ORF » Species Summary » Ailuropoda melanoleuca » TJP1 cDNA ORF clone

TJP1 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

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
OAc29353 XM_011232275.2
Latest version!		 Ailuropoda melanoleuca tight junction protein 1 (TJP1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OAc29353 XM_019805910.1
Latest version!		 Ailuropoda melanoleuca tight junction protein 1 (TJP1), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OAc96973 XM_019805908.1
Latest version!		 Ailuropoda melanoleuca tight junction protein 1 (TJP1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OAc96974 XM_019805909.1
Latest version!		 Ailuropoda melanoleuca tight junction protein 1 (TJP1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OAc96975 XM_011232276.2
Latest version!		 Ailuropoda melanoleuca tight junction protein 1 (TJP1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OAc96976 XM_011232277.2
Latest version!		 Ailuropoda melanoleuca tight junction protein 1 (TJP1), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OAc96977 XM_011232278.2
Latest version!		 Ailuropoda melanoleuca tight junction protein 1 (TJP1), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OAc96978 XM_011232279.2
Latest version!		 Ailuropoda melanoleuca tight junction protein 1 (TJP1), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OAc96979 XM_011232280.2
Latest version!		 Ailuropoda melanoleuca tight junction protein 1 (TJP1), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OAc96980 XM_019805912.1
Latest version!		 Ailuropoda melanoleuca tight junction protein 1 (TJP1), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00

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

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

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

  • Reference Sequences (Refseq)
    TJP1 ( XM_011232275.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011230577.1 Ailuropoda melanoleuca tight junction protein 1 (TJP1), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OAc29353
    Clone ID Related Accession (Same CDS sequence) XM_011232275.2 , XM_019805910.1
    Accession Version XM_011232275.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5274bp)
    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 1482768000000
    Organism Ailuropoda melanoleuca(giant panda)
    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 (NW_003218187.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011232275.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    ATGGAGGAAA CAGCTATATG GGAACAACAC ACAGTGACTC TTCACAGGGC TCCTGGATTT 
    GGATTTGGAA TTGCAATATC TGGTGGAAGA GACAACCCTC ATTTTCAGAG TGGGGAAACT 
    TCCATAGTAA TTTCAGATGT GCTGAAAGGG GGACCCGCTG AAGGACAGCT ACAGGAAAAT 
    GACCGAGTTG CAATGGTTAA TGGAGTTTCA ATGGACAATG TTGAACATGC TTTTGCTGTT 
    CAGCAACTAA GGAAAAGTGG GAAGAATGCA AAAATTACCA TTCGGAGGAA GAAGAAAGTT 
    CAGATACCAG TTAGTCGTCC TGATCCTGAA CCGGTATCTG GGAATGAAGA AGATAGTTAC 
    GATGAGGAAG TCCATGACCC AAGAAGCAGC CGTGGCGGTC TGGTCAGTAG AAGGAGTGAG 
    AAGAGTTGGG CAAGGGATAG AAGTGCAAGC AGAGAGAGGA GTTTGTCCCC ACGGTCTGAT 
    AGGCGATCTG TGGCCTCCAG TCAACCTGCC AAACCCACCA AAGTTACATT GGTGAAATCC 
    CGGAAAAATG AAGAATATGG TCTTCGATTG GCCAGCCATA TATTTGTAAA GGAAATTTCA 
    CAAGATAGTT TGGCAGCAAG AGATGGCAAT ATTCAAGAAG GCGATGTTGT ACTAAAGATA 
    AATGGTACCG TGACAGAAAA TATGTCACTG ACAGATGCAA AAACATTGAT AGAAAGGTCT 
    AAAGGCAAGT TAAAAATGGT AGTTCAGAGG GATGAACGGG CTACCCTATT GAACGTCCCT 
    GATCTTTCTG ACAGTATCCA TTCTGCTAAT GCCTCTGAGA GAGATGACAT TTCAGAAATT 
    CAGTCACTGG CCTCAGATCA TTCTGGTCGA TCACATGATA GACCTCCCCG CCACAGCCGG 
    TCACGATCAC CTGACCAGCG GTCAGAGCCT TCTGATCATT CCAGACACTC TCCACAGCAG 
    CCCAGCAGTG GCAGTCTCCG GAGCAGAGAG GAAGAGAGAA TTTCTAAACC TGGGGCTGTC 
    TCAACTCCTC TGAAGCATGC GGATGATCAT ACACCTAAAA CGGTAGAAGA AGTTGTAGTT 
    GAGAGAAATG AGAAACAAGC GCCCACTCTT CCAGAACCAA AGCCTGTGTA TGCTCAAGGT 
    GGACAACCAG ACGTGGATTT ACCTGTCAGT CCGTCTGATG GCGTCCTGCC TAATTCAACT 
    CATGAAGATG GGATTCTCCG GCCCAGCATG AAATTGGTAA AATTCAGAAA AGGAGATAGT 
    GTGGGTCTGC GCCTGGCTGG TGGAAATGAT GTTGGAATAT TTGTAGCTGG TGTTCTAGAA 
    GATAGCCCTG CAGCCAAAGA AGGCTTAGAA GAGGGTGATC AAATTCTCAG GGTAAACAAT 
    GTAGATTTCA CAAACATCAT AAGAGAAGAA GCTGTCCTTT TCCTGCTCGA CCTCCCTAAA 
    GGAGAAGAAG TGACCATATT GGCTCAGAAG AAGAAAGATG TTTATCGTCG CATCGTAGAA 
    TCAGATGTAG GAGATTCTTT CTATATTAGA ACCCATTTTG AATATGAAAA GGAATCTCCC 
    TATGGACTTA GTTTTAACAA AGGAGAGGTG TTCCGTGTTG TGGATACCTT GTACAATGGG 
    AAACTAGGCT CTTGGCTCGC TATTCGAATT GGTAAAAATC ATAAAGAAGT AGAACGAGGC 
    ATCATCCCTA ACAAGAACAG GGCTGAGCAG TTAGCCAGTG TACAGTACAC ACTTCCAAAA 
    ACAGCTGGGG GAGACCGTGC TGACTTCTGG AGATTCCGGG GTCTTCGCAG TTCCAAGAGA 
    AATCTTCGAA AGAGCAGAGA GGATTTGTCA GCTCAGCCAG TTCAAACAAA GTTTCCAGCC 
    TATGAAAGAG TTGTTCTTCG AGAAGCTGGA TTTCTGAGGC CTGTAACTAT CTTTGGACCC 
    ATAGCTGATG TTGCCCGAGA AAAGCTGGCA AGAGAGGAAC CAGATATTTA TCAGATTGCA 
    AAAAGTGAAC CACGAGATGC TGGAACTGAC CAACGTAGCT CTGGCATTAT TCGCCTTCAT 
    ACAATAAAGC AAATAATAGA TCAGGACAAA CATGCTTTAT TAGATGTAAC ACCAAATGCA 
    GTTGATCGTC TGAATTATGC CCAGTGGTAT CCAATTGTAG TATTCCTTAA CCCTGATTCT 
    AAGCAAGGTG TGAAAACTAT GAGGATGAGG TTATGTCCAG AATCTCGGAA AAGTGCCAGG 
    AAATTATATG AACGATCTCA TAAACTTCGT AAAAATAATC ACCATCTTTT TACAACTACA 
    ATTAACTTAA ATTCAATGAA TGATGGTTGG TATGGTGCAT TGAAAGAAGC AATTCAGCAA 
    CAACAGAACC AGTTGGTATG GGTTTCTGAG GGAAAGGCGG ATGGTGCTAC AAGTGATGAC 
    CTTGATTTGC ATGATGATCG TCTGTCCTAC CTGTCAGCCC CAGGTAGTGA ATACTCAATG 
    TATAGCACGG ACAGTAGACA CACTTCTGAC TATGAAGACA CAGATACAGA AGGCGGGGCC 
    TACACTGATC AAGAACTAGA TGAAACTCTT AATGATGAGG TTGGGACTCC ACCGGAGTCT 
    GCCATTACAC GGTCCTCTGA GCCTGTAAGA GAGGACTCCT CTGGAATGCA TCATGAAAAC 
    CAAACATATC CTCCTTATTC ACCACAAGCG CAGCCACAAC CAATTCATAG AATAGACTCC 
    CCTGGATTTA AAACAGCCTC TCAACAGAAA GCAGAAGCCT CATCTCCAGT CCCTTACCTT 
    TCGCCTGAAA CAAACTCAGC ATCATCAACC TCTGCTGTTA ACCATAATGT AACTTTAACT 
    AATGTCAGAC TGGAGGGGCC CACCCCAGCT CCTTCCACCT CTTACTCACC ACAAGCTGAT 
    TCTTTAAGAA CACCAAGTAC TGAGGCAGCT CACATAATGC TAAGAGATCA AGAGCCATCA 
    TTGCCGTCGC ATGTAGATCC AGCAAAGGTG TATAGAAAAG ATCCCTATCC TGAGGAAATG 
    ATGAGACAGA ATCACGTTTT GAAACAGCCA GCTGTTGGTC ACCCAGGGCA GAGGCCAGAC 
    AAAGAGCCTA ATCTGAGCTA TGAATCCCAA CCCCCATATG TAGAGAAACA AGCCAACAGA 
    GACCTCGAGC AGCCCACATA CAGATATGAC TCCTCAAGTT ACACAGACCA GTTTTCTCGA 
    AACTATGACC ATCGTCTCCG CTACGAAGAG CGCATTCCTA CATATGAAGA GCAGTGGTCT 
    TATTATGATG ACAAACAGCC CTACCAGCCT CGGACGCCTT TTGATAATCA GCACCCTCGG 
    GACCTTGACT CCAGACAGCA TCCTGAAGAG TCCTCAGAAC GAGGCTATTA CCCACGTTTT 
    GAAGAGCCAG CCCCTCTGTC CTATGACAGC AGACCACGCT ATGACCAGCC ACCTAGAACC 
    TCCACCCTAC GACATGAAGA GCAGCCAGCT CCTGGGTATG ACATGCACAA CAGATACAGG 
    CCGGAAGCAC AGTCCTATTC AGTAGGCCCG AAGGCGACTG AACCCAAACA GTATTTTGAC 
    CAATACCCAC GAAGTTACGA GCAAGTACCA CCACAAGGAT TTACCTCTAA AGCAGGCCAC 
    TATGAGCCTC TCCATGGTGC TGCAGTTGTC CCTCCTCTAA TTCCCGCATC TCAACACAAG 
    CCAGAAGTTC TGCCTTCAAA TACCAAACCA CTGCCTCCAC CCCCCACTCT GACTGAAGAG 
    GAGGAAGATC CAGCAATGAA GCCCCAGTCT GTGCTCACTA GAGTGAAAAT GTTTGAAAAC 
    AAAAGATCTG CATCATTGGA GAGCAAGAAG GATGAAAACC ACACTGCTGC TTTTAAGCCT 
    CCAGAGGTAG CATCTAAACC TTCAGGTGCT CCCATCATTG GCCCTAAAGC CACTCCTCAG 
    AATCAGTTCA GTGAACATGA CAAAACACTG TACAGGATCC CAGAACCTCA AAAACCTCAA 
    ATGAAGCCAC CCGAAGATAT TGTTCGGTCT AATCATTATG ATCCCGAGGA AGATGAAGAA 
    TATTATCGAA AACAGCTCTC ATACTTTGAC CGAAGAAGTT TTGAAAACAA GCCTTCTACA 
    CACATTCCTG CTGGCCATCT CTCAGAGCCT GCCAAGCCAG TTCATTCTCA GAATCAACCA 
    AACTTTTCTA GTTATTCTTC AAAGGGAAAG TCTCCTGAAG CTGATGGCAT GGATAGAGCA 
    TTTGGTGAGA AGCGCTATGA GCCAGTCCAG GCCACTCCCC CTCCTCCCCC ATTGCCCTCC 
    CAGTACGCCC AGCCTGCTCA GTCCAGTACC AGCTCCTCTC TTGCCCTCCA CACGCATGCC 
    AAGGGGGCAC ATGGTGAAGG TAATTCGGTG TCGCTGGATT TTCAGAATTC TTTAGTGTCC 
    AAACCAGACC CACCTCCATC TCAGAATAAG CCAGCAACTT TCAGACCACC GAACCGAGAA 
    GACACTGTTC AGTCTACTTT CTATCCCCAG AAAAGTTTCC CAGATAAAGC TCCAGCTAAT 
    GGAGCTGAAC AGACTCAGAA AACGGTCACT CCAGCATATA ATCGATTCAC GCCAAAACCA 
    TACACAAGTT CTGCCCGGCC ATTTGAGCGC AAGTTCGAAA GTCCTAAATT CAACCACAAT 
    CTGCTGCCAA GTGAAACGGC ACATAAACCT GACTTGTCTT CAAAAGCCCC CGCTTCTCCC 
    AAAACACTTG CGAAAGCACA CAGCGCGACA CAGCCTCCTG AGTTTGACAG CGGGGTTGAA 
    ACTTTCTCCA TCCACGCGGA TAAGCCTAAA TATCAAATGA ACAATATCAG CACAGTGCCT 
    AAAGCTATTC CTGTGAGCCC TTCAGCTGTG GAAGAAGATG AAGATGAGGA TGGTCATACT 
    GTGGTGGCCA CAGCCCGAGG CGTGTTTAAC AGCAATGGTG GGGTGTTGAG TTCCATAGAA 
    ACTGGTGTTA GTATAATTAT CCCACAAGGA GCCATTCCTG AGGGAATTGA GCAGGAAATC 
    TATTTCAAGG TCTGCCGAGA CAACAGCATC CTCCCGCCTT TAGATAAGGA GAAAGGTGAG 
    ACACTGCTGA GCCCTTTAGT GATGTGTGGG CCCCATGGCC TCAAGTTCCT GAAGCCCGTG 
    GAGCTGCGCT TACCACACTG TGCGTCCATG ACTCCTGACG GTTGGTCTTT TGCTCTAAAA 
    TCATCCGACT CCTCGTCGGG TGATCCTAAA ACATGGCAAA ACAAGTGTCT TCCTGGAGAT 
    CCAAATTACC TTGTTGGAGC AAACTGTGTT TCTGTACTGA TTGACCACTT TTAA

