ORF » Species Summary » Homo sapiens » TJP1 cDNA ORF clone

TJP1 cDNA ORF clone, Homo sapiens(human)

  • Gene

  • Clones

  • gRNAs

The following TJP1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TJP1 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OHu25467 NM_003257.5
Latest version!		 Homo sapiens tight junction protein 1 (TJP1), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK 		$679.50-$951.30
$1359.00
OHu25544 NM_175610.4
Latest version!		 Homo sapiens tight junction protein 1 (TJP1), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK 		$659.50-$923.30
$1319.00
OHu85640 XM_017022531.1
Latest version!		 Homo sapiens tight junction protein 1 (TJP1), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu85637 NM_001355013.1
Latest version!		 Homo sapiens tight junction protein 1 (TJP1), transcript variant 7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OHu85638 NM_001355014.2
Latest version!		 Homo sapiens tight junction protein 1 (TJP1), transcript variant 8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OHu85639 NM_001355015.2
Latest version!		 Homo sapiens tight junction protein 1 (TJP1), transcript variant 9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OHu85632 XM_017022525.1
Latest version!		 Homo sapiens tight junction protein 1 (TJP1), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OHu85633 XM_017022526.1
Latest version!		 Homo sapiens tight junction protein 1 (TJP1), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OHu85634 XM_017022527.1
Latest version!		 Homo sapiens tight junction protein 1 (TJP1), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OHu85637 XM_017022528.1
Latest version!		 Homo sapiens tight junction protein 1 (TJP1), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OHu85638 XM_017022529.1
Latest version!		 Homo sapiens tight junction protein 1 (TJP1), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OHu85639 XM_017022530.1
Latest version!		 Homo sapiens tight junction protein 1 (TJP1), transcript variant X15, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OHu48519 NM_001301025.1
Latest version!		 Homo sapiens tight junction protein 1 (TJP1), transcript variant 3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $951.30
$1359.00
OHu48522 NM_001330239.3
Latest version!		 Homo sapiens tight junction protein 1 (TJP1), transcript variant 5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $951.30
$1359.00
OHu48525 NM_001301026.2
Latest version!		 Homo sapiens tight junction protein 1 (TJP1), transcript variant 4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $951.30
$1359.00
OHu102941 NM_001301025.3
Latest version!		 Homo sapiens tight junction protein 1 (TJP1), transcript variant 3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu85630 NM_001355012.2
Latest version!		 Homo sapiens tight junction protein 1 (TJP1), transcript variant 6, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu85626 XM_017022521.1
Latest version!		 Homo sapiens tight junction protein 1 (TJP1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu85627 XM_017022522.1
Latest version!		 Homo sapiens tight junction protein 1 (TJP1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu85628 XM_017022523.1
Latest version!		 Homo sapiens tight junction protein 1 (TJP1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu85629 XM_011521972.2
Latest version!		 Homo sapiens tight junction protein 1 (TJP1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu85630 XM_005254617.3
Latest version!		 Homo sapiens tight junction protein 1 (TJP1), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu85631 XM_017022524.1
Latest version!		 Homo sapiens tight junction protein 1 (TJP1), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu85635 XM_005254619.3
Latest version!		 Homo sapiens tight junction protein 1 (TJP1), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu85636 XM_005254620.3
Latest version!		 Homo sapiens tight junction protein 1 (TJP1), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
View Old Accession Versions >>
OHu102941 NM_001301025.2 Homo sapiens tight junction protein 1 (TJP1), transcript variant 3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu48525 NM_001301026.1 Homo sapiens tight junction protein 1 (TJP1), transcript variant 4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $951.30
$1359.00
OHu25544 NM_175610.3 Homo sapiens tight junction protein 1 (TJP1), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK 		$659.50-$923.30
$1319.00
OHu48522 NM_001330239.1 Homo sapiens tight junction protein 1 (TJP1), transcript variant 5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $951.30
$1359.00
OHu48522 NM_001330239.2 Homo sapiens tight junction protein 1 (TJP1), transcript variant 5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $951.30
$1359.00
OHu85638 NM_001355014.1 Homo sapiens tight junction protein 1 (TJP1), transcript variant 8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OHu25467 NM_003257.4 Homo sapiens tight junction protein 1 (TJP1), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK 		$679.50-$951.30
$1359.00
OHu85630 NM_001355012.1 Homo sapiens tight junction protein 1 (TJP1), transcript variant 6, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu85639 NM_001355015.1 Homo sapiens tight junction protein 1 (TJP1), transcript variant 8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
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 ( NM_003257.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_003248.3 Homo sapiens tight junction protein 1 (TJP1), transcript variant 1, mRNA.
    Price & Availability↑
    CloneID OHu25467
    Clone ID Related Accession (Same CDS sequence) NM_003257.4 , NM_003257.5
    Accession Version NM_003257.4 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5247bp)
    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 2019-02-23
    Organism Homo sapiens(human)
    Product tight junction protein ZO-1 isoform a
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from L14837.1, BC111712.1, AC022613.13, BX640879.1 and AF035298.1. On Jul 18, 2014 this sequence version replaced NM_003257.3. Transcript Variant: This variant (1, also known as ZO-1alpha+) encodes isoform a, which is found in most epithelial cell junctions. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC111712.1, AK304758.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGTCCGCCA GAGCTGCGGC CGCCAAGAGC ACAGCAATGG AGGAAACAGC TATATGGGAA 
    CAACATACAG TGACGCTTCA CAGGGCTCCT GGATTTGGAT TTGGAATTGC AATATCTGGT 
    GGACGAGATA ATCCTCATTT TCAGAGTGGG GAAACGTCAA TAGTGATTTC AGATGTGCTG 
    AAAGGAGGAC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAACGGA 
    GTTTCAATGG ATAATGTTGA ACATGCTTTT GCTGTTCAGC AACTAAGGAA AAGTGGGAAA 
    AATGCAAAAA TTACAATTAG AAGGAAGAAG AAAGTTCAAA TACCAGTAAG TCGTCCTGAT 
    CCTGAACCAG TATCTGATAA TGAAGAAGAT AGTTATGATG AGGAAATACA TGATCCAAGA 
    AGTGGCCGGA GTGGTGTGGT TAACAGAAGG AGTGAGAAGA TTTGGCCGAG GGATAGAAGT 
    GCAAGTAGAG AGAGGAGCTT GTCCCCGCGG TCAGACAGGC GGTCAGTGGC TTCCAGCCAG 
    CCTGCTAAAC CTACTAAAGT CACACTGGTG AAATCCCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCAA GCCATATATT TGTTAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGCAATATTC AAGAAGGTGA TGTTGTATTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAGAC ATTGATAGAA AGGTCTAAAG GCAAATTAAA AATGGTAGTT 
    CAAAGAGATG AACGGGCTAC GCTATTGAAT GTCCCTGATC TTTCTGACAG CATCCACTCT 
    GCTAATGCCT CTGAGAGAGA CGACATTTCA GAAATTCAGT CACTGGCATC AGATCATTCT 
    GGTCGATCAC ACGATAGGCC TCCCCGCCGC AGCCGGTCAC GATCTCCTGA CCAGCGGTCA 
    GAGCCTTCTG ATCATTCCAG GCACTCGCCG CAGCAGCCAA GCAATGGCAG TCTCCGGAGT 
    AGAGATGAAG AGAGAATTTC TAAACCTGGG GCTGTCTCAA CTCCTGTAAA GCATGCTGAT 
    GATCACACAC CTAAAACAGT GGAAGAAGTT ACAGTTGAAA GAAATGAGAA ACAAACACCT 
    TCTCTTCCAG AACCAAAGCC TGTGTATGCC CAAGTTGGGC AACCAGATGT GGATTTACCT 
    GTCAGTCCAT CTGATGGTGT CCTACCTAAT TCAACTCATG AAGATGGGAT TCTTCGGCCC 
    AGCATGAAAT TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGGCT GGCTGGTGGA 
    AATGATGTTG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAGGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTA AACAACGTAG ATTTTACAAA TATCATAAGA 
    GAAGAAGCCG TCCTTTTCCT GCTTGACCTC CCTAAAGGAG AAGAAGTGAC CATATTGGCT 
    CAGAAGAAGA AGGATGTTTA TCGTCGCATT GTAGAATCAG ATGTAGGAGA TTCTTTCTAT 
    ATTAGAACCC ATTTTGAATA TGAAAAGGAA TCTCCCTATG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GTGTTGTGGA TACCTTGTAC AATGGAAAAC TGGGCTCTTG GCTTGCTATT 
    CGAATTGGTA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGCTAG CCAGTGTACA GTATACACTT CCAAAAACAG CAGGCGGAGA CCGTGCTGAC 
    TTCTGGAGAT TCAGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAT 
    TTGTCCGCTC AGCCTGTTCA AACAAAGTTT CCAGCTTATG AAAGAGTGGT TCTTCGAGAA 
    GCTGGATTTC TGAGGCCTGT AACCATTTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    CTGGCAAGAG AAGAACCAGA TATTTATCAA ATTGCAAAGA GTGAACCACG AGACGCTGGA 
    ACTGACCAAC GTAGCTCTGG CATTATTCGC CTGCATACAA TAAAGCAAAT CATAGATCAA 
    GACAAACATG CTTTATTAGA TGTAACACCA AATGCAGTTG ATCGTCTTAA CTATGCCCAG 
    TGGTATCCAA TTGTTGTATT TCTTAACCCT GATTCTAAGC AAGGAGTAAA AACAATGAGA 
    ATGAGGTTAT GTCCAGAATC TCGGAAAAGT GCCAGGAAGT TATACGAGCG ATCTCATAAA 
    CTTCGTAAAA ATAATCACCA TCTTTTTACA ACTACAATTA ACTTAAATTC AATGAATGAT 
    GGTTGGTATG GTGCGCTGAA AGAAGCAATT CAACAACAGC AAAACCAGCT GGTATGGGTT 
    TCCGAGGGAA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCTCCAGG TAGTGAATAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA CACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTTGG GACTCCACCG GAGTCTGCCA TTACACGGTC CTCTGAGCCT 
    GTAAGAGAGG ACTCCTCTGG AATGCATCAT GAAAACCAAA CATATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAACCAAT TCATAGAATA GACTCCCCTG GATTTAAGCC AGCCTCTCAA 
    CAGAAAGCAG AAGCTTCATC TCCAGTCCCT TACCTTTCGC CTGAAACAAA CCCAGCATCA 
    TCAACCTCTG CTGTTAATCA TAATGTAAAT TTAACTAATG TCAGACTGGA GGAGCCCACC 
    CCAGCTCCTT CCACCTCTTA CTCACCACAA GCTGATTCTT TAAGAACACC AAGTACTGAG 
    GCAGCTCACA TAATGCTAAG AGATCAAGAA CCATCATTGT CGTCGCATGT AGATCCAACA 
    AAGGTGTATA GAAAGGATCC ATATCCCGAG GAAATGATGA GGCAGAACCA TGTTTTGAAA 
    CAGCCAGCCG TTAGTCACCC AGGGCACAGG CCAGACAAAG AGCCTAATCT GACCTATGAA 
    CCCCAACTCC CATACGTAGA GAAACAAGCC AGCAGAGACC TCGAGCAGCC CACATACAGA 
    TACGAGTCCT CAAGCTATAC GGACCAGTTT TCTCGAAACT ATGAACATCG TCTGCGATAC 
    GAAGATCGCG TCCCCATGTA TGAAGAACAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CCATCTCGGC CACCTTTTGA TAATCAGCAC TCTCAAGACC TTGACTCCAG ACAGCATCCC 
    GAAGAGTCCT CAGAACGAGG GTACTTTCCA CGTTTTGAAG AGCCAGCCCC TCTGTCTTAC 
    GACAGCAGAC CACGTTACGA ACAGGCACCT AGAGCATCCG CCCTGCGGCA CGAAGAGCAG 
    CCAGCTCCTG GGTATGACAC ACATGGTAGA CTCAGACCGG AAGCCCAGCC CCACCCTTCA 
    GCAGGGCCCA AGCCTGCAGA GTCCAAGCAG TATTTTGAGC AATATTCACG CAGTTACGAG 
    CAAGTACCAC CCCAAGGATT TACCTCTAGA GCAGGTCATT TTGAGCCTCT CCATGGTGCT 
    GCAGCTGTCC CTCCGCTGAT ACCTTCATCT CAGCATAAGC CAGAAGCTCT GCCTTCAAAC 
    ACCAAACCAC TGCCTCCACC CCCAACTCAA ACCGAAGAAG AGGAAGATCC AGCAATGAAG 
    CCACAGTCTG TACTCACCAG AGTTAAGATG TTTGAAAACA AAAGATCTGC ATCCTTAGAG 
    ACCAAGAAGG ATGTAAATGA CACTGGCAGT TTTAAGCCTC CAGAAGTAGC ATCTAAACCT 
    TCAGGTGCTC CCATCATTGG TCCCAAACCC ACTTCTCAGA ATCAATTCAG TGAACATGAC 
    AAAACTCTGT ACAGGATCCC AGAACCTCAA AAACCTCAAC TGAAGCCACC TGAAGATATT 
    GTTCGGTCCA ATCATTATGA CCCTGAAGAA GATGAAGAAT ATTATCGAAA ACAGCTGTCA 
    TACTTTGACC GAAGAAGTTT TGAGAATAAG CCTCCTGCAC ACATTGCCGC CAGCCATCTC 
    TCCGAGCCTG CAAAGCCAGC GCATTCTCAG AATCAATCAA ATTTTTCTAG TTATTCTTCA 
    AAGGGAAAGC CTCCTGAAGC TGATGGTGTG GATAGATCAT TTGGCGAGAA ACGCTATGAA 
    CCCATCCAGG CCACTCCCCC TCCTCCTCCA TTGCCCTCGC AGTATGCCCA GCCATCTCAG 
    CCTGTCACCA GCGCGTCTCT CCACATACAT TCTAAGGGAG CACATGGTGA AGGTAATTCA 
    GTGTCATTGG ATTTTCAGAA TTCCTTAGTG TCCAAACCAG ACCCACCTCC ATCTCAGAAT 
    AAGCCAGCAA CTTTCAGACC ACCAAACCGA GAAGATACTG CTCAGGCAGC TTTCTATCCC 
    CAGAAAAGTT TTCCAGATAA AGCCCCAGTT AATGGAACTG AACAGACTCA GAAAACAGTC 
    ACTCCAGCAT ACAATCGATT CACACCAAAA CCATATACAA GTTCTGCCCG ACCATTTGAA 
    CGCAAGTTTG AAAGTCCTAA ATTCAATCAC AATCTTCTGC CAAGTGAAAC TGCACATAAA 
    CCTGACTTGT CTTCAAAAAC TCCCACTTCT CCAAAAACTC TTGTGAAATC GCACAGTTTG 
    GCACAGCCTC CTGAGTTTGA CAGTGGAGTT GAAACTTTCT CTATCCATGC AGAGAAGCCT 
    AAATATCAAA TAAATAATAT CAGCACAGTG CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT 
    GTGGAAGAGG ATGAAGATGA AGATGGTCAT ACTGTGGTGG CCACAGCCCG AGGCATATTT 
    AACAGCAATG GGGGCGTGCT GAGTTCCATA GAAACTGGTG TTAGTATAAT TATCCCTCAA 
    GGAGCCATTC CCGAAGGAGT TGAGCAGGAA ATCTATTTCA AGGTCTGCCG GGACAACAGC 
    ATCCTTCCAC CTTTAGATAA AGAGAAAGGT GAAACACTGC TGAGTCCTTT GGTGATGTGT 
    GGTCCCCATG GCCTCAAGTT CCTGAAGCCT GTGGAGCTGC GCTTACCACA CTGTGATCCT 
    AAAACCTGGC AAAACAAGTG TCTTCCCGGA GATCCAAATT ATCTCGTTGG AGCAAACTGT 
    GTTTCTGTCC TTATTGACCA CTTTTAA

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

    RefSeq NP_003248.3
    CDS476..5722
    Translation

    Target ORF information:

    RefSeq Version NM_003257.4
    Organism Homo sapiens(human)
    Definition Homo sapiens tight junction protein 1 (TJP1), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_003257.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    ATGTCCGCCA GAGCTGCGGC CGCCAAGAGC ACAGCAATGG AGGAAACAGC TATATGGGAA 
    CAACATACAG TGACGCTTCA CAGGGCTCCT GGATTTGGAT TTGGAATTGC AATATCTGGT 
    GGACGAGATA ATCCTCATTT TCAGAGTGGG GAAACGTCAA TAGTGATTTC AGATGTGCTG 
    AAAGGAGGAC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAACGGA 
    GTTTCAATGG ATAATGTTGA ACATGCTTTT GCTGTTCAGC AACTAAGGAA AAGTGGGAAA 
    AATGCAAAAA TTACAATTAG AAGGAAGAAG AAAGTTCAAA TACCAGTAAG TCGTCCTGAT 
    CCTGAACCAG TATCTGATAA TGAAGAAGAT AGTTATGATG AGGAAATACA TGATCCAAGA 
    AGTGGCCGGA GTGGTGTGGT TAACAGAAGG AGTGAGAAGA TTTGGCCGAG GGATAGAAGT 
    GCAAGTAGAG AGAGGAGCTT GTCCCCGCGG TCAGACAGGC GGTCAGTGGC TTCCAGCCAG 
    CCTGCTAAAC CTACTAAAGT CACACTGGTG AAATCCCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCAA GCCATATATT TGTTAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGCAATATTC AAGAAGGTGA TGTTGTATTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAGAC ATTGATAGAA AGGTCTAAAG GCAAATTAAA AATGGTAGTT 
    CAAAGAGATG AACGGGCTAC GCTATTGAAT GTCCCTGATC TTTCTGACAG CATCCACTCT 
    GCTAATGCCT CTGAGAGAGA CGACATTTCA GAAATTCAGT CACTGGCATC AGATCATTCT 
    GGTCGATCAC ACGATAGGCC TCCCCGCCGC AGCCGGTCAC GATCTCCTGA CCAGCGGTCA 
    GAGCCTTCTG ATCATTCCAG GCACTCGCCG CAGCAGCCAA GCAATGGCAG TCTCCGGAGT 
    AGAGATGAAG AGAGAATTTC TAAACCTGGG GCTGTCTCAA CTCCTGTAAA GCATGCTGAT 
    GATCACACAC CTAAAACAGT GGAAGAAGTT ACAGTTGAAA GAAATGAGAA ACAAACACCT 
    TCTCTTCCAG AACCAAAGCC TGTGTATGCC CAAGTTGGGC AACCAGATGT GGATTTACCT 
    GTCAGTCCAT CTGATGGTGT CCTACCTAAT TCAACTCATG AAGATGGGAT TCTTCGGCCC 
    AGCATGAAAT TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGGCT GGCTGGTGGA 
    AATGATGTTG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAGGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTA AACAACGTAG ATTTTACAAA TATCATAAGA 
    GAAGAAGCCG TCCTTTTCCT GCTTGACCTC CCTAAAGGAG AAGAAGTGAC CATATTGGCT 
    CAGAAGAAGA AGGATGTTTA TCGTCGCATT GTAGAATCAG ATGTAGGAGA TTCTTTCTAT 
    ATTAGAACCC ATTTTGAATA TGAAAAGGAA TCTCCCTATG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GTGTTGTGGA TACCTTGTAC AATGGAAAAC TGGGCTCTTG GCTTGCTATT 
    CGAATTGGTA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGCTAG CCAGTGTACA GTATACACTT CCAAAAACAG CAGGCGGAGA CCGTGCTGAC 
    TTCTGGAGAT TCAGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAT 
    TTGTCCGCTC AGCCTGTTCA AACAAAGTTT CCAGCTTATG AAAGAGTGGT TCTTCGAGAA 
    GCTGGATTTC TGAGGCCTGT AACCATTTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    CTGGCAAGAG AAGAACCAGA TATTTATCAA ATTGCAAAGA GTGAACCACG AGACGCTGGA 
    ACTGACCAAC GTAGCTCTGG CATTATTCGC CTGCATACAA TAAAGCAAAT CATAGATCAA 
    GACAAACATG CTTTATTAGA TGTAACACCA AATGCAGTTG ATCGTCTTAA CTATGCCCAG 
    TGGTATCCAA TTGTTGTATT TCTTAACCCT GATTCTAAGC AAGGAGTAAA AACAATGAGA 
    ATGAGGTTAT GTCCAGAATC TCGGAAAAGT GCCAGGAAGT TATACGAGCG ATCTCATAAA 
    CTTCGTAAAA ATAATCACCA TCTTTTTACA ACTACAATTA ACTTAAATTC AATGAATGAT 
    GGTTGGTATG GTGCGCTGAA AGAAGCAATT CAACAACAGC AAAACCAGCT GGTATGGGTT 
    TCCGAGGGAA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCTCCAGG TAGTGAATAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA CACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTTGG GACTCCACCG GAGTCTGCCA TTACACGGTC CTCTGAGCCT 
    GTAAGAGAGG ACTCCTCTGG AATGCATCAT GAAAACCAAA CATATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAACCAAT TCATAGAATA GACTCCCCTG GATTTAAGCC AGCCTCTCAA 
    CAGAAAGCAG AAGCTTCATC TCCAGTCCCT TACCTTTCGC CTGAAACAAA CCCAGCATCA 
    TCAACCTCTG CTGTTAATCA TAATGTAAAT TTAACTAATG TCAGACTGGA GGAGCCCACC 
    CCAGCTCCTT CCACCTCTTA CTCACCACAA GCTGATTCTT TAAGAACACC AAGTACTGAG 
    GCAGCTCACA TAATGCTAAG AGATCAAGAA CCATCATTGT CGTCGCATGT AGATCCAACA 
    AAGGTGTATA GAAAGGATCC ATATCCCGAG GAAATGATGA GGCAGAACCA TGTTTTGAAA 
    CAGCCAGCCG TTAGTCACCC AGGGCACAGG CCAGACAAAG AGCCTAATCT GACCTATGAA 
    CCCCAACTCC CATACGTAGA GAAACAAGCC AGCAGAGACC TCGAGCAGCC CACATACAGA 
    TACGAGTCCT CAAGCTATAC GGACCAGTTT TCTCGAAACT ATGAACATCG TCTGCGATAC 
    GAAGATCGCG TCCCCATGTA TGAAGAACAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CCATCTCGGC CACCTTTTGA TAATCAGCAC TCTCAAGACC TTGACTCCAG ACAGCATCCC 
    GAAGAGTCCT CAGAACGAGG GTACTTTCCA CGTTTTGAAG AGCCAGCCCC TCTGTCTTAC 
    GACAGCAGAC CACGTTACGA ACAGGCACCT AGAGCATCCG CCCTGCGGCA CGAAGAGCAG 
    CCAGCTCCTG GGTATGACAC ACATGGTAGA CTCAGACCGG AAGCCCAGCC CCACCCTTCA 
    GCAGGGCCCA AGCCTGCAGA GTCCAAGCAG TATTTTGAGC AATATTCACG CAGTTACGAG 
    CAAGTACCAC CCCAAGGATT TACCTCTAGA GCAGGTCATT TTGAGCCTCT CCATGGTGCT 
    GCAGCTGTCC CTCCGCTGAT ACCTTCATCT CAGCATAAGC CAGAAGCTCT GCCTTCAAAC 
    ACCAAACCAC TGCCTCCACC CCCAACTCAA ACCGAAGAAG AGGAAGATCC AGCAATGAAG 
    CCACAGTCTG TACTCACCAG AGTTAAGATG TTTGAAAACA AAAGATCTGC ATCCTTAGAG 
    ACCAAGAAGG ATGTAAATGA CACTGGCAGT TTTAAGCCTC CAGAAGTAGC ATCTAAACCT 
    TCAGGTGCTC CCATCATTGG TCCCAAACCC ACTTCTCAGA ATCAATTCAG TGAACATGAC 
    AAAACTCTGT ACAGGATCCC AGAACCTCAA AAACCTCAAC TGAAGCCACC TGAAGATATT 
    GTTCGGTCCA ATCATTATGA CCCTGAAGAA GATGAAGAAT ATTATCGAAA ACAGCTGTCA 
    TACTTTGACC GAAGAAGTTT TGAGAATAAG CCTCCTGCAC ACATTGCCGC CAGCCATCTC 
    TCCGAGCCTG CAAAGCCAGC GCATTCTCAG AATCAATCAA ATTTTTCTAG TTATTCTTCA 
    AAGGGAAAGC CTCCTGAAGC TGATGGTGTG GATAGATCAT TTGGCGAGAA ACGCTATGAA 
    CCCATCCAGG CCACTCCCCC TCCTCCTCCA TTGCCCTCGC AGTATGCCCA GCCATCTCAG 
    CCTGTCACCA GCGCGTCTCT CCACATACAT TCTAAGGGAG CACATGGTGA AGGTAATTCA 
    GTGTCATTGG ATTTTCAGAA TTCCTTAGTG TCCAAACCAG ACCCACCTCC ATCTCAGAAT 
    AAGCCAGCAA CTTTCAGACC ACCAAACCGA GAAGATACTG CTCAGGCAGC TTTCTATCCC 
    CAGAAAAGTT TTCCAGATAA AGCCCCAGTT AATGGAACTG AACAGACTCA GAAAACAGTC 
    ACTCCAGCAT ACAATCGATT CACACCAAAA CCATATACAA GTTCTGCCCG ACCATTTGAA 
    CGCAAGTTTG AAAGTCCTAA ATTCAATCAC AATCTTCTGC CAAGTGAAAC TGCACATAAA 
    CCTGACTTGT CTTCAAAAAC TCCCACTTCT CCAAAAACTC TTGTGAAATC GCACAGTTTG 
    GCACAGCCTC CTGAGTTTGA CAGTGGAGTT GAAACTTTCT CTATCCATGC AGAGAAGCCT 
    AAATATCAAA TAAATAATAT CAGCACAGTG CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT 
    GTGGAAGAGG ATGAAGATGA AGATGGTCAT ACTGTGGTGG CCACAGCCCG AGGCATATTT 
    AACAGCAATG GGGGCGTGCT GAGTTCCATA GAAACTGGTG TTAGTATAAT TATCCCTCAA 
    GGAGCCATTC CCGAAGGAGT TGAGCAGGAA ATCTATTTCA AGGTCTGCCG GGACAACAGC 
    ATCCTTCCAC CTTTAGATAA AGAGAAAGGT GAAACACTGC TGAGTCCTTT GGTGATGTGT 
    GGTCCCCATG GCCTCAAGTT CCTGAAGCCT GTGGAGCTGC GCTTACCACA CTGTGATCCT 
    AAAACCTGGC AAAACAAGTG TCTTCCCGGA GATCCAAATT ATCTCGTTGG AGCAAACTGT 
    GTTTCTGTCC TTATTGACCA CTTTTAA

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

    TJP1 ( NM_003257.5 ) cDNA ORF clone, Homo sapiens(human) -> NP_003248.3 Homo sapiens tight junction protein 1 (TJP1), transcript variant 1, mRNA.
    Price & Availability↑
    CloneID OHu25467
    Clone ID Related Accession (Same CDS sequence) NM_003257.4 , NM_003257.5
    Accession Version NM_003257.5 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5247bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-15
    Organism Homo sapiens(human)
    Product tight junction protein ZO-1 isoform a
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from L14837.1, BC111712.1, AC022613.13, BX640879.1 and AF035298.1. On Jun 2, 2019 this sequence version replaced NM_003257.4. Transcript Variant: This variant (1, also known as ZO-1alpha+) encodes isoform a, which is found in most epithelial cell junctions. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC111712.1, AK304758.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGTCCGCCA GAGCTGCGGC CGCCAAGAGC ACAGCAATGG AGGAAACAGC TATATGGGAA 
    CAACATACAG TGACGCTTCA CAGGGCTCCT GGATTTGGAT TTGGAATTGC AATATCTGGT 
    GGACGAGATA ATCCTCATTT TCAGAGTGGG GAAACGTCAA TAGTGATTTC AGATGTGCTG 
    AAAGGAGGAC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAACGGA 
    GTTTCAATGG ATAATGTTGA ACATGCTTTT GCTGTTCAGC AACTAAGGAA AAGTGGGAAA 
    AATGCAAAAA TTACAATTAG AAGGAAGAAG AAAGTTCAAA TACCAGTAAG TCGTCCTGAT 
    CCTGAACCAG TATCTGATAA TGAAGAAGAT AGTTATGATG AGGAAATACA TGATCCAAGA 
    AGTGGCCGGA GTGGTGTGGT TAACAGAAGG AGTGAGAAGA TTTGGCCGAG GGATAGAAGT 
    GCAAGTAGAG AGAGGAGCTT GTCCCCGCGG TCAGACAGGC GGTCAGTGGC TTCCAGCCAG 
    CCTGCTAAAC CTACTAAAGT CACACTGGTG AAATCCCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCAA GCCATATATT TGTTAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGCAATATTC AAGAAGGTGA TGTTGTATTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAGAC ATTGATAGAA AGGTCTAAAG GCAAATTAAA AATGGTAGTT 
    CAAAGAGATG AACGGGCTAC GCTATTGAAT GTCCCTGATC TTTCTGACAG CATCCACTCT 
    GCTAATGCCT CTGAGAGAGA CGACATTTCA GAAATTCAGT CACTGGCATC AGATCATTCT 
    GGTCGATCAC ACGATAGGCC TCCCCGCCGC AGCCGGTCAC GATCTCCTGA CCAGCGGTCA 
    GAGCCTTCTG ATCATTCCAG GCACTCGCCG CAGCAGCCAA GCAATGGCAG TCTCCGGAGT 
    AGAGATGAAG AGAGAATTTC TAAACCTGGG GCTGTCTCAA CTCCTGTAAA GCATGCTGAT 
    GATCACACAC CTAAAACAGT GGAAGAAGTT ACAGTTGAAA GAAATGAGAA ACAAACACCT 
    TCTCTTCCAG AACCAAAGCC TGTGTATGCC CAAGTTGGGC AACCAGATGT GGATTTACCT 
    GTCAGTCCAT CTGATGGTGT CCTACCTAAT TCAACTCATG AAGATGGGAT TCTTCGGCCC 
    AGCATGAAAT TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGGCT GGCTGGTGGA 
    AATGATGTTG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAGGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTA AACAACGTAG ATTTTACAAA TATCATAAGA 
    GAAGAAGCCG TCCTTTTCCT GCTTGACCTC CCTAAAGGAG AAGAAGTGAC CATATTGGCT 
    CAGAAGAAGA AGGATGTTTA TCGTCGCATT GTAGAATCAG ATGTAGGAGA TTCTTTCTAT 
    ATTAGAACCC ATTTTGAATA TGAAAAGGAA TCTCCCTATG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GTGTTGTGGA TACCTTGTAC AATGGAAAAC TGGGCTCTTG GCTTGCTATT 
    CGAATTGGTA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGCTAG CCAGTGTACA GTATACACTT CCAAAAACAG CAGGCGGAGA CCGTGCTGAC 
    TTCTGGAGAT TCAGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAT 
    TTGTCCGCTC AGCCTGTTCA AACAAAGTTT CCAGCTTATG AAAGAGTGGT TCTTCGAGAA 
    GCTGGATTTC TGAGGCCTGT AACCATTTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    CTGGCAAGAG AAGAACCAGA TATTTATCAA ATTGCAAAGA GTGAACCACG AGACGCTGGA 
    ACTGACCAAC GTAGCTCTGG CATTATTCGC CTGCATACAA TAAAGCAAAT CATAGATCAA 
    GACAAACATG CTTTATTAGA TGTAACACCA AATGCAGTTG ATCGTCTTAA CTATGCCCAG 
    TGGTATCCAA TTGTTGTATT TCTTAACCCT GATTCTAAGC AAGGAGTAAA AACAATGAGA 
    ATGAGGTTAT GTCCAGAATC TCGGAAAAGT GCCAGGAAGT TATACGAGCG ATCTCATAAA 
    CTTCGTAAAA ATAATCACCA TCTTTTTACA ACTACAATTA ACTTAAATTC AATGAATGAT 
    GGTTGGTATG GTGCGCTGAA AGAAGCAATT CAACAACAGC AAAACCAGCT GGTATGGGTT 
    TCCGAGGGAA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCTCCAGG TAGTGAATAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA CACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTTGG GACTCCACCG GAGTCTGCCA TTACACGGTC CTCTGAGCCT 
    GTAAGAGAGG ACTCCTCTGG AATGCATCAT GAAAACCAAA CATATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAACCAAT TCATAGAATA GACTCCCCTG GATTTAAGCC AGCCTCTCAA 
    CAGAAAGCAG AAGCTTCATC TCCAGTCCCT TACCTTTCGC CTGAAACAAA CCCAGCATCA 
    TCAACCTCTG CTGTTAATCA TAATGTAAAT TTAACTAATG TCAGACTGGA GGAGCCCACC 
    CCAGCTCCTT CCACCTCTTA CTCACCACAA GCTGATTCTT TAAGAACACC AAGTACTGAG 
    GCAGCTCACA TAATGCTAAG AGATCAAGAA CCATCATTGT CGTCGCATGT AGATCCAACA 
    AAGGTGTATA GAAAGGATCC ATATCCCGAG GAAATGATGA GGCAGAACCA TGTTTTGAAA 
    CAGCCAGCCG TTAGTCACCC AGGGCACAGG CCAGACAAAG AGCCTAATCT GACCTATGAA 
    CCCCAACTCC CATACGTAGA GAAACAAGCC AGCAGAGACC TCGAGCAGCC CACATACAGA 
    TACGAGTCCT CAAGCTATAC GGACCAGTTT TCTCGAAACT ATGAACATCG TCTGCGATAC 
    GAAGATCGCG TCCCCATGTA TGAAGAACAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CCATCTCGGC CACCTTTTGA TAATCAGCAC TCTCAAGACC TTGACTCCAG ACAGCATCCC 
    GAAGAGTCCT CAGAACGAGG GTACTTTCCA CGTTTTGAAG AGCCAGCCCC TCTGTCTTAC 
    GACAGCAGAC CACGTTACGA ACAGGCACCT AGAGCATCCG CCCTGCGGCA CGAAGAGCAG 
    CCAGCTCCTG GGTATGACAC ACATGGTAGA CTCAGACCGG AAGCCCAGCC CCACCCTTCA 
    GCAGGGCCCA AGCCTGCAGA GTCCAAGCAG TATTTTGAGC AATATTCACG CAGTTACGAG 
    CAAGTACCAC CCCAAGGATT TACCTCTAGA GCAGGTCATT TTGAGCCTCT CCATGGTGCT 
    GCAGCTGTCC CTCCGCTGAT ACCTTCATCT CAGCATAAGC CAGAAGCTCT GCCTTCAAAC 
    ACCAAACCAC TGCCTCCACC CCCAACTCAA ACCGAAGAAG AGGAAGATCC AGCAATGAAG 
    CCACAGTCTG TACTCACCAG AGTTAAGATG TTTGAAAACA AAAGATCTGC ATCCTTAGAG 
    ACCAAGAAGG ATGTAAATGA CACTGGCAGT TTTAAGCCTC CAGAAGTAGC ATCTAAACCT 
    TCAGGTGCTC CCATCATTGG TCCCAAACCC ACTTCTCAGA ATCAATTCAG TGAACATGAC 
    AAAACTCTGT ACAGGATCCC AGAACCTCAA AAACCTCAAC TGAAGCCACC TGAAGATATT 
    GTTCGGTCCA ATCATTATGA CCCTGAAGAA GATGAAGAAT ATTATCGAAA ACAGCTGTCA 
    TACTTTGACC GAAGAAGTTT TGAGAATAAG CCTCCTGCAC ACATTGCCGC CAGCCATCTC 
    TCCGAGCCTG CAAAGCCAGC GCATTCTCAG AATCAATCAA ATTTTTCTAG TTATTCTTCA 
    AAGGGAAAGC CTCCTGAAGC TGATGGTGTG GATAGATCAT TTGGCGAGAA ACGCTATGAA 
    CCCATCCAGG CCACTCCCCC TCCTCCTCCA TTGCCCTCGC AGTATGCCCA GCCATCTCAG 
    CCTGTCACCA GCGCGTCTCT CCACATACAT TCTAAGGGAG CACATGGTGA AGGTAATTCA 
    GTGTCATTGG ATTTTCAGAA TTCCTTAGTG TCCAAACCAG ACCCACCTCC ATCTCAGAAT 
    AAGCCAGCAA CTTTCAGACC ACCAAACCGA GAAGATACTG CTCAGGCAGC TTTCTATCCC 
    CAGAAAAGTT TTCCAGATAA AGCCCCAGTT AATGGAACTG AACAGACTCA GAAAACAGTC 
    ACTCCAGCAT ACAATCGATT CACACCAAAA CCATATACAA GTTCTGCCCG ACCATTTGAA 
    CGCAAGTTTG AAAGTCCTAA ATTCAATCAC AATCTTCTGC CAAGTGAAAC TGCACATAAA 
    CCTGACTTGT CTTCAAAAAC TCCCACTTCT CCAAAAACTC TTGTGAAATC GCACAGTTTG 
    GCACAGCCTC CTGAGTTTGA CAGTGGAGTT GAAACTTTCT CTATCCATGC AGAGAAGCCT 
    AAATATCAAA TAAATAATAT CAGCACAGTG CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT 
    GTGGAAGAGG ATGAAGATGA AGATGGTCAT ACTGTGGTGG CCACAGCCCG AGGCATATTT 
    AACAGCAATG GGGGCGTGCT GAGTTCCATA GAAACTGGTG TTAGTATAAT TATCCCTCAA 
    GGAGCCATTC CCGAAGGAGT TGAGCAGGAA ATCTATTTCA AGGTCTGCCG GGACAACAGC 
    ATCCTTCCAC CTTTAGATAA AGAGAAAGGT GAAACACTGC TGAGTCCTTT GGTGATGTGT 
    GGTCCCCATG GCCTCAAGTT CCTGAAGCCT GTGGAGCTGC GCTTACCACA CTGTGATCCT 
    AAAACCTGGC AAAACAAGTG TCTTCCCGGA GATCCAAATT ATCTCGTTGG AGCAAACTGT 
    GTTTCTGTCC TTATTGACCA CTTTTAA

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

    RefSeq NP_003248.3
    CDS441..5687
    Translation

    Target ORF information:

    RefSeq Version NM_003257.5
    Organism Homo sapiens(human)
    Definition Homo sapiens tight junction protein 1 (TJP1), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_003257.5

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    ATGTCCGCCA GAGCTGCGGC CGCCAAGAGC ACAGCAATGG AGGAAACAGC TATATGGGAA 
    CAACATACAG TGACGCTTCA CAGGGCTCCT GGATTTGGAT TTGGAATTGC AATATCTGGT 
    GGACGAGATA ATCCTCATTT TCAGAGTGGG GAAACGTCAA TAGTGATTTC AGATGTGCTG 
    AAAGGAGGAC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAACGGA 
    GTTTCAATGG ATAATGTTGA ACATGCTTTT GCTGTTCAGC AACTAAGGAA AAGTGGGAAA 
    AATGCAAAAA TTACAATTAG AAGGAAGAAG AAAGTTCAAA TACCAGTAAG TCGTCCTGAT 
    CCTGAACCAG TATCTGATAA TGAAGAAGAT AGTTATGATG AGGAAATACA TGATCCAAGA 
    AGTGGCCGGA GTGGTGTGGT TAACAGAAGG AGTGAGAAGA TTTGGCCGAG GGATAGAAGT 
    GCAAGTAGAG AGAGGAGCTT GTCCCCGCGG TCAGACAGGC GGTCAGTGGC TTCCAGCCAG 
    CCTGCTAAAC CTACTAAAGT CACACTGGTG AAATCCCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCAA GCCATATATT TGTTAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGCAATATTC AAGAAGGTGA TGTTGTATTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAGAC ATTGATAGAA AGGTCTAAAG GCAAATTAAA AATGGTAGTT 
    CAAAGAGATG AACGGGCTAC GCTATTGAAT GTCCCTGATC TTTCTGACAG CATCCACTCT 
    GCTAATGCCT CTGAGAGAGA CGACATTTCA GAAATTCAGT CACTGGCATC AGATCATTCT 
    GGTCGATCAC ACGATAGGCC TCCCCGCCGC AGCCGGTCAC GATCTCCTGA CCAGCGGTCA 
    GAGCCTTCTG ATCATTCCAG GCACTCGCCG CAGCAGCCAA GCAATGGCAG TCTCCGGAGT 
    AGAGATGAAG AGAGAATTTC TAAACCTGGG GCTGTCTCAA CTCCTGTAAA GCATGCTGAT 
    GATCACACAC CTAAAACAGT GGAAGAAGTT ACAGTTGAAA GAAATGAGAA ACAAACACCT 
    TCTCTTCCAG AACCAAAGCC TGTGTATGCC CAAGTTGGGC AACCAGATGT GGATTTACCT 
    GTCAGTCCAT CTGATGGTGT CCTACCTAAT TCAACTCATG AAGATGGGAT TCTTCGGCCC 
    AGCATGAAAT TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGGCT GGCTGGTGGA 
    AATGATGTTG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAGGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTA AACAACGTAG ATTTTACAAA TATCATAAGA 
    GAAGAAGCCG TCCTTTTCCT GCTTGACCTC CCTAAAGGAG AAGAAGTGAC CATATTGGCT 
    CAGAAGAAGA AGGATGTTTA TCGTCGCATT GTAGAATCAG ATGTAGGAGA TTCTTTCTAT 
    ATTAGAACCC ATTTTGAATA TGAAAAGGAA TCTCCCTATG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GTGTTGTGGA TACCTTGTAC AATGGAAAAC TGGGCTCTTG GCTTGCTATT 
    CGAATTGGTA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGCTAG CCAGTGTACA GTATACACTT CCAAAAACAG CAGGCGGAGA CCGTGCTGAC 
    TTCTGGAGAT TCAGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAT 
    TTGTCCGCTC AGCCTGTTCA AACAAAGTTT CCAGCTTATG AAAGAGTGGT TCTTCGAGAA 
    GCTGGATTTC TGAGGCCTGT AACCATTTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    CTGGCAAGAG AAGAACCAGA TATTTATCAA ATTGCAAAGA GTGAACCACG AGACGCTGGA 
    ACTGACCAAC GTAGCTCTGG CATTATTCGC CTGCATACAA TAAAGCAAAT CATAGATCAA 
    GACAAACATG CTTTATTAGA TGTAACACCA AATGCAGTTG ATCGTCTTAA CTATGCCCAG 
    TGGTATCCAA TTGTTGTATT TCTTAACCCT GATTCTAAGC AAGGAGTAAA AACAATGAGA 
    ATGAGGTTAT GTCCAGAATC TCGGAAAAGT GCCAGGAAGT TATACGAGCG ATCTCATAAA 
    CTTCGTAAAA ATAATCACCA TCTTTTTACA ACTACAATTA ACTTAAATTC AATGAATGAT 
    GGTTGGTATG GTGCGCTGAA AGAAGCAATT CAACAACAGC AAAACCAGCT GGTATGGGTT 
    TCCGAGGGAA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCTCCAGG TAGTGAATAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA CACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTTGG GACTCCACCG GAGTCTGCCA TTACACGGTC CTCTGAGCCT 
    GTAAGAGAGG ACTCCTCTGG AATGCATCAT GAAAACCAAA CATATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAACCAAT TCATAGAATA GACTCCCCTG GATTTAAGCC AGCCTCTCAA 
    CAGAAAGCAG AAGCTTCATC TCCAGTCCCT TACCTTTCGC CTGAAACAAA CCCAGCATCA 
    TCAACCTCTG CTGTTAATCA TAATGTAAAT TTAACTAATG TCAGACTGGA GGAGCCCACC 
    CCAGCTCCTT CCACCTCTTA CTCACCACAA GCTGATTCTT TAAGAACACC AAGTACTGAG 
    GCAGCTCACA TAATGCTAAG AGATCAAGAA CCATCATTGT CGTCGCATGT AGATCCAACA 
    AAGGTGTATA GAAAGGATCC ATATCCCGAG GAAATGATGA GGCAGAACCA TGTTTTGAAA 
    CAGCCAGCCG TTAGTCACCC AGGGCACAGG CCAGACAAAG AGCCTAATCT GACCTATGAA 
    CCCCAACTCC CATACGTAGA GAAACAAGCC AGCAGAGACC TCGAGCAGCC CACATACAGA 
    TACGAGTCCT CAAGCTATAC GGACCAGTTT TCTCGAAACT ATGAACATCG TCTGCGATAC 
    GAAGATCGCG TCCCCATGTA TGAAGAACAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CCATCTCGGC CACCTTTTGA TAATCAGCAC TCTCAAGACC TTGACTCCAG ACAGCATCCC 
    GAAGAGTCCT CAGAACGAGG GTACTTTCCA CGTTTTGAAG AGCCAGCCCC TCTGTCTTAC 
    GACAGCAGAC CACGTTACGA ACAGGCACCT AGAGCATCCG CCCTGCGGCA CGAAGAGCAG 
    CCAGCTCCTG GGTATGACAC ACATGGTAGA CTCAGACCGG AAGCCCAGCC CCACCCTTCA 
    GCAGGGCCCA AGCCTGCAGA GTCCAAGCAG TATTTTGAGC AATATTCACG CAGTTACGAG 
    CAAGTACCAC CCCAAGGATT TACCTCTAGA GCAGGTCATT TTGAGCCTCT CCATGGTGCT 
    GCAGCTGTCC CTCCGCTGAT ACCTTCATCT CAGCATAAGC CAGAAGCTCT GCCTTCAAAC 
    ACCAAACCAC TGCCTCCACC CCCAACTCAA ACCGAAGAAG AGGAAGATCC AGCAATGAAG 
    CCACAGTCTG TACTCACCAG AGTTAAGATG TTTGAAAACA AAAGATCTGC ATCCTTAGAG 
    ACCAAGAAGG ATGTAAATGA CACTGGCAGT TTTAAGCCTC CAGAAGTAGC ATCTAAACCT 
    TCAGGTGCTC CCATCATTGG TCCCAAACCC ACTTCTCAGA ATCAATTCAG TGAACATGAC 
    AAAACTCTGT ACAGGATCCC AGAACCTCAA AAACCTCAAC TGAAGCCACC TGAAGATATT 
    GTTCGGTCCA ATCATTATGA CCCTGAAGAA GATGAAGAAT ATTATCGAAA ACAGCTGTCA 
    TACTTTGACC GAAGAAGTTT TGAGAATAAG CCTCCTGCAC ACATTGCCGC CAGCCATCTC 
    TCCGAGCCTG CAAAGCCAGC GCATTCTCAG AATCAATCAA ATTTTTCTAG TTATTCTTCA 
    AAGGGAAAGC CTCCTGAAGC TGATGGTGTG GATAGATCAT TTGGCGAGAA ACGCTATGAA 
    CCCATCCAGG CCACTCCCCC TCCTCCTCCA TTGCCCTCGC AGTATGCCCA GCCATCTCAG 
    CCTGTCACCA GCGCGTCTCT CCACATACAT TCTAAGGGAG CACATGGTGA AGGTAATTCA 
    GTGTCATTGG ATTTTCAGAA TTCCTTAGTG TCCAAACCAG ACCCACCTCC ATCTCAGAAT 
    AAGCCAGCAA CTTTCAGACC ACCAAACCGA GAAGATACTG CTCAGGCAGC TTTCTATCCC 
    CAGAAAAGTT TTCCAGATAA AGCCCCAGTT AATGGAACTG AACAGACTCA GAAAACAGTC 
    ACTCCAGCAT ACAATCGATT CACACCAAAA CCATATACAA GTTCTGCCCG ACCATTTGAA 
    CGCAAGTTTG AAAGTCCTAA ATTCAATCAC AATCTTCTGC CAAGTGAAAC TGCACATAAA 
    CCTGACTTGT CTTCAAAAAC TCCCACTTCT CCAAAAACTC TTGTGAAATC GCACAGTTTG 
    GCACAGCCTC CTGAGTTTGA CAGTGGAGTT GAAACTTTCT CTATCCATGC AGAGAAGCCT 
    AAATATCAAA TAAATAATAT CAGCACAGTG CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT 
    GTGGAAGAGG ATGAAGATGA AGATGGTCAT ACTGTGGTGG CCACAGCCCG AGGCATATTT 
    AACAGCAATG GGGGCGTGCT GAGTTCCATA GAAACTGGTG TTAGTATAAT TATCCCTCAA 
    GGAGCCATTC CCGAAGGAGT TGAGCAGGAA ATCTATTTCA AGGTCTGCCG GGACAACAGC 
    ATCCTTCCAC CTTTAGATAA AGAGAAAGGT GAAACACTGC TGAGTCCTTT GGTGATGTGT 
    GGTCCCCATG GCCTCAAGTT CCTGAAGCCT GTGGAGCTGC GCTTACCACA CTGTGATCCT 
    AAAACCTGGC AAAACAAGTG TCTTCCCGGA GATCCAAATT ATCTCGTTGG AGCAAACTGT 
    GTTTCTGTCC TTATTGACCA CTTTTAA

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

    TJP1 ( NM_175610.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_783297.2 Homo sapiens tight junction protein 1 (TJP1), transcript variant 2, mRNA.
    Price & Availability↑
    CloneID OHu25544
    Clone ID Related Accession (Same CDS sequence) NM_175610.3 , NM_175610.4
    Accession Version NM_175610.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5007bp)
    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 2019-01-12
    Organism Homo sapiens(human)
    Product tight junction protein ZO-1 isoform b
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from L14837.1, BC111712.1, AK302971.1, AC022613.13, BX640879.1 and AF035298.1. On Jul 18, 2014 this sequence version replaced NM_175610.2. Transcript Variant: This variant (2, also known as ZO-1alpha-) lacks an alternate in-frame exon in the central coding region, compared to variant 1, resulting in an isoform (b) that is shorter than isoform a. Isoform b is found in both endothelial cells and the highly specialized epithelial junctions of renal glomeruli and sertoli cells of the seminiferous tubules. The exon combination of this variant is inferred based on partial transcript alignments and data in PMID:1590354. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803611.267789.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGTCCGCCA GAGCTGCGGC CGCCAAGAGC ACAGCAATGG AGGAAACAGC TATATGGGAA 
    CAACATACAG TGACGCTTCA CAGGGCTCCT GGATTTGGAT TTGGAATTGC AATATCTGGT 
    GGACGAGATA ATCCTCATTT TCAGAGTGGG GAAACGTCAA TAGTGATTTC AGATGTGCTG 
    AAAGGAGGAC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAACGGA 
    GTTTCAATGG ATAATGTTGA ACATGCTTTT GCTGTTCAGC AACTAAGGAA AAGTGGGAAA 
    AATGCAAAAA TTACAATTAG AAGGAAGAAG AAAGTTCAAA TACCAGTAAG TCGTCCTGAT 
    CCTGAACCAG TATCTGATAA TGAAGAAGAT AGTTATGATG AGGAAATACA TGATCCAAGA 
    AGTGGCCGGA GTGGTGTGGT TAACAGAAGG AGTGAGAAGA TTTGGCCGAG GGATAGAAGT 
    GCAAGTAGAG AGAGGAGCTT GTCCCCGCGG TCAGACAGGC GGTCAGTGGC TTCCAGCCAG 
    CCTGCTAAAC CTACTAAAGT CACACTGGTG AAATCCCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCAA GCCATATATT TGTTAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGCAATATTC AAGAAGGTGA TGTTGTATTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAGAC ATTGATAGAA AGGTCTAAAG GCAAATTAAA AATGGTAGTT 
    CAAAGAGATG AACGGGCTAC GCTATTGAAT GTCCCTGATC TTTCTGACAG CATCCACTCT 
    GCTAATGCCT CTGAGAGAGA CGACATTTCA GAAATTCAGT CACTGGCATC AGATCATTCT 
    GGTCGATCAC ACGATAGGCC TCCCCGCCGC AGCCGGTCAC GATCTCCTGA CCAGCGGTCA 
    GAGCCTTCTG ATCATTCCAG GCACTCGCCG CAGCAGCCAA GCAATGGCAG TCTCCGGAGT 
    AGAGATGAAG AGAGAATTTC TAAACCTGGG GCTGTCTCAA CTCCTGTAAA GCATGCTGAT 
    GATCACACAC CTAAAACAGT GGAAGAAGTT ACAGTTGAAA GAAATGAGAA ACAAACACCT 
    TCTCTTCCAG AACCAAAGCC TGTGTATGCC CAAGTTGGGC AACCAGATGT GGATTTACCT 
    GTCAGTCCAT CTGATGGTGT CCTACCTAAT TCAACTCATG AAGATGGGAT TCTTCGGCCC 
    AGCATGAAAT TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGGCT GGCTGGTGGA 
    AATGATGTTG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAGGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTA AACAACGTAG ATTTTACAAA TATCATAAGA 
    GAAGAAGCCG TCCTTTTCCT GCTTGACCTC CCTAAAGGAG AAGAAGTGAC CATATTGGCT 
    CAGAAGAAGA AGGATGTTTA TCGTCGCATT GTAGAATCAG ATGTAGGAGA TTCTTTCTAT 
    ATTAGAACCC ATTTTGAATA TGAAAAGGAA TCTCCCTATG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GTGTTGTGGA TACCTTGTAC AATGGAAAAC TGGGCTCTTG GCTTGCTATT 
    CGAATTGGTA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGCTAG CCAGTGTACA GTATACACTT CCAAAAACAG CAGGCGGAGA CCGTGCTGAC 
    TTCTGGAGAT TCAGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAT 
    TTGTCCGCTC AGCCTGTTCA AACAAAGTTT CCAGCTTATG AAAGAGTGGT TCTTCGAGAA 
    GCTGGATTTC TGAGGCCTGT AACCATTTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    CTGGCAAGAG AAGAACCAGA TATTTATCAA ATTGCAAAGA GTGAACCACG AGACGCTGGA 
    ACTGACCAAC GTAGCTCTGG CATTATTCGC CTGCATACAA TAAAGCAAAT CATAGATCAA 
    GACAAACATG CTTTATTAGA TGTAACACCA AATGCAGTTG ATCGTCTTAA CTATGCCCAG 
    TGGTATCCAA TTGTTGTATT TCTTAACCCT GATTCTAAGC AAGGAGTAAA AACAATGAGA 
    ATGAGGTTAT GTCCAGAATC TCGGAAAAGT GCCAGGAAGT TATACGAGCG ATCTCATAAA 
    CTTCGTAAAA ATAATCACCA TCTTTTTACA ACTACAATTA ACTTAAATTC AATGAATGAT 
    GGTTGGTATG GTGCGCTGAA AGAAGCAATT CAACAACAGC AAAACCAGCT GGTATGGGTT 
    TCCGAGGGAA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCTCCAGG TAGTGAATAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA CACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTTGG GACTCCACCG GAGTCTGCCA TTACACGGTC CTCTGAGCCT 
    GTAAGAGAGG ACTCCTCTGG AATGCATCAT GAAAACCAAA CATATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAACCAAT TCATAGAATA GACTCCCCTG GATTTAAGCC AGCCTCTCAA 
    CAGGTGTATA GAAAGGATCC ATATCCCGAG GAAATGATGA GGCAGAACCA TGTTTTGAAA 
    CAGCCAGCCG TTAGTCACCC AGGGCACAGG CCAGACAAAG AGCCTAATCT GACCTATGAA 
    CCCCAACTCC CATACGTAGA GAAACAAGCC AGCAGAGACC TCGAGCAGCC CACATACAGA 
    TACGAGTCCT CAAGCTATAC GGACCAGTTT TCTCGAAACT ATGAACATCG TCTGCGATAC 
    GAAGATCGCG TCCCCATGTA TGAAGAACAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CCATCTCGGC CACCTTTTGA TAATCAGCAC TCTCAAGACC TTGACTCCAG ACAGCATCCC 
    GAAGAGTCCT CAGAACGAGG GTACTTTCCA CGTTTTGAAG AGCCAGCCCC TCTGTCTTAC 
    GACAGCAGAC CACGTTACGA ACAGGCACCT AGAGCATCCG CCCTGCGGCA CGAAGAGCAG 
    CCAGCTCCTG GGTATGACAC ACATGGTAGA CTCAGACCGG AAGCCCAGCC CCACCCTTCA 
    GCAGGGCCCA AGCCTGCAGA GTCCAAGCAG TATTTTGAGC AATATTCACG CAGTTACGAG 
    CAAGTACCAC CCCAAGGATT TACCTCTAGA GCAGGTCATT TTGAGCCTCT CCATGGTGCT 
    GCAGCTGTCC CTCCGCTGAT ACCTTCATCT CAGCATAAGC CAGAAGCTCT GCCTTCAAAC 
    ACCAAACCAC TGCCTCCACC CCCAACTCAA ACCGAAGAAG AGGAAGATCC AGCAATGAAG 
    CCACAGTCTG TACTCACCAG AGTTAAGATG TTTGAAAACA AAAGATCTGC ATCCTTAGAG 
    ACCAAGAAGG ATGTAAATGA CACTGGCAGT TTTAAGCCTC CAGAAGTAGC ATCTAAACCT 
    TCAGGTGCTC CCATCATTGG TCCCAAACCC ACTTCTCAGA ATCAATTCAG TGAACATGAC 
    AAAACTCTGT ACAGGATCCC AGAACCTCAA AAACCTCAAC TGAAGCCACC TGAAGATATT 
    GTTCGGTCCA ATCATTATGA CCCTGAAGAA GATGAAGAAT ATTATCGAAA ACAGCTGTCA 
    TACTTTGACC GAAGAAGTTT TGAGAATAAG CCTCCTGCAC ACATTGCCGC CAGCCATCTC 
    TCCGAGCCTG CAAAGCCAGC GCATTCTCAG AATCAATCAA ATTTTTCTAG TTATTCTTCA 
    AAGGGAAAGC CTCCTGAAGC TGATGGTGTG GATAGATCAT TTGGCGAGAA ACGCTATGAA 
    CCCATCCAGG CCACTCCCCC TCCTCCTCCA TTGCCCTCGC AGTATGCCCA GCCATCTCAG 
    CCTGTCACCA GCGCGTCTCT CCACATACAT TCTAAGGGAG CACATGGTGA AGGTAATTCA 
    GTGTCATTGG ATTTTCAGAA TTCCTTAGTG TCCAAACCAG ACCCACCTCC ATCTCAGAAT 
    AAGCCAGCAA CTTTCAGACC ACCAAACCGA GAAGATACTG CTCAGGCAGC TTTCTATCCC 
    CAGAAAAGTT TTCCAGATAA AGCCCCAGTT AATGGAACTG AACAGACTCA GAAAACAGTC 
    ACTCCAGCAT ACAATCGATT CACACCAAAA CCATATACAA GTTCTGCCCG ACCATTTGAA 
    CGCAAGTTTG AAAGTCCTAA ATTCAATCAC AATCTTCTGC CAAGTGAAAC TGCACATAAA 
    CCTGACTTGT CTTCAAAAAC TCCCACTTCT CCAAAAACTC TTGTGAAATC GCACAGTTTG 
    GCACAGCCTC CTGAGTTTGA CAGTGGAGTT GAAACTTTCT CTATCCATGC AGAGAAGCCT 
    AAATATCAAA TAAATAATAT CAGCACAGTG CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT 
    GTGGAAGAGG ATGAAGATGA AGATGGTCAT ACTGTGGTGG CCACAGCCCG AGGCATATTT 
    AACAGCAATG GGGGCGTGCT GAGTTCCATA GAAACTGGTG TTAGTATAAT TATCCCTCAA 
    GGAGCCATTC CCGAAGGAGT TGAGCAGGAA ATCTATTTCA AGGTCTGCCG GGACAACAGC 
    ATCCTTCCAC CTTTAGATAA AGAGAAAGGT GAAACACTGC TGAGTCCTTT GGTGATGTGT 
    GGTCCCCATG GCCTCAAGTT CCTGAAGCCT GTGGAGCTGC GCTTACCACA CTGTGATCCT 
    AAAACCTGGC AAAACAAGTG TCTTCCCGGA GATCCAAATT ATCTCGTTGG AGCAAACTGT 
    GTTTCTGTCC TTATTGACCA CTTTTAA

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

    RefSeq NP_783297.2
    CDS476..5482
    Translation

    Target ORF information:

    RefSeq Version NM_175610.3
    Organism Homo sapiens(human)
    Definition Homo sapiens tight junction protein 1 (TJP1), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_175610.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGTCCGCCA GAGCTGCGGC CGCCAAGAGC ACAGCAATGG AGGAAACAGC TATATGGGAA 
    CAACATACAG TGACGCTTCA CAGGGCTCCT GGATTTGGAT TTGGAATTGC AATATCTGGT 
    GGACGAGATA ATCCTCATTT TCAGAGTGGG GAAACGTCAA TAGTGATTTC AGATGTGCTG 
    AAAGGAGGAC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAACGGA 
    GTTTCAATGG ATAATGTTGA ACATGCTTTT GCTGTTCAGC AACTAAGGAA AAGTGGGAAA 
    AATGCAAAAA TTACAATTAG AAGGAAGAAG AAAGTTCAAA TACCAGTAAG TCGTCCTGAT 
    CCTGAACCAG TATCTGATAA TGAAGAAGAT AGTTATGATG AGGAAATACA TGATCCAAGA 
    AGTGGCCGGA GTGGTGTGGT TAACAGAAGG AGTGAGAAGA TTTGGCCGAG GGATAGAAGT 
    GCAAGTAGAG AGAGGAGCTT GTCCCCGCGG TCAGACAGGC GGTCAGTGGC TTCCAGCCAG 
    CCTGCTAAAC CTACTAAAGT CACACTGGTG AAATCCCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCAA GCCATATATT TGTTAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGCAATATTC AAGAAGGTGA TGTTGTATTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAGAC ATTGATAGAA AGGTCTAAAG GCAAATTAAA AATGGTAGTT 
    CAAAGAGATG AACGGGCTAC GCTATTGAAT GTCCCTGATC TTTCTGACAG CATCCACTCT 
    GCTAATGCCT CTGAGAGAGA CGACATTTCA GAAATTCAGT CACTGGCATC AGATCATTCT 
    GGTCGATCAC ACGATAGGCC TCCCCGCCGC AGCCGGTCAC GATCTCCTGA CCAGCGGTCA 
    GAGCCTTCTG ATCATTCCAG GCACTCGCCG CAGCAGCCAA GCAATGGCAG TCTCCGGAGT 
    AGAGATGAAG AGAGAATTTC TAAACCTGGG GCTGTCTCAA CTCCTGTAAA GCATGCTGAT 
    GATCACACAC CTAAAACAGT GGAAGAAGTT ACAGTTGAAA GAAATGAGAA ACAAACACCT 
    TCTCTTCCAG AACCAAAGCC TGTGTATGCC CAAGTTGGGC AACCAGATGT GGATTTACCT 
    GTCAGTCCAT CTGATGGTGT CCTACCTAAT TCAACTCATG AAGATGGGAT TCTTCGGCCC 
    AGCATGAAAT TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGGCT GGCTGGTGGA 
    AATGATGTTG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAGGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTA AACAACGTAG ATTTTACAAA TATCATAAGA 
    GAAGAAGCCG TCCTTTTCCT GCTTGACCTC CCTAAAGGAG AAGAAGTGAC CATATTGGCT 
    CAGAAGAAGA AGGATGTTTA TCGTCGCATT GTAGAATCAG ATGTAGGAGA TTCTTTCTAT 
    ATTAGAACCC ATTTTGAATA TGAAAAGGAA TCTCCCTATG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GTGTTGTGGA TACCTTGTAC AATGGAAAAC TGGGCTCTTG GCTTGCTATT 
    CGAATTGGTA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGCTAG CCAGTGTACA GTATACACTT CCAAAAACAG CAGGCGGAGA CCGTGCTGAC 
    TTCTGGAGAT TCAGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAT 
    TTGTCCGCTC AGCCTGTTCA AACAAAGTTT CCAGCTTATG AAAGAGTGGT TCTTCGAGAA 
    GCTGGATTTC TGAGGCCTGT AACCATTTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    CTGGCAAGAG AAGAACCAGA TATTTATCAA ATTGCAAAGA GTGAACCACG AGACGCTGGA 
    ACTGACCAAC GTAGCTCTGG CATTATTCGC CTGCATACAA TAAAGCAAAT CATAGATCAA 
    GACAAACATG CTTTATTAGA TGTAACACCA AATGCAGTTG ATCGTCTTAA CTATGCCCAG 
    TGGTATCCAA TTGTTGTATT TCTTAACCCT GATTCTAAGC AAGGAGTAAA AACAATGAGA 
    ATGAGGTTAT GTCCAGAATC TCGGAAAAGT GCCAGGAAGT TATACGAGCG ATCTCATAAA 
    CTTCGTAAAA ATAATCACCA TCTTTTTACA ACTACAATTA ACTTAAATTC AATGAATGAT 
    GGTTGGTATG GTGCGCTGAA AGAAGCAATT CAACAACAGC AAAACCAGCT GGTATGGGTT 
    TCCGAGGGAA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCTCCAGG TAGTGAATAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA CACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTTGG GACTCCACCG GAGTCTGCCA TTACACGGTC CTCTGAGCCT 
    GTAAGAGAGG ACTCCTCTGG AATGCATCAT GAAAACCAAA CATATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAACCAAT TCATAGAATA GACTCCCCTG GATTTAAGCC AGCCTCTCAA 
    CAGGTGTATA GAAAGGATCC ATATCCCGAG GAAATGATGA GGCAGAACCA TGTTTTGAAA 
    CAGCCAGCCG TTAGTCACCC AGGGCACAGG CCAGACAAAG AGCCTAATCT GACCTATGAA 
    CCCCAACTCC CATACGTAGA GAAACAAGCC AGCAGAGACC TCGAGCAGCC CACATACAGA 
    TACGAGTCCT CAAGCTATAC GGACCAGTTT TCTCGAAACT ATGAACATCG TCTGCGATAC 
    GAAGATCGCG TCCCCATGTA TGAAGAACAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CCATCTCGGC CACCTTTTGA TAATCAGCAC TCTCAAGACC TTGACTCCAG ACAGCATCCC 
    GAAGAGTCCT CAGAACGAGG GTACTTTCCA CGTTTTGAAG AGCCAGCCCC TCTGTCTTAC 
    GACAGCAGAC CACGTTACGA ACAGGCACCT AGAGCATCCG CCCTGCGGCA CGAAGAGCAG 
    CCAGCTCCTG GGTATGACAC ACATGGTAGA CTCAGACCGG AAGCCCAGCC CCACCCTTCA 
    GCAGGGCCCA AGCCTGCAGA GTCCAAGCAG TATTTTGAGC AATATTCACG CAGTTACGAG 
    CAAGTACCAC CCCAAGGATT TACCTCTAGA GCAGGTCATT TTGAGCCTCT CCATGGTGCT 
    GCAGCTGTCC CTCCGCTGAT ACCTTCATCT CAGCATAAGC CAGAAGCTCT GCCTTCAAAC 
    ACCAAACCAC TGCCTCCACC CCCAACTCAA ACCGAAGAAG AGGAAGATCC AGCAATGAAG 
    CCACAGTCTG TACTCACCAG AGTTAAGATG TTTGAAAACA AAAGATCTGC ATCCTTAGAG 
    ACCAAGAAGG ATGTAAATGA CACTGGCAGT TTTAAGCCTC CAGAAGTAGC ATCTAAACCT 
    TCAGGTGCTC CCATCATTGG TCCCAAACCC ACTTCTCAGA ATCAATTCAG TGAACATGAC 
    AAAACTCTGT ACAGGATCCC AGAACCTCAA AAACCTCAAC TGAAGCCACC TGAAGATATT 
    GTTCGGTCCA ATCATTATGA CCCTGAAGAA GATGAAGAAT ATTATCGAAA ACAGCTGTCA 
    TACTTTGACC GAAGAAGTTT TGAGAATAAG CCTCCTGCAC ACATTGCCGC CAGCCATCTC 
    TCCGAGCCTG CAAAGCCAGC GCATTCTCAG AATCAATCAA ATTTTTCTAG TTATTCTTCA 
    AAGGGAAAGC CTCCTGAAGC TGATGGTGTG GATAGATCAT TTGGCGAGAA ACGCTATGAA 
    CCCATCCAGG CCACTCCCCC TCCTCCTCCA TTGCCCTCGC AGTATGCCCA GCCATCTCAG 
    CCTGTCACCA GCGCGTCTCT CCACATACAT TCTAAGGGAG CACATGGTGA AGGTAATTCA 
    GTGTCATTGG ATTTTCAGAA TTCCTTAGTG TCCAAACCAG ACCCACCTCC ATCTCAGAAT 
    AAGCCAGCAA CTTTCAGACC ACCAAACCGA GAAGATACTG CTCAGGCAGC TTTCTATCCC 
    CAGAAAAGTT TTCCAGATAA AGCCCCAGTT AATGGAACTG AACAGACTCA GAAAACAGTC 
    ACTCCAGCAT ACAATCGATT CACACCAAAA CCATATACAA GTTCTGCCCG ACCATTTGAA 
    CGCAAGTTTG AAAGTCCTAA ATTCAATCAC AATCTTCTGC CAAGTGAAAC TGCACATAAA 
    CCTGACTTGT CTTCAAAAAC TCCCACTTCT CCAAAAACTC TTGTGAAATC GCACAGTTTG 
    GCACAGCCTC CTGAGTTTGA CAGTGGAGTT GAAACTTTCT CTATCCATGC AGAGAAGCCT 
    AAATATCAAA TAAATAATAT CAGCACAGTG CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT 
    GTGGAAGAGG ATGAAGATGA AGATGGTCAT ACTGTGGTGG CCACAGCCCG AGGCATATTT 
    AACAGCAATG GGGGCGTGCT GAGTTCCATA GAAACTGGTG TTAGTATAAT TATCCCTCAA 
    GGAGCCATTC CCGAAGGAGT TGAGCAGGAA ATCTATTTCA AGGTCTGCCG GGACAACAGC 
    ATCCTTCCAC CTTTAGATAA AGAGAAAGGT GAAACACTGC TGAGTCCTTT GGTGATGTGT 
    GGTCCCCATG GCCTCAAGTT CCTGAAGCCT GTGGAGCTGC GCTTACCACA CTGTGATCCT 
    AAAACCTGGC AAAACAAGTG TCTTCCCGGA GATCCAAATT ATCTCGTTGG AGCAAACTGT 
    GTTTCTGTCC TTATTGACCA CTTTTAA

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

    TJP1 ( NM_175610.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_783297.2 Homo sapiens tight junction protein 1 (TJP1), transcript variant 2, mRNA.
    Price & Availability↑
    CloneID OHu25544
    Clone ID Related Accession (Same CDS sequence) NM_175610.3 , NM_175610.4
    Accession Version NM_175610.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5007bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-15
    Organism Homo sapiens(human)
    Product tight junction protein ZO-1 isoform b
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from L14837.1, BC111712.1, AK302971.1, AC022613.13, BX640879.1 and AF035298.1. On Jun 2, 2019 this sequence version replaced NM_175610.3. Transcript Variant: This variant (2, also known as ZO-1alpha-) lacks an alternate in-frame exon in the central coding region, compared to variant 1, resulting in an isoform (b) that is shorter than isoform a. Isoform b is found in both endothelial cells and the highly specialized epithelial junctions of renal glomeruli and sertoli cells of the seminiferous tubules. The exon combination of this variant is inferred based on partial transcript alignments and data in PMID:1590354. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803611.267789.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGTCCGCCA GAGCTGCGGC CGCCAAGAGC ACAGCAATGG AGGAAACAGC TATATGGGAA 
    CAACATACAG TGACGCTTCA CAGGGCTCCT GGATTTGGAT TTGGAATTGC AATATCTGGT 
    GGACGAGATA ATCCTCATTT TCAGAGTGGG GAAACGTCAA TAGTGATTTC AGATGTGCTG 
    AAAGGAGGAC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAACGGA 
    GTTTCAATGG ATAATGTTGA ACATGCTTTT GCTGTTCAGC AACTAAGGAA AAGTGGGAAA 
    AATGCAAAAA TTACAATTAG AAGGAAGAAG AAAGTTCAAA TACCAGTAAG TCGTCCTGAT 
    CCTGAACCAG TATCTGATAA TGAAGAAGAT AGTTATGATG AGGAAATACA TGATCCAAGA 
    AGTGGCCGGA GTGGTGTGGT TAACAGAAGG AGTGAGAAGA TTTGGCCGAG GGATAGAAGT 
    GCAAGTAGAG AGAGGAGCTT GTCCCCGCGG TCAGACAGGC GGTCAGTGGC TTCCAGCCAG 
    CCTGCTAAAC CTACTAAAGT CACACTGGTG AAATCCCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCAA GCCATATATT TGTTAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGCAATATTC AAGAAGGTGA TGTTGTATTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAGAC ATTGATAGAA AGGTCTAAAG GCAAATTAAA AATGGTAGTT 
    CAAAGAGATG AACGGGCTAC GCTATTGAAT GTCCCTGATC TTTCTGACAG CATCCACTCT 
    GCTAATGCCT CTGAGAGAGA CGACATTTCA GAAATTCAGT CACTGGCATC AGATCATTCT 
    GGTCGATCAC ACGATAGGCC TCCCCGCCGC AGCCGGTCAC GATCTCCTGA CCAGCGGTCA 
    GAGCCTTCTG ATCATTCCAG GCACTCGCCG CAGCAGCCAA GCAATGGCAG TCTCCGGAGT 
    AGAGATGAAG AGAGAATTTC TAAACCTGGG GCTGTCTCAA CTCCTGTAAA GCATGCTGAT 
    GATCACACAC CTAAAACAGT GGAAGAAGTT ACAGTTGAAA GAAATGAGAA ACAAACACCT 
    TCTCTTCCAG AACCAAAGCC TGTGTATGCC CAAGTTGGGC AACCAGATGT GGATTTACCT 
    GTCAGTCCAT CTGATGGTGT CCTACCTAAT TCAACTCATG AAGATGGGAT TCTTCGGCCC 
    AGCATGAAAT TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGGCT GGCTGGTGGA 
    AATGATGTTG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAGGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTA AACAACGTAG ATTTTACAAA TATCATAAGA 
    GAAGAAGCCG TCCTTTTCCT GCTTGACCTC CCTAAAGGAG AAGAAGTGAC CATATTGGCT 
    CAGAAGAAGA AGGATGTTTA TCGTCGCATT GTAGAATCAG ATGTAGGAGA TTCTTTCTAT 
    ATTAGAACCC ATTTTGAATA TGAAAAGGAA TCTCCCTATG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GTGTTGTGGA TACCTTGTAC AATGGAAAAC TGGGCTCTTG GCTTGCTATT 
    CGAATTGGTA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGCTAG CCAGTGTACA GTATACACTT CCAAAAACAG CAGGCGGAGA CCGTGCTGAC 
    TTCTGGAGAT TCAGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAT 
    TTGTCCGCTC AGCCTGTTCA AACAAAGTTT CCAGCTTATG AAAGAGTGGT TCTTCGAGAA 
    GCTGGATTTC TGAGGCCTGT AACCATTTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    CTGGCAAGAG AAGAACCAGA TATTTATCAA ATTGCAAAGA GTGAACCACG AGACGCTGGA 
    ACTGACCAAC GTAGCTCTGG CATTATTCGC CTGCATACAA TAAAGCAAAT CATAGATCAA 
    GACAAACATG CTTTATTAGA TGTAACACCA AATGCAGTTG ATCGTCTTAA CTATGCCCAG 
    TGGTATCCAA TTGTTGTATT TCTTAACCCT GATTCTAAGC AAGGAGTAAA AACAATGAGA 
    ATGAGGTTAT GTCCAGAATC TCGGAAAAGT GCCAGGAAGT TATACGAGCG ATCTCATAAA 
    CTTCGTAAAA ATAATCACCA TCTTTTTACA ACTACAATTA ACTTAAATTC AATGAATGAT 
    GGTTGGTATG GTGCGCTGAA AGAAGCAATT CAACAACAGC AAAACCAGCT GGTATGGGTT 
    TCCGAGGGAA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCTCCAGG TAGTGAATAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA CACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTTGG GACTCCACCG GAGTCTGCCA TTACACGGTC CTCTGAGCCT 
    GTAAGAGAGG ACTCCTCTGG AATGCATCAT GAAAACCAAA CATATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAACCAAT TCATAGAATA GACTCCCCTG GATTTAAGCC AGCCTCTCAA 
    CAGGTGTATA GAAAGGATCC ATATCCCGAG GAAATGATGA GGCAGAACCA TGTTTTGAAA 
    CAGCCAGCCG TTAGTCACCC AGGGCACAGG CCAGACAAAG AGCCTAATCT GACCTATGAA 
    CCCCAACTCC CATACGTAGA GAAACAAGCC AGCAGAGACC TCGAGCAGCC CACATACAGA 
    TACGAGTCCT CAAGCTATAC GGACCAGTTT TCTCGAAACT ATGAACATCG TCTGCGATAC 
    GAAGATCGCG TCCCCATGTA TGAAGAACAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CCATCTCGGC CACCTTTTGA TAATCAGCAC TCTCAAGACC TTGACTCCAG ACAGCATCCC 
    GAAGAGTCCT CAGAACGAGG GTACTTTCCA CGTTTTGAAG AGCCAGCCCC TCTGTCTTAC 
    GACAGCAGAC CACGTTACGA ACAGGCACCT AGAGCATCCG CCCTGCGGCA CGAAGAGCAG 
    CCAGCTCCTG GGTATGACAC ACATGGTAGA CTCAGACCGG AAGCCCAGCC CCACCCTTCA 
    GCAGGGCCCA AGCCTGCAGA GTCCAAGCAG TATTTTGAGC AATATTCACG CAGTTACGAG 
    CAAGTACCAC CCCAAGGATT TACCTCTAGA GCAGGTCATT TTGAGCCTCT CCATGGTGCT 
    GCAGCTGTCC CTCCGCTGAT ACCTTCATCT CAGCATAAGC CAGAAGCTCT GCCTTCAAAC 
    ACCAAACCAC TGCCTCCACC CCCAACTCAA ACCGAAGAAG AGGAAGATCC AGCAATGAAG 
    CCACAGTCTG TACTCACCAG AGTTAAGATG TTTGAAAACA AAAGATCTGC ATCCTTAGAG 
    ACCAAGAAGG ATGTAAATGA CACTGGCAGT TTTAAGCCTC CAGAAGTAGC ATCTAAACCT 
    TCAGGTGCTC CCATCATTGG TCCCAAACCC ACTTCTCAGA ATCAATTCAG TGAACATGAC 
    AAAACTCTGT ACAGGATCCC AGAACCTCAA AAACCTCAAC TGAAGCCACC TGAAGATATT 
    GTTCGGTCCA ATCATTATGA CCCTGAAGAA GATGAAGAAT ATTATCGAAA ACAGCTGTCA 
    TACTTTGACC GAAGAAGTTT TGAGAATAAG CCTCCTGCAC ACATTGCCGC CAGCCATCTC 
    TCCGAGCCTG CAAAGCCAGC GCATTCTCAG AATCAATCAA ATTTTTCTAG TTATTCTTCA 
    AAGGGAAAGC CTCCTGAAGC TGATGGTGTG GATAGATCAT TTGGCGAGAA ACGCTATGAA 
    CCCATCCAGG CCACTCCCCC TCCTCCTCCA TTGCCCTCGC AGTATGCCCA GCCATCTCAG 
    CCTGTCACCA GCGCGTCTCT CCACATACAT TCTAAGGGAG CACATGGTGA AGGTAATTCA 
    GTGTCATTGG ATTTTCAGAA TTCCTTAGTG TCCAAACCAG ACCCACCTCC ATCTCAGAAT 
    AAGCCAGCAA CTTTCAGACC ACCAAACCGA GAAGATACTG CTCAGGCAGC TTTCTATCCC 
    CAGAAAAGTT TTCCAGATAA AGCCCCAGTT AATGGAACTG AACAGACTCA GAAAACAGTC 
    ACTCCAGCAT ACAATCGATT CACACCAAAA CCATATACAA GTTCTGCCCG ACCATTTGAA 
    CGCAAGTTTG AAAGTCCTAA ATTCAATCAC AATCTTCTGC CAAGTGAAAC TGCACATAAA 
    CCTGACTTGT CTTCAAAAAC TCCCACTTCT CCAAAAACTC TTGTGAAATC GCACAGTTTG 
    GCACAGCCTC CTGAGTTTGA CAGTGGAGTT GAAACTTTCT CTATCCATGC AGAGAAGCCT 
    AAATATCAAA TAAATAATAT CAGCACAGTG CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT 
    GTGGAAGAGG ATGAAGATGA AGATGGTCAT ACTGTGGTGG CCACAGCCCG AGGCATATTT 
    AACAGCAATG GGGGCGTGCT GAGTTCCATA GAAACTGGTG TTAGTATAAT TATCCCTCAA 
    GGAGCCATTC CCGAAGGAGT TGAGCAGGAA ATCTATTTCA AGGTCTGCCG GGACAACAGC 
    ATCCTTCCAC CTTTAGATAA AGAGAAAGGT GAAACACTGC TGAGTCCTTT GGTGATGTGT 
    GGTCCCCATG GCCTCAAGTT CCTGAAGCCT GTGGAGCTGC GCTTACCACA CTGTGATCCT 
    AAAACCTGGC AAAACAAGTG TCTTCCCGGA GATCCAAATT ATCTCGTTGG AGCAAACTGT 
    GTTTCTGTCC TTATTGACCA CTTTTAA

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

    RefSeq NP_783297.2
    CDS441..5447
    Translation

    Target ORF information:

    RefSeq Version NM_175610.4
    Organism Homo sapiens(human)
    Definition Homo sapiens tight junction protein 1 (TJP1), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_175610.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGTCCGCCA GAGCTGCGGC CGCCAAGAGC ACAGCAATGG AGGAAACAGC TATATGGGAA 
    CAACATACAG TGACGCTTCA CAGGGCTCCT GGATTTGGAT TTGGAATTGC AATATCTGGT 
    GGACGAGATA ATCCTCATTT TCAGAGTGGG GAAACGTCAA TAGTGATTTC AGATGTGCTG 
    AAAGGAGGAC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAACGGA 
    GTTTCAATGG ATAATGTTGA ACATGCTTTT GCTGTTCAGC AACTAAGGAA AAGTGGGAAA 
    AATGCAAAAA TTACAATTAG AAGGAAGAAG AAAGTTCAAA TACCAGTAAG TCGTCCTGAT 
    CCTGAACCAG TATCTGATAA TGAAGAAGAT AGTTATGATG AGGAAATACA TGATCCAAGA 
    AGTGGCCGGA GTGGTGTGGT TAACAGAAGG AGTGAGAAGA TTTGGCCGAG GGATAGAAGT 
    GCAAGTAGAG AGAGGAGCTT GTCCCCGCGG TCAGACAGGC GGTCAGTGGC TTCCAGCCAG 
    CCTGCTAAAC CTACTAAAGT CACACTGGTG AAATCCCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCAA GCCATATATT TGTTAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGCAATATTC AAGAAGGTGA TGTTGTATTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAGAC ATTGATAGAA AGGTCTAAAG GCAAATTAAA AATGGTAGTT 
    CAAAGAGATG AACGGGCTAC GCTATTGAAT GTCCCTGATC TTTCTGACAG CATCCACTCT 
    GCTAATGCCT CTGAGAGAGA CGACATTTCA GAAATTCAGT CACTGGCATC AGATCATTCT 
    GGTCGATCAC ACGATAGGCC TCCCCGCCGC AGCCGGTCAC GATCTCCTGA CCAGCGGTCA 
    GAGCCTTCTG ATCATTCCAG GCACTCGCCG CAGCAGCCAA GCAATGGCAG TCTCCGGAGT 
    AGAGATGAAG AGAGAATTTC TAAACCTGGG GCTGTCTCAA CTCCTGTAAA GCATGCTGAT 
    GATCACACAC CTAAAACAGT GGAAGAAGTT ACAGTTGAAA GAAATGAGAA ACAAACACCT 
    TCTCTTCCAG AACCAAAGCC TGTGTATGCC CAAGTTGGGC AACCAGATGT GGATTTACCT 
    GTCAGTCCAT CTGATGGTGT CCTACCTAAT TCAACTCATG AAGATGGGAT TCTTCGGCCC 
    AGCATGAAAT TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGGCT GGCTGGTGGA 
    AATGATGTTG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAGGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTA AACAACGTAG ATTTTACAAA TATCATAAGA 
    GAAGAAGCCG TCCTTTTCCT GCTTGACCTC CCTAAAGGAG AAGAAGTGAC CATATTGGCT 
    CAGAAGAAGA AGGATGTTTA TCGTCGCATT GTAGAATCAG ATGTAGGAGA TTCTTTCTAT 
    ATTAGAACCC ATTTTGAATA TGAAAAGGAA TCTCCCTATG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GTGTTGTGGA TACCTTGTAC AATGGAAAAC TGGGCTCTTG GCTTGCTATT 
    CGAATTGGTA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGCTAG CCAGTGTACA GTATACACTT CCAAAAACAG CAGGCGGAGA CCGTGCTGAC 
    TTCTGGAGAT TCAGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAT 
    TTGTCCGCTC AGCCTGTTCA AACAAAGTTT CCAGCTTATG AAAGAGTGGT TCTTCGAGAA 
    GCTGGATTTC TGAGGCCTGT AACCATTTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    CTGGCAAGAG AAGAACCAGA TATTTATCAA ATTGCAAAGA GTGAACCACG AGACGCTGGA 
    ACTGACCAAC GTAGCTCTGG CATTATTCGC CTGCATACAA TAAAGCAAAT CATAGATCAA 
    GACAAACATG CTTTATTAGA TGTAACACCA AATGCAGTTG ATCGTCTTAA CTATGCCCAG 
    TGGTATCCAA TTGTTGTATT TCTTAACCCT GATTCTAAGC AAGGAGTAAA AACAATGAGA 
    ATGAGGTTAT GTCCAGAATC TCGGAAAAGT GCCAGGAAGT TATACGAGCG ATCTCATAAA 
    CTTCGTAAAA ATAATCACCA TCTTTTTACA ACTACAATTA ACTTAAATTC AATGAATGAT 
    GGTTGGTATG GTGCGCTGAA AGAAGCAATT CAACAACAGC AAAACCAGCT GGTATGGGTT 
    TCCGAGGGAA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCTCCAGG TAGTGAATAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA CACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTTGG GACTCCACCG GAGTCTGCCA TTACACGGTC CTCTGAGCCT 
    GTAAGAGAGG ACTCCTCTGG AATGCATCAT GAAAACCAAA CATATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAACCAAT TCATAGAATA GACTCCCCTG GATTTAAGCC AGCCTCTCAA 
    CAGGTGTATA GAAAGGATCC ATATCCCGAG GAAATGATGA GGCAGAACCA TGTTTTGAAA 
    CAGCCAGCCG TTAGTCACCC AGGGCACAGG CCAGACAAAG AGCCTAATCT GACCTATGAA 
    CCCCAACTCC CATACGTAGA GAAACAAGCC AGCAGAGACC TCGAGCAGCC CACATACAGA 
    TACGAGTCCT CAAGCTATAC GGACCAGTTT TCTCGAAACT ATGAACATCG TCTGCGATAC 
    GAAGATCGCG TCCCCATGTA TGAAGAACAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CCATCTCGGC CACCTTTTGA TAATCAGCAC TCTCAAGACC TTGACTCCAG ACAGCATCCC 
    GAAGAGTCCT CAGAACGAGG GTACTTTCCA CGTTTTGAAG AGCCAGCCCC TCTGTCTTAC 
    GACAGCAGAC CACGTTACGA ACAGGCACCT AGAGCATCCG CCCTGCGGCA CGAAGAGCAG 
    CCAGCTCCTG GGTATGACAC ACATGGTAGA CTCAGACCGG AAGCCCAGCC CCACCCTTCA 
    GCAGGGCCCA AGCCTGCAGA GTCCAAGCAG TATTTTGAGC AATATTCACG CAGTTACGAG 
    CAAGTACCAC CCCAAGGATT TACCTCTAGA GCAGGTCATT TTGAGCCTCT CCATGGTGCT 
    GCAGCTGTCC CTCCGCTGAT ACCTTCATCT CAGCATAAGC CAGAAGCTCT GCCTTCAAAC 
    ACCAAACCAC TGCCTCCACC CCCAACTCAA ACCGAAGAAG AGGAAGATCC AGCAATGAAG 
    CCACAGTCTG TACTCACCAG AGTTAAGATG TTTGAAAACA AAAGATCTGC ATCCTTAGAG 
    ACCAAGAAGG ATGTAAATGA CACTGGCAGT TTTAAGCCTC CAGAAGTAGC ATCTAAACCT 
    TCAGGTGCTC CCATCATTGG TCCCAAACCC ACTTCTCAGA ATCAATTCAG TGAACATGAC 
    AAAACTCTGT ACAGGATCCC AGAACCTCAA AAACCTCAAC TGAAGCCACC TGAAGATATT 
    GTTCGGTCCA ATCATTATGA CCCTGAAGAA GATGAAGAAT ATTATCGAAA ACAGCTGTCA 
    TACTTTGACC GAAGAAGTTT TGAGAATAAG CCTCCTGCAC ACATTGCCGC CAGCCATCTC 
    TCCGAGCCTG CAAAGCCAGC GCATTCTCAG AATCAATCAA ATTTTTCTAG TTATTCTTCA 
    AAGGGAAAGC CTCCTGAAGC TGATGGTGTG GATAGATCAT TTGGCGAGAA ACGCTATGAA 
    CCCATCCAGG CCACTCCCCC TCCTCCTCCA TTGCCCTCGC AGTATGCCCA GCCATCTCAG 
    CCTGTCACCA GCGCGTCTCT CCACATACAT TCTAAGGGAG CACATGGTGA AGGTAATTCA 
    GTGTCATTGG ATTTTCAGAA TTCCTTAGTG TCCAAACCAG ACCCACCTCC ATCTCAGAAT 
    AAGCCAGCAA CTTTCAGACC ACCAAACCGA GAAGATACTG CTCAGGCAGC TTTCTATCCC 
    CAGAAAAGTT TTCCAGATAA AGCCCCAGTT AATGGAACTG AACAGACTCA GAAAACAGTC 
    ACTCCAGCAT ACAATCGATT CACACCAAAA CCATATACAA GTTCTGCCCG ACCATTTGAA 
    CGCAAGTTTG AAAGTCCTAA ATTCAATCAC AATCTTCTGC CAAGTGAAAC TGCACATAAA 
    CCTGACTTGT CTTCAAAAAC TCCCACTTCT CCAAAAACTC TTGTGAAATC GCACAGTTTG 
    GCACAGCCTC CTGAGTTTGA CAGTGGAGTT GAAACTTTCT CTATCCATGC AGAGAAGCCT 
    AAATATCAAA TAAATAATAT CAGCACAGTG CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT 
    GTGGAAGAGG ATGAAGATGA AGATGGTCAT ACTGTGGTGG CCACAGCCCG AGGCATATTT 
    AACAGCAATG GGGGCGTGCT GAGTTCCATA GAAACTGGTG TTAGTATAAT TATCCCTCAA 
    GGAGCCATTC CCGAAGGAGT TGAGCAGGAA ATCTATTTCA AGGTCTGCCG GGACAACAGC 
    ATCCTTCCAC CTTTAGATAA AGAGAAAGGT GAAACACTGC TGAGTCCTTT GGTGATGTGT 
    GGTCCCCATG GCCTCAAGTT CCTGAAGCCT GTGGAGCTGC GCTTACCACA CTGTGATCCT 
    AAAACCTGGC AAAACAAGTG TCTTCCCGGA GATCCAAATT ATCTCGTTGG AGCAAACTGT 
    GTTTCTGTCC TTATTGACCA CTTTTAA

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

    TJP1 ( XM_017022531.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016878020.1 Homo sapiens tight junction protein 1 (TJP1), transcript variant X11, mRNA.
    Price & Availability↑
    CloneID OHu85640
    Clone ID Related Accession (Same CDS sequence) XM_017022531.1
    Accession Version XM_017022531.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4359bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product tight junction protein ZO-1 isoform X11
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGACACACA GTCTCCGGAG TAGAGATGAA GAGAGAATTT CTAAACCTGG GGCTGTCTCA 
    ACTCCTGTAA AGCATGCTGA TGATCACACA CCTAAAACAG TGGAAGAAGT TACAGTTGAA 
    AGAAATGAGA AACAAACACC TTCTCTTCCA GAACCAAAGC CTGTGTATGC CCAAGTTGGG 
    CAACCAGATG TGGATTTACC TGTCAGTCCA TCTGATGGTG TCCTACCTAA TTCAACTCAT 
    GAAGATGGGA TTCTTCGGCC CAGCATGAAA TTGGTAAAAT TCAGAAAAGG AGATAGTGTG 
    GGTTTGCGGC TGGCTGGTGG AAATGATGTT GGAATATTTG TAGCTGGCGT TCTAGAAGAT 
    AGCCCTGCAG CCAAGGAAGG CTTAGAGGAA GGTGATCAAA TTCTCAGGGT AAACAACGTA 
    GATTTTACAA ATATCATAAG AGAAGAAGCC GTCCTTTTCC TGCTTGACCT CCCTAAAGGA 
    GAAGAAGTGA CCATATTGGC TCAGAAGAAG AAGGATGTTT ATCGTCGCAT TGTAGAATCA 
    GATGTAGGAG ATTCTTTCTA TATTAGAACC CATTTTGAAT ATGAAAAGGA ATCTCCCTAT 
    GGACTTAGTT TTAACAAAGG AGAGGTGTTC CGTGTTGTGG ATACCTTGTA CAATGGAAAA 
    CTGGGCTCTT GGCTTGCTAT TCGAATTGGT AAAAATCATA AGGAGGTAGA ACGAGGCATC 
    ATCCCTAATA AGAACAGAGC TGAGCAGCTA GCCAGTGTAC AGTATACACT TCCAAAAACA 
    GCAGGCGGAG ACCGTGCTGA CTTCTGGAGA TTCAGAGGTC TTCGCAGCTC CAAGAGAAAT 
    CTTCGAAAAA GCAGAGAGGA TTTGTCCGCT CAGCCTGTTC AAACAAAGTT TCCAGCTTAT 
    GAAAGAGTGG TTCTTCGAGA AGCTGGATTT CTGAGGCCTG TAACCATTTT TGGACCAATA 
    GCTGATGTTG CCAGAGAAAA GCTGGCAAGA GAAGAACCAG ATATTTATCA AATTGCAAAG 
    AGTGAACCAC GAGACGCTGG AACTGACCAA CGTAGCTCTG GCATTATTCG CCTGCATACA 
    ATAAAGCAAA TCATAGATCA AGACAAACAT GCTTTATTAG ATGTAACACC AAATGCAGTT 
    GATCGTCTTA ACTATGCCCA GTGGTATCCA ATTGTTGTAT TTCTTAACCC TGATTCTAAG 
    CAAGGAGTAA AAACAATGAG AATGAGGTTA TGTCCAGAAT CTCGGAAAAG TGCCAGGAAG 
    TTATACGAGC GATCTCATAA ACTTCGTAAA AATAATCACC ATCTTTTTAC AACTACAATT 
    AACTTAAATT CAATGAATGA TGGTTGGTAT GGTGCGCTGA AAGAAGCAAT TCAACAACAG 
    CAAAACCAGC TGGTATGGGT TTCCGAGGGA AAGGCGGATG GTGCTACAAG TGATGACCTT 
    GATTTGCATG ATGATCGTCT GTCCTACCTG TCAGCTCCAG GTAGTGAATA CTCAATGTAT 
    AGCACGGACA GTAGACACAC TTCTGACTAT GAAGACACAG ACACAGAAGG CGGGGCCTAC 
    ACTGATCAAG AACTAGATGA AACTCTTAAT GATGAGGTTG GGACTCCACC GGAGTCTGCC 
    ATTACACGGT CCTCTGAGCC TGTAAGAGAG GACTCCTCTG GAATGCATCA TGAAAACCAA 
    ACATATCCTC CTTACTCACC ACAAGCGCAG CCACAACCAA TTCATAGAAT AGACTCCCCT 
    GGATTTAAGC CAGCCTCTCA ACAGAAAGCA GAAGCTTCAT CTCCAGTCCC TTACCTTTCG 
    CCTGAAACAA ACCCAGCATC ATCAACCTCT GCTGTTAATC ATAATGTAAA TTTAACTAAT 
    GTCAGACTGG AGGAGCCCAC CCCAGCTCCT TCCACCTCTT ACTCACCACA AGCTGATTCT 
    TTAAGAACAC CAAGTACTGA GGCAGCTCAC ATAATGCTAA GAGATCAAGA ACCATCATTG 
    TCGTCGCATG TAGATCCAAC AAAGGTGTAT AGAAAGGATC CATATCCCGA GGAAATGATG 
    AGGCAGAACC ATGTTTTGAA ACAGCCAGCC GTTAGTCACC CAGGGCACAG GCCAGACAAA 
    GAGCCTAATC TGACCTATGA ACCCCAACTC CCATACGTAG AGAAACAAGC CAGCAGAGAC 
    CTCGAGCAGC CCACATACAG ATACGAGTCC TCAAGCTATA CGGACCAGTT TTCTCGAAAC 
    TATGAACATC GTCTGCGATA CGAAGATCGC GTCCCCATGT ATGAAGAACA GTGGTCATAT 
    TATGATGACA AACAGCCCTA CCCATCTCGG CCACCTTTTG ATAATCAGCA CTCTCAAGAC 
    CTTGACTCCA GACAGCATCC CGAAGAGTCC TCAGAACGAG GGTACTTTCC ACGTTTTGAA 
    GAGCCAGCCC CTCTGTCTTA CGACAGCAGA CCACGTTACG AACAGGCACC TAGAGCATCC 
    GCCCTGCGGC ACGAAGAGCA GCCAGCTCCT GGGTATGACA CACATGGTAG ACTCAGACCG 
    GAAGCCCAGC CCCACCCTTC AGCAGGGCCC AAGCCTGCAG AGTCCAAGCA GTATTTTGAG 
    CAATATTCAC GCAGTTACGA GCAAGTACCA CCCCAAGGAT TTACCTCTAG AGCAGGTCAT 
    TTTGAGCCTC TCCATGGTGC TGCAGCTGTC CCTCCGCTGA TACCTTCATC TCAGCATAAG 
    CCAGAAGCTC TGCCTTCAAA CACCAAACCA CTGCCTCCAC CCCCAACTCA AACCGAAGAA 
    GAGGAAGATC CAGCAATGAA GCCACAGTCT GTACTCACCA GAGTTAAGAT GTTTGAAAAC 
    AAAAGATCTG CATCCTTAGA GACCAAGAAG GATGTAAATG ACACTGGCAG TTTTAAGCCT 
    CCAGAAGTAG CATCTAAACC TTCAGGTGCT CCCATCATTG GTCCCAAACC CACTTCTCAG 
    AATCAATTCA GTGAACATGA CAAAACTCTG TACAGGATCC CAGAACCTCA AAAACCTCAA 
    CTGAAGCCAC CTGAAGATAT TGTTCGGTCC AATCATTATG ACCCTGAAGA AGATGAAGAA 
    TATTATCGAA AACAGCTGTC ATACTTTGAC CGAAGAAGTT TTGAGAATAA GCCTCCTGCA 
    CACATTGCCG CCAGCCATCT CTCCGAGCCT GCAAAGCCAG CGCATTCTCA GAATCAATCA 
    AATTTTTCTA GTTATTCTTC AAAATTTCTT GGCTCTTACA CTAGCTATGA CTACTTGAAA 
    AGGAACGTCA AGTGGGGAAA GCCTCCTGAA GCTGATGGTG TGGATAGATC ATTTGGCGAG 
    AAACGCTATG AACCCATCCA GGCCACTCCC CCTCCTCCTC CATTGCCCTC GCAGTATGCC 
    CAGCCATCTC AGCCTGTCAC CAGCGCGTCT CTCCACATAC ATTCTAAGGG AGCACATGGT 
    GAAGGTAATT CAGTGTCATT GGATTTTCAG AATTCCTTAG TGTCCAAACC AGACCCACCT 
    CCATCTCAGA ATAAGCCAGC AACTTTCAGA CCACCAAACC GAGAAGATAC TGCTCAGGCA 
    GCTTTCTATC CCCAGAAAAG TTTTCCAGAT AAAGCCCCAG TTAATGGAAC TGAACAGACT 
    CAGAAAACAG TCACTCCAGC ATACAATCGA TTCACACCAA AACCATATAC AAGTTCTGCC 
    CGACCATTTG AACGCAAGTT TGAAAGTCCT AAATTCAATC ACAATCTTCT GCCAAGTGAA 
    ACTGCACATA AACCTGACTT GTCTTCAAAA ACTCCCACTT CTCCAAAAAC TCTTGTGAAA 
    TCGCACAGTT TGGCACAGCC TCCTGAGTTT GACAGTGGAG TTGAAACTTT CTCTATCCAT 
    GCAGAGAAGC CTAAATATCA AATAAATAAT ATCAGCACAG TGCCTAAAGC TATTCCTGTG 
    AGTCCTTCAG CTGTGGAAGA GGATGAAGAT GAAGATGGTC ATACTGTGGT GGCCACAGCC 
    CGAGGCATAT TTAACAGCAA TGGGGGCGTG CTGAGTTCCA TAGAAACTGG TGTTAGTATA 
    ATTATCCCTC AAGGAGCCAT TCCCGAAGGA GTTGAGCAGG AAATCTATTT CAAGGTCTGC 
    CGGGACAACA GCATCCTTCC ACCTTTAGAT AAAGAGAAAG GTGAAACACT GCTGAGTCCT 
    TTGGTGATGT GTGGTCCCCA TGGCCTCAAG TTCCTGAAGC CTGTGGAGCT GCGCTTACCA 
    CACTGTGCGT CCATGACTCC TGACGGTTGG TCTTTTGCTC TAAAATCATC CGACTCCTCG 
    TCGGGTGATC CTAAAACCTG GCAAAACAAG TGTCTTCCCG GAGATCCAAA TTATCTCGTT 
    GGAGCAAACT GTGTTTCTGT CCTTATTGAC CACTTTTAA

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

    RefSeq XP_016878020.1
    CDS1189..5547
    Translation

    Target ORF information:

    RefSeq Version XM_017022531.1
    Organism Homo sapiens(human)
    Definition Homo sapiens tight junction protein 1 (TJP1), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017022531.1

