGTGTAAA AACAATGAGG 
    ATGAGGTTAT GTCCGGAGTC TCGGAAAAGC GCCAGGAAGC TATATGAACG CTCTCATAAG 
    CTTCGCAAAA ACAATCACCA CCTTTTCACA ACTACAATTA ACTTAAACTC AATGAATGAT 
    GGTTGGTACG GTGCCCTGAA AGAAGCCATT CAGCAGCAAC AGAACCAGCT GGTGTGGGTC 
    TCTGAGGGGA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCCCCAGG TAGTGAGTAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA TACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTGGG GACTCCCCCG GAGTCTGCCA TTACACNGTC CTCTGAGCCT 
    GTAAGAGAGG ATTCCTCTGG GATGCATCAT GAAAACCAGA CCTATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAAGCTAT TCATAGACTA GACTCCCCTG GACTTAAGCC AGCCTCTCAA 
    CAGGTGTATA GAAAGGAGCC GTATCCTGAA GAAATGATGA GACAAAACCA TATTTTAAAA 
    CAACCAGCTC TTGGTCACCC AGGGCAGAGG CCAGATAAAG AGCCAAATCT AGCCTATGAA 
    CCCCAACTTC CATATANAGA AAAACAAGCC AGCAGAGACC TTGAACAGCC GTCATACAGG 
    TATGAGGCCT CAAGCTACCC AGACCAGTTT TCTCGGAACT ATGACCATCG CCTACGGTTT 
    GAAGATCGAA TCCCTACCTA TGAAGACCAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CAACCTCGGC CTTTTGAGAA TCAGCATCCC CGAGACCTGG ACTCCAGACA ACATCCNGAG 
    GAGGCTTCAG AACGAGGTTA TNTCCAGCGT TTTGAAGAGC CAGCCCCTCT GTCATACGAC 
    AGTAGAACAC GCTATGAGCA GCTGCCTCGA ACCTCTACTC TACGACATGA AGAGCAGCCA 
    GCCCCTGCAT ATGAGGTGCA CAACAGGTAC AGGCCAGAGG CACAGCCCTA TTCTTCAACA 
    GGTCCTAAGT CATCTGAGCC CAAGCAGTAC TTTGACCAGT ACCCGCGAAG TTATGAGCAA 
    GTACCACCAC CAGGCTTTAC CTCCAAAACA GGCCATTACG AGCCTCTCCA TGGTGCTGCA 
    GTTGTCCCTC CTCTGATACC TTCCTCTCAA CATAAGCCAG AAGTCCTGCC CTCGGCTACC 
    AAACCACAGC CTCCACCCCC AACCCTAACT GAGGAGGAGG AGGATCCAGC AATGAAACCA 
    CAGTCCGTGC TCANCAGAGT CAAAATGTTT GAAAACAAAA GATCTGCGTC TTTGGAGAAC 
    AAGAAAGATG TGAATGACAC TGCCAGCTTT AAGCCTCCAG AAGTAGCATC TAAACCTCCA 
    AGTGCTTCTC TTGCTGGCCC TAAACCTGTT CCTCAGAGTC AGTTTAGTGA GCANGACAAA 
    ACACTCTACA GGCTCCCAGA GCCTCAGAAA CCTCAAGTGA AGCCACCCGA NGATATTGTT 
    CGATCAAATC ATTACGACCC TGAAGAGGAT GAAGAATATT ACAGGAAACA GCTCTCTTAC 
    TTTGANCGAA GAAGTTTTGA GAGCAAGCCT TCTGCACATC TTCCTGCTGG CCATCACTCA 
    GAGCCTGCTA AGCCAGTCCA TTCTCAGAGC CAGCCCAACT TTTCTAGTTA CTCTTCAAAG 
    GGAAAACCCG AAACTGATGC TGTGGATAGA TCATTCAGTG AGAAACGTTA TGATCCAGCC 
    CAGGCCACGC CTCCTCCTCC TCCGTTGCCC TCACAGTACA GCCAGCCAGC TCCCCCTCTG 
    TCCAGCTCTT CTCTCCACAT ACATTCCAAG GGCGCCCAGG GCGAAGGCAA TTCAGTATCA 
    TTGGATTTTC AGAACTCATA TATGTCCAAA CCAGACCCAC CCCCATCTCA GAGTAAACCA 
    GCAACTTTCA GACCACCAAC CCGAGAAGAC CCTCCTCAGA CTTTCTATCC CCAGAAANGT 
    TTCCCAGACA AAGCTCCAGT TAANGGAGCT GAGCAGACTC AGAAAACCAT CACTCCAGTG 
    TACAATCGAT TCACACCAAA GCCGTACACA AGTTCTGCCC GGCCGTTTGA ACGCAAATTT 
    GAAAGTCCGA AGTTCAACCA TAATCTTCTG CCAAGTGAAA CTGTACATAA ACCTGAATTG 
    TCTTCAAAAA CTCCCACTTC TCCAAAAACT CTTATGAAAG CTCATAGTTC AACACAGCCT 
    CCAGAGTTTG ACAGTGGAGT TGAAACTTTC TCTGTTCACA CAGATNAGCC TAAATATCAA 
    ATGAATAATA TCAGCACCAT GCCTAAAGCT GTCCCTGTGA GTCCTTCAGC TGTGGAAGAA 
    GATGAAGATG AGGATGGTCA TACTGTAGTG GCTACAGCTC GTGGCATTTT TAACAGCAAT 
    GGTGGTGTGT TGAGTTCCAT AGAAACCGGT GTTAGTATAA TTATCCCACA AGGAGCCATT 
    CCTGAAGGAA TTGAACAAGA AATCTATTTC AAAGTCTGCA GAGACAATAG CATTCTCCCA 
    CCTTTAGATA AAGAGAAAGG TGAAACTCTG CTAAGTCCCC TAGTGATGTG TGGGCCCCAT 
    GGCCTCAAGT TCCTGAAGCC CGTGGAGCTG CGCTTGCCAC ACTGTGCGTC CATGACTCCT 
    GACGGTTGGT CTTTTGCTCT AAAATCATCC GACTCCTCGT CGGGTGACCC TAAAACCTGG 
    CAAAACAAGT GTCTTCCTGG AGATCCGAAT TACCTTGTTG GAGCCAACTG TGTTTCTGTC 
    CTGATTGACC ACTTTTAA

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

    RefSeq XP_021021825.1
    CDS65..5122
    Translation

    Target ORF information:

    RefSeq Version XM_021166166.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli 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_021166166.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    ATGTCCACCA GGGCCGCGGC CGCTAAGAGC ACAGCAATGG AGGAAACGGC TATATGGGAA 
    CAGCACACAG TGATGCTTCA CAGGGCTCCT GGGTTTGGAT TTGGAATTGC AATCTCTGGT 
    GGAAGAGATA ATCCTCATTT TCAGAGTGGG GAAACCTCCA TAGTGATTTC TGATGTGCTA 
    AAAGGAGGGC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAATGGA 
    GTTTCAATGG ATAACGTTGA ACATGCTTTT GCTGTTCAGC AGCTAAGGAA AAGTGGGAAA 
    AACGCAAAAA TTACTATGCG AAGGAAGAAG AAAGTTCAGA TCCCTGTAAG TCACCCAGAT 
    CCTGAGCCGG TGTCTGATAA TGAAGATGAT AGCTACGACG AAGAAGTACA TGATCCAAGA 
    GCTGGCCGCA GTGCTTTAGC GAACAGAAGG AGCGAGAAGA GCTGGGCAAG GGATAGGAGT 
    GCAAGCAGGG AGAGGAGCCT GTCCCCTCGC TCGGACAGGC GGTCGGTGGC CTCCAGTCAG 
    CCCGCAAAAC CCACCAAGGT CGCACTGGTG AAGTCTCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCCA GCCATATATT TGTAAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGTAACATTC AAGAAGGGGA TGTTGTCTTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAAAC ACTGATAGAA AGGTCTAAAG GCAAGTTAAA AATGGTAGTG 
    CAAAGAGATG AGCGGGCTAC CTTACTGAAC GTCCCTGACC TTTCGGATAG TATCCATTCT 
    GCTAATGCCT CGGAAAGAGA TGACATTTCA GAAATTCAGT CACTAGCATC AGACCATTCA 
    GGTCGCTCGC ATGACAGGCC ACCCCGCCGC AGCCAGTCAC GATCTCCTGA CCAACGTTCA 
    GAGCCCTCCG ATCATTCCAC ACAGTCTCCA CAGCAGCCCA GCAATGGCAG TCTCCGGAGC 
    AGAGAGCAAG AGCGAATGTC TAAACCTGGG GCCATCTCAA CTCCTGTAAA ACATGCAGAT 
    GATCATACAC CCAAAGCAGT GGAAGAAGTT ACAGTTGAGA AAAATGAGAA GCAGACACCC 
    ACTCTTCCAG AACCGAAGCC TGTATATGCT CAAGTTGGAC AACCAGATGT GGATTTACCC 
    GTCAGCCCTT CTGATGGTGT TCTGCCTAAT TCAACTCATG AAGATGGGAT ACTTAGGCCC 
    AGCATGAAAC TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGACT AGCTGGTGGA 
    AATGATGTCG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAAGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTG AACAATGTAG ATTTCACAAA TATCATAAGA 
    GAAGAGGCTG TCCTTTTCCT CCTTGACCTC CCTAAAGGTG AAGAAGTGAC CATCCTGGCT 
    CAGAAGAAGA AGGGTGTTTA TCGCCGCATT GTAGAATCAG ATGTAGGAGA TTCATTCTAT 
    ATTAGAACGC ATTTTGAGTA TGAAAAAGAA TCTCCTTACG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GGGTCGTGGA TACTTTATAC AATGGAAAGC TGGGCTCTTG GCTTGCCATT 
    CGAATTGGCA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGTTAG CCAGTGTACA GTACACACTT CCAAAGACAG CGGGTGGTGA TCGGGCAGAC 
    TTCTGGAGGT TTCGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAC 
    TTGTCAGCTC AGCCAGTTCA AACTAAGTTC CCAGCTTATG AAAGGGTTGT TCTTCGAGAA 
    GCTGGATTCC TAAGACCTGT AACCATCTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    TTGGCAAGAG AGGAACCAGA TATCTATCAG ATTGCAAAAA GTGAACCACG AGATGCTGGG 
    ACTGACCATC GTAGCTCTGG CATCATTCGC CTTCATACAA TAAAGCAAAT CATAGATCAG 
    GATAAACATG CGTTATTAGA TGTAACGCCA AATGCGGTTG ATCGTCTTAA TTATGCGCAG 
    TGGTATCCAA TTGTTGTGTT CCTTAACCCT GACTCTAAGC AAGGTGTAAA AACAATGAGG 
    ATGAGGTTAT GTCCGGAGTC TCGGAAAAGC GCCAGGAAGC TATATGAACG CTCTCATAAG 
    CTTCGCAAAA ACAATCACCA CCTTTTCACA ACTACAATTA ACTTAAACTC AATGAATGAT 
    GGTTGGTACG GTGCCCTGAA AGAAGCCATT CAGCAGCAAC AGAACCAGCT GGTGTGGGTC 
    TCTGAGGGGA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCCCCAGG TAGTGAGTAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA TACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTGGG GACTCCCCCG GAGTCTGCCA TTACACNGTC CTCTGAGCCT 
    GTAAGAGAGG ATTCCTCTGG GATGCATCAT GAAAACCAGA CCTATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAAGCTAT TCATAGACTA GACTCCCCTG GACTTAAGCC AGCCTCTCAA 
    CAGGTGTATA GAAAGGAGCC GTATCCTGAA GAAATGATGA GACAAAACCA TATTTTAAAA 
    CAACCAGCTC TTGGTCACCC AGGGCAGAGG CCAGATAAAG AGCCAAATCT AGCCTATGAA 
    CCCCAACTTC CATATANAGA AAAACAAGCC AGCAGAGACC TTGAACAGCC GTCATACAGG 
    TATGAGGCCT CAAGCTACCC AGACCAGTTT TCTCGGAACT ATGACCATCG CCTACGGTTT 
    GAAGATCGAA TCCCTACCTA TGAAGACCAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CAACCTCGGC CTTTTGAGAA TCAGCATCCC CGAGACCTGG ACTCCAGACA ACATCCNGAG 
    GAGGCTTCAG AACGAGGTTA TNTCCAGCGT TTTGAAGAGC CAGCCCCTCT GTCATACGAC 
    AGTAGAACAC GCTATGAGCA GCTGCCTCGA ACCTCTACTC TACGACATGA AGAGCAGCCA 
    GCCCCTGCAT ATGAGGTGCA CAACAGGTAC AGGCCAGAGG CACAGCCCTA TTCTTCAACA 
    GGTCCTAAGT CATCTGAGCC CAAGCAGTAC TTTGACCAGT ACCCGCGAAG TTATGAGCAA 
    GTACCACCAC CAGGCTTTAC CTCCAAAACA GGCCATTACG AGCCTCTCCA TGGTGCTGCA 
    GTTGTCCCTC CTCTGATACC TTCCTCTCAA CATAAGCCAG AAGTCCTGCC CTCGGCTACC 
    AAACCACAGC CTCCACCCCC AACCCTAACT GAGGAGGAGG AGGATCCAGC AATGAAACCA 
    CAGTCCGTGC TCANCAGAGT CAAAATGTTT GAAAACAAAA GATCTGCGTC TTTGGAGAAC 
    AAGAAAGATG TGAATGACAC TGCCAGCTTT AAGCCTCCAG AAGTAGCATC TAAACCTCCA 
    AGTGCTTCTC TTGCTGGCCC TAAACCTGTT CCTCAGAGTC AGTTTAGTGA GCANGACAAA 
    ACACTCTACA GGCTCCCAGA GCCTCAGAAA CCTCAAGTGA AGCCACCCGA NGATATTGTT 
    CGATCAAATC ATTACGACCC TGAAGAGGAT GAAGAATATT ACAGGAAACA GCTCTCTTAC 
    TTTGANCGAA GAAGTTTTGA GAGCAAGCCT TCTGCACATC TTCCTGCTGG CCATCACTCA 
    GAGCCTGCTA AGCCAGTCCA TTCTCAGAGC CAGCCCAACT TTTCTAGTTA CTCTTCAAAG 
    GGAAAACCCG AAACTGATGC TGTGGATAGA TCATTCAGTG AGAAACGTTA TGATCCAGCC 
    CAGGCCACGC CTCCTCCTCC TCCGTTGCCC TCACAGTACA GCCAGCCAGC TCCCCCTCTG 
    TCCAGCTCTT CTCTCCACAT ACATTCCAAG GGCGCCCAGG GCGAAGGCAA TTCAGTATCA 
    TTGGATTTTC AGAACTCATA TATGTCCAAA CCAGACCCAC CCCCATCTCA GAGTAAACCA 
    GCAACTTTCA GACCACCAAC CCGAGAAGAC CCTCCTCAGA CTTTCTATCC CCAGAAANGT 
    TTCCCAGACA AAGCTCCAGT TAANGGAGCT GAGCAGACTC AGAAAACCAT CACTCCAGTG 
    TACAATCGAT TCACACCAAA GCCGTACACA AGTTCTGCCC GGCCGTTTGA ACGCAAATTT 
    GAAAGTCCGA AGTTCAACCA TAATCTTCTG CCAAGTGAAA CTGTACATAA ACCTGAATTG 
    TCTTCAAAAA CTCCCACTTC TCCAAAAACT CTTATGAAAG CTCATAGTTC AACACAGCCT 
    CCAGAGTTTG ACAGTGGAGT TGAAACTTTC TCTGTTCACA CAGATNAGCC TAAATATCAA 
    ATGAATAATA TCAGCACCAT GCCTAAAGCT GTCCCTGTGA GTCCTTCAGC TGTGGAAGAA 
    GATGAAGATG AGGATGGTCA TACTGTAGTG GCTACAGCTC GTGGCATTTT TAACAGCAAT 
    GGTGGTGTGT TGAGTTCCAT AGAAACCGGT GTTAGTATAA TTATCCCACA AGGAGCCATT 
    CCTGAAGGAA TTGAACAAGA AATCTATTTC AAAGTCTGCA GAGACAATAG CATTCTCCCA 
    CCTTTAGATA AAGAGAAAGG TGAAACTCTG CTAAGTCCCC TAGTGATGTG TGGGCCCCAT 
    GGCCTCAAGT TCCTGAAGCC CGTGGAGCTG CGCTTGCCAC ACTGTGCGTC CATGACTCCT 
    GACGGTTGGT CTTTTGCTCT AAAATCATCC GACTCCTCGT CGGGTGACCC TAAAACCTGG 
    CAAAACAAGT GTCTTCCTGG AGATCCGAAT TACCTTGTTG GAGCCAACTG TGTTTCTGTC 
    CTGATTGACC ACTTTTAA

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

    Tjp1 ( XM_021166167.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021021826.1 Mus caroli tight junction protein 1 (Tjp1), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OMv03981
    Clone ID Related Accession (Same CDS sequence) XM_021166167.1 , XM_021166167.2
    Accession Version XM_021166167.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4998bp)
    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 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    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_034576.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGTCCACCA GGGCCGCGGC CGCTAAGAGC ACAGCAATGG AGGAAACGGC TATATGGGAA 
    CAGCACACAG TGATGCTTCA CAGGGCTCCT GGGTTTGGAT TTGGAATTGC AATCTCTGGT 
    GGAAGAGATA ATCCTCATTT TCAGAGTGGG GAAACCTCCA TAGTGATTTC TGATGTGCTA 
    AAAGGAGGGC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAATGGA 
    GTTTCAATGG ATAACGTTGA ACATGCTTTT GCTGTTCAGC AGCTAAGGAA AAGTGGGAAA 
    AACGCAAAAA TTACTATGCG AAGGAAGAAG AAAGTTCAGA TCCCTGTAAG TCACCCAGAT 
    CCTGAGCCGG TGTCTGATAA TGAAGATGAT AGCTACGACG AAGAAGTACA TGATCCAAGA 
    GCTGGCCGCA GTGCTTTAGC GAACAGAAGG AGCGAGAAGA GCTGGGCAAG GGATAGGAGT 
    GCAAGCAGGG AGAGGAGCCT GTCCCCTCGC TCGGACAGGC GGTCGGTGGC CTCCAGTCAG 
    CCCGCAAAAC CCACCAAGGT CGCACTGGTG AAGTCTCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCCA GCCATATATT TGTAAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGTAACATTC AAGAAGGGGA TGTTGTCTTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAAAC ACTGATAGAA AGGTCTAAAG GCAAGTTAAA AATGGTAGTG 
    CAAAGAGATG AGCGGGCTAC CTTACTGAAC GTCCCTGACC TTTCGGATAG TATCCATTCT 
    GCTAATGCCT CGGAAAGAGA TGACATTTCA GAAATTCAGT CACTAGCATC AGACCATTCA 
    GGTCGCTCGC ATGACAGGCC ACCCCGCCGC AGCCAGTCAC GATCTCCTGA CCAACGTTCA 
    GAGCCCTCCG ATCATTCCAC ACAGTCTCCA CAGCAGCCCA GCAATGGCAG TCTCCGGAGC 
    AGAGAGCAAG AGCGAATGTC TAAACCTGGG GCCATCTCAA CTCCTGTAAA ACATGCAGAT 
    GATCATACAC CCAAAGCAGT GGAAGAAGTT ACAGTTGAGA AAAATGAGAA GCAGACACCC 
    ACTCTTCCAG AACCGAAGCC TGTATATGCT CAAGTTGGAC AACCAGATGT GGATTTACCC 
    GTCAGCCCTT CTGATGGTGT TCTGCCTAAT TCAACTCATG AAGATGGGAT ACTTAGGCCC 
    AGCATGAAAC TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGACT AGCTGGTGGA 
    AATGATGTCG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAAGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTG AACAATGTAG ATTTCACAAA TATCATAAGA 
    GAAGAGGCTG TCCTTTTCCT CCTTGACCTC CCTAAAGGTG AAGAAGTGAC CATCCTGGCT 
    CAGAAGAAGA AGGGTGTTTA TCGCCGCATT GTAGAATCAG ATGTAGGAGA TTCATTCTAT 
    ATTAGAACGC ATTTTGAGTA TGAAAAAGAA TCTCCTTACG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GGGTCGTGGA TACTTTATAC AATGGAAAGC TGGGCTCTTG GCTTGCCATT 
    CGAATTGGCA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGTTAG CCAGTGTACA GTACACACTT CCAAAGACAG CGGGTGGTGA TCGGGCAGAC 
    TTCTGGAGGT TTCGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAC 
    TTGTCAGCTC AGCCAGTTCA AACTAAGTTC CCAGCTTATG AAAGGGTTGT TCTTCGAGAA 
    GCTGGATTCC TAAGACCTGT AACCATCTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    TTGGCAAGAG AGGAACCAGA TATCTATCAG ATTGCAAAAA GTGAACCACG AGATGCTGGG 
    ACTGACCATC GTAGCTCTGG CATCATTCGC CTTCATACAA TAAAGCAAAT CATAGATCAG 
    GATAAACATG CGTTATTAGA TGTAACGCCA AATGCGGTTG ATCGTCTTAA TTATGCGCAG 
    TGGTATCCAA TTGTTGTGTT CCTTAACCCT GACTCTAAGC AAGGTGTAAA AACAATGAGG 
    ATGAGGTTAT GTCCGGAGTC TCGGAAAAGC GCCAGGAAGC TATATGAACG CTCTCATAAG 
    CTTCGCAAAA ACAATCACCA CCTTTTCACA ACTACAATTA ACTTAAACTC AATGAATGAT 
    GGTTGGTACG GTGCCCTGAA AGAAGCCATT CAGCAGCAAC AGAACCAGCT GGTGTGGGTC 
    TCTGAGGGGA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCCCCAGG TAGTGAGTAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA TACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTGGG GACTCCCCCG GAGTCTGCCA TTACACNGTC CTCTGAGCCT 
    GTAAGAGAGG ATTCCTCTGG GATGCATCAT GAAAACCAGA CCTATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAAGCTAT TCATAGACTA GACTCCCCTG GACTTAAGCC AGCCTCTCAA 
    CAGGTGTATA GAAAGGAGCC GTATCCTGAA GAAATGATGA GACAAAACCA TATTTTAAAA 
    CAACCAGCTC TTGGTCACCC AGGGCAGAGG CCAGATAAAG AGCCAAATCT AGCCTATGAA 
    CCCCAACTTC CATATANAGA AAAACAAGCC AGCAGAGACC TTGAACAGCC GTCATACAGG 
    TATGAGGCCT CAAGCTACCC AGACCAGTTT TCTCGGAACT ATGACCATCG CCTACGGTTT 
    GAAGATCGAA TCCCTACCTA TGAAGACCAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CAACCTCGGC CTTTTGAGAA TCAGCATCCC CGAGACCTGG ACTCCAGACA ACATCCNGAG 
    GAGGCTTCAG AACGAGGTTA TNTCCAGCGT TTTGAAGAGC CAGCCCCTCT GTCATACGAC 
    AGTAGAACAC GCTATGAGCA GCTGCCTCGA ACCTCTACTC TACGACATGA AGAGCAGCCA 
    GCCCCTGCAT ATGAGGTGCA CAACAGGTAC AGGCCAGAGG CACAGCCCTA TTCTTCAACA 
    GGTCCTAAGT CATCTGAGCC CAAGCAGTAC TTTGACCAGT ACCCGCGAAG TTATGAGCAA 
    GTACCACCAC CAGGCTTTAC CTCCAAAACA GGCCATTACG AGCCTCTCCA TGGTGCTGCA 
    GTTGTCCCTC CTCTGATACC TTCCTCTCAA CATAAGCCAG AAGTCCTGCC CTCGGCTACC 
    AAACCACAGC CTCCACCCCC AACCCTAACT GAGGAGGAGG AGGATCCAGC AATGAAACCA 
    CAGTCCGTGC TCANCAGAGT CAAAATGTTT GAAAACAAAA GATCTGCGTC TTTGGAGAAC 
    AAGAAAGATG TGAATGACAC TGCCAGCTTT AAGCCTCCAG AAGTAGCATC TAAACCTCCA 
    AGTGCTTCTC TTGCTGGCCC TAAACCTGTT CCTCAGAGTC AGTTTAGTGA GCANGACAAA 
    ACACTCTACA GGCTCCCAGA GCCTCAGAAA CCTCAAGTGA AGCCACCCGA NGATATTGTT 
    CGATCAAATC ATTACGACCC TGAAGAGGAT GAAGAATATT ACAGGAAACA GCTCTCTTAC 
    TTTGANCGAA GAAGTTTTGA GAGCAAGCCT TCTGCACATC TTCCTGCTGG CCATCACTCA 
    GAGCCTGCTA AGCCAGTCCA TTCTCAGAGC CAGCCCAACT TTTCTAGTTA CTCTTCAAAG 
    GGAAAACCCG AAACTGATGC TGTGGATAGA TCATTCAGTG AGAAACGTTA TGATCCAGCC 
    CAGGCCACGC CTCCTCCTCC TCCGTTGCCC TCACAGTACA GCCAGCCAGC TCCCCCTCTG 
    TCCAGCTCTT CTCTCCACAT ACATTCCAAG GGCGCCCAGG GCGAAGGCAA TTCAGTATCA 
    TTGGATTTTC AGAACTCATA TATGTCCAAA CCAGACCCAC CCCCATCTCA GAGTAAACCA 
    GCAACTTTCA GACCACCAAC CCGAGAAGAC CCTCCTCAGA CTTTCTATCC CCAGAAANGT 
    TTCCCAGACA AAGCTCCAGT TAANGGAGCT GAGCAGACTC AGAAAACCAT CACTCCAGTG 
    TACAATCGAT TCACACCAAA GCCGTACACA AGTTCTGCCC GGCCGTTTGA ACGCAAATTT 
    GAAAGTCCGA AGTTCAACCA TAATCTTCTG CCAAGTGAAA CTGTACATAA ACCTGAATTG 
    TCTTCAAAAA CTCCCACTTC TCCAAAAACT CTTATGAAAG CTCATAGTTC AACACAGCCT 
    CCAGAGTTTG ACAGTGGAGT TGAAACTTTC TCTGTTCACA CAGATNAGCC TAAATATCAA 
    ATGAATAATA TCAGCACCAT GCCTAAAGCT GTCCCTGTGA GTCCTTCAGC TGTGGAAGAA 
    GATGAAGATG AGGATGGTCA TACTGTAGTG GCTACAGCTC GTGGCATTTT TAACAGCAAT 
    GGTGGTGTGT TGAGTTCCAT AGAAACCGGT GTTAGTATAA TTATCCCACA AGGAGCCATT 
    CCTGAAGGAA TTGAACAAGA AATCTATTTC AAAGTCTGCA GAGACAATAG CATTCTCCCA 
    CCTTTAGATA AAGAGAAAGG TGAAACTCTG CTAAGTCCCC TAGTGATGTG TGGGCCCCAT 
    GGCCTCAAGT TCCTGAAGCC CGTGGAGCTG CGCTTGCCAC ACTGTGACCC TAAAACCTGG 
    CAAAACAAGT GTCTTCCTGG AGATCCGAAT TACCTTGTTG GAGCCAACTG TGTTTCTGTC 
    CTGATTGACC ACTTTTAA