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

    RefSeq XP_011230577.1
    CDS99..5372
    Translation

    Target ORF information:

    RefSeq Version XM_011232275.2
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca 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_011232275.2

    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
    ATGGAGGAAA CAGCTATATG GGAACAACAC ACAGTGACTC TTCACAGGGC TCCTGGATTT 
    GGATTTGGAA TTGCAATATC TGGTGGAAGA GACAACCCTC ATTTTCAGAG TGGGGAAACT 
    TCCATAGTAA TTTCAGATGT GCTGAAAGGG GGACCCGCTG AAGGACAGCT ACAGGAAAAT 
    GACCGAGTTG CAATGGTTAA TGGAGTTTCA ATGGACAATG TTGAACATGC TTTTGCTGTT 
    CAGCAACTAA GGAAAAGTGG GAAGAATGCA AAAATTACCA TTCGGAGGAA GAAGAAAGTT 
    CAGATACCAG TTAGTCGTCC TGATCCTGAA CCGGTATCTG GGAATGAAGA AGATAGTTAC 
    GATGAGGAAG TCCATGACCC AAGAAGCAGC CGTGGCGGTC TGGTCAGTAG AAGGAGTGAG 
    AAGAGTTGGG CAAGGGATAG AAGTGCAAGC AGAGAGAGGA GTTTGTCCCC ACGGTCTGAT 
    AGGCGATCTG TGGCCTCCAG TCAACCTGCC AAACCCACCA AAGTTACATT GGTGAAATCC 
    CGGAAAAATG AAGAATATGG TCTTCGATTG GCCAGCCATA TATTTGTAAA GGAAATTTCA 
    CAAGATAGTT TGGCAGCAAG AGATGGCAAT ATTCAAGAAG GCGATGTTGT ACTAAAGATA 
    AATGGTACCG TGACAGAAAA TATGTCACTG ACAGATGCAA AAACATTGAT AGAAAGGTCT 
    AAAGGCAAGT TAAAAATGGT AGTTCAGAGG GATGAACGGG CTACCCTATT GAACGTCCCT 
    GATCTTTCTG ACAGTATCCA TTCTGCTAAT GCCTCTGAGA GAGATGACAT TTCAGAAATT 
    CAGTCACTGG CCTCAGATCA TTCTGGTCGA TCACATGATA GACCTCCCCG CCACAGCCGG 
    TCACGATCAC CTGACCAGCG GTCAGAGCCT TCTGATCATT CCAGACACTC TCCACAGCAG 
    CCCAGCAGTG GCAGTCTCCG GAGCAGAGAG GAAGAGAGAA TTTCTAAACC TGGGGCTGTC 
    TCAACTCCTC TGAAGCATGC GGATGATCAT ACACCTAAAA CGGTAGAAGA AGTTGTAGTT 
    GAGAGAAATG AGAAACAAGC GCCCACTCTT CCAGAACCAA AGCCTGTGTA TGCTCAAGGT 
    GGACAACCAG ACGTGGATTT ACCTGTCAGT CCGTCTGATG GCGTCCTGCC TAATTCAACT 
    CATGAAGATG GGATTCTCCG GCCCAGCATG AAATTGGTAA AATTCAGAAA AGGAGATAGT 
    GTGGGTCTGC GCCTGGCTGG TGGAAATGAT GTTGGAATAT TTGTAGCTGG TGTTCTAGAA 
    GATAGCCCTG CAGCCAAAGA AGGCTTAGAA GAGGGTGATC AAATTCTCAG GGTAAACAAT 
    GTAGATTTCA CAAACATCAT AAGAGAAGAA GCTGTCCTTT TCCTGCTCGA CCTCCCTAAA 
    GGAGAAGAAG TGACCATATT GGCTCAGAAG AAGAAAGATG TTTATCGTCG CATCGTAGAA 
    TCAGATGTAG GAGATTCTTT CTATATTAGA ACCCATTTTG AATATGAAAA GGAATCTCCC 
    TATGGACTTA GTTTTAACAA AGGAGAGGTG TTCCGTGTTG TGGATACCTT GTACAATGGG 
    AAACTAGGCT CTTGGCTCGC TATTCGAATT GGTAAAAATC ATAAAGAAGT AGAACGAGGC 
    ATCATCCCTA ACAAGAACAG GGCTGAGCAG TTAGCCAGTG TACAGTACAC ACTTCCAAAA 
    ACAGCTGGGG GAGACCGTGC TGACTTCTGG AGATTCCGGG GTCTTCGCAG TTCCAAGAGA 
    AATCTTCGAA AGAGCAGAGA GGATTTGTCA GCTCAGCCAG TTCAAACAAA GTTTCCAGCC 
    TATGAAAGAG TTGTTCTTCG AGAAGCTGGA TTTCTGAGGC CTGTAACTAT CTTTGGACCC 
    ATAGCTGATG TTGCCCGAGA AAAGCTGGCA AGAGAGGAAC CAGATATTTA TCAGATTGCA 
    AAAAGTGAAC CACGAGATGC TGGAACTGAC CAACGTAGCT CTGGCATTAT TCGCCTTCAT 
    ACAATAAAGC AAATAATAGA TCAGGACAAA CATGCTTTAT TAGATGTAAC ACCAAATGCA 
    GTTGATCGTC TGAATTATGC CCAGTGGTAT CCAATTGTAG TATTCCTTAA CCCTGATTCT 
    AAGCAAGGTG TGAAAACTAT GAGGATGAGG TTATGTCCAG AATCTCGGAA AAGTGCCAGG 
    AAATTATATG AACGATCTCA TAAACTTCGT AAAAATAATC ACCATCTTTT TACAACTACA 
    ATTAACTTAA ATTCAATGAA TGATGGTTGG TATGGTGCAT TGAAAGAAGC AATTCAGCAA 
    CAACAGAACC AGTTGGTATG GGTTTCTGAG GGAAAGGCGG ATGGTGCTAC AAGTGATGAC 
    CTTGATTTGC ATGATGATCG TCTGTCCTAC CTGTCAGCCC CAGGTAGTGA ATACTCAATG 
    TATAGCACGG ACAGTAGACA CACTTCTGAC TATGAAGACA CAGATACAGA AGGCGGGGCC 
    TACACTGATC AAGAACTAGA TGAAACTCTT AATGATGAGG TTGGGACTCC ACCGGAGTCT 
    GCCATTACAC GGTCCTCTGA GCCTGTAAGA GAGGACTCCT CTGGAATGCA TCATGAAAAC 
    CAAACATATC CTCCTTATTC ACCACAAGCG CAGCCACAAC CAATTCATAG AATAGACTCC 
    CCTGGATTTA AAACAGCCTC TCAACAGAAA GCAGAAGCCT CATCTCCAGT CCCTTACCTT 
    TCGCCTGAAA CAAACTCAGC ATCATCAACC TCTGCTGTTA ACCATAATGT AACTTTAACT 
    AATGTCAGAC TGGAGGGGCC CACCCCAGCT CCTTCCACCT CTTACTCACC ACAAGCTGAT 
    TCTTTAAGAA CACCAAGTAC TGAGGCAGCT CACATAATGC TAAGAGATCA AGAGCCATCA 
    TTGCCGTCGC ATGTAGATCC AGCAAAGGTG TATAGAAAAG ATCCCTATCC TGAGGAAATG 
    ATGAGACAGA ATCACGTTTT GAAACAGCCA GCTGTTGGTC ACCCAGGGCA GAGGCCAGAC 
    AAAGAGCCTA ATCTGAGCTA TGAATCCCAA CCCCCATATG TAGAGAAACA AGCCAACAGA 
    GACCTCGAGC AGCCCACATA CAGATATGAC TCCTCAAGTT ACACAGACCA GTTTTCTCGA 
    AACTATGACC ATCGTCTCCG CTACGAAGAG CGCATTCCTA CATATGAAGA GCAGTGGTCT 
    TATTATGATG ACAAACAGCC CTACCAGCCT CGGACGCCTT TTGATAATCA GCACCCTCGG 
    GACCTTGACT CCAGACAGCA TCCTGAAGAG TCCTCAGAAC GAGGCTATTA CCCACGTTTT 
    GAAGAGCCAG CCCCTCTGTC CTATGACAGC AGACCACGCT ATGACCAGCC ACCTAGAACC 
    TCCACCCTAC GACATGAAGA GCAGCCAGCT CCTGGGTATG ACATGCACAA CAGATACAGG 
    CCGGAAGCAC AGTCCTATTC AGTAGGCCCG AAGGCGACTG AACCCAAACA GTATTTTGAC 
    CAATACCCAC GAAGTTACGA GCAAGTACCA CCACAAGGAT TTACCTCTAA AGCAGGCCAC 
    TATGAGCCTC TCCATGGTGC TGCAGTTGTC CCTCCTCTAA TTCCCGCATC TCAACACAAG 
    CCAGAAGTTC TGCCTTCAAA TACCAAACCA CTGCCTCCAC CCCCCACTCT GACTGAAGAG 
    GAGGAAGATC CAGCAATGAA GCCCCAGTCT GTGCTCACTA GAGTGAAAAT GTTTGAAAAC 
    AAAAGATCTG CATCATTGGA GAGCAAGAAG GATGAAAACC ACACTGCTGC TTTTAAGCCT 
    CCAGAGGTAG CATCTAAACC TTCAGGTGCT CCCATCATTG GCCCTAAAGC CACTCCTCAG 
    AATCAGTTCA GTGAACATGA CAAAACACTG TACAGGATCC CAGAACCTCA AAAACCTCAA 
    ATGAAGCCAC CCGAAGATAT TGTTCGGTCT AATCATTATG ATCCCGAGGA AGATGAAGAA 
    TATTATCGAA AACAGCTCTC ATACTTTGAC CGAAGAAGTT TTGAAAACAA GCCTTCTACA 
    CACATTCCTG CTGGCCATCT CTCAGAGCCT GCCAAGCCAG TTCATTCTCA GAATCAACCA 
    AACTTTTCTA GTTATTCTTC AAAGGGAAAG TCTCCTGAAG CTGATGGCAT GGATAGAGCA 
    TTTGGTGAGA AGCGCTATGA GCCAGTCCAG GCCACTCCCC CTCCTCCCCC ATTGCCCTCC 
    CAGTACGCCC AGCCTGCTCA GTCCAGTACC AGCTCCTCTC TTGCCCTCCA CACGCATGCC 
    AAGGGGGCAC ATGGTGAAGG TAATTCGGTG TCGCTGGATT TTCAGAATTC TTTAGTGTCC 
    AAACCAGACC CACCTCCATC TCAGAATAAG CCAGCAACTT TCAGACCACC GAACCGAGAA 
    GACACTGTTC AGTCTACTTT CTATCCCCAG AAAAGTTTCC CAGATAAAGC TCCAGCTAAT 
    GGAGCTGAAC AGACTCAGAA AACGGTCACT CCAGCATATA ATCGATTCAC GCCAAAACCA 
    TACACAAGTT CTGCCCGGCC ATTTGAGCGC AAGTTCGAAA GTCCTAAATT CAACCACAAT 
    CTGCTGCCAA GTGAAACGGC ACATAAACCT GACTTGTCTT CAAAAGCCCC CGCTTCTCCC 
    AAAACACTTG CGAAAGCACA CAGCGCGACA CAGCCTCCTG AGTTTGACAG CGGGGTTGAA 
    ACTTTCTCCA TCCACGCGGA TAAGCCTAAA TATCAAATGA ACAATATCAG CACAGTGCCT 
    AAAGCTATTC CTGTGAGCCC TTCAGCTGTG GAAGAAGATG AAGATGAGGA TGGTCATACT 
    GTGGTGGCCA CAGCCCGAGG CGTGTTTAAC AGCAATGGTG GGGTGTTGAG TTCCATAGAA 
    ACTGGTGTTA GTATAATTAT CCCACAAGGA GCCATTCCTG AGGGAATTGA GCAGGAAATC 
    TATTTCAAGG TCTGCCGAGA CAACAGCATC CTCCCGCCTT TAGATAAGGA GAAAGGTGAG 
    ACACTGCTGA GCCCTTTAGT GATGTGTGGG CCCCATGGCC TCAAGTTCCT GAAGCCCGTG 
    GAGCTGCGCT TACCACACTG TGCGTCCATG ACTCCTGACG GTTGGTCTTT TGCTCTAAAA 
    TCATCCGACT CCTCGTCGGG TGATCCTAAA ACATGGCAAA ACAAGTGTCT TCCTGGAGAT 
    CCAAATTACC TTGTTGGAGC AAACTGTGTT TCTGTACTGA TTGACCACTT TTAA