    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
    ATGACACACA GTCTCCGGAG TAGAGATGAA GAGAGAATTT CTAAACCTGG GGCTGTCTCA 
    ACTCCTGTAA AGCATGCTGA TGATCACACA CCTAAAACAG TGGAAGAAGT TACAGTTGAA 
    AGAAATGAGA AACAAACACC TTCTCTTCCA GAACCAAAGC CTGTGTATGC CCAAGTTGGG 
    CAACCAGATG TGGATTTACC TGTCAGTCCA TCTGATGGTG TCCTACCTAA TTCAACTCAT 
    GAAGATGGGA TTCTTCGGCC CAGCATGAAA TTGGTAAAAT TCAGAAAAGG AGATAGTGTG 
    GGTTTGCGGC TGGCTGGTGG AAATGATGTT GGAATATTTG TAGCTGGCGT TCTAGAAGAT 
    AGCCCTGCAG CCAAGGAAGG CTTAGAGGAA GGTGATCAAA TTCTCAGGGT AAACAACGTA 
    GATTTTACAA ATATCATAAG AGAAGAAGCC GTCCTTTTCC TGCTTGACCT CCCTAAAGGA 
    GAAGAAGTGA CCATATTGGC TCAGAAGAAG AAGGATGTTT ATCGTCGCAT TGTAGAATCA 
    GATGTAGGAG ATTCTTTCTA TATTAGAACC CATTTTGAAT ATGAAAAGGA ATCTCCCTAT 
    GGACTTAGTT TTAACAAAGG AGAGGTGTTC CGTGTTGTGG ATACCTTGTA CAATGGAAAA 
    CTGGGCTCTT GGCTTGCTAT TCGAATTGGT AAAAATCATA AGGAGGTAGA ACGAGGCATC 
    ATCCCTAATA AGAACAGAGC TGAGCAGCTA GCCAGTGTAC AGTATACACT TCCAAAAACA 
    GCAGGCGGAG ACCGTGCTGA CTTCTGGAGA TTCAGAGGTC TTCGCAGCTC CAAGAGAAAT 
    CTTCGAAAAA GCAGAGAGGA TTTGTCCGCT CAGCCTGTTC AAACAAAGTT TCCAGCTTAT 
    GAAAGAGTGG TTCTTCGAGA AGCTGGATTT CTGAGGCCTG TAACCATTTT TGGACCAATA 
    GCTGATGTTG CCAGAGAAAA GCTGGCAAGA GAAGAACCAG ATATTTATCA AATTGCAAAG 
    AGTGAACCAC GAGACGCTGG AACTGACCAA CGTAGCTCTG GCATTATTCG CCTGCATACA 
    ATAAAGCAAA TCATAGATCA AGACAAACAT GCTTTATTAG ATGTAACACC AAATGCAGTT 
    GATCGTCTTA ACTATGCCCA GTGGTATCCA ATTGTTGTAT TTCTTAACCC TGATTCTAAG 
    CAAGGAGTAA AAACAATGAG AATGAGGTTA TGTCCAGAAT CTCGGAAAAG TGCCAGGAAG 
    TTATACGAGC GATCTCATAA ACTTCGTAAA AATAATCACC ATCTTTTTAC AACTACAATT 
    AACTTAAATT CAATGAATGA TGGTTGGTAT GGTGCGCTGA AAGAAGCAAT TCAACAACAG 
    CAAAACCAGC TGGTATGGGT TTCCGAGGGA AAGGCGGATG GTGCTACAAG TGATGACCTT 
    GATTTGCATG ATGATCGTCT GTCCTACCTG TCAGCTCCAG GTAGTGAATA CTCAATGTAT 
    AGCACGGACA GTAGACACAC TTCTGACTAT GAAGACACAG ACACAGAAGG CGGGGCCTAC 
    ACTGATCAAG AACTAGATGA AACTCTTAAT GATGAGGTTG GGACTCCACC GGAGTCTGCC 
    ATTACACGGT CCTCTGAGCC TGTAAGAGAG GACTCCTCTG GAATGCATCA TGAAAACCAA 
    ACATATCCTC CTTACTCACC ACAAGCGCAG CCACAACCAA TTCATAGAAT AGACTCCCCT 
    GGATTTAAGC CAGCCTCTCA ACAGAAAGCA GAAGCTTCAT CTCCAGTCCC TTACCTTTCG 
    CCTGAAACAA ACCCAGCATC ATCAACCTCT GCTGTTAATC ATAATGTAAA TTTAACTAAT 
    GTCAGACTGG AGGAGCCCAC CCCAGCTCCT TCCACCTCTT ACTCACCACA AGCTGATTCT 
    TTAAGAACAC CAAGTACTGA GGCAGCTCAC ATAATGCTAA GAGATCAAGA ACCATCATTG 
    TCGTCGCATG TAGATCCAAC AAAGGTGTAT AGAAAGGATC CATATCCCGA GGAAATGATG 
    AGGCAGAACC ATGTTTTGAA ACAGCCAGCC GTTAGTCACC CAGGGCACAG GCCAGACAAA 
    GAGCCTAATC TGACCTATGA ACCCCAACTC CCATACGTAG AGAAACAAGC CAGCAGAGAC 
    CTCGAGCAGC CCACATACAG ATACGAGTCC TCAAGCTATA CGGACCAGTT TTCTCGAAAC 
    TATGAACATC GTCTGCGATA CGAAGATCGC GTCCCCATGT ATGAAGAACA GTGGTCATAT 
    TATGATGACA AACAGCCCTA CCCATCTCGG CCACCTTTTG ATAATCAGCA CTCTCAAGAC 
    CTTGACTCCA GACAGCATCC CGAAGAGTCC TCAGAACGAG GGTACTTTCC ACGTTTTGAA 
    GAGCCAGCCC CTCTGTCTTA CGACAGCAGA CCACGTTACG AACAGGCACC TAGAGCATCC 
    GCCCTGCGGC ACGAAGAGCA GCCAGCTCCT GGGTATGACA CACATGGTAG ACTCAGACCG 
    GAAGCCCAGC CCCACCCTTC AGCAGGGCCC AAGCCTGCAG AGTCCAAGCA GTATTTTGAG 
    CAATATTCAC GCAGTTACGA GCAAGTACCA CCCCAAGGAT TTACCTCTAG AGCAGGTCAT 
    TTTGAGCCTC TCCATGGTGC TGCAGCTGTC CCTCCGCTGA TACCTTCATC TCAGCATAAG 
    CCAGAAGCTC TGCCTTCAAA CACCAAACCA CTGCCTCCAC CCCCAACTCA AACCGAAGAA 
    GAGGAAGATC CAGCAATGAA GCCACAGTCT GTACTCACCA GAGTTAAGAT GTTTGAAAAC 
    AAAAGATCTG CATCCTTAGA GACCAAGAAG GATGTAAATG ACACTGGCAG TTTTAAGCCT 
    CCAGAAGTAG CATCTAAACC TTCAGGTGCT CCCATCATTG GTCCCAAACC CACTTCTCAG 
    AATCAATTCA GTGAACATGA CAAAACTCTG TACAGGATCC CAGAACCTCA AAAACCTCAA 
    CTGAAGCCAC CTGAAGATAT TGTTCGGTCC AATCATTATG ACCCTGAAGA AGATGAAGAA 
    TATTATCGAA AACAGCTGTC ATACTTTGAC CGAAGAAGTT TTGAGAATAA GCCTCCTGCA 
    CACATTGCCG CCAGCCATCT CTCCGAGCCT GCAAAGCCAG CGCATTCTCA GAATCAATCA 
    AATTTTTCTA GTTATTCTTC AAAATTTCTT GGCTCTTACA CTAGCTATGA CTACTTGAAA 
    AGGAACGTCA AGTGGGGAAA GCCTCCTGAA GCTGATGGTG TGGATAGATC ATTTGGCGAG 
    AAACGCTATG AACCCATCCA GGCCACTCCC CCTCCTCCTC CATTGCCCTC GCAGTATGCC 
    CAGCCATCTC AGCCTGTCAC CAGCGCGTCT CTCCACATAC ATTCTAAGGG AGCACATGGT 
    GAAGGTAATT CAGTGTCATT GGATTTTCAG AATTCCTTAG TGTCCAAACC AGACCCACCT 
    CCATCTCAGA ATAAGCCAGC AACTTTCAGA CCACCAAACC GAGAAGATAC TGCTCAGGCA 
    GCTTTCTATC CCCAGAAAAG TTTTCCAGAT AAAGCCCCAG TTAATGGAAC TGAACAGACT 
    CAGAAAACAG TCACTCCAGC ATACAATCGA TTCACACCAA AACCATATAC AAGTTCTGCC 
    CGACCATTTG AACGCAAGTT TGAAAGTCCT AAATTCAATC ACAATCTTCT GCCAAGTGAA 
    ACTGCACATA AACCTGACTT GTCTTCAAAA ACTCCCACTT CTCCAAAAAC TCTTGTGAAA 
    TCGCACAGTT TGGCACAGCC TCCTGAGTTT GACAGTGGAG TTGAAACTTT CTCTATCCAT 
    GCAGAGAAGC CTAAATATCA AATAAATAAT ATCAGCACAG TGCCTAAAGC TATTCCTGTG 
    AGTCCTTCAG CTGTGGAAGA GGATGAAGAT GAAGATGGTC ATACTGTGGT GGCCACAGCC 
    CGAGGCATAT TTAACAGCAA TGGGGGCGTG CTGAGTTCCA TAGAAACTGG TGTTAGTATA 
    ATTATCCCTC AAGGAGCCAT TCCCGAAGGA GTTGAGCAGG AAATCTATTT CAAGGTCTGC 
    CGGGACAACA GCATCCTTCC ACCTTTAGAT AAAGAGAAAG GTGAAACACT GCTGAGTCCT 
    TTGGTGATGT GTGGTCCCCA TGGCCTCAAG TTCCTGAAGC CTGTGGAGCT GCGCTTACCA 
    CACTGTGCGT CCATGACTCC TGACGGTTGG TCTTTTGCTC TAAAATCATC CGACTCCTCG 
    TCGGGTGATC CTAAAACCTG GCAAAACAAG TGTCTTCCCG GAGATCCAAA TTATCTCGTT 
    GGAGCAAACT GTGTTTCTGT CCTTATTGAC CACTTTTAA

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

    TJP1 ( NM_001355013.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001341942.1 Homo sapiens tight junction protein 1 (TJP1), transcript variant 7, mRNA.
    Price & Availability↑
    CloneID OHu85637
    Clone ID Related Accession (Same CDS sequence) XM_017022528.1 , NM_001355013.1
    Accession Version NM_001355013.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5280bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-15
    Organism Homo sapiens(human)
    Product tight junction protein ZO-1 isoform g
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC022613.13, BC111712.1, BU618228.1, BX640879.1 and AF035298.1. On Sep 1, 2017 this sequence version replaced XM_017022528.1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## CDS exon combination :: SRR1803612.77932.1 [ECO:0000331] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGGAGAGAA ATACGTTTTC AATGGATTGC CACAGTAAGA GCACAGCAAT GGAGGAAACA 
    GCTATATGGG AACAACATAC AGTGACGCTT CACAGGGCTC CTGGATTTGG ATTTGGAATT 
    GCAATATCTG GTGGACGAGA TAATCCTCAT TTTCAGAGTG GGGAAACGTC AATAGTGATT 
    TCAGATGTGC TGAAAGGAGG ACCAGCTGAA GGACAGCTAC AGGAAAATGA CCGAGTTGCA 
    ATGGTTAACG GAGTTTCAAT GGATAATGTT GAACATGCTT TTGCTGTTCA GCAACTAAGG 
    AAAAGTGGGA AAAATGCAAA AATTACAATT AGAAGGAAGA AGAAAGTTCA AATACCAGTA 
    AGTCGTCCTG ATCCTGAACC AGTATCTGAT AATGAAGAAG ATAGTTATGA TGAGGAAATA 
    CATGATCCAA GAAGTGGCCG GAGTGGTGTG GTTAACAGAA GGAGTGAGAA GATTTGGCCG 
    AGGGATAGAA GTGCAAGTAG AGAGAGGAGC TTGTCCCCGC GGTCAGACAG GCGGTCAGTG 
    GCTTCCAGCC AGCCTGCTAA ACCTACTAAA GTCACACTGG TGAAATCCCG GAAAAATGAA 
    GAATATGGTC TTCGATTGGC AAGCCATATA TTTGTTAAGG AAATTTCACA AGATAGTTTG 
    GCAGCAAGAG ATGGCAATAT TCAAGAAGGT GATGTTGTAT TGAAGATAAA TGGTACTGTG 
    ACAGAAAATA TGTCATTGAC AGATGCAAAG ACATTGATAG AAAGGTCTAA AGGCAAATTA 
    AAAATGGTAG TTCAAAGAGA TGAACGGGCT ACGCTATTGA ATGTCCCTGA TCTTTCTGAC 
    AGCATCCACT CTGCTAATGC CTCTGAGAGA GACGACATTT CAGAAATTCA GTCACTGGCA 
    TCAGATCATT CTGGTCGATC ACACGATAGG CCTCCCCGCC GCAGCCGGTC ACGATCTCCT 
    GACCAGCGGT CAGAGCCTTC TGATCATTCC AGGCACTCGC CGCAGCAGCC AAGCAATGGC 
    AGTCTCCGGA GTAGAGATGA AGAGAGAATT TCTAAACCTG GGGCTGTCTC AACTCCTGTA 
    AAGCATGCTG ATGATCACAC ACCTAAAACA GTGGAAGAAG TTACAGTTGA AAGAAATGAG 
    AAACAAACAC CTTCTCTTCC AGAACCAAAG CCTGTGTATG CCCAAGTTGG GCAACCAGAT 
    GTGGATTTAC CTGTCAGTCC ATCTGATGGT GTCCTACCTA ATTCAACTCA TGAAGATGGG 
    ATTCTTCGGC CCAGCATGAA ATTGGTAAAA TTCAGAAAAG GAGATAGTGT GGGTTTGCGG 
    CTGGCTGGTG GAAATGATGT TGGAATATTT GTAGCTGGCG TTCTAGAAGA TAGCCCTGCA 
    GCCAAGGAAG GCTTAGAGGA AGGTGATCAA ATTCTCAGGG TAAACAACGT AGATTTTACA 
    AATATCATAA GAGAAGAAGC CGTCCTTTTC CTGCTTGACC TCCCTAAAGG AGAAGAAGTG 
    ACCATATTGG CTCAGAAGAA GAAGGATGTT TATCGTCGCA TTGTAGAATC AGATGTAGGA 
    GATTCTTTCT ATATTAGAAC CCATTTTGAA TATGAAAAGG AATCTCCCTA TGGACTTAGT 
    TTTAACAAAG GAGAGGTGTT CCGTGTTGTG GATACCTTGT ACAATGGAAA ACTGGGCTCT 
    TGGCTTGCTA TTCGAATTGG TAAAAATCAT AAGGAGGTAG AACGAGGCAT CATCCCTAAT 
    AAGAACAGAG CTGAGCAGCT AGCCAGTGTA CAGTATACAC TTCCAAAAAC AGCAGGCGGA 
    GACCGTGCTG ACTTCTGGAG ATTCAGAGGT CTTCGCAGCT CCAAGAGAAA TCTTCGAAAA 
    AGCAGAGAGG ATTTGTCCGC TCAGCCTGTT CAAACAAAGT TTCCAGCTTA TGAAAGAGTG 
    GTTCTTCGAG AAGCTGGATT TCTGAGGCCT GTAACCATTT TTGGACCAAT AGCTGATGTT 
    GCCAGAGAAA AGCTGGCAAG AGAAGAACCA GATATTTATC AAATTGCAAA GAGTGAACCA 
    CGAGACGCTG GAACTGACCA ACGTAGCTCT GGCATTATTC GCCTGCATAC AATAAAGCAA 
    ATCATAGATC AAGACAAACA TGCTTTATTA GATGTAACAC CAAATGCAGT TGATCGTCTT 
    AACTATGCCC AGTGGTATCC AATTGTTGTA TTTCTTAACC CTGATTCTAA GCAAGGAGTA 
    AAAACAATGA GAATGAGGTT ATGTCCAGAA TCTCGGAAAA GTGCCAGGAA GTTATACGAG 
    CGATCTCATA AACTTCGTAA AAATAATCAC CATCTTTTTA CAACTACAAT TAACTTAAAT 
    TCAATGAATG ATGGTTGGTA TGGTGCGCTG AAAGAAGCAA TTCAACAACA GCAAAACCAG 
    CTGGTATGGG TTTCCGAGGG AAAGGCGGAT GGTGCTACAA GTGATGACCT TGATTTGCAT 
    GATGATCGTC TGTCCTACCT GTCAGCTCCA GGTAGTGAAT ACTCAATGTA TAGCACGGAC 
    AGTAGACACA CTTCTGACTA TGAAGACACA GACACAGAAG GCGGGGCCTA CACTGATCAA 
    GAACTAGATG AAACTCTTAA TGATGAGGTT GGGACTCCAC CGGAGTCTGC CATTACACGG 
    TCCTCTGAGC CTGTAAGAGA GGACTCCTCT GGAATGCATC ATGAAAACCA AACATATCCT 
    CCTTACTCAC CACAAGCGCA GCCACAACCA ATTCATAGAA TAGACTCCCC TGGATTTAAG 
    CCAGCCTCTC AACAGAAAGC AGAAGCTTCA TCTCCAGTCC CTTACCTTTC GCCTGAAACA 
    AACCCAGCAT CATCAACCTC TGCTGTTAAT CATAATGTAA ATTTAACTAA TGTCAGACTG 
    GAGGAGCCCA CCCCAGCTCC TTCCACCTCT TACTCACCAC AAGCTGATTC TTTAAGAACA 
    CCAAGTACTG AGGCAGCTCA CATAATGCTA AGAGATCAAG AACCATCATT GTCGTCGCAT 
    GTAGATCCAA CAAAGGTGTA TAGAAAGGAT CCATATCCCG AGGAAATGAT GAGGCAGAAC 
    CATGTTTTGA AACAGCCAGC CGTTAGTCAC CCAGGGCACA GGCCAGACAA AGAGCCTAAT 
    CTGACCTATG AACCCCAACT CCCATACGTA GAGAAACAAG CCAGCAGAGA CCTCGAGCAG 
    CCCACATACA GATACGAGTC CTCAAGCTAT ACGGACCAGT TTTCTCGAAA CTATGAACAT 
    CGTCTGCGAT ACGAAGATCG CGTCCCCATG TATGAAGAAC AGTGGTCATA TTATGATGAC 
    AAACAGCCCT ACCCATCTCG GCCACCTTTT GATAATCAGC ACTCTCAAGA CCTTGACTCC 
    AGACAGCATC CCGAAGAGTC CTCAGAACGA GGGTACTTTC CACGTTTTGA AGAGCCAGCC 
    CCTCTGTCTT ACGACAGCAG ACCACGTTAC GAACAGGCAC CTAGAGCATC CGCCCTGCGG 
    CACGAAGAGC AGCCAGCTCC TGGGTATGAC ACACATGGTA GACTCAGACC GGAAGCCCAG 
    CCCCACCCTT CAGCAGGGCC CAAGCCTGCA GAGTCCAAGC AGTATTTTGA GCAATATTCA 
    CGCAGTTACG AGCAAGTACC ACCCCAAGGA TTTACCTCTA GAGCAGGTCA TTTTGAGCCT 
    CTCCATGGTG CTGCAGCTGT CCCTCCGCTG ATACCTTCAT CTCAGCATAA GCCAGAAGCT 
    CTGCCTTCAA ACACCAAACC ACTGCCTCCA CCCCCAACTC AAACCGAAGA AGAGGAAGAT 
    CCAGCAATGA AGCCACAGTC TGTACTCACC AGAGTTAAGA TGTTTGAAAA CAAAAGATCT 
    GCATCCTTAG AGACCAAGAA GGATGTAAAT GACACTGGCA GTTTTAAGCC TCCAGAAGTA 
    GCATCTAAAC CTTCAGGTGC TCCCATCATT GGTCCCAAAC CCACTTCTCA GAATCAATTC 
    AGTGAACATG ACAAAACTCT GTACAGGATC CCAGAACCTC AAAAACCTCA ACTGAAGCCA 
    CCTGAAGATA TTGTTCGGTC CAATCATTAT GACCCTGAAG AAGATGAAGA ATATTATCGA 
    AAACAGCTGT CATACTTTGA CCGAAGAAGT TTTGAGAATA AGCCTCCTGC ACACATTGCC 
    GCCAGCCATC TCTCCGAGCC TGCAAAGCCA GCGCATTCTC AGAATCAATC AAATTTTTCT 
    AGTTATTCTT CAAAGGGAAA GCCTCCTGAA GCTGATGGTG TGGATAGATC ATTTGGCGAG 
    AAACGCTATG AACCCATCCA GGCCACTCCC CCTCCTCCTC CATTGCCCTC GCAGTATGCC 
    CAGCCATCTC AGCCTGTCAC CAGCGCGTCT CTCCACATAC ATTCTAAGGG AGCACATGGT 
    GAAGGTAATT CAGTGTCATT GGATTTTCAG AATTCCTTAG TGTCCAAACC AGACCCACCT 
    CCATCTCAGA ATAAGCCAGC AACTTTCAGA CCACCAAACC GAGAAGATAC TGCTCAGGCA 
    GCTTTCTATC CCCAGAAAAG TTTTCCAGAT AAAGCCCCAG TTAATGGAAC TGAACAGACT 
    CAGAAAACAG TCACTCCAGC ATACAATCGA TTCACACCAA AACCATATAC AAGTTCTGCC 
    CGACCATTTG AACGCAAGTT TGAAAGTCCT AAATTCAATC ACAATCTTCT GCCAAGTGAA 
    ACTGCACATA AACCTGACTT GTCTTCAAAA ACTCCCACTT CTCCAAAAAC TCTTGTGAAA 
    TCGCACAGTT TGGCACAGCC TCCTGAGTTT GACAGTGGAG TTGAAACTTT CTCTATCCAT 
    GCAGAGAAGC CTAAATATCA AATAAATAAT ATCAGCACAG TGCCTAAAGC TATTCCTGTG 
    AGTCCTTCAG CTGTGGAAGA GGATGAAGAT GAAGATGGTC ATACTGTGGT GGCCACAGCC 
    CGAGGCATAT TTAACAGCAA TGGGGGCGTG CTGAGTTCCA TAGAAACTGG TGTTAGTATA 
    ATTATCCCTC AAGGAGCCAT TCCCGAAGGA GTTGAGCAGG AAATCTATTT CAAGGTCTGC 
    CGGGACAACA GCATCCTTCC ACCTTTAGAT AAAGAGAAAG GTGAAACACT GCTGAGTCCT 
    TTGGTGATGT GTGGTCCCCA TGGCCTCAAG TTCCTGAAGC CTGTGGAGCT GCGCTTACCA 
    CACTGTGCGT CCATGACTCC TGACGGTGAT CCTAAAACCT GGCAAAACAA GTGTCTTCCC 
    GGAGATCCAA ATTATCTCGT TGGAGCAAAC TGTGTTTCTG TCCTTATTGA CCACTTTTAA

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

    RefSeq NP_001341942.1
    CDS110..5389
    Translation

    Target ORF information:

    RefSeq Version NM_001355013.1
    Organism Homo sapiens(human)
    Definition Homo sapiens tight junction protein 1 (TJP1), transcript variant 7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001355013.1

    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
    ATGGAGAGAA ATACGTTTTC AATGGATTGC CACAGTAAGA GCACAGCAAT GGAGGAAACA 
    GCTATATGGG AACAACATAC AGTGACGCTT CACAGGGCTC CTGGATTTGG ATTTGGAATT 
    GCAATATCTG GTGGACGAGA TAATCCTCAT TTTCAGAGTG GGGAAACGTC AATAGTGATT 
    TCAGATGTGC TGAAAGGAGG ACCAGCTGAA GGACAGCTAC AGGAAAATGA CCGAGTTGCA 
    ATGGTTAACG GAGTTTCAAT GGATAATGTT GAACATGCTT TTGCTGTTCA GCAACTAAGG 
    AAAAGTGGGA AAAATGCAAA AATTACAATT AGAAGGAAGA AGAAAGTTCA AATACCAGTA 
    AGTCGTCCTG ATCCTGAACC AGTATCTGAT AATGAAGAAG ATAGTTATGA TGAGGAAATA 
    CATGATCCAA GAAGTGGCCG GAGTGGTGTG GTTAACAGAA GGAGTGAGAA GATTTGGCCG 
    AGGGATAGAA GTGCAAGTAG AGAGAGGAGC TTGTCCCCGC GGTCAGACAG GCGGTCAGTG 
    GCTTCCAGCC AGCCTGCTAA ACCTACTAAA GTCACACTGG TGAAATCCCG GAAAAATGAA 
    GAATATGGTC TTCGATTGGC AAGCCATATA TTTGTTAAGG AAATTTCACA AGATAGTTTG 
    GCAGCAAGAG ATGGCAATAT TCAAGAAGGT GATGTTGTAT TGAAGATAAA TGGTACTGTG 
    ACAGAAAATA TGTCATTGAC AGATGCAAAG ACATTGATAG AAAGGTCTAA AGGCAAATTA 
    AAAATGGTAG TTCAAAGAGA TGAACGGGCT ACGCTATTGA ATGTCCCTGA TCTTTCTGAC 
    AGCATCCACT CTGCTAATGC CTCTGAGAGA GACGACATTT CAGAAATTCA GTCACTGGCA 
    TCAGATCATT CTGGTCGATC ACACGATAGG CCTCCCCGCC GCAGCCGGTC ACGATCTCCT 
    GACCAGCGGT CAGAGCCTTC TGATCATTCC AGGCACTCGC CGCAGCAGCC AAGCAATGGC 
    AGTCTCCGGA GTAGAGATGA AGAGAGAATT TCTAAACCTG GGGCTGTCTC AACTCCTGTA 
    AAGCATGCTG ATGATCACAC ACCTAAAACA GTGGAAGAAG TTACAGTTGA AAGAAATGAG 
    AAACAAACAC CTTCTCTTCC AGAACCAAAG CCTGTGTATG CCCAAGTTGG GCAACCAGAT 
    GTGGATTTAC CTGTCAGTCC ATCTGATGGT GTCCTACCTA ATTCAACTCA TGAAGATGGG 
    ATTCTTCGGC CCAGCATGAA ATTGGTAAAA TTCAGAAAAG GAGATAGTGT GGGTTTGCGG 
    CTGGCTGGTG GAAATGATGT TGGAATATTT GTAGCTGGCG TTCTAGAAGA TAGCCCTGCA 
    GCCAAGGAAG GCTTAGAGGA AGGTGATCAA ATTCTCAGGG TAAACAACGT AGATTTTACA 
    AATATCATAA GAGAAGAAGC CGTCCTTTTC CTGCTTGACC TCCCTAAAGG AGAAGAAGTG 
    ACCATATTGG CTCAGAAGAA GAAGGATGTT TATCGTCGCA TTGTAGAATC AGATGTAGGA 
    GATTCTTTCT ATATTAGAAC CCATTTTGAA TATGAAAAGG AATCTCCCTA TGGACTTAGT 
    TTTAACAAAG GAGAGGTGTT CCGTGTTGTG GATACCTTGT ACAATGGAAA ACTGGGCTCT 
    TGGCTTGCTA TTCGAATTGG TAAAAATCAT AAGGAGGTAG AACGAGGCAT CATCCCTAAT 
    AAGAACAGAG CTGAGCAGCT AGCCAGTGTA CAGTATACAC TTCCAAAAAC AGCAGGCGGA 
    GACCGTGCTG ACTTCTGGAG ATTCAGAGGT CTTCGCAGCT CCAAGAGAAA TCTTCGAAAA 
    AGCAGAGAGG ATTTGTCCGC TCAGCCTGTT CAAACAAAGT TTCCAGCTTA TGAAAGAGTG 
    GTTCTTCGAG AAGCTGGATT TCTGAGGCCT GTAACCATTT TTGGACCAAT AGCTGATGTT 
    GCCAGAGAAA AGCTGGCAAG AGAAGAACCA GATATTTATC AAATTGCAAA GAGTGAACCA 
    CGAGACGCTG GAACTGACCA ACGTAGCTCT GGCATTATTC GCCTGCATAC AATAAAGCAA 
    ATCATAGATC AAGACAAACA TGCTTTATTA GATGTAACAC CAAATGCAGT TGATCGTCTT 
    AACTATGCCC AGTGGTATCC AATTGTTGTA TTTCTTAACC CTGATTCTAA GCAAGGAGTA 
    AAAACAATGA GAATGAGGTT ATGTCCAGAA TCTCGGAAAA GTGCCAGGAA GTTATACGAG 
    CGATCTCATA AACTTCGTAA AAATAATCAC CATCTTTTTA CAACTACAAT TAACTTAAAT 
    TCAATGAATG ATGGTTGGTA TGGTGCGCTG AAAGAAGCAA TTCAACAACA GCAAAACCAG 
    CTGGTATGGG TTTCCGAGGG AAAGGCGGAT GGTGCTACAA GTGATGACCT TGATTTGCAT 
    GATGATCGTC TGTCCTACCT GTCAGCTCCA GGTAGTGAAT ACTCAATGTA TAGCACGGAC 
    AGTAGACACA CTTCTGACTA TGAAGACACA GACACAGAAG GCGGGGCCTA CACTGATCAA 
    GAACTAGATG AAACTCTTAA TGATGAGGTT GGGACTCCAC CGGAGTCTGC CATTACACGG 
    TCCTCTGAGC CTGTAAGAGA GGACTCCTCT GGAATGCATC ATGAAAACCA AACATATCCT 
    CCTTACTCAC CACAAGCGCA GCCACAACCA ATTCATAGAA TAGACTCCCC TGGATTTAAG 
    CCAGCCTCTC AACAGAAAGC AGAAGCTTCA TCTCCAGTCC CTTACCTTTC GCCTGAAACA 
    AACCCAGCAT CATCAACCTC TGCTGTTAAT CATAATGTAA ATTTAACTAA TGTCAGACTG 
    GAGGAGCCCA CCCCAGCTCC TTCCACCTCT TACTCACCAC AAGCTGATTC TTTAAGAACA 
    CCAAGTACTG AGGCAGCTCA CATAATGCTA AGAGATCAAG AACCATCATT GTCGTCGCAT 
    GTAGATCCAA CAAAGGTGTA TAGAAAGGAT CCATATCCCG AGGAAATGAT GAGGCAGAAC 
    CATGTTTTGA AACAGCCAGC CGTTAGTCAC CCAGGGCACA GGCCAGACAA AGAGCCTAAT 
    CTGACCTATG AACCCCAACT CCCATACGTA GAGAAACAAG CCAGCAGAGA CCTCGAGCAG 
    CCCACATACA GATACGAGTC CTCAAGCTAT ACGGACCAGT TTTCTCGAAA CTATGAACAT 
    CGTCTGCGAT ACGAAGATCG CGTCCCCATG TATGAAGAAC AGTGGTCATA TTATGATGAC 
    AAACAGCCCT ACCCATCTCG GCCACCTTTT GATAATCAGC ACTCTCAAGA CCTTGACTCC 
    AGACAGCATC CCGAAGAGTC CTCAGAACGA GGGTACTTTC CACGTTTTGA AGAGCCAGCC 
    CCTCTGTCTT ACGACAGCAG ACCACGTTAC GAACAGGCAC CTAGAGCATC CGCCCTGCGG 
    CACGAAGAGC AGCCAGCTCC TGGGTATGAC ACACATGGTA GACTCAGACC GGAAGCCCAG 
    CCCCACCCTT CAGCAGGGCC CAAGCCTGCA GAGTCCAAGC AGTATTTTGA GCAATATTCA 
    CGCAGTTACG AGCAAGTACC ACCCCAAGGA TTTACCTCTA GAGCAGGTCA TTTTGAGCCT 
    CTCCATGGTG CTGCAGCTGT CCCTCCGCTG ATACCTTCAT CTCAGCATAA GCCAGAAGCT 
    CTGCCTTCAA ACACCAAACC ACTGCCTCCA CCCCCAACTC AAACCGAAGA AGAGGAAGAT 
    CCAGCAATGA AGCCACAGTC TGTACTCACC AGAGTTAAGA TGTTTGAAAA CAAAAGATCT 
    GCATCCTTAG AGACCAAGAA GGATGTAAAT GACACTGGCA GTTTTAAGCC TCCAGAAGTA 
    GCATCTAAAC CTTCAGGTGC TCCCATCATT GGTCCCAAAC CCACTTCTCA GAATCAATTC 
    AGTGAACATG ACAAAACTCT GTACAGGATC CCAGAACCTC AAAAACCTCA ACTGAAGCCA 
    CCTGAAGATA TTGTTCGGTC CAATCATTAT GACCCTGAAG AAGATGAAGA ATATTATCGA 
    AAACAGCTGT CATACTTTGA CCGAAGAAGT TTTGAGAATA AGCCTCCTGC ACACATTGCC 
    GCCAGCCATC TCTCCGAGCC TGCAAAGCCA GCGCATTCTC AGAATCAATC AAATTTTTCT 
    AGTTATTCTT CAAAGGGAAA GCCTCCTGAA GCTGATGGTG TGGATAGATC ATTTGGCGAG 
    AAACGCTATG AACCCATCCA GGCCACTCCC CCTCCTCCTC CATTGCCCTC GCAGTATGCC 
    CAGCCATCTC AGCCTGTCAC CAGCGCGTCT CTCCACATAC ATTCTAAGGG AGCACATGGT 
    GAAGGTAATT CAGTGTCATT GGATTTTCAG AATTCCTTAG TGTCCAAACC AGACCCACCT 
    CCATCTCAGA ATAAGCCAGC AACTTTCAGA CCACCAAACC GAGAAGATAC TGCTCAGGCA 
    GCTTTCTATC CCCAGAAAAG TTTTCCAGAT AAAGCCCCAG TTAATGGAAC TGAACAGACT 
    CAGAAAACAG TCACTCCAGC ATACAATCGA TTCACACCAA AACCATATAC AAGTTCTGCC 
    CGACCATTTG AACGCAAGTT TGAAAGTCCT AAATTCAATC ACAATCTTCT GCCAAGTGAA 
    ACTGCACATA AACCTGACTT GTCTTCAAAA ACTCCCACTT CTCCAAAAAC TCTTGTGAAA 
    TCGCACAGTT TGGCACAGCC TCCTGAGTTT GACAGTGGAG TTGAAACTTT CTCTATCCAT 
    GCAGAGAAGC CTAAATATCA AATAAATAAT ATCAGCACAG TGCCTAAAGC TATTCCTGTG 
    AGTCCTTCAG CTGTGGAAGA GGATGAAGAT GAAGATGGTC ATACTGTGGT GGCCACAGCC 
    CGAGGCATAT TTAACAGCAA TGGGGGCGTG CTGAGTTCCA TAGAAACTGG TGTTAGTATA 
    ATTATCCCTC AAGGAGCCAT TCCCGAAGGA GTTGAGCAGG AAATCTATTT CAAGGTCTGC 
    CGGGACAACA GCATCCTTCC ACCTTTAGAT AAAGAGAAAG GTGAAACACT GCTGAGTCCT 
    TTGGTGATGT GTGGTCCCCA TGGCCTCAAG TTCCTGAAGC CTGTGGAGCT GCGCTTACCA 
    CACTGTGCGT CCATGACTCC TGACGGTGAT CCTAAAACCT GGCAAAACAA GTGTCTTCCC 
    GGAGATCCAA ATTATCTCGT TGGAGCAAAC TGTGTTTCTG TCCTTATTGA CCACTTTTAA

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

    TJP1 ( NM_001355014.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001341943.1 Homo sapiens tight junction protein 1 (TJP1), transcript variant 8, mRNA.
    Price & Availability↑
    CloneID OHu85638
    Clone ID Related Accession (Same CDS sequence) XM_017022529.1 , NM_001355014.1 , NM_001355014.2
    Accession Version NM_001355014.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5268bp)
    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 2019-02-26
    Organism Homo sapiens(human)
    Product tight junction protein ZO-1 isoform h
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from L14837.1, BC111712.1, AC022613.13, BU618228.1, BX640879.1 and AF035298.1. On Sep 1, 2017 this sequence version replaced XM_017022529.1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803616.97584.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGTCCGCCA GAGCTGCGGC CGCCAAGAGC ACAGCAATGG AGGAAACAGC TATATGGGAA 
    CAACATACAG TGACGCTTCA CAGGGCTCCT GGATTTGGAT TTGGAATTGC AATATCTGGT 
    GGACGAGATA ATCCTCATTT TCAGAGTGGG GAAACGTCAA TAGTGATTTC AGATGTGCTG 
    AAAGGAGGAC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAACGGA 
    GTTTCAATGG ATAATGTTGA ACATGCTTTT GCTGTTCAGC AACTAAGGAA AAGTGGGAAA 
    AATGCAAAAA TTACAATTAG AAGGAAGAAG AAAGTTCAAA TACCAGTAAG TCGTCCTGAT 
    CCTGAACCAG TATCTGATAA TGAAGAAGAT AGTTATGATG AGGAAATACA TGATCCAAGA 
    AGTGGCCGGA GTGGTGTGGT TAACAGAAGG AGTGAGAAGA TTTGGCCGAG GGATAGAAGT 
    GCAAGTAGAG AGAGGAGCTT GTCCCCGCGG TCAGACAGGC GGTCAGTGGC TTCCAGCCAG 
    CCTGCTAAAC CTACTAAAGT CACACTGGTG AAATCCCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCAA GCCATATATT TGTTAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGCAATATTC AAGAAGGTGA TGTTGTATTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAGAC ATTGATAGAA AGGTCTAAAG GCAAATTAAA AATGGTAGTT 
    CAAAGAGATG AACGGGCTAC GCTATTGAAT GTCCCTGATC TTTCTGACAG CATCCACTCT 
    GCTAATGCCT CTGAGAGAGA CGACATTTCA GAAATTCAGT CACTGGCATC AGATCATTCT 
    GGTCGATCAC ACGATAGGCC TCCCCGCCGC AGCCGGTCAC GATCTCCTGA CCAGCGGTCA 
    GAGCCTTCTG ATCATTCCAG GCACTCGCCG CAGCAGCCAA GCAATGGCAG TCTCCGGAGT 
    AGAGATGAAG AGAGAATTTC TAAACCTGGG GCTGTCTCAA CTCCTGTAAA GCATGCTGAT 
    GATCACACAC CTAAAACAGT GGAAGAAGTT ACAGTTGAAA GAAATGAGAA ACAAACACCT 
    TCTCTTCCAG AACCAAAGCC TGTGTATGCC CAAGTTGGGC AACCAGATGT GGATTTACCT 
    GTCAGTCCAT CTGATGGTGT CCTACCTAAT TCAACTCATG AAGATGGGAT TCTTCGGCCC 
    AGCATGAAAT TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGGCT GGCTGGTGGA 
    AATGATGTTG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAGGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTA AACAACGTAG ATTTTACAAA TATCATAAGA 
    GAAGAAGCCG TCCTTTTCCT GCTTGACCTC CCTAAAGGAG AAGAAGTGAC CATATTGGCT 
    CAGAAGAAGA AGGATGTTTA TCGTCGCATT GTAGAATCAG ATGTAGGAGA TTCTTTCTAT 
    ATTAGAACCC ATTTTGAATA TGAAAAGGAA TCTCCCTATG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GTGTTGTGGA TACCTTGTAC AATGGAAAAC TGGGCTCTTG GCTTGCTATT 
    CGAATTGGTA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGCTAG CCAGTGTACA GTATACACTT CCAAAAACAG CAGGCGGAGA CCGTGCTGAC 
    TTCTGGAGAT TCAGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAT 
    TTGTCCGCTC AGCCTGTTCA AACAAAGTTT CCAGCTTATG AAAGAGTGGT TCTTCGAGAA 
    GCTGGATTTC TGAGGCCTGT AACCATTTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    CTGGCAAGAG AAGAACCAGA TATTTATCAA ATTGCAAAGA GTGAACCACG AGACGCTGGA 
    ACTGACCAAC GTAGCTCTGG CATTATTCGC CTGCATACAA TAAAGCAAAT CATAGATCAA 
    GACAAACATG CTTTATTAGA TGTAACACCA AATGCAGTTG ATCGTCTTAA CTATGCCCAG 
    TGGTATCCAA TTGTTGTATT TCTTAACCCT GATTCTAAGC AAGGAGTAAA AACAATGAGA 
    ATGAGGTTAT GTCCAGAATC TCGGAAAAGT GCCAGGAAGT TATACGAGCG ATCTCATAAA 
    CTTCGTAAAA ATAATCACCA TCTTTTTACA ACTACAATTA ACTTAAATTC AATGAATGAT 
    GGTTGGTATG GTGCGCTGAA AGAAGCAATT CAACAACAGC AAAACCAGCT GGTATGGGTT 
    TCCGAGGGAA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCTCCAGG TAGTGAATAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA CACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTTGG GACTCCACCG GAGTCTGCCA TTACACGGTC CTCTGAGCCT 
    GTAAGAGAGG ACTCCTCTGG AATGCATCAT GAAAACCAAA CATATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAACCAAT TCATAGAATA GACTCCCCTG GATTTAAGCC AGCCTCTCAA 
    CAGAAAGCAG AAGCTTCATC TCCAGTCCCT TACCTTTCGC CTGAAACAAA CCCAGCATCA 
    TCAACCTCTG CTGTTAATCA TAATGTAAAT TTAACTAATG TCAGACTGGA GGAGCCCACC 
    CCAGCTCCTT CCACCTCTTA CTCACCACAA GCTGATTCTT TAAGAACACC AAGTACTGAG 
    GCAGCTCACA TAATGCTAAG AGATCAAGAA CCATCATTGT CGTCGCATGT AGATCCAACA 
    AAGGTGTATA GAAAGGATCC ATATCCCGAG GAAATGATGA GGCAGAACCA TGTTTTGAAA 
    CAGCCAGCCG TTAGTCACCC AGGGCACAGG CCAGACAAAG AGCCTAATCT GACCTATGAA 
    CCCCAACTCC CATACGTAGA GAAACAAGCC AGCAGAGACC TCGAGCAGCC CACATACAGA 
    TACGAGTCCT CAAGCTATAC GGACCAGTTT TCTCGAAACT ATGAACATCG TCTGCGATAC 
    GAAGATCGCG TCCCCATGTA TGAAGAACAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CCATCTCGGC CACCTTTTGA TAATCAGCAC TCTCAAGACC TTGACTCCAG ACAGCATCCC 
    GAAGAGTCCT CAGAACGAGG GTACTTTCCA CGTTTTGAAG AGCCAGCCCC TCTGTCTTAC 
    GACAGCAGAC CACGTTACGA ACAGGCACCT AGAGCATCCG CCCTGCGGCA CGAAGAGCAG 
    CCAGCTCCTG GGTATGACAC ACATGGTAGA CTCAGACCGG AAGCCCAGCC CCACCCTTCA 
    GCAGGGCCCA AGCCTGCAGA GTCCAAGCAG TATTTTGAGC AATATTCACG CAGTTACGAG 
    CAAGTACCAC CCCAAGGATT TACCTCTAGA GCAGGTCATT TTGAGCCTCT CCATGGTGCT 
    GCAGCTGTCC CTCCGCTGAT ACCTTCATCT CAGCATAAGC CAGAAGCTCT GCCTTCAAAC 
    ACCAAACCAC TGCCTCCACC CCCAACTCAA ACCGAAGAAG AGGAAGATCC AGCAATGAAG 
    CCACAGTCTG TACTCACCAG AGTTAAGATG TTTGAAAACA AAAGATCTGC ATCCTTAGAG 
    ACCAAGAAGG ATGTAAATGA CACTGGCAGT TTTAAGCCTC CAGAAGTAGC ATCTAAACCT 
    TCAGGTGCTC CCATCATTGG TCCCAAACCC ACTTCTCAGA ATCAATTCAG TGAACATGAC 
    AAAACTCTGT ACAGGATCCC AGAACCTCAA AAACCTCAAC TGAAGCCACC TGAAGATATT 
    GTTCGGTCCA ATCATTATGA CCCTGAAGAA GATGAAGAAT ATTATCGAAA ACAGCTGTCA 
    TACTTTGACC GAAGAAGTTT TGAGAATAAG CCTCCTGCAC ACATTGCCGC CAGCCATCTC 
    TCCGAGCCTG CAAAGCCAGC GCATTCTCAG AATCAATCAA ATTTTTCTAG TTATTCTTCA 
    AAGGGAAAGC CTCCTGAAGC TGATGGTGTG GATAGATCAT TTGGCGAGAA ACGCTATGAA 
    CCCATCCAGG CCACTCCCCC TCCTCCTCCA TTGCCCTCGC AGTATGCCCA GCCATCTCAG 
    CCTGTCACCA GCGCGTCTCT CCACATACAT TCTAAGGGAG CACATGGTGA AGGTAATTCA 
    GTGTCATTGG ATTTTCAGAA TTCCTTAGTG TCCAAACCAG ACCCACCTCC ATCTCAGAAT 
    AAGCCAGCAA CTTTCAGACC ACCAAACCGA GAAGATACTG CTCAGGCAGC TTTCTATCCC 
    CAGAAAAGTT TTCCAGATAA AGCCCCAGTT AATGGAACTG AACAGACTCA GAAAACAGTC 
    ACTCCAGCAT ACAATCGATT CACACCAAAA CCATATACAA GTTCTGCCCG ACCATTTGAA 
    CGCAAGTTTG AAAGTCCTAA ATTCAATCAC AATCTTCTGC CAAGTGAAAC TGCACATAAA 
    CCTGACTTGT CTTCAAAAAC TCCCACTTCT CCAAAAACTC TTGTGAAATC GCACAGTTTG 
    GCACAGCCTC CTGAGTTTGA CAGTGGAGTT GAAACTTTCT CTATCCATGC AGAGAAGCCT 
    AAATATCAAA TAAATAATAT CAGCACAGTG CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT 
    GTGGAAGAGG ATGAAGATGA AGATGGTCAT ACTGTGGTGG CCACAGCCCG AGGCATATTT 
    AACAGCAATG GGGGCGTGCT GAGTTCCATA GAAACTGGTG TTAGTATAAT TATCCCTCAA 
    GGAGCCATTC CCGAAGGAGT TGAGCAGGAA ATCTATTTCA AGGTCTGCCG GGACAACAGC 
    ATCCTTCCAC CTTTAGATAA AGAGAAAGGT GAAACACTGC TGAGTCCTTT GGTGATGTGT 
    GGTCCCCATG GCCTCAAGTT CCTGAAGCCT GTGGAGCTGC GCTTACCACA CTGTGCGTCC 
    ATGACTCCTG ACGGTGATCC TAAAACCTGG CAAAACAAGT GTCTTCCCGG AGATCCAAAT 
    TATCTCGTTG GAGCAAACTG TGTTTCTGTC CTTATTGACC ACTTTTAA

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

    RefSeq NP_001341943.1
    CDS476..5743
    Translation

    Target ORF information:

    RefSeq Version NM_001355014.1
    Organism Homo sapiens(human)
    Definition Homo sapiens tight junction protein 1 (TJP1), transcript variant 8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001355014.1

    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
    ATGTCCGCCA GAGCTGCGGC CGCCAAGAGC ACAGCAATGG AGGAAACAGC TATATGGGAA 
    CAACATACAG TGACGCTTCA CAGGGCTCCT GGATTTGGAT TTGGAATTGC AATATCTGGT 
    GGACGAGATA ATCCTCATTT TCAGAGTGGG GAAACGTCAA TAGTGATTTC AGATGTGCTG 
    AAAGGAGGAC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAACGGA 
    GTTTCAATGG ATAATGTTGA ACATGCTTTT GCTGTTCAGC AACTAAGGAA AAGTGGGAAA 
    AATGCAAAAA TTACAATTAG AAGGAAGAAG AAAGTTCAAA TACCAGTAAG TCGTCCTGAT 
    CCTGAACCAG TATCTGATAA TGAAGAAGAT AGTTATGATG AGGAAATACA TGATCCAAGA 
    AGTGGCCGGA GTGGTGTGGT TAACAGAAGG AGTGAGAAGA TTTGGCCGAG GGATAGAAGT 
    GCAAGTAGAG AGAGGAGCTT GTCCCCGCGG TCAGACAGGC GGTCAGTGGC TTCCAGCCAG 
    CCTGCTAAAC CTACTAAAGT CACACTGGTG AAATCCCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCAA GCCATATATT TGTTAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGCAATATTC AAGAAGGTGA TGTTGTATTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAGAC ATTGATAGAA AGGTCTAAAG GCAAATTAAA AATGGTAGTT 
    CAAAGAGATG AACGGGCTAC GCTATTGAAT GTCCCTGATC TTTCTGACAG CATCCACTCT 
    GCTAATGCCT CTGAGAGAGA CGACATTTCA GAAATTCAGT CACTGGCATC AGATCATTCT 
    GGTCGATCAC ACGATAGGCC TCCCCGCCGC AGCCGGTCAC GATCTCCTGA CCAGCGGTCA 
    GAGCCTTCTG ATCATTCCAG GCACTCGCCG CAGCAGCCAA GCAATGGCAG TCTCCGGAGT 
    AGAGATGAAG AGAGAATTTC TAAACCTGGG GCTGTCTCAA CTCCTGTAAA GCATGCTGAT 
    GATCACACAC CTAAAACAGT GGAAGAAGTT ACAGTTGAAA GAAATGAGAA ACAAACACCT 
    TCTCTTCCAG AACCAAAGCC TGTGTATGCC CAAGTTGGGC AACCAGATGT GGATTTACCT 
    GTCAGTCCAT CTGATGGTGT CCTACCTAAT TCAACTCATG AAGATGGGAT TCTTCGGCCC 
    AGCATGAAAT TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGGCT GGCTGGTGGA 
    AATGATGTTG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAGGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTA AACAACGTAG ATTTTACAAA TATCATAAGA 
    GAAGAAGCCG TCCTTTTCCT GCTTGACCTC CCTAAAGGAG AAGAAGTGAC CATATTGGCT 
    CAGAAGAAGA AGGATGTTTA TCGTCGCATT GTAGAATCAG ATGTAGGAGA TTCTTTCTAT 
    ATTAGAACCC ATTTTGAATA TGAAAAGGAA TCTCCCTATG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GTGTTGTGGA TACCTTGTAC AATGGAAAAC TGGGCTCTTG GCTTGCTATT 
    CGAATTGGTA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGCTAG CCAGTGTACA GTATACACTT CCAAAAACAG CAGGCGGAGA CCGTGCTGAC 
    TTCTGGAGAT TCAGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAT 
    TTGTCCGCTC AGCCTGTTCA AACAAAGTTT CCAGCTTATG AAAGAGTGGT TCTTCGAGAA 
    GCTGGATTTC TGAGGCCTGT AACCATTTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    CTGGCAAGAG AAGAACCAGA TATTTATCAA ATTGCAAAGA GTGAACCACG AGACGCTGGA 
    ACTGACCAAC GTAGCTCTGG CATTATTCGC CTGCATACAA TAAAGCAAAT CATAGATCAA 
    GACAAACATG CTTTATTAGA TGTAACACCA AATGCAGTTG ATCGTCTTAA CTATGCCCAG 
    TGGTATCCAA TTGTTGTATT TCTTAACCCT GATTCTAAGC AAGGAGTAAA AACAATGAGA 
    ATGAGGTTAT GTCCAGAATC TCGGAAAAGT GCCAGGAAGT TATACGAGCG ATCTCATAAA 
    CTTCGTAAAA ATAATCACCA TCTTTTTACA ACTACAATTA ACTTAAATTC AATGAATGAT 
    GGTTGGTATG GTGCGCTGAA AGAAGCAATT CAACAACAGC AAAACCAGCT GGTATGGGTT 
    TCCGAGGGAA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCTCCAGG TAGTGAATAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA CACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTTGG GACTCCACCG GAGTCTGCCA TTACACGGTC CTCTGAGCCT 
    GTAAGAGAGG ACTCCTCTGG AATGCATCAT GAAAACCAAA CATATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAACCAAT TCATAGAATA GACTCCCCTG GATTTAAGCC AGCCTCTCAA 
    CAGAAAGCAG AAGCTTCATC TCCAGTCCCT TACCTTTCGC CTGAAACAAA CCCAGCATCA 
    TCAACCTCTG CTGTTAATCA TAATGTAAAT TTAACTAATG TCAGACTGGA GGAGCCCACC 
    CCAGCTCCTT CCACCTCTTA CTCACCACAA GCTGATTCTT TAAGAACACC AAGTACTGAG 
    GCAGCTCACA TAATGCTAAG AGATCAAGAA CCATCATTGT CGTCGCATGT AGATCCAACA 
    AAGGTGTATA GAAAGGATCC ATATCCCGAG GAAATGATGA GGCAGAACCA TGTTTTGAAA 
    CAGCCAGCCG TTAGTCACCC AGGGCACAGG CCAGACAAAG AGCCTAATCT GACCTATGAA 
    CCCCAACTCC CATACGTAGA GAAACAAGCC AGCAGAGACC TCGAGCAGCC CACATACAGA 
    TACGAGTCCT CAAGCTATAC GGACCAGTTT TCTCGAAACT ATGAACATCG TCTGCGATAC 
    GAAGATCGCG TCCCCATGTA TGAAGAACAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CCATCTCGGC CACCTTTTGA TAATCAGCAC TCTCAAGACC TTGACTCCAG ACAGCATCCC 
    GAAGAGTCCT CAGAACGAGG GTACTTTCCA CGTTTTGAAG AGCCAGCCCC TCTGTCTTAC 
    GACAGCAGAC CACGTTACGA ACAGGCACCT AGAGCATCCG CCCTGCGGCA CGAAGAGCAG 
    CCAGCTCCTG GGTATGACAC ACATGGTAGA CTCAGACCGG AAGCCCAGCC CCACCCTTCA 
    GCAGGGCCCA AGCCTGCAGA GTCCAAGCAG TATTTTGAGC AATATTCACG CAGTTACGAG 
    CAAGTACCAC CCCAAGGATT TACCTCTAGA GCAGGTCATT TTGAGCCTCT CCATGGTGCT 
    GCAGCTGTCC CTCCGCTGAT ACCTTCATCT CAGCATAAGC CAGAAGCTCT GCCTTCAAAC 
    ACCAAACCAC TGCCTCCACC CCCAACTCAA ACCGAAGAAG AGGAAGATCC AGCAATGAAG 
    CCACAGTCTG TACTCACCAG AGTTAAGATG TTTGAAAACA AAAGATCTGC ATCCTTAGAG 
    ACCAAGAAGG ATGTAAATGA CACTGGCAGT TTTAAGCCTC CAGAAGTAGC ATCTAAACCT 
    TCAGGTGCTC CCATCATTGG TCCCAAACCC ACTTCTCAGA ATCAATTCAG TGAACATGAC 
    AAAACTCTGT ACAGGATCCC AGAACCTCAA AAACCTCAAC TGAAGCCACC TGAAGATATT 
    GTTCGGTCCA ATCATTATGA CCCTGAAGAA GATGAAGAAT ATTATCGAAA ACAGCTGTCA 
    TACTTTGACC GAAGAAGTTT TGAGAATAAG CCTCCTGCAC ACATTGCCGC CAGCCATCTC 
    TCCGAGCCTG CAAAGCCAGC GCATTCTCAG AATCAATCAA ATTTTTCTAG TTATTCTTCA 
    AAGGGAAAGC CTCCTGAAGC TGATGGTGTG GATAGATCAT TTGGCGAGAA ACGCTATGAA 
    CCCATCCAGG CCACTCCCCC TCCTCCTCCA TTGCCCTCGC AGTATGCCCA GCCATCTCAG 
    CCTGTCACCA GCGCGTCTCT CCACATACAT TCTAAGGGAG CACATGGTGA AGGTAATTCA 
    GTGTCATTGG ATTTTCAGAA TTCCTTAGTG TCCAAACCAG ACCCACCTCC ATCTCAGAAT 
    AAGCCAGCAA CTTTCAGACC ACCAAACCGA GAAGATACTG CTCAGGCAGC TTTCTATCCC 
    CAGAAAAGTT TTCCAGATAA AGCCCCAGTT AATGGAACTG AACAGACTCA GAAAACAGTC 
    ACTCCAGCAT ACAATCGATT CACACCAAAA CCATATACAA GTTCTGCCCG ACCATTTGAA 
    CGCAAGTTTG AAAGTCCTAA ATTCAATCAC AATCTTCTGC CAAGTGAAAC TGCACATAAA 
    CCTGACTTGT CTTCAAAAAC TCCCACTTCT CCAAAAACTC TTGTGAAATC GCACAGTTTG 
    GCACAGCCTC CTGAGTTTGA CAGTGGAGTT GAAACTTTCT CTATCCATGC AGAGAAGCCT 
    AAATATCAAA TAAATAATAT CAGCACAGTG CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT 
    GTGGAAGAGG ATGAAGATGA AGATGGTCAT ACTGTGGTGG CCACAGCCCG AGGCATATTT 
    AACAGCAATG GGGGCGTGCT GAGTTCCATA GAAACTGGTG TTAGTATAAT TATCCCTCAA 
    GGAGCCATTC CCGAAGGAGT TGAGCAGGAA ATCTATTTCA AGGTCTGCCG GGACAACAGC 
    ATCCTTCCAC CTTTAGATAA AGAGAAAGGT GAAACACTGC TGAGTCCTTT GGTGATGTGT 
    GGTCCCCATG GCCTCAAGTT CCTGAAGCCT GTGGAGCTGC GCTTACCACA CTGTGCGTCC 
    ATGACTCCTG ACGGTGATCC TAAAACCTGG CAAAACAAGT GTCTTCCCGG AGATCCAAAT 
    TATCTCGTTG GAGCAAACTG TGTTTCTGTC CTTATTGACC ACTTTTAA

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

    TJP1 ( NM_001355014.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001341943.1 Homo sapiens tight junction protein 1 (TJP1), transcript variant 8, mRNA.
    Price & Availability↑
    CloneID OHu85638
    Clone ID Related Accession (Same CDS sequence) XM_017022529.1 , NM_001355014.1 , NM_001355014.2
    Accession Version NM_001355014.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5268bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-15
    Organism Homo sapiens(human)
    Product tight junction protein ZO-1 isoform h
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from L14837.1, BC111712.1, AC022613.13, BU618228.1, BX640879.1 and AF035298.1. On Jun 2, 2019 this sequence version replaced NM_001355014.1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803616.97584.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGTCCGCCA GAGCTGCGGC CGCCAAGAGC ACAGCAATGG AGGAAACAGC TATATGGGAA 
    CAACATACAG TGACGCTTCA CAGGGCTCCT GGATTTGGAT TTGGAATTGC AATATCTGGT 
    GGACGAGATA ATCCTCATTT TCAGAGTGGG GAAACGTCAA TAGTGATTTC AGATGTGCTG 
    AAAGGAGGAC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAACGGA 
    GTTTCAATGG ATAATGTTGA ACATGCTTTT GCTGTTCAGC AACTAAGGAA AAGTGGGAAA 
    AATGCAAAAA TTACAATTAG AAGGAAGAAG AAAGTTCAAA TACCAGTAAG TCGTCCTGAT 
    CCTGAACCAG TATCTGATAA TGAAGAAGAT AGTTATGATG AGGAAATACA TGATCCAAGA 
    AGTGGCCGGA GTGGTGTGGT TAACAGAAGG AGTGAGAAGA TTTGGCCGAG GGATAGAAGT 
    GCAAGTAGAG AGAGGAGCTT GTCCCCGCGG TCAGACAGGC GGTCAGTGGC TTCCAGCCAG 
    CCTGCTAAAC CTACTAAAGT CACACTGGTG AAATCCCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCAA GCCATATATT TGTTAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGCAATATTC AAGAAGGTGA TGTTGTATTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAGAC ATTGATAGAA AGGTCTAAAG GCAAATTAAA AATGGTAGTT 
    CAAAGAGATG AACGGGCTAC GCTATTGAAT GTCCCTGATC TTTCTGACAG CATCCACTCT 
    GCTAATGCCT CTGAGAGAGA CGACATTTCA GAAATTCAGT CACTGGCATC AGATCATTCT 
    GGTCGATCAC ACGATAGGCC TCCCCGCCGC AGCCGGTCAC GATCTCCTGA CCAGCGGTCA 
    GAGCCTTCTG ATCATTCCAG GCACTCGCCG CAGCAGCCAA GCAATGGCAG TCTCCGGAGT 
    AGAGATGAAG AGAGAATTTC TAAACCTGGG GCTGTCTCAA CTCCTGTAAA GCATGCTGAT 
    GATCACACAC CTAAAACAGT GGAAGAAGTT ACAGTTGAAA GAAATGAGAA ACAAACACCT 
    TCTCTTCCAG AACCAAAGCC TGTGTATGCC CAAGTTGGGC AACCAGATGT GGATTTACCT 
    GTCAGTCCAT CTGATGGTGT CCTACCTAAT TCAACTCATG AAGATGGGAT TCTTCGGCCC 
    AGCATGAAAT TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGGCT GGCTGGTGGA 
    AATGATGTTG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAGGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTA AACAACGTAG ATTTTACAAA TATCATAAGA 
    GAAGAAGCCG TCCTTTTCCT GCTTGACCTC CCTAAAGGAG AAGAAGTGAC CATATTGGCT 
    CAGAAGAAGA AGGATGTTTA TCGTCGCATT GTAGAATCAG ATGTAGGAGA TTCTTTCTAT 
    ATTAGAACCC ATTTTGAATA TGAAAAGGAA TCTCCCTATG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GTGTTGTGGA TACCTTGTAC AATGGAAAAC TGGGCTCTTG GCTTGCTATT 
    CGAATTGGTA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGCTAG CCAGTGTACA GTATACACTT CCAAAAACAG CAGGCGGAGA CCGTGCTGAC 
    TTCTGGAGAT TCAGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAT 
    TTGTCCGCTC AGCCTGTTCA AACAAAGTTT CCAGCTTATG AAAGAGTGGT TCTTCGAGAA 
    GCTGGATTTC TGAGGCCTGT AACCATTTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    CTGGCAAGAG AAGAACCAGA TATTTATCAA ATTGCAAAGA GTGAACCACG AGACGCTGGA 
    ACTGACCAAC GTAGCTCTGG CATTATTCGC CTGCATACAA TAAAGCAAAT CATAGATCAA 
    GACAAACATG CTTTATTAGA TGTAACACCA AATGCAGTTG ATCGTCTTAA CTATGCCCAG 
    TGGTATCCAA TTGTTGTATT TCTTAACCCT GATTCTAAGC AAGGAGTAAA AACAATGAGA 
    ATGAGGTTAT GTCCAGAATC TCGGAAAAGT GCCAGGAAGT TATACGAGCG ATCTCATAAA 
    CTTCGTAAAA ATAATCACCA TCTTTTTACA ACTACAATTA ACTTAAATTC AATGAATGAT 
    GGTTGGTATG GTGCGCTGAA AGAAGCAATT CAACAACAGC AAAACCAGCT GGTATGGGTT 
    TCCGAGGGAA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCTCCAGG TAGTGAATAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA CACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTTGG GACTCCACCG GAGTCTGCCA TTACACGGTC CTCTGAGCCT 
    GTAAGAGAGG ACTCCTCTGG AATGCATCAT GAAAACCAAA CATATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAACCAAT TCATAGAATA GACTCCCCTG GATTTAAGCC AGCCTCTCAA 
    CAGAAAGCAG AAGCTTCATC TCCAGTCCCT TACCTTTCGC CTGAAACAAA CCCAGCATCA 
    TCAACCTCTG CTGTTAATCA TAATGTAAAT TTAACTAATG TCAGACTGGA GGAGCCCACC 
    CCAGCTCCTT CCACCTCTTA CTCACCACAA GCTGATTCTT TAAGAACACC AAGTACTGAG 
    GCAGCTCACA TAATGCTAAG AGATCAAGAA CCATCATTGT CGTCGCATGT AGATCCAACA 
    AAGGTGTATA GAAAGGATCC ATATCCCGAG GAAATGATGA GGCAGAACCA TGTTTTGAAA 
    CAGCCAGCCG TTAGTCACCC AGGGCACAGG CCAGACAAAG AGCCTAATCT GACCTATGAA 
    CCCCAACTCC CATACGTAGA GAAACAAGCC AGCAGAGACC TCGAGCAGCC CACATACAGA 
    TACGAGTCCT CAAGCTATAC GGACCAGTTT TCTCGAAACT ATGAACATCG TCTGCGATAC 
    GAAGATCGCG TCCCCATGTA TGAAGAACAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CCATCTCGGC CACCTTTTGA TAATCAGCAC TCTCAAGACC TTGACTCCAG ACAGCATCCC 
    GAAGAGTCCT CAGAACGAGG GTACTTTCCA CGTTTTGAAG AGCCAGCCCC TCTGTCTTAC 
    GACAGCAGAC CACGTTACGA ACAGGCACCT AGAGCATCCG CCCTGCGGCA CGAAGAGCAG 
    CCAGCTCCTG GGTATGACAC ACATGGTAGA CTCAGACCGG AAGCCCAGCC CCACCCTTCA 
    GCAGGGCCCA AGCCTGCAGA GTCCAAGCAG TATTTTGAGC AATATTCACG CAGTTACGAG 
    CAAGTACCAC CCCAAGGATT TACCTCTAGA GCAGGTCATT TTGAGCCTCT CCATGGTGCT 
    GCAGCTGTCC CTCCGCTGAT ACCTTCATCT CAGCATAAGC CAGAAGCTCT GCCTTCAAAC 
    ACCAAACCAC TGCCTCCACC CCCAACTCAA ACCGAAGAAG AGGAAGATCC AGCAATGAAG 
    CCACAGTCTG TACTCACCAG AGTTAAGATG TTTGAAAACA AAAGATCTGC ATCCTTAGAG 
    ACCAAGAAGG ATGTAAATGA CACTGGCAGT TTTAAGCCTC CAGAAGTAGC ATCTAAACCT 
    TCAGGTGCTC CCATCATTGG TCCCAAACCC ACTTCTCAGA ATCAATTCAG TGAACATGAC 
    AAAACTCTGT ACAGGATCCC AGAACCTCAA AAACCTCAAC TGAAGCCACC TGAAGATATT 
    GTTCGGTCCA ATCATTATGA CCCTGAAGAA GATGAAGAAT ATTATCGAAA ACAGCTGTCA 
    TACTTTGACC GAAGAAGTTT TGAGAATAAG CCTCCTGCAC ACATTGCCGC CAGCCATCTC 
    TCCGAGCCTG CAAAGCCAGC GCATTCTCAG AATCAATCAA ATTTTTCTAG TTATTCTTCA 
    AAGGGAAAGC CTCCTGAAGC TGATGGTGTG GATAGATCAT TTGGCGAGAA ACGCTATGAA 
    CCCATCCAGG CCACTCCCCC TCCTCCTCCA TTGCCCTCGC AGTATGCCCA GCCATCTCAG 
    CCTGTCACCA GCGCGTCTCT CCACATACAT TCTAAGGGAG CACATGGTGA AGGTAATTCA 
    GTGTCATTGG ATTTTCAGAA TTCCTTAGTG TCCAAACCAG ACCCACCTCC ATCTCAGAAT 
    AAGCCAGCAA CTTTCAGACC ACCAAACCGA GAAGATACTG CTCAGGCAGC TTTCTATCCC 
    CAGAAAAGTT TTCCAGATAA AGCCCCAGTT AATGGAACTG AACAGACTCA GAAAACAGTC 
    ACTCCAGCAT ACAATCGATT CACACCAAAA CCATATACAA GTTCTGCCCG ACCATTTGAA 
    CGCAAGTTTG AAAGTCCTAA ATTCAATCAC AATCTTCTGC CAAGTGAAAC TGCACATAAA 
    CCTGACTTGT CTTCAAAAAC TCCCACTTCT CCAAAAACTC TTGTGAAATC GCACAGTTTG 
    GCACAGCCTC CTGAGTTTGA CAGTGGAGTT GAAACTTTCT CTATCCATGC AGAGAAGCCT 
    AAATATCAAA TAAATAATAT CAGCACAGTG CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT 
    GTGGAAGAGG ATGAAGATGA AGATGGTCAT ACTGTGGTGG CCACAGCCCG AGGCATATTT 
    AACAGCAATG GGGGCGTGCT GAGTTCCATA GAAACTGGTG TTAGTATAAT TATCCCTCAA 
    GGAGCCATTC CCGAAGGAGT TGAGCAGGAA ATCTATTTCA AGGTCTGCCG GGACAACAGC 
    ATCCTTCCAC CTTTAGATAA AGAGAAAGGT GAAACACTGC TGAGTCCTTT GGTGATGTGT 
    GGTCCCCATG GCCTCAAGTT CCTGAAGCCT GTGGAGCTGC GCTTACCACA CTGTGCGTCC 
    ATGACTCCTG ACGGTGATCC TAAAACCTGG CAAAACAAGT GTCTTCCCGG AGATCCAAAT 
    TATCTCGTTG GAGCAAACTG TGTTTCTGTC CTTATTGACC ACTTTTAA

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

    RefSeq NP_001341943.1
    CDS441..5708
    Translation

    Target ORF information:

    RefSeq Version NM_001355014.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tight junction protein 1 (TJP1), transcript variant 8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001355014.2

    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
    ATGTCCGCCA GAGCTGCGGC CGCCAAGAGC ACAGCAATGG AGGAAACAGC TATATGGGAA 
    CAACATACAG TGACGCTTCA CAGGGCTCCT GGATTTGGAT TTGGAATTGC AATATCTGGT 
    GGACGAGATA ATCCTCATTT TCAGAGTGGG GAAACGTCAA TAGTGATTTC AGATGTGCTG 
    AAAGGAGGAC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAACGGA 
    GTTTCAATGG ATAATGTTGA ACATGCTTTT GCTGTTCAGC AACTAAGGAA AAGTGGGAAA 
    AATGCAAAAA TTACAATTAG AAGGAAGAAG AAAGTTCAAA TACCAGTAAG TCGTCCTGAT 
    CCTGAACCAG TATCTGATAA TGAAGAAGAT AGTTATGATG AGGAAATACA TGATCCAAGA 
    AGTGGCCGGA GTGGTGTGGT TAACAGAAGG AGTGAGAAGA TTTGGCCGAG GGATAGAAGT 
    GCAAGTAGAG AGAGGAGCTT GTCCCCGCGG TCAGACAGGC GGTCAGTGGC TTCCAGCCAG 
    CCTGCTAAAC CTACTAAAGT CACACTGGTG AAATCCCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCAA GCCATATATT TGTTAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGCAATATTC AAGAAGGTGA TGTTGTATTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAGAC ATTGATAGAA AGGTCTAAAG GCAAATTAAA AATGGTAGTT 
    CAAAGAGATG AACGGGCTAC GCTATTGAAT GTCCCTGATC TTTCTGACAG CATCCACTCT 
    GCTAATGCCT CTGAGAGAGA CGACATTTCA GAAATTCAGT CACTGGCATC AGATCATTCT 
    GGTCGATCAC ACGATAGGCC TCCCCGCCGC AGCCGGTCAC GATCTCCTGA CCAGCGGTCA 
    GAGCCTTCTG ATCATTCCAG GCACTCGCCG CAGCAGCCAA GCAATGGCAG TCTCCGGAGT 
    AGAGATGAAG AGAGAATTTC TAAACCTGGG GCTGTCTCAA CTCCTGTAAA GCATGCTGAT 
    GATCACACAC CTAAAACAGT GGAAGAAGTT ACAGTTGAAA GAAATGAGAA ACAAACACCT 
    TCTCTTCCAG AACCAAAGCC TGTGTATGCC CAAGTTGGGC AACCAGATGT GGATTTACCT 
    GTCAGTCCAT CTGATGGTGT CCTACCTAAT TCAACTCATG AAGATGGGAT TCTTCGGCCC 
    AGCATGAAAT TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGGCT GGCTGGTGGA 
    AATGATGTTG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAGGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTA AACAACGTAG ATTTTACAAA TATCATAAGA 
    GAAGAAGCCG TCCTTTTCCT GCTTGACCTC CCTAAAGGAG AAGAAGTGAC CATATTGGCT 
    CAGAAGAAGA AGGATGTTTA TCGTCGCATT GTAGAATCAG ATGTAGGAGA TTCTTTCTAT 
    ATTAGAACCC ATTTTGAATA TGAAAAGGAA TCTCCCTATG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GTGTTGTGGA TACCTTGTAC AATGGAAAAC TGGGCTCTTG GCTTGCTATT 
    CGAATTGGTA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGCTAG CCAGTGTACA GTATACACTT CCAAAAACAG CAGGCGGAGA CCGTGCTGAC 
    TTCTGGAGAT TCAGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAT 
    TTGTCCGCTC AGCCTGTTCA AACAAAGTTT CCAGCTTATG AAAGAGTGGT TCTTCGAGAA 
    GCTGGATTTC TGAGGCCTGT AACCATTTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    CTGGCAAGAG AAGAACCAGA TATTTATCAA ATTGCAAAGA GTGAACCACG AGACGCTGGA 
    ACTGACCAAC GTAGCTCTGG CATTATTCGC CTGCATACAA TAAAGCAAAT CATAGATCAA 
    GACAAACATG CTTTATTAGA TGTAACACCA AATGCAGTTG ATCGTCTTAA CTATGCCCAG 
    TGGTATCCAA TTGTTGTATT TCTTAACCCT GATTCTAAGC AAGGAGTAAA AACAATGAGA 
    ATGAGGTTAT GTCCAGAATC TCGGAAAAGT GCCAGGAAGT TATACGAGCG ATCTCATAAA 
    CTTCGTAAAA ATAATCACCA TCTTTTTACA ACTACAATTA ACTTAAATTC AATGAATGAT 
    GGTTGGTATG GTGCGCTGAA AGAAGCAATT CAACAACAGC AAAACCAGCT GGTATGGGTT 
    TCCGAGGGAA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCTCCAGG TAGTGAATAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA CACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTTGG GACTCCACCG GAGTCTGCCA TTACACGGTC CTCTGAGCCT 
    GTAAGAGAGG ACTCCTCTGG AATGCATCAT GAAAACCAAA CATATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAACCAAT TCATAGAATA GACTCCCCTG GATTTAAGCC AGCCTCTCAA 
    CAGAAAGCAG AAGCTTCATC TCCAGTCCCT TACCTTTCGC CTGAAACAAA CCCAGCATCA 
    TCAACCTCTG CTGTTAATCA TAATGTAAAT TTAACTAATG TCAGACTGGA GGAGCCCACC 
    CCAGCTCCTT CCACCTCTTA CTCACCACAA GCTGATTCTT TAAGAACACC AAGTACTGAG 
    GCAGCTCACA TAATGCTAAG AGATCAAGAA CCATCATTGT CGTCGCATGT AGATCCAACA 
    AAGGTGTATA GAAAGGATCC ATATCCCGAG GAAATGATGA GGCAGAACCA TGTTTTGAAA 
    CAGCCAGCCG TTAGTCACCC AGGGCACAGG CCAGACAAAG AGCCTAATCT GACCTATGAA 
    CCCCAACTCC CATACGTAGA GAAACAAGCC AGCAGAGACC TCGAGCAGCC CACATACAGA 
    TACGAGTCCT CAAGCTATAC GGACCAGTTT TCTCGAAACT ATGAACATCG TCTGCGATAC 
    GAAGATCGCG TCCCCATGTA TGAAGAACAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CCATCTCGGC CACCTTTTGA TAATCAGCAC TCTCAAGACC TTGACTCCAG ACAGCATCCC 
    GAAGAGTCCT CAGAACGAGG GTACTTTCCA CGTTTTGAAG AGCCAGCCCC TCTGTCTTAC 
    GACAGCAGAC CACGTTACGA ACAGGCACCT AGAGCATCCG CCCTGCGGCA CGAAGAGCAG 
    CCAGCTCCTG GGTATGACAC ACATGGTAGA CTCAGACCGG AAGCCCAGCC CCACCCTTCA 
    GCAGGGCCCA AGCCTGCAGA GTCCAAGCAG TATTTTGAGC AATATTCACG CAGTTACGAG 
    CAAGTACCAC CCCAAGGATT TACCTCTAGA GCAGGTCATT TTGAGCCTCT CCATGGTGCT 
    GCAGCTGTCC CTCCGCTGAT ACCTTCATCT CAGCATAAGC CAGAAGCTCT GCCTTCAAAC 
    ACCAAACCAC TGCCTCCACC CCCAACTCAA ACCGAAGAAG AGGAAGATCC AGCAATGAAG 
    CCACAGTCTG TACTCACCAG AGTTAAGATG TTTGAAAACA AAAGATCTGC ATCCTTAGAG 
    ACCAAGAAGG ATGTAAATGA CACTGGCAGT TTTAAGCCTC CAGAAGTAGC ATCTAAACCT 
    TCAGGTGCTC CCATCATTGG TCCCAAACCC ACTTCTCAGA ATCAATTCAG TGAACATGAC 
    AAAACTCTGT ACAGGATCCC AGAACCTCAA AAACCTCAAC TGAAGCCACC TGAAGATATT 
    GTTCGGTCCA ATCATTATGA CCCTGAAGAA GATGAAGAAT ATTATCGAAA ACAGCTGTCA 
    TACTTTGACC GAAGAAGTTT TGAGAATAAG CCTCCTGCAC ACATTGCCGC CAGCCATCTC 
    TCCGAGCCTG CAAAGCCAGC GCATTCTCAG AATCAATCAA ATTTTTCTAG TTATTCTTCA 
    AAGGGAAAGC CTCCTGAAGC TGATGGTGTG GATAGATCAT TTGGCGAGAA ACGCTATGAA 
    CCCATCCAGG CCACTCCCCC TCCTCCTCCA TTGCCCTCGC AGTATGCCCA GCCATCTCAG 
    CCTGTCACCA GCGCGTCTCT CCACATACAT TCTAAGGGAG CACATGGTGA AGGTAATTCA 
    GTGTCATTGG ATTTTCAGAA TTCCTTAGTG TCCAAACCAG ACCCACCTCC ATCTCAGAAT 
    AAGCCAGCAA CTTTCAGACC ACCAAACCGA GAAGATACTG CTCAGGCAGC TTTCTATCCC 
    CAGAAAAGTT TTCCAGATAA AGCCCCAGTT AATGGAACTG AACAGACTCA GAAAACAGTC 
    ACTCCAGCAT ACAATCGATT CACACCAAAA CCATATACAA GTTCTGCCCG ACCATTTGAA 
    CGCAAGTTTG AAAGTCCTAA ATTCAATCAC AATCTTCTGC CAAGTGAAAC TGCACATAAA 
    CCTGACTTGT CTTCAAAAAC TCCCACTTCT CCAAAAACTC TTGTGAAATC GCACAGTTTG 
    GCACAGCCTC CTGAGTTTGA CAGTGGAGTT GAAACTTTCT CTATCCATGC AGAGAAGCCT 
    AAATATCAAA TAAATAATAT CAGCACAGTG CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT 
    GTGGAAGAGG ATGAAGATGA AGATGGTCAT ACTGTGGTGG CCACAGCCCG AGGCATATTT 
    AACAGCAATG GGGGCGTGCT GAGTTCCATA GAAACTGGTG TTAGTATAAT TATCCCTCAA 
    GGAGCCATTC CCGAAGGAGT TGAGCAGGAA ATCTATTTCA AGGTCTGCCG GGACAACAGC 
    ATCCTTCCAC CTTTAGATAA AGAGAAAGGT GAAACACTGC TGAGTCCTTT GGTGATGTGT 
    GGTCCCCATG GCCTCAAGTT CCTGAAGCCT GTGGAGCTGC GCTTACCACA CTGTGCGTCC 
    ATGACTCCTG ACGGTGATCC TAAAACCTGG CAAAACAAGT GTCTTCCCGG AGATCCAAAT 
    TATCTCGTTG GAGCAAACTG TGTTTCTGTC CTTATTGACC ACTTTTAA

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

    TJP1 ( NM_001355015.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001341944.1 Homo sapiens tight junction protein 1 (TJP1), transcript variant 8, mRNA.
    Price & Availability↑
    CloneID OHu85639
    Clone ID Related Accession (Same CDS sequence) XM_017022530.1 , NM_001355015.1 , NM_001355015.2
    Accession Version NM_001355015.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5067bp)
    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 2019-01-12
    Organism Homo sapiens(human)
    Product tight junction protein ZO-1 isoform i
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from L14837.1, BC111712.1, AK302971.1, AC022613.13, BM722482.1, BX640879.1 and AF035298.1. On Sep 1, 2017 this sequence version replaced XM_017022530.1. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803616.127.1, SRR1803614.6915.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGTCCGCCA GAGCTGCGGC CGCCAAGAGC ACAGCAATGG AGGAAACAGC TATATGGGAA 
    CAACATACAG TGACGCTTCA CAGGGCTCCT GGATTTGGAT TTGGAATTGC AATATCTGGT 
    GGACGAGATA ATCCTCATTT TCAGAGTGGG GAAACGTCAA TAGTGATTTC AGATGTGCTG 
    AAAGGAGGAC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAACGGA 
    GTTTCAATGG ATAATGTTGA ACATGCTTTT GCTGTTCAGC AACTAAGGAA AAGTGGGAAA 
    AATGCAAAAA TTACAATTAG AAGGAAGAAG AAAGTTCAAA TACCAGTAAG TCGTCCTGAT 
    CCTGAACCAG TATCTGATAA TGAAGAAGAT AGTTATGATG AGGAAATACA TGATCCAAGA 
    AGTGGCCGGA GTGGTGTGGT TAACAGAAGG AGTGAGAAGA TTTGGCCGAG GGATAGAAGT 
    GCAAGTAGAG AGAGGAGCTT GTCCCCGCGG TCAGACAGGC GGTCAGTGGC TTCCAGCCAG 
    CCTGCTAAAC CTACTAAAGT CACACTGGTG AAATCCCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCAA GCCATATATT TGTTAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGCAATATTC AAGAAGGTGA TGTTGTATTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAGAC ATTGATAGAA AGGTCTAAAG GCAAATTAAA AATGGTAGTT 
    CAAAGAGATG AACGGGCTAC GCTATTGAAT GTCCCTGATC TTTCTGACAG CATCCACTCT 
    GCTAATGCCT CTGAGAGAGA CGACATTTCA GAAATTCAGT CACTGGCATC AGATCATTCT 
    GGTCGATCAC ACGATAGGCC TCCCCGCCGC AGCCGGTCAC GATCTCCTGA CCAGCGGTCA 
    GAGCCTTCTG ATCATTCCAG GCACTCGCCG CAGCAGCCAA GCAATGGCAG TCTCCGGAGT 
    AGAGATGAAG AGAGAATTTC TAAACCTGGG GCTGTCTCAA CTCCTGTAAA GCATGCTGAT 
    GATCACACAC CTAAAACAGT GGAAGAAGTT ACAGTTGAAA GAAATGAGAA ACAAACACCT 
    TCTCTTCCAG AACCAAAGCC TGTGTATGCC CAAGTTGGGC AACCAGATGT GGATTTACCT 
    GTCAGTCCAT CTGATGGTGT CCTACCTAAT TCAACTCATG AAGATGGGAT TCTTCGGCCC 
    AGCATGAAAT TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGGCT GGCTGGTGGA 
    AATGATGTTG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAGGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTA AACAACGTAG ATTTTACAAA TATCATAAGA 
    GAAGAAGCCG TCCTTTTCCT GCTTGACCTC CCTAAAGGAG AAGAAGTGAC CATATTGGCT 
    CAGAAGAAGA AGGATGTTTA TCGTCGCATT GTAGAATCAG ATGTAGGAGA TTCTTTCTAT 
    ATTAGAACCC ATTTTGAATA TGAAAAGGAA TCTCCCTATG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GTGTTGTGGA TACCTTGTAC AATGGAAAAC TGGGCTCTTG GCTTGCTATT 
    CGAATTGGTA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGCTAG CCAGTGTACA GTATACACTT CCAAAAACAG CAGGCGGAGA CCGTGCTGAC 
    TTCTGGAGAT TCAGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAT 
    TTGTCCGCTC AGCCTGTTCA AACAAAGTTT CCAGCTTATG AAAGAGTGGT TCTTCGAGAA 
    GCTGGATTTC TGAGGCCTGT AACCATTTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    CTGGCAAGAG AAGAACCAGA TATTTATCAA ATTGCAAAGA GTGAACCACG AGACGCTGGA 
    ACTGACCAAC GTAGCTCTGG CATTATTCGC CTGCATACAA TAAAGCAAAT CATAGATCAA 
    GACAAACATG CTTTATTAGA TGTAACACCA AATGCAGTTG ATCGTCTTAA CTATGCCCAG 
    TGGTATCCAA TTGTTGTATT TCTTAACCCT GATTCTAAGC AAGGAGTAAA AACAATGAGA 
    ATGAGGTTAT GTCCAGAATC TCGGAAAAGT GCCAGGAAGT TATACGAGCG ATCTCATAAA 
    CTTCGTAAAA ATAATCACCA TCTTTTTACA ACTACAATTA ACTTAAATTC AATGAATGAT 
    GGTTGGTATG GTGCGCTGAA AGAAGCAATT CAACAACAGC AAAACCAGCT GGTATGGGTT 
    TCCGAGGGAA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCTCCAGG TAGTGAATAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA CACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTTGG GACTCCACCG GAGTCTGCCA TTACACGGTC CTCTGAGCCT 
    GTAAGAGAGG ACTCCTCTGG AATGCATCAT GAAAACCAAA CATATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAACCAAT TCATAGAATA GACTCCCCTG GATTTAAGCC AGCCTCTCAA 
    CAGGTGTATA GAAAGGATCC ATATCCCGAG GAAATGATGA GGCAGAACCA TGTTTTGAAA 
    CAGCCAGCCG TTAGTCACCC AGGGCACAGG CCAGACAAAG AGCCTAATCT GACCTATGAA 
    CCCCAACTCC CATACGTAGA GAAACAAGCC AGCAGAGACC TCGAGCAGCC CACATACAGA 
    TACGAGTCCT CAAGCTATAC GGACCAGTTT TCTCGAAACT ATGAACATCG TCTGCGATAC 
    GAAGATCGCG TCCCCATGTA TGAAGAACAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CCATCTCGGC CACCTTTTGA TAATCAGCAC TCTCAAGACC TTGACTCCAG ACAGCATCCC 
    GAAGAGTCCT CAGAACGAGG GTACTTTCCA CGTTTTGAAG AGCCAGCCCC TCTGTCTTAC 
    GACAGCAGAC CACGTTACGA ACAGGCACCT AGAGCATCCG CCCTGCGGCA CGAAGAGCAG 
    CCAGCTCCTG GGTATGACAC ACATGGTAGA CTCAGACCGG AAGCCCAGCC CCACCCTTCA 
    GCAGGGCCCA AGCCTGCAGA GTCCAAGCAG TATTTTGAGC AATATTCACG CAGTTACGAG 
    CAAGTACCAC CCCAAGGATT TACCTCTAGA GCAGGTCATT TTGAGCCTCT CCATGGTGCT 
    GCAGCTGTCC CTCCGCTGAT ACCTTCATCT CAGCATAAGC CAGAAGCTCT GCCTTCAAAC 
    ACCAAACCAC TGCCTCCACC CCCAACTCAA ACCGAAGAAG AGGAAGATCC AGCAATGAAG 
    CCACAGTCTG TACTCACCAG AGTTAAGATG TTTGAAAACA AAAGATCTGC ATCCTTAGAG 
    ACCAAGAAGG ATGTAAATGA CACTGGCAGT TTTAAGCCTC CAGAAGTAGC ATCTAAACCT 
    TCAGGTGCTC CCATCATTGG TCCCAAACCC ACTTCTCAGA ATCAATTCAG TGAACATGAC 
    AAAACTCTGT ACAGGATCCC AGAACCTCAA AAACCTCAAC TGAAGCCACC TGAAGATATT 
    GTTCGGTCCA ATCATTATGA CCCTGAAGAA GATGAAGAAT ATTATCGAAA ACAGCTGTCA 
    TACTTTGACC GAAGAAGTTT TGAGAATAAG CCTCCTGCAC ACATTGCCGC CAGCCATCTC 
    TCCGAGCCTG CAAAGCCAGC GCATTCTCAG AATCAATCAA ATTTTTCTAG TTATTCTTCA 
    AAGGGAAAGC CTCCTGAAGC TGATGGTGTG GATAGATCAT TTGGCGAGAA ACGCTATGAA 
    CCCATCCAGG CCACTCCCCC TCCTCCTCCA TTGCCCTCGC AGTATGCCCA GCCATCTCAG 
    CCTGTCACCA GCGCGTCTCT CCACATACAT TCTAAGGGAG CACATGGTGA AGGTAATTCA 
    GTGTCATTGG ATTTTCAGAA TTCCTTAGTG TCCAAACCAG ACCCACCTCC ATCTCAGAAT 
    AAGCCAGCAA CTTTCAGACC ACCAAACCGA GAAGATACTG CTCAGGCAGC TTTCTATCCC 
    CAGAAAAGTT TTCCAGATAA AGCCCCAGTT AATGGAACTG AACAGACTCA GAAAACAGTC 
    ACTCCAGCAT ACAATCGATT CACACCAAAA CCATATACAA GTTCTGCCCG ACCATTTGAA 
    CGCAAGTTTG AAAGTCCTAA ATTCAATCAC AATCTTCTGC CAAGTGAAAC TGCACATAAA 
    CCTGACTTGT CTTCAAAAAC TCCCACTTCT CCAAAAACTC TTGTGAAATC GCACAGTTTG 
    GCACAGCCTC CTGAGTTTGA CAGTGGAGTT GAAACTTTCT CTATCCATGC AGAGAAGCCT 
    AAATATCAAA TAAATAATAT CAGCACAGTG CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT 
    GTGGAAGAGG ATGAAGATGA AGATGGTCAT ACTGTGGTGG CCACAGCCCG AGGCATATTT 
    AACAGCAATG GGGGCGTGCT GAGTTCCATA GAAACTGGTG TTAGTATAAT TATCCCTCAA 
    GGAGCCATTC CCGAAGGAGT TGAGCAGGAA ATCTATTTCA AGGTCTGCCG GGACAACAGC 
    ATCCTTCCAC CTTTAGATAA AGAGAAAGGT GAAACACTGC TGAGTCCTTT GGTGATGTGT 
    GGTCCCCATG GCCTCAAGTT CCTGAAGCCT GTGGAGCTGC GCTTACCACA CTGTGCGTCC 
    ATGACTCCTG ACGGTTGGTC TTTTGCTCTA AAATCATCCG ACTCCTCGTC GGGTGATCCT 
    AAAACCTGGC AAAACAAGTG TCTTCCCGGA GATCCAAATT ATCTCGTTGG AGCAAACTGT 
    GTTTCTGTCC TTATTGACCA CTTTTAA

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

    RefSeq NP_001341944.1
    CDS476..5542
    Translation

    Target ORF information:

    RefSeq Version NM_001355015.1
    Organism Homo sapiens(human)
    Definition Homo sapiens tight junction protein 1 (TJP1), transcript variant 8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001355015.1

    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
    ATGTCCGCCA GAGCTGCGGC CGCCAAGAGC ACAGCAATGG AGGAAACAGC TATATGGGAA 
    CAACATACAG TGACGCTTCA CAGGGCTCCT GGATTTGGAT TTGGAATTGC AATATCTGGT 
    GGACGAGATA ATCCTCATTT TCAGAGTGGG GAAACGTCAA TAGTGATTTC AGATGTGCTG 
    AAAGGAGGAC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAACGGA 
    GTTTCAATGG ATAATGTTGA ACATGCTTTT GCTGTTCAGC AACTAAGGAA AAGTGGGAAA 
    AATGCAAAAA TTACAATTAG AAGGAAGAAG AAAGTTCAAA TACCAGTAAG TCGTCCTGAT 
    CCTGAACCAG TATCTGATAA TGAAGAAGAT AGTTATGATG AGGAAATACA TGATCCAAGA 
    AGTGGCCGGA GTGGTGTGGT TAACAGAAGG AGTGAGAAGA TTTGGCCGAG GGATAGAAGT 
    GCAAGTAGAG AGAGGAGCTT GTCCCCGCGG TCAGACAGGC GGTCAGTGGC TTCCAGCCAG 
    CCTGCTAAAC CTACTAAAGT CACACTGGTG AAATCCCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCAA GCCATATATT TGTTAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGCAATATTC AAGAAGGTGA TGTTGTATTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAGAC ATTGATAGAA AGGTCTAAAG GCAAATTAAA AATGGTAGTT 
    CAAAGAGATG AACGGGCTAC GCTATTGAAT GTCCCTGATC TTTCTGACAG CATCCACTCT 
    GCTAATGCCT CTGAGAGAGA CGACATTTCA GAAATTCAGT CACTGGCATC AGATCATTCT 
    GGTCGATCAC ACGATAGGCC TCCCCGCCGC AGCCGGTCAC GATCTCCTGA CCAGCGGTCA 
    GAGCCTTCTG ATCATTCCAG GCACTCGCCG CAGCAGCCAA GCAATGGCAG TCTCCGGAGT 
    AGAGATGAAG AGAGAATTTC TAAACCTGGG GCTGTCTCAA CTCCTGTAAA GCATGCTGAT 
    GATCACACAC CTAAAACAGT GGAAGAAGTT ACAGTTGAAA GAAATGAGAA ACAAACACCT 
    TCTCTTCCAG AACCAAAGCC TGTGTATGCC CAAGTTGGGC AACCAGATGT GGATTTACCT 
    GTCAGTCCAT CTGATGGTGT CCTACCTAAT TCAACTCATG AAGATGGGAT TCTTCGGCCC 
    AGCATGAAAT TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGGCT GGCTGGTGGA 
    AATGATGTTG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAGGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTA AACAACGTAG ATTTTACAAA TATCATAAGA 
    GAAGAAGCCG TCCTTTTCCT GCTTGACCTC CCTAAAGGAG AAGAAGTGAC CATATTGGCT 
    CAGAAGAAGA AGGATGTTTA TCGTCGCATT GTAGAATCAG ATGTAGGAGA TTCTTTCTAT 
    ATTAGAACCC ATTTTGAATA TGAAAAGGAA TCTCCCTATG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GTGTTGTGGA TACCTTGTAC AATGGAAAAC TGGGCTCTTG GCTTGCTATT 
    CGAATTGGTA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGCTAG CCAGTGTACA GTATACACTT CCAAAAACAG CAGGCGGAGA CCGTGCTGAC 
    TTCTGGAGAT TCAGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAT 
    TTGTCCGCTC AGCCTGTTCA AACAAAGTTT CCAGCTTATG AAAGAGTGGT TCTTCGAGAA 
    GCTGGATTTC TGAGGCCTGT AACCATTTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    CTGGCAAGAG AAGAACCAGA TATTTATCAA ATTGCAAAGA GTGAACCACG AGACGCTGGA 
    ACTGACCAAC GTAGCTCTGG CATTATTCGC CTGCATACAA TAAAGCAAAT CATAGATCAA 
    GACAAACATG CTTTATTAGA TGTAACACCA AATGCAGTTG ATCGTCTTAA CTATGCCCAG 
    TGGTATCCAA TTGTTGTATT TCTTAACCCT GATTCTAAGC AAGGAGTAAA AACAATGAGA 
    ATGAGGTTAT GTCCAGAATC TCGGAAAAGT GCCAGGAAGT TATACGAGCG ATCTCATAAA 
    CTTCGTAAAA ATAATCACCA TCTTTTTACA ACTACAATTA ACTTAAATTC AATGAATGAT 
    GGTTGGTATG GTGCGCTGAA AGAAGCAATT CAACAACAGC AAAACCAGCT GGTATGGGTT 
    TCCGAGGGAA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCTCCAGG TAGTGAATAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA CACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTTGG GACTCCACCG GAGTCTGCCA TTACACGGTC CTCTGAGCCT 
    GTAAGAGAGG ACTCCTCTGG AATGCATCAT GAAAACCAAA CATATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAACCAAT TCATAGAATA GACTCCCCTG GATTTAAGCC AGCCTCTCAA 
    CAGGTGTATA GAAAGGATCC ATATCCCGAG GAAATGATGA GGCAGAACCA TGTTTTGAAA 
    CAGCCAGCCG TTAGTCACCC AGGGCACAGG CCAGACAAAG AGCCTAATCT GACCTATGAA 
    CCCCAACTCC CATACGTAGA GAAACAAGCC AGCAGAGACC TCGAGCAGCC CACATACAGA 
    TACGAGTCCT CAAGCTATAC GGACCAGTTT TCTCGAAACT ATGAACATCG TCTGCGATAC 
    GAAGATCGCG TCCCCATGTA TGAAGAACAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CCATCTCGGC CACCTTTTGA TAATCAGCAC TCTCAAGACC TTGACTCCAG ACAGCATCCC 
    GAAGAGTCCT CAGAACGAGG GTACTTTCCA CGTTTTGAAG AGCCAGCCCC TCTGTCTTAC 
    GACAGCAGAC CACGTTACGA ACAGGCACCT AGAGCATCCG CCCTGCGGCA CGAAGAGCAG 
    CCAGCTCCTG GGTATGACAC ACATGGTAGA CTCAGACCGG AAGCCCAGCC CCACCCTTCA 
    GCAGGGCCCA AGCCTGCAGA GTCCAAGCAG TATTTTGAGC AATATTCACG CAGTTACGAG 
    CAAGTACCAC CCCAAGGATT TACCTCTAGA GCAGGTCATT TTGAGCCTCT CCATGGTGCT 
    GCAGCTGTCC CTCCGCTGAT ACCTTCATCT CAGCATAAGC CAGAAGCTCT GCCTTCAAAC 
    ACCAAACCAC TGCCTCCACC CCCAACTCAA ACCGAAGAAG AGGAAGATCC AGCAATGAAG 
    CCACAGTCTG TACTCACCAG AGTTAAGATG TTTGAAAACA AAAGATCTGC ATCCTTAGAG 
    ACCAAGAAGG ATGTAAATGA CACTGGCAGT TTTAAGCCTC CAGAAGTAGC ATCTAAACCT 
    TCAGGTGCTC CCATCATTGG TCCCAAACCC ACTTCTCAGA ATCAATTCAG TGAACATGAC 
    AAAACTCTGT ACAGGATCCC AGAACCTCAA AAACCTCAAC TGAAGCCACC TGAAGATATT 
    GTTCGGTCCA ATCATTATGA CCCTGAAGAA GATGAAGAAT ATTATCGAAA ACAGCTGTCA 
    TACTTTGACC GAAGAAGTTT TGAGAATAAG CCTCCTGCAC ACATTGCCGC CAGCCATCTC 
    TCCGAGCCTG CAAAGCCAGC GCATTCTCAG AATCAATCAA ATTTTTCTAG TTATTCTTCA 
    AAGGGAAAGC CTCCTGAAGC TGATGGTGTG GATAGATCAT TTGGCGAGAA ACGCTATGAA 
    CCCATCCAGG CCACTCCCCC TCCTCCTCCA TTGCCCTCGC AGTATGCCCA GCCATCTCAG 
    CCTGTCACCA GCGCGTCTCT CCACATACAT TCTAAGGGAG CACATGGTGA AGGTAATTCA 
    GTGTCATTGG ATTTTCAGAA TTCCTTAGTG TCCAAACCAG ACCCACCTCC ATCTCAGAAT 
    AAGCCAGCAA CTTTCAGACC ACCAAACCGA GAAGATACTG CTCAGGCAGC TTTCTATCCC 
    CAGAAAAGTT TTCCAGATAA AGCCCCAGTT AATGGAACTG AACAGACTCA GAAAACAGTC 
    ACTCCAGCAT ACAATCGATT CACACCAAAA CCATATACAA GTTCTGCCCG ACCATTTGAA 
    CGCAAGTTTG AAAGTCCTAA ATTCAATCAC AATCTTCTGC CAAGTGAAAC TGCACATAAA 
    CCTGACTTGT CTTCAAAAAC TCCCACTTCT CCAAAAACTC TTGTGAAATC GCACAGTTTG 
    GCACAGCCTC CTGAGTTTGA CAGTGGAGTT GAAACTTTCT CTATCCATGC AGAGAAGCCT 
    AAATATCAAA TAAATAATAT CAGCACAGTG CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT 
    GTGGAAGAGG ATGAAGATGA AGATGGTCAT ACTGTGGTGG CCACAGCCCG AGGCATATTT 
    AACAGCAATG GGGGCGTGCT GAGTTCCATA GAAACTGGTG TTAGTATAAT TATCCCTCAA 
    GGAGCCATTC CCGAAGGAGT TGAGCAGGAA ATCTATTTCA AGGTCTGCCG GGACAACAGC 
    ATCCTTCCAC CTTTAGATAA AGAGAAAGGT GAAACACTGC TGAGTCCTTT GGTGATGTGT 
    GGTCCCCATG GCCTCAAGTT CCTGAAGCCT GTGGAGCTGC GCTTACCACA CTGTGCGTCC 
    ATGACTCCTG ACGGTTGGTC TTTTGCTCTA AAATCATCCG ACTCCTCGTC GGGTGATCCT 
    AAAACCTGGC AAAACAAGTG TCTTCCCGGA GATCCAAATT ATCTCGTTGG AGCAAACTGT 
    GTTTCTGTCC TTATTGACCA CTTTTAA