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

    RefSeq XP_021021826.1
    CDS38..5035
    Translation

    Target ORF information:

    RefSeq Version XM_021166167.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli 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_021166167.1

    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
    ATGTCCACCA GGGCCGCGGC CGCTAAGAGC ACAGCAATGG AGGAAACGGC TATATGGGAA 
    CAGCACACAG TGATGCTTCA CAGGGCTCCT GGGTTTGGAT TTGGAATTGC AATCTCTGGT 
    GGAAGAGATA ATCCTCATTT TCAGAGTGGG GAAACCTCCA TAGTGATTTC TGATGTGCTA 
    AAAGGAGGGC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAATGGA 
    GTTTCAATGG ATAACGTTGA ACATGCTTTT GCTGTTCAGC AGCTAAGGAA AAGTGGGAAA 
    AACGCAAAAA TTACTATGCG AAGGAAGAAG AAAGTTCAGA TCCCTGTAAG TCACCCAGAT 
    CCTGAGCCGG TGTCTGATAA TGAAGATGAT AGCTACGACG AAGAAGTACA TGATCCAAGA 
    GCTGGCCGCA GTGCTTTAGC GAACAGAAGG AGCGAGAAGA GCTGGGCAAG GGATAGGAGT 
    GCAAGCAGGG AGAGGAGCCT GTCCCCTCGC TCGGACAGGC GGTCGGTGGC CTCCAGTCAG 
    CCCGCAAAAC CCACCAAGGT CGCACTGGTG AAGTCTCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCCA GCCATATATT TGTAAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGTAACATTC AAGAAGGGGA TGTTGTCTTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAAAC ACTGATAGAA AGGTCTAAAG GCAAGTTAAA AATGGTAGTG 
    CAAAGAGATG AGCGGGCTAC CTTACTGAAC GTCCCTGACC TTTCGGATAG TATCCATTCT 
    GCTAATGCCT CGGAAAGAGA TGACATTTCA GAAATTCAGT CACTAGCATC AGACCATTCA 
    GGTCGCTCGC ATGACAGGCC ACCCCGCCGC AGCCAGTCAC GATCTCCTGA CCAACGTTCA 
    GAGCCCTCCG ATCATTCCAC ACAGTCTCCA CAGCAGCCCA GCAATGGCAG TCTCCGGAGC 
    AGAGAGCAAG AGCGAATGTC TAAACCTGGG GCCATCTCAA CTCCTGTAAA ACATGCAGAT 
    GATCATACAC CCAAAGCAGT GGAAGAAGTT ACAGTTGAGA AAAATGAGAA GCAGACACCC 
    ACTCTTCCAG AACCGAAGCC TGTATATGCT CAAGTTGGAC AACCAGATGT GGATTTACCC 
    GTCAGCCCTT CTGATGGTGT TCTGCCTAAT TCAACTCATG AAGATGGGAT ACTTAGGCCC 
    AGCATGAAAC TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGACT AGCTGGTGGA 
    AATGATGTCG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAAGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTG AACAATGTAG ATTTCACAAA TATCATAAGA 
    GAAGAGGCTG TCCTTTTCCT CCTTGACCTC CCTAAAGGTG AAGAAGTGAC CATCCTGGCT 
    CAGAAGAAGA AGGGTGTTTA TCGCCGCATT GTAGAATCAG ATGTAGGAGA TTCATTCTAT 
    ATTAGAACGC ATTTTGAGTA TGAAAAAGAA TCTCCTTACG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GGGTCGTGGA TACTTTATAC AATGGAAAGC TGGGCTCTTG GCTTGCCATT 
    CGAATTGGCA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGTTAG CCAGTGTACA GTACACACTT CCAAAGACAG CGGGTGGTGA TCGGGCAGAC 
    TTCTGGAGGT TTCGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAC 
    TTGTCAGCTC AGCCAGTTCA AACTAAGTTC CCAGCTTATG AAAGGGTTGT TCTTCGAGAA 
    GCTGGATTCC TAAGACCTGT AACCATCTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    TTGGCAAGAG AGGAACCAGA TATCTATCAG ATTGCAAAAA GTGAACCACG AGATGCTGGG 
    ACTGACCATC GTAGCTCTGG CATCATTCGC CTTCATACAA TAAAGCAAAT CATAGATCAG 
    GATAAACATG CGTTATTAGA TGTAACGCCA AATGCGGTTG ATCGTCTTAA TTATGCGCAG 
    TGGTATCCAA TTGTTGTGTT CCTTAACCCT GACTCTAAGC AAGGTGTAAA AACAATGAGG 
    ATGAGGTTAT GTCCGGAGTC TCGGAAAAGC GCCAGGAAGC TATATGAACG CTCTCATAAG 
    CTTCGCAAAA ACAATCACCA CCTTTTCACA ACTACAATTA ACTTAAACTC AATGAATGAT 
    GGTTGGTACG GTGCCCTGAA AGAAGCCATT CAGCAGCAAC AGAACCAGCT GGTGTGGGTC 
    TCTGAGGGGA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCCCCAGG TAGTGAGTAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA TACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTGGG GACTCCCCCG GAGTCTGCCA TTACACNGTC CTCTGAGCCT 
    GTAAGAGAGG ATTCCTCTGG GATGCATCAT GAAAACCAGA CCTATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAAGCTAT TCATAGACTA GACTCCCCTG GACTTAAGCC AGCCTCTCAA 
    CAGGTGTATA GAAAGGAGCC GTATCCTGAA GAAATGATGA GACAAAACCA TATTTTAAAA 
    CAACCAGCTC TTGGTCACCC AGGGCAGAGG CCAGATAAAG AGCCAAATCT AGCCTATGAA 
    CCCCAACTTC CATATANAGA AAAACAAGCC AGCAGAGACC TTGAACAGCC GTCATACAGG 
    TATGAGGCCT CAAGCTACCC AGACCAGTTT TCTCGGAACT ATGACCATCG CCTACGGTTT 
    GAAGATCGAA TCCCTACCTA TGAAGACCAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CAACCTCGGC CTTTTGAGAA TCAGCATCCC CGAGACCTGG ACTCCAGACA ACATCCNGAG 
    GAGGCTTCAG AACGAGGTTA TNTCCAGCGT TTTGAAGAGC CAGCCCCTCT GTCATACGAC 
    AGTAGAACAC GCTATGAGCA GCTGCCTCGA ACCTCTACTC TACGACATGA AGAGCAGCCA 
    GCCCCTGCAT ATGAGGTGCA CAACAGGTAC AGGCCAGAGG CACAGCCCTA TTCTTCAACA 
    GGTCCTAAGT CATCTGAGCC CAAGCAGTAC TTTGACCAGT ACCCGCGAAG TTATGAGCAA 
    GTACCACCAC CAGGCTTTAC CTCCAAAACA GGCCATTACG AGCCTCTCCA TGGTGCTGCA 
    GTTGTCCCTC CTCTGATACC TTCCTCTCAA CATAAGCCAG AAGTCCTGCC CTCGGCTACC 
    AAACCACAGC CTCCACCCCC AACCCTAACT GAGGAGGAGG AGGATCCAGC AATGAAACCA 
    CAGTCCGTGC TCANCAGAGT CAAAATGTTT GAAAACAAAA GATCTGCGTC TTTGGAGAAC 
    AAGAAAGATG TGAATGACAC TGCCAGCTTT AAGCCTCCAG AAGTAGCATC TAAACCTCCA 
    AGTGCTTCTC TTGCTGGCCC TAAACCTGTT CCTCAGAGTC AGTTTAGTGA GCANGACAAA 
    ACACTCTACA GGCTCCCAGA GCCTCAGAAA CCTCAAGTGA AGCCACCCGA NGATATTGTT 
    CGATCAAATC ATTACGACCC TGAAGAGGAT GAAGAATATT ACAGGAAACA GCTCTCTTAC 
    TTTGANCGAA GAAGTTTTGA GAGCAAGCCT TCTGCACATC TTCCTGCTGG CCATCACTCA 
    GAGCCTGCTA AGCCAGTCCA TTCTCAGAGC CAGCCCAACT TTTCTAGTTA CTCTTCAAAG 
    GGAAAACCCG AAACTGATGC TGTGGATAGA TCATTCAGTG AGAAACGTTA TGATCCAGCC 
    CAGGCCACGC CTCCTCCTCC TCCGTTGCCC TCACAGTACA GCCAGCCAGC TCCCCCTCTG 
    TCCAGCTCTT CTCTCCACAT ACATTCCAAG GGCGCCCAGG GCGAAGGCAA TTCAGTATCA 
    TTGGATTTTC AGAACTCATA TATGTCCAAA CCAGACCCAC CCCCATCTCA GAGTAAACCA 
    GCAACTTTCA GACCACCAAC CCGAGAAGAC CCTCCTCAGA CTTTCTATCC CCAGAAANGT 
    TTCCCAGACA AAGCTCCAGT TAANGGAGCT GAGCAGACTC AGAAAACCAT CACTCCAGTG 
    TACAATCGAT TCACACCAAA GCCGTACACA AGTTCTGCCC GGCCGTTTGA ACGCAAATTT 
    GAAAGTCCGA AGTTCAACCA TAATCTTCTG CCAAGTGAAA CTGTACATAA ACCTGAATTG 
    TCTTCAAAAA CTCCCACTTC TCCAAAAACT CTTATGAAAG CTCATAGTTC AACACAGCCT 
    CCAGAGTTTG ACAGTGGAGT TGAAACTTTC TCTGTTCACA CAGATNAGCC TAAATATCAA 
    ATGAATAATA TCAGCACCAT GCCTAAAGCT GTCCCTGTGA GTCCTTCAGC TGTGGAAGAA 
    GATGAAGATG AGGATGGTCA TACTGTAGTG GCTACAGCTC GTGGCATTTT TAACAGCAAT 
    GGTGGTGTGT TGAGTTCCAT AGAAACCGGT GTTAGTATAA TTATCCCACA AGGAGCCATT 
    CCTGAAGGAA TTGAACAAGA AATCTATTTC AAAGTCTGCA GAGACAATAG CATTCTCCCA 
    CCTTTAGATA AAGAGAAAGG TGAAACTCTG CTAAGTCCCC TAGTGATGTG TGGGCCCCAT 
    GGCCTCAAGT TCCTGAAGCC CGTGGAGCTG CGCTTGCCAC ACTGTGACCC TAAAACCTGG 
    CAAAACAAGT GTCTTCCTGG AGATCCGAAT TACCTTGTTG GAGCCAACTG TGTTTCTGTC 
    CTGATTGACC ACTTTTAA

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

    Tjp1 ( XM_021166167.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021021826.1 Mus caroli tight junction protein 1 (Tjp1), transcript variant X10, mRNA.
    Price & Availability↑
    CloneID OMv03981
    Clone ID Related Accession (Same CDS sequence) XM_021166167.1 , XM_021166167.2
    Accession Version XM_021166167.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4998bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    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_034576.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021166167.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGTCCACCA GGGCCGCGGC CGCTAAGAGC ACAGCAATGG AGGAAACGGC TATATGGGAA 
    CAGCACACAG TGATGCTTCA CAGGGCTCCT GGGTTTGGAT TTGGAATTGC AATCTCTGGT 
    GGAAGAGATA ATCCTCATTT TCAGAGTGGG GAAACCTCCA TAGTGATTTC TGATGTGCTA 
    AAAGGAGGGC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAATGGA 
    GTTTCAATGG ATAACGTTGA ACATGCTTTT GCTGTTCAGC AGCTAAGGAA AAGTGGGAAA 
    AACGCAAAAA TTACTATGCG AAGGAAGAAG AAAGTTCAGA TCCCTGTAAG TCACCCAGAT 
    CCTGAGCCGG TGTCTGATAA TGAAGATGAT AGCTACGACG AAGAAGTACA TGATCCAAGA 
    GCTGGCCGCA GTGCTTTAGC GAACAGAAGG AGCGAGAAGA GCTGGGCAAG GGATAGGAGT 
    GCAAGCAGGG AGAGGAGCCT GTCCCCTCGC TCGGACAGGC GGTCGGTGGC CTCCAGTCAG 
    CCCGCAAAAC CCACCAAGGT CGCACTGGTG AAGTCTCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCCA GCCATATATT TGTAAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGTAACATTC AAGAAGGGGA TGTTGTCTTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAAAC ACTGATAGAA AGGTCTAAAG GCAAGTTAAA AATGGTAGTG 
    CAAAGAGATG AGCGGGCTAC CTTACTGAAC GTCCCTGACC TTTCGGATAG TATCCATTCT 
    GCTAATGCCT CGGAAAGAGA TGACATTTCA GAAATTCAGT CACTAGCATC AGACCATTCA 
    GGTCGCTCGC ATGACAGGCC ACCCCGCCGC AGCCAGTCAC GATCTCCTGA CCAACGTTCA 
    GAGCCCTCCG ATCATTCCAC ACAGTCTCCA CAGCAGCCCA GCAATGGCAG TCTCCGGAGC 
    AGAGAGCAAG AGCGAATGTC TAAACCTGGG GCCATCTCAA CTCCTGTAAA ACATGCAGAT 
    GATCATACAC CCAAAGCAGT GGAAGAAGTT ACAGTTGAGA AAAATGAGAA GCAGACACCC 
    ACTCTTCCAG AACCGAAGCC TGTATATGCT CAAGTTGGAC AACCAGATGT GGATTTACCC 
    GTCAGCCCTT CTGATGGTGT TCTGCCTAAT TCAACTCATG AAGATGGGAT ACTTAGGCCC 
    AGCATGAAAC TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGACT AGCTGGTGGA 
    AATGATGTCG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAAGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTG AACAATGTAG ATTTCACAAA TATCATAAGA 
    GAAGAGGCTG TCCTTTTCCT CCTTGACCTC CCTAAAGGTG AAGAAGTGAC CATCCTGGCT 
    CAGAAGAAGA AGGGTGTTTA TCGCCGCATT GTAGAATCAG ATGTAGGAGA TTCATTCTAT 
    ATTAGAACGC ATTTTGAGTA TGAAAAAGAA TCTCCTTACG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GGGTCGTGGA TACTTTATAC AATGGAAAGC TGGGCTCTTG GCTTGCCATT 
    CGAATTGGCA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGTTAG CCAGTGTACA GTACACACTT CCAAAGACAG CGGGTGGTGA TCGGGCAGAC 
    TTCTGGAGGT TTCGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAC 
    TTGTCAGCTC AGCCAGTTCA AACTAAGTTC CCAGCTTATG AAAGGGTTGT TCTTCGAGAA 
    GCTGGATTCC TAAGACCTGT AACCATCTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    TTGGCAAGAG AGGAACCAGA TATCTATCAG ATTGCAAAAA GTGAACCACG AGATGCTGGG 
    ACTGACCATC GTAGCTCTGG CATCATTCGC CTTCATACAA TAAAGCAAAT CATAGATCAG 
    GATAAACATG CGTTATTAGA TGTAACGCCA AATGCGGTTG ATCGTCTTAA TTATGCGCAG 
    TGGTATCCAA TTGTTGTGTT CCTTAACCCT GACTCTAAGC AAGGTGTAAA AACAATGAGG 
    ATGAGGTTAT GTCCGGAGTC TCGGAAAAGC GCCAGGAAGC TATATGAACG CTCTCATAAG 
    CTTCGCAAAA ACAATCACCA CCTTTTCACA ACTACAATTA ACTTAAACTC AATGAATGAT 
    GGTTGGTACG GTGCCCTGAA AGAAGCCATT CAGCAGCAAC AGAACCAGCT GGTGTGGGTC 
    TCTGAGGGGA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCCCCAGG TAGTGAGTAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA TACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTGGG GACTCCCCCG GAGTCTGCCA TTACACNGTC CTCTGAGCCT 
    GTAAGAGAGG ATTCCTCTGG GATGCATCAT GAAAACCAGA CCTATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAAGCTAT TCATAGACTA GACTCCCCTG GACTTAAGCC AGCCTCTCAA 
    CAGGTGTATA GAAAGGAGCC GTATCCTGAA GAAATGATGA GACAAAACCA TATTTTAAAA 
    CAACCAGCTC TTGGTCACCC AGGGCAGAGG CCAGATAAAG AGCCAAATCT AGCCTATGAA 
    CCCCAACTTC CATATANAGA AAAACAAGCC AGCAGAGACC TTGAACAGCC GTCATACAGG 
    TATGAGGCCT CAAGCTACCC AGACCAGTTT TCTCGGAACT ATGACCATCG CCTACGGTTT 
    GAAGATCGAA TCCCTACCTA TGAAGACCAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CAACCTCGGC CTTTTGAGAA TCAGCATCCC CGAGACCTGG ACTCCAGACA ACATCCNGAG 
    GAGGCTTCAG AACGAGGTTA TNTCCAGCGT TTTGAAGAGC CAGCCCCTCT GTCATACGAC 
    AGTAGAACAC GCTATGAGCA GCTGCCTCGA ACCTCTACTC TACGACATGA AGAGCAGCCA 
    GCCCCTGCAT ATGAGGTGCA CAACAGGTAC AGGCCAGAGG CACAGCCCTA TTCTTCAACA 
    GGTCCTAAGT CATCTGAGCC CAAGCAGTAC TTTGACCAGT ACCCGCGAAG TTATGAGCAA 
    GTACCACCAC CAGGCTTTAC CTCCAAAACA GGCCATTACG AGCCTCTCCA TGGTGCTGCA 
    GTTGTCCCTC CTCTGATACC TTCCTCTCAA CATAAGCCAG AAGTCCTGCC CTCGGCTACC 
    AAACCACAGC CTCCACCCCC AACCCTAACT GAGGAGGAGG AGGATCCAGC AATGAAACCA 
    CAGTCCGTGC TCANCAGAGT CAAAATGTTT GAAAACAAAA GATCTGCGTC TTTGGAGAAC 
    AAGAAAGATG TGAATGACAC TGCCAGCTTT AAGCCTCCAG AAGTAGCATC TAAACCTCCA 
    AGTGCTTCTC TTGCTGGCCC TAAACCTGTT CCTCAGAGTC AGTTTAGTGA GCANGACAAA 
    ACACTCTACA GGCTCCCAGA GCCTCAGAAA CCTCAAGTGA AGCCACCCGA NGATATTGTT 
    CGATCAAATC ATTACGACCC TGAAGAGGAT GAAGAATATT ACAGGAAACA GCTCTCTTAC 
    TTTGANCGAA GAAGTTTTGA GAGCAAGCCT TCTGCACATC TTCCTGCTGG CCATCACTCA 
    GAGCCTGCTA AGCCAGTCCA TTCTCAGAGC CAGCCCAACT TTTCTAGTTA CTCTTCAAAG 
    GGAAAACCCG AAACTGATGC TGTGGATAGA TCATTCAGTG AGAAACGTTA TGATCCAGCC 
    CAGGCCACGC CTCCTCCTCC TCCGTTGCCC TCACAGTACA GCCAGCCAGC TCCCCCTCTG 
    TCCAGCTCTT CTCTCCACAT ACATTCCAAG GGCGCCCAGG GCGAAGGCAA TTCAGTATCA 
    TTGGATTTTC AGAACTCATA TATGTCCAAA CCAGACCCAC CCCCATCTCA GAGTAAACCA 
    GCAACTTTCA GACCACCAAC CCGAGAAGAC CCTCCTCAGA CTTTCTATCC CCAGAAANGT 
    TTCCCAGACA AAGCTCCAGT TAANGGAGCT GAGCAGACTC AGAAAACCAT CACTCCAGTG 
    TACAATCGAT TCACACCAAA GCCGTACACA AGTTCTGCCC GGCCGTTTGA ACGCAAATTT 
    GAAAGTCCGA AGTTCAACCA TAATCTTCTG CCAAGTGAAA CTGTACATAA ACCTGAATTG 
    TCTTCAAAAA CTCCCACTTC TCCAAAAACT CTTATGAAAG CTCATAGTTC AACACAGCCT 
    CCAGAGTTTG ACAGTGGAGT TGAAACTTTC TCTGTTCACA CAGATNAGCC TAAATATCAA 
    ATGAATAATA TCAGCACCAT GCCTAAAGCT GTCCCTGTGA GTCCTTCAGC TGTGGAAGAA 
    GATGAAGATG AGGATGGTCA TACTGTAGTG GCTACAGCTC GTGGCATTTT TAACAGCAAT 
    GGTGGTGTGT TGAGTTCCAT AGAAACCGGT GTTAGTATAA TTATCCCACA AGGAGCCATT 
    CCTGAAGGAA TTGAACAAGA AATCTATTTC AAAGTCTGCA GAGACAATAG CATTCTCCCA 
    CCTTTAGATA AAGAGAAAGG TGAAACTCTG CTAAGTCCCC TAGTGATGTG TGGGCCCCAT 
    GGCCTCAAGT TCCTGAAGCC CGTGGAGCTG CGCTTGCCAC ACTGTGACCC TAAAACCTGG 
    CAAAACAAGT GTCTTCCTGG AGATCCGAAT TACCTTGTTG GAGCCAACTG TGTTTCTGTC 
    CTGATTGACC ACTTTTAA

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

    RefSeq XP_021021826.1
    CDS65..5062
    Translation

    Target ORF information:

    RefSeq Version XM_021166167.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli 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_021166167.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGTCCACCA GGGCCGCGGC CGCTAAGAGC ACAGCAATGG AGGAAACGGC TATATGGGAA 
    CAGCACACAG TGATGCTTCA CAGGGCTCCT GGGTTTGGAT TTGGAATTGC AATCTCTGGT 
    GGAAGAGATA ATCCTCATTT TCAGAGTGGG GAAACCTCCA TAGTGATTTC TGATGTGCTA 
    AAAGGAGGGC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAATGGA 
    GTTTCAATGG ATAACGTTGA ACATGCTTTT GCTGTTCAGC AGCTAAGGAA AAGTGGGAAA 
    AACGCAAAAA TTACTATGCG AAGGAAGAAG AAAGTTCAGA TCCCTGTAAG TCACCCAGAT 
    CCTGAGCCGG TGTCTGATAA TGAAGATGAT AGCTACGACG AAGAAGTACA TGATCCAAGA 
    GCTGGCCGCA GTGCTTTAGC GAACAGAAGG AGCGAGAAGA GCTGGGCAAG GGATAGGAGT 
    GCAAGCAGGG AGAGGAGCCT GTCCCCTCGC TCGGACAGGC GGTCGGTGGC CTCCAGTCAG 
    CCCGCAAAAC CCACCAAGGT CGCACTGGTG AAGTCTCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCCA GCCATATATT TGTAAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGTAACATTC AAGAAGGGGA TGTTGTCTTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAAAC ACTGATAGAA AGGTCTAAAG GCAAGTTAAA AATGGTAGTG 
    CAAAGAGATG AGCGGGCTAC CTTACTGAAC GTCCCTGACC TTTCGGATAG TATCCATTCT 
    GCTAATGCCT CGGAAAGAGA TGACATTTCA GAAATTCAGT CACTAGCATC AGACCATTCA 
    GGTCGCTCGC ATGACAGGCC ACCCCGCCGC AGCCAGTCAC GATCTCCTGA CCAACGTTCA 
    GAGCCCTCCG ATCATTCCAC ACAGTCTCCA CAGCAGCCCA GCAATGGCAG TCTCCGGAGC 
    AGAGAGCAAG AGCGAATGTC TAAACCTGGG GCCATCTCAA CTCCTGTAAA ACATGCAGAT 
    GATCATACAC CCAAAGCAGT GGAAGAAGTT ACAGTTGAGA AAAATGAGAA GCAGACACCC 
    ACTCTTCCAG AACCGAAGCC TGTATATGCT CAAGTTGGAC AACCAGATGT GGATTTACCC 
    GTCAGCCCTT CTGATGGTGT TCTGCCTAAT TCAACTCATG AAGATGGGAT ACTTAGGCCC 
    AGCATGAAAC TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGACT AGCTGGTGGA 
    AATGATGTCG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAAGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTG AACAATGTAG ATTTCACAAA TATCATAAGA 
    GAAGAGGCTG TCCTTTTCCT CCTTGACCTC CCTAAAGGTG AAGAAGTGAC CATCCTGGCT 
    CAGAAGAAGA AGGGTGTTTA TCGCCGCATT GTAGAATCAG ATGTAGGAGA TTCATTCTAT 
    ATTAGAACGC ATTTTGAGTA TGAAAAAGAA TCTCCTTACG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GGGTCGTGGA TACTTTATAC AATGGAAAGC TGGGCTCTTG GCTTGCCATT 
    CGAATTGGCA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGTTAG CCAGTGTACA GTACACACTT CCAAAGACAG CGGGTGGTGA TCGGGCAGAC 
    TTCTGGAGGT TTCGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAC 
    TTGTCAGCTC AGCCAGTTCA AACTAAGTTC CCAGCTTATG AAAGGGTTGT TCTTCGAGAA 
    GCTGGATTCC TAAGACCTGT AACCATCTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    TTGGCAAGAG AGGAACCAGA TATCTATCAG ATTGCAAAAA GTGAACCACG AGATGCTGGG 
    ACTGACCATC GTAGCTCTGG CATCATTCGC CTTCATACAA TAAAGCAAAT CATAGATCAG 
    GATAAACATG CGTTATTAGA TGTAACGCCA AATGCGGTTG ATCGTCTTAA TTATGCGCAG 
    TGGTATCCAA TTGTTGTGTT CCTTAACCCT GACTCTAAGC AAGGTGTAAA AACAATGAGG 
    ATGAGGTTAT GTCCGGAGTC TCGGAAAAGC GCCAGGAAGC TATATGAACG CTCTCATAAG 
    CTTCGCAAAA ACAATCACCA CCTTTTCACA ACTACAATTA ACTTAAACTC AATGAATGAT 
    GGTTGGTACG GTGCCCTGAA AGAAGCCATT CAGCAGCAAC AGAACCAGCT GGTGTGGGTC 
    TCTGAGGGGA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCCCCAGG TAGTGAGTAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA TACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTGGG GACTCCCCCG GAGTCTGCCA TTACACNGTC CTCTGAGCCT 
    GTAAGAGAGG ATTCCTCTGG GATGCATCAT GAAAACCAGA CCTATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAAGCTAT TCATAGACTA GACTCCCCTG GACTTAAGCC AGCCTCTCAA 
    CAGGTGTATA GAAAGGAGCC GTATCCTGAA GAAATGATGA GACAAAACCA TATTTTAAAA 
    CAACCAGCTC TTGGTCACCC AGGGCAGAGG CCAGATAAAG AGCCAAATCT AGCCTATGAA 
    CCCCAACTTC CATATANAGA AAAACAAGCC AGCAGAGACC TTGAACAGCC GTCATACAGG 
    TATGAGGCCT CAAGCTACCC AGACCAGTTT TCTCGGAACT ATGACCATCG CCTACGGTTT 
    GAAGATCGAA TCCCTACCTA TGAAGACCAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CAACCTCGGC CTTTTGAGAA TCAGCATCCC CGAGACCTGG ACTCCAGACA ACATCCNGAG 
    GAGGCTTCAG AACGAGGTTA TNTCCAGCGT TTTGAAGAGC CAGCCCCTCT GTCATACGAC 
    AGTAGAACAC GCTATGAGCA GCTGCCTCGA ACCTCTACTC TACGACATGA AGAGCAGCCA 
    GCCCCTGCAT ATGAGGTGCA CAACAGGTAC AGGCCAGAGG CACAGCCCTA TTCTTCAACA 
    GGTCCTAAGT CATCTGAGCC CAAGCAGTAC TTTGACCAGT ACCCGCGAAG TTATGAGCAA 
    GTACCACCAC CAGGCTTTAC CTCCAAAACA GGCCATTACG AGCCTCTCCA TGGTGCTGCA 
    GTTGTCCCTC CTCTGATACC TTCCTCTCAA CATAAGCCAG AAGTCCTGCC CTCGGCTACC 
    AAACCACAGC CTCCACCCCC AACCCTAACT GAGGAGGAGG AGGATCCAGC AATGAAACCA 
    CAGTCCGTGC TCANCAGAGT CAAAATGTTT GAAAACAAAA GATCTGCGTC TTTGGAGAAC 
    AAGAAAGATG TGAATGACAC TGCCAGCTTT AAGCCTCCAG AAGTAGCATC TAAACCTCCA 
    AGTGCTTCTC TTGCTGGCCC TAAACCTGTT CCTCAGAGTC AGTTTAGTGA GCANGACAAA 
    ACACTCTACA GGCTCCCAGA GCCTCAGAAA CCTCAAGTGA AGCCACCCGA NGATATTGTT 
    CGATCAAATC ATTACGACCC TGAAGAGGAT GAAGAATATT ACAGGAAACA GCTCTCTTAC 
    TTTGANCGAA GAAGTTTTGA GAGCAAGCCT TCTGCACATC TTCCTGCTGG CCATCACTCA 
    GAGCCTGCTA AGCCAGTCCA TTCTCAGAGC CAGCCCAACT TTTCTAGTTA CTCTTCAAAG 
    GGAAAACCCG AAACTGATGC TGTGGATAGA TCATTCAGTG AGAAACGTTA TGATCCAGCC 
    CAGGCCACGC CTCCTCCTCC TCCGTTGCCC TCACAGTACA GCCAGCCAGC TCCCCCTCTG 
    TCCAGCTCTT CTCTCCACAT ACATTCCAAG GGCGCCCAGG GCGAAGGCAA TTCAGTATCA 
    TTGGATTTTC AGAACTCATA TATGTCCAAA CCAGACCCAC CCCCATCTCA GAGTAAACCA 
    GCAACTTTCA GACCACCAAC CCGAGAAGAC CCTCCTCAGA CTTTCTATCC CCAGAAANGT 
    TTCCCAGACA AAGCTCCAGT TAANGGAGCT GAGCAGACTC AGAAAACCAT CACTCCAGTG 
    TACAATCGAT TCACACCAAA GCCGTACACA AGTTCTGCCC GGCCGTTTGA ACGCAAATTT 
    GAAAGTCCGA AGTTCAACCA TAATCTTCTG CCAAGTGAAA CTGTACATAA ACCTGAATTG 
    TCTTCAAAAA CTCCCACTTC TCCAAAAACT CTTATGAAAG CTCATAGTTC AACACAGCCT 
    CCAGAGTTTG ACAGTGGAGT TGAAACTTTC TCTGTTCACA CAGATNAGCC TAAATATCAA 
    ATGAATAATA TCAGCACCAT GCCTAAAGCT GTCCCTGTGA GTCCTTCAGC TGTGGAAGAA 
    GATGAAGATG AGGATGGTCA TACTGTAGTG GCTACAGCTC GTGGCATTTT TAACAGCAAT 
    GGTGGTGTGT TGAGTTCCAT AGAAACCGGT GTTAGTATAA TTATCCCACA AGGAGCCATT 
    CCTGAAGGAA TTGAACAAGA AATCTATTTC AAAGTCTGCA GAGACAATAG CATTCTCCCA 
    CCTTTAGATA AAGAGAAAGG TGAAACTCTG CTAAGTCCCC TAGTGATGTG TGGGCCCCAT 
    GGCCTCAAGT TCCTGAAGCC CGTGGAGCTG CGCTTGCCAC ACTGTGACCC TAAAACCTGG 
    CAAAACAAGT GTCTTCCTGG AGATCCGAAT TACCTTGTTG GAGCCAACTG TGTTTCTGTC 
    CTGATTGACC ACTTTTAA

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

    Tjp1 ( XM_029479116.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029334976.1 Mus caroli tight junction protein 1 (Tjp1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMv74613
    Clone ID Related Accession (Same CDS sequence) XM_029479116.1
    Accession Version XM_029479116.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5499bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    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_034576.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGAAGTACC AGAAATACCT GACGGTGCTG CAGATGGCCA TCGGCGTCAC CCCGTCCAAC 
    CGCGGCAGCC TCCTGCCGCT CAAGAGGAAG CTGTGGGTAA CTCCATCCTC TGAAAACCCG 
    CATGGTGCTA CTTCCAATGT CAGCCAAGGA AAACCTTCTC TAAGACGAAT TAAAGGGAGA 
    CTACATCGAA GCAAAAGCCT TGACAGTATC GACTTCTGTG AACTCACTAG CACAGCAATG 
    GAGGAAACGG CTATATGGGA ACAGCACACA GTGACGCTTC ACAGGGCTCC TGGGTTTGGA 
    TTTGGAATTG CAATCTCTGG TGGAAGAGAT AATCCTCATT TTCAGAGTGG GGAAACCTCC 
    ATAGTGATTT CTGATGTGCT AAAAGGAGGG CCAGCTGAAG GACAGCTACA GGAAAATGAC 
    CGAGTTGCAA TGGTTAATGG AGTTTCAATG GATAACGTTG AGCATGCTTT TGCTGTTCAG 
    CAGCTAAGGA AAAGTGGGAA AAACGCAAAA ATTACTATCC GAAGGAAGAA GAAAGTTCAG 
    ATCCCTGTAA GTCACCCAGA TCCTGAGCCG GTGTCTGATA ATGAAGATGA TAGCTACGAC 
    GAAGAAGTAC ATGACCCAAG AGCTGGCCGC GGTGCTTTAG CGAACAGAAG GAGCGAGAAG 
    AGCTGGGCAA GGGATAGGAG TGCAAGCAGG GAGAGGAGCC TGTCCCCTCG CTCGGACAGG 
    CGGTCGGTGG CCTCCAGTCA GCCCGCAAAA CCCACCAAGG TCACACTGGT GAAGTCTCGG 
    AAAAATGAAG AATATGGTCT TCGATTGGCC AGCCATATAT TTGTAAAGGA AATTTCACAA 
    GATAGTTTGG CAGCAAGAGA TGGTAACATT CAAGAAGGGG ATGTTGTCTT GAAGATAAAT 
    GGTACTGTGA CAGAAAATAT GTCATTGACA GATGCAAAAA CACTGATAGA AAGGTCTAAA 
    GGCAAGTTAA AAATGGTAGT GCAAAGAGAT GAGCGGGCTA CCTTACTGAA CGTCCCTGAC 
    CTTTCGGATA GTATCCATTC TGCTAATGCC TCGGAAAGAG ATGACATTTC AGAAATTCAG 
    TCACTAGCAT CAGACCATTC AGGTCGCTCG CATGACAGGC CACCCCGCCG CAGCCAGTCA 
    CGATCTCCTG ACCAACGTTC AGAGCCCTCC GATCATTCCA CACAGTCTCC ACAGCAGCCC 
    AGCAATGGCA GTCTCCGGAG CAGAGAGCAA GAGCGAATGT CTAAACCTGG GGCCATCTCA 
    ACTCCTGTAA AACATGCAGA TGATCATACA CCCAAAGCAG TGGAAGAAGT TACAGTTGAG 
    AAAAATGAGA AGCAGACACC CACTCTTCCA GAACCGAAGC CTGTATATGC TCAAGTTGGA 
    CAACCAGATG TGGATTTACC CGTCAGCCCT TCTGATGGTG TTCTGCCTAA TTCAACTCAT 
    GAAGATGGGA TACTTAGGCC CAGCATGAAA CTGGTAAAAT TCAGAAAAGG AGATAGTGTG 
    GGTTTGCGAC TAGCTGGTGG AAATGATGTC GGAATATTTG TAGCTGGCGT TCTAGAAGAT 
    AGCCCTGCAG CCAAAGAAGG CTTAGAGGAA GGTGATCAAA TTCTCAGGGT GAACAATGTA 
    GATTTCACAA ATATCATAAG AGAAGAGGCT GTCCTTTTCC TCCTTGACCT CCCTAAAGGT 
    GAAGAAGTGA CCATCCTGGC TCAGAAGAAG AAGGGTGTTT ATCGCCGCAT TGTAGAATCA 
    GATGTAGGAG ATTCATTCTA TATTAGAACG CATTTTGAGT ATGAAAAAGA ATCTCCTTAC 
    GGACTTAGTT TTAACAAAGG AGAGGTGTTC CGGGTCGTGG ATACTTTATA CAATGGAAAG 
    CTGGGCTCTT GGCTTGCCAT TCGAATTGGC AAAAATCATA AGGAGGTAGA ACGAGGCATC 
    ATCCCTAATA AGAACAGAGC TGAGCAGTTA GCCAGTGTAC AGTACACACT TCCAAAGACA 
    GCGGGTGGTG ATCGGGCAGA CTTCTGGAGG TTTCGAGGTC TTCGCAGCTC CAAGAGAAAT 
    CTTCGAAAAA GCAGAGAGGA CTTGTCAGCT CAGCCAGTTC AAACTAAGTT CCCAGCTTAT 
    GAAAGGGTTG TTCTTCGAGA AGCTGGATTC CTAAGACCTG TAACCATCTT TGGACCAATA 
    GCTGATGTTG CCAGAGAAAA GTTGGCAAGA GAGGAACCAG ATATCTATCA GATTGCAAAA 
    AGTGAACCAC GAGATGCTGG GACTGACCAT CGTAGCTCTG GCATCATTCG CCTTCATACA 
    ATAAAGCAAA TCATAGATCA GGATAAACAT GCGTTATTAG ATGTAACGCC AAATGCGGTT 
    GATCGTCTTA ATTATGCGCA GTGGTATCCA ATTGTTGTGT TCCTTAACCC TGACTCTAAG 
    CAAGGTGTAA AAACAATGAG GATGAGGTTA TGTCCGGAGT CTCGGAAAAG CGCCAGGAAG 
    CTATATGAAC GCTCTCATAA GCTTCGCAAA AACAATCACC ACCTTTTCAC AACTACAATT 
    AACTTAAACT CAATGAATGA TGGTTGGTAC GGTGCCCTGA AAGAAGCCAT TCAGCAGCAA 
    CAGAACCAGC TGGTGTGGGT CTCTGAGGGG AAGGCGGATG GTGCTACAAG TGATGACCTT 
    GATTTGCATG ATGATCGTCT GTCCTACCTG TCAGCCCCAG GTAGTGAGTA CTCAATGTAT 
    AGCACGGACA GTAGACACAC TTCTGACTAT GAAGACACAG ATACAGAAGG CGGGGCCTAC 
    ACTGATCAAG AACTAGATGA AACTCTTAAT GATGAGGTGG GGACTCCCCC GGAGTCTGCC 
    ATTACACNGT CCTCTGAGCC TGTAAGAGAG GATTCCTCTG GGATGCATCA TGAAAACCAG 
    ACCTATCCTC CTTACTCACC ACAAGCGCAG CCACAAGCTA TTCATAGACT AGACTCCCCT 
    GGACTTAAGC CAGCCTCTCA ACAGAAAGCA GAAGCCTCAT CTCCAGTCCC TTACCTTTCG 
    CCTGAAACAA ACCCAGCATC GTCAGCCTCT GCAGTTAATC CTAATGTCAG TGTAACTAAT 
    GTCAGCCTGG AGGAGCCTGC CCCAGCCCCT CCCGCCTCGC ACGCATCCCA GGCTGGTGGT 
    TTAGGAGCAC CAGGTGCTGA GGCAGCTCAC GTAGTGCTCA GAGGTGAAGG ACCACCATTG 
    CCGCCGCATG CAGACCCAGC ACAGGTGTAT AGAAAGGAGC CGTATCCTGA AGAAATGATG 
    AGACAAAACC ATATTTTAAA ACAACCAGCT CTTGGTCACC CAGGGCAGAG GCCAGATAAA 
    GAGCCAAATC TAGCCTATGA ACCCCAACTT CCATATANAG AAAAACAAGC CAGCAGAGAC 
    CTTGAACAGC CGTCATACAG GTATGAGGCC TCAAGCTACC CAGACCAGTT TTCTCGGAAC 
    TATGACCATC GCCTACGGTT TGAAGATCGA ATCCCTACCT ATGAAGACCA GTGGTCATAT 
    TATGATGACA AACAGCCCTA CCAACCTCGG CCTTTTGAGA ATCAGCATCC CCGAGACCTG 
    GACTCCAGAC AACATCCNGA GGAGGCTTCA GAACGAGGTT ATNTCCAGCG TTTTGAAGAG 
    CCAGCCCCTC TGTCATACGA CAGTAGAACA CGCTATGAGC AGCTGCCTCG AACCTCTACT 
    CTACGACATG AAGAGCAGCC AGCCCCTGCA TATGAGGTGC ACAACAGGTA CAGGCCAGAG 
    GCACAGCCCT ATTCTTCAAC AGGTCCTAAG TCATCTGAGC CCAAGCAGTA CTTTGACCAG 
    TACCCGCGAA GTTATGAGCA AGTACCACCA CCAGGCTTTA CCTCCAAAAC AGGCCATTAC 
    GAGCCTCTCC ATGGTGCTGC AGTTGTCCCT CCTCTGATAC CTTCCTCTCA ACATAAGCCA 
    GAAGTCCTGC CCTCGGCTAC CAAACCACAG CCTCCACCCC CAACCCTAAC TGAGGAGGAG 
    GAGGATCCAG CAATGAAACC ACAGTCCGTG CTCANCAGAG TCAAAATGTT TGAAAACAAA 
    AGATCTGCGT CTTTGGAGAA CAAGAAAGAT GTGAATGACA CTGCCAGCTT TAAGCCTCCA 
    GAAGTAGCAT CTAAACCTCC AAGTGCTTCT CTTGCTGGCC CTAAACCTGT TCCTCAGAGT 
    CAGTTTAGTG AGCANGACAA AACACTCTAC AGGCTCCCAG AGCCTCAGAA ACCTCAAGTG 
    AAGCCACCCG ANGATATTGT TCGATCAAAT CATTACGACC CTGAAGAGGA TGAAGAATAT 
    TACAGGAAAC AGCTCTCTTA CTTTGANCGA AGAAGTTTTG AGAGCAAGCC TTCTGCACAT 
    CTTCCTGCTG GCCATCACTC AGAGCCTGCT AAGCCAGTCC ATTCTCAGAG CCAGCCCAAC 
    TTTTCTAGTT ACTCTTCAAA GGGAAAACCC GAAACTGATG CTGTGGATAG ATCATTCAGT 
    GAGAAACGTT ATGATCCAGC CCAGGCCACG CCTCCTCCTC CTCCGTTGCC CTCACAGTAC 
    AGCCAGCCAG CTCCCCCTCT GTCCAGCTCT TCTCTCCACA TACATTCCAA GGGCGCCCAG 
    GGCGAAGGCA ATTCAGTATC ATTGGATTTT CAGAACTCAT ATATGTCCAA ACCAGACCCA 
    CCCCCATCTC AGAGTAAACC AGCAACTTTC AGACCACCAA CCCGAGAAGA CCCTCCTCAG 
    ACTTTCTATC CCCAGAAANG TTTCCCAGAC AAAGCTCCAG TTAANGGAGC TGAGCAGACT 
    CAGAAAACCA TCACTCCAGT GTACAATCGA TTCACACCAA AGCCGTACAC AAGTTCTGCC 
    CGGCCGTTTG AACGCAAATT TGAAAGTCCG AAGTTCAACC ATAATCTTCT GCCAAGTGAA 
    ACTGTACATA AACCTGAATT GTCTTCAAAA ACTCCCACTT CTCCAAAAAC TCTTATGAAA 
    GCTCATAGTT CAACACAGCC TCCAGAGTTT GACAGTGGAG TTGAAACTTT CTCTGTTCAC 
    ACAGATNAGC CTAAATATCA AATGAATAAT ATCAGCACCA TGCCTAAAGC TGTCCCTGTG 
    AGTCCTTCAG CTGTGGAAGA AGATGAAGAT GAGGATGGTC ATACTGTAGT GGCTACAGCT 
    CGTGGCATTT TTAACAGCAA TGGTGGTGTG TTGAGTTCCA TAGAAACCGG TGTTAGTATA 
    ATTATCCCAC AAGGAGCCAT TCCTGAAGGA ATTGAACAAG AAATCTATTT CAAAGTCTGC 
    AGAGACAATA GCATTCTCCC ACCTTTAGAT AAAGAGAAAG GTGAAACTCT GCTAAGTCCC 
    CTAGTGATGT GTGGGCCCCA TGGCCTCAAG TTCCTGAAGC CCGTGGAGCT GCGCTTGCCA 
    CACTGTGCGT CCATGACTCC TGACGGTTGG TCTTTTGCTC TAAAATCATC CGACTCCTCG 
    TCGGGTGACC CTAAAACCTG GCAAAACAAG TGTCTTCCTG GAGATCCGAA TTACCTTGTT 
    GGAGCCAACT GTGTTTCTGT CCTGATTGAC CACTTTTAA

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

    RefSeq XP_029334976.1
    CDS68..5566
    Translation

    Target ORF information:

    RefSeq Version XM_029479116.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli 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_029479116.1