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

    TJP1 ( XM_019805910.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019661469.1 Ailuropoda melanoleuca tight junction protein 1 (TJP1), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OAc29353
    Clone ID Related Accession (Same CDS sequence) XM_011232275.2 , XM_019805910.1
    Accession Version XM_019805910.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5274bp)
    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 1482768000000
    Organism Ailuropoda melanoleuca(giant panda)
    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 (NW_003218187.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    ATGGAGGAAA CAGCTATATG GGAACAACAC ACAGTGACTC TTCACAGGGC TCCTGGATTT 
    GGATTTGGAA TTGCAATATC TGGTGGAAGA GACAACCCTC ATTTTCAGAG TGGGGAAACT 
    TCCATAGTAA TTTCAGATGT GCTGAAAGGG GGACCCGCTG AAGGACAGCT ACAGGAAAAT 
    GACCGAGTTG CAATGGTTAA TGGAGTTTCA ATGGACAATG TTGAACATGC TTTTGCTGTT 
    CAGCAACTAA GGAAAAGTGG GAAGAATGCA AAAATTACCA TTCGGAGGAA GAAGAAAGTT 
    CAGATACCAG TTAGTCGTCC TGATCCTGAA CCGGTATCTG GGAATGAAGA AGATAGTTAC 
    GATGAGGAAG TCCATGACCC AAGAAGCAGC CGTGGCGGTC TGGTCAGTAG AAGGAGTGAG 
    AAGAGTTGGG CAAGGGATAG AAGTGCAAGC AGAGAGAGGA GTTTGTCCCC ACGGTCTGAT 
    AGGCGATCTG TGGCCTCCAG TCAACCTGCC AAACCCACCA AAGTTACATT GGTGAAATCC 
    CGGAAAAATG AAGAATATGG TCTTCGATTG GCCAGCCATA TATTTGTAAA GGAAATTTCA 
    CAAGATAGTT TGGCAGCAAG AGATGGCAAT ATTCAAGAAG GCGATGTTGT ACTAAAGATA 
    AATGGTACCG TGACAGAAAA TATGTCACTG ACAGATGCAA AAACATTGAT AGAAAGGTCT 
    AAAGGCAAGT TAAAAATGGT AGTTCAGAGG GATGAACGGG CTACCCTATT GAACGTCCCT 
    GATCTTTCTG ACAGTATCCA TTCTGCTAAT GCCTCTGAGA GAGATGACAT TTCAGAAATT 
    CAGTCACTGG CCTCAGATCA TTCTGGTCGA TCACATGATA GACCTCCCCG CCACAGCCGG 
    TCACGATCAC CTGACCAGCG GTCAGAGCCT TCTGATCATT CCAGACACTC TCCACAGCAG 
    CCCAGCAGTG GCAGTCTCCG GAGCAGAGAG GAAGAGAGAA TTTCTAAACC TGGGGCTGTC 
    TCAACTCCTC TGAAGCATGC GGATGATCAT ACACCTAAAA CGGTAGAAGA AGTTGTAGTT 
    GAGAGAAATG AGAAACAAGC GCCCACTCTT CCAGAACCAA AGCCTGTGTA TGCTCAAGGT 
    GGACAACCAG ACGTGGATTT ACCTGTCAGT CCGTCTGATG GCGTCCTGCC TAATTCAACT 
    CATGAAGATG GGATTCTCCG GCCCAGCATG AAATTGGTAA AATTCAGAAA AGGAGATAGT 
    GTGGGTCTGC GCCTGGCTGG TGGAAATGAT GTTGGAATAT TTGTAGCTGG TGTTCTAGAA 
    GATAGCCCTG CAGCCAAAGA AGGCTTAGAA GAGGGTGATC AAATTCTCAG GGTAAACAAT 
    GTAGATTTCA CAAACATCAT AAGAGAAGAA GCTGTCCTTT TCCTGCTCGA CCTCCCTAAA 
    GGAGAAGAAG TGACCATATT GGCTCAGAAG AAGAAAGATG TTTATCGTCG CATCGTAGAA 
    TCAGATGTAG GAGATTCTTT CTATATTAGA ACCCATTTTG AATATGAAAA GGAATCTCCC 
    TATGGACTTA GTTTTAACAA AGGAGAGGTG TTCCGTGTTG TGGATACCTT GTACAATGGG 
    AAACTAGGCT CTTGGCTCGC TATTCGAATT GGTAAAAATC ATAAAGAAGT AGAACGAGGC 
    ATCATCCCTA ACAAGAACAG GGCTGAGCAG TTAGCCAGTG TACAGTACAC ACTTCCAAAA 
    ACAGCTGGGG GAGACCGTGC TGACTTCTGG AGATTCCGGG GTCTTCGCAG TTCCAAGAGA 
    AATCTTCGAA AGAGCAGAGA GGATTTGTCA GCTCAGCCAG TTCAAACAAA GTTTCCAGCC 
    TATGAAAGAG TTGTTCTTCG AGAAGCTGGA TTTCTGAGGC CTGTAACTAT CTTTGGACCC 
    ATAGCTGATG TTGCCCGAGA AAAGCTGGCA AGAGAGGAAC CAGATATTTA TCAGATTGCA 
    AAAAGTGAAC CACGAGATGC TGGAACTGAC CAACGTAGCT CTGGCATTAT TCGCCTTCAT 
    ACAATAAAGC AAATAATAGA TCAGGACAAA CATGCTTTAT TAGATGTAAC ACCAAATGCA 
    GTTGATCGTC TGAATTATGC CCAGTGGTAT CCAATTGTAG TATTCCTTAA CCCTGATTCT 
    AAGCAAGGTG TGAAAACTAT GAGGATGAGG TTATGTCCAG AATCTCGGAA AAGTGCCAGG 
    AAATTATATG AACGATCTCA TAAACTTCGT AAAAATAATC ACCATCTTTT TACAACTACA 
    ATTAACTTAA ATTCAATGAA TGATGGTTGG TATGGTGCAT TGAAAGAAGC AATTCAGCAA 
    CAACAGAACC AGTTGGTATG GGTTTCTGAG GGAAAGGCGG ATGGTGCTAC AAGTGATGAC 
    CTTGATTTGC ATGATGATCG TCTGTCCTAC CTGTCAGCCC CAGGTAGTGA ATACTCAATG 
    TATAGCACGG ACAGTAGACA CACTTCTGAC TATGAAGACA CAGATACAGA AGGCGGGGCC 
    TACACTGATC AAGAACTAGA TGAAACTCTT AATGATGAGG TTGGGACTCC ACCGGAGTCT 
    GCCATTACAC GGTCCTCTGA GCCTGTAAGA GAGGACTCCT CTGGAATGCA TCATGAAAAC 
    CAAACATATC CTCCTTATTC ACCACAAGCG CAGCCACAAC CAATTCATAG AATAGACTCC 
    CCTGGATTTA AAACAGCCTC TCAACAGAAA GCAGAAGCCT CATCTCCAGT CCCTTACCTT 
    TCGCCTGAAA CAAACTCAGC ATCATCAACC TCTGCTGTTA ACCATAATGT AACTTTAACT 
    AATGTCAGAC TGGAGGGGCC CACCCCAGCT CCTTCCACCT CTTACTCACC ACAAGCTGAT 
    TCTTTAAGAA CACCAAGTAC TGAGGCAGCT CACATAATGC TAAGAGATCA AGAGCCATCA 
    TTGCCGTCGC ATGTAGATCC AGCAAAGGTG TATAGAAAAG ATCCCTATCC TGAGGAAATG 
    ATGAGACAGA ATCACGTTTT GAAACAGCCA GCTGTTGGTC ACCCAGGGCA GAGGCCAGAC 
    AAAGAGCCTA ATCTGAGCTA TGAATCCCAA CCCCCATATG TAGAGAAACA AGCCAACAGA 
    GACCTCGAGC AGCCCACATA CAGATATGAC TCCTCAAGTT ACACAGACCA GTTTTCTCGA 
    AACTATGACC ATCGTCTCCG CTACGAAGAG CGCATTCCTA CATATGAAGA GCAGTGGTCT 
    TATTATGATG ACAAACAGCC CTACCAGCCT CGGACGCCTT TTGATAATCA GCACCCTCGG 
    GACCTTGACT CCAGACAGCA TCCTGAAGAG TCCTCAGAAC GAGGCTATTA CCCACGTTTT 
    GAAGAGCCAG CCCCTCTGTC CTATGACAGC AGACCACGCT ATGACCAGCC ACCTAGAACC 
    TCCACCCTAC GACATGAAGA GCAGCCAGCT CCTGGGTATG ACATGCACAA CAGATACAGG 
    CCGGAAGCAC AGTCCTATTC AGTAGGCCCG AAGGCGACTG AACCCAAACA GTATTTTGAC 
    CAATACCCAC GAAGTTACGA GCAAGTACCA CCACAAGGAT TTACCTCTAA AGCAGGCCAC 
    TATGAGCCTC TCCATGGTGC TGCAGTTGTC CCTCCTCTAA TTCCCGCATC TCAACACAAG 
    CCAGAAGTTC TGCCTTCAAA TACCAAACCA CTGCCTCCAC CCCCCACTCT GACTGAAGAG 
    GAGGAAGATC CAGCAATGAA GCCCCAGTCT GTGCTCACTA GAGTGAAAAT GTTTGAAAAC 
    AAAAGATCTG CATCATTGGA GAGCAAGAAG GATGAAAACC ACACTGCTGC TTTTAAGCCT 
    CCAGAGGTAG CATCTAAACC TTCAGGTGCT CCCATCATTG GCCCTAAAGC CACTCCTCAG 
    AATCAGTTCA GTGAACATGA CAAAACACTG TACAGGATCC CAGAACCTCA AAAACCTCAA 
    ATGAAGCCAC CCGAAGATAT TGTTCGGTCT AATCATTATG ATCCCGAGGA AGATGAAGAA 
    TATTATCGAA AACAGCTCTC ATACTTTGAC CGAAGAAGTT TTGAAAACAA GCCTTCTACA 
    CACATTCCTG CTGGCCATCT CTCAGAGCCT GCCAAGCCAG TTCATTCTCA GAATCAACCA 
    AACTTTTCTA GTTATTCTTC AAAGGGAAAG TCTCCTGAAG CTGATGGCAT GGATAGAGCA 
    TTTGGTGAGA AGCGCTATGA GCCAGTCCAG GCCACTCCCC CTCCTCCCCC ATTGCCCTCC 
    CAGTACGCCC AGCCTGCTCA GTCCAGTACC AGCTCCTCTC TTGCCCTCCA CACGCATGCC 
    AAGGGGGCAC ATGGTGAAGG TAATTCGGTG TCGCTGGATT TTCAGAATTC TTTAGTGTCC 
    AAACCAGACC CACCTCCATC TCAGAATAAG CCAGCAACTT TCAGACCACC GAACCGAGAA 
    GACACTGTTC AGTCTACTTT CTATCCCCAG AAAAGTTTCC CAGATAAAGC TCCAGCTAAT 
    GGAGCTGAAC AGACTCAGAA AACGGTCACT CCAGCATATA ATCGATTCAC GCCAAAACCA 
    TACACAAGTT CTGCCCGGCC ATTTGAGCGC AAGTTCGAAA GTCCTAAATT CAACCACAAT 
    CTGCTGCCAA GTGAAACGGC ACATAAACCT GACTTGTCTT CAAAAGCCCC CGCTTCTCCC 
    AAAACACTTG CGAAAGCACA CAGCGCGACA CAGCCTCCTG AGTTTGACAG CGGGGTTGAA 
    ACTTTCTCCA TCCACGCGGA TAAGCCTAAA TATCAAATGA ACAATATCAG CACAGTGCCT 
    AAAGCTATTC CTGTGAGCCC TTCAGCTGTG GAAGAAGATG AAGATGAGGA TGGTCATACT 
    GTGGTGGCCA CAGCCCGAGG CGTGTTTAAC AGCAATGGTG GGGTGTTGAG TTCCATAGAA 
    ACTGGTGTTA GTATAATTAT CCCACAAGGA GCCATTCCTG AGGGAATTGA GCAGGAAATC 
    TATTTCAAGG TCTGCCGAGA CAACAGCATC CTCCCGCCTT TAGATAAGGA GAAAGGTGAG 
    ACACTGCTGA GCCCTTTAGT GATGTGTGGG CCCCATGGCC TCAAGTTCCT GAAGCCCGTG 
    GAGCTGCGCT TACCACACTG TGCGTCCATG ACTCCTGACG GTTGGTCTTT TGCTCTAAAA 
    TCATCCGACT CCTCGTCGGG TGATCCTAAA ACATGGCAAA ACAAGTGTCT TCCTGGAGAT 
    CCAAATTACC TTGTTGGAGC AAACTGTGTT TCTGTACTGA TTGACCACTT TTAA