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

    TJP1 ( NM_001355015.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001341944.1 Homo sapiens tight junction protein 1 (TJP1), transcript variant 9, mRNA.
    Price & Availability↑
    CloneID OHu85639
    Clone ID Related Accession (Same CDS sequence) XM_017022530.1 , NM_001355015.1 , NM_001355015.2
    Accession Version NM_001355015.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5067bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-15
    Organism Homo sapiens(human)
    Product tight junction protein ZO-1 isoform i
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from L14837.1, BC111712.1, AK302971.1, AC022613.13, BM722482.1, BX640879.1 and AF035298.1. On Jun 2, 2019 this sequence version replaced NM_001355015.1. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803616.127.1, SRR1803614.260442.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGTCCGCCA GAGCTGCGGC CGCCAAGAGC ACAGCAATGG AGGAAACAGC TATATGGGAA 
    CAACATACAG TGACGCTTCA CAGGGCTCCT GGATTTGGAT TTGGAATTGC AATATCTGGT 
    GGACGAGATA ATCCTCATTT TCAGAGTGGG GAAACGTCAA TAGTGATTTC AGATGTGCTG 
    AAAGGAGGAC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAACGGA 
    GTTTCAATGG ATAATGTTGA ACATGCTTTT GCTGTTCAGC AACTAAGGAA AAGTGGGAAA 
    AATGCAAAAA TTACAATTAG AAGGAAGAAG AAAGTTCAAA TACCAGTAAG TCGTCCTGAT 
    CCTGAACCAG TATCTGATAA TGAAGAAGAT AGTTATGATG AGGAAATACA TGATCCAAGA 
    AGTGGCCGGA GTGGTGTGGT TAACAGAAGG AGTGAGAAGA TTTGGCCGAG GGATAGAAGT 
    GCAAGTAGAG AGAGGAGCTT GTCCCCGCGG TCAGACAGGC GGTCAGTGGC TTCCAGCCAG 
    CCTGCTAAAC CTACTAAAGT CACACTGGTG AAATCCCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCAA GCCATATATT TGTTAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGCAATATTC AAGAAGGTGA TGTTGTATTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAGAC ATTGATAGAA AGGTCTAAAG GCAAATTAAA AATGGTAGTT 
    CAAAGAGATG AACGGGCTAC GCTATTGAAT GTCCCTGATC TTTCTGACAG CATCCACTCT 
    GCTAATGCCT CTGAGAGAGA CGACATTTCA GAAATTCAGT CACTGGCATC AGATCATTCT 
    GGTCGATCAC ACGATAGGCC TCCCCGCCGC AGCCGGTCAC GATCTCCTGA CCAGCGGTCA 
    GAGCCTTCTG ATCATTCCAG GCACTCGCCG CAGCAGCCAA GCAATGGCAG TCTCCGGAGT 
    AGAGATGAAG AGAGAATTTC TAAACCTGGG GCTGTCTCAA CTCCTGTAAA GCATGCTGAT 
    GATCACACAC CTAAAACAGT GGAAGAAGTT ACAGTTGAAA GAAATGAGAA ACAAACACCT 
    TCTCTTCCAG AACCAAAGCC TGTGTATGCC CAAGTTGGGC AACCAGATGT GGATTTACCT 
    GTCAGTCCAT CTGATGGTGT CCTACCTAAT TCAACTCATG AAGATGGGAT TCTTCGGCCC 
    AGCATGAAAT TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGGCT GGCTGGTGGA 
    AATGATGTTG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAGGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTA AACAACGTAG ATTTTACAAA TATCATAAGA 
    GAAGAAGCCG TCCTTTTCCT GCTTGACCTC CCTAAAGGAG AAGAAGTGAC CATATTGGCT 
    CAGAAGAAGA AGGATGTTTA TCGTCGCATT GTAGAATCAG ATGTAGGAGA TTCTTTCTAT 
    ATTAGAACCC ATTTTGAATA TGAAAAGGAA TCTCCCTATG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GTGTTGTGGA TACCTTGTAC AATGGAAAAC TGGGCTCTTG GCTTGCTATT 
    CGAATTGGTA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGCTAG CCAGTGTACA GTATACACTT CCAAAAACAG CAGGCGGAGA CCGTGCTGAC 
    TTCTGGAGAT TCAGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAT 
    TTGTCCGCTC AGCCTGTTCA AACAAAGTTT CCAGCTTATG AAAGAGTGGT TCTTCGAGAA 
    GCTGGATTTC TGAGGCCTGT AACCATTTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    CTGGCAAGAG AAGAACCAGA TATTTATCAA ATTGCAAAGA GTGAACCACG AGACGCTGGA 
    ACTGACCAAC GTAGCTCTGG CATTATTCGC CTGCATACAA TAAAGCAAAT CATAGATCAA 
    GACAAACATG CTTTATTAGA TGTAACACCA AATGCAGTTG ATCGTCTTAA CTATGCCCAG 
    TGGTATCCAA TTGTTGTATT TCTTAACCCT GATTCTAAGC AAGGAGTAAA AACAATGAGA 
    ATGAGGTTAT GTCCAGAATC TCGGAAAAGT GCCAGGAAGT TATACGAGCG ATCTCATAAA 
    CTTCGTAAAA ATAATCACCA TCTTTTTACA ACTACAATTA ACTTAAATTC AATGAATGAT 
    GGTTGGTATG GTGCGCTGAA AGAAGCAATT CAACAACAGC AAAACCAGCT GGTATGGGTT 
    TCCGAGGGAA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCTCCAGG TAGTGAATAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA CACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTTGG GACTCCACCG GAGTCTGCCA TTACACGGTC CTCTGAGCCT 
    GTAAGAGAGG ACTCCTCTGG AATGCATCAT GAAAACCAAA CATATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAACCAAT TCATAGAATA GACTCCCCTG GATTTAAGCC AGCCTCTCAA 
    CAGGTGTATA GAAAGGATCC ATATCCCGAG GAAATGATGA GGCAGAACCA TGTTTTGAAA 
    CAGCCAGCCG TTAGTCACCC AGGGCACAGG CCAGACAAAG AGCCTAATCT GACCTATGAA 
    CCCCAACTCC CATACGTAGA GAAACAAGCC AGCAGAGACC TCGAGCAGCC CACATACAGA 
    TACGAGTCCT CAAGCTATAC GGACCAGTTT TCTCGAAACT ATGAACATCG TCTGCGATAC 
    GAAGATCGCG TCCCCATGTA TGAAGAACAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CCATCTCGGC CACCTTTTGA TAATCAGCAC TCTCAAGACC TTGACTCCAG ACAGCATCCC 
    GAAGAGTCCT CAGAACGAGG GTACTTTCCA CGTTTTGAAG AGCCAGCCCC TCTGTCTTAC 
    GACAGCAGAC CACGTTACGA ACAGGCACCT AGAGCATCCG CCCTGCGGCA CGAAGAGCAG 
    CCAGCTCCTG GGTATGACAC ACATGGTAGA CTCAGACCGG AAGCCCAGCC CCACCCTTCA 
    GCAGGGCCCA AGCCTGCAGA GTCCAAGCAG TATTTTGAGC AATATTCACG CAGTTACGAG 
    CAAGTACCAC CCCAAGGATT TACCTCTAGA GCAGGTCATT TTGAGCCTCT CCATGGTGCT 
    GCAGCTGTCC CTCCGCTGAT ACCTTCATCT CAGCATAAGC CAGAAGCTCT GCCTTCAAAC 
    ACCAAACCAC TGCCTCCACC CCCAACTCAA ACCGAAGAAG AGGAAGATCC AGCAATGAAG 
    CCACAGTCTG TACTCACCAG AGTTAAGATG TTTGAAAACA AAAGATCTGC ATCCTTAGAG 
    ACCAAGAAGG ATGTAAATGA CACTGGCAGT TTTAAGCCTC CAGAAGTAGC ATCTAAACCT 
    TCAGGTGCTC CCATCATTGG TCCCAAACCC ACTTCTCAGA ATCAATTCAG TGAACATGAC 
    AAAACTCTGT ACAGGATCCC AGAACCTCAA AAACCTCAAC TGAAGCCACC TGAAGATATT 
    GTTCGGTCCA ATCATTATGA CCCTGAAGAA GATGAAGAAT ATTATCGAAA ACAGCTGTCA 
    TACTTTGACC GAAGAAGTTT TGAGAATAAG CCTCCTGCAC ACATTGCCGC CAGCCATCTC 
    TCCGAGCCTG CAAAGCCAGC GCATTCTCAG AATCAATCAA ATTTTTCTAG TTATTCTTCA 
    AAGGGAAAGC CTCCTGAAGC TGATGGTGTG GATAGATCAT TTGGCGAGAA ACGCTATGAA 
    CCCATCCAGG CCACTCCCCC TCCTCCTCCA TTGCCCTCGC AGTATGCCCA GCCATCTCAG 
    CCTGTCACCA GCGCGTCTCT CCACATACAT TCTAAGGGAG CACATGGTGA AGGTAATTCA 
    GTGTCATTGG ATTTTCAGAA TTCCTTAGTG TCCAAACCAG ACCCACCTCC ATCTCAGAAT 
    AAGCCAGCAA CTTTCAGACC ACCAAACCGA GAAGATACTG CTCAGGCAGC TTTCTATCCC 
    CAGAAAAGTT TTCCAGATAA AGCCCCAGTT AATGGAACTG AACAGACTCA GAAAACAGTC 
    ACTCCAGCAT ACAATCGATT CACACCAAAA CCATATACAA GTTCTGCCCG ACCATTTGAA 
    CGCAAGTTTG AAAGTCCTAA ATTCAATCAC AATCTTCTGC CAAGTGAAAC TGCACATAAA 
    CCTGACTTGT CTTCAAAAAC TCCCACTTCT CCAAAAACTC TTGTGAAATC GCACAGTTTG 
    GCACAGCCTC CTGAGTTTGA CAGTGGAGTT GAAACTTTCT CTATCCATGC AGAGAAGCCT 
    AAATATCAAA TAAATAATAT CAGCACAGTG CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT 
    GTGGAAGAGG ATGAAGATGA AGATGGTCAT ACTGTGGTGG CCACAGCCCG AGGCATATTT 
    AACAGCAATG GGGGCGTGCT GAGTTCCATA GAAACTGGTG TTAGTATAAT TATCCCTCAA 
    GGAGCCATTC CCGAAGGAGT TGAGCAGGAA ATCTATTTCA AGGTCTGCCG GGACAACAGC 
    ATCCTTCCAC CTTTAGATAA AGAGAAAGGT GAAACACTGC TGAGTCCTTT GGTGATGTGT 
    GGTCCCCATG GCCTCAAGTT CCTGAAGCCT GTGGAGCTGC GCTTACCACA CTGTGCGTCC 
    ATGACTCCTG ACGGTTGGTC TTTTGCTCTA AAATCATCCG ACTCCTCGTC GGGTGATCCT 
    AAAACCTGGC AAAACAAGTG TCTTCCCGGA GATCCAAATT ATCTCGTTGG AGCAAACTGT 
    GTTTCTGTCC TTATTGACCA CTTTTAA

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

    RefSeq NP_001341944.1
    CDS441..5507
    Translation

    Target ORF information:

    RefSeq Version NM_001355015.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tight junction protein 1 (TJP1), transcript variant 9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001355015.2

    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
    ATGTCCGCCA GAGCTGCGGC CGCCAAGAGC ACAGCAATGG AGGAAACAGC TATATGGGAA 
    CAACATACAG TGACGCTTCA CAGGGCTCCT GGATTTGGAT TTGGAATTGC AATATCTGGT 
    GGACGAGATA ATCCTCATTT TCAGAGTGGG GAAACGTCAA TAGTGATTTC AGATGTGCTG 
    AAAGGAGGAC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAACGGA 
    GTTTCAATGG ATAATGTTGA ACATGCTTTT GCTGTTCAGC AACTAAGGAA AAGTGGGAAA 
    AATGCAAAAA TTACAATTAG AAGGAAGAAG AAAGTTCAAA TACCAGTAAG TCGTCCTGAT 
    CCTGAACCAG TATCTGATAA TGAAGAAGAT AGTTATGATG AGGAAATACA TGATCCAAGA 
    AGTGGCCGGA GTGGTGTGGT TAACAGAAGG AGTGAGAAGA TTTGGCCGAG GGATAGAAGT 
    GCAAGTAGAG AGAGGAGCTT GTCCCCGCGG TCAGACAGGC GGTCAGTGGC TTCCAGCCAG 
    CCTGCTAAAC CTACTAAAGT CACACTGGTG AAATCCCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCAA GCCATATATT TGTTAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGCAATATTC AAGAAGGTGA TGTTGTATTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAGAC ATTGATAGAA AGGTCTAAAG GCAAATTAAA AATGGTAGTT 
    CAAAGAGATG AACGGGCTAC GCTATTGAAT GTCCCTGATC TTTCTGACAG CATCCACTCT 
    GCTAATGCCT CTGAGAGAGA CGACATTTCA GAAATTCAGT CACTGGCATC AGATCATTCT 
    GGTCGATCAC ACGATAGGCC TCCCCGCCGC AGCCGGTCAC GATCTCCTGA CCAGCGGTCA 
    GAGCCTTCTG ATCATTCCAG GCACTCGCCG CAGCAGCCAA GCAATGGCAG TCTCCGGAGT 
    AGAGATGAAG AGAGAATTTC TAAACCTGGG GCTGTCTCAA CTCCTGTAAA GCATGCTGAT 
    GATCACACAC CTAAAACAGT GGAAGAAGTT ACAGTTGAAA GAAATGAGAA ACAAACACCT 
    TCTCTTCCAG AACCAAAGCC TGTGTATGCC CAAGTTGGGC AACCAGATGT GGATTTACCT 
    GTCAGTCCAT CTGATGGTGT CCTACCTAAT TCAACTCATG AAGATGGGAT TCTTCGGCCC 
    AGCATGAAAT TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGGCT GGCTGGTGGA 
    AATGATGTTG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAGGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTA AACAACGTAG ATTTTACAAA TATCATAAGA 
    GAAGAAGCCG TCCTTTTCCT GCTTGACCTC CCTAAAGGAG AAGAAGTGAC CATATTGGCT 
    CAGAAGAAGA AGGATGTTTA TCGTCGCATT GTAGAATCAG ATGTAGGAGA TTCTTTCTAT 
    ATTAGAACCC ATTTTGAATA TGAAAAGGAA TCTCCCTATG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GTGTTGTGGA TACCTTGTAC AATGGAAAAC TGGGCTCTTG GCTTGCTATT 
    CGAATTGGTA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGCTAG CCAGTGTACA GTATACACTT CCAAAAACAG CAGGCGGAGA CCGTGCTGAC 
    TTCTGGAGAT TCAGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAT 
    TTGTCCGCTC AGCCTGTTCA AACAAAGTTT CCAGCTTATG AAAGAGTGGT TCTTCGAGAA 
    GCTGGATTTC TGAGGCCTGT AACCATTTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    CTGGCAAGAG AAGAACCAGA TATTTATCAA ATTGCAAAGA GTGAACCACG AGACGCTGGA 
    ACTGACCAAC GTAGCTCTGG CATTATTCGC CTGCATACAA TAAAGCAAAT CATAGATCAA 
    GACAAACATG CTTTATTAGA TGTAACACCA AATGCAGTTG ATCGTCTTAA CTATGCCCAG 
    TGGTATCCAA TTGTTGTATT TCTTAACCCT GATTCTAAGC AAGGAGTAAA AACAATGAGA 
    ATGAGGTTAT GTCCAGAATC TCGGAAAAGT GCCAGGAAGT TATACGAGCG ATCTCATAAA 
    CTTCGTAAAA ATAATCACCA TCTTTTTACA ACTACAATTA ACTTAAATTC AATGAATGAT 
    GGTTGGTATG GTGCGCTGAA AGAAGCAATT CAACAACAGC AAAACCAGCT GGTATGGGTT 
    TCCGAGGGAA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCTCCAGG TAGTGAATAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA CACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTTGG GACTCCACCG GAGTCTGCCA TTACACGGTC CTCTGAGCCT 
    GTAAGAGAGG ACTCCTCTGG AATGCATCAT GAAAACCAAA CATATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAACCAAT TCATAGAATA GACTCCCCTG GATTTAAGCC AGCCTCTCAA 
    CAGGTGTATA GAAAGGATCC ATATCCCGAG GAAATGATGA GGCAGAACCA TGTTTTGAAA 
    CAGCCAGCCG TTAGTCACCC AGGGCACAGG CCAGACAAAG AGCCTAATCT GACCTATGAA 
    CCCCAACTCC CATACGTAGA GAAACAAGCC AGCAGAGACC TCGAGCAGCC CACATACAGA 
    TACGAGTCCT CAAGCTATAC GGACCAGTTT TCTCGAAACT ATGAACATCG TCTGCGATAC 
    GAAGATCGCG TCCCCATGTA TGAAGAACAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CCATCTCGGC CACCTTTTGA TAATCAGCAC TCTCAAGACC TTGACTCCAG ACAGCATCCC 
    GAAGAGTCCT CAGAACGAGG GTACTTTCCA CGTTTTGAAG AGCCAGCCCC TCTGTCTTAC 
    GACAGCAGAC CACGTTACGA ACAGGCACCT AGAGCATCCG CCCTGCGGCA CGAAGAGCAG 
    CCAGCTCCTG GGTATGACAC ACATGGTAGA CTCAGACCGG AAGCCCAGCC CCACCCTTCA 
    GCAGGGCCCA AGCCTGCAGA GTCCAAGCAG TATTTTGAGC AATATTCACG CAGTTACGAG 
    CAAGTACCAC CCCAAGGATT TACCTCTAGA GCAGGTCATT TTGAGCCTCT CCATGGTGCT 
    GCAGCTGTCC CTCCGCTGAT ACCTTCATCT CAGCATAAGC CAGAAGCTCT GCCTTCAAAC 
    ACCAAACCAC TGCCTCCACC CCCAACTCAA ACCGAAGAAG AGGAAGATCC AGCAATGAAG 
    CCACAGTCTG TACTCACCAG AGTTAAGATG TTTGAAAACA AAAGATCTGC ATCCTTAGAG 
    ACCAAGAAGG ATGTAAATGA CACTGGCAGT TTTAAGCCTC CAGAAGTAGC ATCTAAACCT 
    TCAGGTGCTC CCATCATTGG TCCCAAACCC ACTTCTCAGA ATCAATTCAG TGAACATGAC 
    AAAACTCTGT ACAGGATCCC AGAACCTCAA AAACCTCAAC TGAAGCCACC TGAAGATATT 
    GTTCGGTCCA ATCATTATGA CCCTGAAGAA GATGAAGAAT ATTATCGAAA ACAGCTGTCA 
    TACTTTGACC GAAGAAGTTT TGAGAATAAG CCTCCTGCAC ACATTGCCGC CAGCCATCTC 
    TCCGAGCCTG CAAAGCCAGC GCATTCTCAG AATCAATCAA ATTTTTCTAG TTATTCTTCA 
    AAGGGAAAGC CTCCTGAAGC TGATGGTGTG GATAGATCAT TTGGCGAGAA ACGCTATGAA 
    CCCATCCAGG CCACTCCCCC TCCTCCTCCA TTGCCCTCGC AGTATGCCCA GCCATCTCAG 
    CCTGTCACCA GCGCGTCTCT CCACATACAT TCTAAGGGAG CACATGGTGA AGGTAATTCA 
    GTGTCATTGG ATTTTCAGAA TTCCTTAGTG TCCAAACCAG ACCCACCTCC ATCTCAGAAT 
    AAGCCAGCAA CTTTCAGACC ACCAAACCGA GAAGATACTG CTCAGGCAGC TTTCTATCCC 
    CAGAAAAGTT TTCCAGATAA AGCCCCAGTT AATGGAACTG AACAGACTCA GAAAACAGTC 
    ACTCCAGCAT ACAATCGATT CACACCAAAA CCATATACAA GTTCTGCCCG ACCATTTGAA 
    CGCAAGTTTG AAAGTCCTAA ATTCAATCAC AATCTTCTGC CAAGTGAAAC TGCACATAAA 
    CCTGACTTGT CTTCAAAAAC TCCCACTTCT CCAAAAACTC TTGTGAAATC GCACAGTTTG 
    GCACAGCCTC CTGAGTTTGA CAGTGGAGTT GAAACTTTCT CTATCCATGC AGAGAAGCCT 
    AAATATCAAA TAAATAATAT CAGCACAGTG CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT 
    GTGGAAGAGG ATGAAGATGA AGATGGTCAT ACTGTGGTGG CCACAGCCCG AGGCATATTT 
    AACAGCAATG GGGGCGTGCT GAGTTCCATA GAAACTGGTG TTAGTATAAT TATCCCTCAA 
    GGAGCCATTC CCGAAGGAGT TGAGCAGGAA ATCTATTTCA AGGTCTGCCG GGACAACAGC 
    ATCCTTCCAC CTTTAGATAA AGAGAAAGGT GAAACACTGC TGAGTCCTTT GGTGATGTGT 
    GGTCCCCATG GCCTCAAGTT CCTGAAGCCT GTGGAGCTGC GCTTACCACA CTGTGCGTCC 
    ATGACTCCTG ACGGTTGGTC TTTTGCTCTA AAATCATCCG ACTCCTCGTC GGGTGATCCT 
    AAAACCTGGC AAAACAAGTG TCTTCCCGGA GATCCAAATT ATCTCGTTGG AGCAAACTGT 
    GTTTCTGTCC TTATTGACCA CTTTTAA

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

    TJP1 ( XM_017022525.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016878014.1 Homo sapiens tight junction protein 1 (TJP1), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OHu85632
    Clone ID Related Accession (Same CDS sequence) XM_017022525.1
    Accession Version XM_017022525.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5370bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    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_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGGAGAGAA ATACGTTTTC AATGGATTGC CACAGTAAGA GCACAGCAAT GGAGGAAACA 
    GCTATATGGG AACAACATAC AGTGACGCTT CACAGGGCTC CTGGATTTGG ATTTGGAATT 
    GCAATATCTG GTGGACGAGA TAATCCTCAT TTTCAGAGTG GGGAAACGTC AATAGTGATT 
    TCAGATGTGC TGAAAGGAGG ACCAGCTGAA GGACAGCTAC AGGAAAATGA CCGAGTTGCA 
    ATGGTTAACG GAGTTTCAAT GGATAATGTT GAACATGCTT TTGCTGTTCA GCAACTAAGG 
    AAAAGTGGGA AAAATGCAAA AATTACAATT AGAAGGAAGA AGAAAGTTCA AATACCAGTA 
    AGTCGTCCTG ATCCTGAACC AGTATCTGAT AATGAAGAAG ATAGTTATGA TGAGGAAATA 
    CATGATCCAA GAAGTGGCCG GAGTGGTGTG GTTAACAGAA GGAGTGAGAA GATTTGGCCG 
    AGGGATAGAA GTGCAAGTAG AGAGAGGAGC TTGTCCCCGC GGTCAGACAG GCGGTCAGTG 
    GCTTCCAGCC AGCCTGCTAA ACCTACTAAA GTCACACTGG TGAAATCCCG GAAAAATGAA 
    GAATATGGTC TTCGATTGGC AAGCCATATA TTTGTTAAGG AAATTTCACA AGATAGTTTG 
    GCAGCAAGAG ATGGCAATAT TCAAGAAGGT GATGTTGTAT TGAAGATAAA TGGTACTGTG 
    ACAGAAAATA TGTCATTGAC AGATGCAAAG ACATTGATAG AAAGGTCTAA AGGCAAATTA 
    AAAATGGTAG TTCAAAGAGA TGAACGGGCT ACGCTATTGA ATGTCCCTGA TCTTTCTGAC 
    AGCATCCACT CTGCTAATGC CTCTGAGAGA GACGACATTT CAGAAATTCA GTCACTGGCA 
    TCAGATCATT CTGGTCGATC ACACGATAGG CCTCCCCGCC GCAGCCGGTC ACGATCTCCT 
    GACCAGCGGT CAGAGCCTTC TGATCATTCC AGGCACTCGC CGCAGCAGCC AAGCAATGGC 
    AGTCTCCGGA GTAGAGATGA AGAGAGAATT TCTAAACCTG GGGCTGTCTC AACTCCTGTA 
    AAGCATGCTG ATGATCACAC ACCTAAAACA GTGGAAGAAG TTACAGTTGA AAGAAATGAG 
    AAACAAACAC CTTCTCTTCC AGAACCAAAG CCTGTGTATG CCCAAGTTGG GCAACCAGAT 
    GTGGATTTAC CTGTCAGTCC ATCTGATGGT GTCCTACCTA ATTCAACTCA TGAAGATGGG 
    ATTCTTCGGC CCAGCATGAA ATTGGTAAAA TTCAGAAAAG GAGATAGTGT GGGTTTGCGG 
    CTGGCTGGTG GAAATGATGT TGGAATATTT GTAGCTGGCG TTCTAGAAGA TAGCCCTGCA 
    GCCAAGGAAG GCTTAGAGGA AGGTGATCAA ATTCTCAGGG TAAACAACGT AGATTTTACA 
    AATATCATAA GAGAAGAAGC CGTCCTTTTC CTGCTTGACC TCCCTAAAGG AGAAGAAGTG 
    ACCATATTGG CTCAGAAGAA GAAGGATGTT TATCGTCGCA TTGTAGAATC AGATGTAGGA 
    GATTCTTTCT ATATTAGAAC CCATTTTGAA TATGAAAAGG AATCTCCCTA TGGACTTAGT 
    TTTAACAAAG GAGAGGTGTT CCGTGTTGTG GATACCTTGT ACAATGGAAA ACTGGGCTCT 
    TGGCTTGCTA TTCGAATTGG TAAAAATCAT AAGGAGGTAG AACGAGGCAT CATCCCTAAT 
    AAGAACAGAG CTGAGCAGCT AGCCAGTGTA CAGTATACAC TTCCAAAAAC AGCAGGCGGA 
    GACCGTGCTG ACTTCTGGAG ATTCAGAGGT CTTCGCAGCT CCAAGAGAAA TCTTCGAAAA 
    AGCAGAGAGG ATTTGTCCGC TCAGCCTGTT CAAACAAAGT TTCCAGCTTA TGAAAGAGTG 
    GTTCTTCGAG AAGCTGGATT TCTGAGGCCT GTAACCATTT TTGGACCAAT AGCTGATGTT 
    GCCAGAGAAA AGCTGGCAAG AGAAGAACCA GATATTTATC AAATTGCAAA GAGTGAACCA 
    CGAGACGCTG GAACTGACCA ACGTAGCTCT GGCATTATTC GCCTGCATAC AATAAAGCAA 
    ATCATAGATC AAGACAAACA TGCTTTATTA GATGTAACAC CAAATGCAGT TGATCGTCTT 
    AACTATGCCC AGTGGTATCC AATTGTTGTA TTTCTTAACC CTGATTCTAA GCAAGGAGTA 
    AAAACAATGA GAATGAGGTT ATGTCCAGAA TCTCGGAAAA GTGCCAGGAA GTTATACGAG 
    CGATCTCATA AACTTCGTAA AAATAATCAC CATCTTTTTA CAACTACAAT TAACTTAAAT 
    TCAATGAATG ATGGTTGGTA TGGTGCGCTG AAAGAAGCAA TTCAACAACA GCAAAACCAG 
    CTGGTATGGG TTTCCGAGGG AAAGGCGGAT GGTGCTACAA GTGATGACCT TGATTTGCAT 
    GATGATCGTC TGTCCTACCT GTCAGCTCCA GGTAGTGAAT ACTCAATGTA TAGCACGGAC 
    AGTAGACACA CTTCTGACTA TGAAGACACA GACACAGAAG GCGGGGCCTA CACTGATCAA 
    GAACTAGATG AAACTCTTAA TGATGAGGTT GGGACTCCAC CGGAGTCTGC CATTACACGG 
    TCCTCTGAGC CTGTAAGAGA GGACTCCTCT GGAATGCATC ATGAAAACCA AACATATCCT 
    CCTTACTCAC CACAAGCGCA GCCACAACCA ATTCATAGAA TAGACTCCCC TGGATTTAAG 
    CCAGCCTCTC AACAGAAAGC AGAAGCTTCA TCTCCAGTCC CTTACCTTTC GCCTGAAACA 
    AACCCAGCAT CATCAACCTC TGCTGTTAAT CATAATGTAA ATTTAACTAA TGTCAGACTG 
    GAGGAGCCCA CCCCAGCTCC TTCCACCTCT TACTCACCAC AAGCTGATTC TTTAAGAACA 
    CCAAGTACTG AGGCAGCTCA CATAATGCTA AGAGATCAAG AACCATCATT GTCGTCGCAT 
    GTAGATCCAA CAAAGGTGTA TAGAAAGGAT CCATATCCCG AGGAAATGAT GAGGCAGAAC 
    CATGTTTTGA AACAGCCAGC CGTTAGTCAC CCAGGGCACA GGCCAGACAA AGAGCCTAAT 
    CTGACCTATG AACCCCAACT CCCATACGTA GAGAAACAAG CCAGCAGAGA CCTCGAGCAG 
    CCCACATACA GATACGAGTC CTCAAGCTAT ACGGACCAGT TTTCTCGAAA CTATGAACAT 
    CGTCTGCGAT ACGAAGATCG CGTCCCCATG TATGAAGAAC AGTGGTCATA TTATGATGAC 
    AAACAGCCCT ACCCATCTCG GCCACCTTTT GATAATCAGC ACTCTCAAGA CCTTGACTCC 
    AGACAGCATC CCGAAGAGTC CTCAGAACGA GGGTACTTTC CACGTTTTGA AGAGCCAGCC 
    CCTCTGTCTT ACGACAGCAG ACCACGTTAC GAACAGGCAC CTAGAGCATC CGCCCTGCGG 
    CACGAAGAGC AGCCAGCTCC TGGGTATGAC ACACATGGTA GACTCAGACC GGAAGCCCAG 
    CCCCACCCTT CAGCAGGGCC CAAGCCTGCA GAGTCCAAGC AGTATTTTGA GCAATATTCA 
    CGCAGTTACG AGCAAGTACC ACCCCAAGGA TTTACCTCTA GAGCAGGTCA TTTTGAGCCT 
    CTCCATGGTG CTGCAGCTGT CCCTCCGCTG ATACCTTCAT CTCAGCATAA GCCAGAAGCT 
    CTGCCTTCAA ACACCAAACC ACTGCCTCCA CCCCCAACTC AAACCGAAGA AGAGGAAGAT 
    CCAGCAATGA AGCCACAGTC TGTACTCACC AGAGTTAAGA TGTTTGAAAA CAAAAGATCT 
    GCATCCTTAG AGACCAAGAA GGATGTAAAT GACACTGGCA GTTTTAAGCC TCCAGAAGTA 
    GCATCTAAAC CTTCAGGTGC TCCCATCATT GGTCCCAAAC CCACTTCTCA GAATCAATTC 
    AGTGAACATG ACAAAACTCT GTACAGGATC CCAGAACCTC AAAAACCTCA ACTGAAGCCA 
    CCTGAAGATA TTGTTCGGTC CAATCATTAT GACCCTGAAG AAGATGAAGA ATATTATCGA 
    AAACAGCTGT CATACTTTGA CCGAAGAAGT TTTGAGAATA AGCCTCCTGC ACACATTGCC 
    GCCAGCCATC TCTCCGAGCC TGCAAAGCCA GCGCATTCTC AGAATCAATC AAATTTTTCT 
    AGTTATTCTT CAAAATTTCT TGGCTCTTAC ACTAGCTATG ACTACTTGAA AAGGAACGTC 
    AAGTGGGGAA AGCCTCCTGA AGCTGATGGT GTGGATAGAT CATTTGGCGA GAAACGCTAT 
    GAACCCATCC AGGCCACTCC CCCTCCTCCT CCATTGCCCT CGCAGTATGC CCAGCCATCT 
    CAGCCTGTCA CCAGCGCGTC TCTCCACATA CATTCTAAGG GAGCACATGG TGAAGGTAAT 
    TCAGTGTCAT TGGATTTTCA GAATTCCTTA GTGTCCAAAC CAGACCCACC TCCATCTCAG 
    AATAAGCCAG CAACTTTCAG ACCACCAAAC CGAGAAGATA CTGCTCAGGC AGCTTTCTAT 
    CCCCAGAAAA GTTTTCCAGA TAAAGCCCCA GTTAATGGAA CTGAACAGAC TCAGAAAACA 
    GTCACTCCAG CATACAATCG ATTCACACCA AAACCATATA CAAGTTCTGC CCGACCATTT 
    GAACGCAAGT TTGAAAGTCC TAAATTCAAT CACAATCTTC TGCCAAGTGA AACTGCACAT 
    AAACCTGACT TGTCTTCAAA AACTCCCACT TCTCCAAAAA CTCTTGTGAA ATCGCACAGT 
    TTGGCACAGC CTCCTGAGTT TGACAGTGGA GTTGAAACTT TCTCTATCCA TGCAGAGAAG 
    CCTAAATATC AAATAAATAA TATCAGCACA GTGCCTAAAG CTATTCCTGT GAGTCCTTCA 
    GCTGTGGAAG AGGATGAAGA TGAAGATGGT CATACTGTGG TGGCCACAGC CCGAGGCATA 
    TTTAACAGCA ATGGGGGCGT GCTGAGTTCC ATAGAAACTG GTGTTAGTAT AATTATCCCT 
    CAAGGAGCCA TTCCCGAAGG AGTTGAGCAG GAAATCTATT TCAAGGTCTG CCGGGACAAC 
    AGCATCCTTC CACCTTTAGA TAAAGAGAAA GGTGAAACAC TGCTGAGTCC TTTGGTGATG 
    TGTGGTCCCC ATGGCCTCAA GTTCCTGAAG CCTGTGGAGC TGCGCTTACC ACACTGTGCG 
    TCCATGACTC CTGACGGTTG GTCTTTTGCT CTAAAATCAT CCGACTCCTC GTCGGGTGAT 
    CCTAAAACCT GGCAAAACAA GTGTCTTCCC GGAGATCCAA ATTATCTCGT TGGAGCAAAC 
    TGTGTTTCTG TCCTTATTGA CCACTTTTAA

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

    RefSeq XP_016878014.1
    CDS110..5479
    Translation

    Target ORF information:

    RefSeq Version XM_017022525.1
    Organism Homo sapiens(human)
    Definition Homo sapiens 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_017022525.1

    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
    ATGGAGAGAA ATACGTTTTC AATGGATTGC CACAGTAAGA GCACAGCAAT GGAGGAAACA 
    GCTATATGGG AACAACATAC AGTGACGCTT CACAGGGCTC CTGGATTTGG ATTTGGAATT 
    GCAATATCTG GTGGACGAGA TAATCCTCAT TTTCAGAGTG GGGAAACGTC AATAGTGATT 
    TCAGATGTGC TGAAAGGAGG ACCAGCTGAA GGACAGCTAC AGGAAAATGA CCGAGTTGCA 
    ATGGTTAACG GAGTTTCAAT GGATAATGTT GAACATGCTT TTGCTGTTCA GCAACTAAGG 
    AAAAGTGGGA AAAATGCAAA AATTACAATT AGAAGGAAGA AGAAAGTTCA AATACCAGTA 
    AGTCGTCCTG ATCCTGAACC AGTATCTGAT AATGAAGAAG ATAGTTATGA TGAGGAAATA 
    CATGATCCAA GAAGTGGCCG GAGTGGTGTG GTTAACAGAA GGAGTGAGAA GATTTGGCCG 
    AGGGATAGAA GTGCAAGTAG AGAGAGGAGC TTGTCCCCGC GGTCAGACAG GCGGTCAGTG 
    GCTTCCAGCC AGCCTGCTAA ACCTACTAAA GTCACACTGG TGAAATCCCG GAAAAATGAA 
    GAATATGGTC TTCGATTGGC AAGCCATATA TTTGTTAAGG AAATTTCACA AGATAGTTTG 
    GCAGCAAGAG ATGGCAATAT TCAAGAAGGT GATGTTGTAT TGAAGATAAA TGGTACTGTG 
    ACAGAAAATA TGTCATTGAC AGATGCAAAG ACATTGATAG AAAGGTCTAA AGGCAAATTA 
    AAAATGGTAG TTCAAAGAGA TGAACGGGCT ACGCTATTGA ATGTCCCTGA TCTTTCTGAC 
    AGCATCCACT CTGCTAATGC CTCTGAGAGA GACGACATTT CAGAAATTCA GTCACTGGCA 
    TCAGATCATT CTGGTCGATC ACACGATAGG CCTCCCCGCC GCAGCCGGTC ACGATCTCCT 
    GACCAGCGGT CAGAGCCTTC TGATCATTCC AGGCACTCGC CGCAGCAGCC AAGCAATGGC 
    AGTCTCCGGA GTAGAGATGA AGAGAGAATT TCTAAACCTG GGGCTGTCTC AACTCCTGTA 
    AAGCATGCTG ATGATCACAC ACCTAAAACA GTGGAAGAAG TTACAGTTGA AAGAAATGAG 
    AAACAAACAC CTTCTCTTCC AGAACCAAAG CCTGTGTATG CCCAAGTTGG GCAACCAGAT 
    GTGGATTTAC CTGTCAGTCC ATCTGATGGT GTCCTACCTA ATTCAACTCA TGAAGATGGG 
    ATTCTTCGGC CCAGCATGAA ATTGGTAAAA TTCAGAAAAG GAGATAGTGT GGGTTTGCGG 
    CTGGCTGGTG GAAATGATGT TGGAATATTT GTAGCTGGCG TTCTAGAAGA TAGCCCTGCA 
    GCCAAGGAAG GCTTAGAGGA AGGTGATCAA ATTCTCAGGG TAAACAACGT AGATTTTACA 
    AATATCATAA GAGAAGAAGC CGTCCTTTTC CTGCTTGACC TCCCTAAAGG AGAAGAAGTG 
    ACCATATTGG CTCAGAAGAA GAAGGATGTT TATCGTCGCA TTGTAGAATC AGATGTAGGA 
    GATTCTTTCT ATATTAGAAC CCATTTTGAA TATGAAAAGG AATCTCCCTA TGGACTTAGT 
    TTTAACAAAG GAGAGGTGTT CCGTGTTGTG GATACCTTGT ACAATGGAAA ACTGGGCTCT 
    TGGCTTGCTA TTCGAATTGG TAAAAATCAT AAGGAGGTAG AACGAGGCAT CATCCCTAAT 
    AAGAACAGAG CTGAGCAGCT AGCCAGTGTA CAGTATACAC TTCCAAAAAC AGCAGGCGGA 
    GACCGTGCTG ACTTCTGGAG ATTCAGAGGT CTTCGCAGCT CCAAGAGAAA TCTTCGAAAA 
    AGCAGAGAGG ATTTGTCCGC TCAGCCTGTT CAAACAAAGT TTCCAGCTTA TGAAAGAGTG 
    GTTCTTCGAG AAGCTGGATT TCTGAGGCCT GTAACCATTT TTGGACCAAT AGCTGATGTT 
    GCCAGAGAAA AGCTGGCAAG AGAAGAACCA GATATTTATC AAATTGCAAA GAGTGAACCA 
    CGAGACGCTG GAACTGACCA ACGTAGCTCT GGCATTATTC GCCTGCATAC AATAAAGCAA 
    ATCATAGATC AAGACAAACA TGCTTTATTA GATGTAACAC CAAATGCAGT TGATCGTCTT 
    AACTATGCCC AGTGGTATCC AATTGTTGTA TTTCTTAACC CTGATTCTAA GCAAGGAGTA 
    AAAACAATGA GAATGAGGTT ATGTCCAGAA TCTCGGAAAA GTGCCAGGAA GTTATACGAG 
    CGATCTCATA AACTTCGTAA AAATAATCAC CATCTTTTTA CAACTACAAT TAACTTAAAT 
    TCAATGAATG ATGGTTGGTA TGGTGCGCTG AAAGAAGCAA TTCAACAACA GCAAAACCAG 
    CTGGTATGGG TTTCCGAGGG AAAGGCGGAT GGTGCTACAA GTGATGACCT TGATTTGCAT 
    GATGATCGTC TGTCCTACCT GTCAGCTCCA GGTAGTGAAT ACTCAATGTA TAGCACGGAC 
    AGTAGACACA CTTCTGACTA TGAAGACACA GACACAGAAG GCGGGGCCTA CACTGATCAA 
    GAACTAGATG AAACTCTTAA TGATGAGGTT GGGACTCCAC CGGAGTCTGC CATTACACGG 
    TCCTCTGAGC CTGTAAGAGA GGACTCCTCT GGAATGCATC ATGAAAACCA AACATATCCT 
    CCTTACTCAC CACAAGCGCA GCCACAACCA ATTCATAGAA TAGACTCCCC TGGATTTAAG 
    CCAGCCTCTC AACAGAAAGC AGAAGCTTCA TCTCCAGTCC CTTACCTTTC GCCTGAAACA 
    AACCCAGCAT CATCAACCTC TGCTGTTAAT CATAATGTAA ATTTAACTAA TGTCAGACTG 
    GAGGAGCCCA CCCCAGCTCC TTCCACCTCT TACTCACCAC AAGCTGATTC TTTAAGAACA 
    CCAAGTACTG AGGCAGCTCA CATAATGCTA AGAGATCAAG AACCATCATT GTCGTCGCAT 
    GTAGATCCAA CAAAGGTGTA TAGAAAGGAT CCATATCCCG AGGAAATGAT GAGGCAGAAC 
    CATGTTTTGA AACAGCCAGC CGTTAGTCAC CCAGGGCACA GGCCAGACAA AGAGCCTAAT 
    CTGACCTATG AACCCCAACT CCCATACGTA GAGAAACAAG CCAGCAGAGA CCTCGAGCAG 
    CCCACATACA GATACGAGTC CTCAAGCTAT ACGGACCAGT TTTCTCGAAA CTATGAACAT 
    CGTCTGCGAT ACGAAGATCG CGTCCCCATG TATGAAGAAC AGTGGTCATA TTATGATGAC 
    AAACAGCCCT ACCCATCTCG GCCACCTTTT GATAATCAGC ACTCTCAAGA CCTTGACTCC 
    AGACAGCATC CCGAAGAGTC CTCAGAACGA GGGTACTTTC CACGTTTTGA AGAGCCAGCC 
    CCTCTGTCTT ACGACAGCAG ACCACGTTAC GAACAGGCAC CTAGAGCATC CGCCCTGCGG 
    CACGAAGAGC AGCCAGCTCC TGGGTATGAC ACACATGGTA GACTCAGACC GGAAGCCCAG 
    CCCCACCCTT CAGCAGGGCC CAAGCCTGCA GAGTCCAAGC AGTATTTTGA GCAATATTCA 
    CGCAGTTACG AGCAAGTACC ACCCCAAGGA TTTACCTCTA GAGCAGGTCA TTTTGAGCCT 
    CTCCATGGTG CTGCAGCTGT CCCTCCGCTG ATACCTTCAT CTCAGCATAA GCCAGAAGCT 
    CTGCCTTCAA ACACCAAACC ACTGCCTCCA CCCCCAACTC AAACCGAAGA AGAGGAAGAT 
    CCAGCAATGA AGCCACAGTC TGTACTCACC AGAGTTAAGA TGTTTGAAAA CAAAAGATCT 
    GCATCCTTAG AGACCAAGAA GGATGTAAAT GACACTGGCA GTTTTAAGCC TCCAGAAGTA 
    GCATCTAAAC CTTCAGGTGC TCCCATCATT GGTCCCAAAC CCACTTCTCA GAATCAATTC 
    AGTGAACATG ACAAAACTCT GTACAGGATC CCAGAACCTC AAAAACCTCA ACTGAAGCCA 
    CCTGAAGATA TTGTTCGGTC CAATCATTAT GACCCTGAAG AAGATGAAGA ATATTATCGA 
    AAACAGCTGT CATACTTTGA CCGAAGAAGT TTTGAGAATA AGCCTCCTGC ACACATTGCC 
    GCCAGCCATC TCTCCGAGCC TGCAAAGCCA GCGCATTCTC AGAATCAATC AAATTTTTCT 
    AGTTATTCTT CAAAATTTCT TGGCTCTTAC ACTAGCTATG ACTACTTGAA AAGGAACGTC 
    AAGTGGGGAA AGCCTCCTGA AGCTGATGGT GTGGATAGAT CATTTGGCGA GAAACGCTAT 
    GAACCCATCC AGGCCACTCC CCCTCCTCCT CCATTGCCCT CGCAGTATGC CCAGCCATCT 
    CAGCCTGTCA CCAGCGCGTC TCTCCACATA CATTCTAAGG GAGCACATGG TGAAGGTAAT 
    TCAGTGTCAT TGGATTTTCA GAATTCCTTA GTGTCCAAAC CAGACCCACC TCCATCTCAG 
    AATAAGCCAG CAACTTTCAG ACCACCAAAC CGAGAAGATA CTGCTCAGGC AGCTTTCTAT 
    CCCCAGAAAA GTTTTCCAGA TAAAGCCCCA GTTAATGGAA CTGAACAGAC TCAGAAAACA 
    GTCACTCCAG CATACAATCG ATTCACACCA AAACCATATA CAAGTTCTGC CCGACCATTT 
    GAACGCAAGT TTGAAAGTCC TAAATTCAAT CACAATCTTC TGCCAAGTGA AACTGCACAT 
    AAACCTGACT TGTCTTCAAA AACTCCCACT TCTCCAAAAA CTCTTGTGAA ATCGCACAGT 
    TTGGCACAGC CTCCTGAGTT TGACAGTGGA GTTGAAACTT TCTCTATCCA TGCAGAGAAG 
    CCTAAATATC AAATAAATAA TATCAGCACA GTGCCTAAAG CTATTCCTGT GAGTCCTTCA 
    GCTGTGGAAG AGGATGAAGA TGAAGATGGT CATACTGTGG TGGCCACAGC CCGAGGCATA 
    TTTAACAGCA ATGGGGGCGT GCTGAGTTCC ATAGAAACTG GTGTTAGTAT AATTATCCCT 
    CAAGGAGCCA TTCCCGAAGG AGTTGAGCAG GAAATCTATT TCAAGGTCTG CCGGGACAAC 
    AGCATCCTTC CACCTTTAGA TAAAGAGAAA GGTGAAACAC TGCTGAGTCC TTTGGTGATG 
    TGTGGTCCCC ATGGCCTCAA GTTCCTGAAG CCTGTGGAGC TGCGCTTACC ACACTGTGCG 
    TCCATGACTC CTGACGGTTG GTCTTTTGCT CTAAAATCAT CCGACTCCTC GTCGGGTGAT 
    CCTAAAACCT GGCAAAACAA GTGTCTTCCC GGAGATCCAA ATTATCTCGT TGGAGCAAAC 
    TGTGTTTCTG TCCTTATTGA CCACTTTTAA

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

    TJP1 ( XM_017022526.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016878015.1 Homo sapiens tight junction protein 1 (TJP1), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OHu85633
    Clone ID Related Accession (Same CDS sequence) XM_017022526.1
    Accession Version XM_017022526.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5358bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    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_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGTCCGCCA GAGCTGCGGC CGCCAAGAGC ACAGCAATGG AGGAAACAGC TATATGGGAA 
    CAACATACAG TGACGCTTCA CAGGGCTCCT GGATTTGGAT TTGGAATTGC AATATCTGGT 
    GGACGAGATA ATCCTCATTT TCAGAGTGGG GAAACGTCAA TAGTGATTTC AGATGTGCTG 
    AAAGGAGGAC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAACGGA 
    GTTTCAATGG ATAATGTTGA ACATGCTTTT GCTGTTCAGC AACTAAGGAA AAGTGGGAAA 
    AATGCAAAAA TTACAATTAG AAGGAAGAAG AAAGTTCAAA TACCAGTAAG TCGTCCTGAT 
    CCTGAACCAG TATCTGATAA TGAAGAAGAT AGTTATGATG AGGAAATACA TGATCCAAGA 
    AGTGGCCGGA GTGGTGTGGT TAACAGAAGG AGTGAGAAGA TTTGGCCGAG GGATAGAAGT 
    GCAAGTAGAG AGAGGAGCTT GTCCCCGCGG TCAGACAGGC GGTCAGTGGC TTCCAGCCAG 
    CCTGCTAAAC CTACTAAAGT CACACTGGTG AAATCCCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCAA GCCATATATT TGTTAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGCAATATTC AAGAAGGTGA TGTTGTATTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAGAC ATTGATAGAA AGGTCTAAAG GCAAATTAAA AATGGTAGTT 
    CAAAGAGATG AACGGGCTAC GCTATTGAAT GTCCCTGATC TTTCTGACAG CATCCACTCT 
    GCTAATGCCT CTGAGAGAGA CGACATTTCA GAAATTCAGT CACTGGCATC AGATCATTCT 
    GGTCGATCAC ACGATAGGCC TCCCCGCCGC AGCCGGTCAC GATCTCCTGA CCAGCGGTCA 
    GAGCCTTCTG ATCATTCCAG GCACTCGCCG CAGCAGCCAA GCAATGGCAG TCTCCGGAGT 
    AGAGATGAAG AGAGAATTTC TAAACCTGGG GCTGTCTCAA CTCCTGTAAA GCATGCTGAT 
    GATCACACAC CTAAAACAGT GGAAGAAGTT ACAGTTGAAA GAAATGAGAA ACAAACACCT 
    TCTCTTCCAG AACCAAAGCC TGTGTATGCC CAAGTTGGGC AACCAGATGT GGATTTACCT 
    GTCAGTCCAT CTGATGGTGT CCTACCTAAT TCAACTCATG AAGATGGGAT TCTTCGGCCC 
    AGCATGAAAT TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGGCT GGCTGGTGGA 
    AATGATGTTG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAGGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTA AACAACGTAG ATTTTACAAA TATCATAAGA 
    GAAGAAGCCG TCCTTTTCCT GCTTGACCTC CCTAAAGGAG AAGAAGTGAC CATATTGGCT 
    CAGAAGAAGA AGGATGTTTA TCGTCGCATT GTAGAATCAG ATGTAGGAGA TTCTTTCTAT 
    ATTAGAACCC ATTTTGAATA TGAAAAGGAA TCTCCCTATG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GTGTTGTGGA TACCTTGTAC AATGGAAAAC TGGGCTCTTG GCTTGCTATT 
    CGAATTGGTA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGCTAG CCAGTGTACA GTATACACTT CCAAAAACAG CAGGCGGAGA CCGTGCTGAC 
    TTCTGGAGAT TCAGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAT 
    TTGTCCGCTC AGCCTGTTCA AACAAAGTTT CCAGCTTATG AAAGAGTGGT TCTTCGAGAA 
    GCTGGATTTC TGAGGCCTGT AACCATTTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    CTGGCAAGAG AAGAACCAGA TATTTATCAA ATTGCAAAGA GTGAACCACG AGACGCTGGA 
    ACTGACCAAC GTAGCTCTGG CATTATTCGC CTGCATACAA TAAAGCAAAT CATAGATCAA 
    GACAAACATG CTTTATTAGA TGTAACACCA AATGCAGTTG ATCGTCTTAA CTATGCCCAG 
    TGGTATCCAA TTGTTGTATT TCTTAACCCT GATTCTAAGC AAGGAGTAAA AACAATGAGA 
    ATGAGGTTAT GTCCAGAATC TCGGAAAAGT GCCAGGAAGT TATACGAGCG ATCTCATAAA 
    CTTCGTAAAA ATAATCACCA TCTTTTTACA ACTACAATTA ACTTAAATTC AATGAATGAT 
    GGTTGGTATG GTGCGCTGAA AGAAGCAATT CAACAACAGC AAAACCAGCT GGTATGGGTT 
    TCCGAGGGAA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCTCCAGG TAGTGAATAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA CACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTTGG GACTCCACCG GAGTCTGCCA TTACACGGTC CTCTGAGCCT 
    GTAAGAGAGG ACTCCTCTGG AATGCATCAT GAAAACCAAA CATATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAACCAAT TCATAGAATA GACTCCCCTG GATTTAAGCC AGCCTCTCAA 
    CAGAAAGCAG AAGCTTCATC TCCAGTCCCT TACCTTTCGC CTGAAACAAA CCCAGCATCA 
    TCAACCTCTG CTGTTAATCA TAATGTAAAT TTAACTAATG TCAGACTGGA GGAGCCCACC 
    CCAGCTCCTT CCACCTCTTA CTCACCACAA GCTGATTCTT TAAGAACACC AAGTACTGAG 
    GCAGCTCACA TAATGCTAAG AGATCAAGAA CCATCATTGT CGTCGCATGT AGATCCAACA 
    AAGGTGTATA GAAAGGATCC ATATCCCGAG GAAATGATGA GGCAGAACCA TGTTTTGAAA 
    CAGCCAGCCG TTAGTCACCC AGGGCACAGG CCAGACAAAG AGCCTAATCT GACCTATGAA 
    CCCCAACTCC CATACGTAGA GAAACAAGCC AGCAGAGACC TCGAGCAGCC CACATACAGA 
    TACGAGTCCT CAAGCTATAC GGACCAGTTT TCTCGAAACT ATGAACATCG TCTGCGATAC 
    GAAGATCGCG TCCCCATGTA TGAAGAACAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CCATCTCGGC CACCTTTTGA TAATCAGCAC TCTCAAGACC TTGACTCCAG ACAGCATCCC 
    GAAGAGTCCT CAGAACGAGG GTACTTTCCA CGTTTTGAAG AGCCAGCCCC TCTGTCTTAC 
    GACAGCAGAC CACGTTACGA ACAGGCACCT AGAGCATCCG CCCTGCGGCA CGAAGAGCAG 
    CCAGCTCCTG GGTATGACAC ACATGGTAGA CTCAGACCGG AAGCCCAGCC CCACCCTTCA 
    GCAGGGCCCA AGCCTGCAGA GTCCAAGCAG TATTTTGAGC AATATTCACG CAGTTACGAG 
    CAAGTACCAC CCCAAGGATT TACCTCTAGA GCAGGTCATT TTGAGCCTCT CCATGGTGCT 
    GCAGCTGTCC CTCCGCTGAT ACCTTCATCT CAGCATAAGC CAGAAGCTCT GCCTTCAAAC 
    ACCAAACCAC TGCCTCCACC CCCAACTCAA ACCGAAGAAG AGGAAGATCC AGCAATGAAG 
    CCACAGTCTG TACTCACCAG AGTTAAGATG TTTGAAAACA AAAGATCTGC ATCCTTAGAG 
    ACCAAGAAGG ATGTAAATGA CACTGGCAGT TTTAAGCCTC CAGAAGTAGC ATCTAAACCT 
    TCAGGTGCTC CCATCATTGG TCCCAAACCC ACTTCTCAGA ATCAATTCAG TGAACATGAC 
    AAAACTCTGT ACAGGATCCC AGAACCTCAA AAACCTCAAC TGAAGCCACC TGAAGATATT 
    GTTCGGTCCA ATCATTATGA CCCTGAAGAA GATGAAGAAT ATTATCGAAA ACAGCTGTCA 
    TACTTTGACC GAAGAAGTTT TGAGAATAAG CCTCCTGCAC ACATTGCCGC CAGCCATCTC 
    TCCGAGCCTG CAAAGCCAGC GCATTCTCAG AATCAATCAA ATTTTTCTAG TTATTCTTCA 
    AAATTTCTTG GCTCTTACAC TAGCTATGAC TACTTGAAAA GGAACGTCAA GTGGGGAAAG 
    CCTCCTGAAG CTGATGGTGT GGATAGATCA TTTGGCGAGA AACGCTATGA ACCCATCCAG 
    GCCACTCCCC CTCCTCCTCC ATTGCCCTCG CAGTATGCCC AGCCATCTCA GCCTGTCACC 
    AGCGCGTCTC TCCACATACA TTCTAAGGGA GCACATGGTG AAGGTAATTC AGTGTCATTG 
    GATTTTCAGA ATTCCTTAGT GTCCAAACCA GACCCACCTC CATCTCAGAA TAAGCCAGCA 
    ACTTTCAGAC CACCAAACCG AGAAGATACT GCTCAGGCAG CTTTCTATCC CCAGAAAAGT 
    TTTCCAGATA AAGCCCCAGT TAATGGAACT GAACAGACTC AGAAAACAGT CACTCCAGCA 
    TACAATCGAT TCACACCAAA ACCATATACA AGTTCTGCCC GACCATTTGA ACGCAAGTTT 
    GAAAGTCCTA AATTCAATCA CAATCTTCTG CCAAGTGAAA CTGCACATAA ACCTGACTTG 
    TCTTCAAAAA CTCCCACTTC TCCAAAAACT CTTGTGAAAT CGCACAGTTT GGCACAGCCT 
    CCTGAGTTTG ACAGTGGAGT TGAAACTTTC TCTATCCATG CAGAGAAGCC TAAATATCAA 
    ATAAATAATA TCAGCACAGT GCCTAAAGCT ATTCCTGTGA GTCCTTCAGC TGTGGAAGAG 
    GATGAAGATG AAGATGGTCA TACTGTGGTG GCCACAGCCC GAGGCATATT TAACAGCAAT 
    GGGGGCGTGC TGAGTTCCAT AGAAACTGGT GTTAGTATAA TTATCCCTCA AGGAGCCATT 
    CCCGAAGGAG TTGAGCAGGA AATCTATTTC AAGGTCTGCC GGGACAACAG CATCCTTCCA 
    CCTTTAGATA AAGAGAAAGG TGAAACACTG CTGAGTCCTT TGGTGATGTG TGGTCCCCAT 
    GGCCTCAAGT TCCTGAAGCC TGTGGAGCTG CGCTTACCAC ACTGTGCGTC CATGACTCCT 
    GACGGTTGGT CTTTTGCTCT AAAATCATCC GACTCCTCGT CGGGTGATCC TAAAACCTGG 
    CAAAACAAGT GTCTTCCCGG AGATCCAAAT TATCTCGTTG GAGCAAACTG TGTTTCTGTC 
    CTTATTGACC ACTTTTAA

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

    RefSeq XP_016878015.1
    CDS107..5464
    Translation

    Target ORF information:

    RefSeq Version XM_017022526.1
    Organism Homo sapiens(human)
    Definition Homo sapiens 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_017022526.1

    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
    ATGTCCGCCA GAGCTGCGGC CGCCAAGAGC ACAGCAATGG AGGAAACAGC TATATGGGAA 
    CAACATACAG TGACGCTTCA CAGGGCTCCT GGATTTGGAT TTGGAATTGC AATATCTGGT 
    GGACGAGATA ATCCTCATTT TCAGAGTGGG GAAACGTCAA TAGTGATTTC AGATGTGCTG 
    AAAGGAGGAC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAACGGA 
    GTTTCAATGG ATAATGTTGA ACATGCTTTT GCTGTTCAGC AACTAAGGAA AAGTGGGAAA 
    AATGCAAAAA TTACAATTAG AAGGAAGAAG AAAGTTCAAA TACCAGTAAG TCGTCCTGAT 
    CCTGAACCAG TATCTGATAA TGAAGAAGAT AGTTATGATG AGGAAATACA TGATCCAAGA 
    AGTGGCCGGA GTGGTGTGGT TAACAGAAGG AGTGAGAAGA TTTGGCCGAG GGATAGAAGT 
    GCAAGTAGAG AGAGGAGCTT GTCCCCGCGG TCAGACAGGC GGTCAGTGGC TTCCAGCCAG 
    CCTGCTAAAC CTACTAAAGT CACACTGGTG AAATCCCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCAA GCCATATATT TGTTAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGCAATATTC AAGAAGGTGA TGTTGTATTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAGAC ATTGATAGAA AGGTCTAAAG GCAAATTAAA AATGGTAGTT 
    CAAAGAGATG AACGGGCTAC GCTATTGAAT GTCCCTGATC TTTCTGACAG CATCCACTCT 
    GCTAATGCCT CTGAGAGAGA CGACATTTCA GAAATTCAGT CACTGGCATC AGATCATTCT 
    GGTCGATCAC ACGATAGGCC TCCCCGCCGC AGCCGGTCAC GATCTCCTGA CCAGCGGTCA 
    GAGCCTTCTG ATCATTCCAG GCACTCGCCG CAGCAGCCAA GCAATGGCAG TCTCCGGAGT 
    AGAGATGAAG AGAGAATTTC TAAACCTGGG GCTGTCTCAA CTCCTGTAAA GCATGCTGAT 
    GATCACACAC CTAAAACAGT GGAAGAAGTT ACAGTTGAAA GAAATGAGAA ACAAACACCT 
    TCTCTTCCAG AACCAAAGCC TGTGTATGCC CAAGTTGGGC AACCAGATGT GGATTTACCT 
    GTCAGTCCAT CTGATGGTGT CCTACCTAAT TCAACTCATG AAGATGGGAT TCTTCGGCCC 
    AGCATGAAAT TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGGCT GGCTGGTGGA 
    AATGATGTTG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAGGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTA AACAACGTAG ATTTTACAAA TATCATAAGA 
    GAAGAAGCCG TCCTTTTCCT GCTTGACCTC CCTAAAGGAG AAGAAGTGAC CATATTGGCT 
    CAGAAGAAGA AGGATGTTTA TCGTCGCATT GTAGAATCAG ATGTAGGAGA TTCTTTCTAT 
    ATTAGAACCC ATTTTGAATA TGAAAAGGAA TCTCCCTATG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GTGTTGTGGA TACCTTGTAC AATGGAAAAC TGGGCTCTTG GCTTGCTATT 
    CGAATTGGTA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGCTAG CCAGTGTACA GTATACACTT CCAAAAACAG CAGGCGGAGA CCGTGCTGAC 
    TTCTGGAGAT TCAGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAT 
    TTGTCCGCTC AGCCTGTTCA AACAAAGTTT CCAGCTTATG AAAGAGTGGT TCTTCGAGAA 
    GCTGGATTTC TGAGGCCTGT AACCATTTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    CTGGCAAGAG AAGAACCAGA TATTTATCAA ATTGCAAAGA GTGAACCACG AGACGCTGGA 
    ACTGACCAAC GTAGCTCTGG CATTATTCGC CTGCATACAA TAAAGCAAAT CATAGATCAA 
    GACAAACATG CTTTATTAGA TGTAACACCA AATGCAGTTG ATCGTCTTAA CTATGCCCAG 
    TGGTATCCAA TTGTTGTATT TCTTAACCCT GATTCTAAGC AAGGAGTAAA AACAATGAGA 
    ATGAGGTTAT GTCCAGAATC TCGGAAAAGT GCCAGGAAGT TATACGAGCG ATCTCATAAA 
    CTTCGTAAAA ATAATCACCA TCTTTTTACA ACTACAATTA ACTTAAATTC AATGAATGAT 
    GGTTGGTATG GTGCGCTGAA AGAAGCAATT CAACAACAGC AAAACCAGCT GGTATGGGTT 
    TCCGAGGGAA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCTCCAGG TAGTGAATAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA CACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTTGG GACTCCACCG GAGTCTGCCA TTACACGGTC CTCTGAGCCT 
    GTAAGAGAGG ACTCCTCTGG AATGCATCAT GAAAACCAAA CATATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAACCAAT TCATAGAATA GACTCCCCTG GATTTAAGCC AGCCTCTCAA 
    CAGAAAGCAG AAGCTTCATC TCCAGTCCCT TACCTTTCGC CTGAAACAAA CCCAGCATCA 
    TCAACCTCTG CTGTTAATCA TAATGTAAAT TTAACTAATG TCAGACTGGA GGAGCCCACC 
    CCAGCTCCTT CCACCTCTTA CTCACCACAA GCTGATTCTT TAAGAACACC AAGTACTGAG 
    GCAGCTCACA TAATGCTAAG AGATCAAGAA CCATCATTGT CGTCGCATGT AGATCCAACA 
    AAGGTGTATA GAAAGGATCC ATATCCCGAG GAAATGATGA GGCAGAACCA TGTTTTGAAA 
    CAGCCAGCCG TTAGTCACCC AGGGCACAGG CCAGACAAAG AGCCTAATCT GACCTATGAA 
    CCCCAACTCC CATACGTAGA GAAACAAGCC AGCAGAGACC TCGAGCAGCC CACATACAGA 
    TACGAGTCCT CAAGCTATAC GGACCAGTTT TCTCGAAACT ATGAACATCG TCTGCGATAC 
    GAAGATCGCG TCCCCATGTA TGAAGAACAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CCATCTCGGC CACCTTTTGA TAATCAGCAC TCTCAAGACC TTGACTCCAG ACAGCATCCC 
    GAAGAGTCCT CAGAACGAGG GTACTTTCCA CGTTTTGAAG AGCCAGCCCC TCTGTCTTAC 
    GACAGCAGAC CACGTTACGA ACAGGCACCT AGAGCATCCG CCCTGCGGCA CGAAGAGCAG 
    CCAGCTCCTG GGTATGACAC ACATGGTAGA CTCAGACCGG AAGCCCAGCC CCACCCTTCA 
    GCAGGGCCCA AGCCTGCAGA GTCCAAGCAG TATTTTGAGC AATATTCACG CAGTTACGAG 
    CAAGTACCAC CCCAAGGATT TACCTCTAGA GCAGGTCATT TTGAGCCTCT CCATGGTGCT 
    GCAGCTGTCC CTCCGCTGAT ACCTTCATCT CAGCATAAGC CAGAAGCTCT GCCTTCAAAC 
    ACCAAACCAC TGCCTCCACC CCCAACTCAA ACCGAAGAAG AGGAAGATCC AGCAATGAAG 
    CCACAGTCTG TACTCACCAG AGTTAAGATG TTTGAAAACA AAAGATCTGC ATCCTTAGAG 
    ACCAAGAAGG ATGTAAATGA CACTGGCAGT TTTAAGCCTC CAGAAGTAGC ATCTAAACCT 
    TCAGGTGCTC CCATCATTGG TCCCAAACCC ACTTCTCAGA ATCAATTCAG TGAACATGAC 
    AAAACTCTGT ACAGGATCCC AGAACCTCAA AAACCTCAAC TGAAGCCACC TGAAGATATT 
    GTTCGGTCCA ATCATTATGA CCCTGAAGAA GATGAAGAAT ATTATCGAAA ACAGCTGTCA 
    TACTTTGACC GAAGAAGTTT TGAGAATAAG CCTCCTGCAC ACATTGCCGC CAGCCATCTC 
    TCCGAGCCTG CAAAGCCAGC GCATTCTCAG AATCAATCAA ATTTTTCTAG TTATTCTTCA 
    AAATTTCTTG GCTCTTACAC TAGCTATGAC TACTTGAAAA GGAACGTCAA GTGGGGAAAG 
    CCTCCTGAAG CTGATGGTGT GGATAGATCA TTTGGCGAGA AACGCTATGA ACCCATCCAG 
    GCCACTCCCC CTCCTCCTCC ATTGCCCTCG CAGTATGCCC AGCCATCTCA GCCTGTCACC 
    AGCGCGTCTC TCCACATACA TTCTAAGGGA GCACATGGTG AAGGTAATTC AGTGTCATTG 
    GATTTTCAGA ATTCCTTAGT GTCCAAACCA GACCCACCTC CATCTCAGAA TAAGCCAGCA 
    ACTTTCAGAC CACCAAACCG AGAAGATACT GCTCAGGCAG CTTTCTATCC CCAGAAAAGT 
    TTTCCAGATA AAGCCCCAGT TAATGGAACT GAACAGACTC AGAAAACAGT CACTCCAGCA 
    TACAATCGAT TCACACCAAA ACCATATACA AGTTCTGCCC GACCATTTGA ACGCAAGTTT 
    GAAAGTCCTA AATTCAATCA CAATCTTCTG CCAAGTGAAA CTGCACATAA ACCTGACTTG 
    TCTTCAAAAA CTCCCACTTC TCCAAAAACT CTTGTGAAAT CGCACAGTTT GGCACAGCCT 
    CCTGAGTTTG ACAGTGGAGT TGAAACTTTC TCTATCCATG CAGAGAAGCC TAAATATCAA 
    ATAAATAATA TCAGCACAGT GCCTAAAGCT ATTCCTGTGA GTCCTTCAGC TGTGGAAGAG 
    GATGAAGATG AAGATGGTCA TACTGTGGTG GCCACAGCCC GAGGCATATT TAACAGCAAT 
    GGGGGCGTGC TGAGTTCCAT AGAAACTGGT GTTAGTATAA TTATCCCTCA AGGAGCCATT 
    CCCGAAGGAG TTGAGCAGGA AATCTATTTC AAGGTCTGCC GGGACAACAG CATCCTTCCA 
    CCTTTAGATA AAGAGAAAGG TGAAACACTG CTGAGTCCTT TGGTGATGTG TGGTCCCCAT 
    GGCCTCAAGT TCCTGAAGCC TGTGGAGCTG CGCTTACCAC ACTGTGCGTC CATGACTCCT 
    GACGGTTGGT CTTTTGCTCT AAAATCATCC GACTCCTCGT CGGGTGATCC TAAAACCTGG 
    CAAAACAAGT GTCTTCCCGG AGATCCAAAT TATCTCGTTG GAGCAAACTG TGTTTCTGTC 
    CTTATTGACC ACTTTTAA

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

    TJP1 ( XM_017022527.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016878016.1 Homo sapiens tight junction protein 1 (TJP1), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OHu85634
    Clone ID Related Accession (Same CDS sequence) XM_017022527.1
    Accession Version XM_017022527.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5352bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    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_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGCTGTATT ACTTATTTAA GAGCACAGCA ATGGAGGAAA CAGCTATATG GGAACAACAT 
    ACAGTGACGC TTCACAGGGC TCCTGGATTT GGATTTGGAA TTGCAATATC TGGTGGACGA 
    GATAATCCTC ATTTTCAGAG TGGGGAAACG TCAATAGTGA TTTCAGATGT GCTGAAAGGA 
    GGACCAGCTG AAGGACAGCT ACAGGAAAAT GACCGAGTTG CAATGGTTAA CGGAGTTTCA 
    ATGGATAATG TTGAACATGC TTTTGCTGTT CAGCAACTAA GGAAAAGTGG GAAAAATGCA 
    AAAATTACAA TTAGAAGGAA GAAGAAAGTT CAAATACCAG TAAGTCGTCC TGATCCTGAA 
    CCAGTATCTG ATAATGAAGA AGATAGTTAT GATGAGGAAA TACATGATCC AAGAAGTGGC 
    CGGAGTGGTG TGGTTAACAG AAGGAGTGAG AAGATTTGGC CGAGGGATAG AAGTGCAAGT 
    AGAGAGAGGA GCTTGTCCCC GCGGTCAGAC AGGCGGTCAG TGGCTTCCAG CCAGCCTGCT 
    AAACCTACTA AAGTCACACT GGTGAAATCC CGGAAAAATG AAGAATATGG TCTTCGATTG 
    GCAAGCCATA TATTTGTTAA GGAAATTTCA CAAGATAGTT TGGCAGCAAG AGATGGCAAT 
    ATTCAAGAAG GTGATGTTGT ATTGAAGATA AATGGTACTG TGACAGAAAA TATGTCATTG 
    ACAGATGCAA AGACATTGAT AGAAAGGTCT AAAGGCAAAT TAAAAATGGT AGTTCAAAGA 
    GATGAACGGG CTACGCTATT GAATGTCCCT GATCTTTCTG ACAGCATCCA CTCTGCTAAT 
    GCCTCTGAGA GAGACGACAT TTCAGAAATT CAGTCACTGG CATCAGATCA TTCTGGTCGA 
    TCACACGATA GGCCTCCCCG CCGCAGCCGG TCACGATCTC CTGACCAGCG GTCAGAGCCT 
    TCTGATCATT CCAGGCACTC GCCGCAGCAG CCAAGCAATG GCAGTCTCCG GAGTAGAGAT 
    GAAGAGAGAA TTTCTAAACC TGGGGCTGTC TCAACTCCTG TAAAGCATGC TGATGATCAC 
    ACACCTAAAA CAGTGGAAGA AGTTACAGTT GAAAGAAATG AGAAACAAAC ACCTTCTCTT 
    CCAGAACCAA AGCCTGTGTA TGCCCAAGTT GGGCAACCAG ATGTGGATTT ACCTGTCAGT 
    CCATCTGATG GTGTCCTACC TAATTCAACT CATGAAGATG GGATTCTTCG GCCCAGCATG 
    AAATTGGTAA AATTCAGAAA AGGAGATAGT GTGGGTTTGC GGCTGGCTGG TGGAAATGAT 
    GTTGGAATAT TTGTAGCTGG CGTTCTAGAA GATAGCCCTG CAGCCAAGGA AGGCTTAGAG 
    GAAGGTGATC AAATTCTCAG GGTAAACAAC GTAGATTTTA CAAATATCAT AAGAGAAGAA 
    GCCGTCCTTT TCCTGCTTGA CCTCCCTAAA GGAGAAGAAG TGACCATATT GGCTCAGAAG 
    AAGAAGGATG TTTATCGTCG CATTGTAGAA TCAGATGTAG GAGATTCTTT CTATATTAGA 
    ACCCATTTTG AATATGAAAA GGAATCTCCC TATGGACTTA GTTTTAACAA AGGAGAGGTG 
    TTCCGTGTTG TGGATACCTT GTACAATGGA AAACTGGGCT CTTGGCTTGC TATTCGAATT 
    GGTAAAAATC ATAAGGAGGT AGAACGAGGC ATCATCCCTA ATAAGAACAG AGCTGAGCAG 
    CTAGCCAGTG TACAGTATAC ACTTCCAAAA ACAGCAGGCG GAGACCGTGC TGACTTCTGG 
    AGATTCAGAG GTCTTCGCAG CTCCAAGAGA AATCTTCGAA AAAGCAGAGA GGATTTGTCC 
    GCTCAGCCTG TTCAAACAAA GTTTCCAGCT TATGAAAGAG TGGTTCTTCG AGAAGCTGGA 
    TTTCTGAGGC CTGTAACCAT TTTTGGACCA ATAGCTGATG TTGCCAGAGA AAAGCTGGCA 
    AGAGAAGAAC CAGATATTTA TCAAATTGCA AAGAGTGAAC CACGAGACGC TGGAACTGAC 
    CAACGTAGCT CTGGCATTAT TCGCCTGCAT ACAATAAAGC AAATCATAGA TCAAGACAAA 
    CATGCTTTAT TAGATGTAAC ACCAAATGCA GTTGATCGTC TTAACTATGC CCAGTGGTAT 
    CCAATTGTTG TATTTCTTAA CCCTGATTCT AAGCAAGGAG TAAAAACAAT GAGAATGAGG 
    TTATGTCCAG AATCTCGGAA AAGTGCCAGG AAGTTATACG AGCGATCTCA TAAACTTCGT 
    AAAAATAATC ACCATCTTTT TACAACTACA ATTAACTTAA ATTCAATGAA TGATGGTTGG 
    TATGGTGCGC TGAAAGAAGC AATTCAACAA CAGCAAAACC AGCTGGTATG GGTTTCCGAG 
    GGAAAGGCGG ATGGTGCTAC AAGTGATGAC CTTGATTTGC ATGATGATCG TCTGTCCTAC 
    CTGTCAGCTC CAGGTAGTGA ATACTCAATG TATAGCACGG ACAGTAGACA CACTTCTGAC 
    TATGAAGACA CAGACACAGA AGGCGGGGCC TACACTGATC AAGAACTAGA TGAAACTCTT 
    AATGATGAGG TTGGGACTCC ACCGGAGTCT GCCATTACAC GGTCCTCTGA GCCTGTAAGA 
    GAGGACTCCT CTGGAATGCA TCATGAAAAC CAAACATATC CTCCTTACTC ACCACAAGCG 
    CAGCCACAAC CAATTCATAG AATAGACTCC CCTGGATTTA AGCCAGCCTC TCAACAGAAA 
    GCAGAAGCTT CATCTCCAGT CCCTTACCTT TCGCCTGAAA CAAACCCAGC ATCATCAACC 
    TCTGCTGTTA ATCATAATGT AAATTTAACT AATGTCAGAC TGGAGGAGCC CACCCCAGCT 
    CCTTCCACCT CTTACTCACC ACAAGCTGAT TCTTTAAGAA CACCAAGTAC TGAGGCAGCT 
    CACATAATGC TAAGAGATCA AGAACCATCA TTGTCGTCGC ATGTAGATCC AACAAAGGTG 
    TATAGAAAGG ATCCATATCC CGAGGAAATG ATGAGGCAGA ACCATGTTTT GAAACAGCCA 
    GCCGTTAGTC ACCCAGGGCA CAGGCCAGAC AAAGAGCCTA ATCTGACCTA TGAACCCCAA 
    CTCCCATACG TAGAGAAACA AGCCAGCAGA GACCTCGAGC AGCCCACATA CAGATACGAG 
    TCCTCAAGCT ATACGGACCA GTTTTCTCGA AACTATGAAC ATCGTCTGCG ATACGAAGAT 
    CGCGTCCCCA TGTATGAAGA ACAGTGGTCA TATTATGATG ACAAACAGCC CTACCCATCT 
    CGGCCACCTT TTGATAATCA GCACTCTCAA GACCTTGACT CCAGACAGCA TCCCGAAGAG 
    TCCTCAGAAC GAGGGTACTT TCCACGTTTT GAAGAGCCAG CCCCTCTGTC TTACGACAGC 
    AGACCACGTT ACGAACAGGC ACCTAGAGCA TCCGCCCTGC GGCACGAAGA GCAGCCAGCT 
    CCTGGGTATG ACACACATGG TAGACTCAGA CCGGAAGCCC AGCCCCACCC TTCAGCAGGG 
    CCCAAGCCTG CAGAGTCCAA GCAGTATTTT GAGCAATATT CACGCAGTTA CGAGCAAGTA 
    CCACCCCAAG GATTTACCTC TAGAGCAGGT CATTTTGAGC CTCTCCATGG TGCTGCAGCT 
    GTCCCTCCGC TGATACCTTC ATCTCAGCAT AAGCCAGAAG CTCTGCCTTC AAACACCAAA 
    CCACTGCCTC CACCCCCAAC TCAAACCGAA GAAGAGGAAG ATCCAGCAAT GAAGCCACAG 
    TCTGTACTCA CCAGAGTTAA GATGTTTGAA AACAAAAGAT CTGCATCCTT AGAGACCAAG 
    AAGGATGTAA ATGACACTGG CAGTTTTAAG CCTCCAGAAG TAGCATCTAA ACCTTCAGGT 
    GCTCCCATCA TTGGTCCCAA ACCCACTTCT CAGAATCAAT TCAGTGAACA TGACAAAACT 
    CTGTACAGGA TCCCAGAACC TCAAAAACCT CAACTGAAGC CACCTGAAGA TATTGTTCGG 
    TCCAATCATT ATGACCCTGA AGAAGATGAA GAATATTATC GAAAACAGCT GTCATACTTT 
    GACCGAAGAA GTTTTGAGAA TAAGCCTCCT GCACACATTG CCGCCAGCCA TCTCTCCGAG 
    CCTGCAAAGC CAGCGCATTC TCAGAATCAA TCAAATTTTT CTAGTTATTC TTCAAAATTT 
    CTTGGCTCTT ACACTAGCTA TGACTACTTG AAAAGGAACG TCAAGTGGGG AAAGCCTCCT 
    GAAGCTGATG GTGTGGATAG ATCATTTGGC GAGAAACGCT ATGAACCCAT CCAGGCCACT 
    CCCCCTCCTC CTCCATTGCC CTCGCAGTAT GCCCAGCCAT CTCAGCCTGT CACCAGCGCG 
    TCTCTCCACA TACATTCTAA GGGAGCACAT GGTGAAGGTA ATTCAGTGTC ATTGGATTTT 
    CAGAATTCCT TAGTGTCCAA ACCAGACCCA CCTCCATCTC AGAATAAGCC AGCAACTTTC 
    AGACCACCAA ACCGAGAAGA TACTGCTCAG GCAGCTTTCT ATCCCCAGAA AAGTTTTCCA 
    GATAAAGCCC CAGTTAATGG AACTGAACAG ACTCAGAAAA CAGTCACTCC AGCATACAAT 
    CGATTCACAC CAAAACCATA TACAAGTTCT GCCCGACCAT TTGAACGCAA GTTTGAAAGT 
    CCTAAATTCA ATCACAATCT TCTGCCAAGT GAAACTGCAC ATAAACCTGA CTTGTCTTCA 
    AAAACTCCCA CTTCTCCAAA AACTCTTGTG AAATCGCACA GTTTGGCACA GCCTCCTGAG 
    TTTGACAGTG GAGTTGAAAC TTTCTCTATC CATGCAGAGA AGCCTAAATA TCAAATAAAT 
    AATATCAGCA CAGTGCCTAA AGCTATTCCT GTGAGTCCTT CAGCTGTGGA AGAGGATGAA 
    GATGAAGATG GTCATACTGT GGTGGCCACA GCCCGAGGCA TATTTAACAG CAATGGGGGC 
    GTGCTGAGTT CCATAGAAAC TGGTGTTAGT ATAATTATCC CTCAAGGAGC CATTCCCGAA 
    GGAGTTGAGC AGGAAATCTA TTTCAAGGTC TGCCGGGACA ACAGCATCCT TCCACCTTTA 
    GATAAAGAGA AAGGTGAAAC ACTGCTGAGT CCTTTGGTGA TGTGTGGTCC CCATGGCCTC 
    AAGTTCCTGA AGCCTGTGGA GCTGCGCTTA CCACACTGTG CGTCCATGAC TCCTGACGGT 
    TGGTCTTTTG CTCTAAAATC ATCCGACTCC TCGTCGGGTG ATCCTAAAAC CTGGCAAAAC 
    AAGTGTCTTC CCGGAGATCC AAATTATCTC GTTGGAGCAA ACTGTGTTTC TGTCCTTATT 
    GACCACTTTT AA

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

    RefSeq XP_016878016.1
    CDS154..5505
    Translation

    Target ORF information:

    RefSeq Version XM_017022527.1
    Organism Homo sapiens(human)
    Definition Homo sapiens 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_017022527.1

    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
    ATGCTGTATT ACTTATTTAA GAGCACAGCA ATGGAGGAAA CAGCTATATG GGAACAACAT 
    ACAGTGACGC TTCACAGGGC TCCTGGATTT GGATTTGGAA TTGCAATATC TGGTGGACGA 
    GATAATCCTC ATTTTCAGAG TGGGGAAACG TCAATAGTGA TTTCAGATGT GCTGAAAGGA 
    GGACCAGCTG AAGGACAGCT ACAGGAAAAT GACCGAGTTG CAATGGTTAA CGGAGTTTCA 
    ATGGATAATG TTGAACATGC TTTTGCTGTT CAGCAACTAA GGAAAAGTGG GAAAAATGCA 
    AAAATTACAA TTAGAAGGAA GAAGAAAGTT CAAATACCAG TAAGTCGTCC TGATCCTGAA 
    CCAGTATCTG ATAATGAAGA AGATAGTTAT GATGAGGAAA TACATGATCC AAGAAGTGGC 
    CGGAGTGGTG TGGTTAACAG AAGGAGTGAG AAGATTTGGC CGAGGGATAG AAGTGCAAGT 
    AGAGAGAGGA GCTTGTCCCC GCGGTCAGAC AGGCGGTCAG TGGCTTCCAG CCAGCCTGCT 
    AAACCTACTA AAGTCACACT GGTGAAATCC CGGAAAAATG AAGAATATGG TCTTCGATTG 
    GCAAGCCATA TATTTGTTAA GGAAATTTCA CAAGATAGTT TGGCAGCAAG AGATGGCAAT 
    ATTCAAGAAG GTGATGTTGT ATTGAAGATA AATGGTACTG TGACAGAAAA TATGTCATTG 
    ACAGATGCAA AGACATTGAT AGAAAGGTCT AAAGGCAAAT TAAAAATGGT AGTTCAAAGA 
    GATGAACGGG CTACGCTATT GAATGTCCCT GATCTTTCTG ACAGCATCCA CTCTGCTAAT 
    GCCTCTGAGA GAGACGACAT TTCAGAAATT CAGTCACTGG CATCAGATCA TTCTGGTCGA 
    TCACACGATA GGCCTCCCCG CCGCAGCCGG TCACGATCTC CTGACCAGCG GTCAGAGCCT 
    TCTGATCATT CCAGGCACTC GCCGCAGCAG CCAAGCAATG GCAGTCTCCG GAGTAGAGAT 
    GAAGAGAGAA TTTCTAAACC TGGGGCTGTC TCAACTCCTG TAAAGCATGC TGATGATCAC 
    ACACCTAAAA CAGTGGAAGA AGTTACAGTT GAAAGAAATG AGAAACAAAC ACCTTCTCTT 
    CCAGAACCAA AGCCTGTGTA TGCCCAAGTT GGGCAACCAG ATGTGGATTT ACCTGTCAGT 
    CCATCTGATG GTGTCCTACC TAATTCAACT CATGAAGATG GGATTCTTCG GCCCAGCATG 
    AAATTGGTAA AATTCAGAAA AGGAGATAGT GTGGGTTTGC GGCTGGCTGG TGGAAATGAT 
    GTTGGAATAT TTGTAGCTGG CGTTCTAGAA GATAGCCCTG CAGCCAAGGA AGGCTTAGAG 
    GAAGGTGATC AAATTCTCAG GGTAAACAAC GTAGATTTTA CAAATATCAT AAGAGAAGAA 
    GCCGTCCTTT TCCTGCTTGA CCTCCCTAAA GGAGAAGAAG TGACCATATT GGCTCAGAAG 
    AAGAAGGATG TTTATCGTCG CATTGTAGAA TCAGATGTAG GAGATTCTTT CTATATTAGA 
    ACCCATTTTG AATATGAAAA GGAATCTCCC TATGGACTTA GTTTTAACAA AGGAGAGGTG 
    TTCCGTGTTG TGGATACCTT GTACAATGGA AAACTGGGCT CTTGGCTTGC TATTCGAATT 
    GGTAAAAATC ATAAGGAGGT AGAACGAGGC ATCATCCCTA ATAAGAACAG AGCTGAGCAG 
    CTAGCCAGTG TACAGTATAC ACTTCCAAAA ACAGCAGGCG GAGACCGTGC TGACTTCTGG 
    AGATTCAGAG GTCTTCGCAG CTCCAAGAGA AATCTTCGAA AAAGCAGAGA GGATTTGTCC 
    GCTCAGCCTG TTCAAACAAA GTTTCCAGCT TATGAAAGAG TGGTTCTTCG AGAAGCTGGA 
    TTTCTGAGGC CTGTAACCAT TTTTGGACCA ATAGCTGATG TTGCCAGAGA AAAGCTGGCA 
    AGAGAAGAAC CAGATATTTA TCAAATTGCA AAGAGTGAAC CACGAGACGC TGGAACTGAC 
    CAACGTAGCT CTGGCATTAT TCGCCTGCAT ACAATAAAGC AAATCATAGA TCAAGACAAA 
    CATGCTTTAT TAGATGTAAC ACCAAATGCA GTTGATCGTC TTAACTATGC CCAGTGGTAT 
    CCAATTGTTG TATTTCTTAA CCCTGATTCT AAGCAAGGAG TAAAAACAAT GAGAATGAGG 
    TTATGTCCAG AATCTCGGAA AAGTGCCAGG AAGTTATACG AGCGATCTCA TAAACTTCGT 
    AAAAATAATC ACCATCTTTT TACAACTACA ATTAACTTAA ATTCAATGAA TGATGGTTGG 
    TATGGTGCGC TGAAAGAAGC AATTCAACAA CAGCAAAACC AGCTGGTATG GGTTTCCGAG 
    GGAAAGGCGG ATGGTGCTAC AAGTGATGAC CTTGATTTGC ATGATGATCG TCTGTCCTAC 
    CTGTCAGCTC CAGGTAGTGA ATACTCAATG TATAGCACGG ACAGTAGACA CACTTCTGAC 
    TATGAAGACA CAGACACAGA AGGCGGGGCC TACACTGATC AAGAACTAGA TGAAACTCTT 
    AATGATGAGG TTGGGACTCC ACCGGAGTCT GCCATTACAC GGTCCTCTGA GCCTGTAAGA 
    GAGGACTCCT CTGGAATGCA TCATGAAAAC CAAACATATC CTCCTTACTC ACCACAAGCG 
    CAGCCACAAC CAATTCATAG AATAGACTCC CCTGGATTTA AGCCAGCCTC TCAACAGAAA 
    GCAGAAGCTT CATCTCCAGT CCCTTACCTT TCGCCTGAAA CAAACCCAGC ATCATCAACC 
    TCTGCTGTTA ATCATAATGT AAATTTAACT AATGTCAGAC TGGAGGAGCC CACCCCAGCT 
    CCTTCCACCT CTTACTCACC ACAAGCTGAT TCTTTAAGAA CACCAAGTAC TGAGGCAGCT 
    CACATAATGC TAAGAGATCA AGAACCATCA TTGTCGTCGC ATGTAGATCC AACAAAGGTG 
    TATAGAAAGG ATCCATATCC CGAGGAAATG ATGAGGCAGA ACCATGTTTT GAAACAGCCA 
    GCCGTTAGTC ACCCAGGGCA CAGGCCAGAC AAAGAGCCTA ATCTGACCTA TGAACCCCAA 
    CTCCCATACG TAGAGAAACA AGCCAGCAGA GACCTCGAGC AGCCCACATA CAGATACGAG 
    TCCTCAAGCT ATACGGACCA GTTTTCTCGA AACTATGAAC ATCGTCTGCG ATACGAAGAT 
    CGCGTCCCCA TGTATGAAGA ACAGTGGTCA TATTATGATG ACAAACAGCC CTACCCATCT 
    CGGCCACCTT TTGATAATCA GCACTCTCAA GACCTTGACT CCAGACAGCA TCCCGAAGAG 
    TCCTCAGAAC GAGGGTACTT TCCACGTTTT GAAGAGCCAG CCCCTCTGTC TTACGACAGC 
    AGACCACGTT ACGAACAGGC ACCTAGAGCA TCCGCCCTGC GGCACGAAGA GCAGCCAGCT 
    CCTGGGTATG ACACACATGG TAGACTCAGA CCGGAAGCCC AGCCCCACCC TTCAGCAGGG 
    CCCAAGCCTG CAGAGTCCAA GCAGTATTTT GAGCAATATT CACGCAGTTA CGAGCAAGTA 
    CCACCCCAAG GATTTACCTC TAGAGCAGGT CATTTTGAGC CTCTCCATGG TGCTGCAGCT 
    GTCCCTCCGC TGATACCTTC ATCTCAGCAT AAGCCAGAAG CTCTGCCTTC AAACACCAAA 
    CCACTGCCTC CACCCCCAAC TCAAACCGAA GAAGAGGAAG ATCCAGCAAT GAAGCCACAG 
    TCTGTACTCA CCAGAGTTAA GATGTTTGAA AACAAAAGAT CTGCATCCTT AGAGACCAAG 
    AAGGATGTAA ATGACACTGG CAGTTTTAAG CCTCCAGAAG TAGCATCTAA ACCTTCAGGT 
    GCTCCCATCA TTGGTCCCAA ACCCACTTCT CAGAATCAAT TCAGTGAACA TGACAAAACT 
    CTGTACAGGA TCCCAGAACC TCAAAAACCT CAACTGAAGC CACCTGAAGA TATTGTTCGG 
    TCCAATCATT ATGACCCTGA AGAAGATGAA GAATATTATC GAAAACAGCT GTCATACTTT 
    GACCGAAGAA GTTTTGAGAA TAAGCCTCCT GCACACATTG CCGCCAGCCA TCTCTCCGAG 
    CCTGCAAAGC CAGCGCATTC TCAGAATCAA TCAAATTTTT CTAGTTATTC TTCAAAATTT 
    CTTGGCTCTT ACACTAGCTA TGACTACTTG AAAAGGAACG TCAAGTGGGG AAAGCCTCCT 
    GAAGCTGATG GTGTGGATAG ATCATTTGGC GAGAAACGCT ATGAACCCAT CCAGGCCACT 
    CCCCCTCCTC CTCCATTGCC CTCGCAGTAT GCCCAGCCAT CTCAGCCTGT CACCAGCGCG 
    TCTCTCCACA TACATTCTAA GGGAGCACAT GGTGAAGGTA ATTCAGTGTC ATTGGATTTT 
    CAGAATTCCT TAGTGTCCAA ACCAGACCCA CCTCCATCTC AGAATAAGCC AGCAACTTTC 
    AGACCACCAA ACCGAGAAGA TACTGCTCAG GCAGCTTTCT ATCCCCAGAA AAGTTTTCCA 
    GATAAAGCCC CAGTTAATGG AACTGAACAG ACTCAGAAAA CAGTCACTCC AGCATACAAT 
    CGATTCACAC CAAAACCATA TACAAGTTCT GCCCGACCAT TTGAACGCAA GTTTGAAAGT 
    CCTAAATTCA ATCACAATCT TCTGCCAAGT GAAACTGCAC ATAAACCTGA CTTGTCTTCA 
    AAAACTCCCA CTTCTCCAAA AACTCTTGTG AAATCGCACA GTTTGGCACA GCCTCCTGAG 
    TTTGACAGTG GAGTTGAAAC TTTCTCTATC CATGCAGAGA AGCCTAAATA TCAAATAAAT 
    AATATCAGCA CAGTGCCTAA AGCTATTCCT GTGAGTCCTT CAGCTGTGGA AGAGGATGAA 
    GATGAAGATG GTCATACTGT GGTGGCCACA GCCCGAGGCA TATTTAACAG CAATGGGGGC 
    GTGCTGAGTT CCATAGAAAC TGGTGTTAGT ATAATTATCC CTCAAGGAGC CATTCCCGAA 
    GGAGTTGAGC AGGAAATCTA TTTCAAGGTC TGCCGGGACA ACAGCATCCT TCCACCTTTA 
    GATAAAGAGA AAGGTGAAAC ACTGCTGAGT CCTTTGGTGA TGTGTGGTCC CCATGGCCTC 
    AAGTTCCTGA AGCCTGTGGA GCTGCGCTTA CCACACTGTG CGTCCATGAC TCCTGACGGT 
    TGGTCTTTTG CTCTAAAATC ATCCGACTCC TCGTCGGGTG ATCCTAAAAC CTGGCAAAAC 
    AAGTGTCTTC CCGGAGATCC AAATTATCTC GTTGGAGCAA ACTGTGTTTC TGTCCTTATT 
    GACCACTTTT AA

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

    TJP1 ( XM_017022528.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016878017.1 Homo sapiens tight junction protein 1 (TJP1), transcript variant X13, mRNA.
    Price & Availability↑
    CloneID OHu85637
    Clone ID Related Accession (Same CDS sequence) XM_017022528.1 , NM_001355013.1
    Accession Version XM_017022528.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5280bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(Human)
    Product tight junction protein ZO-1 isoform X13
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
    ATGGAGAGAA ATACGTTTTC AATGGATTGC CACAGTAAGA GCACAGCAAT GGAGGAAACA 
    GCTATATGGG AACAACATAC AGTGACGCTT CACAGGGCTC CTGGATTTGG ATTTGGAATT 
    GCAATATCTG GTGGACGAGA TAATCCTCAT TTTCAGAGTG GGGAAACGTC AATAGTGATT 
    TCAGATGTGC TGAAAGGAGG ACCAGCTGAA GGACAGCTAC AGGAAAATGA CCGAGTTGCA 
    ATGGTTAACG GAGTTTCAAT GGATAATGTT GAACATGCTT TTGCTGTTCA GCAACTAAGG 
    AAAAGTGGGA AAAATGCAAA AATTACAATT AGAAGGAAGA AGAAAGTTCA AATACCAGTA 
    AGTCGTCCTG ATCCTGAACC AGTATCTGAT AATGAAGAAG ATAGTTATGA TGAGGAAATA 
    CATGATCCAA GAAGTGGCCG GAGTGGTGTG GTTAACAGAA GGAGTGAGAA GATTTGGCCG 
    AGGGATAGAA GTGCAAGTAG AGAGAGGAGC TTGTCCCCGC GGTCAGACAG GCGGTCAGTG 
    GCTTCCAGCC AGCCTGCTAA ACCTACTAAA GTCACACTGG TGAAATCCCG GAAAAATGAA 
    GAATATGGTC TTCGATTGGC AAGCCATATA TTTGTTAAGG AAATTTCACA AGATAGTTTG 
    GCAGCAAGAG ATGGCAATAT TCAAGAAGGT GATGTTGTAT TGAAGATAAA TGGTACTGTG 
    ACAGAAAATA TGTCATTGAC AGATGCAAAG ACATTGATAG AAAGGTCTAA AGGCAAATTA 
    AAAATGGTAG TTCAAAGAGA TGAACGGGCT ACGCTATTGA ATGTCCCTGA TCTTTCTGAC 
    AGCATCCACT CTGCTAATGC CTCTGAGAGA GACGACATTT CAGAAATTCA GTCACTGGCA 
    TCAGATCATT CTGGTCGATC ACACGATAGG CCTCCCCGCC GCAGCCGGTC ACGATCTCCT 
    GACCAGCGGT CAGAGCCTTC TGATCATTCC AGGCACTCGC CGCAGCAGCC AAGCAATGGC 
    AGTCTCCGGA GTAGAGATGA AGAGAGAATT TCTAAACCTG GGGCTGTCTC AACTCCTGTA 
    AAGCATGCTG ATGATCACAC ACCTAAAACA GTGGAAGAAG TTACAGTTGA AAGAAATGAG 
    AAACAAACAC CTTCTCTTCC AGAACCAAAG CCTGTGTATG CCCAAGTTGG GCAACCAGAT 
    GTGGATTTAC CTGTCAGTCC ATCTGATGGT GTCCTACCTA ATTCAACTCA TGAAGATGGG 
    ATTCTTCGGC CCAGCATGAA ATTGGTAAAA TTCAGAAAAG GAGATAGTGT GGGTTTGCGG 
    CTGGCTGGTG GAAATGATGT TGGAATATTT GTAGCTGGCG TTCTAGAAGA TAGCCCTGCA 
    GCCAAGGAAG GCTTAGAGGA AGGTGATCAA ATTCTCAGGG TAAACAACGT AGATTTTACA 
    AATATCATAA GAGAAGAAGC CGTCCTTTTC CTGCTTGACC TCCCTAAAGG AGAAGAAGTG 
    ACCATATTGG CTCAGAAGAA GAAGGATGTT TATCGTCGCA TTGTAGAATC AGATGTAGGA 
    GATTCTTTCT ATATTAGAAC CCATTTTGAA TATGAAAAGG AATCTCCCTA TGGACTTAGT 
    TTTAACAAAG GAGAGGTGTT CCGTGTTGTG GATACCTTGT ACAATGGAAA ACTGGGCTCT 
    TGGCTTGCTA TTCGAATTGG TAAAAATCAT AAGGAGGTAG AACGAGGCAT CATCCCTAAT 
    AAGAACAGAG CTGAGCAGCT AGCCAGTGTA CAGTATACAC TTCCAAAAAC AGCAGGCGGA 
    GACCGTGCTG ACTTCTGGAG ATTCAGAGGT CTTCGCAGCT CCAAGAGAAA TCTTCGAAAA 
    AGCAGAGAGG ATTTGTCCGC TCAGCCTGTT CAAACAAAGT TTCCAGCTTA TGAAAGAGTG 
    GTTCTTCGAG AAGCTGGATT TCTGAGGCCT GTAACCATTT TTGGACCAAT AGCTGATGTT 
    GCCAGAGAAA AGCTGGCAAG AGAAGAACCA GATATTTATC AAATTGCAAA GAGTGAACCA 
    CGAGACGCTG GAACTGACCA ACGTAGCTCT GGCATTATTC GCCTGCATAC AATAAAGCAA 
    ATCATAGATC AAGACAAACA TGCTTTATTA GATGTAACAC CAAATGCAGT TGATCGTCTT 
    AACTATGCCC AGTGGTATCC AATTGTTGTA TTTCTTAACC CTGATTCTAA GCAAGGAGTA 
    AAAACAATGA GAATGAGGTT ATGTCCAGAA TCTCGGAAAA GTGCCAGGAA GTTATACGAG 
    CGATCTCATA AACTTCGTAA AAATAATCAC CATCTTTTTA CAACTACAAT TAACTTAAAT 
    TCAATGAATG ATGGTTGGTA TGGTGCGCTG AAAGAAGCAA TTCAACAACA GCAAAACCAG 
    CTGGTATGGG TTTCCGAGGG AAAGGCGGAT GGTGCTACAA GTGATGACCT TGATTTGCAT 
    GATGATCGTC TGTCCTACCT GTCAGCTCCA GGTAGTGAAT ACTCAATGTA TAGCACGGAC 
    AGTAGACACA CTTCTGACTA TGAAGACACA GACACAGAAG GCGGGGCCTA CACTGATCAA 
    GAACTAGATG AAACTCTTAA TGATGAGGTT GGGACTCCAC CGGAGTCTGC CATTACACGG 
    TCCTCTGAGC CTGTAAGAGA GGACTCCTCT GGAATGCATC ATGAAAACCA AACATATCCT 
    CCTTACTCAC CACAAGCGCA GCCACAACCA ATTCATAGAA TAGACTCCCC TGGATTTAAG 
    CCAGCCTCTC AACAGAAAGC AGAAGCTTCA TCTCCAGTCC CTTACCTTTC GCCTGAAACA 
    AACCCAGCAT CATCAACCTC TGCTGTTAAT CATAATGTAA ATTTAACTAA TGTCAGACTG 
    GAGGAGCCCA CCCCAGCTCC TTCCACCTCT TACTCACCAC AAGCTGATTC TTTAAGAACA 
    CCAAGTACTG AGGCAGCTCA CATAATGCTA AGAGATCAAG AACCATCATT GTCGTCGCAT 
    GTAGATCCAA CAAAGGTGTA TAGAAAGGAT CCATATCCCG AGGAAATGAT GAGGCAGAAC 
    CATGTTTTGA AACAGCCAGC CGTTAGTCAC CCAGGGCACA GGCCAGACAA AGAGCCTAAT 
    CTGACCTATG AACCCCAACT CCCATACGTA GAGAAACAAG CCAGCAGAGA CCTCGAGCAG 
    CCCACATACA GATACGAGTC CTCAAGCTAT ACGGACCAGT TTTCTCGAAA CTATGAACAT 
    CGTCTGCGAT ACGAAGATCG CGTCCCCATG TATGAAGAAC AGTGGTCATA TTATGATGAC 
    AAACAGCCCT ACCCATCTCG GCCACCTTTT GATAATCAGC ACTCTCAAGA CCTTGACTCC 
    AGACAGCATC CCGAAGAGTC CTCAGAACGA GGGTACTTTC CACGTTTTGA AGAGCCAGCC 
    CCTCTGTCTT ACGACAGCAG ACCACGTTAC GAACAGGCAC CTAGAGCATC CGCCCTGCGG 
    CACGAAGAGC AGCCAGCTCC TGGGTATGAC ACACATGGTA GACTCAGACC GGAAGCCCAG 
    CCCCACCCTT CAGCAGGGCC CAAGCCTGCA GAGTCCAAGC AGTATTTTGA GCAATATTCA 
    CGCAGTTACG AGCAAGTACC ACCCCAAGGA TTTACCTCTA GAGCAGGTCA TTTTGAGCCT 
    CTCCATGGTG CTGCAGCTGT CCCTCCGCTG ATACCTTCAT CTCAGCATAA GCCAGAAGCT 
    CTGCCTTCAA ACACCAAACC ACTGCCTCCA CCCCCAACTC AAACCGAAGA AGAGGAAGAT 
    CCAGCAATGA AGCCACAGTC TGTACTCACC AGAGTTAAGA TGTTTGAAAA CAAAAGATCT 
    GCATCCTTAG AGACCAAGAA GGATGTAAAT GACACTGGCA GTTTTAAGCC TCCAGAAGTA 
    GCATCTAAAC CTTCAGGTGC TCCCATCATT GGTCCCAAAC CCACTTCTCA GAATCAATTC 
    AGTGAACATG ACAAAACTCT GTACAGGATC CCAGAACCTC AAAAACCTCA ACTGAAGCCA 
    CCTGAAGATA TTGTTCGGTC CAATCATTAT GACCCTGAAG AAGATGAAGA ATATTATCGA 
    AAACAGCTGT CATACTTTGA CCGAAGAAGT TTTGAGAATA AGCCTCCTGC ACACATTGCC 
    GCCAGCCATC TCTCCGAGCC TGCAAAGCCA GCGCATTCTC AGAATCAATC AAATTTTTCT 
    AGTTATTCTT CAAAGGGAAA GCCTCCTGAA GCTGATGGTG TGGATAGATC ATTTGGCGAG 
    AAACGCTATG AACCCATCCA GGCCACTCCC CCTCCTCCTC CATTGCCCTC GCAGTATGCC 
    CAGCCATCTC AGCCTGTCAC CAGCGCGTCT CTCCACATAC ATTCTAAGGG AGCACATGGT 
    GAAGGTAATT CAGTGTCATT GGATTTTCAG AATTCCTTAG TGTCCAAACC AGACCCACCT 
    CCATCTCAGA ATAAGCCAGC AACTTTCAGA CCACCAAACC GAGAAGATAC TGCTCAGGCA 
    GCTTTCTATC CCCAGAAAAG TTTTCCAGAT AAAGCCCCAG TTAATGGAAC TGAACAGACT 
    CAGAAAACAG TCACTCCAGC ATACAATCGA TTCACACCAA AACCATATAC AAGTTCTGCC 
    CGACCATTTG AACGCAAGTT TGAAAGTCCT AAATTCAATC ACAATCTTCT GCCAAGTGAA 
    ACTGCACATA AACCTGACTT GTCTTCAAAA ACTCCCACTT CTCCAAAAAC TCTTGTGAAA 
    TCGCACAGTT TGGCACAGCC TCCTGAGTTT GACAGTGGAG TTGAAACTTT CTCTATCCAT 
    GCAGAGAAGC CTAAATATCA AATAAATAAT ATCAGCACAG TGCCTAAAGC TATTCCTGTG 
    AGTCCTTCAG CTGTGGAAGA GGATGAAGAT GAAGATGGTC ATACTGTGGT GGCCACAGCC 
    CGAGGCATAT TTAACAGCAA TGGGGGCGTG CTGAGTTCCA TAGAAACTGG TGTTAGTATA 
    ATTATCCCTC AAGGAGCCAT TCCCGAAGGA GTTGAGCAGG AAATCTATTT CAAGGTCTGC 
    CGGGACAACA GCATCCTTCC ACCTTTAGAT AAAGAGAAAG GTGAAACACT GCTGAGTCCT 
    TTGGTGATGT GTGGTCCCCA TGGCCTCAAG TTCCTGAAGC CTGTGGAGCT GCGCTTACCA 
    CACTGTGCGT CCATGACTCC TGACGGTGAT CCTAAAACCT GGCAAAACAA GTGTCTTCCC 
    GGAGATCCAA ATTATCTCGT TGGAGCAAAC TGTGTTTCTG TCCTTATTGA CCACTTTTAA