    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
    ATGAAGTACC AGAAATACCT GACGGTGCTG CAGATGGCCA TCGGCGTCAC CCCGTCCAAC 
    CGCGGCAGCC TCCTGCCGCT CAAGAGGAAG CTGTGGGTAA CTCCATCCTC TGAAAACCCG 
    CATGGTGCTA CTTCCAATGT CAGCCAAGGA AAACCTTCTC TAAGACGAAT TAAAGGGAGA 
    CTACATCGAA GCAAAAGCCT TGACAGTATC GACTTCTGTG AACTCACTAG CACAGCAATG 
    GAGGAAACGG CTATATGGGA ACAGCACACA GTGACGCTTC ACAGGGCTCC TGGGTTTGGA 
    TTTGGAATTG CAATCTCTGG TGGAAGAGAT AATCCTCATT TTCAGAGTGG GGAAACCTCC 
    ATAGTGATTT CTGATGTGCT AAAAGGAGGG CCAGCTGAAG GACAGCTACA GGAAAATGAC 
    CGAGTTGCAA TGGTTAATGG AGTTTCAATG GATAACGTTG AGCATGCTTT TGCTGTTCAG 
    CAGCTAAGGA AAAGTGGGAA AAACGCAAAA ATTACTATCC GAAGGAAGAA GAAAGTTCAG 
    ATCCCTGTAA GTCACCCAGA TCCTGAGCCG GTGTCTGATA ATGAAGATGA TAGCTACGAC 
    GAAGAAGTAC ATGACCCAAG AGCTGGCCGC GGTGCTTTAG CGAACAGAAG GAGCGAGAAG 
    AGCTGGGCAA GGGATAGGAG TGCAAGCAGG GAGAGGAGCC TGTCCCCTCG CTCGGACAGG 
    CGGTCGGTGG CCTCCAGTCA GCCCGCAAAA CCCACCAAGG TCACACTGGT GAAGTCTCGG 
    AAAAATGAAG AATATGGTCT TCGATTGGCC AGCCATATAT TTGTAAAGGA AATTTCACAA 
    GATAGTTTGG CAGCAAGAGA TGGTAACATT CAAGAAGGGG ATGTTGTCTT GAAGATAAAT 
    GGTACTGTGA CAGAAAATAT GTCATTGACA GATGCAAAAA CACTGATAGA AAGGTCTAAA 
    GGCAAGTTAA AAATGGTAGT GCAAAGAGAT GAGCGGGCTA CCTTACTGAA CGTCCCTGAC 
    CTTTCGGATA GTATCCATTC TGCTAATGCC TCGGAAAGAG ATGACATTTC AGAAATTCAG 
    TCACTAGCAT CAGACCATTC AGGTCGCTCG CATGACAGGC CACCCCGCCG CAGCCAGTCA 
    CGATCTCCTG ACCAACGTTC AGAGCCCTCC GATCATTCCA CACAGTCTCC ACAGCAGCCC 
    AGCAATGGCA GTCTCCGGAG CAGAGAGCAA GAGCGAATGT CTAAACCTGG GGCCATCTCA 
    ACTCCTGTAA AACATGCAGA TGATCATACA CCCAAAGCAG TGGAAGAAGT TACAGTTGAG 
    AAAAATGAGA AGCAGACACC CACTCTTCCA GAACCGAAGC CTGTATATGC TCAAGTTGGA 
    CAACCAGATG TGGATTTACC CGTCAGCCCT TCTGATGGTG TTCTGCCTAA TTCAACTCAT 
    GAAGATGGGA TACTTAGGCC CAGCATGAAA CTGGTAAAAT TCAGAAAAGG AGATAGTGTG 
    GGTTTGCGAC TAGCTGGTGG AAATGATGTC GGAATATTTG TAGCTGGCGT TCTAGAAGAT 
    AGCCCTGCAG CCAAAGAAGG CTTAGAGGAA GGTGATCAAA TTCTCAGGGT GAACAATGTA 
    GATTTCACAA ATATCATAAG AGAAGAGGCT GTCCTTTTCC TCCTTGACCT CCCTAAAGGT 
    GAAGAAGTGA CCATCCTGGC TCAGAAGAAG AAGGGTGTTT ATCGCCGCAT TGTAGAATCA 
    GATGTAGGAG ATTCATTCTA TATTAGAACG CATTTTGAGT ATGAAAAAGA ATCTCCTTAC 
    GGACTTAGTT TTAACAAAGG AGAGGTGTTC CGGGTCGTGG ATACTTTATA CAATGGAAAG 
    CTGGGCTCTT GGCTTGCCAT TCGAATTGGC AAAAATCATA AGGAGGTAGA ACGAGGCATC 
    ATCCCTAATA AGAACAGAGC TGAGCAGTTA GCCAGTGTAC AGTACACACT TCCAAAGACA 
    GCGGGTGGTG ATCGGGCAGA CTTCTGGAGG TTTCGAGGTC TTCGCAGCTC CAAGAGAAAT 
    CTTCGAAAAA GCAGAGAGGA CTTGTCAGCT CAGCCAGTTC AAACTAAGTT CCCAGCTTAT 
    GAAAGGGTTG TTCTTCGAGA AGCTGGATTC CTAAGACCTG TAACCATCTT TGGACCAATA 
    GCTGATGTTG CCAGAGAAAA GTTGGCAAGA GAGGAACCAG ATATCTATCA GATTGCAAAA 
    AGTGAACCAC GAGATGCTGG GACTGACCAT CGTAGCTCTG GCATCATTCG CCTTCATACA 
    ATAAAGCAAA TCATAGATCA GGATAAACAT GCGTTATTAG ATGTAACGCC AAATGCGGTT 
    GATCGTCTTA ATTATGCGCA GTGGTATCCA ATTGTTGTGT TCCTTAACCC TGACTCTAAG 
    CAAGGTGTAA AAACAATGAG GATGAGGTTA TGTCCGGAGT CTCGGAAAAG CGCCAGGAAG 
    CTATATGAAC GCTCTCATAA GCTTCGCAAA AACAATCACC ACCTTTTCAC AACTACAATT 
    AACTTAAACT CAATGAATGA TGGTTGGTAC GGTGCCCTGA AAGAAGCCAT TCAGCAGCAA 
    CAGAACCAGC TGGTGTGGGT CTCTGAGGGG AAGGCGGATG GTGCTACAAG TGATGACCTT 
    GATTTGCATG ATGATCGTCT GTCCTACCTG TCAGCCCCAG GTAGTGAGTA CTCAATGTAT 
    AGCACGGACA GTAGACACAC TTCTGACTAT GAAGACACAG ATACAGAAGG CGGGGCCTAC 
    ACTGATCAAG AACTAGATGA AACTCTTAAT GATGAGGTGG GGACTCCCCC GGAGTCTGCC 
    ATTACACNGT CCTCTGAGCC TGTAAGAGAG GATTCCTCTG GGATGCATCA TGAAAACCAG 
    ACCTATCCTC CTTACTCACC ACAAGCGCAG CCACAAGCTA TTCATAGACT AGACTCCCCT 
    GGACTTAAGC CAGCCTCTCA ACAGAAAGCA GAAGCCTCAT CTCCAGTCCC TTACCTTTCG 
    CCTGAAACAA ACCCAGCATC GTCAGCCTCT GCAGTTAATC CTAATGTCAG TGTAACTAAT 
    GTCAGCCTGG AGGAGCCTGC CCCAGCCCCT CCCGCCTCGC ACGCATCCCA GGCTGGTGGT 
    TTAGGAGCAC CAGGTGCTGA GGCAGCTCAC GTAGTGCTCA GAGGTGAAGG ACCACCATTG 
    CCGCCGCATG CAGACCCAGC ACAGGTGTAT AGAAAGGAGC CGTATCCTGA AGAAATGATG 
    AGACAAAACC ATATTTTAAA ACAACCAGCT CTTGGTCACC CAGGGCAGAG GCCAGATAAA 
    GAGCCAAATC TAGCCTATGA ACCCCAACTT CCATATANAG AAAAACAAGC CAGCAGAGAC 
    CTTGAACAGC CGTCATACAG GTATGAGGCC TCAAGCTACC CAGACCAGTT TTCTCGGAAC 
    TATGACCATC GCCTACGGTT TGAAGATCGA ATCCCTACCT ATGAAGACCA GTGGTCATAT 
    TATGATGACA AACAGCCCTA CCAACCTCGG CCTTTTGAGA ATCAGCATCC CCGAGACCTG 
    GACTCCAGAC AACATCCNGA GGAGGCTTCA GAACGAGGTT ATNTCCAGCG TTTTGAAGAG 
    CCAGCCCCTC TGTCATACGA CAGTAGAACA CGCTATGAGC AGCTGCCTCG AACCTCTACT 
    CTACGACATG AAGAGCAGCC AGCCCCTGCA TATGAGGTGC ACAACAGGTA CAGGCCAGAG 
    GCACAGCCCT ATTCTTCAAC AGGTCCTAAG TCATCTGAGC CCAAGCAGTA CTTTGACCAG 
    TACCCGCGAA GTTATGAGCA AGTACCACCA CCAGGCTTTA CCTCCAAAAC AGGCCATTAC 
    GAGCCTCTCC ATGGTGCTGC AGTTGTCCCT CCTCTGATAC CTTCCTCTCA ACATAAGCCA 
    GAAGTCCTGC CCTCGGCTAC CAAACCACAG CCTCCACCCC CAACCCTAAC TGAGGAGGAG 
    GAGGATCCAG CAATGAAACC ACAGTCCGTG CTCANCAGAG TCAAAATGTT TGAAAACAAA 
    AGATCTGCGT CTTTGGAGAA CAAGAAAGAT GTGAATGACA CTGCCAGCTT TAAGCCTCCA 
    GAAGTAGCAT CTAAACCTCC AAGTGCTTCT CTTGCTGGCC CTAAACCTGT TCCTCAGAGT 
    CAGTTTAGTG AGCANGACAA AACACTCTAC AGGCTCCCAG AGCCTCAGAA ACCTCAAGTG 
    AAGCCACCCG ANGATATTGT TCGATCAAAT CATTACGACC CTGAAGAGGA TGAAGAATAT 
    TACAGGAAAC AGCTCTCTTA CTTTGANCGA AGAAGTTTTG AGAGCAAGCC TTCTGCACAT 
    CTTCCTGCTG GCCATCACTC AGAGCCTGCT AAGCCAGTCC ATTCTCAGAG CCAGCCCAAC 
    TTTTCTAGTT ACTCTTCAAA GGGAAAACCC GAAACTGATG CTGTGGATAG ATCATTCAGT 
    GAGAAACGTT ATGATCCAGC CCAGGCCACG CCTCCTCCTC CTCCGTTGCC CTCACAGTAC 
    AGCCAGCCAG CTCCCCCTCT GTCCAGCTCT TCTCTCCACA TACATTCCAA GGGCGCCCAG 
    GGCGAAGGCA ATTCAGTATC ATTGGATTTT CAGAACTCAT ATATGTCCAA ACCAGACCCA 
    CCCCCATCTC AGAGTAAACC AGCAACTTTC AGACCACCAA CCCGAGAAGA CCCTCCTCAG 
    ACTTTCTATC CCCAGAAANG TTTCCCAGAC AAAGCTCCAG TTAANGGAGC TGAGCAGACT 
    CAGAAAACCA TCACTCCAGT GTACAATCGA TTCACACCAA AGCCGTACAC AAGTTCTGCC 
    CGGCCGTTTG AACGCAAATT TGAAAGTCCG AAGTTCAACC ATAATCTTCT GCCAAGTGAA 
    ACTGTACATA AACCTGAATT GTCTTCAAAA ACTCCCACTT CTCCAAAAAC TCTTATGAAA 
    GCTCATAGTT CAACACAGCC TCCAGAGTTT GACAGTGGAG TTGAAACTTT CTCTGTTCAC 
    ACAGATNAGC CTAAATATCA AATGAATAAT ATCAGCACCA TGCCTAAAGC TGTCCCTGTG 
    AGTCCTTCAG CTGTGGAAGA AGATGAAGAT GAGGATGGTC ATACTGTAGT GGCTACAGCT 
    CGTGGCATTT TTAACAGCAA TGGTGGTGTG TTGAGTTCCA TAGAAACCGG TGTTAGTATA 
    ATTATCCCAC AAGGAGCCAT TCCTGAAGGA ATTGAACAAG AAATCTATTT CAAAGTCTGC 
    AGAGACAATA GCATTCTCCC ACCTTTAGAT AAAGAGAAAG GTGAAACTCT GCTAAGTCCC 
    CTAGTGATGT GTGGGCCCCA TGGCCTCAAG TTCCTGAAGC CCGTGGAGCT GCGCTTGCCA 
    CACTGTGCGT CCATGACTCC TGACGGTTGG TCTTTTGCTC TAAAATCATC CGACTCCTCG 
    TCGGGTGACC CTAAAACCTG GCAAAACAAG TGTCTTCCTG GAGATCCGAA TTACCTTGTT 
    GGAGCCAACT GTGTTTCTGT CCTGATTGAC CACTTTTAA

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

    Tjp1 ( XM_029479117.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029334977.1 Mus caroli tight junction protein 1 (Tjp1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMv74614
    Clone ID Related Accession (Same CDS sequence) XM_029479117.1
    Accession Version XM_029479117.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5298bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    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_034576.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGTCCGCCA GGGCCGCGGC CGCTAAGAGC ACAGCAATGG AGGAAACGGC TATATGGGAA 
    CAGCACACAG TGACGCTTCA CAGGGCTCCT GGGTTTGGAT TTGGAATTGC AATCTCTGGT 
    GGAAGAGATA ATCCTCATTT TCAGAGTGGG GAAACCTCCA TAGTGATTTC TGATGTGCTA 
    AAAGGAGGGC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAATGGA 
    GTTTCAATGG ATAACGTTGA GCATGCTTTT GCTGTTCAGC AGCTAAGGAA AAGTGGGAAA 
    AACGCAAAAA TTACTATCCG AAGGAAGAAG AAAGTTCAGA TCCCTGTAAG TCACCCAGAT 
    CCTGAGCCGG TGTCTGATAA TGAAGATGAT AGCTACGACG AAGAAGTACA TGACCCAAGA 
    GCTGGCCGCG GTGCTTTAGC GAACAGAAGG AGCGAGAAGA GCTGGGCAAG GGATAGGAGT 
    GCAAGCAGGG AGAGGAGCCT GTCCCCTCGC TCGGACAGGC GGTCGGTGGC CTCCAGTCAG 
    CCCGCAAAAC CCACCAAGGT CACACTGGTG AAGTCTCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCCA GCCATATATT TGTAAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGTAACATTC AAGAAGGGGA TGTTGTCTTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAAAC ACTGATAGAA AGGTCTAAAG GCAAGTTAAA AATGGTAGTG 
    CAAAGAGATG AGCGGGCTAC CTTACTGAAC GTCCCTGACC TTTCGGATAG TATCCATTCT 
    GCTAATGCCT CGGAAAGAGA TGACATTTCA GAAATTCAGT CACTAGCATC AGACCATTCA 
    GGTCGCTCGC ATGACAGGCC ACCCCGCCGC AGCCAGTCAC GATCTCCTGA CCAACGTTCA 
    GAGCCCTCCG ATCATTCCAC ACAGTCTCCA CAGCAGCCCA GCAATGGCAG TCTCCGGAGC 
    AGAGAGCAAG AGCGAATGTC TAAACCTGGG GCCATCTCAA CTCCTGTAAA ACATGCAGAT 
    GATCATACAC CCAAAGCAGT GGAAGAAGTT ACAGTTGAGA AAAATGAGAA GCAGACACCC 
    ACTCTTCCAG AACCGAAGCC TGTATATGCT CAAGTTGGAC AACCAGATGT GGATTTACCC 
    GTCAGCCCTT CTGATGGTGT TCTGCCTAAT TCAACTCATG AAGATGGGAT ACTTAGGCCC 
    AGCATGAAAC TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGACT AGCTGGTGGA 
    AATGATGTCG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAAGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTG AACAATGTAG ATTTCACAAA TATCATAAGA 
    GAAGAGGCTG TCCTTTTCCT CCTTGACCTC CCTAAAGGTG AAGAAGTGAC CATCCTGGCT 
    CAGAAGAAGA AGGGTGTTTA TCGCCGCATT GTAGAATCAG ATGTAGGAGA TTCATTCTAT 
    ATTAGAACGC ATTTTGAGTA TGAAAAAGAA TCTCCTTACG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GGGTCGTGGA TACTTTATAC AATGGAAAGC TGGGCTCTTG GCTTGCCATT 
    CGAATTGGCA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGTTAG CCAGTGTACA GTACACACTT CCAAAGACAG CGGGTGGTGA TCGGGCAGAC 
    TTCTGGAGGT TTCGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAC 
    TTGTCAGCTC AGCCAGTTCA AACTAAGTTC CCAGCTTATG AAAGGGTTGT TCTTCGAGAA 
    GCTGGATTCC TAAGACCTGT AACCATCTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    TTGGCAAGAG AGGAACCAGA TATCTATCAG ATTGCAAAAA GTGAACCACG AGATGCTGGG 
    ACTGACCATC GTAGCTCTGG CATCATTCGC CTTCATACAA TAAAGCAAAT CATAGATCAG 
    GATAAACATG CGTTATTAGA TGTAACGCCA AATGCGGTTG ATCGTCTTAA TTATGCGCAG 
    TGGTATCCAA TTGTTGTGTT CCTTAACCCT GACTCTAAGC AAGGTGTAAA AACAATGAGG 
    ATGAGGTTAT GTCCGGAGTC TCGGAAAAGC GCCAGGAAGC TATATGAACG CTCTCATAAG 
    CTTCGCAAAA ACAATCACCA CCTTTTCACA ACTACAATTA ACTTAAACTC AATGAATGAT 
    GGTTGGTACG GTGCCCTGAA AGAAGCCATT CAGCAGCAAC AGAACCAGCT GGTGTGGGTC 
    TCTGAGGGGA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCCCCAGG TAGTGAGTAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA TACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTGGG GACTCCCCCG GAGTCTGCCA TTACACNGTC CTCTGAGCCT 
    GTAAGAGAGG ATTCCTCTGG GATGCATCAT GAAAACCAGA CCTATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAAGCTAT TCATAGACTA GACTCCCCTG GACTTAAGCC AGCCTCTCAA 
    CAGAAAGCAG AAGCCTCATC TCCAGTCCCT TACCTTTCGC CTGAAACAAA CCCAGCATCG 
    TCAGCCTCTG CAGTTAATCC TAATGTCAGT GTAACTAATG TCAGCCTGGA GGAGCCTGCC 
    CCAGCCCCTC CCGCCTCGCA CGCATCCCAG GCTGGTGGTT TAGGAGCACC AGGTGCTGAG 
    GCAGCTCACG TAGTGCTCAG AGGTGAAGGA CCACCATTGC CGCCGCATGC AGACCCAGCA 
    CAGGTGTATA GAAAGGAGCC GTATCCTGAA GAAATGATGA GACAAAACCA TATTTTAAAA 
    CAACCAGCTC TTGGTCACCC AGGGCAGAGG CCAGATAAAG AGCCAAATCT AGCCTATGAA 
    CCCCAACTTC CATATANAGA AAAACAAGCC AGCAGAGACC TTGAACAGCC GTCATACAGG 
    TATGAGGCCT CAAGCTACCC AGACCAGTTT TCTCGGAACT ATGACCATCG CCTACGGTTT 
    GAAGATCGAA TCCCTACCTA TGAAGACCAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CAACCTCGGC CTTTTGAGAA TCAGCATCCC CGAGACCTGG ACTCCAGACA ACATCCNGAG 
    GAGGCTTCAG AACGAGGTTA TNTCCAGCGT TTTGAAGAGC CAGCCCCTCT GTCATACGAC 
    AGTAGAACAC GCTATGAGCA GCTGCCTCGA ACCTCTACTC TACGACATGA AGAGCAGCCA 
    GCCCCTGCAT ATGAGGTGCA CAACAGGTAC AGGCCAGAGG CACAGCCCTA TTCTTCAACA 
    GGTCCTAAGT CATCTGAGCC CAAGCAGTAC TTTGACCAGT ACCCGCGAAG TTATGAGCAA 
    GTACCACCAC CAGGCTTTAC CTCCAAAACA GGCCATTACG AGCCTCTCCA TGGTGCTGCA 
    GTTGTCCCTC CTCTGATACC TTCCTCTCAA CATAAGCCAG AAGTCCTGCC CTCGGCTACC 
    AAACCACAGC CTCCACCCCC AACCCTAACT GAGGAGGAGG AGGATCCAGC AATGAAACCA 
    CAGTCCGTGC TCANCAGAGT CAAAATGTTT GAAAACAAAA GATCTGCGTC TTTGGAGAAC 
    AAGAAAGATG TGAATGACAC TGCCAGCTTT AAGCCTCCAG AAGTAGCATC TAAACCTCCA 
    AGTGCTTCTC TTGCTGGCCC TAAACCTGTT CCTCAGAGTC AGTTTAGTGA GCANGACAAA 
    ACACTCTACA GGCTCCCAGA GCCTCAGAAA CCTCAAGTGA AGCCACCCGA NGATATTGTT 
    CGATCAAATC ATTACGACCC TGAAGAGGAT GAAGAATATT ACAGGAAACA GCTCTCTTAC 
    TTTGANCGAA GAAGTTTTGA GAGCAAGCCT TCTGCACATC TTCCTGCTGG CCATCACTCA 
    GAGCCTGCTA AGCCAGTCCA TTCTCAGAGC CAGCCCAACT TTTCTAGTTA CTCTTCAAAG 
    GGAAAACCCG AAACTGATGC TGTGGATAGA TCATTCAGTG AGAAACGTTA TGATCCAGCC 
    CAGGCCACGC CTCCTCCTCC TCCGTTGCCC TCACAGTACA GCCAGCCAGC TCCCCCTCTG 
    TCCAGCTCTT CTCTCCACAT ACATTCCAAG GGCGCCCAGG GCGAAGGCAA TTCAGTATCA 
    TTGGATTTTC AGAACTCATA TATGTCCAAA CCAGACCCAC CCCCATCTCA GAGTAAACCA 
    GCAACTTTCA GACCACCAAC CCGAGAAGAC CCTCCTCAGA CTTTCTATCC CCAGAAANGT 
    TTCCCAGACA AAGCTCCAGT TAANGGAGCT GAGCAGACTC AGAAAACCAT CACTCCAGTG 
    TACAATCGAT TCACACCAAA GCCGTACACA AGTTCTGCCC GGCCGTTTGA ACGCAAATTT 
    GAAAGTCCGA AGTTCAACCA TAATCTTCTG CCAAGTGAAA CTGTACATAA ACCTGAATTG 
    TCTTCAAAAA CTCCCACTTC TCCAAAAACT CTTATGAAAG CTCATAGTTC AACACAGCCT 
    CCAGAGTTTG ACAGTGGAGT TGAAACTTTC TCTGTTCACA CAGATNAGCC TAAATATCAA 
    ATGAATAATA TCAGCACCAT GCCTAAAGCT GTCCCTGTGA GTCCTTCAGC TGTGGAAGAA 
    GATGAAGATG AGGATGGTCA TACTGTAGTG GCTACAGCTC GTGGCATTTT TAACAGCAAT 
    GGTGGTGTGT TGAGTTCCAT AGAAACCGGT GTTAGTATAA TTATCCCACA AGGAGCCATT 
    CCTGAAGGAA TTGAACAAGA AATCTATTTC AAAGTCTGCA GAGACAATAG CATTCTCCCA 
    CCTTTAGATA AAGAGAAAGG TGAAACTCTG CTAAGTCCCC TAGTGATGTG TGGGCCCCAT 
    GGCCTCAAGT TCCTGAAGCC CGTGGAGCTG CGCTTGCCAC ACTGTGCGTC CATGACTCCT 
    GACGGTTGGT CTTTTGCTCT AAAATCATCC GACTCCTCGT CGGGTGACCC TAAAACCTGG 
    CAAAACAAGT GTCTTCCTGG AGATCCGAAT TACCTTGTTG GAGCCAACTG TGTTTCTGTC 
    CTGATTGACC ACTTTTAA

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

    RefSeq XP_029334977.1
    CDS420..5717
    Translation

    Target ORF information:

    RefSeq Version XM_029479117.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli 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_029479117.1

    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
    ATGTCCGCCA GGGCCGCGGC CGCTAAGAGC ACAGCAATGG AGGAAACGGC TATATGGGAA 
    CAGCACACAG TGACGCTTCA CAGGGCTCCT GGGTTTGGAT TTGGAATTGC AATCTCTGGT 
    GGAAGAGATA ATCCTCATTT TCAGAGTGGG GAAACCTCCA TAGTGATTTC TGATGTGCTA 
    AAAGGAGGGC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAATGGA 
    GTTTCAATGG ATAACGTTGA GCATGCTTTT GCTGTTCAGC AGCTAAGGAA AAGTGGGAAA 
    AACGCAAAAA TTACTATCCG AAGGAAGAAG AAAGTTCAGA TCCCTGTAAG TCACCCAGAT 
    CCTGAGCCGG TGTCTGATAA TGAAGATGAT AGCTACGACG AAGAAGTACA TGACCCAAGA 
    GCTGGCCGCG GTGCTTTAGC GAACAGAAGG AGCGAGAAGA GCTGGGCAAG GGATAGGAGT 
    GCAAGCAGGG AGAGGAGCCT GTCCCCTCGC TCGGACAGGC GGTCGGTGGC CTCCAGTCAG 
    CCCGCAAAAC CCACCAAGGT CACACTGGTG AAGTCTCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCCA GCCATATATT TGTAAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGTAACATTC AAGAAGGGGA TGTTGTCTTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAAAC ACTGATAGAA AGGTCTAAAG GCAAGTTAAA AATGGTAGTG 
    CAAAGAGATG AGCGGGCTAC CTTACTGAAC GTCCCTGACC TTTCGGATAG TATCCATTCT 
    GCTAATGCCT CGGAAAGAGA TGACATTTCA GAAATTCAGT CACTAGCATC AGACCATTCA 
    GGTCGCTCGC ATGACAGGCC ACCCCGCCGC AGCCAGTCAC GATCTCCTGA CCAACGTTCA 
    GAGCCCTCCG ATCATTCCAC ACAGTCTCCA CAGCAGCCCA GCAATGGCAG TCTCCGGAGC 
    AGAGAGCAAG AGCGAATGTC TAAACCTGGG GCCATCTCAA CTCCTGTAAA ACATGCAGAT 
    GATCATACAC CCAAAGCAGT GGAAGAAGTT ACAGTTGAGA AAAATGAGAA GCAGACACCC 
    ACTCTTCCAG AACCGAAGCC TGTATATGCT CAAGTTGGAC AACCAGATGT GGATTTACCC 
    GTCAGCCCTT CTGATGGTGT TCTGCCTAAT TCAACTCATG AAGATGGGAT ACTTAGGCCC 
    AGCATGAAAC TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGACT AGCTGGTGGA 
    AATGATGTCG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAAGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTG AACAATGTAG ATTTCACAAA TATCATAAGA 
    GAAGAGGCTG TCCTTTTCCT CCTTGACCTC CCTAAAGGTG AAGAAGTGAC CATCCTGGCT 
    CAGAAGAAGA AGGGTGTTTA TCGCCGCATT GTAGAATCAG ATGTAGGAGA TTCATTCTAT 
    ATTAGAACGC ATTTTGAGTA TGAAAAAGAA TCTCCTTACG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GGGTCGTGGA TACTTTATAC AATGGAAAGC TGGGCTCTTG GCTTGCCATT 
    CGAATTGGCA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGTTAG CCAGTGTACA GTACACACTT CCAAAGACAG CGGGTGGTGA TCGGGCAGAC 
    TTCTGGAGGT TTCGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAC 
    TTGTCAGCTC AGCCAGTTCA AACTAAGTTC CCAGCTTATG AAAGGGTTGT TCTTCGAGAA 
    GCTGGATTCC TAAGACCTGT AACCATCTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    TTGGCAAGAG AGGAACCAGA TATCTATCAG ATTGCAAAAA GTGAACCACG AGATGCTGGG 
    ACTGACCATC GTAGCTCTGG CATCATTCGC CTTCATACAA TAAAGCAAAT CATAGATCAG 
    GATAAACATG CGTTATTAGA TGTAACGCCA AATGCGGTTG ATCGTCTTAA TTATGCGCAG 
    TGGTATCCAA TTGTTGTGTT CCTTAACCCT GACTCTAAGC AAGGTGTAAA AACAATGAGG 
    ATGAGGTTAT GTCCGGAGTC TCGGAAAAGC GCCAGGAAGC TATATGAACG CTCTCATAAG 
    CTTCGCAAAA ACAATCACCA CCTTTTCACA ACTACAATTA ACTTAAACTC AATGAATGAT 
    GGTTGGTACG GTGCCCTGAA AGAAGCCATT CAGCAGCAAC AGAACCAGCT GGTGTGGGTC 
    TCTGAGGGGA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCCCCAGG TAGTGAGTAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA TACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTGGG GACTCCCCCG GAGTCTGCCA TTACACNGTC CTCTGAGCCT 
    GTAAGAGAGG ATTCCTCTGG GATGCATCAT GAAAACCAGA CCTATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAAGCTAT TCATAGACTA GACTCCCCTG GACTTAAGCC AGCCTCTCAA 
    CAGAAAGCAG AAGCCTCATC TCCAGTCCCT TACCTTTCGC CTGAAACAAA CCCAGCATCG 
    TCAGCCTCTG CAGTTAATCC TAATGTCAGT GTAACTAATG TCAGCCTGGA GGAGCCTGCC 
    CCAGCCCCTC CCGCCTCGCA CGCATCCCAG GCTGGTGGTT TAGGAGCACC AGGTGCTGAG 
    GCAGCTCACG TAGTGCTCAG AGGTGAAGGA CCACCATTGC CGCCGCATGC AGACCCAGCA 
    CAGGTGTATA GAAAGGAGCC GTATCCTGAA GAAATGATGA GACAAAACCA TATTTTAAAA 
    CAACCAGCTC TTGGTCACCC AGGGCAGAGG CCAGATAAAG AGCCAAATCT AGCCTATGAA 
    CCCCAACTTC CATATANAGA AAAACAAGCC AGCAGAGACC TTGAACAGCC GTCATACAGG 
    TATGAGGCCT CAAGCTACCC AGACCAGTTT TCTCGGAACT ATGACCATCG CCTACGGTTT 
    GAAGATCGAA TCCCTACCTA TGAAGACCAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CAACCTCGGC CTTTTGAGAA TCAGCATCCC CGAGACCTGG ACTCCAGACA ACATCCNGAG 
    GAGGCTTCAG AACGAGGTTA TNTCCAGCGT TTTGAAGAGC CAGCCCCTCT GTCATACGAC 
    AGTAGAACAC GCTATGAGCA GCTGCCTCGA ACCTCTACTC TACGACATGA AGAGCAGCCA 
    GCCCCTGCAT ATGAGGTGCA CAACAGGTAC AGGCCAGAGG CACAGCCCTA TTCTTCAACA 
    GGTCCTAAGT CATCTGAGCC CAAGCAGTAC TTTGACCAGT ACCCGCGAAG TTATGAGCAA 
    GTACCACCAC CAGGCTTTAC CTCCAAAACA GGCCATTACG AGCCTCTCCA TGGTGCTGCA 
    GTTGTCCCTC CTCTGATACC TTCCTCTCAA CATAAGCCAG AAGTCCTGCC CTCGGCTACC 
    AAACCACAGC CTCCACCCCC AACCCTAACT GAGGAGGAGG AGGATCCAGC AATGAAACCA 
    CAGTCCGTGC TCANCAGAGT CAAAATGTTT GAAAACAAAA GATCTGCGTC TTTGGAGAAC 
    AAGAAAGATG TGAATGACAC TGCCAGCTTT AAGCCTCCAG AAGTAGCATC TAAACCTCCA 
    AGTGCTTCTC TTGCTGGCCC TAAACCTGTT CCTCAGAGTC AGTTTAGTGA GCANGACAAA 
    ACACTCTACA GGCTCCCAGA GCCTCAGAAA CCTCAAGTGA AGCCACCCGA NGATATTGTT 
    CGATCAAATC ATTACGACCC TGAAGAGGAT GAAGAATATT ACAGGAAACA GCTCTCTTAC 
    TTTGANCGAA GAAGTTTTGA GAGCAAGCCT TCTGCACATC TTCCTGCTGG CCATCACTCA 
    GAGCCTGCTA AGCCAGTCCA TTCTCAGAGC CAGCCCAACT TTTCTAGTTA CTCTTCAAAG 
    GGAAAACCCG AAACTGATGC TGTGGATAGA TCATTCAGTG AGAAACGTTA TGATCCAGCC 
    CAGGCCACGC CTCCTCCTCC TCCGTTGCCC TCACAGTACA GCCAGCCAGC TCCCCCTCTG 
    TCCAGCTCTT CTCTCCACAT ACATTCCAAG GGCGCCCAGG GCGAAGGCAA TTCAGTATCA 
    TTGGATTTTC AGAACTCATA TATGTCCAAA CCAGACCCAC CCCCATCTCA GAGTAAACCA 
    GCAACTTTCA GACCACCAAC CCGAGAAGAC CCTCCTCAGA CTTTCTATCC CCAGAAANGT 
    TTCCCAGACA AAGCTCCAGT TAANGGAGCT GAGCAGACTC AGAAAACCAT CACTCCAGTG 
    TACAATCGAT TCACACCAAA GCCGTACACA AGTTCTGCCC GGCCGTTTGA ACGCAAATTT 
    GAAAGTCCGA AGTTCAACCA TAATCTTCTG CCAAGTGAAA CTGTACATAA ACCTGAATTG 
    TCTTCAAAAA CTCCCACTTC TCCAAAAACT CTTATGAAAG CTCATAGTTC AACACAGCCT 
    CCAGAGTTTG ACAGTGGAGT TGAAACTTTC TCTGTTCACA CAGATNAGCC TAAATATCAA 
    ATGAATAATA TCAGCACCAT GCCTAAAGCT GTCCCTGTGA GTCCTTCAGC TGTGGAAGAA 
    GATGAAGATG AGGATGGTCA TACTGTAGTG GCTACAGCTC GTGGCATTTT TAACAGCAAT 
    GGTGGTGTGT TGAGTTCCAT AGAAACCGGT GTTAGTATAA TTATCCCACA AGGAGCCATT 
    CCTGAAGGAA TTGAACAAGA AATCTATTTC AAAGTCTGCA GAGACAATAG CATTCTCCCA 
    CCTTTAGATA AAGAGAAAGG TGAAACTCTG CTAAGTCCCC TAGTGATGTG TGGGCCCCAT 
    GGCCTCAAGT TCCTGAAGCC CGTGGAGCTG CGCTTGCCAC ACTGTGCGTC CATGACTCCT 
    GACGGTTGGT CTTTTGCTCT AAAATCATCC GACTCCTCGT CGGGTGACCC TAAAACCTGG 
    CAAAACAAGT GTCTTCCTGG AGATCCGAAT TACCTTGTTG GAGCCAACTG TGTTTCTGTC 
    CTGATTGACC ACTTTTAA