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

    RefSeq XP_019661469.1
    CDS50..5323
    Translation

    Target ORF information:

    RefSeq Version XM_019805910.1
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca 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_019805910.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    ATGGAGGAAA CAGCTATATG GGAACAACAC ACAGTGACTC TTCACAGGGC TCCTGGATTT 
    GGATTTGGAA TTGCAATATC TGGTGGAAGA GACAACCCTC ATTTTCAGAG TGGGGAAACT 
    TCCATAGTAA TTTCAGATGT GCTGAAAGGG GGACCCGCTG AAGGACAGCT ACAGGAAAAT 
    GACCGAGTTG CAATGGTTAA TGGAGTTTCA ATGGACAATG TTGAACATGC TTTTGCTGTT 
    CAGCAACTAA GGAAAAGTGG GAAGAATGCA AAAATTACCA TTCGGAGGAA GAAGAAAGTT 
    CAGATACCAG TTAGTCGTCC TGATCCTGAA CCGGTATCTG GGAATGAAGA AGATAGTTAC 
    GATGAGGAAG TCCATGACCC AAGAAGCAGC CGTGGCGGTC TGGTCAGTAG AAGGAGTGAG 
    AAGAGTTGGG CAAGGGATAG AAGTGCAAGC AGAGAGAGGA GTTTGTCCCC ACGGTCTGAT 
    AGGCGATCTG TGGCCTCCAG TCAACCTGCC AAACCCACCA AAGTTACATT GGTGAAATCC 
    CGGAAAAATG AAGAATATGG TCTTCGATTG GCCAGCCATA TATTTGTAAA GGAAATTTCA 
    CAAGATAGTT TGGCAGCAAG AGATGGCAAT ATTCAAGAAG GCGATGTTGT ACTAAAGATA 
    AATGGTACCG TGACAGAAAA TATGTCACTG ACAGATGCAA AAACATTGAT AGAAAGGTCT 
    AAAGGCAAGT TAAAAATGGT AGTTCAGAGG GATGAACGGG CTACCCTATT GAACGTCCCT 
    GATCTTTCTG ACAGTATCCA TTCTGCTAAT GCCTCTGAGA GAGATGACAT TTCAGAAATT 
    CAGTCACTGG CCTCAGATCA TTCTGGTCGA TCACATGATA GACCTCCCCG CCACAGCCGG 
    TCACGATCAC CTGACCAGCG GTCAGAGCCT TCTGATCATT CCAGACACTC TCCACAGCAG 
    CCCAGCAGTG GCAGTCTCCG GAGCAGAGAG GAAGAGAGAA TTTCTAAACC TGGGGCTGTC 
    TCAACTCCTC TGAAGCATGC GGATGATCAT ACACCTAAAA CGGTAGAAGA AGTTGTAGTT 
    GAGAGAAATG AGAAACAAGC GCCCACTCTT CCAGAACCAA AGCCTGTGTA TGCTCAAGGT 
    GGACAACCAG ACGTGGATTT ACCTGTCAGT CCGTCTGATG GCGTCCTGCC TAATTCAACT 
    CATGAAGATG GGATTCTCCG GCCCAGCATG AAATTGGTAA AATTCAGAAA AGGAGATAGT 
    GTGGGTCTGC GCCTGGCTGG TGGAAATGAT GTTGGAATAT TTGTAGCTGG TGTTCTAGAA 
    GATAGCCCTG CAGCCAAAGA AGGCTTAGAA GAGGGTGATC AAATTCTCAG GGTAAACAAT 
    GTAGATTTCA CAAACATCAT AAGAGAAGAA GCTGTCCTTT TCCTGCTCGA CCTCCCTAAA 
    GGAGAAGAAG TGACCATATT GGCTCAGAAG AAGAAAGATG TTTATCGTCG CATCGTAGAA 
    TCAGATGTAG GAGATTCTTT CTATATTAGA ACCCATTTTG AATATGAAAA GGAATCTCCC 
    TATGGACTTA GTTTTAACAA AGGAGAGGTG TTCCGTGTTG TGGATACCTT GTACAATGGG 
    AAACTAGGCT CTTGGCTCGC TATTCGAATT GGTAAAAATC ATAAAGAAGT AGAACGAGGC 
    ATCATCCCTA ACAAGAACAG GGCTGAGCAG TTAGCCAGTG TACAGTACAC ACTTCCAAAA 
    ACAGCTGGGG GAGACCGTGC TGACTTCTGG AGATTCCGGG GTCTTCGCAG TTCCAAGAGA 
    AATCTTCGAA AGAGCAGAGA GGATTTGTCA GCTCAGCCAG TTCAAACAAA GTTTCCAGCC 
    TATGAAAGAG TTGTTCTTCG AGAAGCTGGA TTTCTGAGGC CTGTAACTAT CTTTGGACCC 
    ATAGCTGATG TTGCCCGAGA AAAGCTGGCA AGAGAGGAAC CAGATATTTA TCAGATTGCA 
    AAAAGTGAAC CACGAGATGC TGGAACTGAC CAACGTAGCT CTGGCATTAT TCGCCTTCAT 
    ACAATAAAGC AAATAATAGA TCAGGACAAA CATGCTTTAT TAGATGTAAC ACCAAATGCA 
    GTTGATCGTC TGAATTATGC CCAGTGGTAT CCAATTGTAG TATTCCTTAA CCCTGATTCT 
    AAGCAAGGTG TGAAAACTAT GAGGATGAGG TTATGTCCAG AATCTCGGAA AAGTGCCAGG 
    AAATTATATG AACGATCTCA TAAACTTCGT AAAAATAATC ACCATCTTTT TACAACTACA 
    ATTAACTTAA ATTCAATGAA TGATGGTTGG TATGGTGCAT TGAAAGAAGC AATTCAGCAA 
    CAACAGAACC AGTTGGTATG GGTTTCTGAG GGAAAGGCGG ATGGTGCTAC AAGTGATGAC 
    CTTGATTTGC ATGATGATCG TCTGTCCTAC CTGTCAGCCC CAGGTAGTGA ATACTCAATG 
    TATAGCACGG ACAGTAGACA CACTTCTGAC TATGAAGACA CAGATACAGA AGGCGGGGCC 
    TACACTGATC AAGAACTAGA TGAAACTCTT AATGATGAGG TTGGGACTCC ACCGGAGTCT 
    GCCATTACAC GGTCCTCTGA GCCTGTAAGA GAGGACTCCT CTGGAATGCA TCATGAAAAC 
    CAAACATATC CTCCTTATTC ACCACAAGCG CAGCCACAAC CAATTCATAG AATAGACTCC 
    CCTGGATTTA AAACAGCCTC TCAACAGAAA GCAGAAGCCT CATCTCCAGT CCCTTACCTT 
    TCGCCTGAAA CAAACTCAGC ATCATCAACC TCTGCTGTTA ACCATAATGT AACTTTAACT 
    AATGTCAGAC TGGAGGGGCC CACCCCAGCT CCTTCCACCT CTTACTCACC ACAAGCTGAT 
    TCTTTAAGAA CACCAAGTAC TGAGGCAGCT CACATAATGC TAAGAGATCA AGAGCCATCA 
    TTGCCGTCGC ATGTAGATCC AGCAAAGGTG TATAGAAAAG ATCCCTATCC TGAGGAAATG 
    ATGAGACAGA ATCACGTTTT GAAACAGCCA GCTGTTGGTC ACCCAGGGCA GAGGCCAGAC 
    AAAGAGCCTA ATCTGAGCTA TGAATCCCAA CCCCCATATG TAGAGAAACA AGCCAACAGA 
    GACCTCGAGC AGCCCACATA CAGATATGAC TCCTCAAGTT ACACAGACCA GTTTTCTCGA 
    AACTATGACC ATCGTCTCCG CTACGAAGAG CGCATTCCTA CATATGAAGA GCAGTGGTCT 
    TATTATGATG ACAAACAGCC CTACCAGCCT CGGACGCCTT TTGATAATCA GCACCCTCGG 
    GACCTTGACT CCAGACAGCA TCCTGAAGAG TCCTCAGAAC GAGGCTATTA CCCACGTTTT 
    GAAGAGCCAG CCCCTCTGTC CTATGACAGC AGACCACGCT ATGACCAGCC ACCTAGAACC 
    TCCACCCTAC GACATGAAGA GCAGCCAGCT CCTGGGTATG ACATGCACAA CAGATACAGG 
    CCGGAAGCAC AGTCCTATTC AGTAGGCCCG AAGGCGACTG AACCCAAACA GTATTTTGAC 
    CAATACCCAC GAAGTTACGA GCAAGTACCA CCACAAGGAT TTACCTCTAA AGCAGGCCAC 
    TATGAGCCTC TCCATGGTGC TGCAGTTGTC CCTCCTCTAA TTCCCGCATC TCAACACAAG 
    CCAGAAGTTC TGCCTTCAAA TACCAAACCA CTGCCTCCAC CCCCCACTCT GACTGAAGAG 
    GAGGAAGATC CAGCAATGAA GCCCCAGTCT GTGCTCACTA GAGTGAAAAT GTTTGAAAAC 
    AAAAGATCTG CATCATTGGA GAGCAAGAAG GATGAAAACC ACACTGCTGC TTTTAAGCCT 
    CCAGAGGTAG CATCTAAACC TTCAGGTGCT CCCATCATTG GCCCTAAAGC CACTCCTCAG 
    AATCAGTTCA GTGAACATGA CAAAACACTG TACAGGATCC CAGAACCTCA AAAACCTCAA 
    ATGAAGCCAC CCGAAGATAT TGTTCGGTCT AATCATTATG ATCCCGAGGA AGATGAAGAA 
    TATTATCGAA AACAGCTCTC ATACTTTGAC CGAAGAAGTT TTGAAAACAA GCCTTCTACA 
    CACATTCCTG CTGGCCATCT CTCAGAGCCT GCCAAGCCAG TTCATTCTCA GAATCAACCA 
    AACTTTTCTA GTTATTCTTC AAAGGGAAAG TCTCCTGAAG CTGATGGCAT GGATAGAGCA 
    TTTGGTGAGA AGCGCTATGA GCCAGTCCAG GCCACTCCCC CTCCTCCCCC ATTGCCCTCC 
    CAGTACGCCC AGCCTGCTCA GTCCAGTACC AGCTCCTCTC TTGCCCTCCA CACGCATGCC 
    AAGGGGGCAC ATGGTGAAGG TAATTCGGTG TCGCTGGATT TTCAGAATTC TTTAGTGTCC 
    AAACCAGACC CACCTCCATC TCAGAATAAG CCAGCAACTT TCAGACCACC GAACCGAGAA 
    GACACTGTTC AGTCTACTTT CTATCCCCAG AAAAGTTTCC CAGATAAAGC TCCAGCTAAT 
    GGAGCTGAAC AGACTCAGAA AACGGTCACT CCAGCATATA ATCGATTCAC GCCAAAACCA 
    TACACAAGTT CTGCCCGGCC ATTTGAGCGC AAGTTCGAAA GTCCTAAATT CAACCACAAT 
    CTGCTGCCAA GTGAAACGGC ACATAAACCT GACTTGTCTT CAAAAGCCCC CGCTTCTCCC 
    AAAACACTTG CGAAAGCACA CAGCGCGACA CAGCCTCCTG AGTTTGACAG CGGGGTTGAA 
    ACTTTCTCCA TCCACGCGGA TAAGCCTAAA TATCAAATGA ACAATATCAG CACAGTGCCT 
    AAAGCTATTC CTGTGAGCCC TTCAGCTGTG GAAGAAGATG AAGATGAGGA TGGTCATACT 
    GTGGTGGCCA CAGCCCGAGG CGTGTTTAAC AGCAATGGTG GGGTGTTGAG TTCCATAGAA 
    ACTGGTGTTA GTATAATTAT CCCACAAGGA GCCATTCCTG AGGGAATTGA GCAGGAAATC 
    TATTTCAAGG TCTGCCGAGA CAACAGCATC CTCCCGCCTT TAGATAAGGA GAAAGGTGAG 
    ACACTGCTGA GCCCTTTAGT GATGTGTGGG CCCCATGGCC TCAAGTTCCT GAAGCCCGTG 
    GAGCTGCGCT TACCACACTG TGCGTCCATG ACTCCTGACG GTTGGTCTTT TGCTCTAAAA 
    TCATCCGACT CCTCGTCGGG TGATCCTAAA ACATGGCAAA ACAAGTGTCT TCCTGGAGAT 
    CCAAATTACC TTGTTGGAGC AAACTGTGTT TCTGTACTGA TTGACCACTT TTAA