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

    RefSeq XP_016878017.1
    CDS110..5389
    Translation

    Target ORF information:

    RefSeq Version XM_017022528.1
    Organism Homo sapiens(Human)
    Definition Homo sapiens tight junction protein 1 (TJP1), transcript variant X13, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017022528.1

    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
    ATGGAGAGAA ATACGTTTTC AATGGATTGC CACAGTAAGA GCACAGCAAT GGAGGAAACA 
    GCTATATGGG AACAACATAC AGTGACGCTT CACAGGGCTC CTGGATTTGG ATTTGGAATT 
    GCAATATCTG GTGGACGAGA TAATCCTCAT TTTCAGAGTG GGGAAACGTC AATAGTGATT 
    TCAGATGTGC TGAAAGGAGG ACCAGCTGAA GGACAGCTAC AGGAAAATGA CCGAGTTGCA 
    ATGGTTAACG GAGTTTCAAT GGATAATGTT GAACATGCTT TTGCTGTTCA GCAACTAAGG 
    AAAAGTGGGA AAAATGCAAA AATTACAATT AGAAGGAAGA AGAAAGTTCA AATACCAGTA 
    AGTCGTCCTG ATCCTGAACC AGTATCTGAT AATGAAGAAG ATAGTTATGA TGAGGAAATA 
    CATGATCCAA GAAGTGGCCG GAGTGGTGTG GTTAACAGAA GGAGTGAGAA GATTTGGCCG 
    AGGGATAGAA GTGCAAGTAG AGAGAGGAGC TTGTCCCCGC GGTCAGACAG GCGGTCAGTG 
    GCTTCCAGCC AGCCTGCTAA ACCTACTAAA GTCACACTGG TGAAATCCCG GAAAAATGAA 
    GAATATGGTC TTCGATTGGC AAGCCATATA TTTGTTAAGG AAATTTCACA AGATAGTTTG 
    GCAGCAAGAG ATGGCAATAT TCAAGAAGGT GATGTTGTAT TGAAGATAAA TGGTACTGTG 
    ACAGAAAATA TGTCATTGAC AGATGCAAAG ACATTGATAG AAAGGTCTAA AGGCAAATTA 
    AAAATGGTAG TTCAAAGAGA TGAACGGGCT ACGCTATTGA ATGTCCCTGA TCTTTCTGAC 
    AGCATCCACT CTGCTAATGC CTCTGAGAGA GACGACATTT CAGAAATTCA GTCACTGGCA 
    TCAGATCATT CTGGTCGATC ACACGATAGG CCTCCCCGCC GCAGCCGGTC ACGATCTCCT 
    GACCAGCGGT CAGAGCCTTC TGATCATTCC AGGCACTCGC CGCAGCAGCC AAGCAATGGC 
    AGTCTCCGGA GTAGAGATGA AGAGAGAATT TCTAAACCTG GGGCTGTCTC AACTCCTGTA 
    AAGCATGCTG ATGATCACAC ACCTAAAACA GTGGAAGAAG TTACAGTTGA AAGAAATGAG 
    AAACAAACAC CTTCTCTTCC AGAACCAAAG CCTGTGTATG CCCAAGTTGG GCAACCAGAT 
    GTGGATTTAC CTGTCAGTCC ATCTGATGGT GTCCTACCTA ATTCAACTCA TGAAGATGGG 
    ATTCTTCGGC CCAGCATGAA ATTGGTAAAA TTCAGAAAAG GAGATAGTGT GGGTTTGCGG 
    CTGGCTGGTG GAAATGATGT TGGAATATTT GTAGCTGGCG TTCTAGAAGA TAGCCCTGCA 
    GCCAAGGAAG GCTTAGAGGA AGGTGATCAA ATTCTCAGGG TAAACAACGT AGATTTTACA 
    AATATCATAA GAGAAGAAGC CGTCCTTTTC CTGCTTGACC TCCCTAAAGG AGAAGAAGTG 
    ACCATATTGG CTCAGAAGAA GAAGGATGTT TATCGTCGCA TTGTAGAATC AGATGTAGGA 
    GATTCTTTCT ATATTAGAAC CCATTTTGAA TATGAAAAGG AATCTCCCTA TGGACTTAGT 
    TTTAACAAAG GAGAGGTGTT CCGTGTTGTG GATACCTTGT ACAATGGAAA ACTGGGCTCT 
    TGGCTTGCTA TTCGAATTGG TAAAAATCAT AAGGAGGTAG AACGAGGCAT CATCCCTAAT 
    AAGAACAGAG CTGAGCAGCT AGCCAGTGTA CAGTATACAC TTCCAAAAAC AGCAGGCGGA 
    GACCGTGCTG ACTTCTGGAG ATTCAGAGGT CTTCGCAGCT CCAAGAGAAA TCTTCGAAAA 
    AGCAGAGAGG ATTTGTCCGC TCAGCCTGTT CAAACAAAGT TTCCAGCTTA TGAAAGAGTG 
    GTTCTTCGAG AAGCTGGATT TCTGAGGCCT GTAACCATTT TTGGACCAAT AGCTGATGTT 
    GCCAGAGAAA AGCTGGCAAG AGAAGAACCA GATATTTATC AAATTGCAAA GAGTGAACCA 
    CGAGACGCTG GAACTGACCA ACGTAGCTCT GGCATTATTC GCCTGCATAC AATAAAGCAA 
    ATCATAGATC AAGACAAACA TGCTTTATTA GATGTAACAC CAAATGCAGT TGATCGTCTT 
    AACTATGCCC AGTGGTATCC AATTGTTGTA TTTCTTAACC CTGATTCTAA GCAAGGAGTA 
    AAAACAATGA GAATGAGGTT ATGTCCAGAA TCTCGGAAAA GTGCCAGGAA GTTATACGAG 
    CGATCTCATA AACTTCGTAA AAATAATCAC CATCTTTTTA CAACTACAAT TAACTTAAAT 
    TCAATGAATG ATGGTTGGTA TGGTGCGCTG AAAGAAGCAA TTCAACAACA GCAAAACCAG 
    CTGGTATGGG TTTCCGAGGG AAAGGCGGAT GGTGCTACAA GTGATGACCT TGATTTGCAT 
    GATGATCGTC TGTCCTACCT GTCAGCTCCA GGTAGTGAAT ACTCAATGTA TAGCACGGAC 
    AGTAGACACA CTTCTGACTA TGAAGACACA GACACAGAAG GCGGGGCCTA CACTGATCAA 
    GAACTAGATG AAACTCTTAA TGATGAGGTT GGGACTCCAC CGGAGTCTGC CATTACACGG 
    TCCTCTGAGC CTGTAAGAGA GGACTCCTCT GGAATGCATC ATGAAAACCA AACATATCCT 
    CCTTACTCAC CACAAGCGCA GCCACAACCA ATTCATAGAA TAGACTCCCC TGGATTTAAG 
    CCAGCCTCTC AACAGAAAGC AGAAGCTTCA TCTCCAGTCC CTTACCTTTC GCCTGAAACA 
    AACCCAGCAT CATCAACCTC TGCTGTTAAT CATAATGTAA ATTTAACTAA TGTCAGACTG 
    GAGGAGCCCA CCCCAGCTCC TTCCACCTCT TACTCACCAC AAGCTGATTC TTTAAGAACA 
    CCAAGTACTG AGGCAGCTCA CATAATGCTA AGAGATCAAG AACCATCATT GTCGTCGCAT 
    GTAGATCCAA CAAAGGTGTA TAGAAAGGAT CCATATCCCG AGGAAATGAT GAGGCAGAAC 
    CATGTTTTGA AACAGCCAGC CGTTAGTCAC CCAGGGCACA GGCCAGACAA AGAGCCTAAT 
    CTGACCTATG AACCCCAACT CCCATACGTA GAGAAACAAG CCAGCAGAGA CCTCGAGCAG 
    CCCACATACA GATACGAGTC CTCAAGCTAT ACGGACCAGT TTTCTCGAAA CTATGAACAT 
    CGTCTGCGAT ACGAAGATCG CGTCCCCATG TATGAAGAAC AGTGGTCATA TTATGATGAC 
    AAACAGCCCT ACCCATCTCG GCCACCTTTT GATAATCAGC ACTCTCAAGA CCTTGACTCC 
    AGACAGCATC CCGAAGAGTC CTCAGAACGA GGGTACTTTC CACGTTTTGA AGAGCCAGCC 
    CCTCTGTCTT ACGACAGCAG ACCACGTTAC GAACAGGCAC CTAGAGCATC CGCCCTGCGG 
    CACGAAGAGC AGCCAGCTCC TGGGTATGAC ACACATGGTA GACTCAGACC GGAAGCCCAG 
    CCCCACCCTT CAGCAGGGCC CAAGCCTGCA GAGTCCAAGC AGTATTTTGA GCAATATTCA 
    CGCAGTTACG AGCAAGTACC ACCCCAAGGA TTTACCTCTA GAGCAGGTCA TTTTGAGCCT 
    CTCCATGGTG CTGCAGCTGT CCCTCCGCTG ATACCTTCAT CTCAGCATAA GCCAGAAGCT 
    CTGCCTTCAA ACACCAAACC ACTGCCTCCA CCCCCAACTC AAACCGAAGA AGAGGAAGAT 
    CCAGCAATGA AGCCACAGTC TGTACTCACC AGAGTTAAGA TGTTTGAAAA CAAAAGATCT 
    GCATCCTTAG AGACCAAGAA GGATGTAAAT GACACTGGCA GTTTTAAGCC TCCAGAAGTA 
    GCATCTAAAC CTTCAGGTGC TCCCATCATT GGTCCCAAAC CCACTTCTCA GAATCAATTC 
    AGTGAACATG ACAAAACTCT GTACAGGATC CCAGAACCTC AAAAACCTCA ACTGAAGCCA 
    CCTGAAGATA TTGTTCGGTC CAATCATTAT GACCCTGAAG AAGATGAAGA ATATTATCGA 
    AAACAGCTGT CATACTTTGA CCGAAGAAGT TTTGAGAATA AGCCTCCTGC ACACATTGCC 
    GCCAGCCATC TCTCCGAGCC TGCAAAGCCA GCGCATTCTC AGAATCAATC AAATTTTTCT 
    AGTTATTCTT CAAAGGGAAA GCCTCCTGAA GCTGATGGTG TGGATAGATC ATTTGGCGAG 
    AAACGCTATG AACCCATCCA GGCCACTCCC CCTCCTCCTC CATTGCCCTC GCAGTATGCC 
    CAGCCATCTC AGCCTGTCAC CAGCGCGTCT CTCCACATAC ATTCTAAGGG AGCACATGGT 
    GAAGGTAATT CAGTGTCATT GGATTTTCAG AATTCCTTAG TGTCCAAACC AGACCCACCT 
    CCATCTCAGA ATAAGCCAGC AACTTTCAGA CCACCAAACC GAGAAGATAC TGCTCAGGCA 
    GCTTTCTATC CCCAGAAAAG TTTTCCAGAT AAAGCCCCAG TTAATGGAAC TGAACAGACT 
    CAGAAAACAG TCACTCCAGC ATACAATCGA TTCACACCAA AACCATATAC AAGTTCTGCC 
    CGACCATTTG AACGCAAGTT TGAAAGTCCT AAATTCAATC ACAATCTTCT GCCAAGTGAA 
    ACTGCACATA AACCTGACTT GTCTTCAAAA ACTCCCACTT CTCCAAAAAC TCTTGTGAAA 
    TCGCACAGTT TGGCACAGCC TCCTGAGTTT GACAGTGGAG TTGAAACTTT CTCTATCCAT 
    GCAGAGAAGC CTAAATATCA AATAAATAAT ATCAGCACAG TGCCTAAAGC TATTCCTGTG 
    AGTCCTTCAG CTGTGGAAGA GGATGAAGAT GAAGATGGTC ATACTGTGGT GGCCACAGCC 
    CGAGGCATAT TTAACAGCAA TGGGGGCGTG CTGAGTTCCA TAGAAACTGG TGTTAGTATA 
    ATTATCCCTC AAGGAGCCAT TCCCGAAGGA GTTGAGCAGG AAATCTATTT CAAGGTCTGC 
    CGGGACAACA GCATCCTTCC ACCTTTAGAT AAAGAGAAAG GTGAAACACT GCTGAGTCCT 
    TTGGTGATGT GTGGTCCCCA TGGCCTCAAG TTCCTGAAGC CTGTGGAGCT GCGCTTACCA 
    CACTGTGCGT CCATGACTCC TGACGGTGAT CCTAAAACCT GGCAAAACAA GTGTCTTCCC 
    GGAGATCCAA ATTATCTCGT TGGAGCAAAC TGTGTTTCTG TCCTTATTGA CCACTTTTAA

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

    TJP1 ( XM_017022529.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016878018.1 Homo sapiens tight junction protein 1 (TJP1), transcript variant X14, mRNA.
    Price & Availability↑
    CloneID OHu85638
    Clone ID Related Accession (Same CDS sequence) XM_017022529.1 , NM_001355014.1 , NM_001355014.2
    Accession Version XM_017022529.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5268bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(Human)
    Product tight junction protein ZO-1 isoform X14
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
    ATGTCCGCCA GAGCTGCGGC CGCCAAGAGC ACAGCAATGG AGGAAACAGC TATATGGGAA 
    CAACATACAG TGACGCTTCA CAGGGCTCCT GGATTTGGAT TTGGAATTGC AATATCTGGT 
    GGACGAGATA ATCCTCATTT TCAGAGTGGG GAAACGTCAA TAGTGATTTC AGATGTGCTG 
    AAAGGAGGAC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAACGGA 
    GTTTCAATGG ATAATGTTGA ACATGCTTTT GCTGTTCAGC AACTAAGGAA AAGTGGGAAA 
    AATGCAAAAA TTACAATTAG AAGGAAGAAG AAAGTTCAAA TACCAGTAAG TCGTCCTGAT 
    CCTGAACCAG TATCTGATAA TGAAGAAGAT AGTTATGATG AGGAAATACA TGATCCAAGA 
    AGTGGCCGGA GTGGTGTGGT TAACAGAAGG AGTGAGAAGA TTTGGCCGAG GGATAGAAGT 
    GCAAGTAGAG AGAGGAGCTT GTCCCCGCGG TCAGACAGGC GGTCAGTGGC TTCCAGCCAG 
    CCTGCTAAAC CTACTAAAGT CACACTGGTG AAATCCCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCAA GCCATATATT TGTTAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGCAATATTC AAGAAGGTGA TGTTGTATTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAGAC ATTGATAGAA AGGTCTAAAG GCAAATTAAA AATGGTAGTT 
    CAAAGAGATG AACGGGCTAC GCTATTGAAT GTCCCTGATC TTTCTGACAG CATCCACTCT 
    GCTAATGCCT CTGAGAGAGA CGACATTTCA GAAATTCAGT CACTGGCATC AGATCATTCT 
    GGTCGATCAC ACGATAGGCC TCCCCGCCGC AGCCGGTCAC GATCTCCTGA CCAGCGGTCA 
    GAGCCTTCTG ATCATTCCAG GCACTCGCCG CAGCAGCCAA GCAATGGCAG TCTCCGGAGT 
    AGAGATGAAG AGAGAATTTC TAAACCTGGG GCTGTCTCAA CTCCTGTAAA GCATGCTGAT 
    GATCACACAC CTAAAACAGT GGAAGAAGTT ACAGTTGAAA GAAATGAGAA ACAAACACCT 
    TCTCTTCCAG AACCAAAGCC TGTGTATGCC CAAGTTGGGC AACCAGATGT GGATTTACCT 
    GTCAGTCCAT CTGATGGTGT CCTACCTAAT TCAACTCATG AAGATGGGAT TCTTCGGCCC 
    AGCATGAAAT TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGGCT GGCTGGTGGA 
    AATGATGTTG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAGGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTA AACAACGTAG ATTTTACAAA TATCATAAGA 
    GAAGAAGCCG TCCTTTTCCT GCTTGACCTC CCTAAAGGAG AAGAAGTGAC CATATTGGCT 
    CAGAAGAAGA AGGATGTTTA TCGTCGCATT GTAGAATCAG ATGTAGGAGA TTCTTTCTAT 
    ATTAGAACCC ATTTTGAATA TGAAAAGGAA TCTCCCTATG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GTGTTGTGGA TACCTTGTAC AATGGAAAAC TGGGCTCTTG GCTTGCTATT 
    CGAATTGGTA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGCTAG CCAGTGTACA GTATACACTT CCAAAAACAG CAGGCGGAGA CCGTGCTGAC 
    TTCTGGAGAT TCAGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAT 
    TTGTCCGCTC AGCCTGTTCA AACAAAGTTT CCAGCTTATG AAAGAGTGGT TCTTCGAGAA 
    GCTGGATTTC TGAGGCCTGT AACCATTTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    CTGGCAAGAG AAGAACCAGA TATTTATCAA ATTGCAAAGA GTGAACCACG AGACGCTGGA 
    ACTGACCAAC GTAGCTCTGG CATTATTCGC CTGCATACAA TAAAGCAAAT CATAGATCAA 
    GACAAACATG CTTTATTAGA TGTAACACCA AATGCAGTTG ATCGTCTTAA CTATGCCCAG 
    TGGTATCCAA TTGTTGTATT TCTTAACCCT GATTCTAAGC AAGGAGTAAA AACAATGAGA 
    ATGAGGTTAT GTCCAGAATC TCGGAAAAGT GCCAGGAAGT TATACGAGCG ATCTCATAAA 
    CTTCGTAAAA ATAATCACCA TCTTTTTACA ACTACAATTA ACTTAAATTC AATGAATGAT 
    GGTTGGTATG GTGCGCTGAA AGAAGCAATT CAACAACAGC AAAACCAGCT GGTATGGGTT 
    TCCGAGGGAA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCTCCAGG TAGTGAATAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA CACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTTGG GACTCCACCG GAGTCTGCCA TTACACGGTC CTCTGAGCCT 
    GTAAGAGAGG ACTCCTCTGG AATGCATCAT GAAAACCAAA CATATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAACCAAT TCATAGAATA GACTCCCCTG GATTTAAGCC AGCCTCTCAA 
    CAGAAAGCAG AAGCTTCATC TCCAGTCCCT TACCTTTCGC CTGAAACAAA CCCAGCATCA 
    TCAACCTCTG CTGTTAATCA TAATGTAAAT TTAACTAATG TCAGACTGGA GGAGCCCACC 
    CCAGCTCCTT CCACCTCTTA CTCACCACAA GCTGATTCTT TAAGAACACC AAGTACTGAG 
    GCAGCTCACA TAATGCTAAG AGATCAAGAA CCATCATTGT CGTCGCATGT AGATCCAACA 
    AAGGTGTATA GAAAGGATCC ATATCCCGAG GAAATGATGA GGCAGAACCA TGTTTTGAAA 
    CAGCCAGCCG TTAGTCACCC AGGGCACAGG CCAGACAAAG AGCCTAATCT GACCTATGAA 
    CCCCAACTCC CATACGTAGA GAAACAAGCC AGCAGAGACC TCGAGCAGCC CACATACAGA 
    TACGAGTCCT CAAGCTATAC GGACCAGTTT TCTCGAAACT ATGAACATCG TCTGCGATAC 
    GAAGATCGCG TCCCCATGTA TGAAGAACAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CCATCTCGGC CACCTTTTGA TAATCAGCAC TCTCAAGACC TTGACTCCAG ACAGCATCCC 
    GAAGAGTCCT CAGAACGAGG GTACTTTCCA CGTTTTGAAG AGCCAGCCCC TCTGTCTTAC 
    GACAGCAGAC CACGTTACGA ACAGGCACCT AGAGCATCCG CCCTGCGGCA CGAAGAGCAG 
    CCAGCTCCTG GGTATGACAC ACATGGTAGA CTCAGACCGG AAGCCCAGCC CCACCCTTCA 
    GCAGGGCCCA AGCCTGCAGA GTCCAAGCAG TATTTTGAGC AATATTCACG CAGTTACGAG 
    CAAGTACCAC CCCAAGGATT TACCTCTAGA GCAGGTCATT TTGAGCCTCT CCATGGTGCT 
    GCAGCTGTCC CTCCGCTGAT ACCTTCATCT CAGCATAAGC CAGAAGCTCT GCCTTCAAAC 
    ACCAAACCAC TGCCTCCACC CCCAACTCAA ACCGAAGAAG AGGAAGATCC AGCAATGAAG 
    CCACAGTCTG TACTCACCAG AGTTAAGATG TTTGAAAACA AAAGATCTGC ATCCTTAGAG 
    ACCAAGAAGG ATGTAAATGA CACTGGCAGT TTTAAGCCTC CAGAAGTAGC ATCTAAACCT 
    TCAGGTGCTC CCATCATTGG TCCCAAACCC ACTTCTCAGA ATCAATTCAG TGAACATGAC 
    AAAACTCTGT ACAGGATCCC AGAACCTCAA AAACCTCAAC TGAAGCCACC TGAAGATATT 
    GTTCGGTCCA ATCATTATGA CCCTGAAGAA GATGAAGAAT ATTATCGAAA ACAGCTGTCA 
    TACTTTGACC GAAGAAGTTT TGAGAATAAG CCTCCTGCAC ACATTGCCGC CAGCCATCTC 
    TCCGAGCCTG CAAAGCCAGC GCATTCTCAG AATCAATCAA ATTTTTCTAG TTATTCTTCA 
    AAGGGAAAGC CTCCTGAAGC TGATGGTGTG GATAGATCAT TTGGCGAGAA ACGCTATGAA 
    CCCATCCAGG CCACTCCCCC TCCTCCTCCA TTGCCCTCGC AGTATGCCCA GCCATCTCAG 
    CCTGTCACCA GCGCGTCTCT CCACATACAT TCTAAGGGAG CACATGGTGA AGGTAATTCA 
    GTGTCATTGG ATTTTCAGAA TTCCTTAGTG TCCAAACCAG ACCCACCTCC ATCTCAGAAT 
    AAGCCAGCAA CTTTCAGACC ACCAAACCGA GAAGATACTG CTCAGGCAGC TTTCTATCCC 
    CAGAAAAGTT TTCCAGATAA AGCCCCAGTT AATGGAACTG AACAGACTCA GAAAACAGTC 
    ACTCCAGCAT ACAATCGATT CACACCAAAA CCATATACAA GTTCTGCCCG ACCATTTGAA 
    CGCAAGTTTG AAAGTCCTAA ATTCAATCAC AATCTTCTGC CAAGTGAAAC TGCACATAAA 
    CCTGACTTGT CTTCAAAAAC TCCCACTTCT CCAAAAACTC TTGTGAAATC GCACAGTTTG 
    GCACAGCCTC CTGAGTTTGA CAGTGGAGTT GAAACTTTCT CTATCCATGC AGAGAAGCCT 
    AAATATCAAA TAAATAATAT CAGCACAGTG CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT 
    GTGGAAGAGG ATGAAGATGA AGATGGTCAT ACTGTGGTGG CCACAGCCCG AGGCATATTT 
    AACAGCAATG GGGGCGTGCT GAGTTCCATA GAAACTGGTG TTAGTATAAT TATCCCTCAA 
    GGAGCCATTC CCGAAGGAGT TGAGCAGGAA ATCTATTTCA AGGTCTGCCG GGACAACAGC 
    ATCCTTCCAC CTTTAGATAA AGAGAAAGGT GAAACACTGC TGAGTCCTTT GGTGATGTGT 
    GGTCCCCATG GCCTCAAGTT CCTGAAGCCT GTGGAGCTGC GCTTACCACA CTGTGCGTCC 
    ATGACTCCTG ACGGTGATCC TAAAACCTGG CAAAACAAGT GTCTTCCCGG AGATCCAAAT 
    TATCTCGTTG GAGCAAACTG TGTTTCTGTC CTTATTGACC ACTTTTAA

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

    RefSeq XP_016878018.1
    CDS107..5374
    Translation

    Target ORF information:

    RefSeq Version XM_017022529.1
    Organism Homo sapiens(Human)
    Definition Homo sapiens tight junction protein 1 (TJP1), transcript variant X14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017022529.1

    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
    ATGTCCGCCA GAGCTGCGGC CGCCAAGAGC ACAGCAATGG AGGAAACAGC TATATGGGAA 
    CAACATACAG TGACGCTTCA CAGGGCTCCT GGATTTGGAT TTGGAATTGC AATATCTGGT 
    GGACGAGATA ATCCTCATTT TCAGAGTGGG GAAACGTCAA TAGTGATTTC AGATGTGCTG 
    AAAGGAGGAC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAACGGA 
    GTTTCAATGG ATAATGTTGA ACATGCTTTT GCTGTTCAGC AACTAAGGAA AAGTGGGAAA 
    AATGCAAAAA TTACAATTAG AAGGAAGAAG AAAGTTCAAA TACCAGTAAG TCGTCCTGAT 
    CCTGAACCAG TATCTGATAA TGAAGAAGAT AGTTATGATG AGGAAATACA TGATCCAAGA 
    AGTGGCCGGA GTGGTGTGGT TAACAGAAGG AGTGAGAAGA TTTGGCCGAG GGATAGAAGT 
    GCAAGTAGAG AGAGGAGCTT GTCCCCGCGG TCAGACAGGC GGTCAGTGGC TTCCAGCCAG 
    CCTGCTAAAC CTACTAAAGT CACACTGGTG AAATCCCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCAA GCCATATATT TGTTAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGCAATATTC AAGAAGGTGA TGTTGTATTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAGAC ATTGATAGAA AGGTCTAAAG GCAAATTAAA AATGGTAGTT 
    CAAAGAGATG AACGGGCTAC GCTATTGAAT GTCCCTGATC TTTCTGACAG CATCCACTCT 
    GCTAATGCCT CTGAGAGAGA CGACATTTCA GAAATTCAGT CACTGGCATC AGATCATTCT 
    GGTCGATCAC ACGATAGGCC TCCCCGCCGC AGCCGGTCAC GATCTCCTGA CCAGCGGTCA 
    GAGCCTTCTG ATCATTCCAG GCACTCGCCG CAGCAGCCAA GCAATGGCAG TCTCCGGAGT 
    AGAGATGAAG AGAGAATTTC TAAACCTGGG GCTGTCTCAA CTCCTGTAAA GCATGCTGAT 
    GATCACACAC CTAAAACAGT GGAAGAAGTT ACAGTTGAAA GAAATGAGAA ACAAACACCT 
    TCTCTTCCAG AACCAAAGCC TGTGTATGCC CAAGTTGGGC AACCAGATGT GGATTTACCT 
    GTCAGTCCAT CTGATGGTGT CCTACCTAAT TCAACTCATG AAGATGGGAT TCTTCGGCCC 
    AGCATGAAAT TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGGCT GGCTGGTGGA 
    AATGATGTTG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAGGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTA AACAACGTAG ATTTTACAAA TATCATAAGA 
    GAAGAAGCCG TCCTTTTCCT GCTTGACCTC CCTAAAGGAG AAGAAGTGAC CATATTGGCT 
    CAGAAGAAGA AGGATGTTTA TCGTCGCATT GTAGAATCAG ATGTAGGAGA TTCTTTCTAT 
    ATTAGAACCC ATTTTGAATA TGAAAAGGAA TCTCCCTATG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GTGTTGTGGA TACCTTGTAC AATGGAAAAC TGGGCTCTTG GCTTGCTATT 
    CGAATTGGTA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGCTAG CCAGTGTACA GTATACACTT CCAAAAACAG CAGGCGGAGA CCGTGCTGAC 
    TTCTGGAGAT TCAGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAT 
    TTGTCCGCTC AGCCTGTTCA AACAAAGTTT CCAGCTTATG AAAGAGTGGT TCTTCGAGAA 
    GCTGGATTTC TGAGGCCTGT AACCATTTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    CTGGCAAGAG AAGAACCAGA TATTTATCAA ATTGCAAAGA GTGAACCACG AGACGCTGGA 
    ACTGACCAAC GTAGCTCTGG CATTATTCGC CTGCATACAA TAAAGCAAAT CATAGATCAA 
    GACAAACATG CTTTATTAGA TGTAACACCA AATGCAGTTG ATCGTCTTAA CTATGCCCAG 
    TGGTATCCAA TTGTTGTATT TCTTAACCCT GATTCTAAGC AAGGAGTAAA AACAATGAGA 
    ATGAGGTTAT GTCCAGAATC TCGGAAAAGT GCCAGGAAGT TATACGAGCG ATCTCATAAA 
    CTTCGTAAAA ATAATCACCA TCTTTTTACA ACTACAATTA ACTTAAATTC AATGAATGAT 
    GGTTGGTATG GTGCGCTGAA AGAAGCAATT CAACAACAGC AAAACCAGCT GGTATGGGTT 
    TCCGAGGGAA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCTCCAGG TAGTGAATAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA CACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTTGG GACTCCACCG GAGTCTGCCA TTACACGGTC CTCTGAGCCT 
    GTAAGAGAGG ACTCCTCTGG AATGCATCAT GAAAACCAAA CATATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAACCAAT TCATAGAATA GACTCCCCTG GATTTAAGCC AGCCTCTCAA 
    CAGAAAGCAG AAGCTTCATC TCCAGTCCCT TACCTTTCGC CTGAAACAAA CCCAGCATCA 
    TCAACCTCTG CTGTTAATCA TAATGTAAAT TTAACTAATG TCAGACTGGA GGAGCCCACC 
    CCAGCTCCTT CCACCTCTTA CTCACCACAA GCTGATTCTT TAAGAACACC AAGTACTGAG 
    GCAGCTCACA TAATGCTAAG AGATCAAGAA CCATCATTGT CGTCGCATGT AGATCCAACA 
    AAGGTGTATA GAAAGGATCC ATATCCCGAG GAAATGATGA GGCAGAACCA TGTTTTGAAA 
    CAGCCAGCCG TTAGTCACCC AGGGCACAGG CCAGACAAAG AGCCTAATCT GACCTATGAA 
    CCCCAACTCC CATACGTAGA GAAACAAGCC AGCAGAGACC TCGAGCAGCC CACATACAGA 
    TACGAGTCCT CAAGCTATAC GGACCAGTTT TCTCGAAACT ATGAACATCG TCTGCGATAC 
    GAAGATCGCG TCCCCATGTA TGAAGAACAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CCATCTCGGC CACCTTTTGA TAATCAGCAC TCTCAAGACC TTGACTCCAG ACAGCATCCC 
    GAAGAGTCCT CAGAACGAGG GTACTTTCCA CGTTTTGAAG AGCCAGCCCC TCTGTCTTAC 
    GACAGCAGAC CACGTTACGA ACAGGCACCT AGAGCATCCG CCCTGCGGCA CGAAGAGCAG 
    CCAGCTCCTG GGTATGACAC ACATGGTAGA CTCAGACCGG AAGCCCAGCC CCACCCTTCA 
    GCAGGGCCCA AGCCTGCAGA GTCCAAGCAG TATTTTGAGC AATATTCACG CAGTTACGAG 
    CAAGTACCAC CCCAAGGATT TACCTCTAGA GCAGGTCATT TTGAGCCTCT CCATGGTGCT 
    GCAGCTGTCC CTCCGCTGAT ACCTTCATCT CAGCATAAGC CAGAAGCTCT GCCTTCAAAC 
    ACCAAACCAC TGCCTCCACC CCCAACTCAA ACCGAAGAAG AGGAAGATCC AGCAATGAAG 
    CCACAGTCTG TACTCACCAG AGTTAAGATG TTTGAAAACA AAAGATCTGC ATCCTTAGAG 
    ACCAAGAAGG ATGTAAATGA CACTGGCAGT TTTAAGCCTC CAGAAGTAGC ATCTAAACCT 
    TCAGGTGCTC CCATCATTGG TCCCAAACCC ACTTCTCAGA ATCAATTCAG TGAACATGAC 
    AAAACTCTGT ACAGGATCCC AGAACCTCAA AAACCTCAAC TGAAGCCACC TGAAGATATT 
    GTTCGGTCCA ATCATTATGA CCCTGAAGAA GATGAAGAAT ATTATCGAAA ACAGCTGTCA 
    TACTTTGACC GAAGAAGTTT TGAGAATAAG CCTCCTGCAC ACATTGCCGC CAGCCATCTC 
    TCCGAGCCTG CAAAGCCAGC GCATTCTCAG AATCAATCAA ATTTTTCTAG TTATTCTTCA 
    AAGGGAAAGC CTCCTGAAGC TGATGGTGTG GATAGATCAT TTGGCGAGAA ACGCTATGAA 
    CCCATCCAGG CCACTCCCCC TCCTCCTCCA TTGCCCTCGC AGTATGCCCA GCCATCTCAG 
    CCTGTCACCA GCGCGTCTCT CCACATACAT TCTAAGGGAG CACATGGTGA AGGTAATTCA 
    GTGTCATTGG ATTTTCAGAA TTCCTTAGTG TCCAAACCAG ACCCACCTCC ATCTCAGAAT 
    AAGCCAGCAA CTTTCAGACC ACCAAACCGA GAAGATACTG CTCAGGCAGC TTTCTATCCC 
    CAGAAAAGTT TTCCAGATAA AGCCCCAGTT AATGGAACTG AACAGACTCA GAAAACAGTC 
    ACTCCAGCAT ACAATCGATT CACACCAAAA CCATATACAA GTTCTGCCCG ACCATTTGAA 
    CGCAAGTTTG AAAGTCCTAA ATTCAATCAC AATCTTCTGC CAAGTGAAAC TGCACATAAA 
    CCTGACTTGT CTTCAAAAAC TCCCACTTCT CCAAAAACTC TTGTGAAATC GCACAGTTTG 
    GCACAGCCTC CTGAGTTTGA CAGTGGAGTT GAAACTTTCT CTATCCATGC AGAGAAGCCT 
    AAATATCAAA TAAATAATAT CAGCACAGTG CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT 
    GTGGAAGAGG ATGAAGATGA AGATGGTCAT ACTGTGGTGG CCACAGCCCG AGGCATATTT 
    AACAGCAATG GGGGCGTGCT GAGTTCCATA GAAACTGGTG TTAGTATAAT TATCCCTCAA 
    GGAGCCATTC CCGAAGGAGT TGAGCAGGAA ATCTATTTCA AGGTCTGCCG GGACAACAGC 
    ATCCTTCCAC CTTTAGATAA AGAGAAAGGT GAAACACTGC TGAGTCCTTT GGTGATGTGT 
    GGTCCCCATG GCCTCAAGTT CCTGAAGCCT GTGGAGCTGC GCTTACCACA CTGTGCGTCC 
    ATGACTCCTG ACGGTGATCC TAAAACCTGG CAAAACAAGT GTCTTCCCGG AGATCCAAAT 
    TATCTCGTTG GAGCAAACTG TGTTTCTGTC CTTATTGACC ACTTTTAA

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

    TJP1 ( XM_017022530.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016878019.1 Homo sapiens tight junction protein 1 (TJP1), transcript variant X15, mRNA.
    Price & Availability↑
    CloneID OHu85639
    Clone ID Related Accession (Same CDS sequence) XM_017022530.1 , NM_001355015.1 , NM_001355015.2
    Accession Version XM_017022530.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5067bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(Human)
    Product tight junction protein ZO-1 isoform X15
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
    ATGTCCGCCA GAGCTGCGGC CGCCAAGAGC ACAGCAATGG AGGAAACAGC TATATGGGAA 
    CAACATACAG TGACGCTTCA CAGGGCTCCT GGATTTGGAT TTGGAATTGC AATATCTGGT 
    GGACGAGATA ATCCTCATTT TCAGAGTGGG GAAACGTCAA TAGTGATTTC AGATGTGCTG 
    AAAGGAGGAC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAACGGA 
    GTTTCAATGG ATAATGTTGA ACATGCTTTT GCTGTTCAGC AACTAAGGAA AAGTGGGAAA 
    AATGCAAAAA TTACAATTAG AAGGAAGAAG AAAGTTCAAA TACCAGTAAG TCGTCCTGAT 
    CCTGAACCAG TATCTGATAA TGAAGAAGAT AGTTATGATG AGGAAATACA TGATCCAAGA 
    AGTGGCCGGA GTGGTGTGGT TAACAGAAGG AGTGAGAAGA TTTGGCCGAG GGATAGAAGT 
    GCAAGTAGAG AGAGGAGCTT GTCCCCGCGG TCAGACAGGC GGTCAGTGGC TTCCAGCCAG 
    CCTGCTAAAC CTACTAAAGT CACACTGGTG AAATCCCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCAA GCCATATATT TGTTAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGCAATATTC AAGAAGGTGA TGTTGTATTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAGAC ATTGATAGAA AGGTCTAAAG GCAAATTAAA AATGGTAGTT 
    CAAAGAGATG AACGGGCTAC GCTATTGAAT GTCCCTGATC TTTCTGACAG CATCCACTCT 
    GCTAATGCCT CTGAGAGAGA CGACATTTCA GAAATTCAGT CACTGGCATC AGATCATTCT 
    GGTCGATCAC ACGATAGGCC TCCCCGCCGC AGCCGGTCAC GATCTCCTGA CCAGCGGTCA 
    GAGCCTTCTG ATCATTCCAG GCACTCGCCG CAGCAGCCAA GCAATGGCAG TCTCCGGAGT 
    AGAGATGAAG AGAGAATTTC TAAACCTGGG GCTGTCTCAA CTCCTGTAAA GCATGCTGAT 
    GATCACACAC CTAAAACAGT GGAAGAAGTT ACAGTTGAAA GAAATGAGAA ACAAACACCT 
    TCTCTTCCAG AACCAAAGCC TGTGTATGCC CAAGTTGGGC AACCAGATGT GGATTTACCT 
    GTCAGTCCAT CTGATGGTGT CCTACCTAAT TCAACTCATG AAGATGGGAT TCTTCGGCCC 
    AGCATGAAAT TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGGCT GGCTGGTGGA 
    AATGATGTTG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAGGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTA AACAACGTAG ATTTTACAAA TATCATAAGA 
    GAAGAAGCCG TCCTTTTCCT GCTTGACCTC CCTAAAGGAG AAGAAGTGAC CATATTGGCT 
    CAGAAGAAGA AGGATGTTTA TCGTCGCATT GTAGAATCAG ATGTAGGAGA TTCTTTCTAT 
    ATTAGAACCC ATTTTGAATA TGAAAAGGAA TCTCCCTATG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GTGTTGTGGA TACCTTGTAC AATGGAAAAC TGGGCTCTTG GCTTGCTATT 
    CGAATTGGTA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGCTAG CCAGTGTACA GTATACACTT CCAAAAACAG CAGGCGGAGA CCGTGCTGAC 
    TTCTGGAGAT TCAGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAT 
    TTGTCCGCTC AGCCTGTTCA AACAAAGTTT CCAGCTTATG AAAGAGTGGT TCTTCGAGAA 
    GCTGGATTTC TGAGGCCTGT AACCATTTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    CTGGCAAGAG AAGAACCAGA TATTTATCAA ATTGCAAAGA GTGAACCACG AGACGCTGGA 
    ACTGACCAAC GTAGCTCTGG CATTATTCGC CTGCATACAA TAAAGCAAAT CATAGATCAA 
    GACAAACATG CTTTATTAGA TGTAACACCA AATGCAGTTG ATCGTCTTAA CTATGCCCAG 
    TGGTATCCAA TTGTTGTATT TCTTAACCCT GATTCTAAGC AAGGAGTAAA AACAATGAGA 
    ATGAGGTTAT GTCCAGAATC TCGGAAAAGT GCCAGGAAGT TATACGAGCG ATCTCATAAA 
    CTTCGTAAAA ATAATCACCA TCTTTTTACA ACTACAATTA ACTTAAATTC AATGAATGAT 
    GGTTGGTATG GTGCGCTGAA AGAAGCAATT CAACAACAGC AAAACCAGCT GGTATGGGTT 
    TCCGAGGGAA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCTCCAGG TAGTGAATAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA CACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTTGG GACTCCACCG GAGTCTGCCA TTACACGGTC CTCTGAGCCT 
    GTAAGAGAGG ACTCCTCTGG AATGCATCAT GAAAACCAAA CATATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAACCAAT TCATAGAATA GACTCCCCTG GATTTAAGCC AGCCTCTCAA 
    CAGGTGTATA GAAAGGATCC ATATCCCGAG GAAATGATGA GGCAGAACCA TGTTTTGAAA 
    CAGCCAGCCG TTAGTCACCC AGGGCACAGG CCAGACAAAG AGCCTAATCT GACCTATGAA 
    CCCCAACTCC CATACGTAGA GAAACAAGCC AGCAGAGACC TCGAGCAGCC CACATACAGA 
    TACGAGTCCT CAAGCTATAC GGACCAGTTT TCTCGAAACT ATGAACATCG TCTGCGATAC 
    GAAGATCGCG TCCCCATGTA TGAAGAACAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CCATCTCGGC CACCTTTTGA TAATCAGCAC TCTCAAGACC TTGACTCCAG ACAGCATCCC 
    GAAGAGTCCT CAGAACGAGG GTACTTTCCA CGTTTTGAAG AGCCAGCCCC TCTGTCTTAC 
    GACAGCAGAC CACGTTACGA ACAGGCACCT AGAGCATCCG CCCTGCGGCA CGAAGAGCAG 
    CCAGCTCCTG GGTATGACAC ACATGGTAGA CTCAGACCGG AAGCCCAGCC CCACCCTTCA 
    GCAGGGCCCA AGCCTGCAGA GTCCAAGCAG TATTTTGAGC AATATTCACG CAGTTACGAG 
    CAAGTACCAC CCCAAGGATT TACCTCTAGA GCAGGTCATT TTGAGCCTCT CCATGGTGCT 
    GCAGCTGTCC CTCCGCTGAT ACCTTCATCT CAGCATAAGC CAGAAGCTCT GCCTTCAAAC 
    ACCAAACCAC TGCCTCCACC CCCAACTCAA ACCGAAGAAG AGGAAGATCC AGCAATGAAG 
    CCACAGTCTG TACTCACCAG AGTTAAGATG TTTGAAAACA AAAGATCTGC ATCCTTAGAG 
    ACCAAGAAGG ATGTAAATGA CACTGGCAGT TTTAAGCCTC CAGAAGTAGC ATCTAAACCT 
    TCAGGTGCTC CCATCATTGG TCCCAAACCC ACTTCTCAGA ATCAATTCAG TGAACATGAC 
    AAAACTCTGT ACAGGATCCC AGAACCTCAA AAACCTCAAC TGAAGCCACC TGAAGATATT 
    GTTCGGTCCA ATCATTATGA CCCTGAAGAA GATGAAGAAT ATTATCGAAA ACAGCTGTCA 
    TACTTTGACC GAAGAAGTTT TGAGAATAAG CCTCCTGCAC ACATTGCCGC CAGCCATCTC 
    TCCGAGCCTG CAAAGCCAGC GCATTCTCAG AATCAATCAA ATTTTTCTAG TTATTCTTCA 
    AAGGGAAAGC CTCCTGAAGC TGATGGTGTG GATAGATCAT TTGGCGAGAA ACGCTATGAA 
    CCCATCCAGG CCACTCCCCC TCCTCCTCCA TTGCCCTCGC AGTATGCCCA GCCATCTCAG 
    CCTGTCACCA GCGCGTCTCT CCACATACAT TCTAAGGGAG CACATGGTGA AGGTAATTCA 
    GTGTCATTGG ATTTTCAGAA TTCCTTAGTG TCCAAACCAG ACCCACCTCC ATCTCAGAAT 
    AAGCCAGCAA CTTTCAGACC ACCAAACCGA GAAGATACTG CTCAGGCAGC TTTCTATCCC 
    CAGAAAAGTT TTCCAGATAA AGCCCCAGTT AATGGAACTG AACAGACTCA GAAAACAGTC 
    ACTCCAGCAT ACAATCGATT CACACCAAAA CCATATACAA GTTCTGCCCG ACCATTTGAA 
    CGCAAGTTTG AAAGTCCTAA ATTCAATCAC AATCTTCTGC CAAGTGAAAC TGCACATAAA 
    CCTGACTTGT CTTCAAAAAC TCCCACTTCT CCAAAAACTC TTGTGAAATC GCACAGTTTG 
    GCACAGCCTC CTGAGTTTGA CAGTGGAGTT GAAACTTTCT CTATCCATGC AGAGAAGCCT 
    AAATATCAAA TAAATAATAT CAGCACAGTG CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT 
    GTGGAAGAGG ATGAAGATGA AGATGGTCAT ACTGTGGTGG CCACAGCCCG AGGCATATTT 
    AACAGCAATG GGGGCGTGCT GAGTTCCATA GAAACTGGTG TTAGTATAAT TATCCCTCAA 
    GGAGCCATTC CCGAAGGAGT TGAGCAGGAA ATCTATTTCA AGGTCTGCCG GGACAACAGC 
    ATCCTTCCAC CTTTAGATAA AGAGAAAGGT GAAACACTGC TGAGTCCTTT GGTGATGTGT 
    GGTCCCCATG GCCTCAAGTT CCTGAAGCCT GTGGAGCTGC GCTTACCACA CTGTGCGTCC 
    ATGACTCCTG ACGGTTGGTC TTTTGCTCTA AAATCATCCG ACTCCTCGTC GGGTGATCCT 
    AAAACCTGGC AAAACAAGTG TCTTCCCGGA GATCCAAATT ATCTCGTTGG AGCAAACTGT 
    GTTTCTGTCC TTATTGACCA CTTTTAA

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

    RefSeq XP_016878019.1
    CDS107..5173
    Translation

    Target ORF information:

    RefSeq Version XM_017022530.1
    Organism Homo sapiens(Human)
    Definition Homo sapiens tight junction protein 1 (TJP1), transcript variant X15, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017022530.1

    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
    ATGTCCGCCA GAGCTGCGGC CGCCAAGAGC ACAGCAATGG AGGAAACAGC TATATGGGAA 
    CAACATACAG TGACGCTTCA CAGGGCTCCT GGATTTGGAT TTGGAATTGC AATATCTGGT 
    GGACGAGATA ATCCTCATTT TCAGAGTGGG GAAACGTCAA TAGTGATTTC AGATGTGCTG 
    AAAGGAGGAC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAACGGA 
    GTTTCAATGG ATAATGTTGA ACATGCTTTT GCTGTTCAGC AACTAAGGAA AAGTGGGAAA 
    AATGCAAAAA TTACAATTAG AAGGAAGAAG AAAGTTCAAA TACCAGTAAG TCGTCCTGAT 
    CCTGAACCAG TATCTGATAA TGAAGAAGAT AGTTATGATG AGGAAATACA TGATCCAAGA 
    AGTGGCCGGA GTGGTGTGGT TAACAGAAGG AGTGAGAAGA TTTGGCCGAG GGATAGAAGT 
    GCAAGTAGAG AGAGGAGCTT GTCCCCGCGG TCAGACAGGC GGTCAGTGGC TTCCAGCCAG 
    CCTGCTAAAC CTACTAAAGT CACACTGGTG AAATCCCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCAA GCCATATATT TGTTAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGCAATATTC AAGAAGGTGA TGTTGTATTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAGAC ATTGATAGAA AGGTCTAAAG GCAAATTAAA AATGGTAGTT 
    CAAAGAGATG AACGGGCTAC GCTATTGAAT GTCCCTGATC TTTCTGACAG CATCCACTCT 
    GCTAATGCCT CTGAGAGAGA CGACATTTCA GAAATTCAGT CACTGGCATC AGATCATTCT 
    GGTCGATCAC ACGATAGGCC TCCCCGCCGC AGCCGGTCAC GATCTCCTGA CCAGCGGTCA 
    GAGCCTTCTG ATCATTCCAG GCACTCGCCG CAGCAGCCAA GCAATGGCAG TCTCCGGAGT 
    AGAGATGAAG AGAGAATTTC TAAACCTGGG GCTGTCTCAA CTCCTGTAAA GCATGCTGAT 
    GATCACACAC CTAAAACAGT GGAAGAAGTT ACAGTTGAAA GAAATGAGAA ACAAACACCT 
    TCTCTTCCAG AACCAAAGCC TGTGTATGCC CAAGTTGGGC AACCAGATGT GGATTTACCT 
    GTCAGTCCAT CTGATGGTGT CCTACCTAAT TCAACTCATG AAGATGGGAT TCTTCGGCCC 
    AGCATGAAAT TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGGCT GGCTGGTGGA 
    AATGATGTTG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAGGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTA AACAACGTAG ATTTTACAAA TATCATAAGA 
    GAAGAAGCCG TCCTTTTCCT GCTTGACCTC CCTAAAGGAG AAGAAGTGAC CATATTGGCT 
    CAGAAGAAGA AGGATGTTTA TCGTCGCATT GTAGAATCAG ATGTAGGAGA TTCTTTCTAT 
    ATTAGAACCC ATTTTGAATA TGAAAAGGAA TCTCCCTATG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GTGTTGTGGA TACCTTGTAC AATGGAAAAC TGGGCTCTTG GCTTGCTATT 
    CGAATTGGTA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGCTAG CCAGTGTACA GTATACACTT CCAAAAACAG CAGGCGGAGA CCGTGCTGAC 
    TTCTGGAGAT TCAGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAT 
    TTGTCCGCTC AGCCTGTTCA AACAAAGTTT CCAGCTTATG AAAGAGTGGT TCTTCGAGAA 
    GCTGGATTTC TGAGGCCTGT AACCATTTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    CTGGCAAGAG AAGAACCAGA TATTTATCAA ATTGCAAAGA GTGAACCACG AGACGCTGGA 
    ACTGACCAAC GTAGCTCTGG CATTATTCGC CTGCATACAA TAAAGCAAAT CATAGATCAA 
    GACAAACATG CTTTATTAGA TGTAACACCA AATGCAGTTG ATCGTCTTAA CTATGCCCAG 
    TGGTATCCAA TTGTTGTATT TCTTAACCCT GATTCTAAGC AAGGAGTAAA AACAATGAGA 
    ATGAGGTTAT GTCCAGAATC TCGGAAAAGT GCCAGGAAGT TATACGAGCG ATCTCATAAA 
    CTTCGTAAAA ATAATCACCA TCTTTTTACA ACTACAATTA ACTTAAATTC AATGAATGAT 
    GGTTGGTATG GTGCGCTGAA AGAAGCAATT CAACAACAGC AAAACCAGCT GGTATGGGTT 
    TCCGAGGGAA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCTCCAGG TAGTGAATAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA CACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTTGG GACTCCACCG GAGTCTGCCA TTACACGGTC CTCTGAGCCT 
    GTAAGAGAGG ACTCCTCTGG AATGCATCAT GAAAACCAAA CATATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAACCAAT TCATAGAATA GACTCCCCTG GATTTAAGCC AGCCTCTCAA 
    CAGGTGTATA GAAAGGATCC ATATCCCGAG GAAATGATGA GGCAGAACCA TGTTTTGAAA 
    CAGCCAGCCG TTAGTCACCC AGGGCACAGG CCAGACAAAG AGCCTAATCT GACCTATGAA 
    CCCCAACTCC CATACGTAGA GAAACAAGCC AGCAGAGACC TCGAGCAGCC CACATACAGA 
    TACGAGTCCT CAAGCTATAC GGACCAGTTT TCTCGAAACT ATGAACATCG TCTGCGATAC 
    GAAGATCGCG TCCCCATGTA TGAAGAACAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CCATCTCGGC CACCTTTTGA TAATCAGCAC TCTCAAGACC TTGACTCCAG ACAGCATCCC 
    GAAGAGTCCT CAGAACGAGG GTACTTTCCA CGTTTTGAAG AGCCAGCCCC TCTGTCTTAC 
    GACAGCAGAC CACGTTACGA ACAGGCACCT AGAGCATCCG CCCTGCGGCA CGAAGAGCAG 
    CCAGCTCCTG GGTATGACAC ACATGGTAGA CTCAGACCGG AAGCCCAGCC CCACCCTTCA 
    GCAGGGCCCA AGCCTGCAGA GTCCAAGCAG TATTTTGAGC AATATTCACG CAGTTACGAG 
    CAAGTACCAC CCCAAGGATT TACCTCTAGA GCAGGTCATT TTGAGCCTCT CCATGGTGCT 
    GCAGCTGTCC CTCCGCTGAT ACCTTCATCT CAGCATAAGC CAGAAGCTCT GCCTTCAAAC 
    ACCAAACCAC TGCCTCCACC CCCAACTCAA ACCGAAGAAG AGGAAGATCC AGCAATGAAG 
    CCACAGTCTG TACTCACCAG AGTTAAGATG TTTGAAAACA AAAGATCTGC ATCCTTAGAG 
    ACCAAGAAGG ATGTAAATGA CACTGGCAGT TTTAAGCCTC CAGAAGTAGC ATCTAAACCT 
    TCAGGTGCTC CCATCATTGG TCCCAAACCC ACTTCTCAGA ATCAATTCAG TGAACATGAC 
    AAAACTCTGT ACAGGATCCC AGAACCTCAA AAACCTCAAC TGAAGCCACC TGAAGATATT 
    GTTCGGTCCA ATCATTATGA CCCTGAAGAA GATGAAGAAT ATTATCGAAA ACAGCTGTCA 
    TACTTTGACC GAAGAAGTTT TGAGAATAAG CCTCCTGCAC ACATTGCCGC CAGCCATCTC 
    TCCGAGCCTG CAAAGCCAGC GCATTCTCAG AATCAATCAA ATTTTTCTAG TTATTCTTCA 
    AAGGGAAAGC CTCCTGAAGC TGATGGTGTG GATAGATCAT TTGGCGAGAA ACGCTATGAA 
    CCCATCCAGG CCACTCCCCC TCCTCCTCCA TTGCCCTCGC AGTATGCCCA GCCATCTCAG 
    CCTGTCACCA GCGCGTCTCT CCACATACAT TCTAAGGGAG CACATGGTGA AGGTAATTCA 
    GTGTCATTGG ATTTTCAGAA TTCCTTAGTG TCCAAACCAG ACCCACCTCC ATCTCAGAAT 
    AAGCCAGCAA CTTTCAGACC ACCAAACCGA GAAGATACTG CTCAGGCAGC TTTCTATCCC 
    CAGAAAAGTT TTCCAGATAA AGCCCCAGTT AATGGAACTG AACAGACTCA GAAAACAGTC 
    ACTCCAGCAT ACAATCGATT CACACCAAAA CCATATACAA GTTCTGCCCG ACCATTTGAA 
    CGCAAGTTTG AAAGTCCTAA ATTCAATCAC AATCTTCTGC CAAGTGAAAC TGCACATAAA 
    CCTGACTTGT CTTCAAAAAC TCCCACTTCT CCAAAAACTC TTGTGAAATC GCACAGTTTG 
    GCACAGCCTC CTGAGTTTGA CAGTGGAGTT GAAACTTTCT CTATCCATGC AGAGAAGCCT 
    AAATATCAAA TAAATAATAT CAGCACAGTG CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT 
    GTGGAAGAGG ATGAAGATGA AGATGGTCAT ACTGTGGTGG CCACAGCCCG AGGCATATTT 
    AACAGCAATG GGGGCGTGCT GAGTTCCATA GAAACTGGTG TTAGTATAAT TATCCCTCAA 
    GGAGCCATTC CCGAAGGAGT TGAGCAGGAA ATCTATTTCA AGGTCTGCCG GGACAACAGC 
    ATCCTTCCAC CTTTAGATAA AGAGAAAGGT GAAACACTGC TGAGTCCTTT GGTGATGTGT 
    GGTCCCCATG GCCTCAAGTT CCTGAAGCCT GTGGAGCTGC GCTTACCACA CTGTGCGTCC 
    ATGACTCCTG ACGGTTGGTC TTTTGCTCTA AAATCATCCG ACTCCTCGTC GGGTGATCCT 
    AAAACCTGGC AAAACAAGTG TCTTCCCGGA GATCCAAATT ATCTCGTTGG AGCAAACTGT 
    GTTTCTGTCC TTATTGACCA CTTTTAA

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

    TJP1 ( NM_001301025.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001287954.1 Homo sapiens tight junction protein 1 (TJP1), transcript variant 3, mRNA.
    Price & Availability↑
    CloneID OHu48519
    Clone ID Related Accession (Same CDS sequence) NM_001301025.1
    Accession Version NM_001301025.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5508bp)
    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 2017-04-22
    Organism Homo sapiens(Human)
    Product tight junction protein ZO-1 isoform c
    Comment VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from CN372462.1, AB370197.1, AC022613.13 and AF035298.1. On or before Jul 18, 2014 this sequence version replaced XM_006725553.1, XM_005254616.1. Transcript Variant: This variant (3) contains alternate 5' exon structure and it thus differs in the 5' UTR and 5' coding region, and it uses an alternate in-frame splice site in the 3' coding region, compared to variant 1. The encoded isoform (c) has a distinct N-terminus and is longer than isoform a. The exon combination of this variant is inferred based on partial transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## inferred exon combination :: based on alignments, homology ##RefSeq-Attributes-END## COMPLETENESS: complete on the 3' 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 CCCCTCCAAC 
    CGCGGCAGCC TCCTGCCGCT CAAGAGGAAG CTGTGGGTAA CGCCATCCTC TGAAAATCCT 
    AATGGTGCTA CTTCTAGTGT CAGCCAAGGA AAACCCTCTT TAAGACGAAT TAAAGGGAGA 
    TTACACAGAA GCAAAAGCCT TGATAGCATG GATTTCTGTG AGCTCACTAG CACAGCAATG 
    GAGGAAACAG CTATATGGGA ACAACATACA GTGACGCTTC ACAGGGCTCC TGGATTTGGA 
    TTTGGAATTG CAATATCTGG TGGACGAGAT AATCCTCATT TTCAGAGTGG GGAAACGTCA 
    ATAGTGATTT CAGATGTGCT GAAAGGAGGA CCAGCTGAAG GACAGCTACA GGAAAATGAC 
    CGAGTTGCAA TGGTTAACGG AGTTTCAATG GATAATGTTG AACATGCTTT TGCTGTTCAG 
    CAACTAAGGA AAAGTGGGAA AAATGCAAAA ATTACAATTA GAAGGAAGAA GAAAGTTCAA 
    ATACCAGTAA GTCGTCCTGA TCCTGAACCA GTATCTGATA ATGAAGAAGA TAGTTATGAT 
    GAGGAAATAC ATGATCCAAG AAGTGGCCGG AGTGGTGTGG TTAACAGAAG GAGTGAGAAG 
    ATTTGGCCGA GGGATAGAAG TGCAAGTAGA GAGAGGAGCT TGTCCCCGCG GTCAGACAGG 
    CGGTCAGTGG CTTCCAGCCA GCCTGCTAAA CCTACTAAAG TCACACTGGT GAAATCCCGG 
    AAAAATGAAG AATATGGTCT TCGATTGGCA AGCCATATAT TTGTTAAGGA AATTTCACAA 
    GATAGTTTGG CAGCAAGAGA TGGCAATATT CAAGAAGGTG ATGTTGTATT GAAGATAAAT 
    GGTACTGTGA CAGAAAATAT GTCATTGACA GATGCAAAGA CATTGATAGA AAGGTCTAAA 
    GGCAAATTAA AAATGGTAGT TCAAAGAGAT GAACGGGCTA CGCTATTGAA TGTCCCTGAT 
    CTTTCTGACA GCATCCACTC TGCTAATGCC TCTGAGAGAG ACGACATTTC AGAAATTCAG 
    TCACTGGCAT CAGATCATTC TGGTCGATCA CACGATAGGC CTCCCCGCCG CAGCCGGTCA 
    CGATCTCCTG ACCAGCGGTC AGAGCCTTCT GATCATTCCA GGCACTCGCC GCAGCAGCCA 
    AGCAATGGCA GTCTCCGGAG TAGAGATGAA GAGAGAATTT CTAAACCTGG GGCTGTCTCA 
    ACTCCTGTAA AGCATGCTGA TGATCACACA CCTAAAACAG TGGAAGAAGT TACAGTTGAA 
    AGAAATGAGA AACAAACACC TTCTCTTCCA GAACCAAAGC CTGTGTATGC CCAAGTTGGG 
    CAACCAGATG TGGATTTACC TGTCAGTCCA TCTGATGGTG TCCTACCTAA TTCAACTCAT 
    GAAGATGGGA TTCTTCGGCC CAGCATGAAA TTGGTAAAAT TCAGAAAAGG AGATAGTGTG 
    GGTTTGCGGC TGGCTGGTGG AAATGATGTT GGAATATTTG TAGCTGGCGT TCTAGAAGAT 
    AGCCCTGCAG CCAAGGAAGG CTTAGAGGAA GGTGATCAAA TTCTCAGGGT AAACAACGTA 
    GATTTTACAA ATATCATAAG AGAAGAAGCC GTCCTTTTCC TGCTTGACCT CCCTAAAGGA 
    GAAGAAGTGA CCATATTGGC TCAGAAGAAG AAGGATGTTT ATCGTCGCAT TGTAGAATCA 
    GATGTAGGAG ATTCTTTCTA TATTAGAACC CATTTTGAAT ATGAAAAGGA ATCTCCCTAT 
    GGACTTAGTT TTAACAAAGG AGAGGTGTTC CGTGTTGTGG ATACCTTGTA CAATGGAAAA 
    CTGGGCTCTT GGCTTGCTAT TCGAATTGGT AAAAATCATA AGGAGGTAGA ACGAGGCATC 
    ATCCCTAATA AGAACAGAGC TGAGCAGCTA GCCAGTGTAC AGTATACACT TCCAAAAACA 
    GCAGGCGGAG ACCGTGCTGA CTTCTGGAGA TTCAGAGGTC TTCGCAGCTC CAAGAGAAAT 
    CTTCGAAAAA GCAGAGAGGA TTTGTCCGCT CAGCCTGTTC AAACAAAGTT TCCAGCTTAT 
    GAAAGAGTGG TTCTTCGAGA AGCTGGATTT CTGAGGCCTG TAACCATTTT TGGACCAATA 
    GCTGATGTTG CCAGAGAAAA GCTGGCAAGA GAAGAACCAG ATATTTATCA AATTGCAAAG 
    AGTGAACCAC GAGACGCTGG AACTGACCAA CGTAGCTCTG GCATTATTCG CCTGCATACA 
    ATAAAGCAAA TCATAGATCA AGACAAACAT GCTTTATTAG ATGTAACACC AAATGCAGTT 
    GATCGTCTTA ACTATGCCCA GTGGTATCCA ATTGTTGTAT TTCTTAACCC TGATTCTAAG 
    CAAGGAGTAA AAACAATGAG AATGAGGTTA TGTCCAGAAT CTCGGAAAAG TGCCAGGAAG 
    TTATACGAGC GATCTCATAA ACTTCGTAAA AATAATCACC ATCTTTTTAC AACTACAATT 
    AACTTAAATT CAATGAATGA TGGTTGGTAT GGTGCGCTGA AAGAAGCAAT TCAACAACAG 
    CAAAACCAGC TGGTATGGGT TTCCGAGGGA AAGGCGGATG GTGCTACAAG TGATGACCTT 
    GATTTGCATG ATGATCGTCT GTCCTACCTG TCAGCTCCAG GTAGTGAATA CTCAATGTAT 
    AGCACGGACA GTAGACACAC TTCTGACTAT GAAGACACAG ACACAGAAGG CGGGGCCTAC 
    ACTGATCAAG AACTAGATGA AACTCTTAAT GATGAGGTTG GGACTCCACC GGAGTCTGCC 
    ATTACACGGT CCTCTGAGCC TGTAAGAGAG GACTCCTCTG GAATGCATCA TGAAAACCAA 
    ACATATCCTC CTTACTCACC ACAAGCGCAG CCACAACCAA TTCATAGAAT AGACTCCCCT 
    GGATTTAAGC CAGCCTCTCA ACAGAAAGCA GAAGCTTCAT CTCCAGTCCC TTACCTTTCG 
    CCTGAAACAA ACCCAGCATC ATCAACCTCT GCTGTTAATC ATAATGTAAA TTTAACTAAT 
    GTCAGACTGG AGGAGCCCAC CCCAGCTCCT TCCACCTCTT ACTCACCACA AGCTGATTCT 
    TTAAGAACAC CAAGTACTGA GGCAGCTCAC ATAATGCTAA GAGATCAAGA ACCATCATTG 
    TCGTCGCATG TAGATCCAAC AAAGGTGTAT AGAAAGGATC CATATCCCGA GGAAATGATG 
    AGGCAGAACC ATGTTTTGAA ACAGCCAGCC GTTAGTCACC CAGGGCACAG GCCAGACAAA 
    GAGCCTAATC TGACCTATGA ACCCCAACTC CCATACGTAG AGAAACAAGC CAGCAGAGAC 
    CTCGAGCAGC CCACATACAG ATACGAGTCC TCAAGCTATA CGGACCAGTT TTCTCGAAAC 
    TATGAACATC GTCTGCGATA CGAAGATCGC GTCCCCATGT ATGAAGAACA GTGGTCATAT 
    TATGATGACA AACAGCCCTA CCCATCTCGG CCACCTTTTG ATAATCAGCA CTCTCAAGAC 
    CTTGACTCCA GACAGCATCC CGAAGAGTCC TCAGAACGAG GGTACTTTCC ACGTTTTGAA 
    GAGCCAGCCC CTCTGTCTTA CGACAGCAGA CCACGTTACG AACAGGCACC TAGAGCATCC 
    GCCCTGCGGC ACGAAGAGCA GCCAGCTCCT GGGTATGACA CACATGGTAG ACTCAGACCG 
    GAAGCCCAGC CCCACCCTTC AGCAGGGCCC AAGCCTGCAG AGTCCAAGCA GTATTTTGAG 
    CAATATTCAC GCAGTTACGA GCAAGTACCA CCCCAAGGAT TTACCTCTAG AGCAGGTCAT 
    TTTGAGCCTC TCCATGGTGC TGCAGCTGTC CCTCCGCTGA TACCTTCATC TCAGCATAAG 
    CCAGAAGCTC TGCCTTCAAA CACCAAACCA CTGCCTCCAC CCCCAACTCA AACCGAAGAA 
    GAGGAAGATC CAGCAATGAA GCCACAGTCT GTACTCACCA GAGTTAAGAT GTTTGAAAAC 
    AAAAGATCTG CATCCTTAGA GACCAAGAAG GATGTAAATG ACACTGGCAG TTTTAAGCCT 
    CCAGAAGTAG CATCTAAACC TTCAGGTGCT CCCATCATTG GTCCCAAACC CACTTCTCAG 
    AATCAATTCA GTGAACATGA CAAAACTCTG TACAGGATCC CAGAACCTCA AAAACCTCAA 
    CTGAAGCCAC CTGAAGATAT TGTTCGGTCC AATCATTATG ACCCTGAAGA AGATGAAGAA 
    TATTATCGAA AACAGCTGTC ATACTTTGAC CGAAGAAGTT TTGAGAATAA GCCTCCTGCA 
    CACATTGCCG CCAGCCATCT CTCCGAGCCT GCAAAGCCAG CGCATTCTCA GAATCAATCA 
    AATTTTTCTA GTTATTCTTC AAAGGGAAAG CCTCCTGAAG CTGATGGTGT GGATAGATCA 
    TTTGGCGAGA AACGCTATGA ACCCATCCAG GCCACTCCCC CTCCTCCTCC ATTGCCCTCG 
    CAGTATGCCC AGCCATCTCA GCCTGTCACC AGCGCGTCTC TCCACATACA TTCTAAGGGA 
    GCACATGGTG AAGGTAATTC AGTGTCATTG GATTTTCAGA ATTCCTTAGT GTCCAAACCA 
    GACCCACCTC CATCTCAGAA TAAGCCAGCA ACTTTCAGAC CACCAAACCG AGAAGATACT 
    GCTCAGGCAG CTTTCTATCC CCAGAAAAGT TTTCCAGATA AAGCCCCAGT TAATGGAACT 
    GAACAGACTC AGAAAACAGT CACTCCAGCA TACAATCGAT TCACACCAAA ACCATATACA 
    AGTTCTGCCC GACCATTTGA ACGCAAGTTT GAAAGTCCTA AATTCAATCA CAATCTTCTG 
    CCAAGTGAAA CTGCACATAA ACCTGACTTG TCTTCAAAAA CTCCCACTTC TCCAAAAACT 
    CTTGTGAAAT CGCACAGTTT GGCACAGCCT CCTGAGTTTG ACAGTGGAGT TGAAACTTTC 
    TCTATCCATG CAGAGAAGCC TAAATATCAA ATAAATAATA TCAGCACAGT GCCTAAAGCT 
    ATTCCTGTGA GTCCTTCAGC TGTGGAAGAG GATGAAGATG AAGATGGTCA TACTGTGGTG 
    GCCACAGCCC GAGGCATATT TAACAGCAAT GGGGGCGTGC TGAGTTCCAT AGAAACTGGT 
    GTTAGTATAA TTATCCCTCA AGGAGCCATT CCCGAAGGAG TTGAGCAGGA AATCTATTTC 
    AAGGTCTGCC GGGACAACAG CATCCTTCCA CCTTTAGATA AAGAGAAAGG TGAAACACTG 
    CTGAGTCCTT TGGTGATGTG TGGTCCCCAT GGCCTCAAGT TCCTGAAGCC TGTGGAGCTG 
    CGCTTACCAC ACTGTGCGTC CATGACTCCT GACGGTTGGT CTTTTGCTCT AAAATCATCC 
    GACTCCTCGT CGGGTGATCC TAAAACCTGG CAAAACAAGT GTCTTCCCGG AGATCCAAAT 
    TATCTCGTTG GAGCAAACTG TGTTTCTGTC CTTATTGACC ACTTTTAA

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

    RefSeq NP_001287954.1
    CDS39..5546
    Translation

    Target ORF information:

    RefSeq Version NM_001301025.1
    Organism Homo sapiens(Human)
    Definition Homo sapiens tight junction protein 1 (TJP1), transcript variant 3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001301025.1

    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 CCCCTCCAAC 
    CGCGGCAGCC TCCTGCCGCT CAAGAGGAAG CTGTGGGTAA CGCCATCCTC TGAAAATCCT 
    AATGGTGCTA CTTCTAGTGT CAGCCAAGGA AAACCCTCTT TAAGACGAAT TAAAGGGAGA 
    TTACACAGAA GCAAAAGCCT TGATAGCATG GATTTCTGTG AGCTCACTAG CACAGCAATG 
    GAGGAAACAG CTATATGGGA ACAACATACA GTGACGCTTC ACAGGGCTCC TGGATTTGGA 
    TTTGGAATTG CAATATCTGG TGGACGAGAT AATCCTCATT TTCAGAGTGG GGAAACGTCA 
    ATAGTGATTT CAGATGTGCT GAAAGGAGGA CCAGCTGAAG GACAGCTACA GGAAAATGAC 
    CGAGTTGCAA TGGTTAACGG AGTTTCAATG GATAATGTTG AACATGCTTT TGCTGTTCAG 
    CAACTAAGGA AAAGTGGGAA AAATGCAAAA ATTACAATTA GAAGGAAGAA GAAAGTTCAA 
    ATACCAGTAA GTCGTCCTGA TCCTGAACCA GTATCTGATA ATGAAGAAGA TAGTTATGAT 
    GAGGAAATAC ATGATCCAAG AAGTGGCCGG AGTGGTGTGG TTAACAGAAG GAGTGAGAAG 
    ATTTGGCCGA GGGATAGAAG TGCAAGTAGA GAGAGGAGCT TGTCCCCGCG GTCAGACAGG 
    CGGTCAGTGG CTTCCAGCCA GCCTGCTAAA CCTACTAAAG TCACACTGGT GAAATCCCGG 
    AAAAATGAAG AATATGGTCT TCGATTGGCA AGCCATATAT TTGTTAAGGA AATTTCACAA 
    GATAGTTTGG CAGCAAGAGA TGGCAATATT CAAGAAGGTG ATGTTGTATT GAAGATAAAT 
    GGTACTGTGA CAGAAAATAT GTCATTGACA GATGCAAAGA CATTGATAGA AAGGTCTAAA 
    GGCAAATTAA AAATGGTAGT TCAAAGAGAT GAACGGGCTA CGCTATTGAA TGTCCCTGAT 
    CTTTCTGACA GCATCCACTC TGCTAATGCC TCTGAGAGAG ACGACATTTC AGAAATTCAG 
    TCACTGGCAT CAGATCATTC TGGTCGATCA CACGATAGGC CTCCCCGCCG CAGCCGGTCA 
    CGATCTCCTG ACCAGCGGTC AGAGCCTTCT GATCATTCCA GGCACTCGCC GCAGCAGCCA 
    AGCAATGGCA GTCTCCGGAG TAGAGATGAA GAGAGAATTT CTAAACCTGG GGCTGTCTCA 
    ACTCCTGTAA AGCATGCTGA TGATCACACA CCTAAAACAG TGGAAGAAGT TACAGTTGAA 
    AGAAATGAGA AACAAACACC TTCTCTTCCA GAACCAAAGC CTGTGTATGC CCAAGTTGGG 
    CAACCAGATG TGGATTTACC TGTCAGTCCA TCTGATGGTG TCCTACCTAA TTCAACTCAT 
    GAAGATGGGA TTCTTCGGCC CAGCATGAAA TTGGTAAAAT TCAGAAAAGG AGATAGTGTG 
    GGTTTGCGGC TGGCTGGTGG AAATGATGTT GGAATATTTG TAGCTGGCGT TCTAGAAGAT 
    AGCCCTGCAG CCAAGGAAGG CTTAGAGGAA GGTGATCAAA TTCTCAGGGT AAACAACGTA 
    GATTTTACAA ATATCATAAG AGAAGAAGCC GTCCTTTTCC TGCTTGACCT CCCTAAAGGA 
    GAAGAAGTGA CCATATTGGC TCAGAAGAAG AAGGATGTTT ATCGTCGCAT TGTAGAATCA 
    GATGTAGGAG ATTCTTTCTA TATTAGAACC CATTTTGAAT ATGAAAAGGA ATCTCCCTAT 
    GGACTTAGTT TTAACAAAGG AGAGGTGTTC CGTGTTGTGG ATACCTTGTA CAATGGAAAA 
    CTGGGCTCTT GGCTTGCTAT TCGAATTGGT AAAAATCATA AGGAGGTAGA ACGAGGCATC 
    ATCCCTAATA AGAACAGAGC TGAGCAGCTA GCCAGTGTAC AGTATACACT TCCAAAAACA 
    GCAGGCGGAG ACCGTGCTGA CTTCTGGAGA TTCAGAGGTC TTCGCAGCTC CAAGAGAAAT 
    CTTCGAAAAA GCAGAGAGGA TTTGTCCGCT CAGCCTGTTC AAACAAAGTT TCCAGCTTAT 
    GAAAGAGTGG TTCTTCGAGA AGCTGGATTT CTGAGGCCTG TAACCATTTT TGGACCAATA 
    GCTGATGTTG CCAGAGAAAA GCTGGCAAGA GAAGAACCAG ATATTTATCA AATTGCAAAG 
    AGTGAACCAC GAGACGCTGG AACTGACCAA CGTAGCTCTG GCATTATTCG CCTGCATACA 
    ATAAAGCAAA TCATAGATCA AGACAAACAT GCTTTATTAG ATGTAACACC AAATGCAGTT 
    GATCGTCTTA ACTATGCCCA GTGGTATCCA ATTGTTGTAT TTCTTAACCC TGATTCTAAG 
    CAAGGAGTAA AAACAATGAG AATGAGGTTA TGTCCAGAAT CTCGGAAAAG TGCCAGGAAG 
    TTATACGAGC GATCTCATAA ACTTCGTAAA AATAATCACC ATCTTTTTAC AACTACAATT 
    AACTTAAATT CAATGAATGA TGGTTGGTAT GGTGCGCTGA AAGAAGCAAT TCAACAACAG 
    CAAAACCAGC TGGTATGGGT TTCCGAGGGA AAGGCGGATG GTGCTACAAG TGATGACCTT 
    GATTTGCATG ATGATCGTCT GTCCTACCTG TCAGCTCCAG GTAGTGAATA CTCAATGTAT 
    AGCACGGACA GTAGACACAC TTCTGACTAT GAAGACACAG ACACAGAAGG CGGGGCCTAC 
    ACTGATCAAG AACTAGATGA AACTCTTAAT GATGAGGTTG GGACTCCACC GGAGTCTGCC 
    ATTACACGGT CCTCTGAGCC TGTAAGAGAG GACTCCTCTG GAATGCATCA TGAAAACCAA 
    ACATATCCTC CTTACTCACC ACAAGCGCAG CCACAACCAA TTCATAGAAT AGACTCCCCT 
    GGATTTAAGC CAGCCTCTCA ACAGAAAGCA GAAGCTTCAT CTCCAGTCCC TTACCTTTCG 
    CCTGAAACAA ACCCAGCATC ATCAACCTCT GCTGTTAATC ATAATGTAAA TTTAACTAAT 
    GTCAGACTGG AGGAGCCCAC CCCAGCTCCT TCCACCTCTT ACTCACCACA AGCTGATTCT 
    TTAAGAACAC CAAGTACTGA GGCAGCTCAC ATAATGCTAA GAGATCAAGA ACCATCATTG 
    TCGTCGCATG TAGATCCAAC AAAGGTGTAT AGAAAGGATC CATATCCCGA GGAAATGATG 
    AGGCAGAACC ATGTTTTGAA ACAGCCAGCC GTTAGTCACC CAGGGCACAG GCCAGACAAA 
    GAGCCTAATC TGACCTATGA ACCCCAACTC CCATACGTAG AGAAACAAGC CAGCAGAGAC 
    CTCGAGCAGC CCACATACAG ATACGAGTCC TCAAGCTATA CGGACCAGTT TTCTCGAAAC 
    TATGAACATC GTCTGCGATA CGAAGATCGC GTCCCCATGT ATGAAGAACA GTGGTCATAT 
    TATGATGACA AACAGCCCTA CCCATCTCGG CCACCTTTTG ATAATCAGCA CTCTCAAGAC 
    CTTGACTCCA GACAGCATCC CGAAGAGTCC TCAGAACGAG GGTACTTTCC ACGTTTTGAA 
    GAGCCAGCCC CTCTGTCTTA CGACAGCAGA CCACGTTACG AACAGGCACC TAGAGCATCC 
    GCCCTGCGGC ACGAAGAGCA GCCAGCTCCT GGGTATGACA CACATGGTAG ACTCAGACCG 
    GAAGCCCAGC CCCACCCTTC AGCAGGGCCC AAGCCTGCAG AGTCCAAGCA GTATTTTGAG 
    CAATATTCAC GCAGTTACGA GCAAGTACCA CCCCAAGGAT TTACCTCTAG AGCAGGTCAT 
    TTTGAGCCTC TCCATGGTGC TGCAGCTGTC CCTCCGCTGA TACCTTCATC TCAGCATAAG 
    CCAGAAGCTC TGCCTTCAAA CACCAAACCA CTGCCTCCAC CCCCAACTCA AACCGAAGAA 
    GAGGAAGATC CAGCAATGAA GCCACAGTCT GTACTCACCA GAGTTAAGAT GTTTGAAAAC 
    AAAAGATCTG CATCCTTAGA GACCAAGAAG GATGTAAATG ACACTGGCAG TTTTAAGCCT 
    CCAGAAGTAG CATCTAAACC TTCAGGTGCT CCCATCATTG GTCCCAAACC CACTTCTCAG 
    AATCAATTCA GTGAACATGA CAAAACTCTG TACAGGATCC CAGAACCTCA AAAACCTCAA 
    CTGAAGCCAC CTGAAGATAT TGTTCGGTCC AATCATTATG ACCCTGAAGA AGATGAAGAA 
    TATTATCGAA AACAGCTGTC ATACTTTGAC CGAAGAAGTT TTGAGAATAA GCCTCCTGCA 
    CACATTGCCG CCAGCCATCT CTCCGAGCCT GCAAAGCCAG CGCATTCTCA GAATCAATCA 
    AATTTTTCTA GTTATTCTTC AAAGGGAAAG CCTCCTGAAG CTGATGGTGT GGATAGATCA 
    TTTGGCGAGA AACGCTATGA ACCCATCCAG GCCACTCCCC CTCCTCCTCC ATTGCCCTCG 
    CAGTATGCCC AGCCATCTCA GCCTGTCACC AGCGCGTCTC TCCACATACA TTCTAAGGGA 
    GCACATGGTG AAGGTAATTC AGTGTCATTG GATTTTCAGA ATTCCTTAGT GTCCAAACCA 
    GACCCACCTC CATCTCAGAA TAAGCCAGCA ACTTTCAGAC CACCAAACCG AGAAGATACT 
    GCTCAGGCAG CTTTCTATCC CCAGAAAAGT TTTCCAGATA AAGCCCCAGT TAATGGAACT 
    GAACAGACTC AGAAAACAGT CACTCCAGCA TACAATCGAT TCACACCAAA ACCATATACA 
    AGTTCTGCCC GACCATTTGA ACGCAAGTTT GAAAGTCCTA AATTCAATCA CAATCTTCTG 
    CCAAGTGAAA CTGCACATAA ACCTGACTTG TCTTCAAAAA CTCCCACTTC TCCAAAAACT 
    CTTGTGAAAT CGCACAGTTT GGCACAGCCT CCTGAGTTTG ACAGTGGAGT TGAAACTTTC 
    TCTATCCATG CAGAGAAGCC TAAATATCAA ATAAATAATA TCAGCACAGT GCCTAAAGCT 
    ATTCCTGTGA GTCCTTCAGC TGTGGAAGAG GATGAAGATG AAGATGGTCA TACTGTGGTG 
    GCCACAGCCC GAGGCATATT TAACAGCAAT GGGGGCGTGC TGAGTTCCAT AGAAACTGGT 
    GTTAGTATAA TTATCCCTCA AGGAGCCATT CCCGAAGGAG TTGAGCAGGA AATCTATTTC 
    AAGGTCTGCC GGGACAACAG CATCCTTCCA CCTTTAGATA AAGAGAAAGG TGAAACACTG 
    CTGAGTCCTT TGGTGATGTG TGGTCCCCAT GGCCTCAAGT TCCTGAAGCC TGTGGAGCTG 
    CGCTTACCAC ACTGTGCGTC CATGACTCCT GACGGTTGGT CTTTTGCTCT AAAATCATCC 
    GACTCCTCGT CGGGTGATCC TAAAACCTGG CAAAACAAGT GTCTTCCCGG AGATCCAAAT 
    TATCTCGTTG GAGCAAACTG TGTTTCTGTC CTTATTGACC ACTTTTAA

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

    TJP1 ( NM_001330239.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001317168.1 Homo sapiens tight junction protein 1 (TJP1), transcript variant 5, mRNA.
    Price & Availability↑
    CloneID OHu48522
    Clone ID Related Accession (Same CDS sequence) NM_001330239.1 , NM_001330239.2 , NM_001330239.3
    Accession Version NM_001330239.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5307bp)
    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 2017-04-23
    Organism Homo sapiens(Human)
    Product tight junction protein ZO-1 isoform e
    Comment VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC022613.13. On Aug 20, 2016 this sequence version replaced XM_005254618.3. Transcript Variant: This variant (5) uses an alternate in-frame splice site in the 3' coding region compared to variant 1. The encoded isoform (e) is longer than isoform a. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803613.266936.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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 GAGCTGCGGC CGCCAAGAGC ACAGCAATGG AGGAAACAGC TATATGGGAA 
    CAACATACAG TGACGCTTCA CAGGGCTCCT GGATTTGGAT TTGGAATTGC AATATCTGGT 
    GGACGAGATA ATCCTCATTT TCAGAGTGGG GAAACGTCAA TAGTGATTTC AGATGTGCTG 
    AAAGGAGGAC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAACGGA 
    GTTTCAATGG ATAATGTTGA ACATGCTTTT GCTGTTCAGC AACTAAGGAA AAGTGGGAAA 
    AATGCAAAAA TTACAATTAG AAGGAAGAAG AAAGTTCAAA TACCAGTAAG TCGTCCTGAT 
    CCTGAACCAG TATCTGATAA TGAAGAAGAT AGTTATGATG AGGAAATACA TGATCCAAGA 
    AGTGGCCGGA GTGGTGTGGT TAACAGAAGG AGTGAGAAGA TTTGGCCGAG GGATAGAAGT 
    GCAAGTAGAG AGAGGAGCTT GTCCCCGCGG TCAGACAGGC GGTCAGTGGC TTCCAGCCAG 
    CCTGCTAAAC CTACTAAAGT CACACTGGTG AAATCCCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCAA GCCATATATT TGTTAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGCAATATTC AAGAAGGTGA TGTTGTATTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAGAC ATTGATAGAA AGGTCTAAAG GCAAATTAAA AATGGTAGTT 
    CAAAGAGATG AACGGGCTAC GCTATTGAAT GTCCCTGATC TTTCTGACAG CATCCACTCT 
    GCTAATGCCT CTGAGAGAGA CGACATTTCA GAAATTCAGT CACTGGCATC AGATCATTCT 
    GGTCGATCAC ACGATAGGCC TCCCCGCCGC AGCCGGTCAC GATCTCCTGA CCAGCGGTCA 
    GAGCCTTCTG ATCATTCCAG GCACTCGCCG CAGCAGCCAA GCAATGGCAG TCTCCGGAGT 
    AGAGATGAAG AGAGAATTTC TAAACCTGGG GCTGTCTCAA CTCCTGTAAA GCATGCTGAT 
    GATCACACAC CTAAAACAGT GGAAGAAGTT ACAGTTGAAA GAAATGAGAA ACAAACACCT 
    TCTCTTCCAG AACCAAAGCC TGTGTATGCC CAAGTTGGGC AACCAGATGT GGATTTACCT 
    GTCAGTCCAT CTGATGGTGT CCTACCTAAT TCAACTCATG AAGATGGGAT TCTTCGGCCC 
    AGCATGAAAT TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGGCT GGCTGGTGGA 
    AATGATGTTG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAGGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTA AACAACGTAG ATTTTACAAA TATCATAAGA 
    GAAGAAGCCG TCCTTTTCCT GCTTGACCTC CCTAAAGGAG AAGAAGTGAC CATATTGGCT 
    CAGAAGAAGA AGGATGTTTA TCGTCGCATT GTAGAATCAG ATGTAGGAGA TTCTTTCTAT 
    ATTAGAACCC ATTTTGAATA TGAAAAGGAA TCTCCCTATG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GTGTTGTGGA TACCTTGTAC AATGGAAAAC TGGGCTCTTG GCTTGCTATT 
    CGAATTGGTA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGCTAG CCAGTGTACA GTATACACTT CCAAAAACAG CAGGCGGAGA CCGTGCTGAC 
    TTCTGGAGAT TCAGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAT 
    TTGTCCGCTC AGCCTGTTCA AACAAAGTTT CCAGCTTATG AAAGAGTGGT TCTTCGAGAA 
    GCTGGATTTC TGAGGCCTGT AACCATTTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    CTGGCAAGAG AAGAACCAGA TATTTATCAA ATTGCAAAGA GTGAACCACG AGACGCTGGA 
    ACTGACCAAC GTAGCTCTGG CATTATTCGC CTGCATACAA TAAAGCAAAT CATAGATCAA 
    GACAAACATG CTTTATTAGA TGTAACACCA AATGCAGTTG ATCGTCTTAA CTATGCCCAG 
    TGGTATCCAA TTGTTGTATT TCTTAACCCT GATTCTAAGC AAGGAGTAAA AACAATGAGA 
    ATGAGGTTAT GTCCAGAATC TCGGAAAAGT GCCAGGAAGT TATACGAGCG ATCTCATAAA 
    CTTCGTAAAA ATAATCACCA TCTTTTTACA ACTACAATTA ACTTAAATTC AATGAATGAT 
    GGTTGGTATG GTGCGCTGAA AGAAGCAATT CAACAACAGC AAAACCAGCT GGTATGGGTT 
    TCCGAGGGAA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCTCCAGG TAGTGAATAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA CACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTTGG GACTCCACCG GAGTCTGCCA TTACACGGTC CTCTGAGCCT 
    GTAAGAGAGG ACTCCTCTGG AATGCATCAT GAAAACCAAA CATATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAACCAAT TCATAGAATA GACTCCCCTG GATTTAAGCC AGCCTCTCAA 
    CAGAAAGCAG AAGCTTCATC TCCAGTCCCT TACCTTTCGC CTGAAACAAA CCCAGCATCA 
    TCAACCTCTG CTGTTAATCA TAATGTAAAT TTAACTAATG TCAGACTGGA GGAGCCCACC 
    CCAGCTCCTT CCACCTCTTA CTCACCACAA GCTGATTCTT TAAGAACACC AAGTACTGAG 
    GCAGCTCACA TAATGCTAAG AGATCAAGAA CCATCATTGT CGTCGCATGT AGATCCAACA 
    AAGGTGTATA GAAAGGATCC ATATCCCGAG GAAATGATGA GGCAGAACCA TGTTTTGAAA 
    CAGCCAGCCG TTAGTCACCC AGGGCACAGG CCAGACAAAG AGCCTAATCT GACCTATGAA 
    CCCCAACTCC CATACGTAGA GAAACAAGCC AGCAGAGACC TCGAGCAGCC CACATACAGA 
    TACGAGTCCT CAAGCTATAC GGACCAGTTT TCTCGAAACT ATGAACATCG TCTGCGATAC 
    GAAGATCGCG TCCCCATGTA TGAAGAACAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CCATCTCGGC CACCTTTTGA TAATCAGCAC TCTCAAGACC TTGACTCCAG ACAGCATCCC 
    GAAGAGTCCT CAGAACGAGG GTACTTTCCA CGTTTTGAAG AGCCAGCCCC TCTGTCTTAC 
    GACAGCAGAC CACGTTACGA ACAGGCACCT AGAGCATCCG CCCTGCGGCA CGAAGAGCAG 
    CCAGCTCCTG GGTATGACAC ACATGGTAGA CTCAGACCGG AAGCCCAGCC CCACCCTTCA 
    GCAGGGCCCA AGCCTGCAGA GTCCAAGCAG TATTTTGAGC AATATTCACG CAGTTACGAG 
    CAAGTACCAC CCCAAGGATT TACCTCTAGA GCAGGTCATT TTGAGCCTCT CCATGGTGCT 
    GCAGCTGTCC CTCCGCTGAT ACCTTCATCT CAGCATAAGC CAGAAGCTCT GCCTTCAAAC 
    ACCAAACCAC TGCCTCCACC CCCAACTCAA ACCGAAGAAG AGGAAGATCC AGCAATGAAG 
    CCACAGTCTG TACTCACCAG AGTTAAGATG TTTGAAAACA AAAGATCTGC ATCCTTAGAG 
    ACCAAGAAGG ATGTAAATGA CACTGGCAGT TTTAAGCCTC CAGAAGTAGC ATCTAAACCT 
    TCAGGTGCTC CCATCATTGG TCCCAAACCC ACTTCTCAGA ATCAATTCAG TGAACATGAC 
    AAAACTCTGT ACAGGATCCC AGAACCTCAA AAACCTCAAC TGAAGCCACC TGAAGATATT 
    GTTCGGTCCA ATCATTATGA CCCTGAAGAA GATGAAGAAT ATTATCGAAA ACAGCTGTCA 
    TACTTTGACC GAAGAAGTTT TGAGAATAAG CCTCCTGCAC ACATTGCCGC CAGCCATCTC 
    TCCGAGCCTG CAAAGCCAGC GCATTCTCAG AATCAATCAA ATTTTTCTAG TTATTCTTCA 
    AAGGGAAAGC CTCCTGAAGC TGATGGTGTG GATAGATCAT TTGGCGAGAA ACGCTATGAA 
    CCCATCCAGG CCACTCCCCC TCCTCCTCCA TTGCCCTCGC AGTATGCCCA GCCATCTCAG 
    CCTGTCACCA GCGCGTCTCT CCACATACAT TCTAAGGGAG CACATGGTGA AGGTAATTCA 
    GTGTCATTGG ATTTTCAGAA TTCCTTAGTG TCCAAACCAG ACCCACCTCC ATCTCAGAAT 
    AAGCCAGCAA CTTTCAGACC ACCAAACCGA GAAGATACTG CTCAGGCAGC TTTCTATCCC 
    CAGAAAAGTT TTCCAGATAA AGCCCCAGTT AATGGAACTG AACAGACTCA GAAAACAGTC 
    ACTCCAGCAT ACAATCGATT CACACCAAAA CCATATACAA GTTCTGCCCG ACCATTTGAA 
    CGCAAGTTTG AAAGTCCTAA ATTCAATCAC AATCTTCTGC CAAGTGAAAC TGCACATAAA 
    CCTGACTTGT CTTCAAAAAC TCCCACTTCT CCAAAAACTC TTGTGAAATC GCACAGTTTG 
    GCACAGCCTC CTGAGTTTGA CAGTGGAGTT GAAACTTTCT CTATCCATGC AGAGAAGCCT 
    AAATATCAAA TAAATAATAT CAGCACAGTG CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT 
    GTGGAAGAGG ATGAAGATGA AGATGGTCAT ACTGTGGTGG CCACAGCCCG AGGCATATTT 
    AACAGCAATG GGGGCGTGCT GAGTTCCATA GAAACTGGTG TTAGTATAAT TATCCCTCAA 
    GGAGCCATTC CCGAAGGAGT TGAGCAGGAA ATCTATTTCA AGGTCTGCCG GGACAACAGC 
    ATCCTTCCAC CTTTAGATAA AGAGAAAGGT GAAACACTGC TGAGTCCTTT GGTGATGTGT 
    GGTCCCCATG GCCTCAAGTT CCTGAAGCCT GTGGAGCTGC GCTTACCACA CTGTGCGTCC 
    ATGACTCCTG ACGGTTGGTC TTTTGCTCTA AAATCATCCG ACTCCTCGTC GGGTGATCCT 
    AAAACCTGGC AAAACAAGTG TCTTCCCGGA GATCCAAATT ATCTCGTTGG AGCAAACTGT 
    GTTTCTGTCC TTATTGACCA CTTTTAA

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

    RefSeq NP_001317168.1
    CDS476..5782
    Translation

    Target ORF information:

    RefSeq Version NM_001330239.1
    Organism Homo sapiens(Human)
    Definition Homo sapiens tight junction protein 1 (TJP1), transcript variant 5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001330239.1

    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 GAGCTGCGGC CGCCAAGAGC ACAGCAATGG AGGAAACAGC TATATGGGAA 
    CAACATACAG TGACGCTTCA CAGGGCTCCT GGATTTGGAT TTGGAATTGC AATATCTGGT 
    GGACGAGATA ATCCTCATTT TCAGAGTGGG GAAACGTCAA TAGTGATTTC AGATGTGCTG 
    AAAGGAGGAC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAACGGA 
    GTTTCAATGG ATAATGTTGA ACATGCTTTT GCTGTTCAGC AACTAAGGAA AAGTGGGAAA 
    AATGCAAAAA TTACAATTAG AAGGAAGAAG AAAGTTCAAA TACCAGTAAG TCGTCCTGAT 
    CCTGAACCAG TATCTGATAA TGAAGAAGAT AGTTATGATG AGGAAATACA TGATCCAAGA 
    AGTGGCCGGA GTGGTGTGGT TAACAGAAGG AGTGAGAAGA TTTGGCCGAG GGATAGAAGT 
    GCAAGTAGAG AGAGGAGCTT GTCCCCGCGG TCAGACAGGC GGTCAGTGGC TTCCAGCCAG 
    CCTGCTAAAC CTACTAAAGT CACACTGGTG AAATCCCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCAA GCCATATATT TGTTAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGCAATATTC AAGAAGGTGA TGTTGTATTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAGAC ATTGATAGAA AGGTCTAAAG GCAAATTAAA AATGGTAGTT 
    CAAAGAGATG AACGGGCTAC GCTATTGAAT GTCCCTGATC TTTCTGACAG CATCCACTCT 
    GCTAATGCCT CTGAGAGAGA CGACATTTCA GAAATTCAGT CACTGGCATC AGATCATTCT 
    GGTCGATCAC ACGATAGGCC TCCCCGCCGC AGCCGGTCAC GATCTCCTGA CCAGCGGTCA 
    GAGCCTTCTG ATCATTCCAG GCACTCGCCG CAGCAGCCAA GCAATGGCAG TCTCCGGAGT 
    AGAGATGAAG AGAGAATTTC TAAACCTGGG GCTGTCTCAA CTCCTGTAAA GCATGCTGAT 
    GATCACACAC CTAAAACAGT GGAAGAAGTT ACAGTTGAAA GAAATGAGAA ACAAACACCT 
    TCTCTTCCAG AACCAAAGCC TGTGTATGCC CAAGTTGGGC AACCAGATGT GGATTTACCT 
    GTCAGTCCAT CTGATGGTGT CCTACCTAAT TCAACTCATG AAGATGGGAT TCTTCGGCCC 
    AGCATGAAAT TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGGCT GGCTGGTGGA 
    AATGATGTTG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAGGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTA AACAACGTAG ATTTTACAAA TATCATAAGA 
    GAAGAAGCCG TCCTTTTCCT GCTTGACCTC CCTAAAGGAG AAGAAGTGAC CATATTGGCT 
    CAGAAGAAGA AGGATGTTTA TCGTCGCATT GTAGAATCAG ATGTAGGAGA TTCTTTCTAT 
    ATTAGAACCC ATTTTGAATA TGAAAAGGAA TCTCCCTATG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GTGTTGTGGA TACCTTGTAC AATGGAAAAC TGGGCTCTTG GCTTGCTATT 
    CGAATTGGTA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGCTAG CCAGTGTACA GTATACACTT CCAAAAACAG CAGGCGGAGA CCGTGCTGAC 
    TTCTGGAGAT TCAGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAT 
    TTGTCCGCTC AGCCTGTTCA AACAAAGTTT CCAGCTTATG AAAGAGTGGT TCTTCGAGAA 
    GCTGGATTTC TGAGGCCTGT AACCATTTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    CTGGCAAGAG AAGAACCAGA TATTTATCAA ATTGCAAAGA GTGAACCACG AGACGCTGGA 
    ACTGACCAAC GTAGCTCTGG CATTATTCGC CTGCATACAA TAAAGCAAAT CATAGATCAA 
    GACAAACATG CTTTATTAGA TGTAACACCA AATGCAGTTG ATCGTCTTAA CTATGCCCAG 
    TGGTATCCAA TTGTTGTATT TCTTAACCCT GATTCTAAGC AAGGAGTAAA AACAATGAGA 
    ATGAGGTTAT GTCCAGAATC TCGGAAAAGT GCCAGGAAGT TATACGAGCG ATCTCATAAA 
    CTTCGTAAAA ATAATCACCA TCTTTTTACA ACTACAATTA ACTTAAATTC AATGAATGAT 
    GGTTGGTATG GTGCGCTGAA AGAAGCAATT CAACAACAGC AAAACCAGCT GGTATGGGTT 
    TCCGAGGGAA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCTCCAGG TAGTGAATAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA CACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTTGG GACTCCACCG GAGTCTGCCA TTACACGGTC CTCTGAGCCT 
    GTAAGAGAGG ACTCCTCTGG AATGCATCAT GAAAACCAAA CATATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAACCAAT TCATAGAATA GACTCCCCTG GATTTAAGCC AGCCTCTCAA 
    CAGAAAGCAG AAGCTTCATC TCCAGTCCCT TACCTTTCGC CTGAAACAAA CCCAGCATCA 
    TCAACCTCTG CTGTTAATCA TAATGTAAAT TTAACTAATG TCAGACTGGA GGAGCCCACC 
    CCAGCTCCTT CCACCTCTTA CTCACCACAA GCTGATTCTT TAAGAACACC AAGTACTGAG 
    GCAGCTCACA TAATGCTAAG AGATCAAGAA CCATCATTGT CGTCGCATGT AGATCCAACA 
    AAGGTGTATA GAAAGGATCC ATATCCCGAG GAAATGATGA GGCAGAACCA TGTTTTGAAA 
    CAGCCAGCCG TTAGTCACCC AGGGCACAGG CCAGACAAAG AGCCTAATCT GACCTATGAA 
    CCCCAACTCC CATACGTAGA GAAACAAGCC AGCAGAGACC TCGAGCAGCC CACATACAGA 
    TACGAGTCCT CAAGCTATAC GGACCAGTTT TCTCGAAACT ATGAACATCG TCTGCGATAC 
    GAAGATCGCG TCCCCATGTA TGAAGAACAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CCATCTCGGC CACCTTTTGA TAATCAGCAC TCTCAAGACC TTGACTCCAG ACAGCATCCC 
    GAAGAGTCCT CAGAACGAGG GTACTTTCCA CGTTTTGAAG AGCCAGCCCC TCTGTCTTAC 
    GACAGCAGAC CACGTTACGA ACAGGCACCT AGAGCATCCG CCCTGCGGCA CGAAGAGCAG 
    CCAGCTCCTG GGTATGACAC ACATGGTAGA CTCAGACCGG AAGCCCAGCC CCACCCTTCA 
    GCAGGGCCCA AGCCTGCAGA GTCCAAGCAG TATTTTGAGC AATATTCACG CAGTTACGAG 
    CAAGTACCAC CCCAAGGATT TACCTCTAGA GCAGGTCATT TTGAGCCTCT CCATGGTGCT 
    GCAGCTGTCC CTCCGCTGAT ACCTTCATCT CAGCATAAGC CAGAAGCTCT GCCTTCAAAC 
    ACCAAACCAC TGCCTCCACC CCCAACTCAA ACCGAAGAAG AGGAAGATCC AGCAATGAAG 
    CCACAGTCTG TACTCACCAG AGTTAAGATG TTTGAAAACA AAAGATCTGC ATCCTTAGAG 
    ACCAAGAAGG ATGTAAATGA CACTGGCAGT TTTAAGCCTC CAGAAGTAGC ATCTAAACCT 
    TCAGGTGCTC CCATCATTGG TCCCAAACCC ACTTCTCAGA ATCAATTCAG TGAACATGAC 
    AAAACTCTGT ACAGGATCCC AGAACCTCAA AAACCTCAAC TGAAGCCACC TGAAGATATT 
    GTTCGGTCCA ATCATTATGA CCCTGAAGAA GATGAAGAAT ATTATCGAAA ACAGCTGTCA 
    TACTTTGACC GAAGAAGTTT TGAGAATAAG CCTCCTGCAC ACATTGCCGC CAGCCATCTC 
    TCCGAGCCTG CAAAGCCAGC GCATTCTCAG AATCAATCAA ATTTTTCTAG TTATTCTTCA 
    AAGGGAAAGC CTCCTGAAGC TGATGGTGTG GATAGATCAT TTGGCGAGAA ACGCTATGAA 
    CCCATCCAGG CCACTCCCCC TCCTCCTCCA TTGCCCTCGC AGTATGCCCA GCCATCTCAG 
    CCTGTCACCA GCGCGTCTCT CCACATACAT TCTAAGGGAG CACATGGTGA AGGTAATTCA 
    GTGTCATTGG ATTTTCAGAA TTCCTTAGTG TCCAAACCAG ACCCACCTCC ATCTCAGAAT 
    AAGCCAGCAA CTTTCAGACC ACCAAACCGA GAAGATACTG CTCAGGCAGC TTTCTATCCC 
    CAGAAAAGTT TTCCAGATAA AGCCCCAGTT AATGGAACTG AACAGACTCA GAAAACAGTC 
    ACTCCAGCAT ACAATCGATT CACACCAAAA CCATATACAA GTTCTGCCCG ACCATTTGAA 
    CGCAAGTTTG AAAGTCCTAA ATTCAATCAC AATCTTCTGC CAAGTGAAAC TGCACATAAA 
    CCTGACTTGT CTTCAAAAAC TCCCACTTCT CCAAAAACTC TTGTGAAATC GCACAGTTTG 
    GCACAGCCTC CTGAGTTTGA CAGTGGAGTT GAAACTTTCT CTATCCATGC AGAGAAGCCT 
    AAATATCAAA TAAATAATAT CAGCACAGTG CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT 
    GTGGAAGAGG ATGAAGATGA AGATGGTCAT ACTGTGGTGG CCACAGCCCG AGGCATATTT 
    AACAGCAATG GGGGCGTGCT GAGTTCCATA GAAACTGGTG TTAGTATAAT TATCCCTCAA 
    GGAGCCATTC CCGAAGGAGT TGAGCAGGAA ATCTATTTCA AGGTCTGCCG GGACAACAGC 
    ATCCTTCCAC CTTTAGATAA AGAGAAAGGT GAAACACTGC TGAGTCCTTT GGTGATGTGT 
    GGTCCCCATG GCCTCAAGTT CCTGAAGCCT GTGGAGCTGC GCTTACCACA CTGTGCGTCC 
    ATGACTCCTG ACGGTTGGTC TTTTGCTCTA AAATCATCCG ACTCCTCGTC GGGTGATCCT 
    AAAACCTGGC AAAACAAGTG TCTTCCCGGA GATCCAAATT ATCTCGTTGG AGCAAACTGT 
    GTTTCTGTCC TTATTGACCA CTTTTAA