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

    Tjp1 ( XM_029479118.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029334978.1 Mus caroli tight junction protein 1 (Tjp1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OMv74615
    Clone ID Related Accession (Same CDS sequence) XM_029479118.1
    Accession Version XM_029479118.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5262bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    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_034576.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGGAGGAAA CGGCTATATG GGAACAGCAC ACAGTGACGC TTCACAGGGC TCCTGGGTTT 
    GGATTTGGAA TTGCAATCTC TGGTGGAAGA GATAATCCTC ATTTTCAGAG TGGGGAAACC 
    TCCATAGTGA TTTCTGATGT GCTAAAAGGA GGGCCAGCTG AAGGACAGCT ACAGGAAAAT 
    GACCGAGTTG CAATGGTTAA TGGAGTTTCA ATGGATAACG TTGAGCATGC TTTTGCTGTT 
    CAGCAGCTAA GGAAAAGTGG GAAAAACGCA AAAATTACTA TCCGAAGGAA GAAGAAAGTT 
    CAGATCCCTG TAAGTCACCC AGATCCTGAG CCGGTGTCTG ATAATGAAGA TGATAGCTAC 
    GACGAAGAAG TACATGACCC AAGAGCTGGC CGCGGTGCTT TAGCGAACAG AAGGAGCGAG 
    AAGAGCTGGG CAAGGGATAG GAGTGCAAGC AGGGAGAGGA GCCTGTCCCC TCGCTCGGAC 
    AGGCGGTCGG TGGCCTCCAG TCAGCCCGCA AAACCCACCA AGGTCACACT GGTGAAGTCT 
    CGGAAAAATG AAGAATATGG TCTTCGATTG GCCAGCCATA TATTTGTAAA GGAAATTTCA 
    CAAGATAGTT TGGCAGCAAG AGATGGTAAC ATTCAAGAAG GGGATGTTGT CTTGAAGATA 
    AATGGTACTG TGACAGAAAA TATGTCATTG ACAGATGCAA AAACACTGAT AGAAAGGTCT 
    AAAGGCAAGT TAAAAATGGT AGTGCAAAGA GATGAGCGGG CTACCTTACT GAACGTCCCT 
    GACCTTTCGG ATAGTATCCA TTCTGCTAAT GCCTCGGAAA GAGATGACAT TTCAGAAATT 
    CAGTCACTAG CATCAGACCA TTCAGGTCGC TCGCATGACA GGCCACCCCG CCGCAGCCAG 
    TCACGATCTC CTGACCAACG TTCAGAGCCC TCCGATCATT CCACACAGTC TCCACAGCAG 
    CCCAGCAATG GCAGTCTCCG GAGCAGAGAG CAAGAGCGAA TGTCTAAACC TGGGGCCATC 
    TCAACTCCTG TAAAACATGC AGATGATCAT ACACCCAAAG CAGTGGAAGA AGTTACAGTT 
    GAGAAAAATG AGAAGCAGAC ACCCACTCTT CCAGAACCGA AGCCTGTATA TGCTCAAGTT 
    GGACAACCAG ATGTGGATTT ACCCGTCAGC CCTTCTGATG GTGTTCTGCC TAATTCAACT 
    CATGAAGATG GGATACTTAG GCCCAGCATG AAACTGGTAA AATTCAGAAA AGGAGATAGT 
    GTGGGTTTGC GACTAGCTGG TGGAAATGAT GTCGGAATAT TTGTAGCTGG CGTTCTAGAA 
    GATAGCCCTG CAGCCAAAGA AGGCTTAGAG GAAGGTGATC AAATTCTCAG GGTGAACAAT 
    GTAGATTTCA CAAATATCAT AAGAGAAGAG GCTGTCCTTT TCCTCCTTGA CCTCCCTAAA 
    GGTGAAGAAG TGACCATCCT GGCTCAGAAG AAGAAGGGTG TTTATCGCCG CATTGTAGAA 
    TCAGATGTAG GAGATTCATT CTATATTAGA ACGCATTTTG AGTATGAAAA AGAATCTCCT 
    TACGGACTTA GTTTTAACAA AGGAGAGGTG TTCCGGGTCG TGGATACTTT ATACAATGGA 
    AAGCTGGGCT CTTGGCTTGC CATTCGAATT GGCAAAAATC ATAAGGAGGT AGAACGAGGC 
    ATCATCCCTA ATAAGAACAG AGCTGAGCAG TTAGCCAGTG TACAGTACAC ACTTCCAAAG 
    ACAGCGGGTG GTGATCGGGC AGACTTCTGG AGGTTTCGAG GTCTTCGCAG CTCCAAGAGA 
    AATCTTCGAA AAAGCAGAGA GGACTTGTCA GCTCAGCCAG TTCAAACTAA GTTCCCAGCT 
    TATGAAAGGG TTGTTCTTCG AGAAGCTGGA TTCCTAAGAC CTGTAACCAT CTTTGGACCA 
    ATAGCTGATG TTGCCAGAGA AAAGTTGGCA AGAGAGGAAC CAGATATCTA TCAGATTGCA 
    AAAAGTGAAC CACGAGATGC TGGGACTGAC CATCGTAGCT CTGGCATCAT TCGCCTTCAT 
    ACAATAAAGC AAATCATAGA TCAGGATAAA CATGCGTTAT TAGATGTAAC GCCAAATGCG 
    GTTGATCGTC TTAATTATGC GCAGTGGTAT CCAATTGTTG TGTTCCTTAA CCCTGACTCT 
    AAGCAAGGTG TAAAAACAAT GAGGATGAGG TTATGTCCGG AGTCTCGGAA AAGCGCCAGG 
    AAGCTATATG AACGCTCTCA TAAGCTTCGC AAAAACAATC ACCACCTTTT CACAACTACA 
    ATTAACTTAA ACTCAATGAA TGATGGTTGG TACGGTGCCC TGAAAGAAGC CATTCAGCAG 
    CAACAGAACC AGCTGGTGTG GGTCTCTGAG GGGAAGGCGG ATGGTGCTAC AAGTGATGAC 
    CTTGATTTGC ATGATGATCG TCTGTCCTAC CTGTCAGCCC CAGGTAGTGA GTACTCAATG 
    TATAGCACGG ACAGTAGACA CACTTCTGAC TATGAAGACA CAGATACAGA AGGCGGGGCC 
    TACACTGATC AAGAACTAGA TGAAACTCTT AATGATGAGG TGGGGACTCC CCCGGAGTCT 
    GCCATTACAC NGTCCTCTGA GCCTGTAAGA GAGGATTCCT CTGGGATGCA TCATGAAAAC 
    CAGACCTATC CTCCTTACTC ACCACAAGCG CAGCCACAAG CTATTCATAG ACTAGACTCC 
    CCTGGACTTA AGCCAGCCTC TCAACAGAAA GCAGAAGCCT CATCTCCAGT CCCTTACCTT 
    TCGCCTGAAA CAAACCCAGC ATCGTCAGCC TCTGCAGTTA ATCCTAATGT CAGTGTAACT 
    AATGTCAGCC TGGAGGAGCC TGCCCCAGCC CCTCCCGCCT CGCACGCATC CCAGGCTGGT 
    GGTTTAGGAG CACCAGGTGC TGAGGCAGCT CACGTAGTGC TCAGAGGTGA AGGACCACCA 
    TTGCCGCCGC ATGCAGACCC AGCACAGGTG TATAGAAAGG AGCCGTATCC TGAAGAAATG 
    ATGAGACAAA ACCATATTTT AAAACAACCA GCTCTTGGTC ACCCAGGGCA GAGGCCAGAT 
    AAAGAGCCAA ATCTAGCCTA TGAACCCCAA CTTCCATATA NAGAAAAACA AGCCAGCAGA 
    GACCTTGAAC AGCCGTCATA CAGGTATGAG GCCTCAAGCT ACCCAGACCA GTTTTCTCGG 
    AACTATGACC ATCGCCTACG GTTTGAAGAT CGAATCCCTA CCTATGAAGA CCAGTGGTCA 
    TATTATGATG ACAAACAGCC CTACCAACCT CGGCCTTTTG AGAATCAGCA TCCCCGAGAC 
    CTGGACTCCA GACAACATCC NGAGGAGGCT TCAGAACGAG GTTATNTCCA GCGTTTTGAA 
    GAGCCAGCCC CTCTGTCATA CGACAGTAGA ACACGCTATG AGCAGCTGCC TCGAACCTCT 
    ACTCTACGAC ATGAAGAGCA GCCAGCCCCT GCATATGAGG TGCACAACAG GTACAGGCCA 
    GAGGCACAGC CCTATTCTTC AACAGGTCCT AAGTCATCTG AGCCCAAGCA GTACTTTGAC 
    CAGTACCCGC GAAGTTATGA GCAAGTACCA CCACCAGGCT TTACCTCCAA AACAGGCCAT 
    TACGAGCCTC TCCATGGTGC TGCAGTTGTC CCTCCTCTGA TACCTTCCTC TCAACATAAG 
    CCAGAAGTCC TGCCCTCGGC TACCAAACCA CAGCCTCCAC CCCCAACCCT AACTGAGGAG 
    GAGGAGGATC CAGCAATGAA ACCACAGTCC GTGCTCANCA GAGTCAAAAT GTTTGAAAAC 
    AAAAGATCTG CGTCTTTGGA GAACAAGAAA GATGTGAATG ACACTGCCAG CTTTAAGCCT 
    CCAGAAGTAG CATCTAAACC TCCAAGTGCT TCTCTTGCTG GCCCTAAACC TGTTCCTCAG 
    AGTCAGTTTA GTGAGCANGA CAAAACACTC TACAGGCTCC CAGAGCCTCA GAAACCTCAA 
    GTGAAGCCAC CCGANGATAT TGTTCGATCA AATCATTACG ACCCTGAAGA GGATGAAGAA 
    TATTACAGGA AACAGCTCTC TTACTTTGAN CGAAGAAGTT TTGAGAGCAA GCCTTCTGCA 
    CATCTTCCTG CTGGCCATCA CTCAGAGCCT GCTAAGCCAG TCCATTCTCA GAGCCAGCCC 
    AACTTTTCTA GTTACTCTTC AAAGGGAAAA CCCGAAACTG ATGCTGTGGA TAGATCATTC 
    AGTGAGAAAC GTTATGATCC AGCCCAGGCC ACGCCTCCTC CTCCTCCGTT GCCCTCACAG 
    TACAGCCAGC CAGCTCCCCC TCTGTCCAGC TCTTCTCTCC ACATACATTC CAAGGGCGCC 
    CAGGGCGAAG GCAATTCAGT ATCATTGGAT TTTCAGAACT CATATATGTC CAAACCAGAC 
    CCACCCCCAT CTCAGAGTAA ACCAGCAACT TTCAGACCAC CAACCCGAGA AGACCCTCCT 
    CAGACTTTCT ATCCCCAGAA ANGTTTCCCA GACAAAGCTC CAGTTAANGG AGCTGAGCAG 
    ACTCAGAAAA CCATCACTCC AGTGTACAAT CGATTCACAC CAAAGCCGTA CACAAGTTCT 
    GCCCGGCCGT TTGAACGCAA ATTTGAAAGT CCGAAGTTCA ACCATAATCT TCTGCCAAGT 
    GAAACTGTAC ATAAACCTGA ATTGTCTTCA AAAACTCCCA CTTCTCCAAA AACTCTTATG 
    AAAGCTCATA GTTCAACACA GCCTCCAGAG TTTGACAGTG GAGTTGAAAC TTTCTCTGTT 
    CACACAGATN AGCCTAAATA TCAAATGAAT AATATCAGCA CCATGCCTAA AGCTGTCCCT 
    GTGAGTCCTT CAGCTGTGGA AGAAGATGAA GATGAGGATG GTCATACTGT AGTGGCTACA 
    GCTCGTGGCA TTTTTAACAG CAATGGTGGT GTGTTGAGTT CCATAGAAAC CGGTGTTAGT 
    ATAATTATCC CACAAGGAGC CATTCCTGAA GGAATTGAAC AAGAAATCTA TTTCAAAGTC 
    TGCAGAGACA ATAGCATTCT CCCACCTTTA GATAAAGAGA AAGGTGAAAC TCTGCTAAGT 
    CCCCTAGTGA TGTGTGGGCC CCATGGCCTC AAGTTCCTGA AGCCCGTGGA GCTGCGCTTG 
    CCACACTGTG CGTCCATGAC TCCTGACGGT TGGTCTTTTG CTCTAAAATC ATCCGACTCC 
    TCGTCGGGTG ACCCTAAAAC CTGGCAAAAC AAGTGTCTTC CTGGAGATCC GAATTACCTT 
    GTTGGAGCCA ACTGTGTTTC TGTCCTGATT GACCACTTTT AA

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

    RefSeq XP_029334978.1
    CDS99..5360
    Translation

    Target ORF information:

    RefSeq Version XM_029479118.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli 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_029479118.1

    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
    ATGGAGGAAA CGGCTATATG GGAACAGCAC ACAGTGACGC TTCACAGGGC TCCTGGGTTT 
    GGATTTGGAA TTGCAATCTC TGGTGGAAGA GATAATCCTC ATTTTCAGAG TGGGGAAACC 
    TCCATAGTGA TTTCTGATGT GCTAAAAGGA GGGCCAGCTG AAGGACAGCT ACAGGAAAAT 
    GACCGAGTTG CAATGGTTAA TGGAGTTTCA ATGGATAACG TTGAGCATGC TTTTGCTGTT 
    CAGCAGCTAA GGAAAAGTGG GAAAAACGCA AAAATTACTA TCCGAAGGAA GAAGAAAGTT 
    CAGATCCCTG TAAGTCACCC AGATCCTGAG CCGGTGTCTG ATAATGAAGA TGATAGCTAC 
    GACGAAGAAG TACATGACCC AAGAGCTGGC CGCGGTGCTT TAGCGAACAG AAGGAGCGAG 
    AAGAGCTGGG CAAGGGATAG GAGTGCAAGC AGGGAGAGGA GCCTGTCCCC TCGCTCGGAC 
    AGGCGGTCGG TGGCCTCCAG TCAGCCCGCA AAACCCACCA AGGTCACACT GGTGAAGTCT 
    CGGAAAAATG AAGAATATGG TCTTCGATTG GCCAGCCATA TATTTGTAAA GGAAATTTCA 
    CAAGATAGTT TGGCAGCAAG AGATGGTAAC ATTCAAGAAG GGGATGTTGT CTTGAAGATA 
    AATGGTACTG TGACAGAAAA TATGTCATTG ACAGATGCAA AAACACTGAT AGAAAGGTCT 
    AAAGGCAAGT TAAAAATGGT AGTGCAAAGA GATGAGCGGG CTACCTTACT GAACGTCCCT 
    GACCTTTCGG ATAGTATCCA TTCTGCTAAT GCCTCGGAAA GAGATGACAT TTCAGAAATT 
    CAGTCACTAG CATCAGACCA TTCAGGTCGC TCGCATGACA GGCCACCCCG CCGCAGCCAG 
    TCACGATCTC CTGACCAACG TTCAGAGCCC TCCGATCATT CCACACAGTC TCCACAGCAG 
    CCCAGCAATG GCAGTCTCCG GAGCAGAGAG CAAGAGCGAA TGTCTAAACC TGGGGCCATC 
    TCAACTCCTG TAAAACATGC AGATGATCAT ACACCCAAAG CAGTGGAAGA AGTTACAGTT 
    GAGAAAAATG AGAAGCAGAC ACCCACTCTT CCAGAACCGA AGCCTGTATA TGCTCAAGTT 
    GGACAACCAG ATGTGGATTT ACCCGTCAGC CCTTCTGATG GTGTTCTGCC TAATTCAACT 
    CATGAAGATG GGATACTTAG GCCCAGCATG AAACTGGTAA AATTCAGAAA AGGAGATAGT 
    GTGGGTTTGC GACTAGCTGG TGGAAATGAT GTCGGAATAT TTGTAGCTGG CGTTCTAGAA 
    GATAGCCCTG CAGCCAAAGA AGGCTTAGAG GAAGGTGATC AAATTCTCAG GGTGAACAAT 
    GTAGATTTCA CAAATATCAT AAGAGAAGAG GCTGTCCTTT TCCTCCTTGA CCTCCCTAAA 
    GGTGAAGAAG TGACCATCCT GGCTCAGAAG AAGAAGGGTG TTTATCGCCG CATTGTAGAA 
    TCAGATGTAG GAGATTCATT CTATATTAGA ACGCATTTTG AGTATGAAAA AGAATCTCCT 
    TACGGACTTA GTTTTAACAA AGGAGAGGTG TTCCGGGTCG TGGATACTTT ATACAATGGA 
    AAGCTGGGCT CTTGGCTTGC CATTCGAATT GGCAAAAATC ATAAGGAGGT AGAACGAGGC 
    ATCATCCCTA ATAAGAACAG AGCTGAGCAG TTAGCCAGTG TACAGTACAC ACTTCCAAAG 
    ACAGCGGGTG GTGATCGGGC AGACTTCTGG AGGTTTCGAG GTCTTCGCAG CTCCAAGAGA 
    AATCTTCGAA AAAGCAGAGA GGACTTGTCA GCTCAGCCAG TTCAAACTAA GTTCCCAGCT 
    TATGAAAGGG TTGTTCTTCG AGAAGCTGGA TTCCTAAGAC CTGTAACCAT CTTTGGACCA 
    ATAGCTGATG TTGCCAGAGA AAAGTTGGCA AGAGAGGAAC CAGATATCTA TCAGATTGCA 
    AAAAGTGAAC CACGAGATGC TGGGACTGAC CATCGTAGCT CTGGCATCAT TCGCCTTCAT 
    ACAATAAAGC AAATCATAGA TCAGGATAAA CATGCGTTAT TAGATGTAAC GCCAAATGCG 
    GTTGATCGTC TTAATTATGC GCAGTGGTAT CCAATTGTTG TGTTCCTTAA CCCTGACTCT 
    AAGCAAGGTG TAAAAACAAT GAGGATGAGG TTATGTCCGG AGTCTCGGAA AAGCGCCAGG 
    AAGCTATATG AACGCTCTCA TAAGCTTCGC AAAAACAATC ACCACCTTTT CACAACTACA 
    ATTAACTTAA ACTCAATGAA TGATGGTTGG TACGGTGCCC TGAAAGAAGC CATTCAGCAG 
    CAACAGAACC AGCTGGTGTG GGTCTCTGAG GGGAAGGCGG ATGGTGCTAC AAGTGATGAC 
    CTTGATTTGC ATGATGATCG TCTGTCCTAC CTGTCAGCCC CAGGTAGTGA GTACTCAATG 
    TATAGCACGG ACAGTAGACA CACTTCTGAC TATGAAGACA CAGATACAGA AGGCGGGGCC 
    TACACTGATC AAGAACTAGA TGAAACTCTT AATGATGAGG TGGGGACTCC CCCGGAGTCT 
    GCCATTACAC NGTCCTCTGA GCCTGTAAGA GAGGATTCCT CTGGGATGCA TCATGAAAAC 
    CAGACCTATC CTCCTTACTC ACCACAAGCG CAGCCACAAG CTATTCATAG ACTAGACTCC 
    CCTGGACTTA AGCCAGCCTC TCAACAGAAA GCAGAAGCCT CATCTCCAGT CCCTTACCTT 
    TCGCCTGAAA CAAACCCAGC ATCGTCAGCC TCTGCAGTTA ATCCTAATGT CAGTGTAACT 
    AATGTCAGCC TGGAGGAGCC TGCCCCAGCC CCTCCCGCCT CGCACGCATC CCAGGCTGGT 
    GGTTTAGGAG CACCAGGTGC TGAGGCAGCT CACGTAGTGC TCAGAGGTGA AGGACCACCA 
    TTGCCGCCGC ATGCAGACCC AGCACAGGTG TATAGAAAGG AGCCGTATCC TGAAGAAATG 
    ATGAGACAAA ACCATATTTT AAAACAACCA GCTCTTGGTC ACCCAGGGCA GAGGCCAGAT 
    AAAGAGCCAA ATCTAGCCTA TGAACCCCAA CTTCCATATA NAGAAAAACA AGCCAGCAGA 
    GACCTTGAAC AGCCGTCATA CAGGTATGAG GCCTCAAGCT ACCCAGACCA GTTTTCTCGG 
    AACTATGACC ATCGCCTACG GTTTGAAGAT CGAATCCCTA CCTATGAAGA CCAGTGGTCA 
    TATTATGATG ACAAACAGCC CTACCAACCT CGGCCTTTTG AGAATCAGCA TCCCCGAGAC 
    CTGGACTCCA GACAACATCC NGAGGAGGCT TCAGAACGAG GTTATNTCCA GCGTTTTGAA 
    GAGCCAGCCC CTCTGTCATA CGACAGTAGA ACACGCTATG AGCAGCTGCC TCGAACCTCT 
    ACTCTACGAC ATGAAGAGCA GCCAGCCCCT GCATATGAGG TGCACAACAG GTACAGGCCA 
    GAGGCACAGC CCTATTCTTC AACAGGTCCT AAGTCATCTG AGCCCAAGCA GTACTTTGAC 
    CAGTACCCGC GAAGTTATGA GCAAGTACCA CCACCAGGCT TTACCTCCAA AACAGGCCAT 
    TACGAGCCTC TCCATGGTGC TGCAGTTGTC CCTCCTCTGA TACCTTCCTC TCAACATAAG 
    CCAGAAGTCC TGCCCTCGGC TACCAAACCA CAGCCTCCAC CCCCAACCCT AACTGAGGAG 
    GAGGAGGATC CAGCAATGAA ACCACAGTCC GTGCTCANCA GAGTCAAAAT GTTTGAAAAC 
    AAAAGATCTG CGTCTTTGGA GAACAAGAAA GATGTGAATG ACACTGCCAG CTTTAAGCCT 
    CCAGAAGTAG CATCTAAACC TCCAAGTGCT TCTCTTGCTG GCCCTAAACC TGTTCCTCAG 
    AGTCAGTTTA GTGAGCANGA CAAAACACTC TACAGGCTCC CAGAGCCTCA GAAACCTCAA 
    GTGAAGCCAC CCGANGATAT TGTTCGATCA AATCATTACG ACCCTGAAGA GGATGAAGAA 
    TATTACAGGA AACAGCTCTC TTACTTTGAN CGAAGAAGTT TTGAGAGCAA GCCTTCTGCA 
    CATCTTCCTG CTGGCCATCA CTCAGAGCCT GCTAAGCCAG TCCATTCTCA GAGCCAGCCC 
    AACTTTTCTA GTTACTCTTC AAAGGGAAAA CCCGAAACTG ATGCTGTGGA TAGATCATTC 
    AGTGAGAAAC GTTATGATCC AGCCCAGGCC ACGCCTCCTC CTCCTCCGTT GCCCTCACAG 
    TACAGCCAGC CAGCTCCCCC TCTGTCCAGC TCTTCTCTCC ACATACATTC CAAGGGCGCC 
    CAGGGCGAAG GCAATTCAGT ATCATTGGAT TTTCAGAACT CATATATGTC CAAACCAGAC 
    CCACCCCCAT CTCAGAGTAA ACCAGCAACT TTCAGACCAC CAACCCGAGA AGACCCTCCT 
    CAGACTTTCT ATCCCCAGAA ANGTTTCCCA GACAAAGCTC CAGTTAANGG AGCTGAGCAG 
    ACTCAGAAAA CCATCACTCC AGTGTACAAT CGATTCACAC CAAAGCCGTA CACAAGTTCT 
    GCCCGGCCGT TTGAACGCAA ATTTGAAAGT CCGAAGTTCA ACCATAATCT TCTGCCAAGT 
    GAAACTGTAC ATAAACCTGA ATTGTCTTCA AAAACTCCCA CTTCTCCAAA AACTCTTATG 
    AAAGCTCATA GTTCAACACA GCCTCCAGAG TTTGACAGTG GAGTTGAAAC TTTCTCTGTT 
    CACACAGATN AGCCTAAATA TCAAATGAAT AATATCAGCA CCATGCCTAA AGCTGTCCCT 
    GTGAGTCCTT CAGCTGTGGA AGAAGATGAA GATGAGGATG GTCATACTGT AGTGGCTACA 
    GCTCGTGGCA TTTTTAACAG CAATGGTGGT GTGTTGAGTT CCATAGAAAC CGGTGTTAGT 
    ATAATTATCC CACAAGGAGC CATTCCTGAA GGAATTGAAC AAGAAATCTA TTTCAAAGTC 
    TGCAGAGACA ATAGCATTCT CCCACCTTTA GATAAAGAGA AAGGTGAAAC TCTGCTAAGT 
    CCCCTAGTGA TGTGTGGGCC CCATGGCCTC AAGTTCCTGA AGCCCGTGGA GCTGCGCTTG 
    CCACACTGTG CGTCCATGAC TCCTGACGGT TGGTCTTTTG CTCTAAAATC ATCCGACTCC 
    TCGTCGGGTG ACCCTAAAAC CTGGCAAAAC AAGTGTCTTC CTGGAGATCC GAATTACCTT 
    GTTGGAGCCA ACTGTGTTTC TGTCCTGATT GACCACTTTT AA