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

    TJP1 ( XM_019805908.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019661467.1 Ailuropoda melanoleuca tight junction protein 1 (TJP1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OAc96973
    Clone ID Related Accession (Same CDS sequence) XM_019805908.1
    Accession Version XM_019805908.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5325bp)
    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 1482768000000
    Organism Ailuropoda melanoleuca(giant panda)
    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 (NW_003218187.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    ATGCGTCAGA ACCAGAGCCA GTGGAACACA GTAGAAGACA AGAACACAGC AATGGAGGAA 
    ACAGCTATAT GGGAACAACA CACAGTGACT CTTCACAGGG CTCCTGGATT TGGATTTGGA 
    ATTGCAATAT CTGGTGGAAG AGACAACCCT CATTTTCAGA GTGGGGAAAC TTCCATAGTA 
    ATTTCAGATG TGCTGAAAGG GGGACCCGCT GAAGGACAGC TACAGGAAAA TGACCGAGTT 
    GCAATGGTTA ATGGAGTTTC AATGGACAAT GTTGAACATG CTTTTGCTGT TCAGCAACTA 
    AGGAAAAGTG GGAAGAATGC AAAAATTACC ATTCGGAGGA AGAAGAAAGT TCAGATACCA 
    GTTAGTCGTC CTGATCCTGA ACCGGTATCT GGGAATGAAG AAGATAGTTA CGATGAGGAA 
    GTCCATGACC CAAGAAGCAG CCGTGGCGGT CTGGTCAGTA GAAGGAGTGA GAAGAGTTGG 
    GCAAGGGATA GAAGTGCAAG CAGAGAGAGG AGTTTGTCCC CACGGTCTGA TAGGCGATCT 
    GTGGCCTCCA GTCAACCTGC CAAACCCACC AAAGTTACAT TGGTGAAATC CCGGAAAAAT 
    GAAGAATATG GTCTTCGATT GGCCAGCCAT ATATTTGTAA AGGAAATTTC ACAAGATAGT 
    TTGGCAGCAA GAGATGGCAA TATTCAAGAA GGCGATGTTG TACTAAAGAT AAATGGTACC 
    GTGACAGAAA ATATGTCACT GACAGATGCA AAAACATTGA TAGAAAGGTC TAAAGGCAAG 
    TTAAAAATGG TAGTTCAGAG GGATGAACGG GCTACCCTAT TGAACGTCCC TGATCTTTCT 
    GACAGTATCC ATTCTGCTAA TGCCTCTGAG AGAGATGACA TTTCAGAAAT TCAGTCACTG 
    GCCTCAGATC ATTCTGGTCG ATCACATGAT AGACCTCCCC GCCACAGCCG GTCACGATCA 
    CCTGACCAGC GGTCAGAGCC TTCTGATCAT TCCAGACACT CTCCACAGCA GCCCAGCAGT 
    GGCAGTCTCC GGAGCAGAGA GGAAGAGAGA ATTTCTAAAC CTGGGGCTGT CTCAACTCCT 
    CTGAAGCATG CGGATGATCA TACACCTAAA ACGGTAGAAG AAGTTGTAGT TGAGAGAAAT 
    GAGAAACAAG CGCCCACTCT TCCAGAACCA AAGCCTGTGT ATGCTCAAGG TGGACAACCA 
    GACGTGGATT TACCTGTCAG TCCGTCTGAT GGCGTCCTGC CTAATTCAAC TCATGAAGAT 
    GGGATTCTCC GGCCCAGCAT GAAATTGGTA AAATTCAGAA AAGGAGATAG TGTGGGTCTG 
    CGCCTGGCTG GTGGAAATGA TGTTGGAATA TTTGTAGCTG GTGTTCTAGA AGATAGCCCT 
    GCAGCCAAAG AAGGCTTAGA AGAGGGTGAT CAAATTCTCA GGGTAAACAA TGTAGATTTC 
    ACAAACATCA TAAGAGAAGA AGCTGTCCTT TTCCTGCTCG ACCTCCCTAA AGGAGAAGAA 
    GTGACCATAT TGGCTCAGAA GAAGAAAGAT GTTTATCGTC GCATCGTAGA ATCAGATGTA 
    GGAGATTCTT TCTATATTAG AACCCATTTT GAATATGAAA AGGAATCTCC CTATGGACTT 
    AGTTTTAACA AAGGAGAGGT GTTCCGTGTT GTGGATACCT TGTACAATGG GAAACTAGGC 
    TCTTGGCTCG CTATTCGAAT TGGTAAAAAT CATAAAGAAG TAGAACGAGG CATCATCCCT 
    AACAAGAACA GGGCTGAGCA GTTAGCCAGT GTACAGTACA CACTTCCAAA AACAGCTGGG 
    GGAGACCGTG CTGACTTCTG GAGATTCCGG GGTCTTCGCA GTTCCAAGAG AAATCTTCGA 
    AAGAGCAGAG AGGATTTGTC AGCTCAGCCA GTTCAAACAA AGTTTCCAGC CTATGAAAGA 
    GTTGTTCTTC GAGAAGCTGG ATTTCTGAGG CCTGTAACTA TCTTTGGACC CATAGCTGAT 
    GTTGCCCGAG AAAAGCTGGC AAGAGAGGAA CCAGATATTT ATCAGATTGC AAAAAGTGAA 
    CCACGAGATG CTGGAACTGA CCAACGTAGC TCTGGCATTA TTCGCCTTCA TACAATAAAG 
    CAAATAATAG ATCAGGACAA ACATGCTTTA TTAGATGTAA CACCAAATGC AGTTGATCGT 
    CTGAATTATG CCCAGTGGTA TCCAATTGTA GTATTCCTTA ACCCTGATTC TAAGCAAGGT 
    GTGAAAACTA TGAGGATGAG GTTATGTCCA GAATCTCGGA AAAGTGCCAG GAAATTATAT 
    GAACGATCTC ATAAACTTCG TAAAAATAAT CACCATCTTT TTACAACTAC AATTAACTTA 
    AATTCAATGA ATGATGGTTG GTATGGTGCA TTGAAAGAAG CAATTCAGCA ACAACAGAAC 
    CAGTTGGTAT GGGTTTCTGA GGGAAAGGCG GATGGTGCTA CAAGTGATGA CCTTGATTTG 
    CATGATGATC GTCTGTCCTA CCTGTCAGCC CCAGGTAGTG AATACTCAAT GTATAGCACG 
    GACAGTAGAC ACACTTCTGA CTATGAAGAC ACAGATACAG AAGGCGGGGC CTACACTGAT 
    CAAGAACTAG ATGAAACTCT TAATGATGAG GTTGGGACTC CACCGGAGTC TGCCATTACA 
    CGGTCCTCTG AGCCTGTAAG AGAGGACTCC TCTGGAATGC ATCATGAAAA CCAAACATAT 
    CCTCCTTATT CACCACAAGC GCAGCCACAA CCAATTCATA GAATAGACTC CCCTGGATTT 
    AAAACAGCCT CTCAACAGAA AGCAGAAGCC TCATCTCCAG TCCCTTACCT TTCGCCTGAA 
    ACAAACTCAG CATCATCAAC CTCTGCTGTT AACCATAATG TAACTTTAAC TAATGTCAGA 
    CTGGAGGGGC CCACCCCAGC TCCTTCCACC TCTTACTCAC CACAAGCTGA TTCTTTAAGA 
    ACACCAAGTA CTGAGGCAGC TCACATAATG CTAAGAGATC AAGAGCCATC ATTGCCGTCG 
    CATGTAGATC CAGCAAAGGT GTATAGAAAA GATCCCTATC CTGAGGAAAT GATGAGACAG 
    AATCACGTTT TGAAACAGCC AGCTGTTGGT CACCCAGGGC AGAGGCCAGA CAAAGAGCCT 
    AATCTGAGCT ATGAATCCCA ACCCCCATAT GTAGAGAAAC AAGCCAACAG AGACCTCGAG 
    CAGCCCACAT ACAGATATGA CTCCTCAAGT TACACAGACC AGTTTTCTCG AAACTATGAC 
    CATCGTCTCC GCTACGAAGA GCGCATTCCT ACATATGAAG AGCAGTGGTC TTATTATGAT 
    GACAAACAGC CCTACCAGCC TCGGACGCCT TTTGATAATC AGCACCCTCG GGACCTTGAC 
    TCCAGACAGC ATCCTGAAGA GTCCTCAGAA CGAGGCTATT ACCCACGTTT TGAAGAGCCA 
    GCCCCTCTGT CCTATGACAG CAGACCACGC TATGACCAGC CACCTAGAAC CTCCACCCTA 
    CGACATGAAG AGCAGCCAGC TCCTGGGTAT GACATGCACA ACAGATACAG GCCGGAAGCA 
    CAGTCCTATT CAGTAGGCCC GAAGGCGACT GAACCCAAAC AGTATTTTGA CCAATACCCA 
    CGAAGTTACG AGCAAGTACC ACCACAAGGA TTTACCTCTA AAGCAGGCCA CTATGAGCCT 
    CTCCATGGTG CTGCAGTTGT CCCTCCTCTA ATTCCCGCAT CTCAACACAA GCCAGAAGTT 
    CTGCCTTCAA ATACCAAACC ACTGCCTCCA CCCCCCACTC TGACTGAAGA GGAGGAAGAT 
    CCAGCAATGA AGCCCCAGTC TGTGCTCACT AGAGTGAAAA TGTTTGAAAA CAAAAGATCT 
    GCATCATTGG AGAGCAAGAA GGATGAAAAC CACACTGCTG CTTTTAAGCC TCCAGAGGTA 
    GCATCTAAAC CTTCAGGTGC TCCCATCATT GGCCCTAAAG CCACTCCTCA GAATCAGTTC 
    AGTGAACATG ACAAAACACT GTACAGGATC CCAGAACCTC AAAAACCTCA AATGAAGCCA 
    CCCGAAGATA TTGTTCGGTC TAATCATTAT GATCCCGAGG AAGATGAAGA ATATTATCGA 
    AAACAGCTCT CATACTTTGA CCGAAGAAGT TTTGAAAACA AGCCTTCTAC ACACATTCCT 
    GCTGGCCATC TCTCAGAGCC TGCCAAGCCA GTTCATTCTC AGAATCAACC AAACTTTTCT 
    AGTTATTCTT CAAAGGGAAA GTCTCCTGAA GCTGATGGCA TGGATAGAGC ATTTGGTGAG 
    AAGCGCTATG AGCCAGTCCA GGCCACTCCC CCTCCTCCCC CATTGCCCTC CCAGTACGCC 
    CAGCCTGCTC AGTCCAGTAC CAGCTCCTCT CTTGCCCTCC ACACGCATGC CAAGGGGGCA 
    CATGGTGAAG GTAATTCGGT GTCGCTGGAT TTTCAGAATT CTTTAGTGTC CAAACCAGAC 
    CCACCTCCAT CTCAGAATAA GCCAGCAACT TTCAGACCAC CGAACCGAGA AGACACTGTT 
    CAGTCTACTT TCTATCCCCA GAAAAGTTTC CCAGATAAAG CTCCAGCTAA TGGAGCTGAA 
    CAGACTCAGA AAACGGTCAC TCCAGCATAT AATCGATTCA CGCCAAAACC ATACACAAGT 
    TCTGCCCGGC CATTTGAGCG CAAGTTCGAA AGTCCTAAAT TCAACCACAA TCTGCTGCCA 
    AGTGAAACGG CACATAAACC TGACTTGTCT TCAAAAGCCC CCGCTTCTCC CAAAACACTT 
    GCGAAAGCAC ACAGCGCGAC ACAGCCTCCT GAGTTTGACA GCGGGGTTGA AACTTTCTCC 
    ATCCACGCGG ATAAGCCTAA ATATCAAATG AACAATATCA GCACAGTGCC TAAAGCTATT 
    CCTGTGAGCC CTTCAGCTGT GGAAGAAGAT GAAGATGAGG ATGGTCATAC TGTGGTGGCC 
    ACAGCCCGAG GCGTGTTTAA CAGCAATGGT GGGGTGTTGA GTTCCATAGA AACTGGTGTT 
    AGTATAATTA TCCCACAAGG AGCCATTCCT GAGGGAATTG AGCAGGAAAT CTATTTCAAG 
    GTCTGCCGAG ACAACAGCAT CCTCCCGCCT TTAGATAAGG AGAAAGGTGA GACACTGCTG 
    AGCCCTTTAG TGATGTGTGG GCCCCATGGC CTCAAGTTCC TGAAGCCCGT GGAGCTGCGC 
    TTACCACACT GTGCGTCCAT GACTCCTGAC GGTTGGTCTT TTGCTCTAAA ATCATCCGAC 
    TCCTCGTCGG GTGATCCTAA AACATGGCAA AACAAGTGTC TTCCTGGAGA TCCAAATTAC 
    CTTGTTGGAG CAAACTGTGT TTCTGTACTG ATTGACCACT TTTAA