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

    TJP1 ( NM_001330239.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001317168.1 Homo sapiens tight junction protein 1 (TJP1), transcript variant 5, mRNA.
    Price & Availability↑
    CloneID OHu48522
    Clone ID Related Accession (Same CDS sequence) NM_001330239.1 , NM_001330239.2 , NM_001330239.3
    Accession Version NM_001330239.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5307bp)
    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 2019-02-26
    Organism Homo sapiens(human)
    Product tight junction protein ZO-1 isoform e
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC022613.13, AB370197.1, CV571135.1, BE819398.1, DA261260.1 and AF035298.1. On Sep 1, 2017 this sequence version replaced NM_001330239.1. Transcript Variant: This variant (5) uses an alternate in-frame splice site in the 3' coding region compared to variant 1. The encoded isoform (e) is longer than isoform a. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803613.266936.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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 GAGCTGCGGC CGCCAAGAGC ACAGCAATGG AGGAAACAGC TATATGGGAA 
    CAACATACAG TGACGCTTCA CAGGGCTCCT GGATTTGGAT TTGGAATTGC AATATCTGGT 
    GGACGAGATA ATCCTCATTT TCAGAGTGGG GAAACGTCAA TAGTGATTTC AGATGTGCTG 
    AAAGGAGGAC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAACGGA 
    GTTTCAATGG ATAATGTTGA ACATGCTTTT GCTGTTCAGC AACTAAGGAA AAGTGGGAAA 
    AATGCAAAAA TTACAATTAG AAGGAAGAAG AAAGTTCAAA TACCAGTAAG TCGTCCTGAT 
    CCTGAACCAG TATCTGATAA TGAAGAAGAT AGTTATGATG AGGAAATACA TGATCCAAGA 
    AGTGGCCGGA GTGGTGTGGT TAACAGAAGG AGTGAGAAGA TTTGGCCGAG GGATAGAAGT 
    GCAAGTAGAG AGAGGAGCTT GTCCCCGCGG TCAGACAGGC GGTCAGTGGC TTCCAGCCAG 
    CCTGCTAAAC CTACTAAAGT CACACTGGTG AAATCCCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCAA GCCATATATT TGTTAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGCAATATTC AAGAAGGTGA TGTTGTATTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAGAC ATTGATAGAA AGGTCTAAAG GCAAATTAAA AATGGTAGTT 
    CAAAGAGATG AACGGGCTAC GCTATTGAAT GTCCCTGATC TTTCTGACAG CATCCACTCT 
    GCTAATGCCT CTGAGAGAGA CGACATTTCA GAAATTCAGT CACTGGCATC AGATCATTCT 
    GGTCGATCAC ACGATAGGCC TCCCCGCCGC AGCCGGTCAC GATCTCCTGA CCAGCGGTCA 
    GAGCCTTCTG ATCATTCCAG GCACTCGCCG CAGCAGCCAA GCAATGGCAG TCTCCGGAGT 
    AGAGATGAAG AGAGAATTTC TAAACCTGGG GCTGTCTCAA CTCCTGTAAA GCATGCTGAT 
    GATCACACAC CTAAAACAGT GGAAGAAGTT ACAGTTGAAA GAAATGAGAA ACAAACACCT 
    TCTCTTCCAG AACCAAAGCC TGTGTATGCC CAAGTTGGGC AACCAGATGT GGATTTACCT 
    GTCAGTCCAT CTGATGGTGT CCTACCTAAT TCAACTCATG AAGATGGGAT TCTTCGGCCC 
    AGCATGAAAT TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGGCT GGCTGGTGGA 
    AATGATGTTG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAGGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTA AACAACGTAG ATTTTACAAA TATCATAAGA 
    GAAGAAGCCG TCCTTTTCCT GCTTGACCTC CCTAAAGGAG AAGAAGTGAC CATATTGGCT 
    CAGAAGAAGA AGGATGTTTA TCGTCGCATT GTAGAATCAG ATGTAGGAGA TTCTTTCTAT 
    ATTAGAACCC ATTTTGAATA TGAAAAGGAA TCTCCCTATG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GTGTTGTGGA TACCTTGTAC AATGGAAAAC TGGGCTCTTG GCTTGCTATT 
    CGAATTGGTA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGCTAG CCAGTGTACA GTATACACTT CCAAAAACAG CAGGCGGAGA CCGTGCTGAC 
    TTCTGGAGAT TCAGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAT 
    TTGTCCGCTC AGCCTGTTCA AACAAAGTTT CCAGCTTATG AAAGAGTGGT TCTTCGAGAA 
    GCTGGATTTC TGAGGCCTGT AACCATTTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    CTGGCAAGAG AAGAACCAGA TATTTATCAA ATTGCAAAGA GTGAACCACG AGACGCTGGA 
    ACTGACCAAC GTAGCTCTGG CATTATTCGC CTGCATACAA TAAAGCAAAT CATAGATCAA 
    GACAAACATG CTTTATTAGA TGTAACACCA AATGCAGTTG ATCGTCTTAA CTATGCCCAG 
    TGGTATCCAA TTGTTGTATT TCTTAACCCT GATTCTAAGC AAGGAGTAAA AACAATGAGA 
    ATGAGGTTAT GTCCAGAATC TCGGAAAAGT GCCAGGAAGT TATACGAGCG ATCTCATAAA 
    CTTCGTAAAA ATAATCACCA TCTTTTTACA ACTACAATTA ACTTAAATTC AATGAATGAT 
    GGTTGGTATG GTGCGCTGAA AGAAGCAATT CAACAACAGC AAAACCAGCT GGTATGGGTT 
    TCCGAGGGAA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCTCCAGG TAGTGAATAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA CACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTTGG GACTCCACCG GAGTCTGCCA TTACACGGTC CTCTGAGCCT 
    GTAAGAGAGG ACTCCTCTGG AATGCATCAT GAAAACCAAA CATATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAACCAAT TCATAGAATA GACTCCCCTG GATTTAAGCC AGCCTCTCAA 
    CAGAAAGCAG AAGCTTCATC TCCAGTCCCT TACCTTTCGC CTGAAACAAA CCCAGCATCA 
    TCAACCTCTG CTGTTAATCA TAATGTAAAT TTAACTAATG TCAGACTGGA GGAGCCCACC 
    CCAGCTCCTT CCACCTCTTA CTCACCACAA GCTGATTCTT TAAGAACACC AAGTACTGAG 
    GCAGCTCACA TAATGCTAAG AGATCAAGAA CCATCATTGT CGTCGCATGT AGATCCAACA 
    AAGGTGTATA GAAAGGATCC ATATCCCGAG GAAATGATGA GGCAGAACCA TGTTTTGAAA 
    CAGCCAGCCG TTAGTCACCC AGGGCACAGG CCAGACAAAG AGCCTAATCT GACCTATGAA 
    CCCCAACTCC CATACGTAGA GAAACAAGCC AGCAGAGACC TCGAGCAGCC CACATACAGA 
    TACGAGTCCT CAAGCTATAC GGACCAGTTT TCTCGAAACT ATGAACATCG TCTGCGATAC 
    GAAGATCGCG TCCCCATGTA TGAAGAACAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CCATCTCGGC CACCTTTTGA TAATCAGCAC TCTCAAGACC TTGACTCCAG ACAGCATCCC 
    GAAGAGTCCT CAGAACGAGG GTACTTTCCA CGTTTTGAAG AGCCAGCCCC TCTGTCTTAC 
    GACAGCAGAC CACGTTACGA ACAGGCACCT AGAGCATCCG CCCTGCGGCA CGAAGAGCAG 
    CCAGCTCCTG GGTATGACAC ACATGGTAGA CTCAGACCGG AAGCCCAGCC CCACCCTTCA 
    GCAGGGCCCA AGCCTGCAGA GTCCAAGCAG TATTTTGAGC AATATTCACG CAGTTACGAG 
    CAAGTACCAC CCCAAGGATT TACCTCTAGA GCAGGTCATT TTGAGCCTCT CCATGGTGCT 
    GCAGCTGTCC CTCCGCTGAT ACCTTCATCT CAGCATAAGC CAGAAGCTCT GCCTTCAAAC 
    ACCAAACCAC TGCCTCCACC CCCAACTCAA ACCGAAGAAG AGGAAGATCC AGCAATGAAG 
    CCACAGTCTG TACTCACCAG AGTTAAGATG TTTGAAAACA AAAGATCTGC ATCCTTAGAG 
    ACCAAGAAGG ATGTAAATGA CACTGGCAGT TTTAAGCCTC CAGAAGTAGC ATCTAAACCT 
    TCAGGTGCTC CCATCATTGG TCCCAAACCC ACTTCTCAGA ATCAATTCAG TGAACATGAC 
    AAAACTCTGT ACAGGATCCC AGAACCTCAA AAACCTCAAC TGAAGCCACC TGAAGATATT 
    GTTCGGTCCA ATCATTATGA CCCTGAAGAA GATGAAGAAT ATTATCGAAA ACAGCTGTCA 
    TACTTTGACC GAAGAAGTTT TGAGAATAAG CCTCCTGCAC ACATTGCCGC CAGCCATCTC 
    TCCGAGCCTG CAAAGCCAGC GCATTCTCAG AATCAATCAA ATTTTTCTAG TTATTCTTCA 
    AAGGGAAAGC CTCCTGAAGC TGATGGTGTG GATAGATCAT TTGGCGAGAA ACGCTATGAA 
    CCCATCCAGG CCACTCCCCC TCCTCCTCCA TTGCCCTCGC AGTATGCCCA GCCATCTCAG 
    CCTGTCACCA GCGCGTCTCT CCACATACAT TCTAAGGGAG CACATGGTGA AGGTAATTCA 
    GTGTCATTGG ATTTTCAGAA TTCCTTAGTG TCCAAACCAG ACCCACCTCC ATCTCAGAAT 
    AAGCCAGCAA CTTTCAGACC ACCAAACCGA GAAGATACTG CTCAGGCAGC TTTCTATCCC 
    CAGAAAAGTT TTCCAGATAA AGCCCCAGTT AATGGAACTG AACAGACTCA GAAAACAGTC 
    ACTCCAGCAT ACAATCGATT CACACCAAAA CCATATACAA GTTCTGCCCG ACCATTTGAA 
    CGCAAGTTTG AAAGTCCTAA ATTCAATCAC AATCTTCTGC CAAGTGAAAC TGCACATAAA 
    CCTGACTTGT CTTCAAAAAC TCCCACTTCT CCAAAAACTC TTGTGAAATC GCACAGTTTG 
    GCACAGCCTC CTGAGTTTGA CAGTGGAGTT GAAACTTTCT CTATCCATGC AGAGAAGCCT 
    AAATATCAAA TAAATAATAT CAGCACAGTG CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT 
    GTGGAAGAGG ATGAAGATGA AGATGGTCAT ACTGTGGTGG CCACAGCCCG AGGCATATTT 
    AACAGCAATG GGGGCGTGCT GAGTTCCATA GAAACTGGTG TTAGTATAAT TATCCCTCAA 
    GGAGCCATTC CCGAAGGAGT TGAGCAGGAA ATCTATTTCA AGGTCTGCCG GGACAACAGC 
    ATCCTTCCAC CTTTAGATAA AGAGAAAGGT GAAACACTGC TGAGTCCTTT GGTGATGTGT 
    GGTCCCCATG GCCTCAAGTT CCTGAAGCCT GTGGAGCTGC GCTTACCACA CTGTGCGTCC 
    ATGACTCCTG ACGGTTGGTC TTTTGCTCTA AAATCATCCG ACTCCTCGTC GGGTGATCCT 
    AAAACCTGGC AAAACAAGTG TCTTCCCGGA GATCCAAATT ATCTCGTTGG AGCAAACTGT 
    GTTTCTGTCC TTATTGACCA CTTTTAA

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

    RefSeq NP_001317168.1
    CDS476..5782
    Translation

    Target ORF information:

    RefSeq Version NM_001330239.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tight junction protein 1 (TJP1), transcript variant 5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001330239.2

    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
    ATGTCCGCCA GAGCTGCGGC CGCCAAGAGC ACAGCAATGG AGGAAACAGC TATATGGGAA 
    CAACATACAG TGACGCTTCA CAGGGCTCCT GGATTTGGAT TTGGAATTGC AATATCTGGT 
    GGACGAGATA ATCCTCATTT TCAGAGTGGG GAAACGTCAA TAGTGATTTC AGATGTGCTG 
    AAAGGAGGAC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAACGGA 
    GTTTCAATGG ATAATGTTGA ACATGCTTTT GCTGTTCAGC AACTAAGGAA AAGTGGGAAA 
    AATGCAAAAA TTACAATTAG AAGGAAGAAG AAAGTTCAAA TACCAGTAAG TCGTCCTGAT 
    CCTGAACCAG TATCTGATAA TGAAGAAGAT AGTTATGATG AGGAAATACA TGATCCAAGA 
    AGTGGCCGGA GTGGTGTGGT TAACAGAAGG AGTGAGAAGA TTTGGCCGAG GGATAGAAGT 
    GCAAGTAGAG AGAGGAGCTT GTCCCCGCGG TCAGACAGGC GGTCAGTGGC TTCCAGCCAG 
    CCTGCTAAAC CTACTAAAGT CACACTGGTG AAATCCCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCAA GCCATATATT TGTTAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGCAATATTC AAGAAGGTGA TGTTGTATTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAGAC ATTGATAGAA AGGTCTAAAG GCAAATTAAA AATGGTAGTT 
    CAAAGAGATG AACGGGCTAC GCTATTGAAT GTCCCTGATC TTTCTGACAG CATCCACTCT 
    GCTAATGCCT CTGAGAGAGA CGACATTTCA GAAATTCAGT CACTGGCATC AGATCATTCT 
    GGTCGATCAC ACGATAGGCC TCCCCGCCGC AGCCGGTCAC GATCTCCTGA CCAGCGGTCA 
    GAGCCTTCTG ATCATTCCAG GCACTCGCCG CAGCAGCCAA GCAATGGCAG TCTCCGGAGT 
    AGAGATGAAG AGAGAATTTC TAAACCTGGG GCTGTCTCAA CTCCTGTAAA GCATGCTGAT 
    GATCACACAC CTAAAACAGT GGAAGAAGTT ACAGTTGAAA GAAATGAGAA ACAAACACCT 
    TCTCTTCCAG AACCAAAGCC TGTGTATGCC CAAGTTGGGC AACCAGATGT GGATTTACCT 
    GTCAGTCCAT CTGATGGTGT CCTACCTAAT TCAACTCATG AAGATGGGAT TCTTCGGCCC 
    AGCATGAAAT TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGGCT GGCTGGTGGA 
    AATGATGTTG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAGGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTA AACAACGTAG ATTTTACAAA TATCATAAGA 
    GAAGAAGCCG TCCTTTTCCT GCTTGACCTC CCTAAAGGAG AAGAAGTGAC CATATTGGCT 
    CAGAAGAAGA AGGATGTTTA TCGTCGCATT GTAGAATCAG ATGTAGGAGA TTCTTTCTAT 
    ATTAGAACCC ATTTTGAATA TGAAAAGGAA TCTCCCTATG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GTGTTGTGGA TACCTTGTAC AATGGAAAAC TGGGCTCTTG GCTTGCTATT 
    CGAATTGGTA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGCTAG CCAGTGTACA GTATACACTT CCAAAAACAG CAGGCGGAGA CCGTGCTGAC 
    TTCTGGAGAT TCAGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAT 
    TTGTCCGCTC AGCCTGTTCA AACAAAGTTT CCAGCTTATG AAAGAGTGGT TCTTCGAGAA 
    GCTGGATTTC TGAGGCCTGT AACCATTTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    CTGGCAAGAG AAGAACCAGA TATTTATCAA ATTGCAAAGA GTGAACCACG AGACGCTGGA 
    ACTGACCAAC GTAGCTCTGG CATTATTCGC CTGCATACAA TAAAGCAAAT CATAGATCAA 
    GACAAACATG CTTTATTAGA TGTAACACCA AATGCAGTTG ATCGTCTTAA CTATGCCCAG 
    TGGTATCCAA TTGTTGTATT TCTTAACCCT GATTCTAAGC AAGGAGTAAA AACAATGAGA 
    ATGAGGTTAT GTCCAGAATC TCGGAAAAGT GCCAGGAAGT TATACGAGCG ATCTCATAAA 
    CTTCGTAAAA ATAATCACCA TCTTTTTACA ACTACAATTA ACTTAAATTC AATGAATGAT 
    GGTTGGTATG GTGCGCTGAA AGAAGCAATT CAACAACAGC AAAACCAGCT GGTATGGGTT 
    TCCGAGGGAA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCTCCAGG TAGTGAATAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA CACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTTGG GACTCCACCG GAGTCTGCCA TTACACGGTC CTCTGAGCCT 
    GTAAGAGAGG ACTCCTCTGG AATGCATCAT GAAAACCAAA CATATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAACCAAT TCATAGAATA GACTCCCCTG GATTTAAGCC AGCCTCTCAA 
    CAGAAAGCAG AAGCTTCATC TCCAGTCCCT TACCTTTCGC CTGAAACAAA CCCAGCATCA 
    TCAACCTCTG CTGTTAATCA TAATGTAAAT TTAACTAATG TCAGACTGGA GGAGCCCACC 
    CCAGCTCCTT CCACCTCTTA CTCACCACAA GCTGATTCTT TAAGAACACC AAGTACTGAG 
    GCAGCTCACA TAATGCTAAG AGATCAAGAA CCATCATTGT CGTCGCATGT AGATCCAACA 
    AAGGTGTATA GAAAGGATCC ATATCCCGAG GAAATGATGA GGCAGAACCA TGTTTTGAAA 
    CAGCCAGCCG TTAGTCACCC AGGGCACAGG CCAGACAAAG AGCCTAATCT GACCTATGAA 
    CCCCAACTCC CATACGTAGA GAAACAAGCC AGCAGAGACC TCGAGCAGCC CACATACAGA 
    TACGAGTCCT CAAGCTATAC GGACCAGTTT TCTCGAAACT ATGAACATCG TCTGCGATAC 
    GAAGATCGCG TCCCCATGTA TGAAGAACAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CCATCTCGGC CACCTTTTGA TAATCAGCAC TCTCAAGACC TTGACTCCAG ACAGCATCCC 
    GAAGAGTCCT CAGAACGAGG GTACTTTCCA CGTTTTGAAG AGCCAGCCCC TCTGTCTTAC 
    GACAGCAGAC CACGTTACGA ACAGGCACCT AGAGCATCCG CCCTGCGGCA CGAAGAGCAG 
    CCAGCTCCTG GGTATGACAC ACATGGTAGA CTCAGACCGG AAGCCCAGCC CCACCCTTCA 
    GCAGGGCCCA AGCCTGCAGA GTCCAAGCAG TATTTTGAGC AATATTCACG CAGTTACGAG 
    CAAGTACCAC CCCAAGGATT TACCTCTAGA GCAGGTCATT TTGAGCCTCT CCATGGTGCT 
    GCAGCTGTCC CTCCGCTGAT ACCTTCATCT CAGCATAAGC CAGAAGCTCT GCCTTCAAAC 
    ACCAAACCAC TGCCTCCACC CCCAACTCAA ACCGAAGAAG AGGAAGATCC AGCAATGAAG 
    CCACAGTCTG TACTCACCAG AGTTAAGATG TTTGAAAACA AAAGATCTGC ATCCTTAGAG 
    ACCAAGAAGG ATGTAAATGA CACTGGCAGT TTTAAGCCTC CAGAAGTAGC ATCTAAACCT 
    TCAGGTGCTC CCATCATTGG TCCCAAACCC ACTTCTCAGA ATCAATTCAG TGAACATGAC 
    AAAACTCTGT ACAGGATCCC AGAACCTCAA AAACCTCAAC TGAAGCCACC TGAAGATATT 
    GTTCGGTCCA ATCATTATGA CCCTGAAGAA GATGAAGAAT ATTATCGAAA ACAGCTGTCA 
    TACTTTGACC GAAGAAGTTT TGAGAATAAG CCTCCTGCAC ACATTGCCGC CAGCCATCTC 
    TCCGAGCCTG CAAAGCCAGC GCATTCTCAG AATCAATCAA ATTTTTCTAG TTATTCTTCA 
    AAGGGAAAGC CTCCTGAAGC TGATGGTGTG GATAGATCAT TTGGCGAGAA ACGCTATGAA 
    CCCATCCAGG CCACTCCCCC TCCTCCTCCA TTGCCCTCGC AGTATGCCCA GCCATCTCAG 
    CCTGTCACCA GCGCGTCTCT CCACATACAT TCTAAGGGAG CACATGGTGA AGGTAATTCA 
    GTGTCATTGG ATTTTCAGAA TTCCTTAGTG TCCAAACCAG ACCCACCTCC ATCTCAGAAT 
    AAGCCAGCAA CTTTCAGACC ACCAAACCGA GAAGATACTG CTCAGGCAGC TTTCTATCCC 
    CAGAAAAGTT TTCCAGATAA AGCCCCAGTT AATGGAACTG AACAGACTCA GAAAACAGTC 
    ACTCCAGCAT ACAATCGATT CACACCAAAA CCATATACAA GTTCTGCCCG ACCATTTGAA 
    CGCAAGTTTG AAAGTCCTAA ATTCAATCAC AATCTTCTGC CAAGTGAAAC TGCACATAAA 
    CCTGACTTGT CTTCAAAAAC TCCCACTTCT CCAAAAACTC TTGTGAAATC GCACAGTTTG 
    GCACAGCCTC CTGAGTTTGA CAGTGGAGTT GAAACTTTCT CTATCCATGC AGAGAAGCCT 
    AAATATCAAA TAAATAATAT CAGCACAGTG CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT 
    GTGGAAGAGG ATGAAGATGA AGATGGTCAT ACTGTGGTGG CCACAGCCCG AGGCATATTT 
    AACAGCAATG GGGGCGTGCT GAGTTCCATA GAAACTGGTG TTAGTATAAT TATCCCTCAA 
    GGAGCCATTC CCGAAGGAGT TGAGCAGGAA ATCTATTTCA AGGTCTGCCG GGACAACAGC 
    ATCCTTCCAC CTTTAGATAA AGAGAAAGGT GAAACACTGC TGAGTCCTTT GGTGATGTGT 
    GGTCCCCATG GCCTCAAGTT CCTGAAGCCT GTGGAGCTGC GCTTACCACA CTGTGCGTCC 
    ATGACTCCTG ACGGTTGGTC TTTTGCTCTA AAATCATCCG ACTCCTCGTC GGGTGATCCT 
    AAAACCTGGC AAAACAAGTG TCTTCCCGGA GATCCAAATT ATCTCGTTGG AGCAAACTGT 
    GTTTCTGTCC TTATTGACCA CTTTTAA

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

    TJP1 ( NM_001330239.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_001317168.1 Homo sapiens tight junction protein 1 (TJP1), transcript variant 5, mRNA.
    Price & Availability↑
    CloneID OHu48522
    Clone ID Related Accession (Same CDS sequence) NM_001330239.1 , NM_001330239.2 , NM_001330239.3
    Accession Version NM_001330239.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5307bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-15
    Organism Homo sapiens(human)
    Product tight junction protein ZO-1 isoform e
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC022613.13, AB370197.1, CV571135.1, BE819398.1, DA261260.1 and AF035298.1. On Jun 2, 2019 this sequence version replaced NM_001330239.2. Transcript Variant: This variant (5) uses an alternate in-frame splice site in the 3' coding region compared to variant 1. The encoded isoform (e) is longer than isoform a. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803613.266936.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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 GAGCTGCGGC CGCCAAGAGC ACAGCAATGG AGGAAACAGC TATATGGGAA 
    CAACATACAG TGACGCTTCA CAGGGCTCCT GGATTTGGAT TTGGAATTGC AATATCTGGT 
    GGACGAGATA ATCCTCATTT TCAGAGTGGG GAAACGTCAA TAGTGATTTC AGATGTGCTG 
    AAAGGAGGAC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAACGGA 
    GTTTCAATGG ATAATGTTGA ACATGCTTTT GCTGTTCAGC AACTAAGGAA AAGTGGGAAA 
    AATGCAAAAA TTACAATTAG AAGGAAGAAG AAAGTTCAAA TACCAGTAAG TCGTCCTGAT 
    CCTGAACCAG TATCTGATAA TGAAGAAGAT AGTTATGATG AGGAAATACA TGATCCAAGA 
    AGTGGCCGGA GTGGTGTGGT TAACAGAAGG AGTGAGAAGA TTTGGCCGAG GGATAGAAGT 
    GCAAGTAGAG AGAGGAGCTT GTCCCCGCGG TCAGACAGGC GGTCAGTGGC TTCCAGCCAG 
    CCTGCTAAAC CTACTAAAGT CACACTGGTG AAATCCCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCAA GCCATATATT TGTTAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGCAATATTC AAGAAGGTGA TGTTGTATTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAGAC ATTGATAGAA AGGTCTAAAG GCAAATTAAA AATGGTAGTT 
    CAAAGAGATG AACGGGCTAC GCTATTGAAT GTCCCTGATC TTTCTGACAG CATCCACTCT 
    GCTAATGCCT CTGAGAGAGA CGACATTTCA GAAATTCAGT CACTGGCATC AGATCATTCT 
    GGTCGATCAC ACGATAGGCC TCCCCGCCGC AGCCGGTCAC GATCTCCTGA CCAGCGGTCA 
    GAGCCTTCTG ATCATTCCAG GCACTCGCCG CAGCAGCCAA GCAATGGCAG TCTCCGGAGT 
    AGAGATGAAG AGAGAATTTC TAAACCTGGG GCTGTCTCAA CTCCTGTAAA GCATGCTGAT 
    GATCACACAC CTAAAACAGT GGAAGAAGTT ACAGTTGAAA GAAATGAGAA ACAAACACCT 
    TCTCTTCCAG AACCAAAGCC TGTGTATGCC CAAGTTGGGC AACCAGATGT GGATTTACCT 
    GTCAGTCCAT CTGATGGTGT CCTACCTAAT TCAACTCATG AAGATGGGAT TCTTCGGCCC 
    AGCATGAAAT TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGGCT GGCTGGTGGA 
    AATGATGTTG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAGGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTA AACAACGTAG ATTTTACAAA TATCATAAGA 
    GAAGAAGCCG TCCTTTTCCT GCTTGACCTC CCTAAAGGAG AAGAAGTGAC CATATTGGCT 
    CAGAAGAAGA AGGATGTTTA TCGTCGCATT GTAGAATCAG ATGTAGGAGA TTCTTTCTAT 
    ATTAGAACCC ATTTTGAATA TGAAAAGGAA TCTCCCTATG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GTGTTGTGGA TACCTTGTAC AATGGAAAAC TGGGCTCTTG GCTTGCTATT 
    CGAATTGGTA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGCTAG CCAGTGTACA GTATACACTT CCAAAAACAG CAGGCGGAGA CCGTGCTGAC 
    TTCTGGAGAT TCAGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAT 
    TTGTCCGCTC AGCCTGTTCA AACAAAGTTT CCAGCTTATG AAAGAGTGGT TCTTCGAGAA 
    GCTGGATTTC TGAGGCCTGT AACCATTTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    CTGGCAAGAG AAGAACCAGA TATTTATCAA ATTGCAAAGA GTGAACCACG AGACGCTGGA 
    ACTGACCAAC GTAGCTCTGG CATTATTCGC CTGCATACAA TAAAGCAAAT CATAGATCAA 
    GACAAACATG CTTTATTAGA TGTAACACCA AATGCAGTTG ATCGTCTTAA CTATGCCCAG 
    TGGTATCCAA TTGTTGTATT TCTTAACCCT GATTCTAAGC AAGGAGTAAA AACAATGAGA 
    ATGAGGTTAT GTCCAGAATC TCGGAAAAGT GCCAGGAAGT TATACGAGCG ATCTCATAAA 
    CTTCGTAAAA ATAATCACCA TCTTTTTACA ACTACAATTA ACTTAAATTC AATGAATGAT 
    GGTTGGTATG GTGCGCTGAA AGAAGCAATT CAACAACAGC AAAACCAGCT GGTATGGGTT 
    TCCGAGGGAA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCTCCAGG TAGTGAATAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA CACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTTGG GACTCCACCG GAGTCTGCCA TTACACGGTC CTCTGAGCCT 
    GTAAGAGAGG ACTCCTCTGG AATGCATCAT GAAAACCAAA CATATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAACCAAT TCATAGAATA GACTCCCCTG GATTTAAGCC AGCCTCTCAA 
    CAGAAAGCAG AAGCTTCATC TCCAGTCCCT TACCTTTCGC CTGAAACAAA CCCAGCATCA 
    TCAACCTCTG CTGTTAATCA TAATGTAAAT TTAACTAATG TCAGACTGGA GGAGCCCACC 
    CCAGCTCCTT CCACCTCTTA CTCACCACAA GCTGATTCTT TAAGAACACC AAGTACTGAG 
    GCAGCTCACA TAATGCTAAG AGATCAAGAA CCATCATTGT CGTCGCATGT AGATCCAACA 
    AAGGTGTATA GAAAGGATCC ATATCCCGAG GAAATGATGA GGCAGAACCA TGTTTTGAAA 
    CAGCCAGCCG TTAGTCACCC AGGGCACAGG CCAGACAAAG AGCCTAATCT GACCTATGAA 
    CCCCAACTCC CATACGTAGA GAAACAAGCC AGCAGAGACC TCGAGCAGCC CACATACAGA 
    TACGAGTCCT CAAGCTATAC GGACCAGTTT TCTCGAAACT ATGAACATCG TCTGCGATAC 
    GAAGATCGCG TCCCCATGTA TGAAGAACAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CCATCTCGGC CACCTTTTGA TAATCAGCAC TCTCAAGACC TTGACTCCAG ACAGCATCCC 
    GAAGAGTCCT CAGAACGAGG GTACTTTCCA CGTTTTGAAG AGCCAGCCCC TCTGTCTTAC 
    GACAGCAGAC CACGTTACGA ACAGGCACCT AGAGCATCCG CCCTGCGGCA CGAAGAGCAG 
    CCAGCTCCTG GGTATGACAC ACATGGTAGA CTCAGACCGG AAGCCCAGCC CCACCCTTCA 
    GCAGGGCCCA AGCCTGCAGA GTCCAAGCAG TATTTTGAGC AATATTCACG CAGTTACGAG 
    CAAGTACCAC CCCAAGGATT TACCTCTAGA GCAGGTCATT TTGAGCCTCT CCATGGTGCT 
    GCAGCTGTCC CTCCGCTGAT ACCTTCATCT CAGCATAAGC CAGAAGCTCT GCCTTCAAAC 
    ACCAAACCAC TGCCTCCACC CCCAACTCAA ACCGAAGAAG AGGAAGATCC AGCAATGAAG 
    CCACAGTCTG TACTCACCAG AGTTAAGATG TTTGAAAACA AAAGATCTGC ATCCTTAGAG 
    ACCAAGAAGG ATGTAAATGA CACTGGCAGT TTTAAGCCTC CAGAAGTAGC ATCTAAACCT 
    TCAGGTGCTC CCATCATTGG TCCCAAACCC ACTTCTCAGA ATCAATTCAG TGAACATGAC 
    AAAACTCTGT ACAGGATCCC AGAACCTCAA AAACCTCAAC TGAAGCCACC TGAAGATATT 
    GTTCGGTCCA ATCATTATGA CCCTGAAGAA GATGAAGAAT ATTATCGAAA ACAGCTGTCA 
    TACTTTGACC GAAGAAGTTT TGAGAATAAG CCTCCTGCAC ACATTGCCGC CAGCCATCTC 
    TCCGAGCCTG CAAAGCCAGC GCATTCTCAG AATCAATCAA ATTTTTCTAG TTATTCTTCA 
    AAGGGAAAGC CTCCTGAAGC TGATGGTGTG GATAGATCAT TTGGCGAGAA ACGCTATGAA 
    CCCATCCAGG CCACTCCCCC TCCTCCTCCA TTGCCCTCGC AGTATGCCCA GCCATCTCAG 
    CCTGTCACCA GCGCGTCTCT CCACATACAT TCTAAGGGAG CACATGGTGA AGGTAATTCA 
    GTGTCATTGG ATTTTCAGAA TTCCTTAGTG TCCAAACCAG ACCCACCTCC ATCTCAGAAT 
    AAGCCAGCAA CTTTCAGACC ACCAAACCGA GAAGATACTG CTCAGGCAGC TTTCTATCCC 
    CAGAAAAGTT TTCCAGATAA AGCCCCAGTT AATGGAACTG AACAGACTCA GAAAACAGTC 
    ACTCCAGCAT ACAATCGATT CACACCAAAA CCATATACAA GTTCTGCCCG ACCATTTGAA 
    CGCAAGTTTG AAAGTCCTAA ATTCAATCAC AATCTTCTGC CAAGTGAAAC TGCACATAAA 
    CCTGACTTGT CTTCAAAAAC TCCCACTTCT CCAAAAACTC TTGTGAAATC GCACAGTTTG 
    GCACAGCCTC CTGAGTTTGA CAGTGGAGTT GAAACTTTCT CTATCCATGC AGAGAAGCCT 
    AAATATCAAA TAAATAATAT CAGCACAGTG CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT 
    GTGGAAGAGG ATGAAGATGA AGATGGTCAT ACTGTGGTGG CCACAGCCCG AGGCATATTT 
    AACAGCAATG GGGGCGTGCT GAGTTCCATA GAAACTGGTG TTAGTATAAT TATCCCTCAA 
    GGAGCCATTC CCGAAGGAGT TGAGCAGGAA ATCTATTTCA AGGTCTGCCG GGACAACAGC 
    ATCCTTCCAC CTTTAGATAA AGAGAAAGGT GAAACACTGC TGAGTCCTTT GGTGATGTGT 
    GGTCCCCATG GCCTCAAGTT CCTGAAGCCT GTGGAGCTGC GCTTACCACA CTGTGCGTCC 
    ATGACTCCTG ACGGTTGGTC TTTTGCTCTA AAATCATCCG ACTCCTCGTC GGGTGATCCT 
    AAAACCTGGC AAAACAAGTG TCTTCCCGGA GATCCAAATT ATCTCGTTGG AGCAAACTGT 
    GTTTCTGTCC TTATTGACCA CTTTTAA

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

    RefSeq NP_001317168.1
    CDS441..5747
    Translation

    Target ORF information:

    RefSeq Version NM_001330239.3
    Organism Homo sapiens(human)
    Definition Homo sapiens tight junction protein 1 (TJP1), transcript variant 5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001330239.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    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 GAGCTGCGGC CGCCAAGAGC ACAGCAATGG AGGAAACAGC TATATGGGAA 
    CAACATACAG TGACGCTTCA CAGGGCTCCT GGATTTGGAT TTGGAATTGC AATATCTGGT 
    GGACGAGATA ATCCTCATTT TCAGAGTGGG GAAACGTCAA TAGTGATTTC AGATGTGCTG 
    AAAGGAGGAC CAGCTGAAGG ACAGCTACAG GAAAATGACC GAGTTGCAAT GGTTAACGGA 
    GTTTCAATGG ATAATGTTGA ACATGCTTTT GCTGTTCAGC AACTAAGGAA AAGTGGGAAA 
    AATGCAAAAA TTACAATTAG AAGGAAGAAG AAAGTTCAAA TACCAGTAAG TCGTCCTGAT 
    CCTGAACCAG TATCTGATAA TGAAGAAGAT AGTTATGATG AGGAAATACA TGATCCAAGA 
    AGTGGCCGGA GTGGTGTGGT TAACAGAAGG AGTGAGAAGA TTTGGCCGAG GGATAGAAGT 
    GCAAGTAGAG AGAGGAGCTT GTCCCCGCGG TCAGACAGGC GGTCAGTGGC TTCCAGCCAG 
    CCTGCTAAAC CTACTAAAGT CACACTGGTG AAATCCCGGA AAAATGAAGA ATATGGTCTT 
    CGATTGGCAA GCCATATATT TGTTAAGGAA ATTTCACAAG ATAGTTTGGC AGCAAGAGAT 
    GGCAATATTC AAGAAGGTGA TGTTGTATTG AAGATAAATG GTACTGTGAC AGAAAATATG 
    TCATTGACAG ATGCAAAGAC ATTGATAGAA AGGTCTAAAG GCAAATTAAA AATGGTAGTT 
    CAAAGAGATG AACGGGCTAC GCTATTGAAT GTCCCTGATC TTTCTGACAG CATCCACTCT 
    GCTAATGCCT CTGAGAGAGA CGACATTTCA GAAATTCAGT CACTGGCATC AGATCATTCT 
    GGTCGATCAC ACGATAGGCC TCCCCGCCGC AGCCGGTCAC GATCTCCTGA CCAGCGGTCA 
    GAGCCTTCTG ATCATTCCAG GCACTCGCCG CAGCAGCCAA GCAATGGCAG TCTCCGGAGT 
    AGAGATGAAG AGAGAATTTC TAAACCTGGG GCTGTCTCAA CTCCTGTAAA GCATGCTGAT 
    GATCACACAC CTAAAACAGT GGAAGAAGTT ACAGTTGAAA GAAATGAGAA ACAAACACCT 
    TCTCTTCCAG AACCAAAGCC TGTGTATGCC CAAGTTGGGC AACCAGATGT GGATTTACCT 
    GTCAGTCCAT CTGATGGTGT CCTACCTAAT TCAACTCATG AAGATGGGAT TCTTCGGCCC 
    AGCATGAAAT TGGTAAAATT CAGAAAAGGA GATAGTGTGG GTTTGCGGCT GGCTGGTGGA 
    AATGATGTTG GAATATTTGT AGCTGGCGTT CTAGAAGATA GCCCTGCAGC CAAGGAAGGC 
    TTAGAGGAAG GTGATCAAAT TCTCAGGGTA AACAACGTAG ATTTTACAAA TATCATAAGA 
    GAAGAAGCCG TCCTTTTCCT GCTTGACCTC CCTAAAGGAG AAGAAGTGAC CATATTGGCT 
    CAGAAGAAGA AGGATGTTTA TCGTCGCATT GTAGAATCAG ATGTAGGAGA TTCTTTCTAT 
    ATTAGAACCC ATTTTGAATA TGAAAAGGAA TCTCCCTATG GACTTAGTTT TAACAAAGGA 
    GAGGTGTTCC GTGTTGTGGA TACCTTGTAC AATGGAAAAC TGGGCTCTTG GCTTGCTATT 
    CGAATTGGTA AAAATCATAA GGAGGTAGAA CGAGGCATCA TCCCTAATAA GAACAGAGCT 
    GAGCAGCTAG CCAGTGTACA GTATACACTT CCAAAAACAG CAGGCGGAGA CCGTGCTGAC 
    TTCTGGAGAT TCAGAGGTCT TCGCAGCTCC AAGAGAAATC TTCGAAAAAG CAGAGAGGAT 
    TTGTCCGCTC AGCCTGTTCA AACAAAGTTT CCAGCTTATG AAAGAGTGGT TCTTCGAGAA 
    GCTGGATTTC TGAGGCCTGT AACCATTTTT GGACCAATAG CTGATGTTGC CAGAGAAAAG 
    CTGGCAAGAG AAGAACCAGA TATTTATCAA ATTGCAAAGA GTGAACCACG AGACGCTGGA 
    ACTGACCAAC GTAGCTCTGG CATTATTCGC CTGCATACAA TAAAGCAAAT CATAGATCAA 
    GACAAACATG CTTTATTAGA TGTAACACCA AATGCAGTTG ATCGTCTTAA CTATGCCCAG 
    TGGTATCCAA TTGTTGTATT TCTTAACCCT GATTCTAAGC AAGGAGTAAA AACAATGAGA 
    ATGAGGTTAT GTCCAGAATC TCGGAAAAGT GCCAGGAAGT TATACGAGCG ATCTCATAAA 
    CTTCGTAAAA ATAATCACCA TCTTTTTACA ACTACAATTA ACTTAAATTC AATGAATGAT 
    GGTTGGTATG GTGCGCTGAA AGAAGCAATT CAACAACAGC AAAACCAGCT GGTATGGGTT 
    TCCGAGGGAA AGGCGGATGG TGCTACAAGT GATGACCTTG ATTTGCATGA TGATCGTCTG 
    TCCTACCTGT CAGCTCCAGG TAGTGAATAC TCAATGTATA GCACGGACAG TAGACACACT 
    TCTGACTATG AAGACACAGA CACAGAAGGC GGGGCCTACA CTGATCAAGA ACTAGATGAA 
    ACTCTTAATG ATGAGGTTGG GACTCCACCG GAGTCTGCCA TTACACGGTC CTCTGAGCCT 
    GTAAGAGAGG ACTCCTCTGG AATGCATCAT GAAAACCAAA CATATCCTCC TTACTCACCA 
    CAAGCGCAGC CACAACCAAT TCATAGAATA GACTCCCCTG GATTTAAGCC AGCCTCTCAA 
    CAGAAAGCAG AAGCTTCATC TCCAGTCCCT TACCTTTCGC CTGAAACAAA CCCAGCATCA 
    TCAACCTCTG CTGTTAATCA TAATGTAAAT TTAACTAATG TCAGACTGGA GGAGCCCACC 
    CCAGCTCCTT CCACCTCTTA CTCACCACAA GCTGATTCTT TAAGAACACC AAGTACTGAG 
    GCAGCTCACA TAATGCTAAG AGATCAAGAA CCATCATTGT CGTCGCATGT AGATCCAACA 
    AAGGTGTATA GAAAGGATCC ATATCCCGAG GAAATGATGA GGCAGAACCA TGTTTTGAAA 
    CAGCCAGCCG TTAGTCACCC AGGGCACAGG CCAGACAAAG AGCCTAATCT GACCTATGAA 
    CCCCAACTCC CATACGTAGA GAAACAAGCC AGCAGAGACC TCGAGCAGCC CACATACAGA 
    TACGAGTCCT CAAGCTATAC GGACCAGTTT TCTCGAAACT ATGAACATCG TCTGCGATAC 
    GAAGATCGCG TCCCCATGTA TGAAGAACAG TGGTCATATT ATGATGACAA ACAGCCCTAC 
    CCATCTCGGC CACCTTTTGA TAATCAGCAC TCTCAAGACC TTGACTCCAG ACAGCATCCC 
    GAAGAGTCCT CAGAACGAGG GTACTTTCCA CGTTTTGAAG AGCCAGCCCC TCTGTCTTAC 
    GACAGCAGAC CACGTTACGA ACAGGCACCT AGAGCATCCG CCCTGCGGCA CGAAGAGCAG 
    CCAGCTCCTG GGTATGACAC ACATGGTAGA CTCAGACCGG AAGCCCAGCC CCACCCTTCA 
    GCAGGGCCCA AGCCTGCAGA GTCCAAGCAG TATTTTGAGC AATATTCACG CAGTTACGAG 
    CAAGTACCAC CCCAAGGATT TACCTCTAGA GCAGGTCATT TTGAGCCTCT CCATGGTGCT 
    GCAGCTGTCC CTCCGCTGAT ACCTTCATCT CAGCATAAGC CAGAAGCTCT GCCTTCAAAC 
    ACCAAACCAC TGCCTCCACC CCCAACTCAA ACCGAAGAAG AGGAAGATCC AGCAATGAAG 
    CCACAGTCTG TACTCACCAG AGTTAAGATG TTTGAAAACA AAAGATCTGC ATCCTTAGAG 
    ACCAAGAAGG ATGTAAATGA CACTGGCAGT TTTAAGCCTC CAGAAGTAGC ATCTAAACCT 
    TCAGGTGCTC CCATCATTGG TCCCAAACCC ACTTCTCAGA ATCAATTCAG TGAACATGAC 
    AAAACTCTGT ACAGGATCCC AGAACCTCAA AAACCTCAAC TGAAGCCACC TGAAGATATT 
    GTTCGGTCCA ATCATTATGA CCCTGAAGAA GATGAAGAAT ATTATCGAAA ACAGCTGTCA 
    TACTTTGACC GAAGAAGTTT TGAGAATAAG CCTCCTGCAC ACATTGCCGC CAGCCATCTC 
    TCCGAGCCTG CAAAGCCAGC GCATTCTCAG AATCAATCAA ATTTTTCTAG TTATTCTTCA 
    AAGGGAAAGC CTCCTGAAGC TGATGGTGTG GATAGATCAT TTGGCGAGAA ACGCTATGAA 
    CCCATCCAGG CCACTCCCCC TCCTCCTCCA TTGCCCTCGC AGTATGCCCA GCCATCTCAG 
    CCTGTCACCA GCGCGTCTCT CCACATACAT TCTAAGGGAG CACATGGTGA AGGTAATTCA 
    GTGTCATTGG ATTTTCAGAA TTCCTTAGTG TCCAAACCAG ACCCACCTCC ATCTCAGAAT 
    AAGCCAGCAA CTTTCAGACC ACCAAACCGA GAAGATACTG CTCAGGCAGC TTTCTATCCC 
    CAGAAAAGTT TTCCAGATAA AGCCCCAGTT AATGGAACTG AACAGACTCA GAAAACAGTC 
    ACTCCAGCAT ACAATCGATT CACACCAAAA CCATATACAA GTTCTGCCCG ACCATTTGAA 
    CGCAAGTTTG AAAGTCCTAA ATTCAATCAC AATCTTCTGC CAAGTGAAAC TGCACATAAA 
    CCTGACTTGT CTTCAAAAAC TCCCACTTCT CCAAAAACTC TTGTGAAATC GCACAGTTTG 
    GCACAGCCTC CTGAGTTTGA CAGTGGAGTT GAAACTTTCT CTATCCATGC AGAGAAGCCT 
    AAATATCAAA TAAATAATAT CAGCACAGTG CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT 
    GTGGAAGAGG ATGAAGATGA AGATGGTCAT ACTGTGGTGG CCACAGCCCG AGGCATATTT 
    AACAGCAATG GGGGCGTGCT GAGTTCCATA GAAACTGGTG TTAGTATAAT TATCCCTCAA 
    GGAGCCATTC CCGAAGGAGT TGAGCAGGAA ATCTATTTCA AGGTCTGCCG GGACAACAGC 
    ATCCTTCCAC CTTTAGATAA AGAGAAAGGT GAAACACTGC TGAGTCCTTT GGTGATGTGT 
    GGTCCCCATG GCCTCAAGTT CCTGAAGCCT GTGGAGCTGC GCTTACCACA CTGTGCGTCC 
    ATGACTCCTG ACGGTTGGTC TTTTGCTCTA AAATCATCCG ACTCCTCGTC GGGTGATCCT 
    AAAACCTGGC AAAACAAGTG TCTTCCCGGA GATCCAAATT ATCTCGTTGG AGCAAACTGT 
    GTTTCTGTCC TTATTGACCA CTTTTAA

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

    TJP1 ( NM_001301026.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001287955.1 Homo sapiens tight junction protein 1 (TJP1), transcript variant 4, mRNA.
    Price & Availability↑
    CloneID OHu48525
    Clone ID Related Accession (Same CDS sequence) NM_001301026.2 , NM_001301026.1
    Accession Version NM_001301026.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5079bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-15
    Organism Homo sapiens(human)
    Product tight junction protein ZO-1 isoform d
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from BX640879.1, AC022613.13, AB370197.1 and AF035298.1. On Jun 2, 2019 this sequence version replaced NM_001301026.1. Transcript Variant: This variant (4) contains alternate 5' exon structure and it thus differs in the 5' UTR and 5' coding region, and it lacks an alternate in-frame exon in the central coding region and uses an alternate in-frame splice site in the 3' coding region, compared to variant 1. The encoded isoform (d) has a distinct N-terminus and is shorter than isoform a. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BX640879.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGGAGAGAA ATACGTTTTC AATGGATTGC CACAGTAAGA GCACAGCAAT GGAGGAAACA 
    GCTATATGGG AACAACATAC AGTGACGCTT CACAGGGCTC CTGGATTTGG ATTTGGAATT 
    GCAATATCTG GTGGACGAGA TAATCCTCAT TTTCAGAGTG GGGAAACGTC AATAGTGATT 
    TCAGATGTGC TGAAAGGAGG ACCAGCTGAA GGACAGCTAC AGGAAAATGA CCGAGTTGCA 
    ATGGTTAACG GAGTTTCAAT GGATAATGTT GAACATGCTT TTGCTGTTCA GCAACTAAGG 
    AAAAGTGGGA AAAATGCAAA AATTACAATT AGAAGGAAGA AGAAAGTTCA AATACCAGTA 
    AGTCGTCCTG ATCCTGAACC AGTATCTGAT AATGAAGAAG ATAGTTATGA TGAGGAAATA 
    CATGATCCAA GAAGTGGCCG GAGTGGTGTG GTTAACAGAA GGAGTGAGAA GATTTGGCCG 
    AGGGATAGAA GTGCAAGTAG AGAGAGGAGC TTGTCCCCGC GGTCAGACAG GCGGTCAGTG 
    GCTTCCAGCC AGCCTGCTAA ACCTACTAAA GTCACACTGG TGAAATCCCG GAAAAATGAA 
    GAATATGGTC TTCGATTGGC AAGCCATATA TTTGTTAAGG AAATTTCACA AGATAGTTTG 
    GCAGCAAGAG ATGGCAATAT TCAAGAAGGT GATGTTGTAT TGAAGATAAA TGGTACTGTG 
    ACAGAAAATA TGTCATTGAC AGATGCAAAG ACATTGATAG AAAGGTCTAA AGGCAAATTA 
    AAAATGGTAG TTCAAAGAGA TGAACGGGCT ACGCTATTGA ATGTCCCTGA TCTTTCTGAC 
    AGCATCCACT CTGCTAATGC CTCTGAGAGA GACGACATTT CAGAAATTCA GTCACTGGCA 
    TCAGATCATT CTGGTCGATC ACACGATAGG CCTCCCCGCC GCAGCCGGTC ACGATCTCCT 
    GACCAGCGGT CAGAGCCTTC TGATCATTCC AGGCACTCGC CGCAGCAGCC AAGCAATGGC 
    AGTCTCCGGA GTAGAGATGA AGAGAGAATT TCTAAACCTG GGGCTGTCTC AACTCCTGTA 
    AAGCATGCTG ATGATCACAC ACCTAAAACA GTGGAAGAAG TTACAGTTGA AAGAAATGAG 
    AAACAAACAC CTTCTCTTCC AGAACCAAAG CCTGTGTATG CCCAAGTTGG GCAACCAGAT 
    GTGGATTTAC CTGTCAGTCC ATCTGATGGT GTCCTACCTA ATTCAACTCA TGAAGATGGG 
    ATTCTTCGGC CCAGCATGAA ATTGGTAAAA TTCAGAAAAG GAGATAGTGT GGGTTTGCGG 
    CTGGCTGGTG GAAATGATGT TGGAATATTT GTAGCTGGCG TTCTAGAAGA TAGCCCTGCA 
    GCCAAGGAAG GCTTAGAGGA AGGTGATCAA ATTCTCAGGG TAAACAACGT AGATTTTACA 
    AATATCATAA GAGAAGAAGC CGTCCTTTTC CTGCTTGACC TCCCTAAAGG AGAAGAAGTG 
    ACCATATTGG CTCAGAAGAA GAAGGATGTT TATCGTCGCA TTGTAGAATC AGATGTAGGA 
    GATTCTTTCT ATATTAGAAC CCATTTTGAA TATGAAAAGG AATCTCCCTA TGGACTTAGT 
    TTTAACAAAG GAGAGGTGTT CCGTGTTGTG GATACCTTGT ACAATGGAAA ACTGGGCTCT 
    TGGCTTGCTA TTCGAATTGG TAAAAATCAT AAGGAGGTAG AACGAGGCAT CATCCCTAAT 
    AAGAACAGAG CTGAGCAGCT AGCCAGTGTA CAGTATACAC TTCCAAAAAC AGCAGGCGGA 
    GACCGTGCTG ACTTCTGGAG ATTCAGAGGT CTTCGCAGCT CCAAGAGAAA TCTTCGAAAA 
    AGCAGAGAGG ATTTGTCCGC TCAGCCTGTT CAAACAAAGT TTCCAGCTTA TGAAAGAGTG 
    GTTCTTCGAG AAGCTGGATT TCTGAGGCCT GTAACCATTT TTGGACCAAT AGCTGATGTT 
    GCCAGAGAAA AGCTGGCAAG AGAAGAACCA GATATTTATC AAATTGCAAA GAGTGAACCA 
    CGAGACGCTG GAACTGACCA ACGTAGCTCT GGCATTATTC GCCTGCATAC AATAAAGCAA 
    ATCATAGATC AAGACAAACA TGCTTTATTA GATGTAACAC CAAATGCAGT TGATCGTCTT 
    AACTATGCCC AGTGGTATCC AATTGTTGTA TTTCTTAACC CTGATTCTAA GCAAGGAGTA 
    AAAACAATGA GAATGAGGTT ATGTCCAGAA TCTCGGAAAA GTGCCAGGAA GTTATACGAG 
    CGATCTCATA AACTTCGTAA AAATAATCAC CATCTTTTTA CAACTACAAT TAACTTAAAT 
    TCAATGAATG ATGGTTGGTA TGGTGCGCTG AAAGAAGCAA TTCAACAACA GCAAAACCAG 
    CTGGTATGGG TTTCCGAGGG AAAGGCGGAT GGTGCTACAA GTGATGACCT TGATTTGCAT 
    GATGATCGTC TGTCCTACCT GTCAGCTCCA GGTAGTGAAT ACTCAATGTA TAGCACGGAC 
    AGTAGACACA CTTCTGACTA TGAAGACACA GACACAGAAG GCGGGGCCTA CACTGATCAA 
    GAACTAGATG AAACTCTTAA TGATGAGGTT GGGACTCCAC CGGAGTCTGC CATTACACGG 
    TCCTCTGAGC CTGTAAGAGA GGACTCCTCT GGAATGCATC ATGAAAACCA AACATATCCT 
    CCTTACTCAC CACAAGCGCA GCCACAACCA ATTCATAGAA TAGACTCCCC TGGATTTAAG 
    CCAGCCTCTC AACAGGTGTA TAGAAAGGAT CCATATCCCG AGGAAATGAT GAGGCAGAAC 
    CATGTTTTGA AACAGCCAGC CGTTAGTCAC CCAGGGCACA GGCCAGACAA AGAGCCTAAT 
    CTGACCTATG AACCCCAACT CCCATACGTA GAGAAACAAG CCAGCAGAGA CCTCGAGCAG 
    CCCACATACA GATACGAGTC CTCAAGCTAT ACGGACCAGT TTTCTCGAAA CTATGAACAT 
    CGTCTGCGAT ACGAAGATCG CGTCCCCATG TATGAAGAAC AGTGGTCATA TTATGATGAC 
    AAACAGCCCT ACCCATCTCG GCCACCTTTT GATAATCAGC ACTCTCAAGA CCTTGACTCC 
    AGACAGCATC CCGAAGAGTC CTCAGAACGA GGGTACTTTC CACGTTTTGA AGAGCCAGCC 
    CCTCTGTCTT ACGACAGCAG ACCACGTTAC GAACAGGCAC CTAGAGCATC CGCCCTGCGG 
    CACGAAGAGC AGCCAGCTCC TGGGTATGAC ACACATGGTA GACTCAGACC GGAAGCCCAG 
    CCCCACCCTT CAGCAGGGCC CAAGCCTGCA GAGTCCAAGC AGTATTTTGA GCAATATTCA 
    CGCAGTTACG AGCAAGTACC ACCCCAAGGA TTTACCTCTA GAGCAGGTCA TTTTGAGCCT 
    CTCCATGGTG CTGCAGCTGT CCCTCCGCTG ATACCTTCAT CTCAGCATAA GCCAGAAGCT 
    CTGCCTTCAA ACACCAAACC ACTGCCTCCA CCCCCAACTC AAACCGAAGA AGAGGAAGAT 
    CCAGCAATGA AGCCACAGTC TGTACTCACC AGAGTTAAGA TGTTTGAAAA CAAAAGATCT 
    GCATCCTTAG AGACCAAGAA GGATGTAAAT GACACTGGCA GTTTTAAGCC TCCAGAAGTA 
    GCATCTAAAC CTTCAGGTGC TCCCATCATT GGTCCCAAAC CCACTTCTCA GAATCAATTC 
    AGTGAACATG ACAAAACTCT GTACAGGATC CCAGAACCTC AAAAACCTCA ACTGAAGCCA 
    CCTGAAGATA TTGTTCGGTC CAATCATTAT GACCCTGAAG AAGATGAAGA ATATTATCGA 
    AAACAGCTGT CATACTTTGA CCGAAGAAGT TTTGAGAATA AGCCTCCTGC ACACATTGCC 
    GCCAGCCATC TCTCCGAGCC TGCAAAGCCA GCGCATTCTC AGAATCAATC AAATTTTTCT 
    AGTTATTCTT CAAAGGGAAA GCCTCCTGAA GCTGATGGTG TGGATAGATC ATTTGGCGAG 
    AAACGCTATG AACCCATCCA GGCCACTCCC CCTCCTCCTC CATTGCCCTC GCAGTATGCC 
    CAGCCATCTC AGCCTGTCAC CAGCGCGTCT CTCCACATAC ATTCTAAGGG AGCACATGGT 
    GAAGGTAATT CAGTGTCATT GGATTTTCAG AATTCCTTAG TGTCCAAACC AGACCCACCT 
    CCATCTCAGA ATAAGCCAGC AACTTTCAGA CCACCAAACC GAGAAGATAC TGCTCAGGCA 
    GCTTTCTATC CCCAGAAAAG TTTTCCAGAT AAAGCCCCAG TTAATGGAAC TGAACAGACT 
    CAGAAAACAG TCACTCCAGC ATACAATCGA TTCACACCAA AACCATATAC AAGTTCTGCC 
    CGACCATTTG AACGCAAGTT TGAAAGTCCT AAATTCAATC ACAATCTTCT GCCAAGTGAA 
    ACTGCACATA AACCTGACTT GTCTTCAAAA ACTCCCACTT CTCCAAAAAC TCTTGTGAAA 
    TCGCACAGTT TGGCACAGCC TCCTGAGTTT GACAGTGGAG TTGAAACTTT CTCTATCCAT 
    GCAGAGAAGC CTAAATATCA AATAAATAAT ATCAGCACAG TGCCTAAAGC TATTCCTGTG 
    AGTCCTTCAG CTGTGGAAGA GGATGAAGAT GAAGATGGTC ATACTGTGGT GGCCACAGCC 
    CGAGGCATAT TTAACAGCAA TGGGGGCGTG CTGAGTTCCA TAGAAACTGG TGTTAGTATA 
    ATTATCCCTC AAGGAGCCAT TCCCGAAGGA GTTGAGCAGG AAATCTATTT CAAGGTCTGC 
    CGGGACAACA GCATCCTTCC ACCTTTAGAT AAAGAGAAAG GTGAAACACT GCTGAGTCCT 
    TTGGTGATGT GTGGTCCCCA TGGCCTCAAG TTCCTGAAGC CTGTGGAGCT GCGCTTACCA 
    CACTGTGCGT CCATGACTCC TGACGGTTGG TCTTTTGCTC TAAAATCATC CGACTCCTCG 
    TCGGGTGATC CTAAAACCTG GCAAAACAAG TGTCTTCCCG GAGATCCAAA TTATCTCGTT 
    GGAGCAAACT GTGTTTCTGT CCTTATTGAC CACTTTTAA

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

    RefSeq NP_001287955.1
    CDS174..5252
    Translation

    Target ORF information:

    RefSeq Version NM_001301026.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tight junction protein 1 (TJP1), transcript variant 4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001301026.2

    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
    ATGGAGAGAA ATACGTTTTC AATGGATTGC CACAGTAAGA GCACAGCAAT GGAGGAAACA 
    GCTATATGGG AACAACATAC AGTGACGCTT CACAGGGCTC CTGGATTTGG ATTTGGAATT 
    GCAATATCTG GTGGACGAGA TAATCCTCAT TTTCAGAGTG GGGAAACGTC AATAGTGATT 
    TCAGATGTGC TGAAAGGAGG ACCAGCTGAA GGACAGCTAC AGGAAAATGA CCGAGTTGCA 
    ATGGTTAACG GAGTTTCAAT GGATAATGTT GAACATGCTT TTGCTGTTCA GCAACTAAGG 
    AAAAGTGGGA AAAATGCAAA AATTACAATT AGAAGGAAGA AGAAAGTTCA AATACCAGTA 
    AGTCGTCCTG ATCCTGAACC AGTATCTGAT AATGAAGAAG ATAGTTATGA TGAGGAAATA 
    CATGATCCAA GAAGTGGCCG GAGTGGTGTG GTTAACAGAA GGAGTGAGAA GATTTGGCCG 
    AGGGATAGAA GTGCAAGTAG AGAGAGGAGC TTGTCCCCGC GGTCAGACAG GCGGTCAGTG 
    GCTTCCAGCC AGCCTGCTAA ACCTACTAAA GTCACACTGG TGAAATCCCG GAAAAATGAA 
    GAATATGGTC TTCGATTGGC AAGCCATATA TTTGTTAAGG AAATTTCACA AGATAGTTTG 
    GCAGCAAGAG ATGGCAATAT TCAAGAAGGT GATGTTGTAT TGAAGATAAA TGGTACTGTG 
    ACAGAAAATA TGTCATTGAC AGATGCAAAG ACATTGATAG AAAGGTCTAA AGGCAAATTA 
    AAAATGGTAG TTCAAAGAGA TGAACGGGCT ACGCTATTGA ATGTCCCTGA TCTTTCTGAC 
    AGCATCCACT CTGCTAATGC CTCTGAGAGA GACGACATTT CAGAAATTCA GTCACTGGCA 
    TCAGATCATT CTGGTCGATC ACACGATAGG CCTCCCCGCC GCAGCCGGTC ACGATCTCCT 
    GACCAGCGGT CAGAGCCTTC TGATCATTCC AGGCACTCGC CGCAGCAGCC AAGCAATGGC 
    AGTCTCCGGA GTAGAGATGA AGAGAGAATT TCTAAACCTG GGGCTGTCTC AACTCCTGTA 
    AAGCATGCTG ATGATCACAC ACCTAAAACA GTGGAAGAAG TTACAGTTGA AAGAAATGAG 
    AAACAAACAC CTTCTCTTCC AGAACCAAAG CCTGTGTATG CCCAAGTTGG GCAACCAGAT 
    GTGGATTTAC CTGTCAGTCC ATCTGATGGT GTCCTACCTA ATTCAACTCA TGAAGATGGG 
    ATTCTTCGGC CCAGCATGAA ATTGGTAAAA TTCAGAAAAG GAGATAGTGT GGGTTTGCGG 
    CTGGCTGGTG GAAATGATGT TGGAATATTT GTAGCTGGCG TTCTAGAAGA TAGCCCTGCA 
    GCCAAGGAAG GCTTAGAGGA AGGTGATCAA ATTCTCAGGG TAAACAACGT AGATTTTACA 
    AATATCATAA GAGAAGAAGC CGTCCTTTTC CTGCTTGACC TCCCTAAAGG AGAAGAAGTG 
    ACCATATTGG CTCAGAAGAA GAAGGATGTT TATCGTCGCA TTGTAGAATC AGATGTAGGA 
    GATTCTTTCT ATATTAGAAC CCATTTTGAA TATGAAAAGG AATCTCCCTA TGGACTTAGT 
    TTTAACAAAG GAGAGGTGTT CCGTGTTGTG GATACCTTGT ACAATGGAAA ACTGGGCTCT 
    TGGCTTGCTA TTCGAATTGG TAAAAATCAT AAGGAGGTAG AACGAGGCAT CATCCCTAAT 
    AAGAACAGAG CTGAGCAGCT AGCCAGTGTA CAGTATACAC TTCCAAAAAC AGCAGGCGGA 
    GACCGTGCTG ACTTCTGGAG ATTCAGAGGT CTTCGCAGCT CCAAGAGAAA TCTTCGAAAA 
    AGCAGAGAGG ATTTGTCCGC TCAGCCTGTT CAAACAAAGT TTCCAGCTTA TGAAAGAGTG 
    GTTCTTCGAG AAGCTGGATT TCTGAGGCCT GTAACCATTT TTGGACCAAT AGCTGATGTT 
    GCCAGAGAAA AGCTGGCAAG AGAAGAACCA GATATTTATC AAATTGCAAA GAGTGAACCA 
    CGAGACGCTG GAACTGACCA ACGTAGCTCT GGCATTATTC GCCTGCATAC AATAAAGCAA 
    ATCATAGATC AAGACAAACA TGCTTTATTA GATGTAACAC CAAATGCAGT TGATCGTCTT 
    AACTATGCCC AGTGGTATCC AATTGTTGTA TTTCTTAACC CTGATTCTAA GCAAGGAGTA 
    AAAACAATGA GAATGAGGTT ATGTCCAGAA TCTCGGAAAA GTGCCAGGAA GTTATACGAG 
    CGATCTCATA AACTTCGTAA AAATAATCAC CATCTTTTTA CAACTACAAT TAACTTAAAT 
    TCAATGAATG ATGGTTGGTA TGGTGCGCTG AAAGAAGCAA TTCAACAACA GCAAAACCAG 
    CTGGTATGGG TTTCCGAGGG AAAGGCGGAT GGTGCTACAA GTGATGACCT TGATTTGCAT 
    GATGATCGTC TGTCCTACCT GTCAGCTCCA GGTAGTGAAT ACTCAATGTA TAGCACGGAC 
    AGTAGACACA CTTCTGACTA TGAAGACACA GACACAGAAG GCGGGGCCTA CACTGATCAA 
    GAACTAGATG AAACTCTTAA TGATGAGGTT GGGACTCCAC CGGAGTCTGC CATTACACGG 
    TCCTCTGAGC CTGTAAGAGA GGACTCCTCT GGAATGCATC ATGAAAACCA AACATATCCT 
    CCTTACTCAC CACAAGCGCA GCCACAACCA ATTCATAGAA TAGACTCCCC TGGATTTAAG 
    CCAGCCTCTC AACAGGTGTA TAGAAAGGAT CCATATCCCG AGGAAATGAT GAGGCAGAAC 
    CATGTTTTGA AACAGCCAGC CGTTAGTCAC CCAGGGCACA GGCCAGACAA AGAGCCTAAT 
    CTGACCTATG AACCCCAACT CCCATACGTA GAGAAACAAG CCAGCAGAGA CCTCGAGCAG 
    CCCACATACA GATACGAGTC CTCAAGCTAT ACGGACCAGT TTTCTCGAAA CTATGAACAT 
    CGTCTGCGAT ACGAAGATCG CGTCCCCATG TATGAAGAAC AGTGGTCATA TTATGATGAC 
    AAACAGCCCT ACCCATCTCG GCCACCTTTT GATAATCAGC ACTCTCAAGA CCTTGACTCC 
    AGACAGCATC CCGAAGAGTC CTCAGAACGA GGGTACTTTC CACGTTTTGA AGAGCCAGCC 
    CCTCTGTCTT ACGACAGCAG ACCACGTTAC GAACAGGCAC CTAGAGCATC CGCCCTGCGG 
    CACGAAGAGC AGCCAGCTCC TGGGTATGAC ACACATGGTA GACTCAGACC GGAAGCCCAG 
    CCCCACCCTT CAGCAGGGCC CAAGCCTGCA GAGTCCAAGC AGTATTTTGA GCAATATTCA 
    CGCAGTTACG AGCAAGTACC ACCCCAAGGA TTTACCTCTA GAGCAGGTCA TTTTGAGCCT 
    CTCCATGGTG CTGCAGCTGT CCCTCCGCTG ATACCTTCAT CTCAGCATAA GCCAGAAGCT 
    CTGCCTTCAA ACACCAAACC ACTGCCTCCA CCCCCAACTC AAACCGAAGA AGAGGAAGAT 
    CCAGCAATGA AGCCACAGTC TGTACTCACC AGAGTTAAGA TGTTTGAAAA CAAAAGATCT 
    GCATCCTTAG AGACCAAGAA GGATGTAAAT GACACTGGCA GTTTTAAGCC TCCAGAAGTA 
    GCATCTAAAC CTTCAGGTGC TCCCATCATT GGTCCCAAAC CCACTTCTCA GAATCAATTC 
    AGTGAACATG ACAAAACTCT GTACAGGATC CCAGAACCTC AAAAACCTCA ACTGAAGCCA 
    CCTGAAGATA TTGTTCGGTC CAATCATTAT GACCCTGAAG AAGATGAAGA ATATTATCGA 
    AAACAGCTGT CATACTTTGA CCGAAGAAGT TTTGAGAATA AGCCTCCTGC ACACATTGCC 
    GCCAGCCATC TCTCCGAGCC TGCAAAGCCA GCGCATTCTC AGAATCAATC AAATTTTTCT 
    AGTTATTCTT CAAAGGGAAA GCCTCCTGAA GCTGATGGTG TGGATAGATC ATTTGGCGAG 
    AAACGCTATG AACCCATCCA GGCCACTCCC CCTCCTCCTC CATTGCCCTC GCAGTATGCC 
    CAGCCATCTC AGCCTGTCAC CAGCGCGTCT CTCCACATAC ATTCTAAGGG AGCACATGGT 
    GAAGGTAATT CAGTGTCATT GGATTTTCAG AATTCCTTAG TGTCCAAACC AGACCCACCT 
    CCATCTCAGA ATAAGCCAGC AACTTTCAGA CCACCAAACC GAGAAGATAC TGCTCAGGCA 
    GCTTTCTATC CCCAGAAAAG TTTTCCAGAT AAAGCCCCAG TTAATGGAAC TGAACAGACT 
    CAGAAAACAG TCACTCCAGC ATACAATCGA TTCACACCAA AACCATATAC AAGTTCTGCC 
    CGACCATTTG AACGCAAGTT TGAAAGTCCT AAATTCAATC ACAATCTTCT GCCAAGTGAA 
    ACTGCACATA AACCTGACTT GTCTTCAAAA ACTCCCACTT CTCCAAAAAC TCTTGTGAAA 
    TCGCACAGTT TGGCACAGCC TCCTGAGTTT GACAGTGGAG TTGAAACTTT CTCTATCCAT 
    GCAGAGAAGC CTAAATATCA AATAAATAAT ATCAGCACAG TGCCTAAAGC TATTCCTGTG 
    AGTCCTTCAG CTGTGGAAGA GGATGAAGAT GAAGATGGTC ATACTGTGGT GGCCACAGCC 
    CGAGGCATAT TTAACAGCAA TGGGGGCGTG CTGAGTTCCA TAGAAACTGG TGTTAGTATA 
    ATTATCCCTC AAGGAGCCAT TCCCGAAGGA GTTGAGCAGG AAATCTATTT CAAGGTCTGC 
    CGGGACAACA GCATCCTTCC ACCTTTAGAT AAAGAGAAAG GTGAAACACT GCTGAGTCCT 
    TTGGTGATGT GTGGTCCCCA TGGCCTCAAG TTCCTGAAGC CTGTGGAGCT GCGCTTACCA 
    CACTGTGCGT CCATGACTCC TGACGGTTGG TCTTTTGCTC TAAAATCATC CGACTCCTCG 
    TCGGGTGATC CTAAAACCTG GCAAAACAAG TGTCTTCCCG GAGATCCAAA TTATCTCGTT 
    GGAGCAAACT GTGTTTCTGT CCTTATTGAC CACTTTTAA

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

    TJP1 ( NM_001301026.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001287955.1 Homo sapiens tight junction protein 1 (TJP1), transcript variant 4, mRNA.
    Price & Availability↑
    CloneID OHu48525
    Clone ID Related Accession (Same CDS sequence) NM_001301026.2 , NM_001301026.1
    Accession Version NM_001301026.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5079bp)
    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 2019-01-12
    Organism Homo sapiens(human)
    Product tight junction protein ZO-1 isoform d
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from BX640879.1, AC022613.13, AB370197.1 and AF035298.1. On or before Jul 18, 2014 this sequence version replaced XM_006725559.1, XM_006720661.1. Transcript Variant: This variant (4) contains alternate 5' exon structure and it thus differs in the 5' UTR and 5' coding region, and it lacks an alternate in-frame exon in the central coding region and uses an alternate in-frame splice site in the 3' coding region, compared to variant 1. The encoded isoform (d) has a distinct N-terminus and is shorter than isoform a. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BX640879.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGGAGAGAA ATACGTTTTC AATGGATTGC CACAGTAAGA GCACAGCAAT GGAGGAAACA 
    GCTATATGGG AACAACATAC AGTGACGCTT CACAGGGCTC CTGGATTTGG ATTTGGAATT 
    GCAATATCTG GTGGACGAGA TAATCCTCAT TTTCAGAGTG GGGAAACGTC AATAGTGATT 
    TCAGATGTGC TGAAAGGAGG ACCAGCTGAA GGACAGCTAC AGGAAAATGA CCGAGTTGCA 
    ATGGTTAACG GAGTTTCAAT GGATAATGTT GAACATGCTT TTGCTGTTCA GCAACTAAGG 
    AAAAGTGGGA AAAATGCAAA AATTACAATT AGAAGGAAGA AGAAAGTTCA AATACCAGTA 
    AGTCGTCCTG ATCCTGAACC AGTATCTGAT AATGAAGAAG ATAGTTATGA TGAGGAAATA 
    CATGATCCAA GAAGTGGCCG GAGTGGTGTG GTTAACAGAA GGAGTGAGAA GATTTGGCCG 
    AGGGATAGAA GTGCAAGTAG AGAGAGGAGC TTGTCCCCGC GGTCAGACAG GCGGTCAGTG 
    GCTTCCAGCC AGCCTGCTAA ACCTACTAAA GTCACACTGG TGAAATCCCG GAAAAATGAA 
    GAATATGGTC TTCGATTGGC AAGCCATATA TTTGTTAAGG AAATTTCACA AGATAGTTTG 
    GCAGCAAGAG ATGGCAATAT TCAAGAAGGT GATGTTGTAT TGAAGATAAA TGGTACTGTG 
    ACAGAAAATA TGTCATTGAC AGATGCAAAG ACATTGATAG AAAGGTCTAA AGGCAAATTA 
    AAAATGGTAG TTCAAAGAGA TGAACGGGCT ACGCTATTGA ATGTCCCTGA TCTTTCTGAC 
    AGCATCCACT CTGCTAATGC CTCTGAGAGA GACGACATTT CAGAAATTCA GTCACTGGCA 
    TCAGATCATT CTGGTCGATC ACACGATAGG CCTCCCCGCC GCAGCCGGTC ACGATCTCCT 
    GACCAGCGGT CAGAGCCTTC TGATCATTCC AGGCACTCGC CGCAGCAGCC AAGCAATGGC 
    AGTCTCCGGA GTAGAGATGA AGAGAGAATT TCTAAACCTG GGGCTGTCTC AACTCCTGTA 
    AAGCATGCTG ATGATCACAC ACCTAAAACA GTGGAAGAAG TTACAGTTGA AAGAAATGAG 
    AAACAAACAC CTTCTCTTCC AGAACCAAAG CCTGTGTATG CCCAAGTTGG GCAACCAGAT 
    GTGGATTTAC CTGTCAGTCC ATCTGATGGT GTCCTACCTA ATTCAACTCA TGAAGATGGG 
    ATTCTTCGGC CCAGCATGAA ATTGGTAAAA TTCAGAAAAG GAGATAGTGT GGGTTTGCGG 
    CTGGCTGGTG GAAATGATGT TGGAATATTT GTAGCTGGCG TTCTAGAAGA TAGCCCTGCA 
    GCCAAGGAAG GCTTAGAGGA AGGTGATCAA ATTCTCAGGG TAAACAACGT AGATTTTACA 
    AATATCATAA GAGAAGAAGC CGTCCTTTTC CTGCTTGACC TCCCTAAAGG AGAAGAAGTG 
    ACCATATTGG CTCAGAAGAA GAAGGATGTT TATCGTCGCA TTGTAGAATC AGATGTAGGA 
    GATTCTTTCT ATATTAGAAC CCATTTTGAA TATGAAAAGG AATCTCCCTA TGGACTTAGT 
    TTTAACAAAG GAGAGGTGTT CCGTGTTGTG GATACCTTGT ACAATGGAAA ACTGGGCTCT 
    TGGCTTGCTA TTCGAATTGG TAAAAATCAT AAGGAGGTAG AACGAGGCAT CATCCCTAAT 
    AAGAACAGAG CTGAGCAGCT AGCCAGTGTA CAGTATACAC TTCCAAAAAC AGCAGGCGGA 
    GACCGTGCTG ACTTCTGGAG ATTCAGAGGT CTTCGCAGCT CCAAGAGAAA TCTTCGAAAA 
    AGCAGAGAGG ATTTGTCCGC TCAGCCTGTT CAAACAAAGT TTCCAGCTTA TGAAAGAGTG 
    GTTCTTCGAG AAGCTGGATT TCTGAGGCCT GTAACCATTT TTGGACCAAT AGCTGATGTT 
    GCCAGAGAAA AGCTGGCAAG AGAAGAACCA GATATTTATC AAATTGCAAA GAGTGAACCA 
    CGAGACGCTG GAACTGACCA ACGTAGCTCT GGCATTATTC GCCTGCATAC AATAAAGCAA 
    ATCATAGATC AAGACAAACA TGCTTTATTA GATGTAACAC CAAATGCAGT TGATCGTCTT 
    AACTATGCCC AGTGGTATCC AATTGTTGTA TTTCTTAACC CTGATTCTAA GCAAGGAGTA 
    AAAACAATGA GAATGAGGTT ATGTCCAGAA TCTCGGAAAA GTGCCAGGAA GTTATACGAG 
    CGATCTCATA AACTTCGTAA AAATAATCAC CATCTTTTTA CAACTACAAT TAACTTAAAT 
    TCAATGAATG ATGGTTGGTA TGGTGCGCTG AAAGAAGCAA TTCAACAACA GCAAAACCAG 
    CTGGTATGGG TTTCCGAGGG AAAGGCGGAT GGTGCTACAA GTGATGACCT TGATTTGCAT 
    GATGATCGTC TGTCCTACCT GTCAGCTCCA GGTAGTGAAT ACTCAATGTA TAGCACGGAC 
    AGTAGACACA CTTCTGACTA TGAAGACACA GACACAGAAG GCGGGGCCTA CACTGATCAA 
    GAACTAGATG AAACTCTTAA TGATGAGGTT GGGACTCCAC CGGAGTCTGC CATTACACGG 
    TCCTCTGAGC CTGTAAGAGA GGACTCCTCT GGAATGCATC ATGAAAACCA AACATATCCT 
    CCTTACTCAC CACAAGCGCA GCCACAACCA ATTCATAGAA TAGACTCCCC TGGATTTAAG 
    CCAGCCTCTC AACAGGTGTA TAGAAAGGAT CCATATCCCG AGGAAATGAT GAGGCAGAAC 
    CATGTTTTGA AACAGCCAGC CGTTAGTCAC CCAGGGCACA GGCCAGACAA AGAGCCTAAT 
    CTGACCTATG AACCCCAACT CCCATACGTA GAGAAACAAG CCAGCAGAGA CCTCGAGCAG 
    CCCACATACA GATACGAGTC CTCAAGCTAT ACGGACCAGT TTTCTCGAAA CTATGAACAT 
    CGTCTGCGAT ACGAAGATCG CGTCCCCATG TATGAAGAAC AGTGGTCATA TTATGATGAC 
    AAACAGCCCT ACCCATCTCG GCCACCTTTT GATAATCAGC ACTCTCAAGA CCTTGACTCC 
    AGACAGCATC CCGAAGAGTC CTCAGAACGA GGGTACTTTC CACGTTTTGA AGAGCCAGCC 
    CCTCTGTCTT ACGACAGCAG ACCACGTTAC GAACAGGCAC CTAGAGCATC CGCCCTGCGG 
    CACGAAGAGC AGCCAGCTCC TGGGTATGAC ACACATGGTA GACTCAGACC GGAAGCCCAG 
    CCCCACCCTT CAGCAGGGCC CAAGCCTGCA GAGTCCAAGC AGTATTTTGA GCAATATTCA 
    CGCAGTTACG AGCAAGTACC ACCCCAAGGA TTTACCTCTA GAGCAGGTCA TTTTGAGCCT 
    CTCCATGGTG CTGCAGCTGT CCCTCCGCTG ATACCTTCAT CTCAGCATAA GCCAGAAGCT 
    CTGCCTTCAA ACACCAAACC ACTGCCTCCA CCCCCAACTC AAACCGAAGA AGAGGAAGAT 
    CCAGCAATGA AGCCACAGTC TGTACTCACC AGAGTTAAGA TGTTTGAAAA CAAAAGATCT 
    GCATCCTTAG AGACCAAGAA GGATGTAAAT GACACTGGCA GTTTTAAGCC TCCAGAAGTA 
    GCATCTAAAC CTTCAGGTGC TCCCATCATT GGTCCCAAAC CCACTTCTCA GAATCAATTC 
    AGTGAACATG ACAAAACTCT GTACAGGATC CCAGAACCTC AAAAACCTCA ACTGAAGCCA 
    CCTGAAGATA TTGTTCGGTC CAATCATTAT GACCCTGAAG AAGATGAAGA ATATTATCGA 
    AAACAGCTGT CATACTTTGA CCGAAGAAGT TTTGAGAATA AGCCTCCTGC ACACATTGCC 
    GCCAGCCATC TCTCCGAGCC TGCAAAGCCA GCGCATTCTC AGAATCAATC AAATTTTTCT 
    AGTTATTCTT CAAAGGGAAA GCCTCCTGAA GCTGATGGTG TGGATAGATC ATTTGGCGAG 
    AAACGCTATG AACCCATCCA GGCCACTCCC CCTCCTCCTC CATTGCCCTC GCAGTATGCC 
    CAGCCATCTC AGCCTGTCAC CAGCGCGTCT CTCCACATAC ATTCTAAGGG AGCACATGGT 
    GAAGGTAATT CAGTGTCATT GGATTTTCAG AATTCCTTAG TGTCCAAACC AGACCCACCT 
    CCATCTCAGA ATAAGCCAGC AACTTTCAGA CCACCAAACC GAGAAGATAC TGCTCAGGCA 
    GCTTTCTATC CCCAGAAAAG TTTTCCAGAT AAAGCCCCAG TTAATGGAAC TGAACAGACT 
    CAGAAAACAG TCACTCCAGC ATACAATCGA TTCACACCAA AACCATATAC AAGTTCTGCC 
    CGACCATTTG AACGCAAGTT TGAAAGTCCT AAATTCAATC ACAATCTTCT GCCAAGTGAA 
    ACTGCACATA AACCTGACTT GTCTTCAAAA ACTCCCACTT CTCCAAAAAC TCTTGTGAAA 
    TCGCACAGTT TGGCACAGCC TCCTGAGTTT GACAGTGGAG TTGAAACTTT CTCTATCCAT 
    GCAGAGAAGC CTAAATATCA AATAAATAAT ATCAGCACAG TGCCTAAAGC TATTCCTGTG 
    AGTCCTTCAG CTGTGGAAGA GGATGAAGAT GAAGATGGTC ATACTGTGGT GGCCACAGCC 
    CGAGGCATAT TTAACAGCAA TGGGGGCGTG CTGAGTTCCA TAGAAACTGG TGTTAGTATA 
    ATTATCCCTC AAGGAGCCAT TCCCGAAGGA GTTGAGCAGG AAATCTATTT CAAGGTCTGC 
    CGGGACAACA GCATCCTTCC ACCTTTAGAT AAAGAGAAAG GTGAAACACT GCTGAGTCCT 
    TTGGTGATGT GTGGTCCCCA TGGCCTCAAG TTCCTGAAGC CTGTGGAGCT GCGCTTACCA 
    CACTGTGCGT CCATGACTCC TGACGGTTGG TCTTTTGCTC TAAAATCATC CGACTCCTCG 
    TCGGGTGATC CTAAAACCTG GCAAAACAAG TGTCTTCCCG GAGATCCAAA TTATCTCGTT 
    GGAGCAAACT GTGTTTCTGT CCTTATTGAC CACTTTTAA

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

    RefSeq NP_001287955.1
    CDS243..5321
    Translation

    Target ORF information:

    RefSeq Version NM_001301026.1
    Organism Homo sapiens(human)
    Definition Homo sapiens tight junction protein 1 (TJP1), transcript variant 4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001301026.1

    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
    ATGGAGAGAA ATACGTTTTC AATGGATTGC CACAGTAAGA GCACAGCAAT GGAGGAAACA 
    GCTATATGGG AACAACATAC AGTGACGCTT CACAGGGCTC CTGGATTTGG ATTTGGAATT 
    GCAATATCTG GTGGACGAGA TAATCCTCAT TTTCAGAGTG GGGAAACGTC AATAGTGATT 
    TCAGATGTGC TGAAAGGAGG ACCAGCTGAA GGACAGCTAC AGGAAAATGA CCGAGTTGCA 
    ATGGTTAACG GAGTTTCAAT GGATAATGTT GAACATGCTT TTGCTGTTCA GCAACTAAGG 
    AAAAGTGGGA AAAATGCAAA AATTACAATT AGAAGGAAGA AGAAAGTTCA AATACCAGTA 
    AGTCGTCCTG ATCCTGAACC AGTATCTGAT AATGAAGAAG ATAGTTATGA TGAGGAAATA 
    CATGATCCAA GAAGTGGCCG GAGTGGTGTG GTTAACAGAA GGAGTGAGAA GATTTGGCCG 
    AGGGATAGAA GTGCAAGTAG AGAGAGGAGC TTGTCCCCGC GGTCAGACAG GCGGTCAGTG 
    GCTTCCAGCC AGCCTGCTAA ACCTACTAAA GTCACACTGG TGAAATCCCG GAAAAATGAA 
    GAATATGGTC TTCGATTGGC AAGCCATATA TTTGTTAAGG AAATTTCACA AGATAGTTTG 
    GCAGCAAGAG ATGGCAATAT TCAAGAAGGT GATGTTGTAT TGAAGATAAA TGGTACTGTG 
    ACAGAAAATA TGTCATTGAC AGATGCAAAG ACATTGATAG AAAGGTCTAA AGGCAAATTA 
    AAAATGGTAG TTCAAAGAGA TGAACGGGCT ACGCTATTGA ATGTCCCTGA TCTTTCTGAC 
    AGCATCCACT CTGCTAATGC CTCTGAGAGA GACGACATTT CAGAAATTCA GTCACTGGCA 
    TCAGATCATT CTGGTCGATC ACACGATAGG CCTCCCCGCC GCAGCCGGTC ACGATCTCCT 
    GACCAGCGGT CAGAGCCTTC TGATCATTCC AGGCACTCGC CGCAGCAGCC AAGCAATGGC 
    AGTCTCCGGA GTAGAGATGA AGAGAGAATT TCTAAACCTG GGGCTGTCTC AACTCCTGTA 
    AAGCATGCTG ATGATCACAC ACCTAAAACA GTGGAAGAAG TTACAGTTGA AAGAAATGAG 
    AAACAAACAC CTTCTCTTCC AGAACCAAAG CCTGTGTATG CCCAAGTTGG GCAACCAGAT 
    GTGGATTTAC CTGTCAGTCC ATCTGATGGT GTCCTACCTA ATTCAACTCA TGAAGATGGG 
    ATTCTTCGGC CCAGCATGAA ATTGGTAAAA TTCAGAAAAG GAGATAGTGT GGGTTTGCGG 
    CTGGCTGGTG GAAATGATGT TGGAATATTT GTAGCTGGCG TTCTAGAAGA TAGCCCTGCA 
    GCCAAGGAAG GCTTAGAGGA AGGTGATCAA ATTCTCAGGG TAAACAACGT AGATTTTACA 
    AATATCATAA GAGAAGAAGC CGTCCTTTTC CTGCTTGACC TCCCTAAAGG AGAAGAAGTG 
    ACCATATTGG CTCAGAAGAA GAAGGATGTT TATCGTCGCA TTGTAGAATC AGATGTAGGA 
    GATTCTTTCT ATATTAGAAC CCATTTTGAA TATGAAAAGG AATCTCCCTA TGGACTTAGT 
    TTTAACAAAG GAGAGGTGTT CCGTGTTGTG GATACCTTGT ACAATGGAAA ACTGGGCTCT 
    TGGCTTGCTA TTCGAATTGG TAAAAATCAT AAGGAGGTAG AACGAGGCAT CATCCCTAAT 
    AAGAACAGAG CTGAGCAGCT AGCCAGTGTA CAGTATACAC TTCCAAAAAC AGCAGGCGGA 
    GACCGTGCTG ACTTCTGGAG ATTCAGAGGT CTTCGCAGCT CCAAGAGAAA TCTTCGAAAA 
    AGCAGAGAGG ATTTGTCCGC TCAGCCTGTT CAAACAAAGT TTCCAGCTTA TGAAAGAGTG 
    GTTCTTCGAG AAGCTGGATT TCTGAGGCCT GTAACCATTT TTGGACCAAT AGCTGATGTT 
    GCCAGAGAAA AGCTGGCAAG AGAAGAACCA GATATTTATC AAATTGCAAA GAGTGAACCA 
    CGAGACGCTG GAACTGACCA ACGTAGCTCT GGCATTATTC GCCTGCATAC AATAAAGCAA 
    ATCATAGATC AAGACAAACA TGCTTTATTA GATGTAACAC CAAATGCAGT TGATCGTCTT 
    AACTATGCCC AGTGGTATCC AATTGTTGTA TTTCTTAACC CTGATTCTAA GCAAGGAGTA 
    AAAACAATGA GAATGAGGTT ATGTCCAGAA TCTCGGAAAA GTGCCAGGAA GTTATACGAG 
    CGATCTCATA AACTTCGTAA AAATAATCAC CATCTTTTTA CAACTACAAT TAACTTAAAT 
    TCAATGAATG ATGGTTGGTA TGGTGCGCTG AAAGAAGCAA TTCAACAACA GCAAAACCAG 
    CTGGTATGGG TTTCCGAGGG AAAGGCGGAT GGTGCTACAA GTGATGACCT TGATTTGCAT 
    GATGATCGTC TGTCCTACCT GTCAGCTCCA GGTAGTGAAT ACTCAATGTA TAGCACGGAC 
    AGTAGACACA CTTCTGACTA TGAAGACACA GACACAGAAG GCGGGGCCTA CACTGATCAA 
    GAACTAGATG AAACTCTTAA TGATGAGGTT GGGACTCCAC CGGAGTCTGC CATTACACGG 
    TCCTCTGAGC CTGTAAGAGA GGACTCCTCT GGAATGCATC ATGAAAACCA AACATATCCT 
    CCTTACTCAC CACAAGCGCA GCCACAACCA ATTCATAGAA TAGACTCCCC TGGATTTAAG 
    CCAGCCTCTC AACAGGTGTA TAGAAAGGAT CCATATCCCG AGGAAATGAT GAGGCAGAAC 
    CATGTTTTGA AACAGCCAGC CGTTAGTCAC CCAGGGCACA GGCCAGACAA AGAGCCTAAT 
    CTGACCTATG AACCCCAACT CCCATACGTA GAGAAACAAG CCAGCAGAGA CCTCGAGCAG 
    CCCACATACA GATACGAGTC CTCAAGCTAT ACGGACCAGT TTTCTCGAAA CTATGAACAT 
    CGTCTGCGAT ACGAAGATCG CGTCCCCATG TATGAAGAAC AGTGGTCATA TTATGATGAC 
    AAACAGCCCT ACCCATCTCG GCCACCTTTT GATAATCAGC ACTCTCAAGA CCTTGACTCC 
    AGACAGCATC CCGAAGAGTC CTCAGAACGA GGGTACTTTC CACGTTTTGA AGAGCCAGCC 
    CCTCTGTCTT ACGACAGCAG ACCACGTTAC GAACAGGCAC CTAGAGCATC CGCCCTGCGG 
    CACGAAGAGC AGCCAGCTCC TGGGTATGAC ACACATGGTA GACTCAGACC GGAAGCCCAG 
    CCCCACCCTT CAGCAGGGCC CAAGCCTGCA GAGTCCAAGC AGTATTTTGA GCAATATTCA 
    CGCAGTTACG AGCAAGTACC ACCCCAAGGA TTTACCTCTA GAGCAGGTCA TTTTGAGCCT 
    CTCCATGGTG CTGCAGCTGT CCCTCCGCTG ATACCTTCAT CTCAGCATAA GCCAGAAGCT 
    CTGCCTTCAA ACACCAAACC ACTGCCTCCA CCCCCAACTC AAACCGAAGA AGAGGAAGAT 
    CCAGCAATGA AGCCACAGTC TGTACTCACC AGAGTTAAGA TGTTTGAAAA CAAAAGATCT 
    GCATCCTTAG AGACCAAGAA GGATGTAAAT GACACTGGCA GTTTTAAGCC TCCAGAAGTA 
    GCATCTAAAC CTTCAGGTGC TCCCATCATT GGTCCCAAAC CCACTTCTCA GAATCAATTC 
    AGTGAACATG ACAAAACTCT GTACAGGATC CCAGAACCTC AAAAACCTCA ACTGAAGCCA 
    CCTGAAGATA TTGTTCGGTC CAATCATTAT GACCCTGAAG AAGATGAAGA ATATTATCGA 
    AAACAGCTGT CATACTTTGA CCGAAGAAGT TTTGAGAATA AGCCTCCTGC ACACATTGCC 
    GCCAGCCATC TCTCCGAGCC TGCAAAGCCA GCGCATTCTC AGAATCAATC AAATTTTTCT 
    AGTTATTCTT CAAAGGGAAA GCCTCCTGAA GCTGATGGTG TGGATAGATC ATTTGGCGAG 
    AAACGCTATG AACCCATCCA GGCCACTCCC CCTCCTCCTC CATTGCCCTC GCAGTATGCC 
    CAGCCATCTC AGCCTGTCAC CAGCGCGTCT CTCCACATAC ATTCTAAGGG AGCACATGGT 
    GAAGGTAATT CAGTGTCATT GGATTTTCAG AATTCCTTAG TGTCCAAACC AGACCCACCT 
    CCATCTCAGA ATAAGCCAGC AACTTTCAGA CCACCAAACC GAGAAGATAC TGCTCAGGCA 
    GCTTTCTATC CCCAGAAAAG TTTTCCAGAT AAAGCCCCAG TTAATGGAAC TGAACAGACT 
    CAGAAAACAG TCACTCCAGC ATACAATCGA TTCACACCAA AACCATATAC AAGTTCTGCC 
    CGACCATTTG AACGCAAGTT TGAAAGTCCT AAATTCAATC ACAATCTTCT GCCAAGTGAA 
    ACTGCACATA AACCTGACTT GTCTTCAAAA ACTCCCACTT CTCCAAAAAC TCTTGTGAAA 
    TCGCACAGTT TGGCACAGCC TCCTGAGTTT GACAGTGGAG TTGAAACTTT CTCTATCCAT 
    GCAGAGAAGC CTAAATATCA AATAAATAAT ATCAGCACAG TGCCTAAAGC TATTCCTGTG 
    AGTCCTTCAG CTGTGGAAGA GGATGAAGAT GAAGATGGTC ATACTGTGGT GGCCACAGCC 
    CGAGGCATAT TTAACAGCAA TGGGGGCGTG CTGAGTTCCA TAGAAACTGG TGTTAGTATA 
    ATTATCCCTC AAGGAGCCAT TCCCGAAGGA GTTGAGCAGG AAATCTATTT CAAGGTCTGC 
    CGGGACAACA GCATCCTTCC ACCTTTAGAT AAAGAGAAAG GTGAAACACT GCTGAGTCCT 
    TTGGTGATGT GTGGTCCCCA TGGCCTCAAG TTCCTGAAGC CTGTGGAGCT GCGCTTACCA 
    CACTGTGCGT CCATGACTCC TGACGGTTGG TCTTTTGCTC TAAAATCATC CGACTCCTCG 
    TCGGGTGATC CTAAAACCTG GCAAAACAAG TGTCTTCCCG GAGATCCAAA TTATCTCGTT 
    GGAGCAAACT GTGTTTCTGT CCTTATTGAC CACTTTTAA