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

    Tjp1 ( XM_029479119.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029334979.1 Mus caroli tight junction protein 1 (Tjp1), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OMv74616
    Clone ID Related Accession (Same CDS sequence) XM_029479119.1
    Accession Version XM_029479119.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5259bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    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_034576.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGAAGTACC AGAAATACCT GACGGTGCTG CAGATGGCCA TCGGCGTCAC CCCGTCCAAC 
    CGCGGCAGCC TCCTGCCGCT CAAGAGGAAG CTGTGGGTAA CTCCATCCTC TGAAAACCCG 
    CATGGTGCTA CTTCCAATGT CAGCCAAGGA AAACCTTCTC TAAGACGAAT TAAAGGGAGA 
    CTACATCGAA GCAAAAGCCT TGACAGTATC GACTTCTGTG AACTCACTAG CACAGCAATG 
    GAGGAAACGG CTATATGGGA ACAGCACACA GTGACGCTTC ACAGGGCTCC TGGGTTTGGA 
    TTTGGAATTG CAATCTCTGG TGGAAGAGAT AATCCTCATT TTCAGAGTGG GGAAACCTCC 
    ATAGTGATTT CTGATGTGCT AAAAGGAGGG CCAGCTGAAG GACAGCTACA GGAAAATGAC 
    CGAGTTGCAA TGGTTAATGG AGTTTCAATG GATAACGTTG AGCATGCTTT TGCTGTTCAG 
    CAGCTAAGGA AAAGTGGGAA AAACGCAAAA ATTACTATCC GAAGGAAGAA GAAAGTTCAG 
    ATCCCTGTAA GTCACCCAGA TCCTGAGCCG GTGTCTGATA ATGAAGATGA TAGCTACGAC 
    GAAGAAGTAC ATGACCCAAG AGCTGGCCGC GGTGCTTTAG CGAACAGAAG GAGCGAGAAG 
    AGCTGGGCAA GGGATAGGAG TGCAAGCAGG GAGAGGAGCC TGTCCCCTCG CTCGGACAGG 
    CGGTCGGTGG CCTCCAGTCA GCCCGCAAAA CCCACCAAGG TCACACTGGT GAAGTCTCGG 
    AAAAATGAAG AATATGGTCT TCGATTGGCC AGCCATATAT TTGTAAAGGA AATTTCACAA 
    GATAGTTTGG CAGCAAGAGA TGGTAACATT CAAGAAGGGG ATGTTGTCTT GAAGATAAAT 
    GGTACTGTGA CAGAAAATAT GTCATTGACA GATGCAAAAA CACTGATAGA AAGGTCTAAA 
    GGCAAGTTAA AAATGGTAGT GCAAAGAGAT GAGCGGGCTA CCTTACTGAA CGTCCCTGAC 
    CTTTCGGATA GTATCCATTC TGCTAATGCC TCGGAAAGAG ATGACATTTC AGAAATTCAG 
    TCACTAGCAT CAGACCATTC AGGTCGCTCG CATGACAGGC CACCCCGCCG CAGCCAGTCA 
    CGATCTCCTG ACCAACGTTC AGAGCCCTCC GATCATTCCA CACAGTCTCC ACAGCAGCCC 
    AGCAATGGCA GTCTCCGGAG CAGAGAGCAA GAGCGAATGT CTAAACCTGG GGCCATCTCA 
    ACTCCTGTAA AACATGCAGA TGATCATACA CCCAAAGCAG TGGAAGAAGT TACAGTTGAG 
    AAAAATGAGA AGCAGACACC CACTCTTCCA GAACCGAAGC CTGTATATGC TCAAGTTGGA 
    CAACCAGATG TGGATTTACC CGTCAGCCCT TCTGATGGTG TTCTGCCTAA TTCAACTCAT 
    GAAGATGGGA TACTTAGGCC CAGCATGAAA CTGGTAAAAT TCAGAAAAGG AGATAGTGTG 
    GGTTTGCGAC TAGCTGGTGG AAATGATGTC GGAATATTTG TAGCTGGCGT TCTAGAAGAT 
    AGCCCTGCAG CCAAAGAAGG CTTAGAGGAA GGTGATCAAA TTCTCAGGGT GAACAATGTA 
    GATTTCACAA ATATCATAAG AGAAGAGGCT GTCCTTTTCC TCCTTGACCT CCCTAAAGGT 
    GAAGAAGTGA CCATCCTGGC TCAGAAGAAG AAGGGTGTTT ATCGCCGCAT TGTAGAATCA 
    GATGTAGGAG ATTCATTCTA TATTAGAACG CATTTTGAGT ATGAAAAAGA ATCTCCTTAC 
    GGACTTAGTT TTAACAAAGG AGAGGTGTTC CGGGTCGTGG ATACTTTATA CAATGGAAAG 
    CTGGGCTCTT GGCTTGCCAT TCGAATTGGC AAAAATCATA AGGAGGTAGA ACGAGGCATC 
    ATCCCTAATA AGAACAGAGC TGAGCAGTTA GCCAGTGTAC AGTACACACT TCCAAAGACA 
    GCGGGTGGTG ATCGGGCAGA CTTCTGGAGG TTTCGAGGTC TTCGCAGCTC CAAGAGAAAT 
    CTTCGAAAAA GCAGAGAGGA CTTGTCAGCT CAGCCAGTTC AAACTAAGTT CCCAGCTTAT 
    GAAAGGGTTG TTCTTCGAGA AGCTGGATTC CTAAGACCTG TAACCATCTT TGGACCAATA 
    GCTGATGTTG CCAGAGAAAA GTTGGCAAGA GAGGAACCAG ATATCTATCA GATTGCAAAA 
    AGTGAACCAC GAGATGCTGG GACTGACCAT CGTAGCTCTG GCATCATTCG CCTTCATACA 
    ATAAAGCAAA TCATAGATCA GGATAAACAT GCGTTATTAG ATGTAACGCC AAATGCGGTT 
    GATCGTCTTA ATTATGCGCA GTGGTATCCA ATTGTTGTGT TCCTTAACCC TGACTCTAAG 
    CAAGGTGTAA AAACAATGAG GATGAGGTTA TGTCCGGAGT CTCGGAAAAG CGCCAGGAAG 
    CTATATGAAC GCTCTCATAA GCTTCGCAAA AACAATCACC ACCTTTTCAC AACTACAATT 
    AACTTAAACT CAATGAATGA TGGTTGGTAC GGTGCCCTGA AAGAAGCCAT TCAGCAGCAA 
    CAGAACCAGC TGGTGTGGGT CTCTGAGGGG AAGGCGGATG GTGCTACAAG TGATGACCTT 
    GATTTGCATG ATGATCGTCT GTCCTACCTG TCAGCCCCAG GTAGTGAGTA CTCAATGTAT 
    AGCACGGACA GTAGACACAC TTCTGACTAT GAAGACACAG ATACAGAAGG CGGGGCCTAC 
    ACTGATCAAG AACTAGATGA AACTCTTAAT GATGAGGTGG GGACTCCCCC GGAGTCTGCC 
    ATTACACNGT CCTCTGAGCC TGTAAGAGAG GATTCCTCTG GGATGCATCA TGAAAACCAG 
    ACCTATCCTC CTTACTCACC ACAAGCGCAG CCACAAGCTA TTCATAGACT AGACTCCCCT 
    GGACTTAAGC CAGCCTCTCA ACAGGTGTAT AGAAAGGAGC CGTATCCTGA AGAAATGATG 
    AGACAAAACC ATATTTTAAA ACAACCAGCT CTTGGTCACC CAGGGCAGAG GCCAGATAAA 
    GAGCCAAATC TAGCCTATGA ACCCCAACTT CCATATANAG AAAAACAAGC CAGCAGAGAC 
    CTTGAACAGC CGTCATACAG GTATGAGGCC TCAAGCTACC CAGACCAGTT TTCTCGGAAC 
    TATGACCATC GCCTACGGTT TGAAGATCGA ATCCCTACCT ATGAAGACCA GTGGTCATAT 
    TATGATGACA AACAGCCCTA CCAACCTCGG CCTTTTGAGA ATCAGCATCC CCGAGACCTG 
    GACTCCAGAC AACATCCNGA GGAGGCTTCA GAACGAGGTT ATNTCCAGCG TTTTGAAGAG 
    CCAGCCCCTC TGTCATACGA CAGTAGAACA CGCTATGAGC AGCTGCCTCG AACCTCTACT 
    CTACGACATG AAGAGCAGCC AGCCCCTGCA TATGAGGTGC ACAACAGGTA CAGGCCAGAG 
    GCACAGCCCT ATTCTTCAAC AGGTCCTAAG TCATCTGAGC CCAAGCAGTA CTTTGACCAG 
    TACCCGCGAA GTTATGAGCA AGTACCACCA CCAGGCTTTA CCTCCAAAAC AGGCCATTAC 
    GAGCCTCTCC ATGGTGCTGC AGTTGTCCCT CCTCTGATAC CTTCCTCTCA ACATAAGCCA 
    GAAGTCCTGC CCTCGGCTAC CAAACCACAG CCTCCACCCC CAACCCTAAC TGAGGAGGAG 
    GAGGATCCAG CAATGAAACC ACAGTCCGTG CTCANCAGAG TCAAAATGTT TGAAAACAAA 
    AGATCTGCGT CTTTGGAGAA CAAGAAAGAT GTGAATGACA CTGCCAGCTT TAAGCCTCCA 
    GAAGTAGCAT CTAAACCTCC AAGTGCTTCT CTTGCTGGCC CTAAACCTGT TCCTCAGAGT 
    CAGTTTAGTG AGCANGACAA AACACTCTAC AGGCTCCCAG AGCCTCAGAA ACCTCAAGTG 
    AAGCCACCCG ANGATATTGT TCGATCAAAT CATTACGACC CTGAAGAGGA TGAAGAATAT 
    TACAGGAAAC AGCTCTCTTA CTTTGANCGA AGAAGTTTTG AGAGCAAGCC TTCTGCACAT 
    CTTCCTGCTG GCCATCACTC AGAGCCTGCT AAGCCAGTCC ATTCTCAGAG CCAGCCCAAC 
    TTTTCTAGTT ACTCTTCAAA GGGAAAACCC GAAACTGATG CTGTGGATAG ATCATTCAGT 
    GAGAAACGTT ATGATCCAGC CCAGGCCACG CCTCCTCCTC CTCCGTTGCC CTCACAGTAC 
    AGCCAGCCAG CTCCCCCTCT GTCCAGCTCT TCTCTCCACA TACATTCCAA GGGCGCCCAG 
    GGCGAAGGCA ATTCAGTATC ATTGGATTTT CAGAACTCAT ATATGTCCAA ACCAGACCCA 
    CCCCCATCTC AGAGTAAACC AGCAACTTTC AGACCACCAA CCCGAGAAGA CCCTCCTCAG 
    ACTTTCTATC CCCAGAAANG TTTCCCAGAC AAAGCTCCAG TTAANGGAGC TGAGCAGACT 
    CAGAAAACCA TCACTCCAGT GTACAATCGA TTCACACCAA AGCCGTACAC AAGTTCTGCC 
    CGGCCGTTTG AACGCAAATT TGAAAGTCCG AAGTTCAACC ATAATCTTCT GCCAAGTGAA 
    ACTGTACATA AACCTGAATT GTCTTCAAAA ACTCCCACTT CTCCAAAAAC TCTTATGAAA 
    GCTCATAGTT CAACACAGCC TCCAGAGTTT GACAGTGGAG TTGAAACTTT CTCTGTTCAC 
    ACAGATNAGC CTAAATATCA AATGAATAAT ATCAGCACCA TGCCTAAAGC TGTCCCTGTG 
    AGTCCTTCAG CTGTGGAAGA AGATGAAGAT GAGGATGGTC ATACTGTAGT GGCTACAGCT 
    CGTGGCATTT TTAACAGCAA TGGTGGTGTG TTGAGTTCCA TAGAAACCGG TGTTAGTATA 
    ATTATCCCAC AAGGAGCCAT TCCTGAAGGA ATTGAACAAG AAATCTATTT CAAAGTCTGC 
    AGAGACAATA GCATTCTCCC ACCTTTAGAT AAAGAGAAAG GTGAAACTCT GCTAAGTCCC 
    CTAGTGATGT GTGGGCCCCA TGGCCTCAAG TTCCTGAAGC CCGTGGAGCT GCGCTTGCCA 
    CACTGTGCGT CCATGACTCC TGACGGTTGG TCTTTTGCTC TAAAATCATC CGACTCCTCG 
    TCGGGTGACC CTAAAACCTG GCAAAACAAG TGTCTTCCTG GAGATCCGAA TTACCTTGTT 
    GGAGCCAACT GTGTTTCTGT CCTGATTGAC CACTTTTAA

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

    RefSeq XP_029334979.1
    CDS68..5326
    Translation

    Target ORF information:

    RefSeq Version XM_029479119.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli 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_029479119.1

    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
    ATGAAGTACC AGAAATACCT GACGGTGCTG CAGATGGCCA TCGGCGTCAC CCCGTCCAAC 
    CGCGGCAGCC TCCTGCCGCT CAAGAGGAAG CTGTGGGTAA CTCCATCCTC TGAAAACCCG 
    CATGGTGCTA CTTCCAATGT CAGCCAAGGA AAACCTTCTC TAAGACGAAT TAAAGGGAGA 
    CTACATCGAA GCAAAAGCCT TGACAGTATC GACTTCTGTG AACTCACTAG CACAGCAATG 
    GAGGAAACGG CTATATGGGA ACAGCACACA GTGACGCTTC ACAGGGCTCC TGGGTTTGGA 
    TTTGGAATTG CAATCTCTGG TGGAAGAGAT AATCCTCATT TTCAGAGTGG GGAAACCTCC 
    ATAGTGATTT CTGATGTGCT AAAAGGAGGG CCAGCTGAAG GACAGCTACA GGAAAATGAC 
    CGAGTTGCAA TGGTTAATGG AGTTTCAATG GATAACGTTG AGCATGCTTT TGCTGTTCAG 
    CAGCTAAGGA AAAGTGGGAA AAACGCAAAA ATTACTATCC GAAGGAAGAA GAAAGTTCAG 
    ATCCCTGTAA GTCACCCAGA TCCTGAGCCG GTGTCTGATA ATGAAGATGA TAGCTACGAC 
    GAAGAAGTAC ATGACCCAAG AGCTGGCCGC GGTGCTTTAG CGAACAGAAG GAGCGAGAAG 
    AGCTGGGCAA GGGATAGGAG TGCAAGCAGG GAGAGGAGCC TGTCCCCTCG CTCGGACAGG 
    CGGTCGGTGG CCTCCAGTCA GCCCGCAAAA CCCACCAAGG TCACACTGGT GAAGTCTCGG 
    AAAAATGAAG AATATGGTCT TCGATTGGCC AGCCATATAT TTGTAAAGGA AATTTCACAA 
    GATAGTTTGG CAGCAAGAGA TGGTAACATT CAAGAAGGGG ATGTTGTCTT GAAGATAAAT 
    GGTACTGTGA CAGAAAATAT GTCATTGACA GATGCAAAAA CACTGATAGA AAGGTCTAAA 
    GGCAAGTTAA AAATGGTAGT GCAAAGAGAT GAGCGGGCTA CCTTACTGAA CGTCCCTGAC 
    CTTTCGGATA GTATCCATTC TGCTAATGCC TCGGAAAGAG ATGACATTTC AGAAATTCAG 
    TCACTAGCAT CAGACCATTC AGGTCGCTCG CATGACAGGC CACCCCGCCG CAGCCAGTCA 
    CGATCTCCTG ACCAACGTTC AGAGCCCTCC GATCATTCCA CACAGTCTCC ACAGCAGCCC 
    AGCAATGGCA GTCTCCGGAG CAGAGAGCAA GAGCGAATGT CTAAACCTGG GGCCATCTCA 
    ACTCCTGTAA AACATGCAGA TGATCATACA CCCAAAGCAG TGGAAGAAGT TACAGTTGAG 
    AAAAATGAGA AGCAGACACC CACTCTTCCA GAACCGAAGC CTGTATATGC TCAAGTTGGA 
    CAACCAGATG TGGATTTACC CGTCAGCCCT TCTGATGGTG TTCTGCCTAA TTCAACTCAT 
    GAAGATGGGA TACTTAGGCC CAGCATGAAA CTGGTAAAAT TCAGAAAAGG AGATAGTGTG 
    GGTTTGCGAC TAGCTGGTGG AAATGATGTC GGAATATTTG TAGCTGGCGT TCTAGAAGAT 
    AGCCCTGCAG CCAAAGAAGG CTTAGAGGAA GGTGATCAAA TTCTCAGGGT GAACAATGTA 
    GATTTCACAA ATATCATAAG AGAAGAGGCT GTCCTTTTCC TCCTTGACCT CCCTAAAGGT 
    GAAGAAGTGA CCATCCTGGC TCAGAAGAAG AAGGGTGTTT ATCGCCGCAT TGTAGAATCA 
    GATGTAGGAG ATTCATTCTA TATTAGAACG CATTTTGAGT ATGAAAAAGA ATCTCCTTAC 
    GGACTTAGTT TTAACAAAGG AGAGGTGTTC CGGGTCGTGG ATACTTTATA CAATGGAAAG 
    CTGGGCTCTT GGCTTGCCAT TCGAATTGGC AAAAATCATA AGGAGGTAGA ACGAGGCATC 
    ATCCCTAATA AGAACAGAGC TGAGCAGTTA GCCAGTGTAC AGTACACACT TCCAAAGACA 
    GCGGGTGGTG ATCGGGCAGA CTTCTGGAGG TTTCGAGGTC TTCGCAGCTC CAAGAGAAAT 
    CTTCGAAAAA GCAGAGAGGA CTTGTCAGCT CAGCCAGTTC AAACTAAGTT CCCAGCTTAT 
    GAAAGGGTTG TTCTTCGAGA AGCTGGATTC CTAAGACCTG TAACCATCTT TGGACCAATA 
    GCTGATGTTG CCAGAGAAAA GTTGGCAAGA GAGGAACCAG ATATCTATCA GATTGCAAAA 
    AGTGAACCAC GAGATGCTGG GACTGACCAT CGTAGCTCTG GCATCATTCG CCTTCATACA 
    ATAAAGCAAA TCATAGATCA GGATAAACAT GCGTTATTAG ATGTAACGCC AAATGCGGTT 
    GATCGTCTTA ATTATGCGCA GTGGTATCCA ATTGTTGTGT TCCTTAACCC TGACTCTAAG 
    CAAGGTGTAA AAACAATGAG GATGAGGTTA TGTCCGGAGT CTCGGAAAAG CGCCAGGAAG 
    CTATATGAAC GCTCTCATAA GCTTCGCAAA AACAATCACC ACCTTTTCAC AACTACAATT 
    AACTTAAACT CAATGAATGA TGGTTGGTAC GGTGCCCTGA AAGAAGCCAT TCAGCAGCAA 
    CAGAACCAGC TGGTGTGGGT CTCTGAGGGG AAGGCGGATG GTGCTACAAG TGATGACCTT 
    GATTTGCATG ATGATCGTCT GTCCTACCTG TCAGCCCCAG GTAGTGAGTA CTCAATGTAT 
    AGCACGGACA GTAGACACAC TTCTGACTAT GAAGACACAG ATACAGAAGG CGGGGCCTAC 
    ACTGATCAAG AACTAGATGA AACTCTTAAT GATGAGGTGG GGACTCCCCC GGAGTCTGCC 
    ATTACACNGT CCTCTGAGCC TGTAAGAGAG GATTCCTCTG GGATGCATCA TGAAAACCAG 
    ACCTATCCTC CTTACTCACC ACAAGCGCAG CCACAAGCTA TTCATAGACT AGACTCCCCT 
    GGACTTAAGC CAGCCTCTCA ACAGGTGTAT AGAAAGGAGC CGTATCCTGA AGAAATGATG 
    AGACAAAACC ATATTTTAAA ACAACCAGCT CTTGGTCACC CAGGGCAGAG GCCAGATAAA 
    GAGCCAAATC TAGCCTATGA ACCCCAACTT CCATATANAG AAAAACAAGC CAGCAGAGAC 
    CTTGAACAGC CGTCATACAG GTATGAGGCC TCAAGCTACC CAGACCAGTT TTCTCGGAAC 
    TATGACCATC GCCTACGGTT TGAAGATCGA ATCCCTACCT ATGAAGACCA GTGGTCATAT 
    TATGATGACA AACAGCCCTA CCAACCTCGG CCTTTTGAGA ATCAGCATCC CCGAGACCTG 
    GACTCCAGAC AACATCCNGA GGAGGCTTCA GAACGAGGTT ATNTCCAGCG TTTTGAAGAG 
    CCAGCCCCTC TGTCATACGA CAGTAGAACA CGCTATGAGC AGCTGCCTCG AACCTCTACT 
    CTACGACATG AAGAGCAGCC AGCCCCTGCA TATGAGGTGC ACAACAGGTA CAGGCCAGAG 
    GCACAGCCCT ATTCTTCAAC AGGTCCTAAG TCATCTGAGC CCAAGCAGTA CTTTGACCAG 
    TACCCGCGAA GTTATGAGCA AGTACCACCA CCAGGCTTTA CCTCCAAAAC AGGCCATTAC 
    GAGCCTCTCC ATGGTGCTGC AGTTGTCCCT CCTCTGATAC CTTCCTCTCA ACATAAGCCA 
    GAAGTCCTGC CCTCGGCTAC CAAACCACAG CCTCCACCCC CAACCCTAAC TGAGGAGGAG 
    GAGGATCCAG CAATGAAACC ACAGTCCGTG CTCANCAGAG TCAAAATGTT TGAAAACAAA 
    AGATCTGCGT CTTTGGAGAA CAAGAAAGAT GTGAATGACA CTGCCAGCTT TAAGCCTCCA 
    GAAGTAGCAT CTAAACCTCC AAGTGCTTCT CTTGCTGGCC CTAAACCTGT TCCTCAGAGT 
    CAGTTTAGTG AGCANGACAA AACACTCTAC AGGCTCCCAG AGCCTCAGAA ACCTCAAGTG 
    AAGCCACCCG ANGATATTGT TCGATCAAAT CATTACGACC CTGAAGAGGA TGAAGAATAT 
    TACAGGAAAC AGCTCTCTTA CTTTGANCGA AGAAGTTTTG AGAGCAAGCC TTCTGCACAT 
    CTTCCTGCTG GCCATCACTC AGAGCCTGCT AAGCCAGTCC ATTCTCAGAG CCAGCCCAAC 
    TTTTCTAGTT ACTCTTCAAA GGGAAAACCC GAAACTGATG CTGTGGATAG ATCATTCAGT 
    GAGAAACGTT ATGATCCAGC CCAGGCCACG CCTCCTCCTC CTCCGTTGCC CTCACAGTAC 
    AGCCAGCCAG CTCCCCCTCT GTCCAGCTCT TCTCTCCACA TACATTCCAA GGGCGCCCAG 
    GGCGAAGGCA ATTCAGTATC ATTGGATTTT CAGAACTCAT ATATGTCCAA ACCAGACCCA 
    CCCCCATCTC AGAGTAAACC AGCAACTTTC AGACCACCAA CCCGAGAAGA CCCTCCTCAG 
    ACTTTCTATC CCCAGAAANG TTTCCCAGAC AAAGCTCCAG TTAANGGAGC TGAGCAGACT 
    CAGAAAACCA TCACTCCAGT GTACAATCGA TTCACACCAA AGCCGTACAC AAGTTCTGCC 
    CGGCCGTTTG AACGCAAATT TGAAAGTCCG AAGTTCAACC ATAATCTTCT GCCAAGTGAA 
    ACTGTACATA AACCTGAATT GTCTTCAAAA ACTCCCACTT CTCCAAAAAC TCTTATGAAA 
    GCTCATAGTT CAACACAGCC TCCAGAGTTT GACAGTGGAG TTGAAACTTT CTCTGTTCAC 
    ACAGATNAGC CTAAATATCA AATGAATAAT ATCAGCACCA TGCCTAAAGC TGTCCCTGTG 
    AGTCCTTCAG CTGTGGAAGA AGATGAAGAT GAGGATGGTC ATACTGTAGT GGCTACAGCT 
    CGTGGCATTT TTAACAGCAA TGGTGGTGTG TTGAGTTCCA TAGAAACCGG TGTTAGTATA 
    ATTATCCCAC AAGGAGCCAT TCCTGAAGGA ATTGAACAAG AAATCTATTT CAAAGTCTGC 
    AGAGACAATA GCATTCTCCC ACCTTTAGAT AAAGAGAAAG GTGAAACTCT GCTAAGTCCC 
    CTAGTGATGT GTGGGCCCCA TGGCCTCAAG TTCCTGAAGC CCGTGGAGCT GCGCTTGCCA 
    CACTGTGCGT CCATGACTCC TGACGGTTGG TCTTTTGCTC TAAAATCATC CGACTCCTCG 
    TCGGGTGACC CTAAAACCTG GCAAAACAAG TGTCTTCCTG GAGATCCGAA TTACCTTGTT 
    GGAGCCAACT GTGTTTCTGT CCTGATTGAC CACTTTTAA