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

    RefSeq XP_019661467.1
    CDS28..5352
    Translation

    Target ORF information:

    RefSeq Version XM_019805908.1
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca 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_019805908.1

    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
    ATGCGTCAGA ACCAGAGCCA GTGGAACACA GTAGAAGACA AGAACACAGC AATGGAGGAA 
    ACAGCTATAT GGGAACAACA CACAGTGACT CTTCACAGGG CTCCTGGATT TGGATTTGGA 
    ATTGCAATAT CTGGTGGAAG AGACAACCCT CATTTTCAGA GTGGGGAAAC TTCCATAGTA 
    ATTTCAGATG TGCTGAAAGG GGGACCCGCT GAAGGACAGC TACAGGAAAA TGACCGAGTT 
    GCAATGGTTA ATGGAGTTTC AATGGACAAT GTTGAACATG CTTTTGCTGT TCAGCAACTA 
    AGGAAAAGTG GGAAGAATGC AAAAATTACC ATTCGGAGGA AGAAGAAAGT TCAGATACCA 
    GTTAGTCGTC CTGATCCTGA ACCGGTATCT GGGAATGAAG AAGATAGTTA CGATGAGGAA 
    GTCCATGACC CAAGAAGCAG CCGTGGCGGT CTGGTCAGTA GAAGGAGTGA GAAGAGTTGG 
    GCAAGGGATA GAAGTGCAAG CAGAGAGAGG AGTTTGTCCC CACGGTCTGA TAGGCGATCT 
    GTGGCCTCCA GTCAACCTGC CAAACCCACC AAAGTTACAT TGGTGAAATC CCGGAAAAAT 
    GAAGAATATG GTCTTCGATT GGCCAGCCAT ATATTTGTAA AGGAAATTTC ACAAGATAGT 
    TTGGCAGCAA GAGATGGCAA TATTCAAGAA GGCGATGTTG TACTAAAGAT AAATGGTACC 
    GTGACAGAAA ATATGTCACT GACAGATGCA AAAACATTGA TAGAAAGGTC TAAAGGCAAG 
    TTAAAAATGG TAGTTCAGAG GGATGAACGG GCTACCCTAT TGAACGTCCC TGATCTTTCT 
    GACAGTATCC ATTCTGCTAA TGCCTCTGAG AGAGATGACA TTTCAGAAAT TCAGTCACTG 
    GCCTCAGATC ATTCTGGTCG ATCACATGAT AGACCTCCCC GCCACAGCCG GTCACGATCA 
    CCTGACCAGC GGTCAGAGCC TTCTGATCAT TCCAGACACT CTCCACAGCA GCCCAGCAGT 
    GGCAGTCTCC GGAGCAGAGA GGAAGAGAGA ATTTCTAAAC CTGGGGCTGT CTCAACTCCT 
    CTGAAGCATG CGGATGATCA TACACCTAAA ACGGTAGAAG AAGTTGTAGT TGAGAGAAAT 
    GAGAAACAAG CGCCCACTCT TCCAGAACCA AAGCCTGTGT ATGCTCAAGG TGGACAACCA 
    GACGTGGATT TACCTGTCAG TCCGTCTGAT GGCGTCCTGC CTAATTCAAC TCATGAAGAT 
    GGGATTCTCC GGCCCAGCAT GAAATTGGTA AAATTCAGAA AAGGAGATAG TGTGGGTCTG 
    CGCCTGGCTG GTGGAAATGA TGTTGGAATA TTTGTAGCTG GTGTTCTAGA AGATAGCCCT 
    GCAGCCAAAG AAGGCTTAGA AGAGGGTGAT CAAATTCTCA GGGTAAACAA TGTAGATTTC 
    ACAAACATCA TAAGAGAAGA AGCTGTCCTT TTCCTGCTCG ACCTCCCTAA AGGAGAAGAA 
    GTGACCATAT TGGCTCAGAA GAAGAAAGAT GTTTATCGTC GCATCGTAGA ATCAGATGTA 
    GGAGATTCTT TCTATATTAG AACCCATTTT GAATATGAAA AGGAATCTCC CTATGGACTT 
    AGTTTTAACA AAGGAGAGGT GTTCCGTGTT GTGGATACCT TGTACAATGG GAAACTAGGC 
    TCTTGGCTCG CTATTCGAAT TGGTAAAAAT CATAAAGAAG TAGAACGAGG CATCATCCCT 
    AACAAGAACA GGGCTGAGCA GTTAGCCAGT GTACAGTACA CACTTCCAAA AACAGCTGGG 
    GGAGACCGTG CTGACTTCTG GAGATTCCGG GGTCTTCGCA GTTCCAAGAG AAATCTTCGA 
    AAGAGCAGAG AGGATTTGTC AGCTCAGCCA GTTCAAACAA AGTTTCCAGC CTATGAAAGA 
    GTTGTTCTTC GAGAAGCTGG ATTTCTGAGG CCTGTAACTA TCTTTGGACC CATAGCTGAT 
    GTTGCCCGAG AAAAGCTGGC AAGAGAGGAA CCAGATATTT ATCAGATTGC AAAAAGTGAA 
    CCACGAGATG CTGGAACTGA CCAACGTAGC TCTGGCATTA TTCGCCTTCA TACAATAAAG 
    CAAATAATAG ATCAGGACAA ACATGCTTTA TTAGATGTAA CACCAAATGC AGTTGATCGT 
    CTGAATTATG CCCAGTGGTA TCCAATTGTA GTATTCCTTA ACCCTGATTC TAAGCAAGGT 
    GTGAAAACTA TGAGGATGAG GTTATGTCCA GAATCTCGGA AAAGTGCCAG GAAATTATAT 
    GAACGATCTC ATAAACTTCG TAAAAATAAT CACCATCTTT TTACAACTAC AATTAACTTA 
    AATTCAATGA ATGATGGTTG GTATGGTGCA TTGAAAGAAG CAATTCAGCA ACAACAGAAC 
    CAGTTGGTAT GGGTTTCTGA GGGAAAGGCG GATGGTGCTA CAAGTGATGA CCTTGATTTG 
    CATGATGATC GTCTGTCCTA CCTGTCAGCC CCAGGTAGTG AATACTCAAT GTATAGCACG 
    GACAGTAGAC ACACTTCTGA CTATGAAGAC ACAGATACAG AAGGCGGGGC CTACACTGAT 
    CAAGAACTAG ATGAAACTCT TAATGATGAG GTTGGGACTC CACCGGAGTC TGCCATTACA 
    CGGTCCTCTG AGCCTGTAAG AGAGGACTCC TCTGGAATGC ATCATGAAAA CCAAACATAT 
    CCTCCTTATT CACCACAAGC GCAGCCACAA CCAATTCATA GAATAGACTC CCCTGGATTT 
    AAAACAGCCT CTCAACAGAA AGCAGAAGCC TCATCTCCAG TCCCTTACCT TTCGCCTGAA 
    ACAAACTCAG CATCATCAAC CTCTGCTGTT AACCATAATG TAACTTTAAC TAATGTCAGA 
    CTGGAGGGGC CCACCCCAGC TCCTTCCACC TCTTACTCAC CACAAGCTGA TTCTTTAAGA 
    ACACCAAGTA CTGAGGCAGC TCACATAATG CTAAGAGATC AAGAGCCATC ATTGCCGTCG 
    CATGTAGATC CAGCAAAGGT GTATAGAAAA GATCCCTATC CTGAGGAAAT GATGAGACAG 
    AATCACGTTT TGAAACAGCC AGCTGTTGGT CACCCAGGGC AGAGGCCAGA CAAAGAGCCT 
    AATCTGAGCT ATGAATCCCA ACCCCCATAT GTAGAGAAAC AAGCCAACAG AGACCTCGAG 
    CAGCCCACAT ACAGATATGA CTCCTCAAGT TACACAGACC AGTTTTCTCG AAACTATGAC 
    CATCGTCTCC GCTACGAAGA GCGCATTCCT ACATATGAAG AGCAGTGGTC TTATTATGAT 
    GACAAACAGC CCTACCAGCC TCGGACGCCT TTTGATAATC AGCACCCTCG GGACCTTGAC 
    TCCAGACAGC ATCCTGAAGA GTCCTCAGAA CGAGGCTATT ACCCACGTTT TGAAGAGCCA 
    GCCCCTCTGT CCTATGACAG CAGACCACGC TATGACCAGC CACCTAGAAC CTCCACCCTA 
    CGACATGAAG AGCAGCCAGC TCCTGGGTAT GACATGCACA ACAGATACAG GCCGGAAGCA 
    CAGTCCTATT CAGTAGGCCC GAAGGCGACT GAACCCAAAC AGTATTTTGA CCAATACCCA 
    CGAAGTTACG AGCAAGTACC ACCACAAGGA TTTACCTCTA AAGCAGGCCA CTATGAGCCT 
    CTCCATGGTG CTGCAGTTGT CCCTCCTCTA ATTCCCGCAT CTCAACACAA GCCAGAAGTT 
    CTGCCTTCAA ATACCAAACC ACTGCCTCCA CCCCCCACTC TGACTGAAGA GGAGGAAGAT 
    CCAGCAATGA AGCCCCAGTC TGTGCTCACT AGAGTGAAAA TGTTTGAAAA CAAAAGATCT 
    GCATCATTGG AGAGCAAGAA GGATGAAAAC CACACTGCTG CTTTTAAGCC TCCAGAGGTA 
    GCATCTAAAC CTTCAGGTGC TCCCATCATT GGCCCTAAAG CCACTCCTCA GAATCAGTTC 
    AGTGAACATG ACAAAACACT GTACAGGATC CCAGAACCTC AAAAACCTCA AATGAAGCCA 
    CCCGAAGATA TTGTTCGGTC TAATCATTAT GATCCCGAGG AAGATGAAGA ATATTATCGA 
    AAACAGCTCT CATACTTTGA CCGAAGAAGT TTTGAAAACA AGCCTTCTAC ACACATTCCT 
    GCTGGCCATC TCTCAGAGCC TGCCAAGCCA GTTCATTCTC AGAATCAACC AAACTTTTCT 
    AGTTATTCTT CAAAGGGAAA GTCTCCTGAA GCTGATGGCA TGGATAGAGC ATTTGGTGAG 
    AAGCGCTATG AGCCAGTCCA GGCCACTCCC CCTCCTCCCC CATTGCCCTC CCAGTACGCC 
    CAGCCTGCTC AGTCCAGTAC CAGCTCCTCT CTTGCCCTCC ACACGCATGC CAAGGGGGCA 
    CATGGTGAAG GTAATTCGGT GTCGCTGGAT TTTCAGAATT CTTTAGTGTC CAAACCAGAC 
    CCACCTCCAT CTCAGAATAA GCCAGCAACT TTCAGACCAC CGAACCGAGA AGACACTGTT 
    CAGTCTACTT TCTATCCCCA GAAAAGTTTC CCAGATAAAG CTCCAGCTAA TGGAGCTGAA 
    CAGACTCAGA AAACGGTCAC TCCAGCATAT AATCGATTCA CGCCAAAACC ATACACAAGT 
    TCTGCCCGGC CATTTGAGCG CAAGTTCGAA AGTCCTAAAT TCAACCACAA TCTGCTGCCA 
    AGTGAAACGG CACATAAACC TGACTTGTCT TCAAAAGCCC CCGCTTCTCC CAAAACACTT 
    GCGAAAGCAC ACAGCGCGAC ACAGCCTCCT GAGTTTGACA GCGGGGTTGA AACTTTCTCC 
    ATCCACGCGG ATAAGCCTAA ATATCAAATG AACAATATCA GCACAGTGCC TAAAGCTATT 
    CCTGTGAGCC CTTCAGCTGT GGAAGAAGAT GAAGATGAGG ATGGTCATAC TGTGGTGGCC 
    ACAGCCCGAG GCGTGTTTAA CAGCAATGGT GGGGTGTTGA GTTCCATAGA AACTGGTGTT 
    AGTATAATTA TCCCACAAGG AGCCATTCCT GAGGGAATTG AGCAGGAAAT CTATTTCAAG 
    GTCTGCCGAG ACAACAGCAT CCTCCCGCCT TTAGATAAGG AGAAAGGTGA GACACTGCTG 
    AGCCCTTTAG TGATGTGTGG GCCCCATGGC CTCAAGTTCC TGAAGCCCGT GGAGCTGCGC 
    TTACCACACT GTGCGTCCAT GACTCCTGAC GGTTGGTCTT TTGCTCTAAA ATCATCCGAC 
    TCCTCGTCGG GTGATCCTAA AACATGGCAA AACAAGTGTC TTCCTGGAGA TCCAAATTAC 
    CTTGTTGGAG CAAACTGTGT TTCTGTACTG ATTGACCACT TTTAA