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

    TJP1 ( NM_001301025.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_001287954.2 Homo sapiens tight junction protein 1 (TJP1), transcript variant 3, mRNA.
    Price & Availability↑
    CloneID OHu102941
    Clone ID Related Accession (Same CDS sequence) NM_001301025.3 , NM_001301025.2
    Accession Version NM_001301025.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5586bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-15
    Organism Homo sapiens(human)
    Product tight junction protein ZO-1 isoform c
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC087455.7, AC022613.13 and AF035298.1. On Jun 2, 2019 this sequence version replaced NM_001301025.2. Transcript Variant: This variant (3) contains alternate 5' exon structure and it thus differs in the 5' UTR and 5' coding region, and it uses an alternate in-frame splice site in the 3' coding region, compared to variant 1. The encoded isoform (c) has a distinct N-terminus and is longer than isoform a. The exon combination of this variant is inferred based on partial transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803614.29109.1, SRR1803611.232016.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## RefSeq Select criteria :: based on conservation ##RefSeq-Attributes-END## COMPLETENESS: complete on the 3' end. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGCGGCGCC TGGAGGGGCT GTGTCTGCGG CGGCGGCGGA GGCGGCGGGG CCCTGCCCGC 
    GAGCGGAGCG GGGACAAGAT GAAGTACCAG AAATACCTGA CGGTGCTGCA GATGGCCATC 
    GGCGTCACCC CCTCCAACCG CGGCAGCCTC CTGCCGCTCA AGAGGAAGCT GTGGGTAACG 
    CCATCCTCTG AAAATCCTAA TGGTGCTACT TCTAGTGTCA GCCAAGGAAA ACCCTCTTTA 
    AGACGAATTA AAGGGAGATT ACACAGAAGC AAAAGCCTTG ATAGCATGGA TTTCTGTGAG 
    CTCACTAGCA CAGCAATGGA GGAAACAGCT ATATGGGAAC AACATACAGT GACGCTTCAC 
    AGGGCTCCTG GATTTGGATT TGGAATTGCA ATATCTGGTG GACGAGATAA TCCTCATTTT 
    CAGAGTGGGG AAACGTCAAT AGTGATTTCA GATGTGCTGA AAGGAGGACC AGCTGAAGGA 
    CAGCTACAGG AAAATGACCG AGTTGCAATG GTTAACGGAG TTTCAATGGA TAATGTTGAA 
    CATGCTTTTG CTGTTCAGCA ACTAAGGAAA AGTGGGAAAA ATGCAAAAAT TACAATTAGA 
    AGGAAGAAGA AAGTTCAAAT ACCAGTAAGT CGTCCTGATC CTGAACCAGT ATCTGATAAT 
    GAAGAAGATA GTTATGATGA GGAAATACAT GATCCAAGAA GTGGCCGGAG TGGTGTGGTT 
    AACAGAAGGA GTGAGAAGAT TTGGCCGAGG GATAGAAGTG CAAGTAGAGA GAGGAGCTTG 
    TCCCCGCGGT CAGACAGGCG GTCAGTGGCT TCCAGCCAGC CTGCTAAACC TACTAAAGTC 
    ACACTGGTGA AATCCCGGAA AAATGAAGAA TATGGTCTTC GATTGGCAAG CCATATATTT 
    GTTAAGGAAA TTTCACAAGA TAGTTTGGCA GCAAGAGATG GCAATATTCA AGAAGGTGAT 
    GTTGTATTGA AGATAAATGG TACTGTGACA GAAAATATGT CATTGACAGA TGCAAAGACA 
    TTGATAGAAA GGTCTAAAGG CAAATTAAAA ATGGTAGTTC AAAGAGATGA ACGGGCTACG 
    CTATTGAATG TCCCTGATCT TTCTGACAGC ATCCACTCTG CTAATGCCTC TGAGAGAGAC 
    GACATTTCAG AAATTCAGTC ACTGGCATCA GATCATTCTG GTCGATCACA CGATAGGCCT 
    CCCCGCCGCA GCCGGTCACG ATCTCCTGAC CAGCGGTCAG AGCCTTCTGA TCATTCCAGG 
    CACTCGCCGC AGCAGCCAAG CAATGGCAGT CTCCGGAGTA GAGATGAAGA GAGAATTTCT 
    AAACCTGGGG CTGTCTCAAC TCCTGTAAAG CATGCTGATG ATCACACACC TAAAACAGTG 
    GAAGAAGTTA CAGTTGAAAG AAATGAGAAA CAAACACCTT CTCTTCCAGA ACCAAAGCCT 
    GTGTATGCCC AAGTTGGGCA ACCAGATGTG GATTTACCTG TCAGTCCATC TGATGGTGTC 
    CTACCTAATT CAACTCATGA AGATGGGATT CTTCGGCCCA GCATGAAATT GGTAAAATTC 
    AGAAAAGGAG ATAGTGTGGG TTTGCGGCTG GCTGGTGGAA ATGATGTTGG AATATTTGTA 
    GCTGGCGTTC TAGAAGATAG CCCTGCAGCC AAGGAAGGCT TAGAGGAAGG TGATCAAATT 
    CTCAGGGTAA ACAACGTAGA TTTTACAAAT ATCATAAGAG AAGAAGCCGT CCTTTTCCTG 
    CTTGACCTCC CTAAAGGAGA AGAAGTGACC ATATTGGCTC AGAAGAAGAA GGATGTTTAT 
    CGTCGCATTG TAGAATCAGA TGTAGGAGAT TCTTTCTATA TTAGAACCCA TTTTGAATAT 
    GAAAAGGAAT CTCCCTATGG ACTTAGTTTT AACAAAGGAG AGGTGTTCCG TGTTGTGGAT 
    ACCTTGTACA ATGGAAAACT GGGCTCTTGG CTTGCTATTC GAATTGGTAA AAATCATAAG 
    GAGGTAGAAC GAGGCATCAT CCCTAATAAG AACAGAGCTG AGCAGCTAGC CAGTGTACAG 
    TATACACTTC CAAAAACAGC AGGCGGAGAC CGTGCTGACT TCTGGAGATT CAGAGGTCTT 
    CGCAGCTCCA AGAGAAATCT TCGAAAAAGC AGAGAGGATT TGTCCGCTCA GCCTGTTCAA 
    ACAAAGTTTC CAGCTTATGA AAGAGTGGTT CTTCGAGAAG CTGGATTTCT GAGGCCTGTA 
    ACCATTTTTG GACCAATAGC TGATGTTGCC AGAGAAAAGC TGGCAAGAGA AGAACCAGAT 
    ATTTATCAAA TTGCAAAGAG TGAACCACGA GACGCTGGAA CTGACCAACG TAGCTCTGGC 
    ATTATTCGCC TGCATACAAT AAAGCAAATC ATAGATCAAG ACAAACATGC TTTATTAGAT 
    GTAACACCAA ATGCAGTTGA TCGTCTTAAC TATGCCCAGT GGTATCCAAT TGTTGTATTT 
    CTTAACCCTG ATTCTAAGCA AGGAGTAAAA ACAATGAGAA TGAGGTTATG TCCAGAATCT 
    CGGAAAAGTG CCAGGAAGTT ATACGAGCGA TCTCATAAAC TTCGTAAAAA TAATCACCAT 
    CTTTTTACAA CTACAATTAA CTTAAATTCA ATGAATGATG GTTGGTATGG TGCGCTGAAA 
    GAAGCAATTC AACAACAGCA AAACCAGCTG GTATGGGTTT CCGAGGGAAA GGCGGATGGT 
    GCTACAAGTG ATGACCTTGA TTTGCATGAT GATCGTCTGT CCTACCTGTC AGCTCCAGGT 
    AGTGAATACT CAATGTATAG CACGGACAGT AGACACACTT CTGACTATGA AGACACAGAC 
    ACAGAAGGCG GGGCCTACAC TGATCAAGAA CTAGATGAAA CTCTTAATGA TGAGGTTGGG 
    ACTCCACCGG AGTCTGCCAT TACACGGTCC TCTGAGCCTG TAAGAGAGGA CTCCTCTGGA 
    ATGCATCATG AAAACCAAAC ATATCCTCCT TACTCACCAC AAGCGCAGCC ACAACCAATT 
    CATAGAATAG ACTCCCCTGG ATTTAAGCCA GCCTCTCAAC AGAAAGCAGA AGCTTCATCT 
    CCAGTCCCTT ACCTTTCGCC TGAAACAAAC CCAGCATCAT CAACCTCTGC TGTTAATCAT 
    AATGTAAATT TAACTAATGT CAGACTGGAG GAGCCCACCC CAGCTCCTTC CACCTCTTAC 
    TCACCACAAG CTGATTCTTT AAGAACACCA AGTACTGAGG CAGCTCACAT AATGCTAAGA 
    GATCAAGAAC CATCATTGTC GTCGCATGTA GATCCAACAA AGGTGTATAG AAAGGATCCA 
    TATCCCGAGG AAATGATGAG GCAGAACCAT GTTTTGAAAC AGCCAGCCGT TAGTCACCCA 
    GGGCACAGGC CAGACAAAGA GCCTAATCTG ACCTATGAAC CCCAACTCCC ATACGTAGAG 
    AAACAAGCCA GCAGAGACCT CGAGCAGCCC ACATACAGAT ACGAGTCCTC AAGCTATACG 
    GACCAGTTTT CTCGAAACTA TGAACATCGT CTGCGATACG AAGATCGCGT CCCCATGTAT 
    GAAGAACAGT GGTCATATTA TGATGACAAA CAGCCCTACC CATCTCGGCC ACCTTTTGAT 
    AATCAGCACT CTCAAGACCT TGACTCCAGA CAGCATCCCG AAGAGTCCTC AGAACGAGGG 
    TACTTTCCAC GTTTTGAAGA GCCAGCCCCT CTGTCTTACG ACAGCAGACC ACGTTACGAA 
    CAGGCACCTA GAGCATCCGC CCTGCGGCAC GAAGAGCAGC CAGCTCCTGG GTATGACACA 
    CATGGTAGAC TCAGACCGGA AGCCCAGCCC CACCCTTCAG CAGGGCCCAA GCCTGCAGAG 
    TCCAAGCAGT ATTTTGAGCA ATATTCACGC AGTTACGAGC AAGTACCACC CCAAGGATTT 
    ACCTCTAGAG CAGGTCATTT TGAGCCTCTC CATGGTGCTG CAGCTGTCCC TCCGCTGATA 
    CCTTCATCTC AGCATAAGCC AGAAGCTCTG CCTTCAAACA CCAAACCACT GCCTCCACCC 
    CCAACTCAAA CCGAAGAAGA GGAAGATCCA GCAATGAAGC CACAGTCTGT ACTCACCAGA 
    GTTAAGATGT TTGAAAACAA AAGATCTGCA TCCTTAGAGA CCAAGAAGGA TGTAAATGAC 
    ACTGGCAGTT TTAAGCCTCC AGAAGTAGCA TCTAAACCTT CAGGTGCTCC CATCATTGGT 
    CCCAAACCCA CTTCTCAGAA TCAATTCAGT GAACATGACA AAACTCTGTA CAGGATCCCA 
    GAACCTCAAA AACCTCAACT GAAGCCACCT GAAGATATTG TTCGGTCCAA TCATTATGAC 
    CCTGAAGAAG ATGAAGAATA TTATCGAAAA CAGCTGTCAT ACTTTGACCG AAGAAGTTTT 
    GAGAATAAGC CTCCTGCACA CATTGCCGCC AGCCATCTCT CCGAGCCTGC AAAGCCAGCG 
    CATTCTCAGA ATCAATCAAA TTTTTCTAGT TATTCTTCAA AGGGAAAGCC TCCTGAAGCT 
    GATGGTGTGG ATAGATCATT TGGCGAGAAA CGCTATGAAC CCATCCAGGC CACTCCCCCT 
    CCTCCTCCAT TGCCCTCGCA GTATGCCCAG CCATCTCAGC CTGTCACCAG CGCGTCTCTC 
    CACATACATT CTAAGGGAGC ACATGGTGAA GGTAATTCAG TGTCATTGGA TTTTCAGAAT 
    TCCTTAGTGT CCAAACCAGA CCCACCTCCA TCTCAGAATA AGCCAGCAAC TTTCAGACCA 
    CCAAACCGAG AAGATACTGC TCAGGCAGCT TTCTATCCCC AGAAAAGTTT TCCAGATAAA 
    GCCCCAGTTA ATGGAACTGA ACAGACTCAG AAAACAGTCA CTCCAGCATA CAATCGATTC 
    ACACCAAAAC CATATACAAG TTCTGCCCGA CCATTTGAAC GCAAGTTTGA AAGTCCTAAA 
    TTCAATCACA ATCTTCTGCC AAGTGAAACT GCACATAAAC CTGACTTGTC TTCAAAAACT 
    CCCACTTCTC CAAAAACTCT TGTGAAATCG CACAGTTTGG CACAGCCTCC TGAGTTTGAC 
    AGTGGAGTTG AAACTTTCTC TATCCATGCA GAGAAGCCTA AATATCAAAT AAATAATATC 
    AGCACAGTGC CTAAAGCTAT TCCTGTGAGT CCTTCAGCTG TGGAAGAGGA TGAAGATGAA 
    GATGGTCATA CTGTGGTGGC CACAGCCCGA GGCATATTTA ACAGCAATGG GGGCGTGCTG 
    AGTTCCATAG AAACTGGTGT TAGTATAATT ATCCCTCAAG GAGCCATTCC CGAAGGAGTT 
    GAGCAGGAAA TCTATTTCAA GGTCTGCCGG GACAACAGCA TCCTTCCACC TTTAGATAAA 
    GAGAAAGGTG AAACACTGCT GAGTCCTTTG GTGATGTGTG GTCCCCATGG CCTCAAGTTC 
    CTGAAGCCTG TGGAGCTGCG CTTACCACAC TGTGCGTCCA TGACTCCTGA CGGTTGGTCT 
    TTTGCTCTAA AATCATCCGA CTCCTCGTCG GGTGATCCTA AAACCTGGCA AAACAAGTGT 
    CTTCCCGGAG ATCCAAATTA TCTCGTTGGA GCAAACTGTG TTTCTGTCCT TATTGACCAC 
    TTTTAA

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

    RefSeq NP_001287954.2
    CDS211..5796
    Translation

    Target ORF information:

    RefSeq Version NM_001301025.3
    Organism Homo sapiens(human)
    Definition Homo sapiens tight junction protein 1 (TJP1), transcript variant 3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001301025.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGCGGCGCC TGGAGGGGCT GTGTCTGCGG CGGCGGCGGA GGCGGCGGGG CCCTGCCCGC 
    GAGCGGAGCG GGGACAAGAT GAAGTACCAG AAATACCTGA CGGTGCTGCA GATGGCCATC 
    GGCGTCACCC CCTCCAACCG CGGCAGCCTC CTGCCGCTCA AGAGGAAGCT GTGGGTAACG 
    CCATCCTCTG AAAATCCTAA TGGTGCTACT TCTAGTGTCA GCCAAGGAAA ACCCTCTTTA 
    AGACGAATTA AAGGGAGATT ACACAGAAGC AAAAGCCTTG ATAGCATGGA TTTCTGTGAG 
    CTCACTAGCA CAGCAATGGA GGAAACAGCT ATATGGGAAC AACATACAGT GACGCTTCAC 
    AGGGCTCCTG GATTTGGATT TGGAATTGCA ATATCTGGTG GACGAGATAA TCCTCATTTT 
    CAGAGTGGGG AAACGTCAAT AGTGATTTCA GATGTGCTGA AAGGAGGACC AGCTGAAGGA 
    CAGCTACAGG AAAATGACCG AGTTGCAATG GTTAACGGAG TTTCAATGGA TAATGTTGAA 
    CATGCTTTTG CTGTTCAGCA ACTAAGGAAA AGTGGGAAAA ATGCAAAAAT TACAATTAGA 
    AGGAAGAAGA AAGTTCAAAT ACCAGTAAGT CGTCCTGATC CTGAACCAGT ATCTGATAAT 
    GAAGAAGATA GTTATGATGA GGAAATACAT GATCCAAGAA GTGGCCGGAG TGGTGTGGTT 
    AACAGAAGGA GTGAGAAGAT TTGGCCGAGG GATAGAAGTG CAAGTAGAGA GAGGAGCTTG 
    TCCCCGCGGT CAGACAGGCG GTCAGTGGCT TCCAGCCAGC CTGCTAAACC TACTAAAGTC 
    ACACTGGTGA AATCCCGGAA AAATGAAGAA TATGGTCTTC GATTGGCAAG CCATATATTT 
    GTTAAGGAAA TTTCACAAGA TAGTTTGGCA GCAAGAGATG GCAATATTCA AGAAGGTGAT 
    GTTGTATTGA AGATAAATGG TACTGTGACA GAAAATATGT CATTGACAGA TGCAAAGACA 
    TTGATAGAAA GGTCTAAAGG CAAATTAAAA ATGGTAGTTC AAAGAGATGA ACGGGCTACG 
    CTATTGAATG TCCCTGATCT TTCTGACAGC ATCCACTCTG CTAATGCCTC TGAGAGAGAC 
    GACATTTCAG AAATTCAGTC ACTGGCATCA GATCATTCTG GTCGATCACA CGATAGGCCT 
    CCCCGCCGCA GCCGGTCACG ATCTCCTGAC CAGCGGTCAG AGCCTTCTGA TCATTCCAGG 
    CACTCGCCGC AGCAGCCAAG CAATGGCAGT CTCCGGAGTA GAGATGAAGA GAGAATTTCT 
    AAACCTGGGG CTGTCTCAAC TCCTGTAAAG CATGCTGATG ATCACACACC TAAAACAGTG 
    GAAGAAGTTA CAGTTGAAAG AAATGAGAAA CAAACACCTT CTCTTCCAGA ACCAAAGCCT 
    GTGTATGCCC AAGTTGGGCA ACCAGATGTG GATTTACCTG TCAGTCCATC TGATGGTGTC 
    CTACCTAATT CAACTCATGA AGATGGGATT CTTCGGCCCA GCATGAAATT GGTAAAATTC 
    AGAAAAGGAG ATAGTGTGGG TTTGCGGCTG GCTGGTGGAA ATGATGTTGG AATATTTGTA 
    GCTGGCGTTC TAGAAGATAG CCCTGCAGCC AAGGAAGGCT TAGAGGAAGG TGATCAAATT 
    CTCAGGGTAA ACAACGTAGA TTTTACAAAT ATCATAAGAG AAGAAGCCGT CCTTTTCCTG 
    CTTGACCTCC CTAAAGGAGA AGAAGTGACC ATATTGGCTC AGAAGAAGAA GGATGTTTAT 
    CGTCGCATTG TAGAATCAGA TGTAGGAGAT TCTTTCTATA TTAGAACCCA TTTTGAATAT 
    GAAAAGGAAT CTCCCTATGG ACTTAGTTTT AACAAAGGAG AGGTGTTCCG TGTTGTGGAT 
    ACCTTGTACA ATGGAAAACT GGGCTCTTGG CTTGCTATTC GAATTGGTAA AAATCATAAG 
    GAGGTAGAAC GAGGCATCAT CCCTAATAAG AACAGAGCTG AGCAGCTAGC CAGTGTACAG 
    TATACACTTC CAAAAACAGC AGGCGGAGAC CGTGCTGACT TCTGGAGATT CAGAGGTCTT 
    CGCAGCTCCA AGAGAAATCT TCGAAAAAGC AGAGAGGATT TGTCCGCTCA GCCTGTTCAA 
    ACAAAGTTTC CAGCTTATGA AAGAGTGGTT CTTCGAGAAG CTGGATTTCT GAGGCCTGTA 
    ACCATTTTTG GACCAATAGC TGATGTTGCC AGAGAAAAGC TGGCAAGAGA AGAACCAGAT 
    ATTTATCAAA TTGCAAAGAG TGAACCACGA GACGCTGGAA CTGACCAACG TAGCTCTGGC 
    ATTATTCGCC TGCATACAAT AAAGCAAATC ATAGATCAAG ACAAACATGC TTTATTAGAT 
    GTAACACCAA ATGCAGTTGA TCGTCTTAAC TATGCCCAGT GGTATCCAAT TGTTGTATTT 
    CTTAACCCTG ATTCTAAGCA AGGAGTAAAA ACAATGAGAA TGAGGTTATG TCCAGAATCT 
    CGGAAAAGTG CCAGGAAGTT ATACGAGCGA TCTCATAAAC TTCGTAAAAA TAATCACCAT 
    CTTTTTACAA CTACAATTAA CTTAAATTCA ATGAATGATG GTTGGTATGG TGCGCTGAAA 
    GAAGCAATTC AACAACAGCA AAACCAGCTG GTATGGGTTT CCGAGGGAAA GGCGGATGGT 
    GCTACAAGTG ATGACCTTGA TTTGCATGAT GATCGTCTGT CCTACCTGTC AGCTCCAGGT 
    AGTGAATACT CAATGTATAG CACGGACAGT AGACACACTT CTGACTATGA AGACACAGAC 
    ACAGAAGGCG GGGCCTACAC TGATCAAGAA CTAGATGAAA CTCTTAATGA TGAGGTTGGG 
    ACTCCACCGG AGTCTGCCAT TACACGGTCC TCTGAGCCTG TAAGAGAGGA CTCCTCTGGA 
    ATGCATCATG AAAACCAAAC ATATCCTCCT TACTCACCAC AAGCGCAGCC ACAACCAATT 
    CATAGAATAG ACTCCCCTGG ATTTAAGCCA GCCTCTCAAC AGAAAGCAGA AGCTTCATCT 
    CCAGTCCCTT ACCTTTCGCC TGAAACAAAC CCAGCATCAT CAACCTCTGC TGTTAATCAT 
    AATGTAAATT TAACTAATGT CAGACTGGAG GAGCCCACCC CAGCTCCTTC CACCTCTTAC 
    TCACCACAAG CTGATTCTTT AAGAACACCA AGTACTGAGG CAGCTCACAT AATGCTAAGA 
    GATCAAGAAC CATCATTGTC GTCGCATGTA GATCCAACAA AGGTGTATAG AAAGGATCCA 
    TATCCCGAGG AAATGATGAG GCAGAACCAT GTTTTGAAAC AGCCAGCCGT TAGTCACCCA 
    GGGCACAGGC CAGACAAAGA GCCTAATCTG ACCTATGAAC CCCAACTCCC ATACGTAGAG 
    AAACAAGCCA GCAGAGACCT CGAGCAGCCC ACATACAGAT ACGAGTCCTC AAGCTATACG 
    GACCAGTTTT CTCGAAACTA TGAACATCGT CTGCGATACG AAGATCGCGT CCCCATGTAT 
    GAAGAACAGT GGTCATATTA TGATGACAAA CAGCCCTACC CATCTCGGCC ACCTTTTGAT 
    AATCAGCACT CTCAAGACCT TGACTCCAGA CAGCATCCCG AAGAGTCCTC AGAACGAGGG 
    TACTTTCCAC GTTTTGAAGA GCCAGCCCCT CTGTCTTACG ACAGCAGACC ACGTTACGAA 
    CAGGCACCTA GAGCATCCGC CCTGCGGCAC GAAGAGCAGC CAGCTCCTGG GTATGACACA 
    CATGGTAGAC TCAGACCGGA AGCCCAGCCC CACCCTTCAG CAGGGCCCAA GCCTGCAGAG 
    TCCAAGCAGT ATTTTGAGCA ATATTCACGC AGTTACGAGC AAGTACCACC CCAAGGATTT 
    ACCTCTAGAG CAGGTCATTT TGAGCCTCTC CATGGTGCTG CAGCTGTCCC TCCGCTGATA 
    CCTTCATCTC AGCATAAGCC AGAAGCTCTG CCTTCAAACA CCAAACCACT GCCTCCACCC 
    CCAACTCAAA CCGAAGAAGA GGAAGATCCA GCAATGAAGC CACAGTCTGT ACTCACCAGA 
    GTTAAGATGT TTGAAAACAA AAGATCTGCA TCCTTAGAGA CCAAGAAGGA TGTAAATGAC 
    ACTGGCAGTT TTAAGCCTCC AGAAGTAGCA TCTAAACCTT CAGGTGCTCC CATCATTGGT 
    CCCAAACCCA CTTCTCAGAA TCAATTCAGT GAACATGACA AAACTCTGTA CAGGATCCCA 
    GAACCTCAAA AACCTCAACT GAAGCCACCT GAAGATATTG TTCGGTCCAA TCATTATGAC 
    CCTGAAGAAG ATGAAGAATA TTATCGAAAA CAGCTGTCAT ACTTTGACCG AAGAAGTTTT 
    GAGAATAAGC CTCCTGCACA CATTGCCGCC AGCCATCTCT CCGAGCCTGC AAAGCCAGCG 
    CATTCTCAGA ATCAATCAAA TTTTTCTAGT TATTCTTCAA AGGGAAAGCC TCCTGAAGCT 
    GATGGTGTGG ATAGATCATT TGGCGAGAAA CGCTATGAAC CCATCCAGGC CACTCCCCCT 
    CCTCCTCCAT TGCCCTCGCA GTATGCCCAG CCATCTCAGC CTGTCACCAG CGCGTCTCTC 
    CACATACATT CTAAGGGAGC ACATGGTGAA GGTAATTCAG TGTCATTGGA TTTTCAGAAT 
    TCCTTAGTGT CCAAACCAGA CCCACCTCCA TCTCAGAATA AGCCAGCAAC TTTCAGACCA 
    CCAAACCGAG AAGATACTGC TCAGGCAGCT TTCTATCCCC AGAAAAGTTT TCCAGATAAA 
    GCCCCAGTTA ATGGAACTGA ACAGACTCAG AAAACAGTCA CTCCAGCATA CAATCGATTC 
    ACACCAAAAC CATATACAAG TTCTGCCCGA CCATTTGAAC GCAAGTTTGA AAGTCCTAAA 
    TTCAATCACA ATCTTCTGCC AAGTGAAACT GCACATAAAC CTGACTTGTC TTCAAAAACT 
    CCCACTTCTC CAAAAACTCT TGTGAAATCG CACAGTTTGG CACAGCCTCC TGAGTTTGAC 
    AGTGGAGTTG AAACTTTCTC TATCCATGCA GAGAAGCCTA AATATCAAAT AAATAATATC 
    AGCACAGTGC CTAAAGCTAT TCCTGTGAGT CCTTCAGCTG TGGAAGAGGA TGAAGATGAA 
    GATGGTCATA CTGTGGTGGC CACAGCCCGA GGCATATTTA ACAGCAATGG GGGCGTGCTG 
    AGTTCCATAG AAACTGGTGT TAGTATAATT ATCCCTCAAG GAGCCATTCC CGAAGGAGTT 
    GAGCAGGAAA TCTATTTCAA GGTCTGCCGG GACAACAGCA TCCTTCCACC TTTAGATAAA 
    GAGAAAGGTG AAACACTGCT GAGTCCTTTG GTGATGTGTG GTCCCCATGG CCTCAAGTTC 
    CTGAAGCCTG TGGAGCTGCG CTTACCACAC TGTGCGTCCA TGACTCCTGA CGGTTGGTCT 
    TTTGCTCTAA AATCATCCGA CTCCTCGTCG GGTGATCCTA AAACCTGGCA AAACAAGTGT 
    CTTCCCGGAG ATCCAAATTA TCTCGTTGGA GCAAACTGTG TTTCTGTCCT TATTGACCAC 
    TTTTAA

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

    TJP1 ( NM_001301025.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001287954.2 Homo sapiens tight junction protein 1 (TJP1), transcript variant 3, mRNA.
    Price & Availability↑
    CloneID OHu102941
    Clone ID Related Accession (Same CDS sequence) NM_001301025.3 , NM_001301025.2
    Accession Version NM_001301025.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5586bp)
    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 2019-01-12
    Organism Homo sapiens(human)
    Product tight junction protein ZO-1 isoform c
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC087455.7, AC022613.13 and AF035298.1. On Sep 1, 2017 this sequence version replaced NM_001301025.1. Transcript Variant: This variant (3) contains alternate 5' exon structure and it thus differs in the 5' UTR and 5' coding region, and it uses an alternate in-frame splice site in the 3' coding region, compared to variant 1. The encoded isoform (c) has a distinct N-terminus and is longer than isoform a. The exon combination of this variant is inferred based on partial transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803614.29109.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGCGGCGCC TGGAGGGGCT GTGTCTGCGG CGGCGGCGGA GGCGGCGGGG CCCTGCCCGC 
    GAGCGGAGCG GGGACAAGAT GAAGTACCAG AAATACCTGA CGGTGCTGCA GATGGCCATC 
    GGCGTCACCC CCTCCAACCG CGGCAGCCTC CTGCCGCTCA AGAGGAAGCT GTGGGTAACG 
    CCATCCTCTG AAAATCCTAA TGGTGCTACT TCTAGTGTCA GCCAAGGAAA ACCCTCTTTA 
    AGACGAATTA AAGGGAGATT ACACAGAAGC AAAAGCCTTG ATAGCATGGA TTTCTGTGAG 
    CTCACTAGCA CAGCAATGGA GGAAACAGCT ATATGGGAAC AACATACAGT GACGCTTCAC 
    AGGGCTCCTG GATTTGGATT TGGAATTGCA ATATCTGGTG GACGAGATAA TCCTCATTTT 
    CAGAGTGGGG AAACGTCAAT AGTGATTTCA GATGTGCTGA AAGGAGGACC AGCTGAAGGA 
    CAGCTACAGG AAAATGACCG AGTTGCAATG GTTAACGGAG TTTCAATGGA TAATGTTGAA 
    CATGCTTTTG CTGTTCAGCA ACTAAGGAAA AGTGGGAAAA ATGCAAAAAT TACAATTAGA 
    AGGAAGAAGA AAGTTCAAAT ACCAGTAAGT CGTCCTGATC CTGAACCAGT ATCTGATAAT 
    GAAGAAGATA GTTATGATGA GGAAATACAT GATCCAAGAA GTGGCCGGAG TGGTGTGGTT 
    AACAGAAGGA GTGAGAAGAT TTGGCCGAGG GATAGAAGTG CAAGTAGAGA GAGGAGCTTG 
    TCCCCGCGGT CAGACAGGCG GTCAGTGGCT TCCAGCCAGC CTGCTAAACC TACTAAAGTC 
    ACACTGGTGA AATCCCGGAA AAATGAAGAA TATGGTCTTC GATTGGCAAG CCATATATTT 
    GTTAAGGAAA TTTCACAAGA TAGTTTGGCA GCAAGAGATG GCAATATTCA AGAAGGTGAT 
    GTTGTATTGA AGATAAATGG TACTGTGACA GAAAATATGT CATTGACAGA TGCAAAGACA 
    TTGATAGAAA GGTCTAAAGG CAAATTAAAA ATGGTAGTTC AAAGAGATGA ACGGGCTACG 
    CTATTGAATG TCCCTGATCT TTCTGACAGC ATCCACTCTG CTAATGCCTC TGAGAGAGAC 
    GACATTTCAG AAATTCAGTC ACTGGCATCA GATCATTCTG GTCGATCACA CGATAGGCCT 
    CCCCGCCGCA GCCGGTCACG ATCTCCTGAC CAGCGGTCAG AGCCTTCTGA TCATTCCAGG 
    CACTCGCCGC AGCAGCCAAG CAATGGCAGT CTCCGGAGTA GAGATGAAGA GAGAATTTCT 
    AAACCTGGGG CTGTCTCAAC TCCTGTAAAG CATGCTGATG ATCACACACC TAAAACAGTG 
    GAAGAAGTTA CAGTTGAAAG AAATGAGAAA CAAACACCTT CTCTTCCAGA ACCAAAGCCT 
    GTGTATGCCC AAGTTGGGCA ACCAGATGTG GATTTACCTG TCAGTCCATC TGATGGTGTC 
    CTACCTAATT CAACTCATGA AGATGGGATT CTTCGGCCCA GCATGAAATT GGTAAAATTC 
    AGAAAAGGAG ATAGTGTGGG TTTGCGGCTG GCTGGTGGAA ATGATGTTGG AATATTTGTA 
    GCTGGCGTTC TAGAAGATAG CCCTGCAGCC AAGGAAGGCT TAGAGGAAGG TGATCAAATT 
    CTCAGGGTAA ACAACGTAGA TTTTACAAAT ATCATAAGAG AAGAAGCCGT CCTTTTCCTG 
    CTTGACCTCC CTAAAGGAGA AGAAGTGACC ATATTGGCTC AGAAGAAGAA GGATGTTTAT 
    CGTCGCATTG TAGAATCAGA TGTAGGAGAT TCTTTCTATA TTAGAACCCA TTTTGAATAT 
    GAAAAGGAAT CTCCCTATGG ACTTAGTTTT AACAAAGGAG AGGTGTTCCG TGTTGTGGAT 
    ACCTTGTACA ATGGAAAACT GGGCTCTTGG CTTGCTATTC GAATTGGTAA AAATCATAAG 
    GAGGTAGAAC GAGGCATCAT CCCTAATAAG AACAGAGCTG AGCAGCTAGC CAGTGTACAG 
    TATACACTTC CAAAAACAGC AGGCGGAGAC CGTGCTGACT TCTGGAGATT CAGAGGTCTT 
    CGCAGCTCCA AGAGAAATCT TCGAAAAAGC AGAGAGGATT TGTCCGCTCA GCCTGTTCAA 
    ACAAAGTTTC CAGCTTATGA AAGAGTGGTT CTTCGAGAAG CTGGATTTCT GAGGCCTGTA 
    ACCATTTTTG GACCAATAGC TGATGTTGCC AGAGAAAAGC TGGCAAGAGA AGAACCAGAT 
    ATTTATCAAA TTGCAAAGAG TGAACCACGA GACGCTGGAA CTGACCAACG TAGCTCTGGC 
    ATTATTCGCC TGCATACAAT AAAGCAAATC ATAGATCAAG ACAAACATGC TTTATTAGAT 
    GTAACACCAA ATGCAGTTGA TCGTCTTAAC TATGCCCAGT GGTATCCAAT TGTTGTATTT 
    CTTAACCCTG ATTCTAAGCA AGGAGTAAAA ACAATGAGAA TGAGGTTATG TCCAGAATCT 
    CGGAAAAGTG CCAGGAAGTT ATACGAGCGA TCTCATAAAC TTCGTAAAAA TAATCACCAT 
    CTTTTTACAA CTACAATTAA CTTAAATTCA ATGAATGATG GTTGGTATGG TGCGCTGAAA 
    GAAGCAATTC AACAACAGCA AAACCAGCTG GTATGGGTTT CCGAGGGAAA GGCGGATGGT 
    GCTACAAGTG ATGACCTTGA TTTGCATGAT GATCGTCTGT CCTACCTGTC AGCTCCAGGT 
    AGTGAATACT CAATGTATAG CACGGACAGT AGACACACTT CTGACTATGA AGACACAGAC 
    ACAGAAGGCG GGGCCTACAC TGATCAAGAA CTAGATGAAA CTCTTAATGA TGAGGTTGGG 
    ACTCCACCGG AGTCTGCCAT TACACGGTCC TCTGAGCCTG TAAGAGAGGA CTCCTCTGGA 
    ATGCATCATG AAAACCAAAC ATATCCTCCT TACTCACCAC AAGCGCAGCC ACAACCAATT 
    CATAGAATAG ACTCCCCTGG ATTTAAGCCA GCCTCTCAAC AGAAAGCAGA AGCTTCATCT 
    CCAGTCCCTT ACCTTTCGCC TGAAACAAAC CCAGCATCAT CAACCTCTGC TGTTAATCAT 
    AATGTAAATT TAACTAATGT CAGACTGGAG GAGCCCACCC CAGCTCCTTC CACCTCTTAC 
    TCACCACAAG CTGATTCTTT AAGAACACCA AGTACTGAGG CAGCTCACAT AATGCTAAGA 
    GATCAAGAAC CATCATTGTC GTCGCATGTA GATCCAACAA AGGTGTATAG AAAGGATCCA 
    TATCCCGAGG AAATGATGAG GCAGAACCAT GTTTTGAAAC AGCCAGCCGT TAGTCACCCA 
    GGGCACAGGC CAGACAAAGA GCCTAATCTG ACCTATGAAC CCCAACTCCC ATACGTAGAG 
    AAACAAGCCA GCAGAGACCT CGAGCAGCCC ACATACAGAT ACGAGTCCTC AAGCTATACG 
    GACCAGTTTT CTCGAAACTA TGAACATCGT CTGCGATACG AAGATCGCGT CCCCATGTAT 
    GAAGAACAGT GGTCATATTA TGATGACAAA CAGCCCTACC CATCTCGGCC ACCTTTTGAT 
    AATCAGCACT CTCAAGACCT TGACTCCAGA CAGCATCCCG AAGAGTCCTC AGAACGAGGG 
    TACTTTCCAC GTTTTGAAGA GCCAGCCCCT CTGTCTTACG ACAGCAGACC ACGTTACGAA 
    CAGGCACCTA GAGCATCCGC CCTGCGGCAC GAAGAGCAGC CAGCTCCTGG GTATGACACA 
    CATGGTAGAC TCAGACCGGA AGCCCAGCCC CACCCTTCAG CAGGGCCCAA GCCTGCAGAG 
    TCCAAGCAGT ATTTTGAGCA ATATTCACGC AGTTACGAGC AAGTACCACC CCAAGGATTT 
    ACCTCTAGAG CAGGTCATTT TGAGCCTCTC CATGGTGCTG CAGCTGTCCC TCCGCTGATA 
    CCTTCATCTC AGCATAAGCC AGAAGCTCTG CCTTCAAACA CCAAACCACT GCCTCCACCC 
    CCAACTCAAA CCGAAGAAGA GGAAGATCCA GCAATGAAGC CACAGTCTGT ACTCACCAGA 
    GTTAAGATGT TTGAAAACAA AAGATCTGCA TCCTTAGAGA CCAAGAAGGA TGTAAATGAC 
    ACTGGCAGTT TTAAGCCTCC AGAAGTAGCA TCTAAACCTT CAGGTGCTCC CATCATTGGT 
    CCCAAACCCA CTTCTCAGAA TCAATTCAGT GAACATGACA AAACTCTGTA CAGGATCCCA 
    GAACCTCAAA AACCTCAACT GAAGCCACCT GAAGATATTG TTCGGTCCAA TCATTATGAC 
    CCTGAAGAAG ATGAAGAATA TTATCGAAAA CAGCTGTCAT ACTTTGACCG AAGAAGTTTT 
    GAGAATAAGC CTCCTGCACA CATTGCCGCC AGCCATCTCT CCGAGCCTGC AAAGCCAGCG 
    CATTCTCAGA ATCAATCAAA TTTTTCTAGT TATTCTTCAA AGGGAAAGCC TCCTGAAGCT 
    GATGGTGTGG ATAGATCATT TGGCGAGAAA CGCTATGAAC CCATCCAGGC CACTCCCCCT 
    CCTCCTCCAT TGCCCTCGCA GTATGCCCAG CCATCTCAGC CTGTCACCAG CGCGTCTCTC 
    CACATACATT CTAAGGGAGC ACATGGTGAA GGTAATTCAG TGTCATTGGA TTTTCAGAAT 
    TCCTTAGTGT CCAAACCAGA CCCACCTCCA TCTCAGAATA AGCCAGCAAC TTTCAGACCA 
    CCAAACCGAG AAGATACTGC TCAGGCAGCT TTCTATCCCC AGAAAAGTTT TCCAGATAAA 
    GCCCCAGTTA ATGGAACTGA ACAGACTCAG AAAACAGTCA CTCCAGCATA CAATCGATTC 
    ACACCAAAAC CATATACAAG TTCTGCCCGA CCATTTGAAC GCAAGTTTGA AAGTCCTAAA 
    TTCAATCACA ATCTTCTGCC AAGTGAAACT GCACATAAAC CTGACTTGTC TTCAAAAACT 
    CCCACTTCTC CAAAAACTCT TGTGAAATCG CACAGTTTGG CACAGCCTCC TGAGTTTGAC 
    AGTGGAGTTG AAACTTTCTC TATCCATGCA GAGAAGCCTA AATATCAAAT AAATAATATC 
    AGCACAGTGC CTAAAGCTAT TCCTGTGAGT CCTTCAGCTG TGGAAGAGGA TGAAGATGAA 
    GATGGTCATA CTGTGGTGGC CACAGCCCGA GGCATATTTA ACAGCAATGG GGGCGTGCTG 
    AGTTCCATAG AAACTGGTGT TAGTATAATT ATCCCTCAAG GAGCCATTCC CGAAGGAGTT 
    GAGCAGGAAA TCTATTTCAA GGTCTGCCGG GACAACAGCA TCCTTCCACC TTTAGATAAA 
    GAGAAAGGTG AAACACTGCT GAGTCCTTTG GTGATGTGTG GTCCCCATGG CCTCAAGTTC 
    CTGAAGCCTG TGGAGCTGCG CTTACCACAC TGTGCGTCCA TGACTCCTGA CGGTTGGTCT 
    TTTGCTCTAA AATCATCCGA CTCCTCGTCG GGTGATCCTA AAACCTGGCA AAACAAGTGT 
    CTTCCCGGAG ATCCAAATTA TCTCGTTGGA GCAAACTGTG TTTCTGTCCT TATTGACCAC 
    TTTTAA

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

    RefSeq NP_001287954.2
    CDS86..5671
    Translation

    Target ORF information:

    RefSeq Version NM_001301025.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tight junction protein 1 (TJP1), transcript variant 3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001301025.2

    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
    5341
    5401
    5461
    5521
    5581
    ATGCGGCGCC TGGAGGGGCT GTGTCTGCGG CGGCGGCGGA GGCGGCGGGG CCCTGCCCGC 
    GAGCGGAGCG GGGACAAGAT GAAGTACCAG AAATACCTGA CGGTGCTGCA GATGGCCATC 
    GGCGTCACCC CCTCCAACCG CGGCAGCCTC CTGCCGCTCA AGAGGAAGCT GTGGGTAACG 
    CCATCCTCTG AAAATCCTAA TGGTGCTACT TCTAGTGTCA GCCAAGGAAA ACCCTCTTTA 
    AGACGAATTA AAGGGAGATT ACACAGAAGC AAAAGCCTTG ATAGCATGGA TTTCTGTGAG 
    CTCACTAGCA CAGCAATGGA GGAAACAGCT ATATGGGAAC AACATACAGT GACGCTTCAC 
    AGGGCTCCTG GATTTGGATT TGGAATTGCA ATATCTGGTG GACGAGATAA TCCTCATTTT 
    CAGAGTGGGG AAACGTCAAT AGTGATTTCA GATGTGCTGA AAGGAGGACC AGCTGAAGGA 
    CAGCTACAGG AAAATGACCG AGTTGCAATG GTTAACGGAG TTTCAATGGA TAATGTTGAA 
    CATGCTTTTG CTGTTCAGCA ACTAAGGAAA AGTGGGAAAA ATGCAAAAAT TACAATTAGA 
    AGGAAGAAGA AAGTTCAAAT ACCAGTAAGT CGTCCTGATC CTGAACCAGT ATCTGATAAT 
    GAAGAAGATA GTTATGATGA GGAAATACAT GATCCAAGAA GTGGCCGGAG TGGTGTGGTT 
    AACAGAAGGA GTGAGAAGAT TTGGCCGAGG GATAGAAGTG CAAGTAGAGA GAGGAGCTTG 
    TCCCCGCGGT CAGACAGGCG GTCAGTGGCT TCCAGCCAGC CTGCTAAACC TACTAAAGTC 
    ACACTGGTGA AATCCCGGAA AAATGAAGAA TATGGTCTTC GATTGGCAAG CCATATATTT 
    GTTAAGGAAA TTTCACAAGA TAGTTTGGCA GCAAGAGATG GCAATATTCA AGAAGGTGAT 
    GTTGTATTGA AGATAAATGG TACTGTGACA GAAAATATGT CATTGACAGA TGCAAAGACA 
    TTGATAGAAA GGTCTAAAGG CAAATTAAAA ATGGTAGTTC AAAGAGATGA ACGGGCTACG 
    CTATTGAATG TCCCTGATCT TTCTGACAGC ATCCACTCTG CTAATGCCTC TGAGAGAGAC 
    GACATTTCAG AAATTCAGTC ACTGGCATCA GATCATTCTG GTCGATCACA CGATAGGCCT 
    CCCCGCCGCA GCCGGTCACG ATCTCCTGAC CAGCGGTCAG AGCCTTCTGA TCATTCCAGG 
    CACTCGCCGC AGCAGCCAAG CAATGGCAGT CTCCGGAGTA GAGATGAAGA GAGAATTTCT 
    AAACCTGGGG CTGTCTCAAC TCCTGTAAAG CATGCTGATG ATCACACACC TAAAACAGTG 
    GAAGAAGTTA CAGTTGAAAG AAATGAGAAA CAAACACCTT CTCTTCCAGA ACCAAAGCCT 
    GTGTATGCCC AAGTTGGGCA ACCAGATGTG GATTTACCTG TCAGTCCATC TGATGGTGTC 
    CTACCTAATT CAACTCATGA AGATGGGATT CTTCGGCCCA GCATGAAATT GGTAAAATTC 
    AGAAAAGGAG ATAGTGTGGG TTTGCGGCTG GCTGGTGGAA ATGATGTTGG AATATTTGTA 
    GCTGGCGTTC TAGAAGATAG CCCTGCAGCC AAGGAAGGCT TAGAGGAAGG TGATCAAATT 
    CTCAGGGTAA ACAACGTAGA TTTTACAAAT ATCATAAGAG AAGAAGCCGT CCTTTTCCTG 
    CTTGACCTCC CTAAAGGAGA AGAAGTGACC ATATTGGCTC AGAAGAAGAA GGATGTTTAT 
    CGTCGCATTG TAGAATCAGA TGTAGGAGAT TCTTTCTATA TTAGAACCCA TTTTGAATAT 
    GAAAAGGAAT CTCCCTATGG ACTTAGTTTT AACAAAGGAG AGGTGTTCCG TGTTGTGGAT 
    ACCTTGTACA ATGGAAAACT GGGCTCTTGG CTTGCTATTC GAATTGGTAA AAATCATAAG 
    GAGGTAGAAC GAGGCATCAT CCCTAATAAG AACAGAGCTG AGCAGCTAGC CAGTGTACAG 
    TATACACTTC CAAAAACAGC AGGCGGAGAC CGTGCTGACT TCTGGAGATT CAGAGGTCTT 
    CGCAGCTCCA AGAGAAATCT TCGAAAAAGC AGAGAGGATT TGTCCGCTCA GCCTGTTCAA 
    ACAAAGTTTC CAGCTTATGA AAGAGTGGTT CTTCGAGAAG CTGGATTTCT GAGGCCTGTA 
    ACCATTTTTG GACCAATAGC TGATGTTGCC AGAGAAAAGC TGGCAAGAGA AGAACCAGAT 
    ATTTATCAAA TTGCAAAGAG TGAACCACGA GACGCTGGAA CTGACCAACG TAGCTCTGGC 
    ATTATTCGCC TGCATACAAT AAAGCAAATC ATAGATCAAG ACAAACATGC TTTATTAGAT 
    GTAACACCAA ATGCAGTTGA TCGTCTTAAC TATGCCCAGT GGTATCCAAT TGTTGTATTT 
    CTTAACCCTG ATTCTAAGCA AGGAGTAAAA ACAATGAGAA TGAGGTTATG TCCAGAATCT 
    CGGAAAAGTG CCAGGAAGTT ATACGAGCGA TCTCATAAAC TTCGTAAAAA TAATCACCAT 
    CTTTTTACAA CTACAATTAA CTTAAATTCA ATGAATGATG GTTGGTATGG TGCGCTGAAA 
    GAAGCAATTC AACAACAGCA AAACCAGCTG GTATGGGTTT CCGAGGGAAA GGCGGATGGT 
    GCTACAAGTG ATGACCTTGA TTTGCATGAT GATCGTCTGT CCTACCTGTC AGCTCCAGGT 
    AGTGAATACT CAATGTATAG CACGGACAGT AGACACACTT CTGACTATGA AGACACAGAC 
    ACAGAAGGCG GGGCCTACAC TGATCAAGAA CTAGATGAAA CTCTTAATGA TGAGGTTGGG 
    ACTCCACCGG AGTCTGCCAT TACACGGTCC TCTGAGCCTG TAAGAGAGGA CTCCTCTGGA 
    ATGCATCATG AAAACCAAAC ATATCCTCCT TACTCACCAC AAGCGCAGCC ACAACCAATT 
    CATAGAATAG ACTCCCCTGG ATTTAAGCCA GCCTCTCAAC AGAAAGCAGA AGCTTCATCT 
    CCAGTCCCTT ACCTTTCGCC TGAAACAAAC CCAGCATCAT CAACCTCTGC TGTTAATCAT 
    AATGTAAATT TAACTAATGT CAGACTGGAG GAGCCCACCC CAGCTCCTTC CACCTCTTAC 
    TCACCACAAG CTGATTCTTT AAGAACACCA AGTACTGAGG CAGCTCACAT AATGCTAAGA 
    GATCAAGAAC CATCATTGTC GTCGCATGTA GATCCAACAA AGGTGTATAG AAAGGATCCA 
    TATCCCGAGG AAATGATGAG GCAGAACCAT GTTTTGAAAC AGCCAGCCGT TAGTCACCCA 
    GGGCACAGGC CAGACAAAGA GCCTAATCTG ACCTATGAAC CCCAACTCCC ATACGTAGAG 
    AAACAAGCCA GCAGAGACCT CGAGCAGCCC ACATACAGAT ACGAGTCCTC AAGCTATACG 
    GACCAGTTTT CTCGAAACTA TGAACATCGT CTGCGATACG AAGATCGCGT CCCCATGTAT 
    GAAGAACAGT GGTCATATTA TGATGACAAA CAGCCCTACC CATCTCGGCC ACCTTTTGAT 
    AATCAGCACT CTCAAGACCT TGACTCCAGA CAGCATCCCG AAGAGTCCTC AGAACGAGGG 
    TACTTTCCAC GTTTTGAAGA GCCAGCCCCT CTGTCTTACG ACAGCAGACC ACGTTACGAA 
    CAGGCACCTA GAGCATCCGC CCTGCGGCAC GAAGAGCAGC CAGCTCCTGG GTATGACACA 
    CATGGTAGAC TCAGACCGGA AGCCCAGCCC CACCCTTCAG CAGGGCCCAA GCCTGCAGAG 
    TCCAAGCAGT ATTTTGAGCA ATATTCACGC AGTTACGAGC AAGTACCACC CCAAGGATTT 
    ACCTCTAGAG CAGGTCATTT TGAGCCTCTC CATGGTGCTG CAGCTGTCCC TCCGCTGATA 
    CCTTCATCTC AGCATAAGCC AGAAGCTCTG CCTTCAAACA CCAAACCACT GCCTCCACCC 
    CCAACTCAAA CCGAAGAAGA GGAAGATCCA GCAATGAAGC CACAGTCTGT ACTCACCAGA 
    GTTAAGATGT TTGAAAACAA AAGATCTGCA TCCTTAGAGA CCAAGAAGGA TGTAAATGAC 
    ACTGGCAGTT TTAAGCCTCC AGAAGTAGCA TCTAAACCTT CAGGTGCTCC CATCATTGGT 
    CCCAAACCCA CTTCTCAGAA TCAATTCAGT GAACATGACA AAACTCTGTA CAGGATCCCA 
    GAACCTCAAA AACCTCAACT GAAGCCACCT GAAGATATTG TTCGGTCCAA TCATTATGAC 
    CCTGAAGAAG ATGAAGAATA TTATCGAAAA CAGCTGTCAT ACTTTGACCG AAGAAGTTTT 
    GAGAATAAGC CTCCTGCACA CATTGCCGCC AGCCATCTCT CCGAGCCTGC AAAGCCAGCG 
    CATTCTCAGA ATCAATCAAA TTTTTCTAGT TATTCTTCAA AGGGAAAGCC TCCTGAAGCT 
    GATGGTGTGG ATAGATCATT TGGCGAGAAA CGCTATGAAC CCATCCAGGC CACTCCCCCT 
    CCTCCTCCAT TGCCCTCGCA GTATGCCCAG CCATCTCAGC CTGTCACCAG CGCGTCTCTC 
    CACATACATT CTAAGGGAGC ACATGGTGAA GGTAATTCAG TGTCATTGGA TTTTCAGAAT 
    TCCTTAGTGT CCAAACCAGA CCCACCTCCA TCTCAGAATA AGCCAGCAAC TTTCAGACCA 
    CCAAACCGAG AAGATACTGC TCAGGCAGCT TTCTATCCCC AGAAAAGTTT TCCAGATAAA 
    GCCCCAGTTA ATGGAACTGA ACAGACTCAG AAAACAGTCA CTCCAGCATA CAATCGATTC 
    ACACCAAAAC CATATACAAG TTCTGCCCGA CCATTTGAAC GCAAGTTTGA AAGTCCTAAA 
    TTCAATCACA ATCTTCTGCC AAGTGAAACT GCACATAAAC CTGACTTGTC TTCAAAAACT 
    CCCACTTCTC CAAAAACTCT TGTGAAATCG CACAGTTTGG CACAGCCTCC TGAGTTTGAC 
    AGTGGAGTTG AAACTTTCTC TATCCATGCA GAGAAGCCTA AATATCAAAT AAATAATATC 
    AGCACAGTGC CTAAAGCTAT TCCTGTGAGT CCTTCAGCTG TGGAAGAGGA TGAAGATGAA 
    GATGGTCATA CTGTGGTGGC CACAGCCCGA GGCATATTTA ACAGCAATGG GGGCGTGCTG 
    AGTTCCATAG AAACTGGTGT TAGTATAATT ATCCCTCAAG GAGCCATTCC CGAAGGAGTT 
    GAGCAGGAAA TCTATTTCAA GGTCTGCCGG GACAACAGCA TCCTTCCACC TTTAGATAAA 
    GAGAAAGGTG AAACACTGCT GAGTCCTTTG GTGATGTGTG GTCCCCATGG CCTCAAGTTC 
    CTGAAGCCTG TGGAGCTGCG CTTACCACAC TGTGCGTCCA TGACTCCTGA CGGTTGGTCT 
    TTTGCTCTAA AATCATCCGA CTCCTCGTCG GGTGATCCTA AAACCTGGCA AAACAAGTGT 
    CTTCCCGGAG ATCCAAATTA TCTCGTTGGA GCAAACTGTG TTTCTGTCCT TATTGACCAC 
    TTTTAA

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

    TJP1 ( NM_001355012.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001341941.1 Homo sapiens tight junction protein 1 (TJP1), transcript variant 6, mRNA.
    Price & Availability↑
    CloneID OHu85630
    Clone ID Related Accession (Same CDS sequence) NM_001355012.1 , XM_005254617.3 , NM_001355012.2
    Accession Version NM_001355012.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5526bp)
    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 2019-01-12
    Organism Homo sapiens(human)
    Product tight junction protein ZO-1 isoform f
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC087455.7, CN372462.1, CN372473.1, CD653673.1, BC111712.1, BQ434619.1, AL707462.1, BE082525.1, HY197781.1, AA101028.1, BX504167.1, DB089107.1, CV571135.1, BQ575449.1, AC022613.13, BE819398.1, BI914113.1, BM459712.1, BX640879.1 and AF035298.1. On Sep 1, 2017 this sequence version replaced XM_005254617.3. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803616.27168.1, SRR1803617.114641.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    ATGCGGCGCC TGGAGGGGCT GTGTCTGCGG CGGCGGCGGA GGCGGCGGGG CCCTGCCCGC 
    GAGCGGAGCG GGGACAAGAT GAAGTACCAG AAATACCTGA CGGTGCTGCA GATGGCCATC 
    GGCGTCACCC CCTCCAACCG CGGCAGCCTC CTGCCGCTCA AGAGGAAGCT GTGGGTAACG 
    CCATCCTCTG AAAATCCTAA TGGTGCTACT TCTAGTGTCA GCCAAGGAAA ACCCTCTTTA 
    AGACGAATTA AAGGGAGATT ACACAGAAGC AAAAGCCTTG ATAGCATGGA TTTCTGTGAG 
    CTCACTAGCA CAGCAATGGA GGAAACAGCT ATATGGGAAC AACATACAGT GACGCTTCAC 
    AGGGCTCCTG GATTTGGATT TGGAATTGCA ATATCTGGTG GACGAGATAA TCCTCATTTT 
    CAGAGTGGGG AAACGTCAAT AGTGATTTCA GATGTGCTGA AAGGAGGACC AGCTGAAGGA 
    CAGCTACAGG AAAATGACCG AGTTGCAATG GTTAACGGAG TTTCAATGGA TAATGTTGAA 
    CATGCTTTTG CTGTTCAGCA ACTAAGGAAA AGTGGGAAAA ATGCAAAAAT TACAATTAGA 
    AGGAAGAAGA AAGTTCAAAT ACCAGTAAGT CGTCCTGATC CTGAACCAGT ATCTGATAAT 
    GAAGAAGATA GTTATGATGA GGAAATACAT GATCCAAGAA GTGGCCGGAG TGGTGTGGTT 
    AACAGAAGGA GTGAGAAGAT TTGGCCGAGG GATAGAAGTG CAAGTAGAGA GAGGAGCTTG 
    TCCCCGCGGT CAGACAGGCG GTCAGTGGCT TCCAGCCAGC CTGCTAAACC TACTAAAGTC 
    ACACTGGTGA AATCCCGGAA AAATGAAGAA TATGGTCTTC GATTGGCAAG CCATATATTT 
    GTTAAGGAAA TTTCACAAGA TAGTTTGGCA GCAAGAGATG GCAATATTCA AGAAGGTGAT 
    GTTGTATTGA AGATAAATGG TACTGTGACA GAAAATATGT CATTGACAGA TGCAAAGACA 
    TTGATAGAAA GGTCTAAAGG CAAATTAAAA ATGGTAGTTC AAAGAGATGA ACGGGCTACG 
    CTATTGAATG TCCCTGATCT TTCTGACAGC ATCCACTCTG CTAATGCCTC TGAGAGAGAC 
    GACATTTCAG AAATTCAGTC ACTGGCATCA GATCATTCTG GTCGATCACA CGATAGGCCT 
    CCCCGCCGCA GCCGGTCACG ATCTCCTGAC CAGCGGTCAG AGCCTTCTGA TCATTCCAGG 
    CACTCGCCGC AGCAGCCAAG CAATGGCAGT CTCCGGAGTA GAGATGAAGA GAGAATTTCT 
    AAACCTGGGG CTGTCTCAAC TCCTGTAAAG CATGCTGATG ATCACACACC TAAAACAGTG 
    GAAGAAGTTA CAGTTGAAAG AAATGAGAAA CAAACACCTT CTCTTCCAGA ACCAAAGCCT 
    GTGTATGCCC AAGTTGGGCA ACCAGATGTG GATTTACCTG TCAGTCCATC TGATGGTGTC 
    CTACCTAATT CAACTCATGA AGATGGGATT CTTCGGCCCA GCATGAAATT GGTAAAATTC 
    AGAAAAGGAG ATAGTGTGGG TTTGCGGCTG GCTGGTGGAA ATGATGTTGG AATATTTGTA 
    GCTGGCGTTC TAGAAGATAG CCCTGCAGCC AAGGAAGGCT TAGAGGAAGG TGATCAAATT 
    CTCAGGGTAA ACAACGTAGA TTTTACAAAT ATCATAAGAG AAGAAGCCGT CCTTTTCCTG 
    CTTGACCTCC CTAAAGGAGA AGAAGTGACC ATATTGGCTC AGAAGAAGAA GGATGTTTAT 
    CGTCGCATTG TAGAATCAGA TGTAGGAGAT TCTTTCTATA TTAGAACCCA TTTTGAATAT 
    GAAAAGGAAT CTCCCTATGG ACTTAGTTTT AACAAAGGAG AGGTGTTCCG TGTTGTGGAT 
    ACCTTGTACA ATGGAAAACT GGGCTCTTGG CTTGCTATTC GAATTGGTAA AAATCATAAG 
    GAGGTAGAAC GAGGCATCAT CCCTAATAAG AACAGAGCTG AGCAGCTAGC CAGTGTACAG 
    TATACACTTC CAAAAACAGC AGGCGGAGAC CGTGCTGACT TCTGGAGATT CAGAGGTCTT 
    CGCAGCTCCA AGAGAAATCT TCGAAAAAGC AGAGAGGATT TGTCCGCTCA GCCTGTTCAA 
    ACAAAGTTTC CAGCTTATGA AAGAGTGGTT CTTCGAGAAG CTGGATTTCT GAGGCCTGTA 
    ACCATTTTTG GACCAATAGC TGATGTTGCC AGAGAAAAGC TGGCAAGAGA AGAACCAGAT 
    ATTTATCAAA TTGCAAAGAG TGAACCACGA GACGCTGGAA CTGACCAACG TAGCTCTGGC 
    ATTATTCGCC TGCATACAAT AAAGCAAATC ATAGATCAAG ACAAACATGC TTTATTAGAT 
    GTAACACCAA ATGCAGTTGA TCGTCTTAAC TATGCCCAGT GGTATCCAAT TGTTGTATTT 
    CTTAACCCTG ATTCTAAGCA AGGAGTAAAA ACAATGAGAA TGAGGTTATG TCCAGAATCT 
    CGGAAAAGTG CCAGGAAGTT ATACGAGCGA TCTCATAAAC TTCGTAAAAA TAATCACCAT 
    CTTTTTACAA CTACAATTAA CTTAAATTCA ATGAATGATG GTTGGTATGG TGCGCTGAAA 
    GAAGCAATTC AACAACAGCA AAACCAGCTG GTATGGGTTT CCGAGGGAAA GGCGGATGGT 
    GCTACAAGTG ATGACCTTGA TTTGCATGAT GATCGTCTGT CCTACCTGTC AGCTCCAGGT 
    AGTGAATACT CAATGTATAG CACGGACAGT AGACACACTT CTGACTATGA AGACACAGAC 
    ACAGAAGGCG GGGCCTACAC TGATCAAGAA CTAGATGAAA CTCTTAATGA TGAGGTTGGG 
    ACTCCACCGG AGTCTGCCAT TACACGGTCC TCTGAGCCTG TAAGAGAGGA CTCCTCTGGA 
    ATGCATCATG AAAACCAAAC ATATCCTCCT TACTCACCAC AAGCGCAGCC ACAACCAATT 
    CATAGAATAG ACTCCCCTGG ATTTAAGCCA GCCTCTCAAC AGAAAGCAGA AGCTTCATCT 
    CCAGTCCCTT ACCTTTCGCC TGAAACAAAC CCAGCATCAT CAACCTCTGC TGTTAATCAT 
    AATGTAAATT TAACTAATGT CAGACTGGAG GAGCCCACCC CAGCTCCTTC CACCTCTTAC 
    TCACCACAAG CTGATTCTTT AAGAACACCA AGTACTGAGG CAGCTCACAT AATGCTAAGA 
    GATCAAGAAC CATCATTGTC GTCGCATGTA GATCCAACAA AGGTGTATAG AAAGGATCCA 
    TATCCCGAGG AAATGATGAG GCAGAACCAT GTTTTGAAAC AGCCAGCCGT TAGTCACCCA 
    GGGCACAGGC CAGACAAAGA GCCTAATCTG ACCTATGAAC CCCAACTCCC ATACGTAGAG 
    AAACAAGCCA GCAGAGACCT CGAGCAGCCC ACATACAGAT ACGAGTCCTC AAGCTATACG 
    GACCAGTTTT CTCGAAACTA TGAACATCGT CTGCGATACG AAGATCGCGT CCCCATGTAT 
    GAAGAACAGT GGTCATATTA TGATGACAAA CAGCCCTACC CATCTCGGCC ACCTTTTGAT 
    AATCAGCACT CTCAAGACCT TGACTCCAGA CAGCATCCCG AAGAGTCCTC AGAACGAGGG 
    TACTTTCCAC GTTTTGAAGA GCCAGCCCCT CTGTCTTACG ACAGCAGACC ACGTTACGAA 
    CAGGCACCTA GAGCATCCGC CCTGCGGCAC GAAGAGCAGC CAGCTCCTGG GTATGACACA 
    CATGGTAGAC TCAGACCGGA AGCCCAGCCC CACCCTTCAG CAGGGCCCAA GCCTGCAGAG 
    TCCAAGCAGT ATTTTGAGCA ATATTCACGC AGTTACGAGC AAGTACCACC CCAAGGATTT 
    ACCTCTAGAG CAGGTCATTT TGAGCCTCTC CATGGTGCTG CAGCTGTCCC TCCGCTGATA 
    CCTTCATCTC AGCATAAGCC AGAAGCTCTG CCTTCAAACA CCAAACCACT GCCTCCACCC 
    CCAACTCAAA CCGAAGAAGA GGAAGATCCA GCAATGAAGC CACAGTCTGT ACTCACCAGA 
    GTTAAGATGT TTGAAAACAA AAGATCTGCA TCCTTAGAGA CCAAGAAGGA TGTAAATGAC 
    ACTGGCAGTT TTAAGCCTCC AGAAGTAGCA TCTAAACCTT CAGGTGCTCC CATCATTGGT 
    CCCAAACCCA CTTCTCAGAA TCAATTCAGT GAACATGACA AAACTCTGTA CAGGATCCCA 
    GAACCTCAAA AACCTCAACT GAAGCCACCT GAAGATATTG TTCGGTCCAA TCATTATGAC 
    CCTGAAGAAG ATGAAGAATA TTATCGAAAA CAGCTGTCAT ACTTTGACCG AAGAAGTTTT 
    GAGAATAAGC CTCCTGCACA CATTGCCGCC AGCCATCTCT CCGAGCCTGC AAAGCCAGCG 
    CATTCTCAGA ATCAATCAAA TTTTTCTAGT TATTCTTCAA AGGGAAAGCC TCCTGAAGCT 
    GATGGTGTGG ATAGATCATT TGGCGAGAAA CGCTATGAAC CCATCCAGGC CACTCCCCCT 
    CCTCCTCCAT TGCCCTCGCA GTATGCCCAG CCATCTCAGC CTGTCACCAG CGCGTCTCTC 
    CACATACATT CTAAGGGAGC ACATGGTGAA GGTAATTCAG TGTCATTGGA TTTTCAGAAT 
    TCCTTAGTGT CCAAACCAGA CCCACCTCCA TCTCAGAATA AGCCAGCAAC TTTCAGACCA 
    CCAAACCGAG AAGATACTGC TCAGGCAGCT TTCTATCCCC AGAAAAGTTT TCCAGATAAA 
    GCCCCAGTTA ATGGAACTGA ACAGACTCAG AAAACAGTCA CTCCAGCATA CAATCGATTC 
    ACACCAAAAC CATATACAAG TTCTGCCCGA CCATTTGAAC GCAAGTTTGA AAGTCCTAAA 
    TTCAATCACA ATCTTCTGCC AAGTGAAACT GCACATAAAC CTGACTTGTC TTCAAAAACT 
    CCCACTTCTC CAAAAACTCT TGTGAAATCG CACAGTTTGG CACAGCCTCC TGAGTTTGAC 
    AGTGGAGTTG AAACTTTCTC TATCCATGCA GAGAAGCCTA AATATCAAAT AAATAATATC 
    AGCACAGTGC CTAAAGCTAT TCCTGTGAGT CCTTCAGCTG TGGAAGAGGA TGAAGATGAA 
    GATGGTCATA CTGTGGTGGC CACAGCCCGA GGCATATTTA ACAGCAATGG GGGCGTGCTG 
    AGTTCCATAG AAACTGGTGT TAGTATAATT ATCCCTCAAG GAGCCATTCC CGAAGGAGTT 
    GAGCAGGAAA TCTATTTCAA GGTCTGCCGG GACAACAGCA TCCTTCCACC TTTAGATAAA 
    GAGAAAGGTG AAACACTGCT GAGTCCTTTG GTGATGTGTG GTCCCCATGG CCTCAAGTTC 
    CTGAAGCCTG TGGAGCTGCG CTTACCACAC TGTGATCCTA AAACCTGGCA AAACAAGTGT 
    CTTCCCGGAG ATCCAAATTA TCTCGTTGGA GCAAACTGTG TTTCTGTCCT TATTGACCAC 
    TTTTAA

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

    RefSeq NP_001341941.1
    CDS86..5611
    Translation

    Target ORF information:

    RefSeq Version NM_001355012.1
    Organism Homo sapiens(human)
    Definition Homo sapiens tight junction protein 1 (TJP1), transcript variant 6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001355012.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    ATGCGGCGCC TGGAGGGGCT GTGTCTGCGG CGGCGGCGGA GGCGGCGGGG CCCTGCCCGC 
    GAGCGGAGCG GGGACAAGAT GAAGTACCAG AAATACCTGA CGGTGCTGCA GATGGCCATC 
    GGCGTCACCC CCTCCAACCG CGGCAGCCTC CTGCCGCTCA AGAGGAAGCT GTGGGTAACG 
    CCATCCTCTG AAAATCCTAA TGGTGCTACT TCTAGTGTCA GCCAAGGAAA ACCCTCTTTA 
    AGACGAATTA AAGGGAGATT ACACAGAAGC AAAAGCCTTG ATAGCATGGA TTTCTGTGAG 
    CTCACTAGCA CAGCAATGGA GGAAACAGCT ATATGGGAAC AACATACAGT GACGCTTCAC 
    AGGGCTCCTG GATTTGGATT TGGAATTGCA ATATCTGGTG GACGAGATAA TCCTCATTTT 
    CAGAGTGGGG AAACGTCAAT AGTGATTTCA GATGTGCTGA AAGGAGGACC AGCTGAAGGA 
    CAGCTACAGG AAAATGACCG AGTTGCAATG GTTAACGGAG TTTCAATGGA TAATGTTGAA 
    CATGCTTTTG CTGTTCAGCA ACTAAGGAAA AGTGGGAAAA ATGCAAAAAT TACAATTAGA 
    AGGAAGAAGA AAGTTCAAAT ACCAGTAAGT CGTCCTGATC CTGAACCAGT ATCTGATAAT 
    GAAGAAGATA GTTATGATGA GGAAATACAT GATCCAAGAA GTGGCCGGAG TGGTGTGGTT 
    AACAGAAGGA GTGAGAAGAT TTGGCCGAGG GATAGAAGTG CAAGTAGAGA GAGGAGCTTG 
    TCCCCGCGGT CAGACAGGCG GTCAGTGGCT TCCAGCCAGC CTGCTAAACC TACTAAAGTC 
    ACACTGGTGA AATCCCGGAA AAATGAAGAA TATGGTCTTC GATTGGCAAG CCATATATTT 
    GTTAAGGAAA TTTCACAAGA TAGTTTGGCA GCAAGAGATG GCAATATTCA AGAAGGTGAT 
    GTTGTATTGA AGATAAATGG TACTGTGACA GAAAATATGT CATTGACAGA TGCAAAGACA 
    TTGATAGAAA GGTCTAAAGG CAAATTAAAA ATGGTAGTTC AAAGAGATGA ACGGGCTACG 
    CTATTGAATG TCCCTGATCT TTCTGACAGC ATCCACTCTG CTAATGCCTC TGAGAGAGAC 
    GACATTTCAG AAATTCAGTC ACTGGCATCA GATCATTCTG GTCGATCACA CGATAGGCCT 
    CCCCGCCGCA GCCGGTCACG ATCTCCTGAC CAGCGGTCAG AGCCTTCTGA TCATTCCAGG 
    CACTCGCCGC AGCAGCCAAG CAATGGCAGT CTCCGGAGTA GAGATGAAGA GAGAATTTCT 
    AAACCTGGGG CTGTCTCAAC TCCTGTAAAG CATGCTGATG ATCACACACC TAAAACAGTG 
    GAAGAAGTTA CAGTTGAAAG AAATGAGAAA CAAACACCTT CTCTTCCAGA ACCAAAGCCT 
    GTGTATGCCC AAGTTGGGCA ACCAGATGTG GATTTACCTG TCAGTCCATC TGATGGTGTC 
    CTACCTAATT CAACTCATGA AGATGGGATT CTTCGGCCCA GCATGAAATT GGTAAAATTC 
    AGAAAAGGAG ATAGTGTGGG TTTGCGGCTG GCTGGTGGAA ATGATGTTGG AATATTTGTA 
    GCTGGCGTTC TAGAAGATAG CCCTGCAGCC AAGGAAGGCT TAGAGGAAGG TGATCAAATT 
    CTCAGGGTAA ACAACGTAGA TTTTACAAAT ATCATAAGAG AAGAAGCCGT CCTTTTCCTG 
    CTTGACCTCC CTAAAGGAGA AGAAGTGACC ATATTGGCTC AGAAGAAGAA GGATGTTTAT 
    CGTCGCATTG TAGAATCAGA TGTAGGAGAT TCTTTCTATA TTAGAACCCA TTTTGAATAT 
    GAAAAGGAAT CTCCCTATGG ACTTAGTTTT AACAAAGGAG AGGTGTTCCG TGTTGTGGAT 
    ACCTTGTACA ATGGAAAACT GGGCTCTTGG CTTGCTATTC GAATTGGTAA AAATCATAAG 
    GAGGTAGAAC GAGGCATCAT CCCTAATAAG AACAGAGCTG AGCAGCTAGC CAGTGTACAG 
    TATACACTTC CAAAAACAGC AGGCGGAGAC CGTGCTGACT TCTGGAGATT CAGAGGTCTT 
    CGCAGCTCCA AGAGAAATCT TCGAAAAAGC AGAGAGGATT TGTCCGCTCA GCCTGTTCAA 
    ACAAAGTTTC CAGCTTATGA AAGAGTGGTT CTTCGAGAAG CTGGATTTCT GAGGCCTGTA 
    ACCATTTTTG GACCAATAGC TGATGTTGCC AGAGAAAAGC TGGCAAGAGA AGAACCAGAT 
    ATTTATCAAA TTGCAAAGAG TGAACCACGA GACGCTGGAA CTGACCAACG TAGCTCTGGC 
    ATTATTCGCC TGCATACAAT AAAGCAAATC ATAGATCAAG ACAAACATGC TTTATTAGAT 
    GTAACACCAA ATGCAGTTGA TCGTCTTAAC TATGCCCAGT GGTATCCAAT TGTTGTATTT 
    CTTAACCCTG ATTCTAAGCA AGGAGTAAAA ACAATGAGAA TGAGGTTATG TCCAGAATCT 
    CGGAAAAGTG CCAGGAAGTT ATACGAGCGA TCTCATAAAC TTCGTAAAAA TAATCACCAT 
    CTTTTTACAA CTACAATTAA CTTAAATTCA ATGAATGATG GTTGGTATGG TGCGCTGAAA 
    GAAGCAATTC AACAACAGCA AAACCAGCTG GTATGGGTTT CCGAGGGAAA GGCGGATGGT 
    GCTACAAGTG ATGACCTTGA TTTGCATGAT GATCGTCTGT CCTACCTGTC AGCTCCAGGT 
    AGTGAATACT CAATGTATAG CACGGACAGT AGACACACTT CTGACTATGA AGACACAGAC 
    ACAGAAGGCG GGGCCTACAC TGATCAAGAA CTAGATGAAA CTCTTAATGA TGAGGTTGGG 
    ACTCCACCGG AGTCTGCCAT TACACGGTCC TCTGAGCCTG TAAGAGAGGA CTCCTCTGGA 
    ATGCATCATG AAAACCAAAC ATATCCTCCT TACTCACCAC AAGCGCAGCC ACAACCAATT 
    CATAGAATAG ACTCCCCTGG ATTTAAGCCA GCCTCTCAAC AGAAAGCAGA AGCTTCATCT 
    CCAGTCCCTT ACCTTTCGCC TGAAACAAAC CCAGCATCAT CAACCTCTGC TGTTAATCAT 
    AATGTAAATT TAACTAATGT CAGACTGGAG GAGCCCACCC CAGCTCCTTC CACCTCTTAC 
    TCACCACAAG CTGATTCTTT AAGAACACCA AGTACTGAGG CAGCTCACAT AATGCTAAGA 
    GATCAAGAAC CATCATTGTC GTCGCATGTA GATCCAACAA AGGTGTATAG AAAGGATCCA 
    TATCCCGAGG AAATGATGAG GCAGAACCAT GTTTTGAAAC AGCCAGCCGT TAGTCACCCA 
    GGGCACAGGC CAGACAAAGA GCCTAATCTG ACCTATGAAC CCCAACTCCC ATACGTAGAG 
    AAACAAGCCA GCAGAGACCT CGAGCAGCCC ACATACAGAT ACGAGTCCTC AAGCTATACG 
    GACCAGTTTT CTCGAAACTA TGAACATCGT CTGCGATACG AAGATCGCGT CCCCATGTAT 
    GAAGAACAGT GGTCATATTA TGATGACAAA CAGCCCTACC CATCTCGGCC ACCTTTTGAT 
    AATCAGCACT CTCAAGACCT TGACTCCAGA CAGCATCCCG AAGAGTCCTC AGAACGAGGG 
    TACTTTCCAC GTTTTGAAGA GCCAGCCCCT CTGTCTTACG ACAGCAGACC ACGTTACGAA 
    CAGGCACCTA GAGCATCCGC CCTGCGGCAC GAAGAGCAGC CAGCTCCTGG GTATGACACA 
    CATGGTAGAC TCAGACCGGA AGCCCAGCCC CACCCTTCAG CAGGGCCCAA GCCTGCAGAG 
    TCCAAGCAGT ATTTTGAGCA ATATTCACGC AGTTACGAGC AAGTACCACC CCAAGGATTT 
    ACCTCTAGAG CAGGTCATTT TGAGCCTCTC CATGGTGCTG CAGCTGTCCC TCCGCTGATA 
    CCTTCATCTC AGCATAAGCC AGAAGCTCTG CCTTCAAACA CCAAACCACT GCCTCCACCC 
    CCAACTCAAA CCGAAGAAGA GGAAGATCCA GCAATGAAGC CACAGTCTGT ACTCACCAGA 
    GTTAAGATGT TTGAAAACAA AAGATCTGCA TCCTTAGAGA CCAAGAAGGA TGTAAATGAC 
    ACTGGCAGTT TTAAGCCTCC AGAAGTAGCA TCTAAACCTT CAGGTGCTCC CATCATTGGT 
    CCCAAACCCA CTTCTCAGAA TCAATTCAGT GAACATGACA AAACTCTGTA CAGGATCCCA 
    GAACCTCAAA AACCTCAACT GAAGCCACCT GAAGATATTG TTCGGTCCAA TCATTATGAC 
    CCTGAAGAAG ATGAAGAATA TTATCGAAAA CAGCTGTCAT ACTTTGACCG AAGAAGTTTT 
    GAGAATAAGC CTCCTGCACA CATTGCCGCC AGCCATCTCT CCGAGCCTGC AAAGCCAGCG 
    CATTCTCAGA ATCAATCAAA TTTTTCTAGT TATTCTTCAA AGGGAAAGCC TCCTGAAGCT 
    GATGGTGTGG ATAGATCATT TGGCGAGAAA CGCTATGAAC CCATCCAGGC CACTCCCCCT 
    CCTCCTCCAT TGCCCTCGCA GTATGCCCAG CCATCTCAGC CTGTCACCAG CGCGTCTCTC 
    CACATACATT CTAAGGGAGC ACATGGTGAA GGTAATTCAG TGTCATTGGA TTTTCAGAAT 
    TCCTTAGTGT CCAAACCAGA CCCACCTCCA TCTCAGAATA AGCCAGCAAC TTTCAGACCA 
    CCAAACCGAG AAGATACTGC TCAGGCAGCT TTCTATCCCC AGAAAAGTTT TCCAGATAAA 
    GCCCCAGTTA ATGGAACTGA ACAGACTCAG AAAACAGTCA CTCCAGCATA CAATCGATTC 
    ACACCAAAAC CATATACAAG TTCTGCCCGA CCATTTGAAC GCAAGTTTGA AAGTCCTAAA 
    TTCAATCACA ATCTTCTGCC AAGTGAAACT GCACATAAAC CTGACTTGTC TTCAAAAACT 
    CCCACTTCTC CAAAAACTCT TGTGAAATCG CACAGTTTGG CACAGCCTCC TGAGTTTGAC 
    AGTGGAGTTG AAACTTTCTC TATCCATGCA GAGAAGCCTA AATATCAAAT AAATAATATC 
    AGCACAGTGC CTAAAGCTAT TCCTGTGAGT CCTTCAGCTG TGGAAGAGGA TGAAGATGAA 
    GATGGTCATA CTGTGGTGGC CACAGCCCGA GGCATATTTA ACAGCAATGG GGGCGTGCTG 
    AGTTCCATAG AAACTGGTGT TAGTATAATT ATCCCTCAAG GAGCCATTCC CGAAGGAGTT 
    GAGCAGGAAA TCTATTTCAA GGTCTGCCGG GACAACAGCA TCCTTCCACC TTTAGATAAA 
    GAGAAAGGTG AAACACTGCT GAGTCCTTTG GTGATGTGTG GTCCCCATGG CCTCAAGTTC 
    CTGAAGCCTG TGGAGCTGCG CTTACCACAC TGTGATCCTA AAACCTGGCA AAACAAGTGT 
    CTTCCCGGAG ATCCAAATTA TCTCGTTGGA GCAAACTGTG TTTCTGTCCT TATTGACCAC 
    TTTTAA

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

    TJP1 ( NM_001355012.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001341941.1 Homo sapiens tight junction protein 1 (TJP1), transcript variant 6, mRNA.
    Price & Availability↑
    CloneID OHu85630
    Clone ID Related Accession (Same CDS sequence) NM_001355012.1 , XM_005254617.3 , NM_001355012.2
    Accession Version NM_001355012.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5526bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-15
    Organism Homo sapiens(human)
    Product tight junction protein ZO-1 isoform f
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC087455.7, CN372462.1, CN372473.1, CD653673.1, BC111712.1, BQ434619.1, AL707462.1, BE082525.1, HY197781.1, AA101028.1, BX504167.1, DB089107.1, CV571135.1, BQ575449.1, AC022613.13, BE819398.1, BI914113.1, BM459712.1, BX640879.1 and AF035298.1. On Jun 2, 2019 this sequence version replaced NM_001355012.1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803616.27168.1, SRR1803617.114641.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    ATGCGGCGCC TGGAGGGGCT GTGTCTGCGG CGGCGGCGGA GGCGGCGGGG CCCTGCCCGC 
    GAGCGGAGCG GGGACAAGAT GAAGTACCAG AAATACCTGA CGGTGCTGCA GATGGCCATC 
    GGCGTCACCC CCTCCAACCG CGGCAGCCTC CTGCCGCTCA AGAGGAAGCT GTGGGTAACG 
    CCATCCTCTG AAAATCCTAA TGGTGCTACT TCTAGTGTCA GCCAAGGAAA ACCCTCTTTA 
    AGACGAATTA AAGGGAGATT ACACAGAAGC AAAAGCCTTG ATAGCATGGA TTTCTGTGAG 
    CTCACTAGCA CAGCAATGGA GGAAACAGCT ATATGGGAAC AACATACAGT GACGCTTCAC 
    AGGGCTCCTG GATTTGGATT TGGAATTGCA ATATCTGGTG GACGAGATAA TCCTCATTTT 
    CAGAGTGGGG AAACGTCAAT AGTGATTTCA GATGTGCTGA AAGGAGGACC AGCTGAAGGA 
    CAGCTACAGG AAAATGACCG AGTTGCAATG GTTAACGGAG TTTCAATGGA TAATGTTGAA 
    CATGCTTTTG CTGTTCAGCA ACTAAGGAAA AGTGGGAAAA ATGCAAAAAT TACAATTAGA 
    AGGAAGAAGA AAGTTCAAAT ACCAGTAAGT CGTCCTGATC CTGAACCAGT ATCTGATAAT 
    GAAGAAGATA GTTATGATGA GGAAATACAT GATCCAAGAA GTGGCCGGAG TGGTGTGGTT 
    AACAGAAGGA GTGAGAAGAT TTGGCCGAGG GATAGAAGTG CAAGTAGAGA GAGGAGCTTG 
    TCCCCGCGGT CAGACAGGCG GTCAGTGGCT TCCAGCCAGC CTGCTAAACC TACTAAAGTC 
    ACACTGGTGA AATCCCGGAA AAATGAAGAA TATGGTCTTC GATTGGCAAG CCATATATTT 
    GTTAAGGAAA TTTCACAAGA TAGTTTGGCA GCAAGAGATG GCAATATTCA AGAAGGTGAT 
    GTTGTATTGA AGATAAATGG TACTGTGACA GAAAATATGT CATTGACAGA TGCAAAGACA 
    TTGATAGAAA GGTCTAAAGG CAAATTAAAA ATGGTAGTTC AAAGAGATGA ACGGGCTACG 
    CTATTGAATG TCCCTGATCT TTCTGACAGC ATCCACTCTG CTAATGCCTC TGAGAGAGAC 
    GACATTTCAG AAATTCAGTC ACTGGCATCA GATCATTCTG GTCGATCACA CGATAGGCCT 
    CCCCGCCGCA GCCGGTCACG ATCTCCTGAC CAGCGGTCAG AGCCTTCTGA TCATTCCAGG 
    CACTCGCCGC AGCAGCCAAG CAATGGCAGT CTCCGGAGTA GAGATGAAGA GAGAATTTCT 
    AAACCTGGGG CTGTCTCAAC TCCTGTAAAG CATGCTGATG ATCACACACC TAAAACAGTG 
    GAAGAAGTTA CAGTTGAAAG AAATGAGAAA CAAACACCTT CTCTTCCAGA ACCAAAGCCT 
    GTGTATGCCC AAGTTGGGCA ACCAGATGTG GATTTACCTG TCAGTCCATC TGATGGTGTC 
    CTACCTAATT CAACTCATGA AGATGGGATT CTTCGGCCCA GCATGAAATT GGTAAAATTC 
    AGAAAAGGAG ATAGTGTGGG TTTGCGGCTG GCTGGTGGAA ATGATGTTGG AATATTTGTA 
    GCTGGCGTTC TAGAAGATAG CCCTGCAGCC AAGGAAGGCT TAGAGGAAGG TGATCAAATT 
    CTCAGGGTAA ACAACGTAGA TTTTACAAAT ATCATAAGAG AAGAAGCCGT CCTTTTCCTG 
    CTTGACCTCC CTAAAGGAGA AGAAGTGACC ATATTGGCTC AGAAGAAGAA GGATGTTTAT 
    CGTCGCATTG TAGAATCAGA TGTAGGAGAT TCTTTCTATA TTAGAACCCA TTTTGAATAT 
    GAAAAGGAAT CTCCCTATGG ACTTAGTTTT AACAAAGGAG AGGTGTTCCG TGTTGTGGAT 
    ACCTTGTACA ATGGAAAACT GGGCTCTTGG CTTGCTATTC GAATTGGTAA AAATCATAAG 
    GAGGTAGAAC GAGGCATCAT CCCTAATAAG AACAGAGCTG AGCAGCTAGC CAGTGTACAG 
    TATACACTTC CAAAAACAGC AGGCGGAGAC CGTGCTGACT TCTGGAGATT CAGAGGTCTT 
    CGCAGCTCCA AGAGAAATCT TCGAAAAAGC AGAGAGGATT TGTCCGCTCA GCCTGTTCAA 
    ACAAAGTTTC CAGCTTATGA AAGAGTGGTT CTTCGAGAAG CTGGATTTCT GAGGCCTGTA 
    ACCATTTTTG GACCAATAGC TGATGTTGCC AGAGAAAAGC TGGCAAGAGA AGAACCAGAT 
    ATTTATCAAA TTGCAAAGAG TGAACCACGA GACGCTGGAA CTGACCAACG TAGCTCTGGC 
    ATTATTCGCC TGCATACAAT AAAGCAAATC ATAGATCAAG ACAAACATGC TTTATTAGAT 
    GTAACACCAA ATGCAGTTGA TCGTCTTAAC TATGCCCAGT GGTATCCAAT TGTTGTATTT 
    CTTAACCCTG ATTCTAAGCA AGGAGTAAAA ACAATGAGAA TGAGGTTATG TCCAGAATCT 
    CGGAAAAGTG CCAGGAAGTT ATACGAGCGA TCTCATAAAC TTCGTAAAAA TAATCACCAT 
    CTTTTTACAA CTACAATTAA CTTAAATTCA ATGAATGATG GTTGGTATGG TGCGCTGAAA 
    GAAGCAATTC AACAACAGCA AAACCAGCTG GTATGGGTTT CCGAGGGAAA GGCGGATGGT 
    GCTACAAGTG ATGACCTTGA TTTGCATGAT GATCGTCTGT CCTACCTGTC AGCTCCAGGT 
    AGTGAATACT CAATGTATAG CACGGACAGT AGACACACTT CTGACTATGA AGACACAGAC 
    ACAGAAGGCG GGGCCTACAC TGATCAAGAA CTAGATGAAA CTCTTAATGA TGAGGTTGGG 
    ACTCCACCGG AGTCTGCCAT TACACGGTCC TCTGAGCCTG TAAGAGAGGA CTCCTCTGGA 
    ATGCATCATG AAAACCAAAC ATATCCTCCT TACTCACCAC AAGCGCAGCC ACAACCAATT 
    CATAGAATAG ACTCCCCTGG ATTTAAGCCA GCCTCTCAAC AGAAAGCAGA AGCTTCATCT 
    CCAGTCCCTT ACCTTTCGCC TGAAACAAAC CCAGCATCAT CAACCTCTGC TGTTAATCAT 
    AATGTAAATT TAACTAATGT CAGACTGGAG GAGCCCACCC CAGCTCCTTC CACCTCTTAC 
    TCACCACAAG CTGATTCTTT AAGAACACCA AGTACTGAGG CAGCTCACAT AATGCTAAGA 
    GATCAAGAAC CATCATTGTC GTCGCATGTA GATCCAACAA AGGTGTATAG AAAGGATCCA 
    TATCCCGAGG AAATGATGAG GCAGAACCAT GTTTTGAAAC AGCCAGCCGT TAGTCACCCA 
    GGGCACAGGC CAGACAAAGA GCCTAATCTG ACCTATGAAC CCCAACTCCC ATACGTAGAG 
    AAACAAGCCA GCAGAGACCT CGAGCAGCCC ACATACAGAT ACGAGTCCTC AAGCTATACG 
    GACCAGTTTT CTCGAAACTA TGAACATCGT CTGCGATACG AAGATCGCGT CCCCATGTAT 
    GAAGAACAGT GGTCATATTA TGATGACAAA CAGCCCTACC CATCTCGGCC ACCTTTTGAT 
    AATCAGCACT CTCAAGACCT TGACTCCAGA CAGCATCCCG AAGAGTCCTC AGAACGAGGG 
    TACTTTCCAC GTTTTGAAGA GCCAGCCCCT CTGTCTTACG ACAGCAGACC ACGTTACGAA 
    CAGGCACCTA GAGCATCCGC CCTGCGGCAC GAAGAGCAGC CAGCTCCTGG GTATGACACA 
    CATGGTAGAC TCAGACCGGA AGCCCAGCCC CACCCTTCAG CAGGGCCCAA GCCTGCAGAG 
    TCCAAGCAGT ATTTTGAGCA ATATTCACGC AGTTACGAGC AAGTACCACC CCAAGGATTT 
    ACCTCTAGAG CAGGTCATTT TGAGCCTCTC CATGGTGCTG CAGCTGTCCC TCCGCTGATA 
    CCTTCATCTC AGCATAAGCC AGAAGCTCTG CCTTCAAACA CCAAACCACT GCCTCCACCC 
    CCAACTCAAA CCGAAGAAGA GGAAGATCCA GCAATGAAGC CACAGTCTGT ACTCACCAGA 
    GTTAAGATGT TTGAAAACAA AAGATCTGCA TCCTTAGAGA CCAAGAAGGA TGTAAATGAC 
    ACTGGCAGTT TTAAGCCTCC AGAAGTAGCA TCTAAACCTT CAGGTGCTCC CATCATTGGT 
    CCCAAACCCA CTTCTCAGAA TCAATTCAGT GAACATGACA AAACTCTGTA CAGGATCCCA 
    GAACCTCAAA AACCTCAACT GAAGCCACCT GAAGATATTG TTCGGTCCAA TCATTATGAC 
    CCTGAAGAAG ATGAAGAATA TTATCGAAAA CAGCTGTCAT ACTTTGACCG AAGAAGTTTT 
    GAGAATAAGC CTCCTGCACA CATTGCCGCC AGCCATCTCT CCGAGCCTGC AAAGCCAGCG 
    CATTCTCAGA ATCAATCAAA TTTTTCTAGT TATTCTTCAA AGGGAAAGCC TCCTGAAGCT 
    GATGGTGTGG ATAGATCATT TGGCGAGAAA CGCTATGAAC CCATCCAGGC CACTCCCCCT 
    CCTCCTCCAT TGCCCTCGCA GTATGCCCAG CCATCTCAGC CTGTCACCAG CGCGTCTCTC 
    CACATACATT CTAAGGGAGC ACATGGTGAA GGTAATTCAG TGTCATTGGA TTTTCAGAAT 
    TCCTTAGTGT CCAAACCAGA CCCACCTCCA TCTCAGAATA AGCCAGCAAC TTTCAGACCA 
    CCAAACCGAG AAGATACTGC TCAGGCAGCT TTCTATCCCC AGAAAAGTTT TCCAGATAAA 
    GCCCCAGTTA ATGGAACTGA ACAGACTCAG AAAACAGTCA CTCCAGCATA CAATCGATTC 
    ACACCAAAAC CATATACAAG TTCTGCCCGA CCATTTGAAC GCAAGTTTGA AAGTCCTAAA 
    TTCAATCACA ATCTTCTGCC AAGTGAAACT GCACATAAAC CTGACTTGTC TTCAAAAACT 
    CCCACTTCTC CAAAAACTCT TGTGAAATCG CACAGTTTGG CACAGCCTCC TGAGTTTGAC 
    AGTGGAGTTG AAACTTTCTC TATCCATGCA GAGAAGCCTA AATATCAAAT AAATAATATC 
    AGCACAGTGC CTAAAGCTAT TCCTGTGAGT CCTTCAGCTG TGGAAGAGGA TGAAGATGAA 
    GATGGTCATA CTGTGGTGGC CACAGCCCGA GGCATATTTA ACAGCAATGG GGGCGTGCTG 
    AGTTCCATAG AAACTGGTGT TAGTATAATT ATCCCTCAAG GAGCCATTCC CGAAGGAGTT 
    GAGCAGGAAA TCTATTTCAA GGTCTGCCGG GACAACAGCA TCCTTCCACC TTTAGATAAA 
    GAGAAAGGTG AAACACTGCT GAGTCCTTTG GTGATGTGTG GTCCCCATGG CCTCAAGTTC 
    CTGAAGCCTG TGGAGCTGCG CTTACCACAC TGTGATCCTA AAACCTGGCA AAACAAGTGT 
    CTTCCCGGAG ATCCAAATTA TCTCGTTGGA GCAAACTGTG TTTCTGTCCT TATTGACCAC 
    TTTTAA

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

    RefSeq NP_001341941.1
    CDS211..5736
    Translation

    Target ORF information:

    RefSeq Version NM_001355012.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tight junction protein 1 (TJP1), transcript variant 6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001355012.2

    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
    5341
    5401
    5461
    5521
    ATGCGGCGCC TGGAGGGGCT GTGTCTGCGG CGGCGGCGGA GGCGGCGGGG CCCTGCCCGC 
    GAGCGGAGCG GGGACAAGAT GAAGTACCAG AAATACCTGA CGGTGCTGCA GATGGCCATC 
    GGCGTCACCC CCTCCAACCG CGGCAGCCTC CTGCCGCTCA AGAGGAAGCT GTGGGTAACG 
    CCATCCTCTG AAAATCCTAA TGGTGCTACT TCTAGTGTCA GCCAAGGAAA ACCCTCTTTA 
    AGACGAATTA AAGGGAGATT ACACAGAAGC AAAAGCCTTG ATAGCATGGA TTTCTGTGAG 
    CTCACTAGCA CAGCAATGGA GGAAACAGCT ATATGGGAAC AACATACAGT GACGCTTCAC 
    AGGGCTCCTG GATTTGGATT TGGAATTGCA ATATCTGGTG GACGAGATAA TCCTCATTTT 
    CAGAGTGGGG AAACGTCAAT AGTGATTTCA GATGTGCTGA AAGGAGGACC AGCTGAAGGA 
    CAGCTACAGG AAAATGACCG AGTTGCAATG GTTAACGGAG TTTCAATGGA TAATGTTGAA 
    CATGCTTTTG CTGTTCAGCA ACTAAGGAAA AGTGGGAAAA ATGCAAAAAT TACAATTAGA 
    AGGAAGAAGA AAGTTCAAAT ACCAGTAAGT CGTCCTGATC CTGAACCAGT ATCTGATAAT 
    GAAGAAGATA GTTATGATGA GGAAATACAT GATCCAAGAA GTGGCCGGAG TGGTGTGGTT 
    AACAGAAGGA GTGAGAAGAT TTGGCCGAGG GATAGAAGTG CAAGTAGAGA GAGGAGCTTG 
    TCCCCGCGGT CAGACAGGCG GTCAGTGGCT TCCAGCCAGC CTGCTAAACC TACTAAAGTC 
    ACACTGGTGA AATCCCGGAA AAATGAAGAA TATGGTCTTC GATTGGCAAG CCATATATTT 
    GTTAAGGAAA TTTCACAAGA TAGTTTGGCA GCAAGAGATG GCAATATTCA AGAAGGTGAT 
    GTTGTATTGA AGATAAATGG TACTGTGACA GAAAATATGT CATTGACAGA TGCAAAGACA 
    TTGATAGAAA GGTCTAAAGG CAAATTAAAA ATGGTAGTTC AAAGAGATGA ACGGGCTACG 
    CTATTGAATG TCCCTGATCT TTCTGACAGC ATCCACTCTG CTAATGCCTC TGAGAGAGAC 
    GACATTTCAG AAATTCAGTC ACTGGCATCA GATCATTCTG GTCGATCACA CGATAGGCCT 
    CCCCGCCGCA GCCGGTCACG ATCTCCTGAC CAGCGGTCAG AGCCTTCTGA TCATTCCAGG 
    CACTCGCCGC AGCAGCCAAG CAATGGCAGT CTCCGGAGTA GAGATGAAGA GAGAATTTCT 
    AAACCTGGGG CTGTCTCAAC TCCTGTAAAG CATGCTGATG ATCACACACC TAAAACAGTG 
    GAAGAAGTTA CAGTTGAAAG AAATGAGAAA CAAACACCTT CTCTTCCAGA ACCAAAGCCT 
    GTGTATGCCC AAGTTGGGCA ACCAGATGTG GATTTACCTG TCAGTCCATC TGATGGTGTC 
    CTACCTAATT CAACTCATGA AGATGGGATT CTTCGGCCCA GCATGAAATT GGTAAAATTC 
    AGAAAAGGAG ATAGTGTGGG TTTGCGGCTG GCTGGTGGAA ATGATGTTGG AATATTTGTA 
    GCTGGCGTTC TAGAAGATAG CCCTGCAGCC AAGGAAGGCT TAGAGGAAGG TGATCAAATT 
    CTCAGGGTAA ACAACGTAGA TTTTACAAAT ATCATAAGAG AAGAAGCCGT CCTTTTCCTG 
    CTTGACCTCC CTAAAGGAGA AGAAGTGACC ATATTGGCTC AGAAGAAGAA GGATGTTTAT 
    CGTCGCATTG TAGAATCAGA TGTAGGAGAT TCTTTCTATA TTAGAACCCA TTTTGAATAT 
    GAAAAGGAAT CTCCCTATGG ACTTAGTTTT AACAAAGGAG AGGTGTTCCG TGTTGTGGAT 
    ACCTTGTACA ATGGAAAACT GGGCTCTTGG CTTGCTATTC GAATTGGTAA AAATCATAAG 
    GAGGTAGAAC GAGGCATCAT CCCTAATAAG AACAGAGCTG AGCAGCTAGC CAGTGTACAG 
    TATACACTTC CAAAAACAGC AGGCGGAGAC CGTGCTGACT TCTGGAGATT CAGAGGTCTT 
    CGCAGCTCCA AGAGAAATCT TCGAAAAAGC AGAGAGGATT TGTCCGCTCA GCCTGTTCAA 
    ACAAAGTTTC CAGCTTATGA AAGAGTGGTT CTTCGAGAAG CTGGATTTCT GAGGCCTGTA 
    ACCATTTTTG GACCAATAGC TGATGTTGCC AGAGAAAAGC TGGCAAGAGA AGAACCAGAT 
    ATTTATCAAA TTGCAAAGAG TGAACCACGA GACGCTGGAA CTGACCAACG TAGCTCTGGC 
    ATTATTCGCC TGCATACAAT AAAGCAAATC ATAGATCAAG ACAAACATGC TTTATTAGAT 
    GTAACACCAA ATGCAGTTGA TCGTCTTAAC TATGCCCAGT GGTATCCAAT TGTTGTATTT 
    CTTAACCCTG ATTCTAAGCA AGGAGTAAAA ACAATGAGAA TGAGGTTATG TCCAGAATCT 
    CGGAAAAGTG CCAGGAAGTT ATACGAGCGA TCTCATAAAC TTCGTAAAAA TAATCACCAT 
    CTTTTTACAA CTACAATTAA CTTAAATTCA ATGAATGATG GTTGGTATGG TGCGCTGAAA 
    GAAGCAATTC AACAACAGCA AAACCAGCTG GTATGGGTTT CCGAGGGAAA GGCGGATGGT 
    GCTACAAGTG ATGACCTTGA TTTGCATGAT GATCGTCTGT CCTACCTGTC AGCTCCAGGT 
    AGTGAATACT CAATGTATAG CACGGACAGT AGACACACTT CTGACTATGA AGACACAGAC 
    ACAGAAGGCG GGGCCTACAC TGATCAAGAA CTAGATGAAA CTCTTAATGA TGAGGTTGGG 
    ACTCCACCGG AGTCTGCCAT TACACGGTCC TCTGAGCCTG TAAGAGAGGA CTCCTCTGGA 
    ATGCATCATG AAAACCAAAC ATATCCTCCT TACTCACCAC AAGCGCAGCC ACAACCAATT 
    CATAGAATAG ACTCCCCTGG ATTTAAGCCA GCCTCTCAAC AGAAAGCAGA AGCTTCATCT 
    CCAGTCCCTT ACCTTTCGCC TGAAACAAAC CCAGCATCAT CAACCTCTGC TGTTAATCAT 
    AATGTAAATT TAACTAATGT CAGACTGGAG GAGCCCACCC CAGCTCCTTC CACCTCTTAC 
    TCACCACAAG CTGATTCTTT AAGAACACCA AGTACTGAGG CAGCTCACAT AATGCTAAGA 
    GATCAAGAAC CATCATTGTC GTCGCATGTA GATCCAACAA AGGTGTATAG AAAGGATCCA 
    TATCCCGAGG AAATGATGAG GCAGAACCAT GTTTTGAAAC AGCCAGCCGT TAGTCACCCA 
    GGGCACAGGC CAGACAAAGA GCCTAATCTG ACCTATGAAC CCCAACTCCC ATACGTAGAG 
    AAACAAGCCA GCAGAGACCT CGAGCAGCCC ACATACAGAT ACGAGTCCTC AAGCTATACG 
    GACCAGTTTT CTCGAAACTA TGAACATCGT CTGCGATACG AAGATCGCGT CCCCATGTAT 
    GAAGAACAGT GGTCATATTA TGATGACAAA CAGCCCTACC CATCTCGGCC ACCTTTTGAT 
    AATCAGCACT CTCAAGACCT TGACTCCAGA CAGCATCCCG AAGAGTCCTC AGAACGAGGG 
    TACTTTCCAC GTTTTGAAGA GCCAGCCCCT CTGTCTTACG ACAGCAGACC ACGTTACGAA 
    CAGGCACCTA GAGCATCCGC CCTGCGGCAC GAAGAGCAGC CAGCTCCTGG GTATGACACA 
    CATGGTAGAC TCAGACCGGA AGCCCAGCCC CACCCTTCAG CAGGGCCCAA GCCTGCAGAG 
    TCCAAGCAGT ATTTTGAGCA ATATTCACGC AGTTACGAGC AAGTACCACC CCAAGGATTT 
    ACCTCTAGAG CAGGTCATTT TGAGCCTCTC CATGGTGCTG CAGCTGTCCC TCCGCTGATA 
    CCTTCATCTC AGCATAAGCC AGAAGCTCTG CCTTCAAACA CCAAACCACT GCCTCCACCC 
    CCAACTCAAA CCGAAGAAGA GGAAGATCCA GCAATGAAGC CACAGTCTGT ACTCACCAGA 
    GTTAAGATGT TTGAAAACAA AAGATCTGCA TCCTTAGAGA CCAAGAAGGA TGTAAATGAC 
    ACTGGCAGTT TTAAGCCTCC AGAAGTAGCA TCTAAACCTT CAGGTGCTCC CATCATTGGT 
    CCCAAACCCA CTTCTCAGAA TCAATTCAGT GAACATGACA AAACTCTGTA CAGGATCCCA 
    GAACCTCAAA AACCTCAACT GAAGCCACCT GAAGATATTG TTCGGTCCAA TCATTATGAC 
    CCTGAAGAAG ATGAAGAATA TTATCGAAAA CAGCTGTCAT ACTTTGACCG AAGAAGTTTT 
    GAGAATAAGC CTCCTGCACA CATTGCCGCC AGCCATCTCT CCGAGCCTGC AAAGCCAGCG 
    CATTCTCAGA ATCAATCAAA TTTTTCTAGT TATTCTTCAA AGGGAAAGCC TCCTGAAGCT 
    GATGGTGTGG ATAGATCATT TGGCGAGAAA CGCTATGAAC CCATCCAGGC CACTCCCCCT 
    CCTCCTCCAT TGCCCTCGCA GTATGCCCAG CCATCTCAGC CTGTCACCAG CGCGTCTCTC 
    CACATACATT CTAAGGGAGC ACATGGTGAA GGTAATTCAG TGTCATTGGA TTTTCAGAAT 
    TCCTTAGTGT CCAAACCAGA CCCACCTCCA TCTCAGAATA AGCCAGCAAC TTTCAGACCA 
    CCAAACCGAG AAGATACTGC TCAGGCAGCT TTCTATCCCC AGAAAAGTTT TCCAGATAAA 
    GCCCCAGTTA ATGGAACTGA ACAGACTCAG AAAACAGTCA CTCCAGCATA CAATCGATTC 
    ACACCAAAAC CATATACAAG TTCTGCCCGA CCATTTGAAC GCAAGTTTGA AAGTCCTAAA 
    TTCAATCACA ATCTTCTGCC AAGTGAAACT GCACATAAAC CTGACTTGTC TTCAAAAACT 
    CCCACTTCTC CAAAAACTCT TGTGAAATCG CACAGTTTGG CACAGCCTCC TGAGTTTGAC 
    AGTGGAGTTG AAACTTTCTC TATCCATGCA GAGAAGCCTA AATATCAAAT AAATAATATC 
    AGCACAGTGC CTAAAGCTAT TCCTGTGAGT CCTTCAGCTG TGGAAGAGGA TGAAGATGAA 
    GATGGTCATA CTGTGGTGGC CACAGCCCGA GGCATATTTA ACAGCAATGG GGGCGTGCTG 
    AGTTCCATAG AAACTGGTGT TAGTATAATT ATCCCTCAAG GAGCCATTCC CGAAGGAGTT 
    GAGCAGGAAA TCTATTTCAA GGTCTGCCGG GACAACAGCA TCCTTCCACC TTTAGATAAA 
    GAGAAAGGTG AAACACTGCT GAGTCCTTTG GTGATGTGTG GTCCCCATGG CCTCAAGTTC 
    CTGAAGCCTG TGGAGCTGCG CTTACCACAC TGTGATCCTA AAACCTGGCA AAACAAGTGT 
    CTTCCCGGAG ATCCAAATTA TCTCGTTGGA GCAAACTGTG TTTCTGTCCT TATTGACCAC 
    TTTTAA