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

    Tjp1 ( XM_029479120.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029334980.1 Mus caroli tight junction protein 1 (Tjp1), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OMv74617
    Clone ID Related Accession (Same CDS sequence) XM_029479120.1
    Accession Version XM_029479120.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5199bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    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_034576.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGAAGTACC AGAAATACCT GACGGTGCTG CAGATGGCCA TCGGCGTCAC CCCGTCCAAC 
    CGCGGCAGCC TCCTGCCGCT CAAGAGGAAG CTGTGGGTAA CTCCATCCTC TGAAAACCCG 
    CATGGTGCTA CTTCCAATGT CAGCCAAGGA AAACCTTCTC TAAGACGAAT TAAAGGGAGA 
    CTACATCGAA GCAAAAGCCT TGACAGTATC GACTTCTGTG AACTCACTAG CACAGCAATG 
    GAGGAAACGG CTATATGGGA ACAGCACACA GTGACGCTTC ACAGGGCTCC TGGGTTTGGA 
    TTTGGAATTG CAATCTCTGG TGGAAGAGAT AATCCTCATT TTCAGAGTGG GGAAACCTCC 
    ATAGTGATTT CTGATGTGCT AAAAGGAGGG CCAGCTGAAG GACAGCTACA GGAAAATGAC 
    CGAGTTGCAA TGGTTAATGG AGTTTCAATG GATAACGTTG AGCATGCTTT TGCTGTTCAG 
    CAGCTAAGGA AAAGTGGGAA AAACGCAAAA ATTACTATCC GAAGGAAGAA GAAAGTTCAG 
    ATCCCTGTAA GTCACCCAGA TCCTGAGCCG GTGTCTGATA ATGAAGATGA TAGCTACGAC 
    GAAGAAGTAC ATGACCCAAG AGCTGGCCGC GGTGCTTTAG CGAACAGAAG GAGCGAGAAG 
    AGCTGGGCAA GGGATAGGAG TGCAAGCAGG GAGAGGAGCC TGTCCCCTCG CTCGGACAGG 
    CGGTCGGTGG CCTCCAGTCA GCCCGCAAAA CCCACCAAGG TCACACTGGT GAAGTCTCGG 
    AAAAATGAAG AATATGGTCT TCGATTGGCC AGCCATATAT TTGTAAAGGA AATTTCACAA 
    GATAGTTTGG CAGCAAGAGA TGGTAACATT CAAGAAGGGG ATGTTGTCTT GAAGATAAAT 
    GGTACTGTGA CAGAAAATAT GTCATTGACA GATGCAAAAA CACTGATAGA AAGGTCTAAA 
    GGCAAGTTAA AAATGGTAGT GCAAAGAGAT GAGCGGGCTA CCTTACTGAA CGTCCCTGAC 
    CTTTCGGATA GTATCCATTC TGCTAATGCC TCGGAAAGAG ATGACATTTC AGAAATTCAG 
    TCACTAGCAT CAGACCATTC AGGTCGCTCG CATGACAGGC CACCCCGCCG CAGCCAGTCA 
    CGATCTCCTG ACCAACGTTC AGAGCCCTCC GATCATTCCA CACAGTCTCC ACAGCAGCCC 
    AGCAATGGCA GTCTCCGGAG CAGAGAGCAA GAGCGAATGT CTAAACCTGG GGCCATCTCA 
    ACTCCTGTAA AACATGCAGA TGATCATACA CCCAAAGCAG TGGAAGAAGT TACAGTTGAG 
    AAAAATGAGA AGCAGACACC CACTCTTCCA GAACCGAAGC CTGTATATGC TCAAGTTGGA 
    CAACCAGATG TGGATTTACC CGTCAGCCCT TCTGATGGTG TTCTGCCTAA TTCAACTCAT 
    GAAGATGGGA TACTTAGGCC CAGCATGAAA CTGGTAAAAT TCAGAAAAGG AGATAGTGTG 
    GGTTTGCGAC TAGCTGGTGG AAATGATGTC GGAATATTTG TAGCTGGCGT TCTAGAAGAT 
    AGCCCTGCAG CCAAAGAAGG CTTAGAGGAA GGTGATCAAA TTCTCAGGGT GAACAATGTA 
    GATTTCACAA ATATCATAAG AGAAGAGGCT GTCCTTTTCC TCCTTGACCT CCCTAAAGGT 
    GAAGAAGTGA CCATCCTGGC TCAGAAGAAG AAGGGTGTTT ATCGCCGCAT TGTAGAATCA 
    GATGTAGGAG ATTCATTCTA TATTAGAACG CATTTTGAGT ATGAAAAAGA ATCTCCTTAC 
    GGACTTAGTT TTAACAAAGG AGAGGTGTTC CGGGTCGTGG ATACTTTATA CAATGGAAAG 
    CTGGGCTCTT GGCTTGCCAT TCGAATTGGC AAAAATCATA AGGAGGTAGA ACGAGGCATC 
    ATCCCTAATA AGAACAGAGC TGAGCAGTTA GCCAGTGTAC AGTACACACT TCCAAAGACA 
    GCGGGTGGTG ATCGGGCAGA CTTCTGGAGG TTTCGAGGTC TTCGCAGCTC CAAGAGAAAT 
    CTTCGAAAAA GCAGAGAGGA CTTGTCAGCT CAGCCAGTTC AAACTAAGTT CCCAGCTTAT 
    GAAAGGGTTG TTCTTCGAGA AGCTGGATTC CTAAGACCTG TAACCATCTT TGGACCAATA 
    GCTGATGTTG CCAGAGAAAA GTTGGCAAGA GAGGAACCAG ATATCTATCA GATTGCAAAA 
    AGTGAACCAC GAGATGCTGG GACTGACCAT CGTAGCTCTG GCATCATTCG CCTTCATACA 
    ATAAAGCAAA TCATAGATCA GGATAAACAT GCGTTATTAG ATGTAACGCC AAATGCGGTT 
    GATCGTCTTA ATTATGCGCA GTGGTATCCA ATTGTTGTGT TCCTTAACCC TGACTCTAAG 
    CAAGGTGTAA AAACAATGAG GATGAGGTTA TGTCCGGAGT CTCGGAAAAG CGCCAGGAAG 
    CTATATGAAC GCTCTCATAA GCTTCGCAAA AACAATCACC ACCTTTTCAC AACTACAATT 
    AACTTAAACT CAATGAATGA TGGTTGGTAC GGTGCCCTGA AAGAAGCCAT TCAGCAGCAA 
    CAGAACCAGC TGGTGTGGGT CTCTGAGGGG AAGGCGGATG GTGCTACAAG TGATGACCTT 
    GATTTGCATG ATGATCGTCT GTCCTACCTG TCAGCCCCAG GTAGTGAGTA CTCAATGTAT 
    AGCACGGACA GTAGACACAC TTCTGACTAT GAAGACACAG ATACAGAAGG CGGGGCCTAC 
    ACTGATCAAG AACTAGATGA AACTCTTAAT GATGAGGTGG GGACTCCCCC GGAGTCTGCC 
    ATTACACNGT CCTCTGAGCC TGTAAGAGAG GATTCCTCTG GGATGCATCA TGAAAACCAG 
    ACCTATCCTC CTTACTCACC ACAAGCGCAG CCACAAGCTA TTCATAGACT AGACTCCCCT 
    GGACTTAAGC CAGCCTCTCA ACAGGTGTAT AGAAAGGAGC CGTATCCTGA AGAAATGATG 
    AGACAAAACC ATATTTTAAA ACAACCAGCT CTTGGTCACC CAGGGCAGAG GCCAGATAAA 
    GAGCCAAATC TAGCCTATGA ACCCCAACTT CCATATANAG AAAAACAAGC CAGCAGAGAC 
    CTTGAACAGC CGTCATACAG GTATGAGGCC TCAAGCTACC CAGACCAGTT TTCTCGGAAC 
    TATGACCATC GCCTACGGTT TGAAGATCGA ATCCCTACCT ATGAAGACCA GTGGTCATAT 
    TATGATGACA AACAGCCCTA CCAACCTCGG CCTTTTGAGA ATCAGCATCC CCGAGACCTG 
    GACTCCAGAC AACATCCNGA GGAGGCTTCA GAACGAGGTT ATNTCCAGCG TTTTGAAGAG 
    CCAGCCCCTC TGTCATACGA CAGTAGAACA CGCTATGAGC AGCTGCCTCG AACCTCTACT 
    CTACGACATG AAGAGCAGCC AGCCCCTGCA TATGAGGTGC ACAACAGGTA CAGGCCAGAG 
    GCACAGCCCT ATTCTTCAAC AGGTCCTAAG TCATCTGAGC CCAAGCAGTA CTTTGACCAG 
    TACCCGCGAA GTTATGAGCA AGTACCACCA CCAGGCTTTA CCTCCAAAAC AGGCCATTAC 
    GAGCCTCTCC ATGGTGCTGC AGTTGTCCCT CCTCTGATAC CTTCCTCTCA ACATAAGCCA 
    GAAGTCCTGC CCTCGGCTAC CAAACCACAG CCTCCACCCC CAACCCTAAC TGAGGAGGAG 
    GAGGATCCAG CAATGAAACC ACAGTCCGTG CTCANCAGAG TCAAAATGTT TGAAAACAAA 
    AGATCTGCGT CTTTGGAGAA CAAGAAAGAT GTGAATGACA CTGCCAGCTT TAAGCCTCCA 
    GAAGTAGCAT CTAAACCTCC AAGTGCTTCT CTTGCTGGCC CTAAACCTGT TCCTCAGAGT 
    CAGTTTAGTG AGCANGACAA AACACTCTAC AGGCTCCCAG AGCCTCAGAA ACCTCAAGTG 
    AAGCCACCCG ANGATATTGT TCGATCAAAT CATTACGACC CTGAAGAGGA TGAAGAATAT 
    TACAGGAAAC AGCTCTCTTA CTTTGANCGA AGAAGTTTTG AGAGCAAGCC TTCTGCACAT 
    CTTCCTGCTG GCCATCACTC AGAGCCTGCT AAGCCAGTCC ATTCTCAGAG CCAGCCCAAC 
    TTTTCTAGTT ACTCTTCAAA GGGAAAACCC GAAACTGATG CTGTGGATAG ATCATTCAGT 
    GAGAAACGTT ATGATCCAGC CCAGGCCACG CCTCCTCCTC CTCCGTTGCC CTCACAGTAC 
    AGCCAGCCAG CTCCCCCTCT GTCCAGCTCT TCTCTCCACA TACATTCCAA GGGCGCCCAG 
    GGCGAAGGCA ATTCAGTATC ATTGGATTTT CAGAACTCAT ATATGTCCAA ACCAGACCCA 
    CCCCCATCTC AGAGTAAACC AGCAACTTTC AGACCACCAA CCCGAGAAGA CCCTCCTCAG 
    ACTTTCTATC CCCAGAAANG TTTCCCAGAC AAAGCTCCAG TTAANGGAGC TGAGCAGACT 
    CAGAAAACCA TCACTCCAGT GTACAATCGA TTCACACCAA AGCCGTACAC AAGTTCTGCC 
    CGGCCGTTTG AACGCAAATT TGAAAGTCCG AAGTTCAACC ATAATCTTCT GCCAAGTGAA 
    ACTGTACATA AACCTGAATT GTCTTCAAAA ACTCCCACTT CTCCAAAAAC TCTTATGAAA 
    GCTCATAGTT CAACACAGCC TCCAGAGTTT GACAGTGGAG TTGAAACTTT CTCTGTTCAC 
    ACAGATNAGC CTAAATATCA AATGAATAAT ATCAGCACCA TGCCTAAAGC TGTCCCTGTG 
    AGTCCTTCAG CTGTGGAAGA AGATGAAGAT GAGGATGGTC ATACTGTAGT GGCTACAGCT 
    CGTGGCATTT TTAACAGCAA TGGTGGTGTG TTGAGTTCCA TAGAAACCGG TGTTAGTATA 
    ATTATCCCAC AAGGAGCCAT TCCTGAAGGA ATTGAACAAG AAATCTATTT CAAAGTCTGC 
    AGAGACAATA GCATTCTCCC ACCTTTAGAT AAAGAGAAAG GTGAAACTCT GCTAAGTCCC 
    CTAGTGATGT GTGGGCCCCA TGGCCTCAAG TTCCTGAAGC CCGTGGAGCT GCGCTTGCCA 
    CACTGTGACC CTAAAACCTG GCAAAACAAG TGTCTTCCTG GAGATCCGAA TTACCTTGTT 
    GGAGCCAACT GTGTTTCTGT CCTGATTGAC CACTTTTAA

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

    RefSeq XP_029334980.1
    CDS68..5266
    Translation

    Target ORF information:

    RefSeq Version XM_029479120.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli 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_029479120.1

    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
    ATGAAGTACC AGAAATACCT GACGGTGCTG CAGATGGCCA TCGGCGTCAC CCCGTCCAAC 
    CGCGGCAGCC TCCTGCCGCT CAAGAGGAAG CTGTGGGTAA CTCCATCCTC TGAAAACCCG 
    CATGGTGCTA CTTCCAATGT CAGCCAAGGA AAACCTTCTC TAAGACGAAT TAAAGGGAGA 
    CTACATCGAA GCAAAAGCCT TGACAGTATC GACTTCTGTG AACTCACTAG CACAGCAATG 
    GAGGAAACGG CTATATGGGA ACAGCACACA GTGACGCTTC ACAGGGCTCC TGGGTTTGGA 
    TTTGGAATTG CAATCTCTGG TGGAAGAGAT AATCCTCATT TTCAGAGTGG GGAAACCTCC 
    ATAGTGATTT CTGATGTGCT AAAAGGAGGG CCAGCTGAAG GACAGCTACA GGAAAATGAC 
    CGAGTTGCAA TGGTTAATGG AGTTTCAATG GATAACGTTG AGCATGCTTT TGCTGTTCAG 
    CAGCTAAGGA AAAGTGGGAA AAACGCAAAA ATTACTATCC GAAGGAAGAA GAAAGTTCAG 
    ATCCCTGTAA GTCACCCAGA TCCTGAGCCG GTGTCTGATA ATGAAGATGA TAGCTACGAC 
    GAAGAAGTAC ATGACCCAAG AGCTGGCCGC GGTGCTTTAG CGAACAGAAG GAGCGAGAAG 
    AGCTGGGCAA GGGATAGGAG TGCAAGCAGG GAGAGGAGCC TGTCCCCTCG CTCGGACAGG 
    CGGTCGGTGG CCTCCAGTCA GCCCGCAAAA CCCACCAAGG TCACACTGGT GAAGTCTCGG 
    AAAAATGAAG AATATGGTCT TCGATTGGCC AGCCATATAT TTGTAAAGGA AATTTCACAA 
    GATAGTTTGG CAGCAAGAGA TGGTAACATT CAAGAAGGGG ATGTTGTCTT GAAGATAAAT 
    GGTACTGTGA CAGAAAATAT GTCATTGACA GATGCAAAAA CACTGATAGA AAGGTCTAAA 
    GGCAAGTTAA AAATGGTAGT GCAAAGAGAT GAGCGGGCTA CCTTACTGAA CGTCCCTGAC 
    CTTTCGGATA GTATCCATTC TGCTAATGCC TCGGAAAGAG ATGACATTTC AGAAATTCAG 
    TCACTAGCAT CAGACCATTC AGGTCGCTCG CATGACAGGC CACCCCGCCG CAGCCAGTCA 
    CGATCTCCTG ACCAACGTTC AGAGCCCTCC GATCATTCCA CACAGTCTCC ACAGCAGCCC 
    AGCAATGGCA GTCTCCGGAG CAGAGAGCAA GAGCGAATGT CTAAACCTGG GGCCATCTCA 
    ACTCCTGTAA AACATGCAGA TGATCATACA CCCAAAGCAG TGGAAGAAGT TACAGTTGAG 
    AAAAATGAGA AGCAGACACC CACTCTTCCA GAACCGAAGC CTGTATATGC TCAAGTTGGA 
    CAACCAGATG TGGATTTACC CGTCAGCCCT TCTGATGGTG TTCTGCCTAA TTCAACTCAT 
    GAAGATGGGA TACTTAGGCC CAGCATGAAA CTGGTAAAAT TCAGAAAAGG AGATAGTGTG 
    GGTTTGCGAC TAGCTGGTGG AAATGATGTC GGAATATTTG TAGCTGGCGT TCTAGAAGAT 
    AGCCCTGCAG CCAAAGAAGG CTTAGAGGAA GGTGATCAAA TTCTCAGGGT GAACAATGTA 
    GATTTCACAA ATATCATAAG AGAAGAGGCT GTCCTTTTCC TCCTTGACCT CCCTAAAGGT 
    GAAGAAGTGA CCATCCTGGC TCAGAAGAAG AAGGGTGTTT ATCGCCGCAT TGTAGAATCA 
    GATGTAGGAG ATTCATTCTA TATTAGAACG CATTTTGAGT ATGAAAAAGA ATCTCCTTAC 
    GGACTTAGTT TTAACAAAGG AGAGGTGTTC CGGGTCGTGG ATACTTTATA CAATGGAAAG 
    CTGGGCTCTT GGCTTGCCAT TCGAATTGGC AAAAATCATA AGGAGGTAGA ACGAGGCATC 
    ATCCCTAATA AGAACAGAGC TGAGCAGTTA GCCAGTGTAC AGTACACACT TCCAAAGACA 
    GCGGGTGGTG ATCGGGCAGA CTTCTGGAGG TTTCGAGGTC TTCGCAGCTC CAAGAGAAAT 
    CTTCGAAAAA GCAGAGAGGA CTTGTCAGCT CAGCCAGTTC AAACTAAGTT CCCAGCTTAT 
    GAAAGGGTTG TTCTTCGAGA AGCTGGATTC CTAAGACCTG TAACCATCTT TGGACCAATA 
    GCTGATGTTG CCAGAGAAAA GTTGGCAAGA GAGGAACCAG ATATCTATCA GATTGCAAAA 
    AGTGAACCAC GAGATGCTGG GACTGACCAT CGTAGCTCTG GCATCATTCG CCTTCATACA 
    ATAAAGCAAA TCATAGATCA GGATAAACAT GCGTTATTAG ATGTAACGCC AAATGCGGTT 
    GATCGTCTTA ATTATGCGCA GTGGTATCCA ATTGTTGTGT TCCTTAACCC TGACTCTAAG 
    CAAGGTGTAA AAACAATGAG GATGAGGTTA TGTCCGGAGT CTCGGAAAAG CGCCAGGAAG 
    CTATATGAAC GCTCTCATAA GCTTCGCAAA AACAATCACC ACCTTTTCAC AACTACAATT 
    AACTTAAACT CAATGAATGA TGGTTGGTAC GGTGCCCTGA AAGAAGCCAT TCAGCAGCAA 
    CAGAACCAGC TGGTGTGGGT CTCTGAGGGG AAGGCGGATG GTGCTACAAG TGATGACCTT 
    GATTTGCATG ATGATCGTCT GTCCTACCTG TCAGCCCCAG GTAGTGAGTA CTCAATGTAT 
    AGCACGGACA GTAGACACAC TTCTGACTAT GAAGACACAG ATACAGAAGG CGGGGCCTAC 
    ACTGATCAAG AACTAGATGA AACTCTTAAT GATGAGGTGG GGACTCCCCC GGAGTCTGCC 
    ATTACACNGT CCTCTGAGCC TGTAAGAGAG GATTCCTCTG GGATGCATCA TGAAAACCAG 
    ACCTATCCTC CTTACTCACC ACAAGCGCAG CCACAAGCTA TTCATAGACT AGACTCCCCT 
    GGACTTAAGC CAGCCTCTCA ACAGGTGTAT AGAAAGGAGC CGTATCCTGA AGAAATGATG 
    AGACAAAACC ATATTTTAAA ACAACCAGCT CTTGGTCACC CAGGGCAGAG GCCAGATAAA 
    GAGCCAAATC TAGCCTATGA ACCCCAACTT CCATATANAG AAAAACAAGC CAGCAGAGAC 
    CTTGAACAGC CGTCATACAG GTATGAGGCC TCAAGCTACC CAGACCAGTT TTCTCGGAAC 
    TATGACCATC GCCTACGGTT TGAAGATCGA ATCCCTACCT ATGAAGACCA GTGGTCATAT 
    TATGATGACA AACAGCCCTA CCAACCTCGG CCTTTTGAGA ATCAGCATCC CCGAGACCTG 
    GACTCCAGAC AACATCCNGA GGAGGCTTCA GAACGAGGTT ATNTCCAGCG TTTTGAAGAG 
    CCAGCCCCTC TGTCATACGA CAGTAGAACA CGCTATGAGC AGCTGCCTCG AACCTCTACT 
    CTACGACATG AAGAGCAGCC AGCCCCTGCA TATGAGGTGC ACAACAGGTA CAGGCCAGAG 
    GCACAGCCCT ATTCTTCAAC AGGTCCTAAG TCATCTGAGC CCAAGCAGTA CTTTGACCAG 
    TACCCGCGAA GTTATGAGCA AGTACCACCA CCAGGCTTTA CCTCCAAAAC AGGCCATTAC 
    GAGCCTCTCC ATGGTGCTGC AGTTGTCCCT CCTCTGATAC CTTCCTCTCA ACATAAGCCA 
    GAAGTCCTGC CCTCGGCTAC CAAACCACAG CCTCCACCCC CAACCCTAAC TGAGGAGGAG 
    GAGGATCCAG CAATGAAACC ACAGTCCGTG CTCANCAGAG TCAAAATGTT TGAAAACAAA 
    AGATCTGCGT CTTTGGAGAA CAAGAAAGAT GTGAATGACA CTGCCAGCTT TAAGCCTCCA 
    GAAGTAGCAT CTAAACCTCC AAGTGCTTCT CTTGCTGGCC CTAAACCTGT TCCTCAGAGT 
    CAGTTTAGTG AGCANGACAA AACACTCTAC AGGCTCCCAG AGCCTCAGAA ACCTCAAGTG 
    AAGCCACCCG ANGATATTGT TCGATCAAAT CATTACGACC CTGAAGAGGA TGAAGAATAT 
    TACAGGAAAC AGCTCTCTTA CTTTGANCGA AGAAGTTTTG AGAGCAAGCC TTCTGCACAT 
    CTTCCTGCTG GCCATCACTC AGAGCCTGCT AAGCCAGTCC ATTCTCAGAG CCAGCCCAAC 
    TTTTCTAGTT ACTCTTCAAA GGGAAAACCC GAAACTGATG CTGTGGATAG ATCATTCAGT 
    GAGAAACGTT ATGATCCAGC CCAGGCCACG CCTCCTCCTC CTCCGTTGCC CTCACAGTAC 
    AGCCAGCCAG CTCCCCCTCT GTCCAGCTCT TCTCTCCACA TACATTCCAA GGGCGCCCAG 
    GGCGAAGGCA ATTCAGTATC ATTGGATTTT CAGAACTCAT ATATGTCCAA ACCAGACCCA 
    CCCCCATCTC AGAGTAAACC AGCAACTTTC AGACCACCAA CCCGAGAAGA CCCTCCTCAG 
    ACTTTCTATC CCCAGAAANG TTTCCCAGAC AAAGCTCCAG TTAANGGAGC TGAGCAGACT 
    CAGAAAACCA TCACTCCAGT GTACAATCGA TTCACACCAA AGCCGTACAC AAGTTCTGCC 
    CGGCCGTTTG AACGCAAATT TGAAAGTCCG AAGTTCAACC ATAATCTTCT GCCAAGTGAA 
    ACTGTACATA AACCTGAATT GTCTTCAAAA ACTCCCACTT CTCCAAAAAC TCTTATGAAA 
    GCTCATAGTT CAACACAGCC TCCAGAGTTT GACAGTGGAG TTGAAACTTT CTCTGTTCAC 
    ACAGATNAGC CTAAATATCA AATGAATAAT ATCAGCACCA TGCCTAAAGC TGTCCCTGTG 
    AGTCCTTCAG CTGTGGAAGA AGATGAAGAT GAGGATGGTC ATACTGTAGT GGCTACAGCT 
    CGTGGCATTT TTAACAGCAA TGGTGGTGTG TTGAGTTCCA TAGAAACCGG TGTTAGTATA 
    ATTATCCCAC AAGGAGCCAT TCCTGAAGGA ATTGAACAAG AAATCTATTT CAAAGTCTGC 
    AGAGACAATA GCATTCTCCC ACCTTTAGAT AAAGAGAAAG GTGAAACTCT GCTAAGTCCC 
    CTAGTGATGT GTGGGCCCCA TGGCCTCAAG TTCCTGAAGC CCGTGGAGCT GCGCTTGCCA 
    CACTGTGACC CTAAAACCTG GCAAAACAAG TGTCTTCCTG GAGATCCGAA TTACCTTGTT 
    GGAGCCAACT GTGTTTCTGT CCTGATTGAC CACTTTTAA