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

    TJP1 ( XM_019805909.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019661468.1 Ailuropoda melanoleuca tight junction protein 1 (TJP1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OAc96974
    Clone ID Related Accession (Same CDS sequence) XM_019805909.1
    Accession Version XM_019805909.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5313bp)
    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 1482768000000
    Organism Ailuropoda melanoleuca(giant panda)
    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 (NW_003218187.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    ATGCGTCAGA ACCAGAGCCA GTGGAACACA GTAGAAGACA AGAACACAGC AATGGAGGAA 
    ACAGCTATAT GGGAACAACA CACAGTGACT CTTCACAGGG CTCCTGGATT TGGATTTGGA 
    ATTGCAATAT CTGGTGGAAG AGACAACCCT CATTTTCAGA GTGGGGAAAC TTCCATAGTA 
    ATTTCAGATG TGCTGAAAGG GGGACCCGCT GAAGGACAGC TACAGGAAAA TGACCGAGTT 
    GCAATGGTTA ATGGAGTTTC AATGGACAAT GTTGAACATG CTTTTGCTGT TCAGCAACTA 
    AGGAAAAGTG GGAAGAATGC AAAAATTACC ATTCGGAGGA AGAAGAAAGT TCAGATACCA 
    GTTAGTCGTC CTGATCCTGA ACCGGTATCT GGGAATGAAG AAGATAGTTA CGATGAGGAA 
    GTCCATGACC CAAGAAGCAG CCGTGGCGGT CTGGTCAGTA GAAGGAGTGA GAAGAGTTGG 
    GCAAGGGATA GAAGTGCAAG CAGAGAGAGG AGTTTGTCCC CACGGTCTGA TAGGCGATCT 
    GTGGCCTCCA GTCAACCTGC CAAACCCACC AAAGTTACAT TGGTGAAATC CCGGAAAAAT 
    GAAGAATATG GTCTTCGATT GGCCAGCCAT ATATTTGTAA AGGAAATTTC ACAAGATAGT 
    TTGGCAGCAA GAGATGGCAA TATTCAAGAA GGCGATGTTG TACTAAAGAT AAATGGTACC 
    GTGACAGAAA ATATGTCACT GACAGATGCA AAAACATTGA TAGAAAGGTC TAAAGGCAAG 
    TTAAAAATGG TAGTTCAGAG GGATGAACGG GCTACCCTAT TGAACGTCCC TGATCTTTCT 
    GACAGTATCC ATTCTGCTAA TGCCTCTGAG AGAGATGACA TTTCAGAAAT TCAGTCACTG 
    GCCTCAGATC ATTCTGGTCG ATCACATGAT AGACCTCCCC GCCACAGCCG GTCACGATCA 
    CCTGACCAGC GGTCAGAGCC TTCTGATCAT TCCAGACACT CTCCACAGCA GCCCAGCAGT 
    GGCAGAGAGG AAGAGAGAAT TTCTAAACCT GGGGCTGTCT CAACTCCTCT GAAGCATGCG 
    GATGATCATA CACCTAAAAC GGTAGAAGAA GTTGTAGTTG AGAGAAATGA GAAACAAGCG 
    CCCACTCTTC CAGAACCAAA GCCTGTGTAT GCTCAAGGTG GACAACCAGA CGTGGATTTA 
    CCTGTCAGTC CGTCTGATGG CGTCCTGCCT AATTCAACTC ATGAAGATGG GATTCTCCGG 
    CCCAGCATGA AATTGGTAAA ATTCAGAAAA GGAGATAGTG TGGGTCTGCG CCTGGCTGGT 
    GGAAATGATG TTGGAATATT TGTAGCTGGT GTTCTAGAAG ATAGCCCTGC AGCCAAAGAA 
    GGCTTAGAAG AGGGTGATCA AATTCTCAGG GTAAACAATG TAGATTTCAC AAACATCATA 
    AGAGAAGAAG CTGTCCTTTT CCTGCTCGAC CTCCCTAAAG GAGAAGAAGT GACCATATTG 
    GCTCAGAAGA AGAAAGATGT TTATCGTCGC ATCGTAGAAT CAGATGTAGG AGATTCTTTC 
    TATATTAGAA CCCATTTTGA ATATGAAAAG GAATCTCCCT ATGGACTTAG TTTTAACAAA 
    GGAGAGGTGT TCCGTGTTGT GGATACCTTG TACAATGGGA AACTAGGCTC TTGGCTCGCT 
    ATTCGAATTG GTAAAAATCA TAAAGAAGTA GAACGAGGCA TCATCCCTAA CAAGAACAGG 
    GCTGAGCAGT TAGCCAGTGT ACAGTACACA CTTCCAAAAA CAGCTGGGGG AGACCGTGCT 
    GACTTCTGGA GATTCCGGGG TCTTCGCAGT TCCAAGAGAA ATCTTCGAAA GAGCAGAGAG 
    GATTTGTCAG CTCAGCCAGT TCAAACAAAG TTTCCAGCCT ATGAAAGAGT TGTTCTTCGA 
    GAAGCTGGAT TTCTGAGGCC TGTAACTATC TTTGGACCCA TAGCTGATGT TGCCCGAGAA 
    AAGCTGGCAA GAGAGGAACC AGATATTTAT CAGATTGCAA AAAGTGAACC ACGAGATGCT 
    GGAACTGACC AACGTAGCTC TGGCATTATT CGCCTTCATA CAATAAAGCA AATAATAGAT 
    CAGGACAAAC ATGCTTTATT AGATGTAACA CCAAATGCAG TTGATCGTCT GAATTATGCC 
    CAGTGGTATC CAATTGTAGT ATTCCTTAAC CCTGATTCTA AGCAAGGTGT GAAAACTATG 
    AGGATGAGGT TATGTCCAGA ATCTCGGAAA AGTGCCAGGA AATTATATGA ACGATCTCAT 
    AAACTTCGTA AAAATAATCA CCATCTTTTT ACAACTACAA TTAACTTAAA TTCAATGAAT 
    GATGGTTGGT ATGGTGCATT GAAAGAAGCA ATTCAGCAAC AACAGAACCA GTTGGTATGG 
    GTTTCTGAGG GAAAGGCGGA TGGTGCTACA AGTGATGACC TTGATTTGCA TGATGATCGT 
    CTGTCCTACC TGTCAGCCCC AGGTAGTGAA TACTCAATGT ATAGCACGGA CAGTAGACAC 
    ACTTCTGACT ATGAAGACAC AGATACAGAA GGCGGGGCCT ACACTGATCA AGAACTAGAT 
    GAAACTCTTA ATGATGAGGT TGGGACTCCA CCGGAGTCTG CCATTACACG GTCCTCTGAG 
    CCTGTAAGAG AGGACTCCTC TGGAATGCAT CATGAAAACC AAACATATCC TCCTTATTCA 
    CCACAAGCGC AGCCACAACC AATTCATAGA ATAGACTCCC CTGGATTTAA AACAGCCTCT 
    CAACAGAAAG CAGAAGCCTC ATCTCCAGTC CCTTACCTTT CGCCTGAAAC AAACTCAGCA 
    TCATCAACCT CTGCTGTTAA CCATAATGTA ACTTTAACTA ATGTCAGACT GGAGGGGCCC 
    ACCCCAGCTC CTTCCACCTC TTACTCACCA CAAGCTGATT CTTTAAGAAC ACCAAGTACT 
    GAGGCAGCTC ACATAATGCT AAGAGATCAA GAGCCATCAT TGCCGTCGCA TGTAGATCCA 
    GCAAAGGTGT ATAGAAAAGA TCCCTATCCT GAGGAAATGA TGAGACAGAA TCACGTTTTG 
    AAACAGCCAG CTGTTGGTCA CCCAGGGCAG AGGCCAGACA AAGAGCCTAA TCTGAGCTAT 
    GAATCCCAAC CCCCATATGT AGAGAAACAA GCCAACAGAG ACCTCGAGCA GCCCACATAC 
    AGATATGACT CCTCAAGTTA CACAGACCAG TTTTCTCGAA ACTATGACCA TCGTCTCCGC 
    TACGAAGAGC GCATTCCTAC ATATGAAGAG CAGTGGTCTT ATTATGATGA CAAACAGCCC 
    TACCAGCCTC GGACGCCTTT TGATAATCAG CACCCTCGGG ACCTTGACTC CAGACAGCAT 
    CCTGAAGAGT CCTCAGAACG AGGCTATTAC CCACGTTTTG AAGAGCCAGC CCCTCTGTCC 
    TATGACAGCA GACCACGCTA TGACCAGCCA CCTAGAACCT CCACCCTACG ACATGAAGAG 
    CAGCCAGCTC CTGGGTATGA CATGCACAAC AGATACAGGC CGGAAGCACA GTCCTATTCA 