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

    TJP1 ( XM_017022521.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016878010.1 Homo sapiens tight junction protein 1 (TJP1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu85626
    Clone ID Related Accession (Same CDS sequence) XM_017022521.1
    Accession Version XM_017022521.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5637bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    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_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGCGGCGCC TGGAGGGGCT GTGTCTGCGG CGGCGGCGGA GGCGGCGGGG CCCTGCCCGC 
    GAGCGGAGCG GGGACAAGAT GAAGTACCAG AAATACCTGA CGGTGCTGCA GATGGCCATC 
    GGCGTCACCC CCTCCAACCG CGGCAGCCTC CTGCCGCTCA AGAGGAAGCT GTGGGTAACG 
    CCATCCTCTG AAAATCCTAA TGGTGCTACT TCTAGTGTCA GCCAAGGAAA ACCCTCTTTA 
    AGACGAATTA AAGGGAGATT ACACAGAAGC AAAAGCCTTG ATAGCATGGA TTTCTGTGAG 
    CTCACTAGCA CAGCAATGGA GGAAACAGCT ATATGGGAAC AACATACAGT GACGCTTCAC 
    AGGGCTCCTG GATTTGGATT TGGAATTGCA ATATCTGGTG GACGAGATAA TCCTCATTTT 
    CAGAGTGGGG AAACGTCAAT AGTGATTTCA GATGTGCTGA AAGGAGGACC AGCTGAAGGA 
    CAGCTACAGG AAAATGACCG AGTTGCAATG GTTAACGGAG TTTCAATGGA TAATGTTGAA 
    CATGCTTTTG CTGTTCAGCA ACTAAGGAAA AGTGGGAAAA ATGCAAAAAT TACAATTAGA 
    AGGAAGAAGA AAGTTCAAAT ACCAGTAAGT CGTCCTGATC CTGAACCAGT ATCTGATAAT 
    GAAGAAGATA GTTATGATGA GGAAATACAT GATCCAAGAA GTGGCCGGAG TGGTGTGGTT 
    AACAGAAGGA GTGAGAAGAT TTGGCCGAGG GATAGAAGTG CAAGTAGAGA GAGGAGCTTG 
    TCCCCGCGGT CAGACAGGCG GTCAGTGGCT TCCAGCCAGC CTGCTAAACC TACTAAAGTC 
    ACACTGGTGA AATCCCGGAA AAATGAAGAA TATGGTCTTC GATTGGCAAG CCATATATTT 
    GTTAAGGAAA TTTCACAAGA TAGTTTGGCA GCAAGAGATG GCAATATTCA AGAAGGTGAT 
    GTTGTATTGA AGATAAATGG TACTGTGACA GAAAATATGT CATTGACAGA TGCAAAGACA 
    TTGATAGAAA GGTCTAAAGG CAAATTAAAA ATGGTAGTTC AAAGAGATGA ACGGGCTACG 
    CTATTGAATG TCCCTGATCT TTCTGACAGC ATCCACTCTG CTAATGCCTC TGAGAGAGAC 
    GACATTTCAG AAATTCAGTC ACTGGCATCA GATCATTCTG GTCGATCACA CGATAGGCCT 
    CCCCGCCGCA GCCGGTCACG ATCTCCTGAC CAGCGGTCAG AGCCTTCTGA TCATTCCAGG 
    CACTCGCCGC AGCAGCCAAG CAATGGCAGT CTCCGGAGTA GAGATGAAGA GAGAATTTCT 
    AAACCTGGGG CTGTCTCAAC TCCTGTAAAG CATGCTGATG ATCACACACC TAAAACAGTG 
    GAAGAAGTTA CAGTTGAAAG AAATGAGAAA CAAACACCTT CTCTTCCAGA ACCAAAGCCT 
    GTGTATGCCC AAGTTGGGCA ACCAGATGTG GATTTACCTG TCAGTCCATC TGATGGTGTC 
    CTACCTAATT CAACTCATGA AGATGGGATT CTTCGGCCCA GCATGAAATT GGTAAAATTC 
    AGAAAAGGAG ATAGTGTGGG TTTGCGGCTG GCTGGTGGAA ATGATGTTGG AATATTTGTA 
    GCTGGCGTTC TAGAAGATAG CCCTGCAGCC AAGGAAGGCT TAGAGGAAGG TGATCAAATT 
    CTCAGGGTAA ACAACGTAGA TTTTACAAAT ATCATAAGAG AAGAAGCCGT CCTTTTCCTG 
    CTTGACCTCC CTAAAGGAGA AGAAGTGACC ATATTGGCTC AGAAGAAGAA GGATGTTTAT 
    CGTCGCATTG TAGAATCAGA TGTAGGAGAT TCTTTCTATA TTAGAACCCA TTTTGAATAT 
    GAAAAGGAAT CTCCCTATGG ACTTAGTTTT AACAAAGGAG AGGTGTTCCG TGTTGTGGAT 
    ACCTTGTACA ATGGAAAACT GGGCTCTTGG CTTGCTATTC GAATTGGTAA AAATCATAAG 
    GAGGTAGAAC GAGGCATCAT CCCTAATAAG AACAGAGCTG AGCAGCTAGC CAGTGTACAG 
    TATACACTTC CAAAAACAGC AGGCGGAGAC CGTGCTGACT TCTGGAGATT CAGAGGTCTT 
    CGCAGCTCCA AGAGAAATCT TCGAAAAAGC AGAGAGGATT TGTCCGCTCA GCCTGTTCAA 
    ACAAAGTTTC CAGCTTATGA AAGAGTGGTT CTTCGAGAAG CTGGATTTCT GAGGCCTGTA 
    ACCATTTTTG GACCAATAGC TGATGTTGCC AGAGAAAAGC TGGCAAGAGA AGAACCAGAT 
    ATTTATCAAA TTGCAAAGAG TGAACCACGA GACGCTGGAA CTGACCAACG TAGCTCTGGC 
    ATTATTCGCC TGCATACAAT AAAGCAAATC ATAGATCAAG ACAAACATGC TTTATTAGAT 
    GTAACACCAA ATGCAGTTGA TCGTCTTAAC TATGCCCAGT GGTATCCAAT TGTTGTATTT 
    CTTAACCCTG ATTCTAAGCA AGGAGTAAAA ACAATGAGAA TGAGGTTATG TCCAGAATCT 
    CGGAAAAGTG CCAGGAAGTT ATACGAGCGA TCTCATAAAC TTCGTAAAAA TAATCACCAT 
    CTTTTTACAA CTACAATTAA CTTAAATTCA ATGAATGATG GTTGGTATGG TGCGCTGAAA 
    GAAGCAATTC AACAACAGCA AAACCAGCTG GTATGGGTTT CCGAGGGAAA GGCGGATGGT 
    GCTACAAGTG ATGACCTTGA TTTGCATGAT GATCGTCTGT CCTACCTGTC AGCTCCAGGT 
    AGTGAATACT CAATGTATAG CACGGACAGT AGACACACTT CTGACTATGA AGACACAGAC 
    ACAGAAGGCG GGGCCTACAC TGATCAAGAA CTAGATGAAA CTCTTAATGA TGAGGTTGGG 
    ACTCCACCGG AGTCTGCCAT TACACGGTCC TCTGAGCCTG TAAGAGAGGA CTCCTCTGGA 
    ATGCATCATG AAAACCAAAC ATATCCTCCT TACTCACCAC AAGCGCAGCC ACAACCAATT 
    CATAGAATAG ACTCCCCTGG ATTTAAGCCA GCCTCTCAAC AGAAAGCAGA AGCTTCATCT 
    CCAGTCCCTT ACCTTTCGCC TGAAACAAAC CCAGCATCAT CAACCTCTGC TGTTAATCAT 
    AATGTAAATT TAACTAATGT CAGACTGGAG GAGCCCACCC CAGCTCCTTC CACCTCTTAC 
    TCACCACAAG CTGATTCTTT AAGAACACCA AGTACTGAGG CAGCTCACAT AATGCTAAGA 
    GATCAAGAAC CATCATTGTC GTCGCATGTA GATCCAACAA AGGTGTATAG AAAGGATCCA 
    TATCCCGAGG AAATGATGAG GCAGAACCAT GTTTTGAAAC AGCCAGCCGT TAGTCACCCA 
    GGGCACAGGC CAGACAAAGA GCCTAATCTG ACCTATGAAC CCCAACTCCC ATACGTAGAG 
    AAACAAGCCA GCAGAGACCT CGAGCAGCCC ACATACAGAT ACGAGTCCTC AAGCTATACG 
    GACCAGTTTT CTCGAAACTA TGAACATCGT CTGCGATACG AAGATCGCGT CCCCATGTAT 
    GAAGAACAGT GGTCATATTA TGATGACAAA CAGCCCTACC CATCTCGGCC ACCTTTTGAT 
    AATCAGCACT CTCAAGACCT TGACTCCAGA CAGCATCCCG AAGAGTCCTC AGAACGAGGG 
    TACTTTCCAC GTTTTGAAGA GCCAGCCCCT CTGTCTTACG ACAGCAGACC ACGTTACGAA 
    CAGGCACCTA GAGCATCCGC CCTGCGGCAC GAAGAGCAGC CAGCTCCTGG GTATGACACA 
    CATGGTAGAC TCAGACCGGA AGCCCAGCCC CACCCTTCAG CAGGGCCCAA GCCTGCAGAG 
    TCCAAGCAGT ATTTTGAGCA ATATTCACGC AGTTACGAGC AAGTACCACC CCAAGGATTT 
    ACCTCTAGAG CAGGTCATTT TGAGCCTCTC CATGGTGCTG CAGCTGTCCC TCCGCTGATA 
    CCTTCATCTC AGCATAAGCC AGAAGCTCTG CCTTCAAACA CCAAACCACT GCCTCCACCC 
    CCAACTCAAA CCGAAGAAGA GGAAGATCCA GCAATGAAGC CACAGTCTGT ACTCACCAGA 
    GTTAAGATGT TTGAAAACAA AAGATCTGCA TCCTTAGAGA CCAAGAAGGA TGTAAATGAC 
    ACTGGCAGTT TTAAGCCTCC AGAAGTAGCA TCTAAACCTT CAGGTGCTCC CATCATTGGT 
    CCCAAACCCA CTTCTCAGAA TCAATTCAGT GAACATGACA AAACTCTGTA CAGGATCCCA 
    GAACCTCAAA AACCTCAACT GAAGCCACCT GAAGATATTG TTCGGTCCAA TCATTATGAC 
    CCTGAAGAAG ATGAAGAATA TTATCGAAAA CAGCTGTCAT ACTTTGACCG AAGAAGTTTT 
    GAGAATAAGC CTCCTGCACA CATTGCCGCC AGCCATCTCT CCGAGCCTGC AAAGCCAGCG 
    CATTCTCAGA ATCAATCAAA TTTTTCTAGT TATTCTTCAA AATTTCTTGG CTCTTACACT 
    AGCTATGACT ACTTGAAAAG GAACGTCAAG TGGGGAAAGC CTCCTGAAGC TGATGGTGTG 
    GATAGATCAT TTGGCGAGAA ACGCTATGAA CCCATCCAGG CCACTCCCCC TCCTCCTCCA 
    TTGCCCTCGC AGTATGCCCA GCCATCTCAG CCTGTCACCA GCGCGTCTCT CCACATACAT 
    TCTAAGGGAG CACATGGTGA AGGTAATTCA GTGTCATTGG ATTTTCAGAA TTCCTTAGTG 
    TCCAAACCAG ACCCACCTCC ATCTCAGAAT AAGCCAGCAA CTTTCAGACC ACCAAACCGA 
    GAAGATACTG CTCAGGCAGC TTTCTATCCC CAGAAAAGTT TTCCAGATAA AGCCCCAGTT 
    AATGGAACTG AACAGACTCA GAAAACAGTC ACTCCAGCAT ACAATCGATT CACACCAAAA 
    CCATATACAA GTTCTGCCCG ACCATTTGAA CGCAAGTTTG AAAGTCCTAA ATTCAATCAC 
    AATCTTCTGC CAAGTGAAAC TGCACATAAA CCTGACTTGT CTTCAAAAAC TCCCACTTCT 
    CCAAAAACTC TTGTGAAATC GCACAGTTTG GCACAGCCTC CTGAGTTTGA CAGTGGAGTT 
    GAAACTTTCT CTATCCATGC AGAGAAGCCT AAATATCAAA TAAATAATAT CAGCACAGTG 
    CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT GTGGAAGAGG ATGAAGATGA AGATGGTCAT 
    ACTGTGGTGG CCACAGCCCG AGGCATATTT AACAGCAATG GGGGCGTGCT GAGTTCCATA 
    GAAACTGGTG TTAGTATAAT TATCCCTCAA GGAGCCATTC CCGAAGGAGT TGAGCAGGAA 
    ATCTATTTCA AGGTCTGCCG GGACAACAGC ATCCTTCCAC CTTTAGATAA AGAGAAAGGT 
    GAAACACTGC TGAGTCCTTT GGTGATGTGT GGTCCCCATG GCCTCAAGTT CCTGAAGCCT 
    GTGGAGCTGC GCTTACCACA CTGTGCGTCC ATGACTCCTG ACGGTTGGTC TTTTGCTCTA 
    AAATCATCCG ACTCCTCGTC GGGTGATCCT AAAACCTGGC AAAACAAGTG TCTTCCCGGA 
    GATCCAAATT ATCTCGTTGG AGCAAACTGT GTTTCTGTCC TTATTGACCA CTTTTAA

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

    RefSeq XP_016878010.1
    CDS81..5717
    Translation

    Target ORF information:

    RefSeq Version XM_017022521.1
    Organism Homo sapiens(human)
    Definition Homo sapiens 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_017022521.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGCGGCGCC TGGAGGGGCT GTGTCTGCGG CGGCGGCGGA GGCGGCGGGG CCCTGCCCGC 
    GAGCGGAGCG GGGACAAGAT GAAGTACCAG AAATACCTGA CGGTGCTGCA GATGGCCATC 
    GGCGTCACCC CCTCCAACCG CGGCAGCCTC CTGCCGCTCA AGAGGAAGCT GTGGGTAACG 
    CCATCCTCTG AAAATCCTAA TGGTGCTACT TCTAGTGTCA GCCAAGGAAA ACCCTCTTTA 
    AGACGAATTA AAGGGAGATT ACACAGAAGC AAAAGCCTTG ATAGCATGGA TTTCTGTGAG 
    CTCACTAGCA CAGCAATGGA GGAAACAGCT ATATGGGAAC AACATACAGT GACGCTTCAC 
    AGGGCTCCTG GATTTGGATT TGGAATTGCA ATATCTGGTG GACGAGATAA TCCTCATTTT 
    CAGAGTGGGG AAACGTCAAT AGTGATTTCA GATGTGCTGA AAGGAGGACC AGCTGAAGGA 
    CAGCTACAGG AAAATGACCG AGTTGCAATG GTTAACGGAG TTTCAATGGA TAATGTTGAA 
    CATGCTTTTG CTGTTCAGCA ACTAAGGAAA AGTGGGAAAA ATGCAAAAAT TACAATTAGA 
    AGGAAGAAGA AAGTTCAAAT ACCAGTAAGT CGTCCTGATC CTGAACCAGT ATCTGATAAT 
    GAAGAAGATA GTTATGATGA GGAAATACAT GATCCAAGAA GTGGCCGGAG TGGTGTGGTT 
    AACAGAAGGA GTGAGAAGAT TTGGCCGAGG GATAGAAGTG CAAGTAGAGA GAGGAGCTTG 
    TCCCCGCGGT CAGACAGGCG GTCAGTGGCT TCCAGCCAGC CTGCTAAACC TACTAAAGTC 
    ACACTGGTGA AATCCCGGAA AAATGAAGAA TATGGTCTTC GATTGGCAAG CCATATATTT 
    GTTAAGGAAA TTTCACAAGA TAGTTTGGCA GCAAGAGATG GCAATATTCA AGAAGGTGAT 
    GTTGTATTGA AGATAAATGG TACTGTGACA GAAAATATGT CATTGACAGA TGCAAAGACA 
    TTGATAGAAA GGTCTAAAGG CAAATTAAAA ATGGTAGTTC AAAGAGATGA ACGGGCTACG 
    CTATTGAATG TCCCTGATCT TTCTGACAGC ATCCACTCTG CTAATGCCTC TGAGAGAGAC 
    GACATTTCAG AAATTCAGTC ACTGGCATCA GATCATTCTG GTCGATCACA CGATAGGCCT 
    CCCCGCCGCA GCCGGTCACG ATCTCCTGAC CAGCGGTCAG AGCCTTCTGA TCATTCCAGG 
    CACTCGCCGC AGCAGCCAAG CAATGGCAGT CTCCGGAGTA GAGATGAAGA GAGAATTTCT 
    AAACCTGGGG CTGTCTCAAC TCCTGTAAAG CATGCTGATG ATCACACACC TAAAACAGTG 
    GAAGAAGTTA CAGTTGAAAG AAATGAGAAA CAAACACCTT CTCTTCCAGA ACCAAAGCCT 
    GTGTATGCCC AAGTTGGGCA ACCAGATGTG GATTTACCTG TCAGTCCATC TGATGGTGTC 
    CTACCTAATT CAACTCATGA AGATGGGATT CTTCGGCCCA GCATGAAATT GGTAAAATTC 
    AGAAAAGGAG ATAGTGTGGG TTTGCGGCTG GCTGGTGGAA ATGATGTTGG AATATTTGTA 
    GCTGGCGTTC TAGAAGATAG CCCTGCAGCC AAGGAAGGCT TAGAGGAAGG TGATCAAATT 
    CTCAGGGTAA ACAACGTAGA TTTTACAAAT ATCATAAGAG AAGAAGCCGT CCTTTTCCTG 
    CTTGACCTCC CTAAAGGAGA AGAAGTGACC ATATTGGCTC AGAAGAAGAA GGATGTTTAT 
    CGTCGCATTG TAGAATCAGA TGTAGGAGAT TCTTTCTATA TTAGAACCCA TTTTGAATAT 
    GAAAAGGAAT CTCCCTATGG ACTTAGTTTT AACAAAGGAG AGGTGTTCCG TGTTGTGGAT 
    ACCTTGTACA ATGGAAAACT GGGCTCTTGG CTTGCTATTC GAATTGGTAA AAATCATAAG 
    GAGGTAGAAC GAGGCATCAT CCCTAATAAG AACAGAGCTG AGCAGCTAGC CAGTGTACAG 
    TATACACTTC CAAAAACAGC AGGCGGAGAC CGTGCTGACT TCTGGAGATT CAGAGGTCTT 
    CGCAGCTCCA AGAGAAATCT TCGAAAAAGC AGAGAGGATT TGTCCGCTCA GCCTGTTCAA 
    ACAAAGTTTC CAGCTTATGA AAGAGTGGTT CTTCGAGAAG CTGGATTTCT GAGGCCTGTA 
    ACCATTTTTG GACCAATAGC TGATGTTGCC AGAGAAAAGC TGGCAAGAGA AGAACCAGAT 
    ATTTATCAAA TTGCAAAGAG TGAACCACGA GACGCTGGAA CTGACCAACG TAGCTCTGGC 
    ATTATTCGCC TGCATACAAT AAAGCAAATC ATAGATCAAG ACAAACATGC TTTATTAGAT 
    GTAACACCAA ATGCAGTTGA TCGTCTTAAC TATGCCCAGT GGTATCCAAT TGTTGTATTT 
    CTTAACCCTG ATTCTAAGCA AGGAGTAAAA ACAATGAGAA TGAGGTTATG TCCAGAATCT 
    CGGAAAAGTG CCAGGAAGTT ATACGAGCGA TCTCATAAAC TTCGTAAAAA TAATCACCAT 
    CTTTTTACAA CTACAATTAA CTTAAATTCA ATGAATGATG GTTGGTATGG TGCGCTGAAA 
    GAAGCAATTC AACAACAGCA AAACCAGCTG GTATGGGTTT CCGAGGGAAA GGCGGATGGT 
    GCTACAAGTG ATGACCTTGA TTTGCATGAT GATCGTCTGT CCTACCTGTC AGCTCCAGGT 
    AGTGAATACT CAATGTATAG CACGGACAGT AGACACACTT CTGACTATGA AGACACAGAC 
    ACAGAAGGCG GGGCCTACAC TGATCAAGAA CTAGATGAAA CTCTTAATGA TGAGGTTGGG 
    ACTCCACCGG AGTCTGCCAT TACACGGTCC TCTGAGCCTG TAAGAGAGGA CTCCTCTGGA 
    ATGCATCATG AAAACCAAAC ATATCCTCCT TACTCACCAC AAGCGCAGCC ACAACCAATT 
    CATAGAATAG ACTCCCCTGG ATTTAAGCCA GCCTCTCAAC AGAAAGCAGA AGCTTCATCT 
    CCAGTCCCTT ACCTTTCGCC TGAAACAAAC CCAGCATCAT CAACCTCTGC TGTTAATCAT 
    AATGTAAATT TAACTAATGT CAGACTGGAG GAGCCCACCC CAGCTCCTTC CACCTCTTAC 
    TCACCACAAG CTGATTCTTT AAGAACACCA AGTACTGAGG CAGCTCACAT AATGCTAAGA 
    GATCAAGAAC CATCATTGTC GTCGCATGTA GATCCAACAA AGGTGTATAG AAAGGATCCA 
    TATCCCGAGG AAATGATGAG GCAGAACCAT GTTTTGAAAC AGCCAGCCGT TAGTCACCCA 
    GGGCACAGGC CAGACAAAGA GCCTAATCTG ACCTATGAAC CCCAACTCCC ATACGTAGAG 
    AAACAAGCCA GCAGAGACCT CGAGCAGCCC ACATACAGAT ACGAGTCCTC AAGCTATACG 
    GACCAGTTTT CTCGAAACTA TGAACATCGT CTGCGATACG AAGATCGCGT CCCCATGTAT 
    GAAGAACAGT GGTCATATTA TGATGACAAA CAGCCCTACC CATCTCGGCC ACCTTTTGAT 
    AATCAGCACT CTCAAGACCT TGACTCCAGA CAGCATCCCG AAGAGTCCTC AGAACGAGGG 
    TACTTTCCAC GTTTTGAAGA GCCAGCCCCT CTGTCTTACG ACAGCAGACC ACGTTACGAA 
    CAGGCACCTA GAGCATCCGC CCTGCGGCAC GAAGAGCAGC CAGCTCCTGG GTATGACACA 
    CATGGTAGAC TCAGACCGGA AGCCCAGCCC CACCCTTCAG CAGGGCCCAA GCCTGCAGAG 
    TCCAAGCAGT ATTTTGAGCA ATATTCACGC AGTTACGAGC AAGTACCACC CCAAGGATTT 
    ACCTCTAGAG CAGGTCATTT TGAGCCTCTC CATGGTGCTG CAGCTGTCCC TCCGCTGATA 
    CCTTCATCTC AGCATAAGCC AGAAGCTCTG CCTTCAAACA CCAAACCACT GCCTCCACCC 
    CCAACTCAAA CCGAAGAAGA GGAAGATCCA GCAATGAAGC CACAGTCTGT ACTCACCAGA 
    GTTAAGATGT TTGAAAACAA AAGATCTGCA TCCTTAGAGA CCAAGAAGGA TGTAAATGAC 
    ACTGGCAGTT TTAAGCCTCC AGAAGTAGCA TCTAAACCTT CAGGTGCTCC CATCATTGGT 
    CCCAAACCCA CTTCTCAGAA TCAATTCAGT GAACATGACA AAACTCTGTA CAGGATCCCA 
    GAACCTCAAA AACCTCAACT GAAGCCACCT GAAGATATTG TTCGGTCCAA TCATTATGAC 
    CCTGAAGAAG ATGAAGAATA TTATCGAAAA CAGCTGTCAT ACTTTGACCG AAGAAGTTTT 
    GAGAATAAGC CTCCTGCACA CATTGCCGCC AGCCATCTCT CCGAGCCTGC AAAGCCAGCG 
    CATTCTCAGA ATCAATCAAA TTTTTCTAGT TATTCTTCAA AATTTCTTGG CTCTTACACT 
    AGCTATGACT ACTTGAAAAG GAACGTCAAG TGGGGAAAGC CTCCTGAAGC TGATGGTGTG 
    GATAGATCAT TTGGCGAGAA ACGCTATGAA CCCATCCAGG CCACTCCCCC TCCTCCTCCA 
    TTGCCCTCGC AGTATGCCCA GCCATCTCAG CCTGTCACCA GCGCGTCTCT CCACATACAT 
    TCTAAGGGAG CACATGGTGA AGGTAATTCA GTGTCATTGG ATTTTCAGAA TTCCTTAGTG 
    TCCAAACCAG ACCCACCTCC ATCTCAGAAT AAGCCAGCAA CTTTCAGACC ACCAAACCGA 
    GAAGATACTG CTCAGGCAGC TTTCTATCCC CAGAAAAGTT TTCCAGATAA AGCCCCAGTT 
    AATGGAACTG AACAGACTCA GAAAACAGTC ACTCCAGCAT ACAATCGATT CACACCAAAA 
    CCATATACAA GTTCTGCCCG ACCATTTGAA CGCAAGTTTG AAAGTCCTAA ATTCAATCAC 
    AATCTTCTGC CAAGTGAAAC TGCACATAAA CCTGACTTGT CTTCAAAAAC TCCCACTTCT 
    CCAAAAACTC TTGTGAAATC GCACAGTTTG GCACAGCCTC CTGAGTTTGA CAGTGGAGTT 
    GAAACTTTCT CTATCCATGC AGAGAAGCCT AAATATCAAA TAAATAATAT CAGCACAGTG 
    CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT GTGGAAGAGG ATGAAGATGA AGATGGTCAT 
    ACTGTGGTGG CCACAGCCCG AGGCATATTT AACAGCAATG GGGGCGTGCT GAGTTCCATA 
    GAAACTGGTG TTAGTATAAT TATCCCTCAA GGAGCCATTC CCGAAGGAGT TGAGCAGGAA 
    ATCTATTTCA AGGTCTGCCG GGACAACAGC ATCCTTCCAC CTTTAGATAA AGAGAAAGGT 
    GAAACACTGC TGAGTCCTTT GGTGATGTGT GGTCCCCATG GCCTCAAGTT CCTGAAGCCT 
    GTGGAGCTGC GCTTACCACA CTGTGCGTCC ATGACTCCTG ACGGTTGGTC TTTTGCTCTA 
    AAATCATCCG ACTCCTCGTC GGGTGATCCT AAAACCTGGC AAAACAAGTG TCTTCCCGGA 
    GATCCAAATT ATCTCGTTGG AGCAAACTGT GTTTCTGTCC TTATTGACCA CTTTTAA

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

    TJP1 ( XM_017022522.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016878011.1 Homo sapiens tight junction protein 1 (TJP1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OHu85627
    Clone ID Related Accession (Same CDS sequence) XM_017022522.1
    Accession Version XM_017022522.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5598bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    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_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGCGGCGCC TGGAGGGGCT GTGTCTGCGG CGGCGGCGGA GGCGGCGGGG CCCTGCCCGC 
    GAGCGGAGCG GGGACAAGAT GAAGTACCAG AAATACCTGA CGGTGCTGCA GATGGCCATC 
    GGCGTCACCC CCTCCAACCG CGGCAGCCTC CTGCCGCTCA AGAGGAAGCT GTGGGTAACG 
    CCATCCTCTG AAAATCCTAA TGGTGCTACT TCTAGTGTCA GCCAAGGAAA ACCCTCTTTA 
    AGACGAATTA AAGGGAGATT ACACAGAAGC AAAAGCCTTG ATAGCATGGA TTTCTGTGAG 
    CTCACTAGCA CAGCAATGGA GGAAACAGCT ATATGGGAAC AACATACAGT GACGCTTCAC 
    AGGGCTCCTG GATTTGGATT TGGAATTGCA ATATCTGGTG GACGAGATAA TCCTCATTTT 
    CAGAGTGGGG AAACGTCAAT AGTGATTTCA GATGTGCTGA AAGGAGGACC AGCTGAAGGA 
    CAGCTACAGG AAAATGACCG AGTTGCAATG GTTAACGGAG TTTCAATGGA TAATGTTGAA 
    CATGCTTTTG CTGTTCAGCA ACTAAGGAAA AGTGGGAAAA ATGCAAAAAT TACAATTAGA 
    AGGAAGAAGA AAGTTCAAAT ACCAGTAAGT CGTCCTGATC CTGAACCAGT ATCTGATAAT 
    GAAGAAGATA GTTATGATGA GGAAATACAT GATCCAAGAA GTGGCCGGAG TGGTGTGGTT 
    AACAGAAGGA GTGAGAAGAT TTGGCCGAGG GATAGAAGTG CAAGTAGAGA GAGGAGCTTG 
    TCCCCGCGGT CAGACAGGCG GTCAGTGGCT TCCAGCCAGC CTGCTAAACC TACTAAAGTC 
    ACACTGGTGA AATCCCGGAA AAATGAAGAA TATGGTCTTC GATTGGCAAG CCATATATTT 
    GTTAAGGAAA TTTCACAAGA TAGTTTGGCA GCAAGAGATG GCAATATTCA AGAAGGTGAT 
    GTTGTATTGA AGATAAATGG TACTGTGACA GAAAATATGT CATTGACAGA TGCAAAGACA 
    TTGATAGAAA GGTCTAAAGG CAAATTAAAA ATGGTAGTTC AAAGAGATGA ACGGGCTACG 
    CTATTGAATG TCCCTGATCT TTCTGACAGC ATCCACTCTG CTAATGCCTC TGAGAGAGAC 
    GACATTTCAG AAATTCAGTC ACTGGCATCA GATCATTCTG GTCGATCACA CGATAGGCCT 
    CCCCGCCGCA GCCGGTCACG ATCTCCTGAC CAGCGGTCAG AGCCTTCTGA TCATTCCAGG 
    CACTCGCCGC AGCAGCCAAG CAATGGCAGT CTCCGGAGTA GAGATGAAGA GAGAATTTCT 
    AAACCTGGGG CTGTCTCAAC TCCTGTAAAG CATGCTGATG ATCACACACC TAAAACAGTG 
    GAAGAAGTTA CAGTTGAAAG AAATGAGAAA CAAACACCTT CTCTTCCAGA ACCAAAGCCT 
    GTGTATGCCC AAGTTGGGCA ACCAGATGTG GATTTACCTG TCAGTCCATC TGATGGTGTC 
    CTACCTAATT CAACTCATGA AGATGGGATT CTTCGGCCCA GCATGAAATT GGTAAAATTC 
    AGAAAAGGAG ATAGTGTGGG TTTGCGGCTG GCTGGTGGAA ATGATGTTGG AATATTTGTA 
    GCTGGCGTTC TAGAAGATAG CCCTGCAGCC AAGGAAGGCT TAGAGGAAGG TGATCAAATT 
    CTCAGGGTAA ACAACGTAGA TTTTACAAAT ATCATAAGAG AAGAAGCCGT CCTTTTCCTG 
    CTTGACCTCC CTAAAGGAGA AGAAGTGACC ATATTGGCTC AGAAGAAGAA GGATGTTTAT 
    CGTCGCATTG TAGAATCAGA TGTAGGAGAT TCTTTCTATA TTAGAACCCA TTTTGAATAT 
    GAAAAGGAAT CTCCCTATGG ACTTAGTTTT AACAAAGGAG AGGTGTTCCG TGTTGTGGAT 
    ACCTTGTACA ATGGAAAACT GGGCTCTTGG CTTGCTATTC GAATTGGTAA AAATCATAAG 
    GAGGTAGAAC GAGGCATCAT CCCTAATAAG AACAGAGCTG AGCAGCTAGC CAGTGTACAG 
    TATACACTTC CAAAAACAGC AGGCGGAGAC CGTGCTGACT TCTGGAGATT CAGAGGTCTT 
    CGCAGCTCCA AGAGAAATCT TCGAAAAAGC AGAGAGGATT TGTCCGCTCA GCCTGTTCAA 
    ACAAAGTTTC CAGCTTATGA AAGAGTGGTT CTTCGAGAAG CTGGATTTCT GAGGCCTGTA 
    ACCATTTTTG GACCAATAGC TGATGTTGCC AGAGAAAAGC TGGCAAGAGA AGAACCAGAT 
    ATTTATCAAA TTGCAAAGAG TGAACCACGA GACGCTGGAA CTGACCAACG TAGCTCTGGC 
    ATTATTCGCC TGCATACAAT AAAGCAAATC ATAGATCAAG ACAAACATGC TTTATTAGAT 
    GTAACACCAA ATGCAGTTGA TCGTCTTAAC TATGCCCAGT GGTATCCAAT TGTTGTATTT 
    CTTAACCCTG ATTCTAAGCA AGGAGTAAAA ACAATGAGAA TGAGGTTATG TCCAGAATCT 
    CGGAAAAGTG CCAGGAAGTT ATACGAGCGA TCTCATAAAC TTCGTAAAAA TAATCACCAT 
    CTTTTTACAA CTACAATTAA CTTAAATTCA ATGAATGATG GTTGGTATGG TGCGCTGAAA 
    GAAGCAATTC AACAACAGCA AAACCAGCTG GTATGGGTTT CCGAGGGAAA GGCGGATGGT 
    GCTACAAGTG ATGACCTTGA TTTGCATGAT GATCGTCTGT CCTACCTGTC AGCTCCAGGT 
    AGTGAATACT CAATGTATAG CACGGACAGT AGACACACTT CTGACTATGA AGACACAGAC 
    ACAGAAGGCG GGGCCTACAC TGATCAAGAA CTAGATGAAA CTCTTAATGA TGAGGTTGGG 
    ACTCCACCGG AGTCTGCCAT TACACGGTCC TCTGAGCCTG TAAGAGAGGA CTCCTCTGGA 
    ATGCATCATG AAAACCAAAC ATATCCTCCT TACTCACCAC AAGCGCAGCC ACAACCAATT 
    CATAGAATAG ACTCCCCTGG ATTTAAGCCA GCCTCTCAAC AGAAAGCAGA AGCTTCATCT 
    CCAGTCCCTT ACCTTTCGCC TGAAACAAAC CCAGCATCAT CAACCTCTGC TGTTAATCAT 
    AATGTAAATT TAACTAATGT CAGACTGGAG GAGCCCACCC CAGCTCCTTC CACCTCTTAC 
    TCACCACAAG CTGATTCTTT AAGAACACCA AGTACTGAGG CAGCTCACAT AATGCTAAGA 
    GATCAAGAAC CATCATTGTC GTCGCATGTA GATCCAACAA AGGTGTATAG AAAGGATCCA 
    TATCCCGAGG AAATGATGAG GCAGAACCAT GTTTTGAAAC AGCCAGCCGT TAGTCACCCA 
    GGGCACAGGC CAGACAAAGA GCCTAATCTG ACCTATGAAC CCCAACTCCC ATACGTAGAG 
    AAACAAGCCA GCAGAGACCT CGAGCAGCCC ACATACAGAT ACGAGTCCTC AAGCTATACG 
    GACCAGTTTT CTCGAAACTA TGAACATCGT CTGCGATACG AAGATCGCGT CCCCATGTAT 
    GAAGAACAGT GGTCATATTA TGATGACAAA CAGCCCTACC CATCTCGGCC ACCTTTTGAT 
    AATCAGCACT CTCAAGACCT TGACTCCAGA CAGCATCCCG AAGAGTCCTC AGAACGAGGG 
    TACTTTCCAC GTTTTGAAGA GCCAGCCCCT CTGTCTTACG ACAGCAGACC ACGTTACGAA 
    CAGGCACCTA GAGCATCCGC CCTGCGGCAC GAAGAGCAGC CAGCTCCTGG GTATGACACA 
    CATGGTAGAC TCAGACCGGA AGCCCAGCCC CACCCTTCAG CAGGGCCCAA GCCTGCAGAG 
    TCCAAGCAGT ATTTTGAGCA ATATTCACGC AGTTACGAGC AAGTACCACC CCAAGGATTT 
    ACCTCTAGAG CAGGTCATTT TGAGCCTCTC CATGGTGCTG CAGCTGTCCC TCCGCTGATA 
    CCTTCATCTC AGCATAAGCC AGAAGCTCTG CCTTCAAACA CCAAACCACT GCCTCCACCC 
    CCAACTCAAA CCGAAGAAGA GGAAGATCCA GCAATGAAGC CACAGTCTGT ACTCACCAGA 
    GTTAAGATGT TTGAAAACAA AAGATCTGCA TCCTTAGAGA CCAAGAAGGA TGTAAATGAC 
    ACTGGCAGTT TTAAGCCTCC AGAAGTAGCA TCTAAACCTT CAGGTGCTCC CATCATTGGT 
    CCCAAACCCA CTTCTCAGAA TCAATTCAGT GAACATGACA AAACTCTGTA CAGGATCCCA 
    GAACCTCAAA AACCTCAACT GAAGCCACCT GAAGATATTG TTCGGTCCAA TCATTATGAC 
    CCTGAAGAAG ATGAAGAATA TTATCGAAAA CAGCTGTCAT ACTTTGACCG AAGAAGTTTT 
    GAGAATAAGC CTCCTGCACA CATTGCCGCC AGCCATCTCT CCGAGCCTGC AAAGCCAGCG 
    CATTCTCAGA ATCAATCAAA TTTTTCTAGT TATTCTTCAA AATTTCTTGG CTCTTACACT 
    AGCTATGACT ACTTGAAAAG GAACGTCAAG TGGGGAAAGC CTCCTGAAGC TGATGGTGTG 
    GATAGATCAT TTGGCGAGAA ACGCTATGAA CCCATCCAGG CCACTCCCCC TCCTCCTCCA 
    TTGCCCTCGC AGTATGCCCA GCCATCTCAG CCTGTCACCA GCGCGTCTCT CCACATACAT 
    TCTAAGGGAG CACATGGTGA AGGTAATTCA GTGTCATTGG ATTTTCAGAA TTCCTTAGTG 
    TCCAAACCAG ACCCACCTCC ATCTCAGAAT AAGCCAGCAA CTTTCAGACC ACCAAACCGA 
    GAAGATACTG CTCAGGCAGC TTTCTATCCC CAGAAAAGTT TTCCAGATAA AGCCCCAGTT 
    AATGGAACTG AACAGACTCA GAAAACAGTC ACTCCAGCAT ACAATCGATT CACACCAAAA 
    CCATATACAA GTTCTGCCCG ACCATTTGAA CGCAAGTTTG AAAGTCCTAA ATTCAATCAC 
    AATCTTCTGC CAAGTGAAAC TGCACATAAA CCTGACTTGT CTTCAAAAAC TCCCACTTCT 
    CCAAAAACTC TTGTGAAATC GCACAGTTTG GCACAGCCTC CTGAGTTTGA CAGTGGAGTT 
    GAAACTTTCT CTATCCATGC AGAGAAGCCT AAATATCAAA TAAATAATAT CAGCACAGTG 
    CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT GTGGAAGAGG ATGAAGATGA AGATGGTCAT 
    ACTGTGGTGG CCACAGCCCG AGGCATATTT AACAGCAATG GGGGCGTGCT GAGTTCCATA 
    GAAACTGGTG TTAGTATAAT TATCCCTCAA GGAGCCATTC CCGAAGGAGT TGAGCAGGAA 
    ATCTATTTCA AGGTCTGCCG GGACAACAGC ATCCTTCCAC CTTTAGATAA AGAGAAAGGT 
    GAAACACTGC TGAGTCCTTT GGTGATGTGT GGTCCCCATG GCCTCAAGTT CCTGAAGCCT 
    GTGGAGCTGC GCTTACCACA CTGTGCGTCC ATGACTCCTG ACGGTGATCC TAAAACCTGG 
    CAAAACAAGT GTCTTCCCGG AGATCCAAAT TATCTCGTTG GAGCAAACTG TGTTTCTGTC 
    CTTATTGACC ACTTTTAA

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

    RefSeq XP_016878011.1
    CDS81..5678
    Translation

    Target ORF information:

    RefSeq Version XM_017022522.1
    Organism Homo sapiens(human)
    Definition Homo sapiens 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_017022522.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGCGGCGCC TGGAGGGGCT GTGTCTGCGG CGGCGGCGGA GGCGGCGGGG CCCTGCCCGC 
    GAGCGGAGCG GGGACAAGAT GAAGTACCAG AAATACCTGA CGGTGCTGCA GATGGCCATC 
    GGCGTCACCC CCTCCAACCG CGGCAGCCTC CTGCCGCTCA AGAGGAAGCT GTGGGTAACG 
    CCATCCTCTG AAAATCCTAA TGGTGCTACT TCTAGTGTCA GCCAAGGAAA ACCCTCTTTA 
    AGACGAATTA AAGGGAGATT ACACAGAAGC AAAAGCCTTG ATAGCATGGA TTTCTGTGAG 
    CTCACTAGCA CAGCAATGGA GGAAACAGCT ATATGGGAAC AACATACAGT GACGCTTCAC 
    AGGGCTCCTG GATTTGGATT TGGAATTGCA ATATCTGGTG GACGAGATAA TCCTCATTTT 
    CAGAGTGGGG AAACGTCAAT AGTGATTTCA GATGTGCTGA AAGGAGGACC AGCTGAAGGA 
    CAGCTACAGG AAAATGACCG AGTTGCAATG GTTAACGGAG TTTCAATGGA TAATGTTGAA 
    CATGCTTTTG CTGTTCAGCA ACTAAGGAAA AGTGGGAAAA ATGCAAAAAT TACAATTAGA 
    AGGAAGAAGA AAGTTCAAAT ACCAGTAAGT CGTCCTGATC CTGAACCAGT ATCTGATAAT 
    GAAGAAGATA GTTATGATGA GGAAATACAT GATCCAAGAA GTGGCCGGAG TGGTGTGGTT 
    AACAGAAGGA GTGAGAAGAT TTGGCCGAGG GATAGAAGTG CAAGTAGAGA GAGGAGCTTG 
    TCCCCGCGGT CAGACAGGCG GTCAGTGGCT TCCAGCCAGC CTGCTAAACC TACTAAAGTC 
    ACACTGGTGA AATCCCGGAA AAATGAAGAA TATGGTCTTC GATTGGCAAG CCATATATTT 
    GTTAAGGAAA TTTCACAAGA TAGTTTGGCA GCAAGAGATG GCAATATTCA AGAAGGTGAT 
    GTTGTATTGA AGATAAATGG TACTGTGACA GAAAATATGT CATTGACAGA TGCAAAGACA 
    TTGATAGAAA GGTCTAAAGG CAAATTAAAA ATGGTAGTTC AAAGAGATGA ACGGGCTACG 
    CTATTGAATG TCCCTGATCT TTCTGACAGC ATCCACTCTG CTAATGCCTC TGAGAGAGAC 
    GACATTTCAG AAATTCAGTC ACTGGCATCA GATCATTCTG GTCGATCACA CGATAGGCCT 
    CCCCGCCGCA GCCGGTCACG ATCTCCTGAC CAGCGGTCAG AGCCTTCTGA TCATTCCAGG 
    CACTCGCCGC AGCAGCCAAG CAATGGCAGT CTCCGGAGTA GAGATGAAGA GAGAATTTCT 
    AAACCTGGGG CTGTCTCAAC TCCTGTAAAG CATGCTGATG ATCACACACC TAAAACAGTG 
    GAAGAAGTTA CAGTTGAAAG AAATGAGAAA CAAACACCTT CTCTTCCAGA ACCAAAGCCT 
    GTGTATGCCC AAGTTGGGCA ACCAGATGTG GATTTACCTG TCAGTCCATC TGATGGTGTC 
    CTACCTAATT CAACTCATGA AGATGGGATT CTTCGGCCCA GCATGAAATT GGTAAAATTC 
    AGAAAAGGAG ATAGTGTGGG TTTGCGGCTG GCTGGTGGAA ATGATGTTGG AATATTTGTA 
    GCTGGCGTTC TAGAAGATAG CCCTGCAGCC AAGGAAGGCT TAGAGGAAGG TGATCAAATT 
    CTCAGGGTAA ACAACGTAGA TTTTACAAAT ATCATAAGAG AAGAAGCCGT CCTTTTCCTG 
    CTTGACCTCC CTAAAGGAGA AGAAGTGACC ATATTGGCTC AGAAGAAGAA GGATGTTTAT 
    CGTCGCATTG TAGAATCAGA TGTAGGAGAT TCTTTCTATA TTAGAACCCA TTTTGAATAT 
    GAAAAGGAAT CTCCCTATGG ACTTAGTTTT AACAAAGGAG AGGTGTTCCG TGTTGTGGAT 
    ACCTTGTACA ATGGAAAACT GGGCTCTTGG CTTGCTATTC GAATTGGTAA AAATCATAAG 
    GAGGTAGAAC GAGGCATCAT CCCTAATAAG AACAGAGCTG AGCAGCTAGC CAGTGTACAG 
    TATACACTTC CAAAAACAGC AGGCGGAGAC CGTGCTGACT TCTGGAGATT CAGAGGTCTT 
    CGCAGCTCCA AGAGAAATCT TCGAAAAAGC AGAGAGGATT TGTCCGCTCA GCCTGTTCAA 
    ACAAAGTTTC CAGCTTATGA AAGAGTGGTT CTTCGAGAAG CTGGATTTCT GAGGCCTGTA 
    ACCATTTTTG GACCAATAGC TGATGTTGCC AGAGAAAAGC TGGCAAGAGA AGAACCAGAT 
    ATTTATCAAA TTGCAAAGAG TGAACCACGA GACGCTGGAA CTGACCAACG TAGCTCTGGC 
    ATTATTCGCC TGCATACAAT AAAGCAAATC ATAGATCAAG ACAAACATGC TTTATTAGAT 
    GTAACACCAA ATGCAGTTGA TCGTCTTAAC TATGCCCAGT GGTATCCAAT TGTTGTATTT 
    CTTAACCCTG ATTCTAAGCA AGGAGTAAAA ACAATGAGAA TGAGGTTATG TCCAGAATCT 
    CGGAAAAGTG CCAGGAAGTT ATACGAGCGA TCTCATAAAC TTCGTAAAAA TAATCACCAT 
    CTTTTTACAA CTACAATTAA CTTAAATTCA ATGAATGATG GTTGGTATGG TGCGCTGAAA 
    GAAGCAATTC AACAACAGCA AAACCAGCTG GTATGGGTTT CCGAGGGAAA GGCGGATGGT 
    GCTACAAGTG ATGACCTTGA TTTGCATGAT GATCGTCTGT CCTACCTGTC AGCTCCAGGT 
    AGTGAATACT CAATGTATAG CACGGACAGT AGACACACTT CTGACTATGA AGACACAGAC 
    ACAGAAGGCG GGGCCTACAC TGATCAAGAA CTAGATGAAA CTCTTAATGA TGAGGTTGGG 
    ACTCCACCGG AGTCTGCCAT TACACGGTCC TCTGAGCCTG TAAGAGAGGA CTCCTCTGGA 
    ATGCATCATG AAAACCAAAC ATATCCTCCT TACTCACCAC AAGCGCAGCC ACAACCAATT 
    CATAGAATAG ACTCCCCTGG ATTTAAGCCA GCCTCTCAAC AGAAAGCAGA AGCTTCATCT 
    CCAGTCCCTT ACCTTTCGCC TGAAACAAAC CCAGCATCAT CAACCTCTGC TGTTAATCAT 
    AATGTAAATT TAACTAATGT CAGACTGGAG GAGCCCACCC CAGCTCCTTC CACCTCTTAC 
    TCACCACAAG CTGATTCTTT AAGAACACCA AGTACTGAGG CAGCTCACAT AATGCTAAGA 
    GATCAAGAAC CATCATTGTC GTCGCATGTA GATCCAACAA AGGTGTATAG AAAGGATCCA 
    TATCCCGAGG AAATGATGAG GCAGAACCAT GTTTTGAAAC AGCCAGCCGT TAGTCACCCA 
    GGGCACAGGC CAGACAAAGA GCCTAATCTG ACCTATGAAC CCCAACTCCC ATACGTAGAG 
    AAACAAGCCA GCAGAGACCT CGAGCAGCCC ACATACAGAT ACGAGTCCTC AAGCTATACG 
    GACCAGTTTT CTCGAAACTA TGAACATCGT CTGCGATACG AAGATCGCGT CCCCATGTAT 
    GAAGAACAGT GGTCATATTA TGATGACAAA CAGCCCTACC CATCTCGGCC ACCTTTTGAT 
    AATCAGCACT CTCAAGACCT TGACTCCAGA CAGCATCCCG AAGAGTCCTC AGAACGAGGG 
    TACTTTCCAC GTTTTGAAGA GCCAGCCCCT CTGTCTTACG ACAGCAGACC ACGTTACGAA 
    CAGGCACCTA GAGCATCCGC CCTGCGGCAC GAAGAGCAGC CAGCTCCTGG GTATGACACA 
    CATGGTAGAC TCAGACCGGA AGCCCAGCCC CACCCTTCAG CAGGGCCCAA GCCTGCAGAG 
    TCCAAGCAGT ATTTTGAGCA ATATTCACGC AGTTACGAGC AAGTACCACC CCAAGGATTT 
    ACCTCTAGAG CAGGTCATTT TGAGCCTCTC CATGGTGCTG CAGCTGTCCC TCCGCTGATA 
    CCTTCATCTC AGCATAAGCC AGAAGCTCTG CCTTCAAACA CCAAACCACT GCCTCCACCC 
    CCAACTCAAA CCGAAGAAGA GGAAGATCCA GCAATGAAGC CACAGTCTGT ACTCACCAGA 
    GTTAAGATGT TTGAAAACAA AAGATCTGCA TCCTTAGAGA CCAAGAAGGA TGTAAATGAC 
    ACTGGCAGTT TTAAGCCTCC AGAAGTAGCA TCTAAACCTT CAGGTGCTCC CATCATTGGT 
    CCCAAACCCA CTTCTCAGAA TCAATTCAGT GAACATGACA AAACTCTGTA CAGGATCCCA 
    GAACCTCAAA AACCTCAACT GAAGCCACCT GAAGATATTG TTCGGTCCAA TCATTATGAC 
    CCTGAAGAAG ATGAAGAATA TTATCGAAAA CAGCTGTCAT ACTTTGACCG AAGAAGTTTT 
    GAGAATAAGC CTCCTGCACA CATTGCCGCC AGCCATCTCT CCGAGCCTGC AAAGCCAGCG 
    CATTCTCAGA ATCAATCAAA TTTTTCTAGT TATTCTTCAA AATTTCTTGG CTCTTACACT 
    AGCTATGACT ACTTGAAAAG GAACGTCAAG TGGGGAAAGC CTCCTGAAGC TGATGGTGTG 
    GATAGATCAT TTGGCGAGAA ACGCTATGAA CCCATCCAGG CCACTCCCCC TCCTCCTCCA 
    TTGCCCTCGC AGTATGCCCA GCCATCTCAG CCTGTCACCA GCGCGTCTCT CCACATACAT 
    TCTAAGGGAG CACATGGTGA AGGTAATTCA GTGTCATTGG ATTTTCAGAA TTCCTTAGTG 
    TCCAAACCAG ACCCACCTCC ATCTCAGAAT AAGCCAGCAA CTTTCAGACC ACCAAACCGA 
    GAAGATACTG CTCAGGCAGC TTTCTATCCC CAGAAAAGTT TTCCAGATAA AGCCCCAGTT 
    AATGGAACTG AACAGACTCA GAAAACAGTC ACTCCAGCAT ACAATCGATT CACACCAAAA 
    CCATATACAA GTTCTGCCCG ACCATTTGAA CGCAAGTTTG AAAGTCCTAA ATTCAATCAC 
    AATCTTCTGC CAAGTGAAAC TGCACATAAA CCTGACTTGT CTTCAAAAAC TCCCACTTCT 
    CCAAAAACTC TTGTGAAATC GCACAGTTTG GCACAGCCTC CTGAGTTTGA CAGTGGAGTT 
    GAAACTTTCT CTATCCATGC AGAGAAGCCT AAATATCAAA TAAATAATAT CAGCACAGTG 
    CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT GTGGAAGAGG ATGAAGATGA AGATGGTCAT 
    ACTGTGGTGG CCACAGCCCG AGGCATATTT AACAGCAATG GGGGCGTGCT GAGTTCCATA 
    GAAACTGGTG TTAGTATAAT TATCCCTCAA GGAGCCATTC CCGAAGGAGT TGAGCAGGAA 
    ATCTATTTCA AGGTCTGCCG GGACAACAGC ATCCTTCCAC CTTTAGATAA AGAGAAAGGT 
    GAAACACTGC TGAGTCCTTT GGTGATGTGT GGTCCCCATG GCCTCAAGTT CCTGAAGCCT 
    GTGGAGCTGC GCTTACCACA CTGTGCGTCC ATGACTCCTG ACGGTGATCC TAAAACCTGG 
    CAAAACAAGT GTCTTCCCGG AGATCCAAAT TATCTCGTTG GAGCAAACTG TGTTTCTGTC 
    CTTATTGACC ACTTTTAA

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

    TJP1 ( XM_017022523.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016878012.1 Homo sapiens tight junction protein 1 (TJP1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OHu85628
    Clone ID Related Accession (Same CDS sequence) XM_017022523.1
    Accession Version XM_017022523.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5577bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    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_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    ATGCGGCGCC TGGAGGGGCT GTGTCTGCGG CGGCGGCGGA GGCGGCGGGG CCCTGCCCGC 
    GAGCGGAGCG GGGACAAGAT GAAGTACCAG AAATACCTGA CGGTGCTGCA GATGGCCATC 
    GGCGTCACCC CCTCCAACCG CGGCAGCCTC CTGCCGCTCA AGAGGAAGCT GTGGGTAACG 
    CCATCCTCTG AAAATCCTAA TGGTGCTACT TCTAGTGTCA GCCAAGGAAA ACCCTCTTTA 
    AGACGAATTA AAGGGAGATT ACACAGAAGC AAAAGCCTTG ATAGCATGGA TTTCTGTGAG 
    CTCACTAGCA CAGCAATGGA GGAAACAGCT ATATGGGAAC AACATACAGT GACGCTTCAC 
    AGGGCTCCTG GATTTGGATT TGGAATTGCA ATATCTGGTG GACGAGATAA TCCTCATTTT 
    CAGAGTGGGG AAACGTCAAT AGTGATTTCA GATGTGCTGA AAGGAGGACC AGCTGAAGGA 
    CAGCTACAGG AAAATGACCG AGTTGCAATG GTTAACGGAG TTTCAATGGA TAATGTTGAA 
    CATGCTTTTG CTGTTCAGCA ACTAAGGAAA AGTGGGAAAA ATGCAAAAAT TACAATTAGA 
    AGGAAGAAGA AAGTTCAAAT ACCAGTAAGT CGTCCTGATC CTGAACCAGT ATCTGATAAT 
    GAAGAAGATA GTTATGATGA GGAAATACAT GATCCAAGAA GTGGCCGGAG TGGTGTGGTT 
    AACAGAAGGA GTGAGAAGAT TTGGCCGAGG GATAGAAGTG CAAGTAGAGA GAGGAGCTTG 
    TCCCCGCGGT CAGACAGGCG GTCAGTGGCT TCCAGCCAGC CTGCTAAACC TACTAAAGTC 
    ACACTGGTGA AATCCCGGAA AAATGAAGAA TATGGTCTTC GATTGGCAAG CCATATATTT 
    GTTAAGGAAA TTTCACAAGA TAGTTTGGCA GCAAGAGATG GCAATATTCA AGAAGGTGAT 
    GTTGTATTGA AGATAAATGG TACTGTGACA GAAAATATGT CATTGACAGA TGCAAAGACA 
    TTGATAGAAA GGTCTAAAGG CAAATTAAAA ATGGTAGTTC AAAGAGATGA ACGGGCTACG 
    CTATTGAATG TCCCTGATCT TTCTGACAGC ATCCACTCTG CTAATGCCTC TGAGAGAGAC 
    GACATTTCAG AAATTCAGTC ACTGGCATCA GATCATTCTG GTCGATCACA CGATAGGCCT 
    CCCCGCCGCA GCCGGTCACG ATCTCCTGAC CAGCGGTCAG AGCCTTCTGA TCATTCCAGG 
    CACTCGCCGC AGCAGCCAAG CAATGGCAGT CTCCGGAGTA GAGATGAAGA GAGAATTTCT 
    AAACCTGGGG CTGTCTCAAC TCCTGTAAAG CATGCTGATG ATCACACACC TAAAACAGTG 
    GAAGAAGTTA CAGTTGAAAG AAATGAGAAA CAAACACCTT CTCTTCCAGA ACCAAAGCCT 
    GTGTATGCCC AAGTTGGGCA ACCAGATGTG GATTTACCTG TCAGTCCATC TGATGGTGTC 
    CTACCTAATT CAACTCATGA AGATGGGATT CTTCGGCCCA GCATGAAATT GGTAAAATTC 
    AGAAAAGGAG ATAGTGTGGG TTTGCGGCTG GCTGGTGGAA ATGATGTTGG AATATTTGTA 
    GCTGGCGTTC TAGAAGATAG CCCTGCAGCC AAGGAAGGCT TAGAGGAAGG TGATCAAATT 
    CTCAGGGTAA ACAACGTAGA TTTTACAAAT ATCATAAGAG AAGAAGCCGT CCTTTTCCTG 
    CTTGACCTCC CTAAAGGAGA AGAAGTGACC ATATTGGCTC AGAAGAAGAA GGATGTTTAT 
    CGTCGCATTG TAGAATCAGA TGTAGGAGAT TCTTTCTATA TTAGAACCCA TTTTGAATAT 
    GAAAAGGAAT CTCCCTATGG ACTTAGTTTT AACAAAGGAG AGGTGTTCCG TGTTGTGGAT 
    ACCTTGTACA ATGGAAAACT GGGCTCTTGG CTTGCTATTC GAATTGGTAA AAATCATAAG 
    GAGGTAGAAC GAGGCATCAT CCCTAATAAG AACAGAGCTG AGCAGCTAGC CAGTGTACAG 
    TATACACTTC CAAAAACAGC AGGCGGAGAC CGTGCTGACT TCTGGAGATT CAGAGGTCTT 
    CGCAGCTCCA AGAGAAATCT TCGAAAAAGC AGAGAGGATT TGTCCGCTCA GCCTGTTCAA 
    ACAAAGTTTC CAGCTTATGA AAGAGTGGTT CTTCGAGAAG CTGGATTTCT GAGGCCTGTA 
    ACCATTTTTG GACCAATAGC TGATGTTGCC AGAGAAAAGC TGGCAAGAGA AGAACCAGAT 
    ATTTATCAAA TTGCAAAGAG TGAACCACGA GACGCTGGAA CTGACCAACG TAGCTCTGGC 
    ATTATTCGCC TGCATACAAT AAAGCAAATC ATAGATCAAG ACAAACATGC TTTATTAGAT 
    GTAACACCAA ATGCAGTTGA TCGTCTTAAC TATGCCCAGT GGTATCCAAT TGTTGTATTT 
    CTTAACCCTG ATTCTAAGCA AGGAGTAAAA ACAATGAGAA TGAGGTTATG TCCAGAATCT 
    CGGAAAAGTG CCAGGAAGTT ATACGAGCGA TCTCATAAAC TTCGTAAAAA TAATCACCAT 
    CTTTTTACAA CTACAATTAA CTTAAATTCA ATGAATGATG GTTGGTATGG TGCGCTGAAA 
    GAAGCAATTC AACAACAGCA AAACCAGCTG GTATGGGTTT CCGAGGGAAA GGCGGATGGT 
    GCTACAAGTG ATGACCTTGA TTTGCATGAT GATCGTCTGT CCTACCTGTC AGCTCCAGGT 
    AGTGAATACT CAATGTATAG CACGGACAGT AGACACACTT CTGACTATGA AGACACAGAC 
    ACAGAAGGCG GGGCCTACAC TGATCAAGAA CTAGATGAAA CTCTTAATGA TGAGGTTGGG 
    ACTCCACCGG AGTCTGCCAT TACACGGTCC TCTGAGCCTG TAAGAGAGGA CTCCTCTGGA 
    ATGCATCATG AAAACCAAAC ATATCCTCCT TACTCACCAC AAGCGCAGCC ACAACCAATT 
    CATAGAATAG ACTCCCCTGG ATTTAAGCCA GCCTCTCAAC AGAAAGCAGA AGCTTCATCT 
    CCAGTCCCTT ACCTTTCGCC TGAAACAAAC CCAGCATCAT CAACCTCTGC TGTTAATCAT 
    AATGTAAATT TAACTAATGT CAGACTGGAG GAGCCCACCC CAGCTCCTTC CACCTCTTAC 
    TCACCACAAG CTGATTCTTT AAGAACACCA AGTACTGAGG CAGCTCACAT AATGCTAAGA 
    GATCAAGAAC CATCATTGTC GTCGCATGTA GATCCAACAA AGGTGTATAG AAAGGATCCA 
    TATCCCGAGG AAATGATGAG GCAGAACCAT GTTTTGAAAC AGCCAGCCGT TAGTCACCCA 
    GGGCACAGGC CAGACAAAGA GCCTAATCTG ACCTATGAAC CCCAACTCCC ATACGTAGAG 
    AAACAAGCCA GCAGAGACCT CGAGCAGCCC ACATACAGAT ACGAGTCCTC AAGCTATACG 
    GACCAGTTTT CTCGAAACTA TGAACATCGT CTGCGATACG AAGATCGCGT CCCCATGTAT 
    GAAGAACAGT GGTCATATTA TGATGACAAA CAGCCCTACC CATCTCGGCC ACCTTTTGAT 
    AATCAGCACT CTCAAGACCT TGACTCCAGA CAGCATCCCG AAGAGTCCTC AGAACGAGGG 
    TACTTTCCAC GTTTTGAAGA GCCAGCCCCT CTGTCTTACG ACAGCAGACC ACGTTACGAA 
    CAGGCACCTA GAGCATCCGC CCTGCGGCAC GAAGAGCAGC CAGCTCCTGG GTATGACACA 
    CATGGTAGAC TCAGACCGGA AGCCCAGCCC CACCCTTCAG CAGGGCCCAA GCCTGCAGAG 
    TCCAAGCAGT ATTTTGAGCA ATATTCACGC AGTTACGAGC AAGTACCACC CCAAGGATTT 
    ACCTCTAGAG CAGGTCATTT TGAGCCTCTC CATGGTGCTG CAGCTGTCCC TCCGCTGATA 
    CCTTCATCTC AGCATAAGCC AGAAGCTCTG CCTTCAAACA CCAAACCACT GCCTCCACCC 
    CCAACTCAAA CCGAAGAAGA GGAAGATCCA GCAATGAAGC CACAGTCTGT ACTCACCAGA 
    GTTAAGATGT TTGAAAACAA AAGATCTGCA TCCTTAGAGA CCAAGAAGGA TGTAAATGAC 
    ACTGGCAGTT TTAAGCCTCC AGAAGTAGCA TCTAAACCTT CAGGTGCTCC CATCATTGGT 
    CCCAAACCCA CTTCTCAGAA TCAATTCAGT GAACATGACA AAACTCTGTA CAGGATCCCA 
    GAACCTCAAA AACCTCAACT GAAGCCACCT GAAGATATTG TTCGGTCCAA TCATTATGAC 
    CCTGAAGAAG ATGAAGAATA TTATCGAAAA CAGCTGTCAT ACTTTGACCG AAGAAGTTTT 
    GAGAATAAGC CTCCTGCACA CATTGCCGCC AGCCATCTCT CCGAGCCTGC AAAGCCAGCG 
    CATTCTCAGA ATCAATCAAA TTTTTCTAGT TATTCTTCAA AATTTCTTGG CTCTTACACT 
    AGCTATGACT ACTTGAAAAG GAACGTCAAG TGGGGAAAGC CTCCTGAAGC TGATGGTGTG 
    GATAGATCAT TTGGCGAGAA ACGCTATGAA CCCATCCAGG CCACTCCCCC TCCTCCTCCA 
    TTGCCCTCGC AGTATGCCCA GCCATCTCAG CCTGTCACCA GCGCGTCTCT CCACATACAT 
    TCTAAGGGAG CACATGGTGA AGGTAATTCA GTGTCATTGG ATTTTCAGAA TTCCTTAGTG 
    TCCAAACCAG ACCCACCTCC ATCTCAGAAT AAGCCAGCAA CTTTCAGACC ACCAAACCGA 
    GAAGATACTG CTCAGGCAGC TTTCTATCCC CAGAAAAGTT TTCCAGATAA AGCCCCAGTT 
    AATGGAACTG AACAGACTCA GAAAACAGTC ACTCCAGCAT ACAATCGATT CACACCAAAA 
    CCATATACAA GTTCTGCCCG ACCATTTGAA CGCAAGTTTG AAAGTCCTAA ATTCAATCAC 
    AATCTTCTGC CAAGTGAAAC TGCACATAAA CCTGACTTGT CTTCAAAAAC TCCCACTTCT 
    CCAAAAACTC TTGTGAAATC GCACAGTTTG GCACAGCCTC CTGAGTTTGA CAGTGGAGTT 
    GAAACTTTCT CTATCCATGC AGAGAAGCCT AAATATCAAA TAAATAATAT CAGCACAGTG 
    CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT GTGGAAGAGG ATGAAGATGA AGATGGTCAT 
    ACTGTGGTGG CCACAGCCCG AGGCATATTT AACAGCAATG GGGGCGTGCT GAGTTCCATA 
    GAAACTGGTG TTAGTATAAT TATCCCTCAA GGAGCCATTC CCGAAGGAGT TGAGCAGGAA 
    ATCTATTTCA AGGTCTGCCG GGACAACAGC ATCCTTCCAC CTTTAGATAA AGAGAAAGGT 
    GAAACACTGC TGAGTCCTTT GGTGATGTGT GGTCCCCATG GCCTCAAGTT CCTGAAGCCT 
    GTGGAGCTGC GCTTACCACA CTGTGATCCT AAAACCTGGC AAAACAAGTG TCTTCCCGGA 
    GATCCAAATT ATCTCGTTGG AGCAAACTGT GTTTCTGTCC TTATTGACCA CTTTTAA

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

    RefSeq XP_016878012.1
    CDS81..5657
    Translation

    Target ORF information:

    RefSeq Version XM_017022523.1
    Organism Homo sapiens(human)
    Definition Homo sapiens 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_017022523.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    ATGCGGCGCC TGGAGGGGCT GTGTCTGCGG CGGCGGCGGA GGCGGCGGGG CCCTGCCCGC 
    GAGCGGAGCG GGGACAAGAT GAAGTACCAG AAATACCTGA CGGTGCTGCA GATGGCCATC 
    GGCGTCACCC CCTCCAACCG CGGCAGCCTC CTGCCGCTCA AGAGGAAGCT GTGGGTAACG 
    CCATCCTCTG AAAATCCTAA TGGTGCTACT TCTAGTGTCA GCCAAGGAAA ACCCTCTTTA 
    AGACGAATTA AAGGGAGATT ACACAGAAGC AAAAGCCTTG ATAGCATGGA TTTCTGTGAG 
    CTCACTAGCA CAGCAATGGA GGAAACAGCT ATATGGGAAC AACATACAGT GACGCTTCAC 
    AGGGCTCCTG GATTTGGATT TGGAATTGCA ATATCTGGTG GACGAGATAA TCCTCATTTT 
    CAGAGTGGGG AAACGTCAAT AGTGATTTCA GATGTGCTGA AAGGAGGACC AGCTGAAGGA 
    CAGCTACAGG AAAATGACCG AGTTGCAATG GTTAACGGAG TTTCAATGGA TAATGTTGAA 
    CATGCTTTTG CTGTTCAGCA ACTAAGGAAA AGTGGGAAAA ATGCAAAAAT TACAATTAGA 
    AGGAAGAAGA AAGTTCAAAT ACCAGTAAGT CGTCCTGATC CTGAACCAGT ATCTGATAAT 
    GAAGAAGATA GTTATGATGA GGAAATACAT GATCCAAGAA GTGGCCGGAG TGGTGTGGTT 
    AACAGAAGGA GTGAGAAGAT TTGGCCGAGG GATAGAAGTG CAAGTAGAGA GAGGAGCTTG 
    TCCCCGCGGT CAGACAGGCG GTCAGTGGCT TCCAGCCAGC CTGCTAAACC TACTAAAGTC 
    ACACTGGTGA AATCCCGGAA AAATGAAGAA TATGGTCTTC GATTGGCAAG CCATATATTT 
    GTTAAGGAAA TTTCACAAGA TAGTTTGGCA GCAAGAGATG GCAATATTCA AGAAGGTGAT 
    GTTGTATTGA AGATAAATGG TACTGTGACA GAAAATATGT CATTGACAGA TGCAAAGACA 
    TTGATAGAAA GGTCTAAAGG CAAATTAAAA ATGGTAGTTC AAAGAGATGA ACGGGCTACG 
    CTATTGAATG TCCCTGATCT TTCTGACAGC ATCCACTCTG CTAATGCCTC TGAGAGAGAC 
    GACATTTCAG AAATTCAGTC ACTGGCATCA GATCATTCTG GTCGATCACA CGATAGGCCT 
    CCCCGCCGCA GCCGGTCACG ATCTCCTGAC CAGCGGTCAG AGCCTTCTGA TCATTCCAGG 
    CACTCGCCGC AGCAGCCAAG CAATGGCAGT CTCCGGAGTA GAGATGAAGA GAGAATTTCT 
    AAACCTGGGG CTGTCTCAAC TCCTGTAAAG CATGCTGATG ATCACACACC TAAAACAGTG 
    GAAGAAGTTA CAGTTGAAAG AAATGAGAAA CAAACACCTT CTCTTCCAGA ACCAAAGCCT 
    GTGTATGCCC AAGTTGGGCA ACCAGATGTG GATTTACCTG TCAGTCCATC TGATGGTGTC 
    CTACCTAATT CAACTCATGA AGATGGGATT CTTCGGCCCA GCATGAAATT GGTAAAATTC 
    AGAAAAGGAG ATAGTGTGGG TTTGCGGCTG GCTGGTGGAA ATGATGTTGG AATATTTGTA 
    GCTGGCGTTC TAGAAGATAG CCCTGCAGCC AAGGAAGGCT TAGAGGAAGG TGATCAAATT 
    CTCAGGGTAA ACAACGTAGA TTTTACAAAT ATCATAAGAG AAGAAGCCGT CCTTTTCCTG 
    CTTGACCTCC CTAAAGGAGA AGAAGTGACC ATATTGGCTC AGAAGAAGAA GGATGTTTAT 
    CGTCGCATTG TAGAATCAGA TGTAGGAGAT TCTTTCTATA TTAGAACCCA TTTTGAATAT 
    GAAAAGGAAT CTCCCTATGG ACTTAGTTTT AACAAAGGAG AGGTGTTCCG TGTTGTGGAT 
    ACCTTGTACA ATGGAAAACT GGGCTCTTGG CTTGCTATTC GAATTGGTAA AAATCATAAG 
    GAGGTAGAAC GAGGCATCAT CCCTAATAAG AACAGAGCTG AGCAGCTAGC CAGTGTACAG 
    TATACACTTC CAAAAACAGC AGGCGGAGAC CGTGCTGACT TCTGGAGATT CAGAGGTCTT 
    CGCAGCTCCA AGAGAAATCT TCGAAAAAGC AGAGAGGATT TGTCCGCTCA GCCTGTTCAA 
    ACAAAGTTTC CAGCTTATGA AAGAGTGGTT CTTCGAGAAG CTGGATTTCT GAGGCCTGTA 
    ACCATTTTTG GACCAATAGC TGATGTTGCC AGAGAAAAGC TGGCAAGAGA AGAACCAGAT 
    ATTTATCAAA TTGCAAAGAG TGAACCACGA GACGCTGGAA CTGACCAACG TAGCTCTGGC 
    ATTATTCGCC TGCATACAAT AAAGCAAATC ATAGATCAAG ACAAACATGC TTTATTAGAT 
    GTAACACCAA ATGCAGTTGA TCGTCTTAAC TATGCCCAGT GGTATCCAAT TGTTGTATTT 
    CTTAACCCTG ATTCTAAGCA AGGAGTAAAA ACAATGAGAA TGAGGTTATG TCCAGAATCT 
    CGGAAAAGTG CCAGGAAGTT ATACGAGCGA TCTCATAAAC TTCGTAAAAA TAATCACCAT 
    CTTTTTACAA CTACAATTAA CTTAAATTCA ATGAATGATG GTTGGTATGG TGCGCTGAAA 
    GAAGCAATTC AACAACAGCA AAACCAGCTG GTATGGGTTT CCGAGGGAAA GGCGGATGGT 
    GCTACAAGTG ATGACCTTGA TTTGCATGAT GATCGTCTGT CCTACCTGTC AGCTCCAGGT 
    AGTGAATACT CAATGTATAG CACGGACAGT AGACACACTT CTGACTATGA AGACACAGAC 
    ACAGAAGGCG GGGCCTACAC TGATCAAGAA CTAGATGAAA CTCTTAATGA TGAGGTTGGG 
    ACTCCACCGG AGTCTGCCAT TACACGGTCC TCTGAGCCTG TAAGAGAGGA CTCCTCTGGA 
    ATGCATCATG AAAACCAAAC ATATCCTCCT TACTCACCAC AAGCGCAGCC ACAACCAATT 
    CATAGAATAG ACTCCCCTGG ATTTAAGCCA GCCTCTCAAC AGAAAGCAGA AGCTTCATCT 
    CCAGTCCCTT ACCTTTCGCC TGAAACAAAC CCAGCATCAT CAACCTCTGC TGTTAATCAT 
    AATGTAAATT TAACTAATGT CAGACTGGAG GAGCCCACCC CAGCTCCTTC CACCTCTTAC 
    TCACCACAAG CTGATTCTTT AAGAACACCA AGTACTGAGG CAGCTCACAT AATGCTAAGA 
    GATCAAGAAC CATCATTGTC GTCGCATGTA GATCCAACAA AGGTGTATAG AAAGGATCCA 
    TATCCCGAGG AAATGATGAG GCAGAACCAT GTTTTGAAAC AGCCAGCCGT TAGTCACCCA 
    GGGCACAGGC CAGACAAAGA GCCTAATCTG ACCTATGAAC CCCAACTCCC ATACGTAGAG 
    AAACAAGCCA GCAGAGACCT CGAGCAGCCC ACATACAGAT ACGAGTCCTC AAGCTATACG 
    GACCAGTTTT CTCGAAACTA TGAACATCGT CTGCGATACG AAGATCGCGT CCCCATGTAT 
    GAAGAACAGT GGTCATATTA TGATGACAAA CAGCCCTACC CATCTCGGCC ACCTTTTGAT 
    AATCAGCACT CTCAAGACCT TGACTCCAGA CAGCATCCCG AAGAGTCCTC AGAACGAGGG 
    TACTTTCCAC GTTTTGAAGA GCCAGCCCCT CTGTCTTACG ACAGCAGACC ACGTTACGAA 
    CAGGCACCTA GAGCATCCGC CCTGCGGCAC GAAGAGCAGC CAGCTCCTGG GTATGACACA 
    CATGGTAGAC TCAGACCGGA AGCCCAGCCC CACCCTTCAG CAGGGCCCAA GCCTGCAGAG 
    TCCAAGCAGT ATTTTGAGCA ATATTCACGC AGTTACGAGC AAGTACCACC CCAAGGATTT 
    ACCTCTAGAG CAGGTCATTT TGAGCCTCTC CATGGTGCTG CAGCTGTCCC TCCGCTGATA 
    CCTTCATCTC AGCATAAGCC AGAAGCTCTG CCTTCAAACA CCAAACCACT GCCTCCACCC 
    CCAACTCAAA CCGAAGAAGA GGAAGATCCA GCAATGAAGC CACAGTCTGT ACTCACCAGA 
    GTTAAGATGT TTGAAAACAA AAGATCTGCA TCCTTAGAGA CCAAGAAGGA TGTAAATGAC 
    ACTGGCAGTT TTAAGCCTCC AGAAGTAGCA TCTAAACCTT CAGGTGCTCC CATCATTGGT 
    CCCAAACCCA CTTCTCAGAA TCAATTCAGT GAACATGACA AAACTCTGTA CAGGATCCCA 
    GAACCTCAAA AACCTCAACT GAAGCCACCT GAAGATATTG TTCGGTCCAA TCATTATGAC 
    CCTGAAGAAG ATGAAGAATA TTATCGAAAA CAGCTGTCAT ACTTTGACCG AAGAAGTTTT 
    GAGAATAAGC CTCCTGCACA CATTGCCGCC AGCCATCTCT CCGAGCCTGC AAAGCCAGCG 
    CATTCTCAGA ATCAATCAAA TTTTTCTAGT TATTCTTCAA AATTTCTTGG CTCTTACACT 
    AGCTATGACT ACTTGAAAAG GAACGTCAAG TGGGGAAAGC CTCCTGAAGC TGATGGTGTG 
    GATAGATCAT TTGGCGAGAA ACGCTATGAA CCCATCCAGG CCACTCCCCC TCCTCCTCCA 
    TTGCCCTCGC AGTATGCCCA GCCATCTCAG CCTGTCACCA GCGCGTCTCT CCACATACAT 
    TCTAAGGGAG CACATGGTGA AGGTAATTCA GTGTCATTGG ATTTTCAGAA TTCCTTAGTG 
    TCCAAACCAG ACCCACCTCC ATCTCAGAAT AAGCCAGCAA CTTTCAGACC ACCAAACCGA 
    GAAGATACTG CTCAGGCAGC TTTCTATCCC CAGAAAAGTT TTCCAGATAA AGCCCCAGTT 
    AATGGAACTG AACAGACTCA GAAAACAGTC ACTCCAGCAT ACAATCGATT CACACCAAAA 
    CCATATACAA GTTCTGCCCG ACCATTTGAA CGCAAGTTTG AAAGTCCTAA ATTCAATCAC 
    AATCTTCTGC CAAGTGAAAC TGCACATAAA CCTGACTTGT CTTCAAAAAC TCCCACTTCT 
    CCAAAAACTC TTGTGAAATC GCACAGTTTG GCACAGCCTC CTGAGTTTGA CAGTGGAGTT 
    GAAACTTTCT CTATCCATGC AGAGAAGCCT AAATATCAAA TAAATAATAT CAGCACAGTG 
    CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT GTGGAAGAGG ATGAAGATGA AGATGGTCAT 
    ACTGTGGTGG CCACAGCCCG AGGCATATTT AACAGCAATG GGGGCGTGCT GAGTTCCATA 
    GAAACTGGTG TTAGTATAAT TATCCCTCAA GGAGCCATTC CCGAAGGAGT TGAGCAGGAA 
    ATCTATTTCA AGGTCTGCCG GGACAACAGC ATCCTTCCAC CTTTAGATAA AGAGAAAGGT 
    GAAACACTGC TGAGTCCTTT GGTGATGTGT GGTCCCCATG GCCTCAAGTT CCTGAAGCCT 
    GTGGAGCTGC GCTTACCACA CTGTGATCCT AAAACCTGGC AAAACAAGTG TCTTCCCGGA 
    GATCCAAATT ATCTCGTTGG AGCAAACTGT GTTTCTGTCC TTATTGACCA CTTTTAA

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

    TJP1 ( XM_011521972.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011520274.2 Homo sapiens tight junction protein 1 (TJP1), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OHu85629
    Clone ID Related Accession (Same CDS sequence) XM_011521972.2
    Accession Version XM_011521972.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5547bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    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_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011521972.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    ATGCGGCGCC TGGAGGGGCT GTGTCTGCGG CGGCGGCGGA GGCGGCGGGG CCCTGCCCGC 
    GAGCGGAGCG GGGACAAGAT GAAGTACCAG AAATACCTGA CGGTGCTGCA GATGGCCATC 
    GGCGTCACCC CCTCCAACCG CGGCAGCCTC CTGCCGCTCA AGAGGAAGCT GTGGGTAACG 
    CCATCCTCTG AAAATCCTAA TGGTGCTACT TCTAGTGTCA GCCAAGGAAA ACCCTCTTTA 
    AGACGAATTA AAGGGAGATT ACACAGAAGC AAAAGCCTTG ATAGCATGGA TTTCTGTGAG 
    CTCACTAGCA CAGCAATGGA GGAAACAGCT ATATGGGAAC AACATACAGT GACGCTTCAC 
    AGGGCTCCTG GATTTGGATT TGGAATTGCA ATATCTGGTG GACGAGATAA TCCTCATTTT 
    CAGAGTGGGG AAACGTCAAT AGTGATTTCA GATGTGCTGA AAGGAGGACC AGCTGAAGGA 
    CAGCTACAGG AAAATGACCG AGTTGCAATG GTTAACGGAG TTTCAATGGA TAATGTTGAA 
    CATGCTTTTG CTGTTCAGCA ACTAAGGAAA AGTGGGAAAA ATGCAAAAAT TACAATTAGA 
    AGGAAGAAGA AAGTTCAAAT ACCAGTAAGT CGTCCTGATC CTGAACCAGT ATCTGATAAT 
    GAAGAAGATA GTTATGATGA GGAAATACAT GATCCAAGAA GTGGCCGGAG TGGTGTGGTT 
    AACAGAAGGA GTGAGAAGAT TTGGCCGAGG GATAGAAGTG CAAGTAGAGA GAGGAGCTTG 
    TCCCCGCGGT CAGACAGGCG GTCAGTGGCT TCCAGCCAGC CTGCTAAACC TACTAAAGTC 
    ACACTGGTGA AATCCCGGAA AAATGAAGAA TATGGTCTTC GATTGGCAAG CCATATATTT 
    GTTAAGGAAA TTTCACAAGA TAGTTTGGCA GCAAGAGATG GCAATATTCA AGAAGGTGAT 
    GTTGTATTGA AGATAAATGG TACTGTGACA GAAAATATGT CATTGACAGA TGCAAAGACA 
    TTGATAGAAA GGTCTAAAGG CAAATTAAAA ATGGTAGTTC AAAGAGATGA ACGGGCTACG 
    CTATTGAATG TCCCTGATCT TTCTGACAGC ATCCACTCTG CTAATGCCTC TGAGAGAGAC 
    GACATTTCAG AAATTCAGTC ACTGGCATCA GATCATTCTG GTCGATCACA CGATAGGCCT 
    CCCCGCCGCA GCCGGTCACG ATCTCCTGAC CAGCGGTCAG AGCCTTCTGA TCATTCCAGG 
    CACTCGCCGC AGCAGCCAAG CAATGGCAGT CTCCGGAGTA GAGATGAAGA GAGAATTTCT 
    AAACCTGGGG CTGTCTCAAC TCCTGTAAAG CATGCTGATG ATCACACACC TAAAACAGTG 
    GAAGAAGTTA CAGTTGAAAG AAATGAGAAA CAAACACCTT CTCTTCCAGA ACCAAAGCCT 
    GTGTATGCCC AAGTTGGGCA ACCAGATGTG GATTTACCTG TCAGTCCATC TGATGGTGTC 
    CTACCTAATT CAACTCATGA AGATGGGATT CTTCGGCCCA GCATGAAATT GGTAAAATTC 
    AGAAAAGGAG ATAGTGTGGG TTTGCGGCTG GCTGGTGGAA ATGATGTTGG AATATTTGTA 
    GCTGGCGTTC TAGAAGATAG CCCTGCAGCC AAGGAAGGCT TAGAGGAAGG TGATCAAATT 
    CTCAGGGTAA ACAACGTAGA TTTTACAAAT ATCATAAGAG AAGAAGCCGT CCTTTTCCTG 
    CTTGACCTCC CTAAAGGAGA AGAAGTGACC ATATTGGCTC AGAAGAAGAA GGATGTTTAT 
    CGTCGCATTG TAGAATCAGA TGTAGGAGAT TCTTTCTATA TTAGAACCCA TTTTGAATAT 
    GAAAAGGAAT CTCCCTATGG ACTTAGTTTT AACAAAGGAG AGGTGTTCCG TGTTGTGGAT 
    ACCTTGTACA ATGGAAAACT GGGCTCTTGG CTTGCTATTC GAATTGGTAA AAATCATAAG 
    GAGGTAGAAC GAGGCATCAT CCCTAATAAG AACAGAGCTG AGCAGCTAGC CAGTGTACAG 
    TATACACTTC CAAAAACAGC AGGCGGAGAC CGTGCTGACT TCTGGAGATT CAGAGGTCTT 
    CGCAGCTCCA AGAGAAATCT TCGAAAAAGC AGAGAGGATT TGTCCGCTCA GCCTGTTCAA 
    ACAAAGTTTC CAGCTTATGA AAGAGTGGTT CTTCGAGAAG CTGGATTTCT GAGGCCTGTA 
    ACCATTTTTG GACCAATAGC TGATGTTGCC AGAGAAAAGC TGGCAAGAGA AGAACCAGAT 
    ATTTATCAAA TTGCAAAGAG TGAACCACGA GACGCTGGAA CTGACCAACG TAGCTCTGGC 
    ATTATTCGCC TGCATACAAT AAAGCAAATC ATAGATCAAG ACAAACATGC TTTATTAGAT 
    GTAACACCAA ATGCAGTTGA TCGTCTTAAC TATGCCCAGT GGTATCCAAT TGTTGTATTT 
    CTTAACCCTG ATTCTAAGCA AGGAGTAAAA ACAATGAGAA TGAGGTTATG TCCAGAATCT 
    CGGAAAAGTG CCAGGAAGTT ATACGAGCGA TCTCATAAAC TTCGTAAAAA TAATCACCAT 
    CTTTTTACAA CTACAATTAA CTTAAATTCA ATGAATGATG GTTGGTATGG TGCGCTGAAA 
    GAAGCAATTC AACAACAGCA AAACCAGCTG GTATGGGTTT CCGAGGGAAA GGCGGATGGT 
    GCTACAAGTG ATGACCTTGA TTTGCATGAT GATCGTCTGT CCTACCTGTC AGCTCCAGGT 
    AGTGAATACT CAATGTATAG CACGGACAGT AGACACACTT CTGACTATGA AGACACAGAC 
    ACAGAAGGCG GGGCCTACAC TGATCAAGAA CTAGATGAAA CTCTTAATGA TGAGGTTGGG 
    ACTCCACCGG AGTCTGCCAT TACACGGTCC TCTGAGCCTG TAAGAGAGGA CTCCTCTGGA 
    ATGCATCATG AAAACCAAAC ATATCCTCCT TACTCACCAC AAGCGCAGCC ACAACCAATT 
    CATAGAATAG ACTCCCCTGG ATTTAAGCCA GCCTCTCAAC AGAAAGCAGA AGCTTCATCT 
    CCAGTCCCTT ACCTTTCGCC TGAAACAAAC CCAGCATCAT CAACCTCTGC TGTTAATCAT 
    AATGTAAATT TAACTAATGT CAGACTGGAG GAGCCCACCC CAGCTCCTTC CACCTCTTAC 
    TCACCACAAG CTGATTCTTT AAGAACACCA AGTACTGAGG CAGCTCACAT AATGCTAAGA 
    GATCAAGAAC CATCATTGTC GTCGCATGTA GATCCAACAA AGGTGTATAG AAAGGATCCA 
    TATCCCGAGG AAATGATGAG GCAGAACCAT GTTTTGAAAC AGCCAGCCGT TAGTCACCCA 
    GGGCACAGGC CAGACAAAGA GCCTAATCTG ACCTATGAAC CCCAACTCCC ATACGTAGAG 
    AAACAAGCCA GCAGAGACCT CGAGCAGCCC ACATACAGAT ACGAGTCCTC AAGCTATACG 
    GACCAGTTTT CTCGAAACTA TGAACATCGT CTGCGATACG AAGATCGCGT CCCCATGTAT 
    GAAGAACAGT GGTCATATTA TGATGACAAA CAGCCCTACC CATCTCGGCC ACCTTTTGAT 
    AATCAGCACT CTCAAGACCT TGACTCCAGA CAGCATCCCG AAGAGTCCTC AGAACGAGGG 
    TACTTTCCAC GTTTTGAAGA GCCAGCCCCT CTGTCTTACG ACAGCAGACC ACGTTACGAA 
    CAGGCACCTA GAGCATCCGC CCTGCGGCAC GAAGAGCAGC CAGCTCCTGG GTATGACACA 
    CATGGTAGAC TCAGACCGGA AGCCCAGCCC CACCCTTCAG CAGGGCCCAA GCCTGCAGAG 
    TCCAAGCAGT ATTTTGAGCA ATATTCACGC AGTTACGAGC AAGTACCACC CCAAGGATTT 
    ACCTCTAGAG CAGGTCATTT TGAGCCTCTC CATGGTGCTG CAGCTGTCCC TCCGCTGATA 
    CCTTCATCTC AGCATAAGCC AGAAGCTCTG CCTTCAAACA CCAAACCACT GCCTCCACCC 
    CCAACTCAAA CCGAAGAAGA GGAAGATCCA GCAATGAAGC CACAGTCTGT ACTCACCAGA 
    GTTAAGATGT TTGAAAACAA AAGATCTGCA TCCTTAGAGA CCAAGAAGGA TGTAAATGAC 
    ACTGGCAGTT TTAAGCCTCC AGAAGTAGCA TCTAAACCTT CAGGTGCTCC CATCATTGGT 
    CCCAAACCCA CTTCTCAGAA TCAATTCAGT GAACATGACA AAACTCTGTA CAGGATCCCA 
    GAACCTCAAA AACCTCAACT GAAGCCACCT GAAGATATTG TTCGGTCCAA TCATTATGAC 
    CCTGAAGAAG ATGAAGAATA TTATCGAAAA CAGCTGTCAT ACTTTGACCG AAGAAGTTTT 
    GAGAATAAGC CTCCTGCACA CATTGCCGCC AGCCATCTCT CCGAGCCTGC AAAGCCAGCG 
    CATTCTCAGA ATCAATCAAA TTTTTCTAGT TATTCTTCAA AGGGAAAGCC TCCTGAAGCT 
    GATGGTGTGG ATAGATCATT TGGCGAGAAA CGCTATGAAC CCATCCAGGC CACTCCCCCT 
    CCTCCTCCAT TGCCCTCGCA GTATGCCCAG CCATCTCAGC CTGTCACCAG CGCGTCTCTC 
    CACATACATT CTAAGGGAGC ACATGGTGAA GGTAATTCAG TGTCATTGGA TTTTCAGAAT 
    TCCTTAGTGT CCAAACCAGA CCCACCTCCA TCTCAGAATA AGCCAGCAAC TTTCAGACCA 
    CCAAACCGAG AAGATACTGC TCAGGCAGCT TTCTATCCCC AGAAAAGTTT TCCAGATAAA 
    GCCCCAGTTA ATGGAACTGA ACAGACTCAG AAAACAGTCA CTCCAGCATA CAATCGATTC 
    ACACCAAAAC CATATACAAG TTCTGCCCGA CCATTTGAAC GCAAGTTTGA AAGTCCTAAA 
    TTCAATCACA ATCTTCTGCC AAGTGAAACT GCACATAAAC CTGACTTGTC TTCAAAAACT 
    CCCACTTCTC CAAAAACTCT TGTGAAATCG CACAGTTTGG CACAGCCTCC TGAGTTTGAC 
    AGTGGAGTTG AAACTTTCTC TATCCATGCA GAGAAGCCTA AATATCAAAT AAATAATATC 
    AGCACAGTGC CTAAAGCTAT TCCTGTGAGT CCTTCAGCTG TGGAAGAGGA TGAAGATGAA 
    GATGGTCATA CTGTGGTGGC CACAGCCCGA GGCATATTTA ACAGCAATGG GGGCGTGCTG 
    AGTTCCATAG AAACTGGTGT TAGTATAATT ATCCCTCAAG GAGCCATTCC CGAAGGAGTT 
    GAGCAGGAAA TCTATTTCAA GGTCTGCCGG GACAACAGCA TCCTTCCACC TTTAGATAAA 
    GAGAAAGGTG AAACACTGCT GAGTCCTTTG GTGATGTGTG GTCCCCATGG CCTCAAGTTC 
    CTGAAGCCTG TGGAGCTGCG CTTACCACAC TGTGCGTCCA TGACTCCTGA CGGTGATCCT 
    AAAACCTGGC AAAACAAGTG TCTTCCCGGA GATCCAAATT ATCTCGTTGG AGCAAACTGT 
    GTTTCTGTCC TTATTGACCA CTTTTAA

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

    RefSeq XP_011520274.2
    CDS81..5627
    Translation

    Target ORF information:

    RefSeq Version XM_011521972.2
    Organism Homo sapiens(human)
    Definition Homo sapiens 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_011521972.2

    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
    5341
    5401
    5461
    5521
    ATGCGGCGCC TGGAGGGGCT GTGTCTGCGG CGGCGGCGGA GGCGGCGGGG CCCTGCCCGC 
    GAGCGGAGCG GGGACAAGAT GAAGTACCAG AAATACCTGA CGGTGCTGCA GATGGCCATC 
    GGCGTCACCC CCTCCAACCG CGGCAGCCTC CTGCCGCTCA AGAGGAAGCT GTGGGTAACG 
    CCATCCTCTG AAAATCCTAA TGGTGCTACT TCTAGTGTCA GCCAAGGAAA ACCCTCTTTA 
    AGACGAATTA AAGGGAGATT ACACAGAAGC AAAAGCCTTG ATAGCATGGA TTTCTGTGAG 
    CTCACTAGCA CAGCAATGGA GGAAACAGCT ATATGGGAAC AACATACAGT GACGCTTCAC 
    AGGGCTCCTG GATTTGGATT TGGAATTGCA ATATCTGGTG GACGAGATAA TCCTCATTTT 
    CAGAGTGGGG AAACGTCAAT AGTGATTTCA GATGTGCTGA AAGGAGGACC AGCTGAAGGA 
    CAGCTACAGG AAAATGACCG AGTTGCAATG GTTAACGGAG TTTCAATGGA TAATGTTGAA 
    CATGCTTTTG CTGTTCAGCA ACTAAGGAAA AGTGGGAAAA ATGCAAAAAT TACAATTAGA 
    AGGAAGAAGA AAGTTCAAAT ACCAGTAAGT CGTCCTGATC CTGAACCAGT ATCTGATAAT 
    GAAGAAGATA GTTATGATGA GGAAATACAT GATCCAAGAA GTGGCCGGAG TGGTGTGGTT 
    AACAGAAGGA GTGAGAAGAT TTGGCCGAGG GATAGAAGTG CAAGTAGAGA GAGGAGCTTG 
    TCCCCGCGGT CAGACAGGCG GTCAGTGGCT TCCAGCCAGC CTGCTAAACC TACTAAAGTC 
    ACACTGGTGA AATCCCGGAA AAATGAAGAA TATGGTCTTC GATTGGCAAG CCATATATTT 
    GTTAAGGAAA TTTCACAAGA TAGTTTGGCA GCAAGAGATG GCAATATTCA AGAAGGTGAT 
    GTTGTATTGA AGATAAATGG TACTGTGACA GAAAATATGT CATTGACAGA TGCAAAGACA 
    TTGATAGAAA GGTCTAAAGG CAAATTAAAA ATGGTAGTTC AAAGAGATGA ACGGGCTACG 
    CTATTGAATG TCCCTGATCT TTCTGACAGC ATCCACTCTG CTAATGCCTC TGAGAGAGAC 
    GACATTTCAG AAATTCAGTC ACTGGCATCA GATCATTCTG GTCGATCACA CGATAGGCCT 
    CCCCGCCGCA GCCGGTCACG ATCTCCTGAC CAGCGGTCAG AGCCTTCTGA TCATTCCAGG 
    CACTCGCCGC AGCAGCCAAG CAATGGCAGT CTCCGGAGTA GAGATGAAGA GAGAATTTCT 
    AAACCTGGGG CTGTCTCAAC TCCTGTAAAG CATGCTGATG ATCACACACC TAAAACAGTG 
    GAAGAAGTTA CAGTTGAAAG AAATGAGAAA CAAACACCTT CTCTTCCAGA ACCAAAGCCT 
    GTGTATGCCC AAGTTGGGCA ACCAGATGTG GATTTACCTG TCAGTCCATC TGATGGTGTC 
    CTACCTAATT CAACTCATGA AGATGGGATT CTTCGGCCCA GCATGAAATT GGTAAAATTC 
    AGAAAAGGAG ATAGTGTGGG TTTGCGGCTG GCTGGTGGAA ATGATGTTGG AATATTTGTA 
    GCTGGCGTTC TAGAAGATAG CCCTGCAGCC AAGGAAGGCT TAGAGGAAGG TGATCAAATT 
    CTCAGGGTAA ACAACGTAGA TTTTACAAAT ATCATAAGAG AAGAAGCCGT CCTTTTCCTG 
    CTTGACCTCC CTAAAGGAGA AGAAGTGACC ATATTGGCTC AGAAGAAGAA GGATGTTTAT 
    CGTCGCATTG TAGAATCAGA TGTAGGAGAT TCTTTCTATA TTAGAACCCA TTTTGAATAT 
    GAAAAGGAAT CTCCCTATGG ACTTAGTTTT AACAAAGGAG AGGTGTTCCG TGTTGTGGAT 
    ACCTTGTACA ATGGAAAACT GGGCTCTTGG CTTGCTATTC GAATTGGTAA AAATCATAAG 
    GAGGTAGAAC GAGGCATCAT CCCTAATAAG AACAGAGCTG AGCAGCTAGC CAGTGTACAG 
    TATACACTTC CAAAAACAGC AGGCGGAGAC CGTGCTGACT TCTGGAGATT CAGAGGTCTT 
    CGCAGCTCCA AGAGAAATCT TCGAAAAAGC AGAGAGGATT TGTCCGCTCA GCCTGTTCAA 
    ACAAAGTTTC CAGCTTATGA AAGAGTGGTT CTTCGAGAAG CTGGATTTCT GAGGCCTGTA 
    ACCATTTTTG GACCAATAGC TGATGTTGCC AGAGAAAAGC TGGCAAGAGA AGAACCAGAT 
    ATTTATCAAA TTGCAAAGAG TGAACCACGA GACGCTGGAA CTGACCAACG TAGCTCTGGC 
    ATTATTCGCC TGCATACAAT AAAGCAAATC ATAGATCAAG ACAAACATGC TTTATTAGAT 
    GTAACACCAA ATGCAGTTGA TCGTCTTAAC TATGCCCAGT GGTATCCAAT TGTTGTATTT 
    CTTAACCCTG ATTCTAAGCA AGGAGTAAAA ACAATGAGAA TGAGGTTATG TCCAGAATCT 
    CGGAAAAGTG CCAGGAAGTT ATACGAGCGA TCTCATAAAC TTCGTAAAAA TAATCACCAT 
    CTTTTTACAA CTACAATTAA CTTAAATTCA ATGAATGATG GTTGGTATGG TGCGCTGAAA 
    GAAGCAATTC AACAACAGCA AAACCAGCTG GTATGGGTTT CCGAGGGAAA GGCGGATGGT 
    GCTACAAGTG ATGACCTTGA TTTGCATGAT GATCGTCTGT CCTACCTGTC AGCTCCAGGT 
    AGTGAATACT CAATGTATAG CACGGACAGT AGACACACTT CTGACTATGA AGACACAGAC 
    ACAGAAGGCG GGGCCTACAC TGATCAAGAA CTAGATGAAA CTCTTAATGA TGAGGTTGGG 
    ACTCCACCGG AGTCTGCCAT TACACGGTCC TCTGAGCCTG TAAGAGAGGA CTCCTCTGGA 
    ATGCATCATG AAAACCAAAC ATATCCTCCT TACTCACCAC AAGCGCAGCC ACAACCAATT 
    CATAGAATAG ACTCCCCTGG ATTTAAGCCA GCCTCTCAAC AGAAAGCAGA AGCTTCATCT 
    CCAGTCCCTT ACCTTTCGCC TGAAACAAAC CCAGCATCAT CAACCTCTGC TGTTAATCAT 
    AATGTAAATT TAACTAATGT CAGACTGGAG GAGCCCACCC CAGCTCCTTC CACCTCTTAC 
    TCACCACAAG CTGATTCTTT AAGAACACCA AGTACTGAGG CAGCTCACAT AATGCTAAGA 
    GATCAAGAAC CATCATTGTC GTCGCATGTA GATCCAACAA AGGTGTATAG AAAGGATCCA 
    TATCCCGAGG AAATGATGAG GCAGAACCAT GTTTTGAAAC AGCCAGCCGT TAGTCACCCA 
    GGGCACAGGC CAGACAAAGA GCCTAATCTG ACCTATGAAC CCCAACTCCC ATACGTAGAG 
    AAACAAGCCA GCAGAGACCT CGAGCAGCCC ACATACAGAT ACGAGTCCTC AAGCTATACG 
    GACCAGTTTT CTCGAAACTA TGAACATCGT CTGCGATACG AAGATCGCGT CCCCATGTAT 
    GAAGAACAGT GGTCATATTA TGATGACAAA CAGCCCTACC CATCTCGGCC ACCTTTTGAT 
    AATCAGCACT CTCAAGACCT TGACTCCAGA CAGCATCCCG AAGAGTCCTC AGAACGAGGG 
    TACTTTCCAC GTTTTGAAGA GCCAGCCCCT CTGTCTTACG ACAGCAGACC ACGTTACGAA 
    CAGGCACCTA GAGCATCCGC CCTGCGGCAC GAAGAGCAGC CAGCTCCTGG GTATGACACA 
    CATGGTAGAC TCAGACCGGA AGCCCAGCCC CACCCTTCAG CAGGGCCCAA GCCTGCAGAG 
    TCCAAGCAGT ATTTTGAGCA ATATTCACGC AGTTACGAGC AAGTACCACC CCAAGGATTT 
    ACCTCTAGAG CAGGTCATTT TGAGCCTCTC CATGGTGCTG CAGCTGTCCC TCCGCTGATA 
    CCTTCATCTC AGCATAAGCC AGAAGCTCTG CCTTCAAACA CCAAACCACT GCCTCCACCC 
    CCAACTCAAA CCGAAGAAGA GGAAGATCCA GCAATGAAGC CACAGTCTGT ACTCACCAGA 
    GTTAAGATGT TTGAAAACAA AAGATCTGCA TCCTTAGAGA CCAAGAAGGA TGTAAATGAC 
    ACTGGCAGTT TTAAGCCTCC AGAAGTAGCA TCTAAACCTT CAGGTGCTCC CATCATTGGT 
    CCCAAACCCA CTTCTCAGAA TCAATTCAGT GAACATGACA AAACTCTGTA CAGGATCCCA 
    GAACCTCAAA AACCTCAACT GAAGCCACCT GAAGATATTG TTCGGTCCAA TCATTATGAC 
    CCTGAAGAAG ATGAAGAATA TTATCGAAAA CAGCTGTCAT ACTTTGACCG AAGAAGTTTT 
    GAGAATAAGC CTCCTGCACA CATTGCCGCC AGCCATCTCT CCGAGCCTGC AAAGCCAGCG 
    CATTCTCAGA ATCAATCAAA TTTTTCTAGT TATTCTTCAA AGGGAAAGCC TCCTGAAGCT 
    GATGGTGTGG ATAGATCATT TGGCGAGAAA CGCTATGAAC CCATCCAGGC CACTCCCCCT 
    CCTCCTCCAT TGCCCTCGCA GTATGCCCAG CCATCTCAGC CTGTCACCAG CGCGTCTCTC 
    CACATACATT CTAAGGGAGC ACATGGTGAA GGTAATTCAG TGTCATTGGA TTTTCAGAAT 
    TCCTTAGTGT CCAAACCAGA CCCACCTCCA TCTCAGAATA AGCCAGCAAC TTTCAGACCA 
    CCAAACCGAG AAGATACTGC TCAGGCAGCT TTCTATCCCC AGAAAAGTTT TCCAGATAAA 
    GCCCCAGTTA ATGGAACTGA ACAGACTCAG AAAACAGTCA CTCCAGCATA CAATCGATTC 
    ACACCAAAAC CATATACAAG TTCTGCCCGA CCATTTGAAC GCAAGTTTGA AAGTCCTAAA 
    TTCAATCACA ATCTTCTGCC AAGTGAAACT GCACATAAAC CTGACTTGTC TTCAAAAACT 
    CCCACTTCTC CAAAAACTCT TGTGAAATCG CACAGTTTGG CACAGCCTCC TGAGTTTGAC 
    AGTGGAGTTG AAACTTTCTC TATCCATGCA GAGAAGCCTA AATATCAAAT AAATAATATC 
    AGCACAGTGC CTAAAGCTAT TCCTGTGAGT CCTTCAGCTG TGGAAGAGGA TGAAGATGAA 
    GATGGTCATA CTGTGGTGGC CACAGCCCGA GGCATATTTA ACAGCAATGG GGGCGTGCTG 
    AGTTCCATAG AAACTGGTGT TAGTATAATT ATCCCTCAAG GAGCCATTCC CGAAGGAGTT 
    GAGCAGGAAA TCTATTTCAA GGTCTGCCGG GACAACAGCA TCCTTCCACC TTTAGATAAA 
    GAGAAAGGTG AAACACTGCT GAGTCCTTTG GTGATGTGTG GTCCCCATGG CCTCAAGTTC 
    CTGAAGCCTG TGGAGCTGCG CTTACCACAC TGTGCGTCCA TGACTCCTGA CGGTGATCCT 
    AAAACCTGGC AAAACAAGTG TCTTCCCGGA GATCCAAATT ATCTCGTTGG AGCAAACTGT 
    GTTTCTGTCC TTATTGACCA CTTTTAA