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

    Tjp1 ( XM_029479121.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029334981.1 Mus caroli tight junction protein 1 (Tjp1), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OMv74618
    Clone ID Related Accession (Same CDS sequence) XM_029479121.1
    Accession Version XM_029479121.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5259bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    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_034576.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGTCCACCA GGGCCGCGGC CGCTAAGAGC ACAGCAATGG AGGAAACGGC TATATGGGAA 
    CAGCACACAG TGATGCTTCA CAGGGCTCCT GGGTTTGGAT TTGGAATTGC AATCTCTGGT 
    GGAAGAGATA ATCCTCATTT TCAGAGTGGG GAAACCTCCA TAGTGATTTC TGATGTGCTA 
    AAAGGAGGGC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAATGGA 
    GTTTCAATGG ATAACGTTGA ACATGCTTTT GCTGTTCAGC AGCTAAGGAA AAGTGGGAAA 
    AACGCAAAAA TTACTATGCG AAGGAAGAAG AAAGTTCAGA TCCCTGTAAG TCACCCAGAT 
    CCTGAGCCGG TGTCTGATAA TGAAGATGAT AGCTACGACG AAGAAGTACA TGATCCAAGA 
    GCTGGCCGCA GTGCTTTAGC GAACAGAAGG AGCGAGAAGA GCTGGGCAAG GGATAGGAGT 
    GCAAGCAGGG AGAGGAGCCT GTCCCCTCGC TCGGACAGGC GGTCGGTGGC CTCCAGTCAG 
    CCCGCAAAAC CCACCAAGGT CGCACTGGTG AAGTCTCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCCA GCCATATATT TGTAAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGTAACATTC AAGAAGGGGA TGTTGTCTTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAAAC ACTGATAGAA AGGTCTAAAG GCAAGTTAAA AATGGTAGTG 
    CAAAGAGATG AGCGGGCTAC CTTACTGAAC GTCCCTGACC TTTCGGATAG TATCCATTCT 
    GCTAATGCCT CGGAAAGAGA TGACATTTCA GAAATTCAGT CACTAGCATC AGACCATTCA 
    GGTCGCTCGC ATGACAGGCC ACCCCGCCGC AGCCAGTCAC GATCTCCTGA CCAACGTTCA 
    GAGCCCTCCG ATCATTCCAC ACAGTCTCCA CAGCAGCCCA GCAATGGCAG TCTCCGGAGC 
    AGAGAGCAAG AGCGAATGTC TAAACCTGGG GCCATCTCAA CTCCTGTAAA ACATGCAGAT 
    GATCATACAC CCAAAGCAGT GGAAGAAGTT ACAGTTGAGA AAAATGAGAA GCAGACACCC 
    ACTCTTCCAG AACCGAAGCC TGTATATGCT CAAGTTGGAC AACCAGATGT GGATTTACCC 
    GTCAGCCCTT CTGATGGTGT TCTGCCTAAT TCAACTCATG AAGATGGGAT ACTTAGGCCC 
    AGCATGAAAC TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGACT AGCTGGTGGA 
    AATGATGTCG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAAGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTG AACAATGTAG ATTTCACAAA TATCATAAGA 
    GAAGAGGCTG TCCTTTTCCT CCTTGACCTC CCTAAAGGTG AAGAAGTGAC CATCCTGGCT 
    CAGAAGAAGA AGGGTGTTTA TCGCCGCATT GTAGAATCAG ATGTAGGAGA TTCATTCTAT 
    ATTAGAACGC ATTTTGAGTA TGAAAAAGAA TCTCCTTACG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GGGTCGTGGA TACTTTATAC AATGGAAAGC TGGGCTCTTG GCTTGCCATT 
    CGAATTGGCA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGTTAG CCAGTGTACA GTACACACTT CCAAAGACAG CGGGTGGTGA TCGGGCAGAC 
    TTCTGGAGGT TTCGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAC 
    TTGTCAGCTC AGCCAGTTCA AACTAAGTTC CCAGCTTATG AAAGGGTTGT TCTTCGAGAA 
    GCTGGATTCC TAAGACCTGT AACCATCTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    TTGGCAAGAG AGGAACCAGA TATCTATCAG ATTGCAAAAA GTGAACCACG AGATGCTGGG 
    ACTGACCATC GTAGCTCTGG CATCATTCGC CTTCATACAA TAAAGCAAAT CATAGATCAG 
    GATAAACATG CGTTATTAGA TGTAACGCCA AATGCGGTTG ATCGTCTTAA TTATGCGCAG 
    TGGTATCCAA TTGTTGTGTT CCTTAACCCT GACTCTAAGC AAGGTGTAAA AACAATGAGG 
    ATGAGGTTAT GTCCGGAGTC TCGGAAAAGC GCCAGGAAGC TATATGAACG CTCTCATAAG 
    CTTCGCAAAA ACAATCACCA CCTTTTCACA ACTACAATTA ACTTAAACTC AATGAATGAT 
    GGTTGGTACG GTGCCCTGAA AGAAGCCATT CAGCAGCAAC AGAACCAGCT GGTGTGGGTC 
    TCTGAGGGGA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCCCCAGG TAGTGAGTAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA TACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTGGG GACTCCCCCG GAGTCTGCCA TTACACNGTC CTCTGAGCCT 
    GTAAGAGAGG ATTCCTCTGG GATGCATCAT GAAAACCAGA CCTATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAAGCTAT TCATAGACTA GACTCCCCTG GACTTAAGCC AGCCTCTCAA 
    CAGAAAGCAG AAGCCTCATC TCCAGTCCCT TACCTTTCGC CTGAAACAAA CCCAGCATCG 
    TCAGCCTCTG CAGTTAATCC TAATGTCAGT GTAACTAATG TCAGCCTGGA GGAGCCTGCC 
    CCAGCCCCTC CCGCCTCGCA CGCATCCCAG GCTGGTGGTT TAGGAGCACC AGGTGCTGAG 
    GCAGCTCACG TAGTGCTCAG AGGTGAAGGA CCACCATTGC CGCCGCATGC AGACCCAGCA 
    CAGGTGTATA GAAAGGAGCC GTATCCTGAA GAAATGATGA GACAAAACCA TATTTTAAAA 
    CAACCAGCTC TTGGTCACCC AGGGCAGAGG CCAGATAAAG AGCCAAATCT AGCCTATGAA 
    CCCCAACTTC CATATANAGA AAAACAAGCC AGCAGAGACC TTGAACAGCC GTCATACAGG 
    TATGAGGCCT CAAGCTACCC AGACCAGTTT TCTCGGAACT ATGACCATCG CCTACGGTTT 
    GAAGATCGAA TCCCTACCTA TGAAGACCAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CAACCTCGGC CTTTTGAGAA TCAGCATCCC CGAGACCTGG ACTCCAGACA ACATCCNGAG 
    GAGGCTTCAG AACGAGGTTA TNTCCAGCGT TTTGAAGAGC CAGCCCCTCT GTCATACGAC 
    AGTAGAACAC GCTATGAGCA GCTGCCTCGA ACCTCTACTC TACGACATGA AGAGCAGCCA 
    GCCCCTGCAT ATGAGGTGCA CAACAGGTAC AGGCCAGAGG CACAGCCCTA TTCTTCAACA 
    GGTCCTAAGT CATCTGAGCC CAAGCAGTAC TTTGACCAGT ACCCGCGAAG TTATGAGCAA 
    GTACCACCAC CAGGCTTTAC CTCCAAAACA GGCCATTACG AGCCTCTCCA TGGTGCTGCA 
    GTTGTCCCTC CTCTGATACC TTCCTCTCAA CATAAGCCAG AAGTCCTGCC CTCGGCTACC 
    AAACCACAGC CTCCACCCCC AACCCTAACT GAGGAGGAGG AGGATCCAGC AATGAAACCA 
    CAGTCCGTGC TCANCAGAGT CAAAATGTTT GAAAACAAAA GATCTGCGTC TTTGGAGAAC 
    AAGAAAGATG TGAATGACAC TGCCAGCTTT AAGCCTCCAG AAGTAGCATC TAAACCTCCA 
    AGTGCTTCTC TTGCTGGCCC TAAACCTGTT CCTCAGAGTC AGTTTAGTGA GCANGACAAA 
    ACACTCTACA GGCTCCCAGA GCCTCAGAAA CCTCAAGTGA AGCCACCCGA NGATATTGTT 
    CGATCAAATC ATTACGACCC TGAAGAGGAT GAAGAATATT ACAGGAAACA GCTCTCTTAC 
    TTTGANCGAA GAAGTTTTGA GAGCAAGCCT TCTGCACATC TTCCTGCTGG CCATCACTCA 
    GAGCCTGCTA AGCCAGTCCA TTCTCAGAGC CAGCCCAACT TTTCTAGTTA CTCTTCAAAG 
    GGAAAACCCG AAACTGATGC TGTGGATAGA TCATTCAGTG AGAAACGTTA TGATCCAGCC 
    CAGGCCACGC CTCCTCCTCC TCCGTTGCCC TCACAGTACA GCCAGCCAGC TCCCCCTCTG 
    TCCAGCTCTT CTCTCCACAT ACATTCCAAG GGCGCCCAGG GCGAAGGCAA TTCAGTATCA 
    TTGGATTTTC AGAACTCATA TATGTCCAAA CCAGACCCAC CCCCATCTCA GAGTAAACCA 
    GCAACTTTCA GACCACCAAC CCGAGAAGAC CCTCCTCAGA CTTTCTATCC CCAGAAANGT 
    TTCCCAGACA AAGCTCCAGT TAANGGAGCT GAGCAGACTC AGAAAACCAT CACTCCAGTG 
    TACAATCGAT TCACACCAAA GCCGTACACA AGTTCTGCCC GGCCGTTTGA ACGCAAATTT 
    GAAAGTCCGA AGTTCAACCA TAATCTTCTG CCAAGTGAAA CTGTACATAA ACCTGAATTG 
    TCTTCAAAAA CTCCCACTTC TCCAAAAACT CTTATGAAAG CTCATAGTTC AACACAGCCT 
    CCAGAGTTTG ACAGTGGAGT TGAAACTTTC TCTGTTCACA CAGATNAGCC TAAATATCAA 
    ATGAATAATA TCAGCACCAT GCCTAAAGCT GTCCCTGTGA GTCCTTCAGC TGTGGAAGAA 
    GATGAAGATG AGGATGGTCA TACTGTAGTG GCTACAGCTC GTGGCATTTT TAACAGCAAT 
    GGTGGTGTGT TGAGTTCCAT AGAAACCGGT GTTAGTATAA TTATCCCACA AGGAGCCATT 
    CCTGAAGGAA TTGAACAAGA AATCTATTTC AAAGTCTGCA GAGACAATAG CATTCTCCCA 
    CCTTTAGATA AAGAGAAAGG TGAAACTCTG CTAAGTCCCC TAGTGATGTG TGGGCCCCAT 
    GGCCTCAAGT TCCTGAAGCC CGTGGAGCTG CGCTTGCCAC ACTGTGCGTC CATGACTCCT 
    GACGGTGACC CTAAAACCTG GCAAAACAAG TGTCTTCCTG GAGATCCGAA TTACCTTGTT 
    GGAGCCAACT GTGTTTCTGT CCTGATTGAC CACTTTTAA

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

    RefSeq XP_029334981.1
    CDS65..5323
    Translation

    Target ORF information:

    RefSeq Version XM_029479121.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli 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_029479121.1

    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
    ATGTCCACCA GGGCCGCGGC CGCTAAGAGC ACAGCAATGG AGGAAACGGC TATATGGGAA 
    CAGCACACAG TGATGCTTCA CAGGGCTCCT GGGTTTGGAT TTGGAATTGC AATCTCTGGT 
    GGAAGAGATA ATCCTCATTT TCAGAGTGGG GAAACCTCCA TAGTGATTTC TGATGTGCTA 
    AAAGGAGGGC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAATGGA 
    GTTTCAATGG ATAACGTTGA ACATGCTTTT GCTGTTCAGC AGCTAAGGAA AAGTGGGAAA 
    AACGCAAAAA TTACTATGCG AAGGAAGAAG AAAGTTCAGA TCCCTGTAAG TCACCCAGAT 
    CCTGAGCCGG TGTCTGATAA TGAAGATGAT AGCTACGACG AAGAAGTACA TGATCCAAGA 
    GCTGGCCGCA GTGCTTTAGC GAACAGAAGG AGCGAGAAGA GCTGGGCAAG GGATAGGAGT 
    GCAAGCAGGG AGAGGAGCCT GTCCCCTCGC TCGGACAGGC GGTCGGTGGC CTCCAGTCAG 
    CCCGCAAAAC CCACCAAGGT CGCACTGGTG AAGTCTCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCCA GCCATATATT TGTAAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGTAACATTC AAGAAGGGGA TGTTGTCTTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAAAC ACTGATAGAA AGGTCTAAAG GCAAGTTAAA AATGGTAGTG 
    CAAAGAGATG AGCGGGCTAC CTTACTGAAC GTCCCTGACC TTTCGGATAG TATCCATTCT 
    GCTAATGCCT CGGAAAGAGA TGACATTTCA GAAATTCAGT CACTAGCATC AGACCATTCA 
    GGTCGCTCGC ATGACAGGCC ACCCCGCCGC AGCCAGTCAC GATCTCCTGA CCAACGTTCA 
    GAGCCCTCCG ATCATTCCAC ACAGTCTCCA CAGCAGCCCA GCAATGGCAG TCTCCGGAGC 
    AGAGAGCAAG AGCGAATGTC TAAACCTGGG GCCATCTCAA CTCCTGTAAA ACATGCAGAT 
    GATCATACAC CCAAAGCAGT GGAAGAAGTT ACAGTTGAGA AAAATGAGAA GCAGACACCC 
    ACTCTTCCAG AACCGAAGCC TGTATATGCT CAAGTTGGAC AACCAGATGT GGATTTACCC 
    GTCAGCCCTT CTGATGGTGT TCTGCCTAAT TCAACTCATG AAGATGGGAT ACTTAGGCCC 
    AGCATGAAAC TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGACT AGCTGGTGGA 
    AATGATGTCG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAAGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTG AACAATGTAG ATTTCACAAA TATCATAAGA 
    GAAGAGGCTG TCCTTTTCCT CCTTGACCTC CCTAAAGGTG AAGAAGTGAC CATCCTGGCT 
    CAGAAGAAGA AGGGTGTTTA TCGCCGCATT GTAGAATCAG ATGTAGGAGA TTCATTCTAT 
    ATTAGAACGC ATTTTGAGTA TGAAAAAGAA TCTCCTTACG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GGGTCGTGGA TACTTTATAC AATGGAAAGC TGGGCTCTTG GCTTGCCATT 
    CGAATTGGCA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGTTAG CCAGTGTACA GTACACACTT CCAAAGACAG CGGGTGGTGA TCGGGCAGAC 
    TTCTGGAGGT TTCGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAC 
    TTGTCAGCTC AGCCAGTTCA AACTAAGTTC CCAGCTTATG AAAGGGTTGT TCTTCGAGAA 
    GCTGGATTCC TAAGACCTGT AACCATCTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    TTGGCAAGAG AGGAACCAGA TATCTATCAG ATTGCAAAAA GTGAACCACG AGATGCTGGG 
    ACTGACCATC GTAGCTCTGG CATCATTCGC CTTCATACAA TAAAGCAAAT CATAGATCAG 
    GATAAACATG CGTTATTAGA TGTAACGCCA AATGCGGTTG ATCGTCTTAA TTATGCGCAG 
    TGGTATCCAA TTGTTGTGTT CCTTAACCCT GACTCTAAGC AAGGTGTAAA AACAATGAGG 
    ATGAGGTTAT GTCCGGAGTC TCGGAAAAGC GCCAGGAAGC TATATGAACG CTCTCATAAG 
    CTTCGCAAAA ACAATCACCA CCTTTTCACA ACTACAATTA ACTTAAACTC AATGAATGAT 
    GGTTGGTACG GTGCCCTGAA AGAAGCCATT CAGCAGCAAC AGAACCAGCT GGTGTGGGTC 
    TCTGAGGGGA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCCCCAGG TAGTGAGTAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA TACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTGGG GACTCCCCCG GAGTCTGCCA TTACACNGTC CTCTGAGCCT 
    GTAAGAGAGG ATTCCTCTGG GATGCATCAT GAAAACCAGA CCTATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAAGCTAT TCATAGACTA GACTCCCCTG GACTTAAGCC AGCCTCTCAA 
    CAGAAAGCAG AAGCCTCATC TCCAGTCCCT TACCTTTCGC CTGAAACAAA CCCAGCATCG 
    TCAGCCTCTG CAGTTAATCC TAATGTCAGT GTAACTAATG TCAGCCTGGA GGAGCCTGCC 
    CCAGCCCCTC CCGCCTCGCA CGCATCCCAG GCTGGTGGTT TAGGAGCACC AGGTGCTGAG 
    GCAGCTCACG TAGTGCTCAG AGGTGAAGGA CCACCATTGC CGCCGCATGC AGACCCAGCA 
    CAGGTGTATA GAAAGGAGCC GTATCCTGAA GAAATGATGA GACAAAACCA TATTTTAAAA 
    CAACCAGCTC TTGGTCACCC AGGGCAGAGG CCAGATAAAG AGCCAAATCT AGCCTATGAA 
    CCCCAACTTC CATATANAGA AAAACAAGCC AGCAGAGACC TTGAACAGCC GTCATACAGG 
    TATGAGGCCT CAAGCTACCC AGACCAGTTT TCTCGGAACT ATGACCATCG CCTACGGTTT 
    GAAGATCGAA TCCCTACCTA TGAAGACCAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CAACCTCGGC CTTTTGAGAA TCAGCATCCC CGAGACCTGG ACTCCAGACA ACATCCNGAG 
    GAGGCTTCAG AACGAGGTTA TNTCCAGCGT TTTGAAGAGC CAGCCCCTCT GTCATACGAC 
    AGTAGAACAC GCTATGAGCA GCTGCCTCGA ACCTCTACTC TACGACATGA AGAGCAGCCA 
    GCCCCTGCAT ATGAGGTGCA CAACAGGTAC AGGCCAGAGG CACAGCCCTA TTCTTCAACA 
    GGTCCTAAGT CATCTGAGCC CAAGCAGTAC TTTGACCAGT ACCCGCGAAG TTATGAGCAA 
    GTACCACCAC CAGGCTTTAC CTCCAAAACA GGCCATTACG AGCCTCTCCA TGGTGCTGCA 
    GTTGTCCCTC CTCTGATACC TTCCTCTCAA CATAAGCCAG AAGTCCTGCC CTCGGCTACC 
    AAACCACAGC CTCCACCCCC AACCCTAACT GAGGAGGAGG AGGATCCAGC AATGAAACCA 
    CAGTCCGTGC TCANCAGAGT CAAAATGTTT GAAAACAAAA GATCTGCGTC TTTGGAGAAC 
    AAGAAAGATG TGAATGACAC TGCCAGCTTT AAGCCTCCAG AAGTAGCATC TAAACCTCCA 
    AGTGCTTCTC TTGCTGGCCC TAAACCTGTT CCTCAGAGTC AGTTTAGTGA GCANGACAAA 
    ACACTCTACA GGCTCCCAGA GCCTCAGAAA CCTCAAGTGA AGCCACCCGA NGATATTGTT 
    CGATCAAATC ATTACGACCC TGAAGAGGAT GAAGAATATT ACAGGAAACA GCTCTCTTAC 
    TTTGANCGAA GAAGTTTTGA GAGCAAGCCT TCTGCACATC TTCCTGCTGG CCATCACTCA 
    GAGCCTGCTA AGCCAGTCCA TTCTCAGAGC CAGCCCAACT TTTCTAGTTA CTCTTCAAAG 
    GGAAAACCCG AAACTGATGC TGTGGATAGA TCATTCAGTG AGAAACGTTA TGATCCAGCC 
    CAGGCCACGC CTCCTCCTCC TCCGTTGCCC TCACAGTACA GCCAGCCAGC TCCCCCTCTG 
    TCCAGCTCTT CTCTCCACAT ACATTCCAAG GGCGCCCAGG GCGAAGGCAA TTCAGTATCA 
    TTGGATTTTC AGAACTCATA TATGTCCAAA CCAGACCCAC CCCCATCTCA GAGTAAACCA 
    GCAACTTTCA GACCACCAAC CCGAGAAGAC CCTCCTCAGA CTTTCTATCC CCAGAAANGT 
    TTCCCAGACA AAGCTCCAGT TAANGGAGCT GAGCAGACTC AGAAAACCAT CACTCCAGTG 
    TACAATCGAT TCACACCAAA GCCGTACACA AGTTCTGCCC GGCCGTTTGA ACGCAAATTT 
    GAAAGTCCGA AGTTCAACCA TAATCTTCTG CCAAGTGAAA CTGTACATAA ACCTGAATTG 
    TCTTCAAAAA CTCCCACTTC TCCAAAAACT CTTATGAAAG CTCATAGTTC AACACAGCCT 
    CCAGAGTTTG ACAGTGGAGT TGAAACTTTC TCTGTTCACA CAGATNAGCC TAAATATCAA 
    ATGAATAATA TCAGCACCAT GCCTAAAGCT GTCCCTGTGA GTCCTTCAGC TGTGGAAGAA 
    GATGAAGATG AGGATGGTCA TACTGTAGTG GCTACAGCTC GTGGCATTTT TAACAGCAAT 
    GGTGGTGTGT TGAGTTCCAT AGAAACCGGT GTTAGTATAA TTATCCCACA AGGAGCCATT 
    CCTGAAGGAA TTGAACAAGA AATCTATTTC AAAGTCTGCA GAGACAATAG CATTCTCCCA 
    CCTTTAGATA AAGAGAAAGG TGAAACTCTG CTAAGTCCCC TAGTGATGTG TGGGCCCCAT 
    GGCCTCAAGT TCCTGAAGCC CGTGGAGCTG CGCTTGCCAC ACTGTGCGTC CATGACTCCT 
    GACGGTGACC CTAAAACCTG GCAAAACAAG TGTCTTCCTG GAGATCCGAA TTACCTTGTT 
    GGAGCCAACT GTGTTTCTGT CCTGATTGAC CACTTTTAA

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

見積依頼

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03-6811-6572

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03-6811-6573
050-3174-7589(受注専用)

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