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

    TJP1 ( XM_005254617.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_005254674.2 Homo sapiens tight junction protein 1 (TJP1), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OHu85630
    Clone ID Related Accession (Same CDS sequence) NM_001355012.1 , XM_005254617.3 , NM_001355012.2
    Accession Version XM_005254617.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5526bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(Human)
    Product tight junction protein ZO-1 isoform X5
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_005254617.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    ATGCGGCGCC TGGAGGGGCT GTGTCTGCGG CGGCGGCGGA GGCGGCGGGG CCCTGCCCGC 
    GAGCGGAGCG GGGACAAGAT GAAGTACCAG AAATACCTGA CGGTGCTGCA GATGGCCATC 
    GGCGTCACCC CCTCCAACCG CGGCAGCCTC CTGCCGCTCA AGAGGAAGCT GTGGGTAACG 
    CCATCCTCTG AAAATCCTAA TGGTGCTACT TCTAGTGTCA GCCAAGGAAA ACCCTCTTTA 
    AGACGAATTA AAGGGAGATT ACACAGAAGC AAAAGCCTTG ATAGCATGGA TTTCTGTGAG 
    CTCACTAGCA CAGCAATGGA GGAAACAGCT ATATGGGAAC AACATACAGT GACGCTTCAC 
    AGGGCTCCTG GATTTGGATT TGGAATTGCA ATATCTGGTG GACGAGATAA TCCTCATTTT 
    CAGAGTGGGG AAACGTCAAT AGTGATTTCA GATGTGCTGA AAGGAGGACC AGCTGAAGGA 
    CAGCTACAGG AAAATGACCG AGTTGCAATG GTTAACGGAG TTTCAATGGA TAATGTTGAA 
    CATGCTTTTG CTGTTCAGCA ACTAAGGAAA AGTGGGAAAA ATGCAAAAAT TACAATTAGA 
    AGGAAGAAGA AAGTTCAAAT ACCAGTAAGT CGTCCTGATC CTGAACCAGT ATCTGATAAT 
    GAAGAAGATA GTTATGATGA GGAAATACAT GATCCAAGAA GTGGCCGGAG TGGTGTGGTT 
    AACAGAAGGA GTGAGAAGAT TTGGCCGAGG GATAGAAGTG CAAGTAGAGA GAGGAGCTTG 
    TCCCCGCGGT CAGACAGGCG GTCAGTGGCT TCCAGCCAGC CTGCTAAACC TACTAAAGTC 
    ACACTGGTGA AATCCCGGAA AAATGAAGAA TATGGTCTTC GATTGGCAAG CCATATATTT 
    GTTAAGGAAA TTTCACAAGA TAGTTTGGCA GCAAGAGATG GCAATATTCA AGAAGGTGAT 
    GTTGTATTGA AGATAAATGG TACTGTGACA GAAAATATGT CATTGACAGA TGCAAAGACA 
    TTGATAGAAA GGTCTAAAGG CAAATTAAAA ATGGTAGTTC AAAGAGATGA ACGGGCTACG 
    CTATTGAATG TCCCTGATCT TTCTGACAGC ATCCACTCTG CTAATGCCTC TGAGAGAGAC 
    GACATTTCAG AAATTCAGTC ACTGGCATCA GATCATTCTG GTCGATCACA CGATAGGCCT 
    CCCCGCCGCA GCCGGTCACG ATCTCCTGAC CAGCGGTCAG AGCCTTCTGA TCATTCCAGG 
    CACTCGCCGC AGCAGCCAAG CAATGGCAGT CTCCGGAGTA GAGATGAAGA GAGAATTTCT 
    AAACCTGGGG CTGTCTCAAC TCCTGTAAAG CATGCTGATG ATCACACACC TAAAACAGTG 
    GAAGAAGTTA CAGTTGAAAG AAATGAGAAA CAAACACCTT CTCTTCCAGA ACCAAAGCCT 
    GTGTATGCCC AAGTTGGGCA ACCAGATGTG GATTTACCTG TCAGTCCATC TGATGGTGTC 
    CTACCTAATT CAACTCATGA AGATGGGATT CTTCGGCCCA GCATGAAATT GGTAAAATTC 
    AGAAAAGGAG ATAGTGTGGG TTTGCGGCTG GCTGGTGGAA ATGATGTTGG AATATTTGTA 
    GCTGGCGTTC TAGAAGATAG CCCTGCAGCC AAGGAAGGCT TAGAGGAAGG TGATCAAATT 
    CTCAGGGTAA ACAACGTAGA TTTTACAAAT ATCATAAGAG AAGAAGCCGT CCTTTTCCTG 
    CTTGACCTCC CTAAAGGAGA AGAAGTGACC ATATTGGCTC AGAAGAAGAA GGATGTTTAT 
    CGTCGCATTG TAGAATCAGA TGTAGGAGAT TCTTTCTATA TTAGAACCCA TTTTGAATAT 
    GAAAAGGAAT CTCCCTATGG ACTTAGTTTT AACAAAGGAG AGGTGTTCCG TGTTGTGGAT 
    ACCTTGTACA ATGGAAAACT GGGCTCTTGG CTTGCTATTC GAATTGGTAA AAATCATAAG 
    GAGGTAGAAC GAGGCATCAT CCCTAATAAG AACAGAGCTG AGCAGCTAGC CAGTGTACAG 
    TATACACTTC CAAAAACAGC AGGCGGAGAC CGTGCTGACT TCTGGAGATT CAGAGGTCTT 
    CGCAGCTCCA AGAGAAATCT TCGAAAAAGC AGAGAGGATT TGTCCGCTCA GCCTGTTCAA 
    ACAAAGTTTC CAGCTTATGA AAGAGTGGTT CTTCGAGAAG CTGGATTTCT GAGGCCTGTA 
    ACCATTTTTG GACCAATAGC TGATGTTGCC AGAGAAAAGC TGGCAAGAGA AGAACCAGAT 
    ATTTATCAAA TTGCAAAGAG TGAACCACGA GACGCTGGAA CTGACCAACG TAGCTCTGGC 
    ATTATTCGCC TGCATACAAT AAAGCAAATC ATAGATCAAG ACAAACATGC TTTATTAGAT 
    GTAACACCAA ATGCAGTTGA TCGTCTTAAC TATGCCCAGT GGTATCCAAT TGTTGTATTT 
    CTTAACCCTG ATTCTAAGCA AGGAGTAAAA ACAATGAGAA TGAGGTTATG TCCAGAATCT 
    CGGAAAAGTG CCAGGAAGTT ATACGAGCGA TCTCATAAAC TTCGTAAAAA TAATCACCAT 
    CTTTTTACAA CTACAATTAA CTTAAATTCA ATGAATGATG GTTGGTATGG TGCGCTGAAA 
    GAAGCAATTC AACAACAGCA AAACCAGCTG GTATGGGTTT CCGAGGGAAA GGCGGATGGT 
    GCTACAAGTG ATGACCTTGA TTTGCATGAT GATCGTCTGT CCTACCTGTC AGCTCCAGGT 
    AGTGAATACT CAATGTATAG CACGGACAGT AGACACACTT CTGACTATGA AGACACAGAC 
    ACAGAAGGCG GGGCCTACAC TGATCAAGAA CTAGATGAAA CTCTTAATGA TGAGGTTGGG 
    ACTCCACCGG AGTCTGCCAT TACACGGTCC TCTGAGCCTG TAAGAGAGGA CTCCTCTGGA 
    ATGCATCATG AAAACCAAAC ATATCCTCCT TACTCACCAC AAGCGCAGCC ACAACCAATT 
    CATAGAATAG ACTCCCCTGG ATTTAAGCCA GCCTCTCAAC AGAAAGCAGA AGCTTCATCT 
    CCAGTCCCTT ACCTTTCGCC TGAAACAAAC CCAGCATCAT CAACCTCTGC TGTTAATCAT 
    AATGTAAATT TAACTAATGT CAGACTGGAG GAGCCCACCC CAGCTCCTTC CACCTCTTAC 
    TCACCACAAG CTGATTCTTT AAGAACACCA AGTACTGAGG CAGCTCACAT AATGCTAAGA 
    GATCAAGAAC CATCATTGTC GTCGCATGTA GATCCAACAA AGGTGTATAG AAAGGATCCA 
    TATCCCGAGG AAATGATGAG GCAGAACCAT GTTTTGAAAC AGCCAGCCGT TAGTCACCCA 
    GGGCACAGGC CAGACAAAGA GCCTAATCTG ACCTATGAAC CCCAACTCCC ATACGTAGAG 
    AAACAAGCCA GCAGAGACCT CGAGCAGCCC ACATACAGAT ACGAGTCCTC AAGCTATACG 
    GACCAGTTTT CTCGAAACTA TGAACATCGT CTGCGATACG AAGATCGCGT CCCCATGTAT 
    GAAGAACAGT GGTCATATTA TGATGACAAA CAGCCCTACC CATCTCGGCC ACCTTTTGAT 
    AATCAGCACT CTCAAGACCT TGACTCCAGA CAGCATCCCG AAGAGTCCTC AGAACGAGGG 
    TACTTTCCAC GTTTTGAAGA GCCAGCCCCT CTGTCTTACG ACAGCAGACC ACGTTACGAA 
    CAGGCACCTA GAGCATCCGC CCTGCGGCAC GAAGAGCAGC CAGCTCCTGG GTATGACACA 
    CATGGTAGAC TCAGACCGGA AGCCCAGCCC CACCCTTCAG CAGGGCCCAA GCCTGCAGAG 
    TCCAAGCAGT ATTTTGAGCA ATATTCACGC AGTTACGAGC AAGTACCACC CCAAGGATTT 
    ACCTCTAGAG CAGGTCATTT TGAGCCTCTC CATGGTGCTG CAGCTGTCCC TCCGCTGATA 
    CCTTCATCTC AGCATAAGCC AGAAGCTCTG CCTTCAAACA CCAAACCACT GCCTCCACCC 
    CCAACTCAAA CCGAAGAAGA GGAAGATCCA GCAATGAAGC CACAGTCTGT ACTCACCAGA 
    GTTAAGATGT TTGAAAACAA AAGATCTGCA TCCTTAGAGA CCAAGAAGGA TGTAAATGAC 
    ACTGGCAGTT TTAAGCCTCC AGAAGTAGCA TCTAAACCTT CAGGTGCTCC CATCATTGGT 
    CCCAAACCCA CTTCTCAGAA TCAATTCAGT GAACATGACA AAACTCTGTA CAGGATCCCA 
    GAACCTCAAA AACCTCAACT GAAGCCACCT GAAGATATTG TTCGGTCCAA TCATTATGAC 
    CCTGAAGAAG ATGAAGAATA TTATCGAAAA CAGCTGTCAT ACTTTGACCG AAGAAGTTTT 
    GAGAATAAGC CTCCTGCACA CATTGCCGCC AGCCATCTCT CCGAGCCTGC AAAGCCAGCG 
    CATTCTCAGA ATCAATCAAA TTTTTCTAGT TATTCTTCAA AGGGAAAGCC TCCTGAAGCT 
    GATGGTGTGG ATAGATCATT TGGCGAGAAA CGCTATGAAC CCATCCAGGC CACTCCCCCT 
    CCTCCTCCAT TGCCCTCGCA GTATGCCCAG CCATCTCAGC CTGTCACCAG CGCGTCTCTC 
    CACATACATT CTAAGGGAGC ACATGGTGAA GGTAATTCAG TGTCATTGGA TTTTCAGAAT 
    TCCTTAGTGT CCAAACCAGA CCCACCTCCA TCTCAGAATA AGCCAGCAAC TTTCAGACCA 
    CCAAACCGAG AAGATACTGC TCAGGCAGCT TTCTATCCCC AGAAAAGTTT TCCAGATAAA 
    GCCCCAGTTA ATGGAACTGA ACAGACTCAG AAAACAGTCA CTCCAGCATA CAATCGATTC 
    ACACCAAAAC CATATACAAG TTCTGCCCGA CCATTTGAAC GCAAGTTTGA AAGTCCTAAA 
    TTCAATCACA ATCTTCTGCC AAGTGAAACT GCACATAAAC CTGACTTGTC TTCAAAAACT 
    CCCACTTCTC CAAAAACTCT TGTGAAATCG CACAGTTTGG CACAGCCTCC TGAGTTTGAC 
    AGTGGAGTTG AAACTTTCTC TATCCATGCA GAGAAGCCTA AATATCAAAT AAATAATATC 
    AGCACAGTGC CTAAAGCTAT TCCTGTGAGT CCTTCAGCTG TGGAAGAGGA TGAAGATGAA 
    GATGGTCATA CTGTGGTGGC CACAGCCCGA GGCATATTTA ACAGCAATGG GGGCGTGCTG 
    AGTTCCATAG AAACTGGTGT TAGTATAATT ATCCCTCAAG GAGCCATTCC CGAAGGAGTT 
    GAGCAGGAAA TCTATTTCAA GGTCTGCCGG GACAACAGCA TCCTTCCACC TTTAGATAAA 
    GAGAAAGGTG AAACACTGCT GAGTCCTTTG GTGATGTGTG GTCCCCATGG CCTCAAGTTC 
    CTGAAGCCTG TGGAGCTGCG CTTACCACAC TGTGATCCTA AAACCTGGCA AAACAAGTGT 
    CTTCCCGGAG ATCCAAATTA TCTCGTTGGA GCAAACTGTG TTTCTGTCCT TATTGACCAC 
    TTTTAA

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

    RefSeq XP_005254674.2
    CDS81..5606
    Translation

    Target ORF information:

    RefSeq Version XM_005254617.3
    Organism Homo sapiens(Human)
    Definition Homo sapiens 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_005254617.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    ATGCGGCGCC TGGAGGGGCT GTGTCTGCGG CGGCGGCGGA GGCGGCGGGG CCCTGCCCGC 
    GAGCGGAGCG GGGACAAGAT GAAGTACCAG AAATACCTGA CGGTGCTGCA GATGGCCATC 
    GGCGTCACCC CCTCCAACCG CGGCAGCCTC CTGCCGCTCA AGAGGAAGCT GTGGGTAACG 
    CCATCCTCTG AAAATCCTAA TGGTGCTACT TCTAGTGTCA GCCAAGGAAA ACCCTCTTTA 
    AGACGAATTA AAGGGAGATT ACACAGAAGC AAAAGCCTTG ATAGCATGGA TTTCTGTGAG 
    CTCACTAGCA CAGCAATGGA GGAAACAGCT ATATGGGAAC AACATACAGT GACGCTTCAC 
    AGGGCTCCTG GATTTGGATT TGGAATTGCA ATATCTGGTG GACGAGATAA TCCTCATTTT 
    CAGAGTGGGG AAACGTCAAT AGTGATTTCA GATGTGCTGA AAGGAGGACC AGCTGAAGGA 
    CAGCTACAGG AAAATGACCG AGTTGCAATG GTTAACGGAG TTTCAATGGA TAATGTTGAA 
    CATGCTTTTG CTGTTCAGCA ACTAAGGAAA AGTGGGAAAA ATGCAAAAAT TACAATTAGA 
    AGGAAGAAGA AAGTTCAAAT ACCAGTAAGT CGTCCTGATC CTGAACCAGT ATCTGATAAT 
    GAAGAAGATA GTTATGATGA GGAAATACAT GATCCAAGAA GTGGCCGGAG TGGTGTGGTT 
    AACAGAAGGA GTGAGAAGAT TTGGCCGAGG GATAGAAGTG CAAGTAGAGA GAGGAGCTTG 
    TCCCCGCGGT CAGACAGGCG GTCAGTGGCT TCCAGCCAGC CTGCTAAACC TACTAAAGTC 
    ACACTGGTGA AATCCCGGAA AAATGAAGAA TATGGTCTTC GATTGGCAAG CCATATATTT 
    GTTAAGGAAA TTTCACAAGA TAGTTTGGCA GCAAGAGATG GCAATATTCA AGAAGGTGAT 
    GTTGTATTGA AGATAAATGG TACTGTGACA GAAAATATGT CATTGACAGA TGCAAAGACA 
    TTGATAGAAA GGTCTAAAGG CAAATTAAAA ATGGTAGTTC AAAGAGATGA ACGGGCTACG 
    CTATTGAATG TCCCTGATCT TTCTGACAGC ATCCACTCTG CTAATGCCTC TGAGAGAGAC 
    GACATTTCAG AAATTCAGTC ACTGGCATCA GATCATTCTG GTCGATCACA CGATAGGCCT 
    CCCCGCCGCA GCCGGTCACG ATCTCCTGAC CAGCGGTCAG AGCCTTCTGA TCATTCCAGG 
    CACTCGCCGC AGCAGCCAAG CAATGGCAGT CTCCGGAGTA GAGATGAAGA GAGAATTTCT 
    AAACCTGGGG CTGTCTCAAC TCCTGTAAAG CATGCTGATG ATCACACACC TAAAACAGTG 
    GAAGAAGTTA CAGTTGAAAG AAATGAGAAA CAAACACCTT CTCTTCCAGA ACCAAAGCCT 
    GTGTATGCCC AAGTTGGGCA ACCAGATGTG GATTTACCTG TCAGTCCATC TGATGGTGTC 
    CTACCTAATT CAACTCATGA AGATGGGATT CTTCGGCCCA GCATGAAATT GGTAAAATTC 
    AGAAAAGGAG ATAGTGTGGG TTTGCGGCTG GCTGGTGGAA ATGATGTTGG AATATTTGTA 
    GCTGGCGTTC TAGAAGATAG CCCTGCAGCC AAGGAAGGCT TAGAGGAAGG TGATCAAATT 
    CTCAGGGTAA ACAACGTAGA TTTTACAAAT ATCATAAGAG AAGAAGCCGT CCTTTTCCTG 
    CTTGACCTCC CTAAAGGAGA AGAAGTGACC ATATTGGCTC AGAAGAAGAA GGATGTTTAT 
    CGTCGCATTG TAGAATCAGA TGTAGGAGAT TCTTTCTATA TTAGAACCCA TTTTGAATAT 
    GAAAAGGAAT CTCCCTATGG ACTTAGTTTT AACAAAGGAG AGGTGTTCCG TGTTGTGGAT 
    ACCTTGTACA ATGGAAAACT GGGCTCTTGG CTTGCTATTC GAATTGGTAA AAATCATAAG 
    GAGGTAGAAC GAGGCATCAT CCCTAATAAG AACAGAGCTG AGCAGCTAGC CAGTGTACAG 
    TATACACTTC CAAAAACAGC AGGCGGAGAC CGTGCTGACT TCTGGAGATT CAGAGGTCTT 
    CGCAGCTCCA AGAGAAATCT TCGAAAAAGC AGAGAGGATT TGTCCGCTCA GCCTGTTCAA 
    ACAAAGTTTC CAGCTTATGA AAGAGTGGTT CTTCGAGAAG CTGGATTTCT GAGGCCTGTA 
    ACCATTTTTG GACCAATAGC TGATGTTGCC AGAGAAAAGC TGGCAAGAGA AGAACCAGAT 
    ATTTATCAAA TTGCAAAGAG TGAACCACGA GACGCTGGAA CTGACCAACG TAGCTCTGGC 
    ATTATTCGCC TGCATACAAT AAAGCAAATC ATAGATCAAG ACAAACATGC TTTATTAGAT 
    GTAACACCAA ATGCAGTTGA TCGTCTTAAC TATGCCCAGT GGTATCCAAT TGTTGTATTT 
    CTTAACCCTG ATTCTAAGCA AGGAGTAAAA ACAATGAGAA TGAGGTTATG TCCAGAATCT 
    CGGAAAAGTG CCAGGAAGTT ATACGAGCGA TCTCATAAAC TTCGTAAAAA TAATCACCAT 
    CTTTTTACAA CTACAATTAA CTTAAATTCA ATGAATGATG GTTGGTATGG TGCGCTGAAA 
    GAAGCAATTC AACAACAGCA AAACCAGCTG GTATGGGTTT CCGAGGGAAA GGCGGATGGT 
    GCTACAAGTG ATGACCTTGA TTTGCATGAT GATCGTCTGT CCTACCTGTC AGCTCCAGGT 
    AGTGAATACT CAATGTATAG CACGGACAGT AGACACACTT CTGACTATGA AGACACAGAC 
    ACAGAAGGCG GGGCCTACAC TGATCAAGAA CTAGATGAAA CTCTTAATGA TGAGGTTGGG 
    ACTCCACCGG AGTCTGCCAT TACACGGTCC TCTGAGCCTG TAAGAGAGGA CTCCTCTGGA 
    ATGCATCATG AAAACCAAAC ATATCCTCCT TACTCACCAC AAGCGCAGCC ACAACCAATT 
    CATAGAATAG ACTCCCCTGG ATTTAAGCCA GCCTCTCAAC AGAAAGCAGA AGCTTCATCT 
    CCAGTCCCTT ACCTTTCGCC TGAAACAAAC CCAGCATCAT CAACCTCTGC TGTTAATCAT 
    AATGTAAATT TAACTAATGT CAGACTGGAG GAGCCCACCC CAGCTCCTTC CACCTCTTAC 
    TCACCACAAG CTGATTCTTT AAGAACACCA AGTACTGAGG CAGCTCACAT AATGCTAAGA 
    GATCAAGAAC CATCATTGTC GTCGCATGTA GATCCAACAA AGGTGTATAG AAAGGATCCA 
    TATCCCGAGG AAATGATGAG GCAGAACCAT GTTTTGAAAC AGCCAGCCGT TAGTCACCCA 
    GGGCACAGGC CAGACAAAGA GCCTAATCTG ACCTATGAAC CCCAACTCCC ATACGTAGAG 
    AAACAAGCCA GCAGAGACCT CGAGCAGCCC ACATACAGAT ACGAGTCCTC AAGCTATACG 
    GACCAGTTTT CTCGAAACTA TGAACATCGT CTGCGATACG AAGATCGCGT CCCCATGTAT 
    GAAGAACAGT GGTCATATTA TGATGACAAA CAGCCCTACC CATCTCGGCC ACCTTTTGAT 
    AATCAGCACT CTCAAGACCT TGACTCCAGA CAGCATCCCG AAGAGTCCTC AGAACGAGGG 
    TACTTTCCAC GTTTTGAAGA GCCAGCCCCT CTGTCTTACG ACAGCAGACC ACGTTACGAA 
    CAGGCACCTA GAGCATCCGC CCTGCGGCAC GAAGAGCAGC CAGCTCCTGG GTATGACACA 
    CATGGTAGAC TCAGACCGGA AGCCCAGCCC CACCCTTCAG CAGGGCCCAA GCCTGCAGAG 
    TCCAAGCAGT ATTTTGAGCA ATATTCACGC AGTTACGAGC AAGTACCACC CCAAGGATTT 
    ACCTCTAGAG CAGGTCATTT TGAGCCTCTC CATGGTGCTG CAGCTGTCCC TCCGCTGATA 
    CCTTCATCTC AGCATAAGCC AGAAGCTCTG CCTTCAAACA CCAAACCACT GCCTCCACCC 
    CCAACTCAAA CCGAAGAAGA GGAAGATCCA GCAATGAAGC CACAGTCTGT ACTCACCAGA 
    GTTAAGATGT TTGAAAACAA AAGATCTGCA TCCTTAGAGA CCAAGAAGGA TGTAAATGAC 
    ACTGGCAGTT TTAAGCCTCC AGAAGTAGCA TCTAAACCTT CAGGTGCTCC CATCATTGGT 
    CCCAAACCCA CTTCTCAGAA TCAATTCAGT GAACATGACA AAACTCTGTA CAGGATCCCA 
    GAACCTCAAA AACCTCAACT GAAGCCACCT GAAGATATTG TTCGGTCCAA TCATTATGAC 
    CCTGAAGAAG ATGAAGAATA TTATCGAAAA CAGCTGTCAT ACTTTGACCG AAGAAGTTTT 
    GAGAATAAGC CTCCTGCACA CATTGCCGCC AGCCATCTCT CCGAGCCTGC AAAGCCAGCG 
    CATTCTCAGA ATCAATCAAA TTTTTCTAGT TATTCTTCAA AGGGAAAGCC TCCTGAAGCT 
    GATGGTGTGG ATAGATCATT TGGCGAGAAA CGCTATGAAC CCATCCAGGC CACTCCCCCT 
    CCTCCTCCAT TGCCCTCGCA GTATGCCCAG CCATCTCAGC CTGTCACCAG CGCGTCTCTC 
    CACATACATT CTAAGGGAGC ACATGGTGAA GGTAATTCAG TGTCATTGGA TTTTCAGAAT 
    TCCTTAGTGT CCAAACCAGA CCCACCTCCA TCTCAGAATA AGCCAGCAAC TTTCAGACCA 
    CCAAACCGAG AAGATACTGC TCAGGCAGCT TTCTATCCCC AGAAAAGTTT TCCAGATAAA 
    GCCCCAGTTA ATGGAACTGA ACAGACTCAG AAAACAGTCA CTCCAGCATA CAATCGATTC 
    ACACCAAAAC CATATACAAG TTCTGCCCGA CCATTTGAAC GCAAGTTTGA AAGTCCTAAA 
    TTCAATCACA ATCTTCTGCC AAGTGAAACT GCACATAAAC CTGACTTGTC TTCAAAAACT 
    CCCACTTCTC CAAAAACTCT TGTGAAATCG CACAGTTTGG CACAGCCTCC TGAGTTTGAC 
    AGTGGAGTTG AAACTTTCTC TATCCATGCA GAGAAGCCTA AATATCAAAT AAATAATATC 
    AGCACAGTGC CTAAAGCTAT TCCTGTGAGT CCTTCAGCTG TGGAAGAGGA TGAAGATGAA 
    GATGGTCATA CTGTGGTGGC CACAGCCCGA GGCATATTTA ACAGCAATGG GGGCGTGCTG 
    AGTTCCATAG AAACTGGTGT TAGTATAATT ATCCCTCAAG GAGCCATTCC CGAAGGAGTT 
    GAGCAGGAAA TCTATTTCAA GGTCTGCCGG GACAACAGCA TCCTTCCACC TTTAGATAAA 
    GAGAAAGGTG AAACACTGCT GAGTCCTTTG GTGATGTGTG GTCCCCATGG CCTCAAGTTC 
    CTGAAGCCTG TGGAGCTGCG CTTACCACAC TGTGATCCTA AAACCTGGCA AAACAAGTGT 
    CTTCCCGGAG ATCCAAATTA TCTCGTTGGA GCAAACTGTG TTTCTGTCCT TATTGACCAC 
    TTTTAA

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

    TJP1 ( XM_017022524.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016878013.1 Homo sapiens tight junction protein 1 (TJP1), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OHu85631
    Clone ID Related Accession (Same CDS sequence) XM_017022524.1
    Accession Version XM_017022524.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5397bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    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_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGCGGCGCC TGGAGGGGCT GTGTCTGCGG CGGCGGCGGA GGCGGCGGGG CCCTGCCCGC 
    GAGCGGAGCG GGGACAAGAT GAAGTACCAG AAATACCTGA CGGTGCTGCA GATGGCCATC 
    GGCGTCACCC CCTCCAACCG CGGCAGCCTC CTGCCGCTCA AGAGGAAGCT GTGGGTAACG 
    CCATCCTCTG AAAATCCTAA TGGTGCTACT TCTAGTGTCA GCCAAGGAAA ACCCTCTTTA 
    AGACGAATTA AAGGGAGATT ACACAGAAGC AAAAGCCTTG ATAGCATGGA TTTCTGTGAG 
    CTCACTAGCA CAGCAATGGA GGAAACAGCT ATATGGGAAC AACATACAGT GACGCTTCAC 
    AGGGCTCCTG GATTTGGATT TGGAATTGCA ATATCTGGTG GACGAGATAA TCCTCATTTT 
    CAGAGTGGGG AAACGTCAAT AGTGATTTCA GATGTGCTGA AAGGAGGACC AGCTGAAGGA 
    CAGCTACAGG AAAATGACCG AGTTGCAATG GTTAACGGAG TTTCAATGGA TAATGTTGAA 
    CATGCTTTTG CTGTTCAGCA ACTAAGGAAA AGTGGGAAAA ATGCAAAAAT TACAATTAGA 
    AGGAAGAAGA AAGTTCAAAT ACCAGTAAGT CGTCCTGATC CTGAACCAGT ATCTGATAAT 
    GAAGAAGATA GTTATGATGA GGAAATACAT GATCCAAGAA GTGGCCGGAG TGGTGTGGTT 
    AACAGAAGGA GTGAGAAGAT TTGGCCGAGG GATAGAAGTG CAAGTAGAGA GAGGAGCTTG 
    TCCCCGCGGT CAGACAGGCG GTCAGTGGCT TCCAGCCAGC CTGCTAAACC TACTAAAGTC 
    ACACTGGTGA AATCCCGGAA AAATGAAGAA TATGGTCTTC GATTGGCAAG CCATATATTT 
    GTTAAGGAAA TTTCACAAGA TAGTTTGGCA GCAAGAGATG GCAATATTCA AGAAGGTGAT 
    GTTGTATTGA AGATAAATGG TACTGTGACA GAAAATATGT CATTGACAGA TGCAAAGACA 
    TTGATAGAAA GGTCTAAAGG CAAATTAAAA ATGGTAGTTC AAAGAGATGA ACGGGCTACG 
    CTATTGAATG TCCCTGATCT TTCTGACAGC ATCCACTCTG CTAATGCCTC TGAGAGAGAC 
    GACATTTCAG AAATTCAGTC ACTGGCATCA GATCATTCTG GTCGATCACA CGATAGGCCT 
    CCCCGCCGCA GCCGGTCACG ATCTCCTGAC CAGCGGTCAG AGCCTTCTGA TCATTCCAGG 
    CACTCGCCGC AGCAGCCAAG CAATGGCAGT CTCCGGAGTA GAGATGAAGA GAGAATTTCT 
    AAACCTGGGG CTGTCTCAAC TCCTGTAAAG CATGCTGATG ATCACACACC TAAAACAGTG 
    GAAGAAGTTA CAGTTGAAAG AAATGAGAAA CAAACACCTT CTCTTCCAGA ACCAAAGCCT 
    GTGTATGCCC AAGTTGGGCA ACCAGATGTG GATTTACCTG TCAGTCCATC TGATGGTGTC 
    CTACCTAATT CAACTCATGA AGATGGGATT CTTCGGCCCA GCATGAAATT GGTAAAATTC 
    AGAAAAGGAG ATAGTGTGGG TTTGCGGCTG GCTGGTGGAA ATGATGTTGG AATATTTGTA 
    GCTGGCGTTC TAGAAGATAG CCCTGCAGCC AAGGAAGGCT TAGAGGAAGG TGATCAAATT 
    CTCAGGGTAA ACAACGTAGA TTTTACAAAT ATCATAAGAG AAGAAGCCGT CCTTTTCCTG 
    CTTGACCTCC CTAAAGGAGA AGAAGTGACC ATATTGGCTC AGAAGAAGAA GGATGTTTAT 
    CGTCGCATTG TAGAATCAGA TGTAGGAGAT TCTTTCTATA TTAGAACCCA TTTTGAATAT 
    GAAAAGGAAT CTCCCTATGG ACTTAGTTTT AACAAAGGAG AGGTGTTCCG TGTTGTGGAT 
    ACCTTGTACA ATGGAAAACT GGGCTCTTGG CTTGCTATTC GAATTGGTAA AAATCATAAG 
    GAGGTAGAAC GAGGCATCAT CCCTAATAAG AACAGAGCTG AGCAGCTAGC CAGTGTACAG 
    TATACACTTC CAAAAACAGC AGGCGGAGAC CGTGCTGACT TCTGGAGATT CAGAGGTCTT 
    CGCAGCTCCA AGAGAAATCT TCGAAAAAGC AGAGAGGATT TGTCCGCTCA GCCTGTTCAA 
    ACAAAGTTTC CAGCTTATGA AAGAGTGGTT CTTCGAGAAG CTGGATTTCT GAGGCCTGTA 
    ACCATTTTTG GACCAATAGC TGATGTTGCC AGAGAAAAGC TGGCAAGAGA AGAACCAGAT 
    ATTTATCAAA TTGCAAAGAG TGAACCACGA GACGCTGGAA CTGACCAACG TAGCTCTGGC 
    ATTATTCGCC TGCATACAAT AAAGCAAATC ATAGATCAAG ACAAACATGC TTTATTAGAT 
    GTAACACCAA ATGCAGTTGA TCGTCTTAAC TATGCCCAGT GGTATCCAAT TGTTGTATTT 
    CTTAACCCTG ATTCTAAGCA AGGAGTAAAA ACAATGAGAA TGAGGTTATG TCCAGAATCT 
    CGGAAAAGTG CCAGGAAGTT ATACGAGCGA TCTCATAAAC TTCGTAAAAA TAATCACCAT 
    CTTTTTACAA CTACAATTAA CTTAAATTCA ATGAATGATG GTTGGTATGG TGCGCTGAAA 
    GAAGCAATTC AACAACAGCA AAACCAGCTG GTATGGGTTT CCGAGGGAAA GGCGGATGGT 
    GCTACAAGTG ATGACCTTGA TTTGCATGAT GATCGTCTGT CCTACCTGTC AGCTCCAGGT 
    AGTGAATACT CAATGTATAG CACGGACAGT AGACACACTT CTGACTATGA AGACACAGAC 
    ACAGAAGGCG GGGCCTACAC TGATCAAGAA CTAGATGAAA CTCTTAATGA TGAGGTTGGG 
    ACTCCACCGG AGTCTGCCAT TACACGGTCC TCTGAGCCTG TAAGAGAGGA CTCCTCTGGA 
    ATGCATCATG AAAACCAAAC ATATCCTCCT TACTCACCAC AAGCGCAGCC ACAACCAATT 
    CATAGAATAG ACTCCCCTGG ATTTAAGCCA GCCTCTCAAC AGGTGTATAG AAAGGATCCA 
    TATCCCGAGG AAATGATGAG GCAGAACCAT GTTTTGAAAC AGCCAGCCGT TAGTCACCCA 
    GGGCACAGGC CAGACAAAGA GCCTAATCTG ACCTATGAAC CCCAACTCCC ATACGTAGAG 
    AAACAAGCCA GCAGAGACCT CGAGCAGCCC ACATACAGAT ACGAGTCCTC AAGCTATACG 
    GACCAGTTTT CTCGAAACTA TGAACATCGT CTGCGATACG AAGATCGCGT CCCCATGTAT 
    GAAGAACAGT GGTCATATTA TGATGACAAA CAGCCCTACC CATCTCGGCC ACCTTTTGAT 
    AATCAGCACT CTCAAGACCT TGACTCCAGA CAGCATCCCG AAGAGTCCTC AGAACGAGGG 
    TACTTTCCAC GTTTTGAAGA GCCAGCCCCT CTGTCTTACG ACAGCAGACC ACGTTACGAA 
    CAGGCACCTA GAGCATCCGC CCTGCGGCAC GAAGAGCAGC CAGCTCCTGG GTATGACACA 
    CATGGTAGAC TCAGACCGGA AGCCCAGCCC CACCCTTCAG CAGGGCCCAA GCCTGCAGAG 
    TCCAAGCAGT ATTTTGAGCA ATATTCACGC AGTTACGAGC AAGTACCACC CCAAGGATTT 
    ACCTCTAGAG CAGGTCATTT TGAGCCTCTC CATGGTGCTG CAGCTGTCCC TCCGCTGATA 
    CCTTCATCTC AGCATAAGCC AGAAGCTCTG CCTTCAAACA CCAAACCACT GCCTCCACCC 
    CCAACTCAAA CCGAAGAAGA GGAAGATCCA GCAATGAAGC CACAGTCTGT ACTCACCAGA 
    GTTAAGATGT TTGAAAACAA AAGATCTGCA TCCTTAGAGA CCAAGAAGGA TGTAAATGAC 
    ACTGGCAGTT TTAAGCCTCC AGAAGTAGCA TCTAAACCTT CAGGTGCTCC CATCATTGGT 
    CCCAAACCCA CTTCTCAGAA TCAATTCAGT GAACATGACA AAACTCTGTA CAGGATCCCA 
    GAACCTCAAA AACCTCAACT GAAGCCACCT GAAGATATTG TTCGGTCCAA TCATTATGAC 
    CCTGAAGAAG ATGAAGAATA TTATCGAAAA CAGCTGTCAT ACTTTGACCG AAGAAGTTTT 
    GAGAATAAGC CTCCTGCACA CATTGCCGCC AGCCATCTCT CCGAGCCTGC AAAGCCAGCG 
    CATTCTCAGA ATCAATCAAA TTTTTCTAGT TATTCTTCAA AATTTCTTGG CTCTTACACT 
    AGCTATGACT ACTTGAAAAG GAACGTCAAG TGGGGAAAGC CTCCTGAAGC TGATGGTGTG 
    GATAGATCAT TTGGCGAGAA ACGCTATGAA CCCATCCAGG CCACTCCCCC TCCTCCTCCA 
    TTGCCCTCGC AGTATGCCCA GCCATCTCAG CCTGTCACCA GCGCGTCTCT CCACATACAT 
    TCTAAGGGAG CACATGGTGA AGGTAATTCA GTGTCATTGG ATTTTCAGAA TTCCTTAGTG 
    TCCAAACCAG ACCCACCTCC ATCTCAGAAT AAGCCAGCAA CTTTCAGACC ACCAAACCGA 
    GAAGATACTG CTCAGGCAGC TTTCTATCCC CAGAAAAGTT TTCCAGATAA AGCCCCAGTT 
    AATGGAACTG AACAGACTCA GAAAACAGTC ACTCCAGCAT ACAATCGATT CACACCAAAA 
    CCATATACAA GTTCTGCCCG ACCATTTGAA CGCAAGTTTG AAAGTCCTAA ATTCAATCAC 
    AATCTTCTGC CAAGTGAAAC TGCACATAAA CCTGACTTGT CTTCAAAAAC TCCCACTTCT 
    CCAAAAACTC TTGTGAAATC GCACAGTTTG GCACAGCCTC CTGAGTTTGA CAGTGGAGTT 
    GAAACTTTCT CTATCCATGC AGAGAAGCCT AAATATCAAA TAAATAATAT CAGCACAGTG 
    CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT GTGGAAGAGG ATGAAGATGA AGATGGTCAT 
    ACTGTGGTGG CCACAGCCCG AGGCATATTT AACAGCAATG GGGGCGTGCT GAGTTCCATA 
    GAAACTGGTG TTAGTATAAT TATCCCTCAA GGAGCCATTC CCGAAGGAGT TGAGCAGGAA 
    ATCTATTTCA AGGTCTGCCG GGACAACAGC ATCCTTCCAC CTTTAGATAA AGAGAAAGGT 
    GAAACACTGC TGAGTCCTTT GGTGATGTGT GGTCCCCATG GCCTCAAGTT CCTGAAGCCT 
    GTGGAGCTGC GCTTACCACA CTGTGCGTCC ATGACTCCTG ACGGTTGGTC TTTTGCTCTA 
    AAATCATCCG ACTCCTCGTC GGGTGATCCT AAAACCTGGC AAAACAAGTG TCTTCCCGGA 
    GATCCAAATT ATCTCGTTGG AGCAAACTGT GTTTCTGTCC TTATTGACCA CTTTTAA

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

    RefSeq XP_016878013.1
    CDS81..5477
    Translation

    Target ORF information:

    RefSeq Version XM_017022524.1
    Organism Homo sapiens(human)
    Definition Homo sapiens 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_017022524.1

    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
    ATGCGGCGCC TGGAGGGGCT GTGTCTGCGG CGGCGGCGGA GGCGGCGGGG CCCTGCCCGC 
    GAGCGGAGCG GGGACAAGAT GAAGTACCAG AAATACCTGA CGGTGCTGCA GATGGCCATC 
    GGCGTCACCC CCTCCAACCG CGGCAGCCTC CTGCCGCTCA AGAGGAAGCT GTGGGTAACG 
    CCATCCTCTG AAAATCCTAA TGGTGCTACT TCTAGTGTCA GCCAAGGAAA ACCCTCTTTA 
    AGACGAATTA AAGGGAGATT ACACAGAAGC AAAAGCCTTG ATAGCATGGA TTTCTGTGAG 
    CTCACTAGCA CAGCAATGGA GGAAACAGCT ATATGGGAAC AACATACAGT GACGCTTCAC 
    AGGGCTCCTG GATTTGGATT TGGAATTGCA ATATCTGGTG GACGAGATAA TCCTCATTTT 
    CAGAGTGGGG AAACGTCAAT AGTGATTTCA GATGTGCTGA AAGGAGGACC AGCTGAAGGA 
    CAGCTACAGG AAAATGACCG AGTTGCAATG GTTAACGGAG TTTCAATGGA TAATGTTGAA 
    CATGCTTTTG CTGTTCAGCA ACTAAGGAAA AGTGGGAAAA ATGCAAAAAT TACAATTAGA 
    AGGAAGAAGA AAGTTCAAAT ACCAGTAAGT CGTCCTGATC CTGAACCAGT ATCTGATAAT 
    GAAGAAGATA GTTATGATGA GGAAATACAT GATCCAAGAA GTGGCCGGAG TGGTGTGGTT 
    AACAGAAGGA GTGAGAAGAT TTGGCCGAGG GATAGAAGTG CAAGTAGAGA GAGGAGCTTG 
    TCCCCGCGGT CAGACAGGCG GTCAGTGGCT TCCAGCCAGC CTGCTAAACC TACTAAAGTC 
    ACACTGGTGA AATCCCGGAA AAATGAAGAA TATGGTCTTC GATTGGCAAG CCATATATTT 
    GTTAAGGAAA TTTCACAAGA TAGTTTGGCA GCAAGAGATG GCAATATTCA AGAAGGTGAT 
    GTTGTATTGA AGATAAATGG TACTGTGACA GAAAATATGT CATTGACAGA TGCAAAGACA 
    TTGATAGAAA GGTCTAAAGG CAAATTAAAA ATGGTAGTTC AAAGAGATGA ACGGGCTACG 
    CTATTGAATG TCCCTGATCT TTCTGACAGC ATCCACTCTG CTAATGCCTC TGAGAGAGAC 
    GACATTTCAG AAATTCAGTC ACTGGCATCA GATCATTCTG GTCGATCACA CGATAGGCCT 
    CCCCGCCGCA GCCGGTCACG ATCTCCTGAC CAGCGGTCAG AGCCTTCTGA TCATTCCAGG 
    CACTCGCCGC AGCAGCCAAG CAATGGCAGT CTCCGGAGTA GAGATGAAGA GAGAATTTCT 
    AAACCTGGGG CTGTCTCAAC TCCTGTAAAG CATGCTGATG ATCACACACC TAAAACAGTG 
    GAAGAAGTTA CAGTTGAAAG AAATGAGAAA CAAACACCTT CTCTTCCAGA ACCAAAGCCT 
    GTGTATGCCC AAGTTGGGCA ACCAGATGTG GATTTACCTG TCAGTCCATC TGATGGTGTC 
    CTACCTAATT CAACTCATGA AGATGGGATT CTTCGGCCCA GCATGAAATT GGTAAAATTC 
    AGAAAAGGAG ATAGTGTGGG TTTGCGGCTG GCTGGTGGAA ATGATGTTGG AATATTTGTA 
    GCTGGCGTTC TAGAAGATAG CCCTGCAGCC AAGGAAGGCT TAGAGGAAGG TGATCAAATT 
    CTCAGGGTAA ACAACGTAGA TTTTACAAAT ATCATAAGAG AAGAAGCCGT CCTTTTCCTG 
    CTTGACCTCC CTAAAGGAGA AGAAGTGACC ATATTGGCTC AGAAGAAGAA GGATGTTTAT 
    CGTCGCATTG TAGAATCAGA TGTAGGAGAT TCTTTCTATA TTAGAACCCA TTTTGAATAT 
    GAAAAGGAAT CTCCCTATGG ACTTAGTTTT AACAAAGGAG AGGTGTTCCG TGTTGTGGAT 
    ACCTTGTACA ATGGAAAACT GGGCTCTTGG CTTGCTATTC GAATTGGTAA AAATCATAAG 
    GAGGTAGAAC GAGGCATCAT CCCTAATAAG AACAGAGCTG AGCAGCTAGC CAGTGTACAG 
    TATACACTTC CAAAAACAGC AGGCGGAGAC CGTGCTGACT TCTGGAGATT CAGAGGTCTT 
    CGCAGCTCCA AGAGAAATCT TCGAAAAAGC AGAGAGGATT TGTCCGCTCA GCCTGTTCAA 
    ACAAAGTTTC CAGCTTATGA AAGAGTGGTT CTTCGAGAAG CTGGATTTCT GAGGCCTGTA 
    ACCATTTTTG GACCAATAGC TGATGTTGCC AGAGAAAAGC TGGCAAGAGA AGAACCAGAT 
    ATTTATCAAA TTGCAAAGAG TGAACCACGA GACGCTGGAA CTGACCAACG TAGCTCTGGC 
    ATTATTCGCC TGCATACAAT AAAGCAAATC ATAGATCAAG ACAAACATGC TTTATTAGAT 
    GTAACACCAA ATGCAGTTGA TCGTCTTAAC TATGCCCAGT GGTATCCAAT TGTTGTATTT 
    CTTAACCCTG ATTCTAAGCA AGGAGTAAAA ACAATGAGAA TGAGGTTATG TCCAGAATCT 
    CGGAAAAGTG CCAGGAAGTT ATACGAGCGA TCTCATAAAC TTCGTAAAAA TAATCACCAT 
    CTTTTTACAA CTACAATTAA CTTAAATTCA ATGAATGATG GTTGGTATGG TGCGCTGAAA 
    GAAGCAATTC AACAACAGCA AAACCAGCTG GTATGGGTTT CCGAGGGAAA GGCGGATGGT 
    GCTACAAGTG ATGACCTTGA TTTGCATGAT GATCGTCTGT CCTACCTGTC AGCTCCAGGT 
    AGTGAATACT CAATGTATAG CACGGACAGT AGACACACTT CTGACTATGA AGACACAGAC 
    ACAGAAGGCG GGGCCTACAC TGATCAAGAA CTAGATGAAA CTCTTAATGA TGAGGTTGGG 
    ACTCCACCGG AGTCTGCCAT TACACGGTCC TCTGAGCCTG TAAGAGAGGA CTCCTCTGGA 
    ATGCATCATG AAAACCAAAC ATATCCTCCT TACTCACCAC AAGCGCAGCC ACAACCAATT 
    CATAGAATAG ACTCCCCTGG ATTTAAGCCA GCCTCTCAAC AGGTGTATAG AAAGGATCCA 
    TATCCCGAGG AAATGATGAG GCAGAACCAT GTTTTGAAAC AGCCAGCCGT TAGTCACCCA 
    GGGCACAGGC CAGACAAAGA GCCTAATCTG ACCTATGAAC CCCAACTCCC ATACGTAGAG 
    AAACAAGCCA GCAGAGACCT CGAGCAGCCC ACATACAGAT ACGAGTCCTC AAGCTATACG 
    GACCAGTTTT CTCGAAACTA TGAACATCGT CTGCGATACG AAGATCGCGT CCCCATGTAT 
    GAAGAACAGT GGTCATATTA TGATGACAAA CAGCCCTACC CATCTCGGCC ACCTTTTGAT 
    AATCAGCACT CTCAAGACCT TGACTCCAGA CAGCATCCCG AAGAGTCCTC AGAACGAGGG 
    TACTTTCCAC GTTTTGAAGA GCCAGCCCCT CTGTCTTACG ACAGCAGACC ACGTTACGAA 
    CAGGCACCTA GAGCATCCGC CCTGCGGCAC GAAGAGCAGC CAGCTCCTGG GTATGACACA 
    CATGGTAGAC TCAGACCGGA AGCCCAGCCC CACCCTTCAG CAGGGCCCAA GCCTGCAGAG 
    TCCAAGCAGT ATTTTGAGCA ATATTCACGC AGTTACGAGC AAGTACCACC CCAAGGATTT 
    ACCTCTAGAG CAGGTCATTT TGAGCCTCTC CATGGTGCTG CAGCTGTCCC TCCGCTGATA 
    CCTTCATCTC AGCATAAGCC AGAAGCTCTG CCTTCAAACA CCAAACCACT GCCTCCACCC 
    CCAACTCAAA CCGAAGAAGA GGAAGATCCA GCAATGAAGC CACAGTCTGT ACTCACCAGA 
    GTTAAGATGT TTGAAAACAA AAGATCTGCA TCCTTAGAGA CCAAGAAGGA TGTAAATGAC 
    ACTGGCAGTT TTAAGCCTCC AGAAGTAGCA TCTAAACCTT CAGGTGCTCC CATCATTGGT 
    CCCAAACCCA CTTCTCAGAA TCAATTCAGT GAACATGACA AAACTCTGTA CAGGATCCCA 
    GAACCTCAAA AACCTCAACT GAAGCCACCT GAAGATATTG TTCGGTCCAA TCATTATGAC 
    CCTGAAGAAG ATGAAGAATA TTATCGAAAA CAGCTGTCAT ACTTTGACCG AAGAAGTTTT 
    GAGAATAAGC CTCCTGCACA CATTGCCGCC AGCCATCTCT CCGAGCCTGC AAAGCCAGCG 
    CATTCTCAGA ATCAATCAAA TTTTTCTAGT TATTCTTCAA AATTTCTTGG CTCTTACACT 
    AGCTATGACT ACTTGAAAAG GAACGTCAAG TGGGGAAAGC CTCCTGAAGC TGATGGTGTG 
    GATAGATCAT TTGGCGAGAA ACGCTATGAA CCCATCCAGG CCACTCCCCC TCCTCCTCCA 
    TTGCCCTCGC AGTATGCCCA GCCATCTCAG CCTGTCACCA GCGCGTCTCT CCACATACAT 
    TCTAAGGGAG CACATGGTGA AGGTAATTCA GTGTCATTGG ATTTTCAGAA TTCCTTAGTG 
    TCCAAACCAG ACCCACCTCC ATCTCAGAAT AAGCCAGCAA CTTTCAGACC ACCAAACCGA 
    GAAGATACTG CTCAGGCAGC TTTCTATCCC CAGAAAAGTT TTCCAGATAA AGCCCCAGTT 
    AATGGAACTG AACAGACTCA GAAAACAGTC ACTCCAGCAT ACAATCGATT CACACCAAAA 
    CCATATACAA GTTCTGCCCG ACCATTTGAA CGCAAGTTTG AAAGTCCTAA ATTCAATCAC 
    AATCTTCTGC CAAGTGAAAC TGCACATAAA CCTGACTTGT CTTCAAAAAC TCCCACTTCT 
    CCAAAAACTC TTGTGAAATC GCACAGTTTG GCACAGCCTC CTGAGTTTGA CAGTGGAGTT 
    GAAACTTTCT CTATCCATGC AGAGAAGCCT AAATATCAAA TAAATAATAT CAGCACAGTG 
    CCTAAAGCTA TTCCTGTGAG TCCTTCAGCT GTGGAAGAGG ATGAAGATGA AGATGGTCAT 
    ACTGTGGTGG CCACAGCCCG AGGCATATTT AACAGCAATG GGGGCGTGCT GAGTTCCATA 
    GAAACTGGTG TTAGTATAAT TATCCCTCAA GGAGCCATTC CCGAAGGAGT TGAGCAGGAA 
    ATCTATTTCA AGGTCTGCCG GGACAACAGC ATCCTTCCAC CTTTAGATAA AGAGAAAGGT 
    GAAACACTGC TGAGTCCTTT GGTGATGTGT GGTCCCCATG GCCTCAAGTT CCTGAAGCCT 
    GTGGAGCTGC GCTTACCACA CTGTGCGTCC ATGACTCCTG ACGGTTGGTC TTTTGCTCTA 
    AAATCATCCG ACTCCTCGTC GGGTGATCCT AAAACCTGGC AAAACAAGTG TCTTCCCGGA 
    GATCCAAATT ATCTCGTTGG AGCAAACTGT GTTTCTGTCC TTATTGACCA CTTTTAA

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

    TJP1 ( XM_005254619.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_005254676.2 Homo sapiens tight junction protein 1 (TJP1), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OHu85635
    Clone ID Related Accession (Same CDS sequence) XM_005254619.3
    Accession Version XM_005254619.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5346bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    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_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_005254619.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGCGGCGCC TGGAGGGGCT GTGTCTGCGG CGGCGGCGGA GGCGGCGGGG CCCTGCCCGC 
    GAGCGGAGCG GGGACAAGAT GAAGTACCAG AAATACCTGA CGGTGCTGCA GATGGCCATC 
    GGCGTCACCC CCTCCAACCG CGGCAGCCTC CTGCCGCTCA AGAGGAAGCT GTGGGTAACG 
    CCATCCTCTG AAAATCCTAA TGGTGCTACT TCTAGTGTCA GCCAAGGAAA ACCCTCTTTA 
    AGACGAATTA AAGGGAGATT ACACAGAAGC AAAAGCCTTG ATAGCATGGA TTTCTGTGAG 
    CTCACTAGCA CAGCAATGGA GGAAACAGCT ATATGGGAAC AACATACAGT GACGCTTCAC 
    AGGGCTCCTG GATTTGGATT TGGAATTGCA ATATCTGGTG GACGAGATAA TCCTCATTTT 
    CAGAGTGGGG AAACGTCAAT AGTGATTTCA GATGTGCTGA AAGGAGGACC AGCTGAAGGA 
    CAGCTACAGG AAAATGACCG AGTTGCAATG GTTAACGGAG TTTCAATGGA TAATGTTGAA 
    CATGCTTTTG CTGTTCAGCA ACTAAGGAAA AGTGGGAAAA ATGCAAAAAT TACAATTAGA 
    AGGAAGAAGA AAGTTCAAAT ACCAGTAAGT CGTCCTGATC CTGAACCAGT ATCTGATAAT 
    GAAGAAGATA GTTATGATGA GGAAATACAT GATCCAAGAA GTGGCCGGAG TGGTGTGGTT 
    AACAGAAGGA GTGAGAAGAT TTGGCCGAGG GATAGAAGTG CAAGTAGAGA GAGGAGCTTG 
    TCCCCGCGGT CAGACAGGCG GTCAGTGGCT TCCAGCCAGC CTGCTAAACC TACTAAAGTC 
    ACACTGGTGA AATCCCGGAA AAATGAAGAA TATGGTCTTC GATTGGCAAG CCATATATTT 
    GTTAAGGAAA TTTCACAAGA TAGTTTGGCA GCAAGAGATG GCAATATTCA AGAAGGTGAT 
    GTTGTATTGA AGATAAATGG TACTGTGACA GAAAATATGT CATTGACAGA TGCAAAGACA 
    TTGATAGAAA GGTCTAAAGG CAAATTAAAA ATGGTAGTTC AAAGAGATGA ACGGGCTACG 
    CTATTGAATG TCCCTGATCT TTCTGACAGC ATCCACTCTG CTAATGCCTC TGAGAGAGAC 
    GACATTTCAG AAATTCAGTC ACTGGCATCA GATCATTCTG GTCGATCACA CGATAGGCCT 
    CCCCGCCGCA GCCGGTCACG ATCTCCTGAC CAGCGGTCAG AGCCTTCTGA TCATTCCAGG 
    CACTCGCCGC AGCAGCCAAG CAATGGCAGT CTCCGGAGTA GAGATGAAGA GAGAATTTCT 
    AAACCTGGGG CTGTCTCAAC TCCTGTAAAG CATGCTGATG ATCACACACC TAAAACAGTG 
    GAAGAAGTTA CAGTTGAAAG AAATGAGAAA CAAACACCTT CTCTTCCAGA ACCAAAGCCT 
    GTGTATGCCC AAGTTGGGCA ACCAGATGTG GATTTACCTG TCAGTCCATC TGATGGTGTC 
    CTACCTAATT CAACTCATGA AGATGGGATT CTTCGGCCCA GCATGAAATT GGTAAAATTC 
    AGAAAAGGAG ATAGTGTGGG TTTGCGGCTG GCTGGTGGAA ATGATGTTGG AATATTTGTA 
    GCTGGCGTTC TAGAAGATAG CCCTGCAGCC AAGGAAGGCT TAGAGGAAGG TGATCAAATT 
    CTCAGGGTAA ACAACGTAGA TTTTACAAAT ATCATAAGAG AAGAAGCCGT CCTTTTCCTG 
    CTTGACCTCC CTAAAGGAGA AGAAGTGACC ATATTGGCTC AGAAGAAGAA GGATGTTTAT 
    CGTCGCATTG TAGAATCAGA TGTAGGAGAT TCTTTCTATA TTAGAACCCA TTTTGAATAT 
    GAAAAGGAAT CTCCCTATGG ACTTAGTTTT AACAAAGGAG AGGTGTTCCG TGTTGTGGAT 
    ACCTTGTACA ATGGAAAACT GGGCTCTTGG CTTGCTATTC GAATTGGTAA AAATCATAAG 
    GAGGTAGAAC GAGGCATCAT CCCTAATAAG AACAGAGCTG AGCAGCTAGC CAGTGTACAG 
    TATACACTTC CAAAAACAGC AGGCGGAGAC CGTGCTGACT TCTGGAGATT CAGAGGTCTT 
    CGCAGCTCCA AGAGAAATCT TCGAAAAAGC AGAGAGGATT TGTCCGCTCA GCCTGTTCAA 
    ACAAAGTTTC CAGCTTATGA AAGAGTGGTT CTTCGAGAAG CTGGATTTCT GAGGCCTGTA 
    ACCATTTTTG GACCAATAGC TGATGTTGCC AGAGAAAAGC TGGCAAGAGA AGAACCAGAT 
    ATTTATCAAA TTGCAAAGAG TGAACCACGA GACGCTGGAA CTGACCAACG TAGCTCTGGC 
    ATTATTCGCC TGCATACAAT AAAGCAAATC ATAGATCAAG ACAAACATGC TTTATTAGAT 
    GTAACACCAA ATGCAGTTGA TCGTCTTAAC TATGCCCAGT GGTATCCAAT TGTTGTATTT 
    CTTAACCCTG ATTCTAAGCA AGGAGTAAAA ACAATGAGAA TGAGGTTATG TCCAGAATCT 
    CGGAAAAGTG CCAGGAAGTT ATACGAGCGA TCTCATAAAC TTCGTAAAAA TAATCACCAT 
    CTTTTTACAA CTACAATTAA CTTAAATTCA ATGAATGATG GTTGGTATGG TGCGCTGAAA 
    GAAGCAATTC AACAACAGCA AAACCAGCTG GTATGGGTTT CCGAGGGAAA GGCGGATGGT 
    GCTACAAGTG ATGACCTTGA TTTGCATGAT GATCGTCTGT CCTACCTGTC AGCTCCAGGT 
    AGTGAATACT CAATGTATAG CACGGACAGT AGACACACTT CTGACTATGA AGACACAGAC 
    ACAGAAGGCG GGGCCTACAC TGATCAAGAA CTAGATGAAA CTCTTAATGA TGAGGTTGGG 
    ACTCCACCGG AGTCTGCCAT TACACGGTCC TCTGAGCCTG TAAGAGAGGA CTCCTCTGGA 
    ATGCATCATG AAAACCAAAC ATATCCTCCT TACTCACCAC AAGCGCAGCC ACAACCAATT 
    CATAGAATAG ACTCCCCTGG ATTTAAGCCA GCCTCTCAAC AGGTGTATAG AAAGGATCCA 
    TATCCCGAGG AAATGATGAG GCAGAACCAT GTTTTGAAAC AGCCAGCCGT TAGTCACCCA 
    GGGCACAGGC CAGACAAAGA GCCTAATCTG ACCTATGAAC CCCAACTCCC ATACGTAGAG 
    AAACAAGCCA GCAGAGACCT CGAGCAGCCC ACATACAGAT ACGAGTCCTC AAGCTATACG 
    GACCAGTTTT CTCGAAACTA TGAACATCGT CTGCGATACG AAGATCGCGT CCCCATGTAT 
    GAAGAACAGT GGTCATATTA TGATGACAAA CAGCCCTACC CATCTCGGCC ACCTTTTGAT 
    AATCAGCACT CTCAAGACCT TGACTCCAGA CAGCATCCCG AAGAGTCCTC AGAACGAGGG 
    TACTTTCCAC GTTTTGAAGA GCCAGCCCCT CTGTCTTACG ACAGCAGACC ACGTTACGAA 
    CAGGCACCTA GAGCATCCGC CCTGCGGCAC GAAGAGCAGC CAGCTCCTGG GTATGACACA 
    CATGGTAGAC TCAGACCGGA AGCCCAGCCC CACCCTTCAG CAGGGCCCAA GCCTGCAGAG 
    TCCAAGCAGT ATTTTGAGCA ATATTCACGC AGTTACGAGC AAGTACCACC CCAAGGATTT 
    ACCTCTAGAG CAGGTCATTT TGAGCCTCTC CATGGTGCTG CAGCTGTCCC TCCGCTGATA 
    CCTTCATCTC AGCATAAGCC AGAAGCTCTG CCTTCAAACA CCAAACCACT GCCTCCACCC 
    CCAACTCAAA CCGAAGAAGA GGAAGATCCA GCAATGAAGC CACAGTCTGT ACTCACCAGA 
    GTTAAGATGT TTGAAAACAA AAGATCTGCA TCCTTAGAGA CCAAGAAGGA TGTAAATGAC 
    ACTGGCAGTT TTAAGCCTCC AGAAGTAGCA TCTAAACCTT CAGGTGCTCC CATCATTGGT 
    CCCAAACCCA CTTCTCAGAA TCAATTCAGT GAACATGACA AAACTCTGTA CAGGATCCCA 
    GAACCTCAAA AACCTCAACT GAAGCCACCT GAAGATATTG TTCGGTCCAA TCATTATGAC 
    CCTGAAGAAG ATGAAGAATA TTATCGAAAA CAGCTGTCAT ACTTTGACCG AAGAAGTTTT 
    GAGAATAAGC CTCCTGCACA CATTGCCGCC AGCCATCTCT CCGAGCCTGC AAAGCCAGCG 
    CATTCTCAGA ATCAATCAAA TTTTTCTAGT TATTCTTCAA AGGGAAAGCC TCCTGAAGCT 
    GATGGTGTGG ATAGATCATT TGGCGAGAAA CGCTATGAAC CCATCCAGGC CACTCCCCCT 
    CCTCCTCCAT TGCCCTCGCA GTATGCCCAG CCATCTCAGC CTGTCACCAG CGCGTCTCTC 
    CACATACATT CTAAGGGAGC ACATGGTGAA GGTAATTCAG TGTCATTGGA TTTTCAGAAT 
    TCCTTAGTGT CCAAACCAGA CCCACCTCCA TCTCAGAATA AGCCAGCAAC TTTCAGACCA 
    CCAAACCGAG AAGATACTGC TCAGGCAGCT TTCTATCCCC AGAAAAGTTT TCCAGATAAA 
    GCCCCAGTTA ATGGAACTGA ACAGACTCAG AAAACAGTCA CTCCAGCATA CAATCGATTC 
    ACACCAAAAC CATATACAAG TTCTGCCCGA CCATTTGAAC GCAAGTTTGA AAGTCCTAAA 
    TTCAATCACA ATCTTCTGCC AAGTGAAACT GCACATAAAC CTGACTTGTC TTCAAAAACT 
    CCCACTTCTC CAAAAACTCT TGTGAAATCG CACAGTTTGG CACAGCCTCC TGAGTTTGAC 
    AGTGGAGTTG AAACTTTCTC TATCCATGCA GAGAAGCCTA AATATCAAAT AAATAATATC 
    AGCACAGTGC CTAAAGCTAT TCCTGTGAGT CCTTCAGCTG TGGAAGAGGA TGAAGATGAA 
    GATGGTCATA CTGTGGTGGC CACAGCCCGA GGCATATTTA ACAGCAATGG GGGCGTGCTG 
    AGTTCCATAG AAACTGGTGT TAGTATAATT ATCCCTCAAG GAGCCATTCC CGAAGGAGTT 
    GAGCAGGAAA TCTATTTCAA GGTCTGCCGG GACAACAGCA TCCTTCCACC TTTAGATAAA 
    GAGAAAGGTG AAACACTGCT GAGTCCTTTG GTGATGTGTG GTCCCCATGG CCTCAAGTTC 
    CTGAAGCCTG TGGAGCTGCG CTTACCACAC TGTGCGTCCA TGACTCCTGA CGGTTGGTCT 
    TTTGCTCTAA AATCATCCGA CTCCTCGTCG GGTGATCCTA AAACCTGGCA AAACAAGTGT 
    CTTCCCGGAG ATCCAAATTA TCTCGTTGGA GCAAACTGTG TTTCTGTCCT TATTGACCAC 
    TTTTAA

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

    RefSeq XP_005254676.2
    CDS81..5426
    Translation

    Target ORF information:

    RefSeq Version XM_005254619.3
    Organism Homo sapiens(human)
    Definition Homo sapiens 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_005254619.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    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
    ATGCGGCGCC TGGAGGGGCT GTGTCTGCGG CGGCGGCGGA GGCGGCGGGG CCCTGCCCGC 
    GAGCGGAGCG GGGACAAGAT GAAGTACCAG AAATACCTGA CGGTGCTGCA GATGGCCATC 
    GGCGTCACCC CCTCCAACCG CGGCAGCCTC CTGCCGCTCA AGAGGAAGCT GTGGGTAACG 
    CCATCCTCTG AAAATCCTAA TGGTGCTACT TCTAGTGTCA GCCAAGGAAA ACCCTCTTTA 
    AGACGAATTA AAGGGAGATT ACACAGAAGC AAAAGCCTTG ATAGCATGGA TTTCTGTGAG 
    CTCACTAGCA CAGCAATGGA GGAAACAGCT ATATGGGAAC AACATACAGT GACGCTTCAC 
    AGGGCTCCTG GATTTGGATT TGGAATTGCA ATATCTGGTG GACGAGATAA TCCTCATTTT 
    CAGAGTGGGG AAACGTCAAT AGTGATTTCA GATGTGCTGA AAGGAGGACC AGCTGAAGGA 
    CAGCTACAGG AAAATGACCG AGTTGCAATG GTTAACGGAG TTTCAATGGA TAATGTTGAA 
    CATGCTTTTG CTGTTCAGCA ACTAAGGAAA AGTGGGAAAA ATGCAAAAAT TACAATTAGA 
    AGGAAGAAGA AAGTTCAAAT ACCAGTAAGT CGTCCTGATC CTGAACCAGT ATCTGATAAT 
    GAAGAAGATA GTTATGATGA GGAAATACAT GATCCAAGAA GTGGCCGGAG TGGTGTGGTT 
    AACAGAAGGA GTGAGAAGAT TTGGCCGAGG GATAGAAGTG CAAGTAGAGA GAGGAGCTTG 
    TCCCCGCGGT CAGACAGGCG GTCAGTGGCT TCCAGCCAGC CTGCTAAACC TACTAAAGTC 
    ACACTGGTGA AATCCCGGAA AAATGAAGAA TATGGTCTTC GATTGGCAAG CCATATATTT 
    GTTAAGGAAA TTTCACAAGA TAGTTTGGCA GCAAGAGATG GCAATATTCA AGAAGGTGAT 
    GTTGTATTGA AGATAAATGG TACTGTGACA GAAAATATGT CATTGACAGA TGCAAAGACA 
    TTGATAGAAA GGTCTAAAGG CAAATTAAAA ATGGTAGTTC AAAGAGATGA ACGGGCTACG 
    CTATTGAATG TCCCTGATCT TTCTGACAGC ATCCACTCTG CTAATGCCTC TGAGAGAGAC 
    GACATTTCAG AAATTCAGTC ACTGGCATCA GATCATTCTG GTCGATCACA CGATAGGCCT 
    CCCCGCCGCA GCCGGTCACG ATCTCCTGAC CAGCGGTCAG AGCCTTCTGA TCATTCCAGG 
    CACTCGCCGC AGCAGCCAAG CAATGGCAGT CTCCGGAGTA GAGATGAAGA GAGAATTTCT 
    AAACCTGGGG CTGTCTCAAC TCCTGTAAAG CATGCTGATG ATCACACACC TAAAACAGTG 
    GAAGAAGTTA CAGTTGAAAG AAATGAGAAA CAAACACCTT CTCTTCCAGA ACCAAAGCCT 
    GTGTATGCCC AAGTTGGGCA ACCAGATGTG GATTTACCTG TCAGTCCATC TGATGGTGTC 
    CTACCTAATT CAACTCATGA AGATGGGATT CTTCGGCCCA GCATGAAATT GGTAAAATTC 
    AGAAAAGGAG ATAGTGTGGG TTTGCGGCTG GCTGGTGGAA ATGATGTTGG AATATTTGTA 
    GCTGGCGTTC TAGAAGATAG CCCTGCAGCC AAGGAAGGCT TAGAGGAAGG TGATCAAATT 
    CTCAGGGTAA ACAACGTAGA TTTTACAAAT ATCATAAGAG AAGAAGCCGT CCTTTTCCTG 
    CTTGACCTCC CTAAAGGAGA AGAAGTGACC ATATTGGCTC AGAAGAAGAA GGATGTTTAT 
    CGTCGCATTG TAGAATCAGA TGTAGGAGAT TCTTTCTATA TTAGAACCCA TTTTGAATAT 
    GAAAAGGAAT CTCCCTATGG ACTTAGTTTT AACAAAGGAG AGGTGTTCCG TGTTGTGGAT 
    ACCTTGTACA ATGGAAAACT GGGCTCTTGG CTTGCTATTC GAATTGGTAA AAATCATAAG 
    GAGGTAGAAC GAGGCATCAT CCCTAATAAG AACAGAGCTG AGCAGCTAGC CAGTGTACAG 
    TATACACTTC CAAAAACAGC AGGCGGAGAC CGTGCTGACT TCTGGAGATT CAGAGGTCTT 
    CGCAGCTCCA AGAGAAATCT TCGAAAAAGC AGAGAGGATT TGTCCGCTCA GCCTGTTCAA 
    ACAAAGTTTC CAGCTTATGA AAGAGTGGTT CTTCGAGAAG CTGGATTTCT GAGGCCTGTA 
    ACCATTTTTG GACCAATAGC TGATGTTGCC AGAGAAAAGC TGGCAAGAGA AGAACCAGAT 
    ATTTATCAAA TTGCAAAGAG TGAACCACGA GACGCTGGAA CTGACCAACG TAGCTCTGGC 
    ATTATTCGCC TGCATACAAT AAAGCAAATC ATAGATCAAG ACAAACATGC TTTATTAGAT 
    GTAACACCAA ATGCAGTTGA TCGTCTTAAC TATGCCCAGT GGTATCCAAT TGTTGTATTT 
    CTTAACCCTG ATTCTAAGCA AGGAGTAAAA ACAATGAGAA TGAGGTTATG TCCAGAATCT 
    CGGAAAAGTG CCAGGAAGTT ATACGAGCGA TCTCATAAAC TTCGTAAAAA TAATCACCAT 
    CTTTTTACAA CTACAATTAA CTTAAATTCA ATGAATGATG GTTGGTATGG TGCGCTGAAA 
    GAAGCAATTC AACAACAGCA AAACCAGCTG GTATGGGTTT CCGAGGGAAA GGCGGATGGT 
    GCTACAAGTG ATGACCTTGA TTTGCATGAT GATCGTCTGT CCTACCTGTC AGCTCCAGGT 
    AGTGAATACT CAATGTATAG CACGGACAGT AGACACACTT CTGACTATGA AGACACAGAC 
    ACAGAAGGCG GGGCCTACAC TGATCAAGAA CTAGATGAAA CTCTTAATGA TGAGGTTGGG 
    ACTCCACCGG AGTCTGCCAT TACACGGTCC TCTGAGCCTG TAAGAGAGGA CTCCTCTGGA 
    ATGCATCATG AAAACCAAAC ATATCCTCCT TACTCACCAC AAGCGCAGCC ACAACCAATT 
    CATAGAATAG ACTCCCCTGG ATTTAAGCCA GCCTCTCAAC AGGTGTATAG AAAGGATCCA 
    TATCCCGAGG AAATGATGAG GCAGAACCAT GTTTTGAAAC AGCCAGCCGT TAGTCACCCA 
    GGGCACAGGC CAGACAAAGA GCCTAATCTG ACCTATGAAC CCCAACTCCC ATACGTAGAG 
    AAACAAGCCA GCAGAGACCT CGAGCAGCCC ACATACAGAT ACGAGTCCTC AAGCTATACG 
    GACCAGTTTT CTCGAAACTA TGAACATCGT CTGCGATACG AAGATCGCGT CCCCATGTAT 
    GAAGAACAGT GGTCATATTA TGATGACAAA CAGCCCTACC CATCTCGGCC ACCTTTTGAT 
    AATCAGCACT CTCAAGACCT TGACTCCAGA CAGCATCCCG AAGAGTCCTC AGAACGAGGG 
    TACTTTCCAC GTTTTGAAGA GCCAGCCCCT CTGTCTTACG ACAGCAGACC ACGTTACGAA 
    CAGGCACCTA GAGCATCCGC CCTGCGGCAC GAAGAGCAGC CAGCTCCTGG GTATGACACA 
    CATGGTAGAC TCAGACCGGA AGCCCAGCCC CACCCTTCAG CAGGGCCCAA GCCTGCAGAG 
    TCCAAGCAGT ATTTTGAGCA ATATTCACGC AGTTACGAGC AAGTACCACC CCAAGGATTT 
    ACCTCTAGAG CAGGTCATTT TGAGCCTCTC CATGGTGCTG CAGCTGTCCC TCCGCTGATA 
    CCTTCATCTC AGCATAAGCC AGAAGCTCTG CCTTCAAACA CCAAACCACT GCCTCCACCC 
    CCAACTCAAA CCGAAGAAGA GGAAGATCCA GCAATGAAGC CACAGTCTGT ACTCACCAGA 
    GTTAAGATGT TTGAAAACAA AAGATCTGCA TCCTTAGAGA CCAAGAAGGA TGTAAATGAC 
    ACTGGCAGTT TTAAGCCTCC AGAAGTAGCA TCTAAACCTT CAGGTGCTCC CATCATTGGT 
    CCCAAACCCA CTTCTCAGAA TCAATTCAGT GAACATGACA AAACTCTGTA CAGGATCCCA 
    GAACCTCAAA AACCTCAACT GAAGCCACCT GAAGATATTG TTCGGTCCAA TCATTATGAC 
    CCTGAAGAAG ATGAAGAATA TTATCGAAAA CAGCTGTCAT ACTTTGACCG AAGAAGTTTT 
    GAGAATAAGC CTCCTGCACA CATTGCCGCC AGCCATCTCT CCGAGCCTGC AAAGCCAGCG 
    CATTCTCAGA ATCAATCAAA TTTTTCTAGT TATTCTTCAA AGGGAAAGCC TCCTGAAGCT 
    GATGGTGTGG ATAGATCATT TGGCGAGAAA CGCTATGAAC CCATCCAGGC CACTCCCCCT 
    CCTCCTCCAT TGCCCTCGCA GTATGCCCAG CCATCTCAGC CTGTCACCAG CGCGTCTCTC 
    CACATACATT CTAAGGGAGC ACATGGTGAA GGTAATTCAG TGTCATTGGA TTTTCAGAAT 
    TCCTTAGTGT CCAAACCAGA CCCACCTCCA TCTCAGAATA AGCCAGCAAC TTTCAGACCA 
    CCAAACCGAG AAGATACTGC TCAGGCAGCT TTCTATCCCC AGAAAAGTTT TCCAGATAAA 
    GCCCCAGTTA ATGGAACTGA ACAGACTCAG AAAACAGTCA CTCCAGCATA CAATCGATTC 
    ACACCAAAAC CATATACAAG TTCTGCCCGA CCATTTGAAC GCAAGTTTGA AAGTCCTAAA 
    TTCAATCACA ATCTTCTGCC AAGTGAAACT GCACATAAAC CTGACTTGTC TTCAAAAACT 
    CCCACTTCTC CAAAAACTCT TGTGAAATCG CACAGTTTGG CACAGCCTCC TGAGTTTGAC 
    AGTGGAGTTG AAACTTTCTC TATCCATGCA GAGAAGCCTA AATATCAAAT AAATAATATC 
    AGCACAGTGC CTAAAGCTAT TCCTGTGAGT CCTTCAGCTG TGGAAGAGGA TGAAGATGAA 
    GATGGTCATA CTGTGGTGGC CACAGCCCGA GGCATATTTA ACAGCAATGG GGGCGTGCTG 
    AGTTCCATAG AAACTGGTGT TAGTATAATT ATCCCTCAAG GAGCCATTCC CGAAGGAGTT 
    GAGCAGGAAA TCTATTTCAA GGTCTGCCGG GACAACAGCA TCCTTCCACC TTTAGATAAA 
    GAGAAAGGTG AAACACTGCT GAGTCCTTTG GTGATGTGTG GTCCCCATGG CCTCAAGTTC 
    CTGAAGCCTG TGGAGCTGCG CTTACCACAC TGTGCGTCCA TGACTCCTGA CGGTTGGTCT 
    TTTGCTCTAA AATCATCCGA CTCCTCGTCG GGTGATCCTA AAACCTGGCA AAACAAGTGT 
    CTTCCCGGAG ATCCAAATTA TCTCGTTGGA GCAAACTGTG TTTCTGTCCT TATTGACCAC 
    TTTTAA

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

    TJP1 ( XM_005254620.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_005254677.2 Homo sapiens tight junction protein 1 (TJP1), transcript variant X10, mRNA.
    Price & Availability↑
    CloneID OHu85636
    Clone ID Related Accession (Same CDS sequence) XM_005254620.3
    Accession Version XM_005254620.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5286bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    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_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_005254620.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGCGGCGCC TGGAGGGGCT GTGTCTGCGG CGGCGGCGGA GGCGGCGGGG CCCTGCCCGC 
    GAGCGGAGCG GGGACAAGAT GAAGTACCAG AAATACCTGA CGGTGCTGCA GATGGCCATC 
    GGCGTCACCC CCTCCAACCG CGGCAGCCTC CTGCCGCTCA AGAGGAAGCT GTGGGTAACG 
    CCATCCTCTG AAAATCCTAA TGGTGCTACT TCTAGTGTCA GCCAAGGAAA ACCCTCTTTA 
    AGACGAATTA AAGGGAGATT ACACAGAAGC AAAAGCCTTG ATAGCATGGA TTTCTGTGAG 
    CTCACTAGCA CAGCAATGGA GGAAACAGCT ATATGGGAAC AACATACAGT GACGCTTCAC 
    AGGGCTCCTG GATTTGGATT TGGAATTGCA ATATCTGGTG GACGAGATAA TCCTCATTTT 
    CAGAGTGGGG AAACGTCAAT AGTGATTTCA GATGTGCTGA AAGGAGGACC AGCTGAAGGA 
    CAGCTACAGG AAAATGACCG AGTTGCAATG GTTAACGGAG TTTCAATGGA TAATGTTGAA 
    CATGCTTTTG CTGTTCAGCA ACTAAGGAAA AGTGGGAAAA ATGCAAAAAT TACAATTAGA 
    AGGAAGAAGA AAGTTCAAAT ACCAGTAAGT CGTCCTGATC CTGAACCAGT ATCTGATAAT 
    GAAGAAGATA GTTATGATGA GGAAATACAT GATCCAAGAA GTGGCCGGAG TGGTGTGGTT 
    AACAGAAGGA GTGAGAAGAT TTGGCCGAGG GATAGAAGTG CAAGTAGAGA GAGGAGCTTG 
    TCCCCGCGGT CAGACAGGCG GTCAGTGGCT TCCAGCCAGC CTGCTAAACC TACTAAAGTC 
    ACACTGGTGA AATCCCGGAA AAATGAAGAA TATGGTCTTC GATTGGCAAG CCATATATTT 
    GTTAAGGAAA TTTCACAAGA TAGTTTGGCA GCAAGAGATG GCAATATTCA AGAAGGTGAT 
    GTTGTATTGA AGATAAATGG TACTGTGACA GAAAATATGT CATTGACAGA TGCAAAGACA 
    TTGATAGAAA GGTCTAAAGG CAAATTAAAA ATGGTAGTTC AAAGAGATGA ACGGGCTACG 
    CTATTGAATG TCCCTGATCT TTCTGACAGC ATCCACTCTG CTAATGCCTC TGAGAGAGAC 
    GACATTTCAG AAATTCAGTC ACTGGCATCA GATCATTCTG GTCGATCACA CGATAGGCCT 
    CCCCGCCGCA GCCGGTCACG ATCTCCTGAC CAGCGGTCAG AGCCTTCTGA TCATTCCAGG 
    CACTCGCCGC AGCAGCCAAG CAATGGCAGT CTCCGGAGTA GAGATGAAGA GAGAATTTCT 
    AAACCTGGGG CTGTCTCAAC TCCTGTAAAG CATGCTGATG ATCACACACC TAAAACAGTG 
    GAAGAAGTTA CAGTTGAAAG AAATGAGAAA CAAACACCTT CTCTTCCAGA ACCAAAGCCT 
    GTGTATGCCC AAGTTGGGCA ACCAGATGTG GATTTACCTG TCAGTCCATC TGATGGTGTC 
    CTACCTAATT CAACTCATGA AGATGGGATT CTTCGGCCCA GCATGAAATT GGTAAAATTC 
    AGAAAAGGAG ATAGTGTGGG TTTGCGGCTG GCTGGTGGAA ATGATGTTGG AATATTTGTA 
    GCTGGCGTTC TAGAAGATAG CCCTGCAGCC AAGGAAGGCT TAGAGGAAGG TGATCAAATT 
    CTCAGGGTAA ACAACGTAGA TTTTACAAAT ATCATAAGAG AAGAAGCCGT CCTTTTCCTG 
    CTTGACCTCC CTAAAGGAGA AGAAGTGACC ATATTGGCTC AGAAGAAGAA GGATGTTTAT 
    CGTCGCATTG TAGAATCAGA TGTAGGAGAT TCTTTCTATA TTAGAACCCA TTTTGAATAT 
    GAAAAGGAAT CTCCCTATGG ACTTAGTTTT AACAAAGGAG AGGTGTTCCG TGTTGTGGAT 
    ACCTTGTACA ATGGAAAACT GGGCTCTTGG CTTGCTATTC GAATTGGTAA AAATCATAAG 
    GAGGTAGAAC GAGGCATCAT CCCTAATAAG AACAGAGCTG AGCAGCTAGC CAGTGTACAG 
    TATACACTTC CAAAAACAGC AGGCGGAGAC CGTGCTGACT TCTGGAGATT CAGAGGTCTT 
    CGCAGCTCCA AGAGAAATCT TCGAAAAAGC AGAGAGGATT TGTCCGCTCA GCCTGTTCAA 
    ACAAAGTTTC CAGCTTATGA AAGAGTGGTT CTTCGAGAAG CTGGATTTCT GAGGCCTGTA 
    ACCATTTTTG GACCAATAGC TGATGTTGCC AGAGAAAAGC TGGCAAGAGA AGAACCAGAT 
    ATTTATCAAA TTGCAAAGAG TGAACCACGA GACGCTGGAA CTGACCAACG TAGCTCTGGC 
    ATTATTCGCC TGCATACAAT AAAGCAAATC ATAGATCAAG ACAAACATGC TTTATTAGAT 
    GTAACACCAA ATGCAGTTGA TCGTCTTAAC TATGCCCAGT GGTATCCAAT TGTTGTATTT 
    CTTAACCCTG ATTCTAAGCA AGGAGTAAAA ACAATGAGAA TGAGGTTATG TCCAGAATCT 
    CGGAAAAGTG CCAGGAAGTT ATACGAGCGA TCTCATAAAC TTCGTAAAAA TAATCACCAT 
    CTTTTTACAA CTACAATTAA CTTAAATTCA ATGAATGATG GTTGGTATGG TGCGCTGAAA 
    GAAGCAATTC AACAACAGCA AAACCAGCTG GTATGGGTTT CCGAGGGAAA GGCGGATGGT 
    GCTACAAGTG ATGACCTTGA TTTGCATGAT GATCGTCTGT CCTACCTGTC AGCTCCAGGT 
    AGTGAATACT CAATGTATAG CACGGACAGT AGACACACTT CTGACTATGA AGACACAGAC 
    ACAGAAGGCG GGGCCTACAC TGATCAAGAA CTAGATGAAA CTCTTAATGA TGAGGTTGGG 
    ACTCCACCGG AGTCTGCCAT TACACGGTCC TCTGAGCCTG TAAGAGAGGA CTCCTCTGGA 
    ATGCATCATG AAAACCAAAC ATATCCTCCT TACTCACCAC AAGCGCAGCC ACAACCAATT 
    CATAGAATAG ACTCCCCTGG ATTTAAGCCA GCCTCTCAAC AGGTGTATAG AAAGGATCCA 
    TATCCCGAGG AAATGATGAG GCAGAACCAT GTTTTGAAAC AGCCAGCCGT TAGTCACCCA 
    GGGCACAGGC CAGACAAAGA GCCTAATCTG ACCTATGAAC CCCAACTCCC ATACGTAGAG 
    AAACAAGCCA GCAGAGACCT CGAGCAGCCC ACATACAGAT ACGAGTCCTC AAGCTATACG 
    GACCAGTTTT CTCGAAACTA TGAACATCGT CTGCGATACG AAGATCGCGT CCCCATGTAT 
    GAAGAACAGT GGTCATATTA TGATGACAAA CAGCCCTACC CATCTCGGCC ACCTTTTGAT 
    AATCAGCACT CTCAAGACCT TGACTCCAGA CAGCATCCCG AAGAGTCCTC AGAACGAGGG 
    TACTTTCCAC GTTTTGAAGA GCCAGCCCCT CTGTCTTACG ACAGCAGACC ACGTTACGAA 
    CAGGCACCTA GAGCATCCGC CCTGCGGCAC GAAGAGCAGC CAGCTCCTGG GTATGACACA 
    CATGGTAGAC TCAGACCGGA AGCCCAGCCC CACCCTTCAG CAGGGCCCAA GCCTGCAGAG 
    TCCAAGCAGT ATTTTGAGCA ATATTCACGC AGTTACGAGC AAGTACCACC CCAAGGATTT 
    ACCTCTAGAG CAGGTCATTT TGAGCCTCTC CATGGTGCTG CAGCTGTCCC TCCGCTGATA 
    CCTTCATCTC AGCATAAGCC AGAAGCTCTG CCTTCAAACA CCAAACCACT GCCTCCACCC 
    CCAACTCAAA CCGAAGAAGA GGAAGATCCA GCAATGAAGC CACAGTCTGT ACTCACCAGA 
    GTTAAGATGT TTGAAAACAA AAGATCTGCA TCCTTAGAGA CCAAGAAGGA TGTAAATGAC 
    ACTGGCAGTT TTAAGCCTCC AGAAGTAGCA TCTAAACCTT CAGGTGCTCC CATCATTGGT 
    CCCAAACCCA CTTCTCAGAA TCAATTCAGT GAACATGACA AAACTCTGTA CAGGATCCCA 
    GAACCTCAAA AACCTCAACT GAAGCCACCT GAAGATATTG TTCGGTCCAA TCATTATGAC 
    CCTGAAGAAG ATGAAGAATA TTATCGAAAA CAGCTGTCAT ACTTTGACCG AAGAAGTTTT 
    GAGAATAAGC CTCCTGCACA CATTGCCGCC AGCCATCTCT CCGAGCCTGC AAAGCCAGCG 
    CATTCTCAGA ATCAATCAAA TTTTTCTAGT TATTCTTCAA AGGGAAAGCC TCCTGAAGCT 
    GATGGTGTGG ATAGATCATT TGGCGAGAAA CGCTATGAAC CCATCCAGGC CACTCCCCCT 
    CCTCCTCCAT TGCCCTCGCA GTATGCCCAG CCATCTCAGC CTGTCACCAG CGCGTCTCTC 
    CACATACATT CTAAGGGAGC ACATGGTGAA GGTAATTCAG TGTCATTGGA TTTTCAGAAT 
    TCCTTAGTGT CCAAACCAGA CCCACCTCCA TCTCAGAATA AGCCAGCAAC TTTCAGACCA 
    CCAAACCGAG AAGATACTGC TCAGGCAGCT TTCTATCCCC AGAAAAGTTT TCCAGATAAA 
    GCCCCAGTTA ATGGAACTGA ACAGACTCAG AAAACAGTCA CTCCAGCATA CAATCGATTC 
    ACACCAAAAC CATATACAAG TTCTGCCCGA CCATTTGAAC GCAAGTTTGA AAGTCCTAAA 
    TTCAATCACA ATCTTCTGCC AAGTGAAACT GCACATAAAC CTGACTTGTC TTCAAAAACT 
    CCCACTTCTC CAAAAACTCT TGTGAAATCG CACAGTTTGG CACAGCCTCC TGAGTTTGAC 
    AGTGGAGTTG AAACTTTCTC TATCCATGCA GAGAAGCCTA AATATCAAAT AAATAATATC 
    AGCACAGTGC CTAAAGCTAT TCCTGTGAGT CCTTCAGCTG TGGAAGAGGA TGAAGATGAA 
    GATGGTCATA CTGTGGTGGC CACAGCCCGA GGCATATTTA ACAGCAATGG GGGCGTGCTG 
    AGTTCCATAG AAACTGGTGT TAGTATAATT ATCCCTCAAG GAGCCATTCC CGAAGGAGTT 
    GAGCAGGAAA TCTATTTCAA GGTCTGCCGG GACAACAGCA TCCTTCCACC TTTAGATAAA 
    GAGAAAGGTG AAACACTGCT GAGTCCTTTG GTGATGTGTG GTCCCCATGG CCTCAAGTTC 
    CTGAAGCCTG TGGAGCTGCG CTTACCACAC TGTGATCCTA AAACCTGGCA AAACAAGTGT 
    CTTCCCGGAG ATCCAAATTA TCTCGTTGGA GCAAACTGTG TTTCTGTCCT TATTGACCAC 
    TTTTAA

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

    RefSeq XP_005254677.2
    CDS81..5366
    Translation

    Target ORF information:

    RefSeq Version XM_005254620.3
    Organism Homo sapiens(human)
    Definition Homo sapiens 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_005254620.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    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
    ATGCGGCGCC TGGAGGGGCT GTGTCTGCGG CGGCGGCGGA GGCGGCGGGG CCCTGCCCGC 
    GAGCGGAGCG GGGACAAGAT GAAGTACCAG AAATACCTGA CGGTGCTGCA GATGGCCATC 
    GGCGTCACCC CCTCCAACCG CGGCAGCCTC CTGCCGCTCA AGAGGAAGCT GTGGGTAACG 
    CCATCCTCTG AAAATCCTAA TGGTGCTACT TCTAGTGTCA GCCAAGGAAA ACCCTCTTTA 
    AGACGAATTA AAGGGAGATT ACACAGAAGC AAAAGCCTTG ATAGCATGGA TTTCTGTGAG 
    CTCACTAGCA CAGCAATGGA GGAAACAGCT ATATGGGAAC AACATACAGT GACGCTTCAC 
    AGGGCTCCTG GATTTGGATT TGGAATTGCA ATATCTGGTG GACGAGATAA TCCTCATTTT 
    CAGAGTGGGG AAACGTCAAT AGTGATTTCA GATGTGCTGA AAGGAGGACC AGCTGAAGGA 
    CAGCTACAGG AAAATGACCG AGTTGCAATG GTTAACGGAG TTTCAATGGA TAATGTTGAA 
    CATGCTTTTG CTGTTCAGCA ACTAAGGAAA AGTGGGAAAA ATGCAAAAAT TACAATTAGA 
    AGGAAGAAGA AAGTTCAAAT ACCAGTAAGT CGTCCTGATC CTGAACCAGT ATCTGATAAT 
    GAAGAAGATA GTTATGATGA GGAAATACAT GATCCAAGAA GTGGCCGGAG TGGTGTGGTT 
    AACAGAAGGA GTGAGAAGAT TTGGCCGAGG GATAGAAGTG CAAGTAGAGA GAGGAGCTTG 
    TCCCCGCGGT CAGACAGGCG GTCAGTGGCT TCCAGCCAGC CTGCTAAACC TACTAAAGTC 
    ACACTGGTGA AATCCCGGAA AAATGAAGAA TATGGTCTTC GATTGGCAAG CCATATATTT 
    GTTAAGGAAA TTTCACAAGA TAGTTTGGCA GCAAGAGATG GCAATATTCA AGAAGGTGAT 
    GTTGTATTGA AGATAAATGG TACTGTGACA GAAAATATGT CATTGACAGA TGCAAAGACA 
    TTGATAGAAA GGTCTAAAGG CAAATTAAAA ATGGTAGTTC AAAGAGATGA ACGGGCTACG 
    CTATTGAATG TCCCTGATCT TTCTGACAGC ATCCACTCTG CTAATGCCTC TGAGAGAGAC 
    GACATTTCAG AAATTCAGTC ACTGGCATCA GATCATTCTG GTCGATCACA CGATAGGCCT 
    CCCCGCCGCA GCCGGTCACG ATCTCCTGAC CAGCGGTCAG AGCCTTCTGA TCATTCCAGG 
    CACTCGCCGC AGCAGCCAAG CAATGGCAGT CTCCGGAGTA GAGATGAAGA GAGAATTTCT 
    AAACCTGGGG CTGTCTCAAC TCCTGTAAAG CATGCTGATG ATCACACACC TAAAACAGTG 
    GAAGAAGTTA CAGTTGAAAG AAATGAGAAA CAAACACCTT CTCTTCCAGA ACCAAAGCCT 
    GTGTATGCCC AAGTTGGGCA ACCAGATGTG GATTTACCTG TCAGTCCATC TGATGGTGTC 
    CTACCTAATT CAACTCATGA AGATGGGATT CTTCGGCCCA GCATGAAATT GGTAAAATTC 
    AGAAAAGGAG ATAGTGTGGG TTTGCGGCTG GCTGGTGGAA ATGATGTTGG AATATTTGTA 
    GCTGGCGTTC TAGAAGATAG CCCTGCAGCC AAGGAAGGCT TAGAGGAAGG TGATCAAATT 
    CTCAGGGTAA ACAACGTAGA TTTTACAAAT ATCATAAGAG AAGAAGCCGT CCTTTTCCTG 
    CTTGACCTCC CTAAAGGAGA AGAAGTGACC ATATTGGCTC AGAAGAAGAA GGATGTTTAT 
    CGTCGCATTG TAGAATCAGA TGTAGGAGAT TCTTTCTATA TTAGAACCCA TTTTGAATAT 
    GAAAAGGAAT CTCCCTATGG ACTTAGTTTT AACAAAGGAG AGGTGTTCCG TGTTGTGGAT 
    ACCTTGTACA ATGGAAAACT GGGCTCTTGG CTTGCTATTC GAATTGGTAA AAATCATAAG 
    GAGGTAGAAC GAGGCATCAT CCCTAATAAG AACAGAGCTG AGCAGCTAGC CAGTGTACAG 
    TATACACTTC CAAAAACAGC AGGCGGAGAC CGTGCTGACT TCTGGAGATT CAGAGGTCTT 
    CGCAGCTCCA AGAGAAATCT TCGAAAAAGC AGAGAGGATT TGTCCGCTCA GCCTGTTCAA 
    ACAAAGTTTC CAGCTTATGA AAGAGTGGTT CTTCGAGAAG CTGGATTTCT GAGGCCTGTA 
    ACCATTTTTG GACCAATAGC TGATGTTGCC AGAGAAAAGC TGGCAAGAGA AGAACCAGAT 
    ATTTATCAAA TTGCAAAGAG TGAACCACGA GACGCTGGAA CTGACCAACG TAGCTCTGGC 
    ATTATTCGCC TGCATACAAT AAAGCAAATC ATAGATCAAG ACAAACATGC TTTATTAGAT 
    GTAACACCAA ATGCAGTTGA TCGTCTTAAC TATGCCCAGT GGTATCCAAT TGTTGTATTT 
    CTTAACCCTG ATTCTAAGCA AGGAGTAAAA ACAATGAGAA TGAGGTTATG TCCAGAATCT 
    CGGAAAAGTG CCAGGAAGTT ATACGAGCGA TCTCATAAAC TTCGTAAAAA TAATCACCAT 
    CTTTTTACAA CTACAATTAA CTTAAATTCA ATGAATGATG GTTGGTATGG TGCGCTGAAA 
    GAAGCAATTC AACAACAGCA AAACCAGCTG GTATGGGTTT CCGAGGGAAA GGCGGATGGT 
    GCTACAAGTG ATGACCTTGA TTTGCATGAT GATCGTCTGT CCTACCTGTC AGCTCCAGGT 
    AGTGAATACT CAATGTATAG CACGGACAGT AGACACACTT CTGACTATGA AGACACAGAC 
    ACAGAAGGCG GGGCCTACAC TGATCAAGAA CTAGATGAAA CTCTTAATGA TGAGGTTGGG 
    ACTCCACCGG AGTCTGCCAT TACACGGTCC TCTGAGCCTG TAAGAGAGGA CTCCTCTGGA 
    ATGCATCATG AAAACCAAAC ATATCCTCCT TACTCACCAC AAGCGCAGCC ACAACCAATT 
    CATAGAATAG ACTCCCCTGG ATTTAAGCCA GCCTCTCAAC AGGTGTATAG AAAGGATCCA 
    TATCCCGAGG AAATGATGAG GCAGAACCAT GTTTTGAAAC AGCCAGCCGT TAGTCACCCA 
    GGGCACAGGC CAGACAAAGA GCCTAATCTG ACCTATGAAC CCCAACTCCC ATACGTAGAG 
    AAACAAGCCA GCAGAGACCT CGAGCAGCCC ACATACAGAT ACGAGTCCTC AAGCTATACG 
    GACCAGTTTT CTCGAAACTA TGAACATCGT CTGCGATACG AAGATCGCGT CCCCATGTAT 
    GAAGAACAGT GGTCATATTA TGATGACAAA CAGCCCTACC CATCTCGGCC ACCTTTTGAT 
    AATCAGCACT CTCAAGACCT TGACTCCAGA CAGCATCCCG AAGAGTCCTC AGAACGAGGG 
    TACTTTCCAC GTTTTGAAGA GCCAGCCCCT CTGTCTTACG ACAGCAGACC ACGTTACGAA 
    CAGGCACCTA GAGCATCCGC CCTGCGGCAC GAAGAGCAGC CAGCTCCTGG GTATGACACA 
    CATGGTAGAC TCAGACCGGA AGCCCAGCCC CACCCTTCAG CAGGGCCCAA GCCTGCAGAG 
    TCCAAGCAGT ATTTTGAGCA ATATTCACGC AGTTACGAGC AAGTACCACC CCAAGGATTT 
    ACCTCTAGAG CAGGTCATTT TGAGCCTCTC CATGGTGCTG CAGCTGTCCC TCCGCTGATA 
    CCTTCATCTC AGCATAAGCC AGAAGCTCTG CCTTCAAACA CCAAACCACT GCCTCCACCC 
    CCAACTCAAA CCGAAGAAGA GGAAGATCCA GCAATGAAGC CACAGTCTGT ACTCACCAGA 
    GTTAAGATGT TTGAAAACAA AAGATCTGCA TCCTTAGAGA CCAAGAAGGA TGTAAATGAC 
    ACTGGCAGTT TTAAGCCTCC AGAAGTAGCA TCTAAACCTT CAGGTGCTCC CATCATTGGT 
    CCCAAACCCA CTTCTCAGAA TCAATTCAGT GAACATGACA AAACTCTGTA CAGGATCCCA 
    GAACCTCAAA AACCTCAACT GAAGCCACCT GAAGATATTG TTCGGTCCAA TCATTATGAC 
    CCTGAAGAAG ATGAAGAATA TTATCGAAAA CAGCTGTCAT ACTTTGACCG AAGAAGTTTT 
    GAGAATAAGC CTCCTGCACA CATTGCCGCC AGCCATCTCT CCGAGCCTGC AAAGCCAGCG 
    CATTCTCAGA ATCAATCAAA TTTTTCTAGT TATTCTTCAA AGGGAAAGCC TCCTGAAGCT 
    GATGGTGTGG ATAGATCATT TGGCGAGAAA CGCTATGAAC CCATCCAGGC CACTCCCCCT 
    CCTCCTCCAT TGCCCTCGCA GTATGCCCAG CCATCTCAGC CTGTCACCAG CGCGTCTCTC 
    CACATACATT CTAAGGGAGC ACATGGTGAA GGTAATTCAG TGTCATTGGA TTTTCAGAAT 
    TCCTTAGTGT CCAAACCAGA CCCACCTCCA TCTCAGAATA AGCCAGCAAC TTTCAGACCA 
    CCAAACCGAG AAGATACTGC TCAGGCAGCT TTCTATCCCC AGAAAAGTTT TCCAGATAAA 
    GCCCCAGTTA ATGGAACTGA ACAGACTCAG AAAACAGTCA CTCCAGCATA CAATCGATTC 
    ACACCAAAAC CATATACAAG TTCTGCCCGA CCATTTGAAC GCAAGTTTGA AAGTCCTAAA 
    TTCAATCACA ATCTTCTGCC AAGTGAAACT GCACATAAAC CTGACTTGTC TTCAAAAACT 
    CCCACTTCTC CAAAAACTCT TGTGAAATCG CACAGTTTGG CACAGCCTCC TGAGTTTGAC 
    AGTGGAGTTG AAACTTTCTC TATCCATGCA GAGAAGCCTA AATATCAAAT AAATAATATC 
    AGCACAGTGC CTAAAGCTAT TCCTGTGAGT CCTTCAGCTG TGGAAGAGGA TGAAGATGAA 
    GATGGTCATA CTGTGGTGGC CACAGCCCGA GGCATATTTA ACAGCAATGG GGGCGTGCTG 
    AGTTCCATAG AAACTGGTGT TAGTATAATT ATCCCTCAAG GAGCCATTCC CGAAGGAGTT 
    GAGCAGGAAA TCTATTTCAA GGTCTGCCGG GACAACAGCA TCCTTCCACC TTTAGATAAA 
    GAGAAAGGTG AAACACTGCT GAGTCCTTTG GTGATGTGTG GTCCCCATGG CCTCAAGTTC 
    CTGAAGCCTG TGGAGCTGCG CTTACCACAC TGTGATCCTA AAACCTGGCA AAACAAGTGT 
    CTTCCCGGAG ATCCAAATTA TCTCGTTGGA GCAAACTGTG TTTCTGTCCT TATTGACCAC 
    TTTTAA

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

見積依頼

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