    GTAGGCCCGA AGGCGACTGA ACCCAAACAG TATTTTGACC AATACCCACG AAGTTACGAG 
    CAAGTACCAC CACAAGGATT TACCTCTAAA GCAGGCCACT ATGAGCCTCT CCATGGTGCT 
    GCAGTTGTCC CTCCTCTAAT TCCCGCATCT CAACACAAGC CAGAAGTTCT GCCTTCAAAT 
    ACCAAACCAC TGCCTCCACC CCCCACTCTG ACTGAAGAGG AGGAAGATCC AGCAATGAAG 
    CCCCAGTCTG TGCTCACTAG AGTGAAAATG TTTGAAAACA AAAGATCTGC ATCATTGGAG 
    AGCAAGAAGG ATGAAAACCA CACTGCTGCT TTTAAGCCTC CAGAGGTAGC ATCTAAACCT 
    TCAGGTGCTC CCATCATTGG CCCTAAAGCC ACTCCTCAGA ATCAGTTCAG TGAACATGAC 
    AAAACACTGT ACAGGATCCC AGAACCTCAA AAACCTCAAA TGAAGCCACC CGAAGATATT 
    GTTCGGTCTA ATCATTATGA TCCCGAGGAA GATGAAGAAT ATTATCGAAA ACAGCTCTCA 
    TACTTTGACC GAAGAAGTTT TGAAAACAAG CCTTCTACAC ACATTCCTGC TGGCCATCTC 
    TCAGAGCCTG CCAAGCCAGT TCATTCTCAG AATCAACCAA ACTTTTCTAG TTATTCTTCA 
    AAGGGAAAGT CTCCTGAAGC TGATGGCATG GATAGAGCAT TTGGTGAGAA GCGCTATGAG 
    CCAGTCCAGG CCACTCCCCC TCCTCCCCCA TTGCCCTCCC AGTACGCCCA GCCTGCTCAG 
    TCCAGTACCA GCTCCTCTCT TGCCCTCCAC ACGCATGCCA AGGGGGCACA TGGTGAAGGT 
    AATTCGGTGT CGCTGGATTT TCAGAATTCT TTAGTGTCCA AACCAGACCC ACCTCCATCT 
    CAGAATAAGC CAGCAACTTT CAGACCACCG AACCGAGAAG ACACTGTTCA GTCTACTTTC 
    TATCCCCAGA AAAGTTTCCC AGATAAAGCT CCAGCTAATG GAGCTGAACA GACTCAGAAA 
    ACGGTCACTC CAGCATATAA TCGATTCACG CCAAAACCAT ACACAAGTTC TGCCCGGCCA 
    TTTGAGCGCA AGTTCGAAAG TCCTAAATTC AACCACAATC TGCTGCCAAG TGAAACGGCA 
    CATAAACCTG ACTTGTCTTC AAAAGCCCCC GCTTCTCCCA AAACACTTGC GAAAGCACAC 
    AGCGCGACAC AGCCTCCTGA GTTTGACAGC GGGGTTGAAA CTTTCTCCAT CCACGCGGAT 
    AAGCCTAAAT ATCAAATGAA CAATATCAGC ACAGTGCCTA AAGCTATTCC TGTGAGCCCT 
    TCAGCTGTGG AAGAAGATGA AGATGAGGAT GGTCATACTG TGGTGGCCAC AGCCCGAGGC 
    GTGTTTAACA GCAATGGTGG GGTGTTGAGT TCCATAGAAA CTGGTGTTAG TATAATTATC 
    CCACAAGGAG CCATTCCTGA GGGAATTGAG CAGGAAATCT ATTTCAAGGT CTGCCGAGAC 
    AACAGCATCC TCCCGCCTTT AGATAAGGAG AAAGGTGAGA CACTGCTGAG CCCTTTAGTG 
    ATGTGTGGGC CCCATGGCCT CAAGTTCCTG AAGCCCGTGG AGCTGCGCTT ACCACACTGT 
    GCGTCCATGA CTCCTGACGG TTGGTCTTTT GCTCTAAAAT CATCCGACTC CTCGTCGGGT 
    GATCCTAAAA CATGGCAAAA CAAGTGTCTT CCTGGAGATC CAAATTACCT TGTTGGAGCA 
    AACTGTGTTT CTGTACTGAT TGACCACTTT TAA

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

    RefSeq XP_019661468.1
    CDS28..5340
    Translation

    Target ORF information:

    RefSeq Version XM_019805909.1
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca 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_019805909.1

    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
    ATGCGTCAGA ACCAGAGCCA GTGGAACACA GTAGAAGACA AGAACACAGC AATGGAGGAA 
    ACAGCTATAT GGGAACAACA CACAGTGACT CTTCACAGGG CTCCTGGATT TGGATTTGGA 
    ATTGCAATAT CTGGTGGAAG AGACAACCCT CATTTTCAGA GTGGGGAAAC TTCCATAGTA 
    ATTTCAGATG TGCTGAAAGG GGGACCCGCT GAAGGACAGC TACAGGAAAA TGACCGAGTT 
    GCAATGGTTA ATGGAGTTTC AATGGACAAT GTTGAACATG CTTTTGCTGT TCAGCAACTA 
    AGGAAAAGTG GGAAGAATGC AAAAATTACC ATTCGGAGGA AGAAGAAAGT TCAGATACCA 
    GTTAGTCGTC CTGATCCTGA ACCGGTATCT GGGAATGAAG AAGATAGTTA CGATGAGGAA 
    GTCCATGACC CAAGAAGCAG CCGTGGCGGT CTGGTCAGTA GAAGGAGTGA GAAGAGTTGG 
    GCAAGGGATA GAAGTGCAAG CAGAGAGAGG AGTTTGTCCC CACGGTCTGA TAGGCGATCT 
    GTGGCCTCCA GTCAACCTGC CAAACCCACC AAAGTTACAT TGGTGAAATC CCGGAAAAAT 
    GAAGAATATG GTCTTCGATT GGCCAGCCAT ATATTTGTAA AGGAAATTTC ACAAGATAGT 
    TTGGCAGCAA GAGATGGCAA TATTCAAGAA GGCGATGTTG TACTAAAGAT AAATGGTACC 
    GTGACAGAAA ATATGTCACT GACAGATGCA AAAACATTGA TAGAAAGGTC TAAAGGCAAG 
    TTAAAAATGG TAGTTCAGAG GGATGAACGG GCTACCCTAT TGAACGTCCC TGATCTTTCT 
    GACAGTATCC ATTCTGCTAA TGCCTCTGAG AGAGATGACA TTTCAGAAAT TCAGTCACTG 
    GCCTCAGATC ATTCTGGTCG ATCACATGAT AGACCTCCCC GCCACAGCCG GTCACGATCA 
    CCTGACCAGC GGTCAGAGCC TTCTGATCAT TCCAGACACT CTCCACAGCA GCCCAGCAGT 
    GGCAGAGAGG AAGAGAGAAT TTCTAAACCT GGGGCTGTCT CAACTCCTCT GAAGCATGCG 
    GATGATCATA CACCTAAAAC GGTAGAAGAA GTTGTAGTTG AGAGAAATGA GAAACAAGCG 
    CCCACTCTTC CAGAACCAAA GCCTGTGTAT GCTCAAGGTG GACAACCAGA CGTGGATTTA 
    CCTGTCAGTC CGTCTGATGG CGTCCTGCCT AATTCAACTC ATGAAGATGG GATTCTCCGG 
    CCCAGCATGA AATTGGTAAA ATTCAGAAAA GGAGATAGTG TGGGTCTGCG CCTGGCTGGT 
    GGAAATGATG TTGGAATATT TGTAGCTGGT GTTCTAGAAG ATAGCCCTGC AGCCAAAGAA 
    GGCTTAGAAG AGGGTGATCA AATTCTCAGG GTAAACAATG TAGATTTCAC AAACATCATA 
    AGAGAAGAAG CTGTCCTTTT CCTGCTCGAC CTCCCTAAAG GAGAAGAAGT GACCATATTG 
    GCTCAGAAGA AGAAAGATGT TTATCGTCGC ATCGTAGAAT CAGATGTAGG AGATTCTTTC 
    TATATTAGAA CCCATTTTGA ATATGAAAAG GAATCTCCCT ATGGACTTAG TTTTAACAAA 
    GGAGAGGTGT TCCGTGTTGT GGATACCTTG TACAATGGGA AACTAGGCTC TTGGCTCGCT 
    ATTCGAATTG GTAAAAATCA TAAAGAAGTA GAACGAGGCA TCATCCCTAA CAAGAACAGG 
    GCTGAGCAGT TAGCCAGTGT ACAGTACACA CTTCCAAAAA CAGCTGGGGG AGACCGTGCT 
    GACTTCTGGA GATTCCGGGG TCTTCGCAGT TCCAAGAGAA ATCTTCGAAA GAGCAGAGAG 
    GATTTGTCAG CTCAGCCAGT TCAAACAAAG TTTCCAGCCT ATGAAAGAGT TGTTCTTCGA 
    GAAGCTGGAT TTCTGAGGCC TGTAACTATC TTTGGACCCA TAGCTGATGT TGCCCGAGAA 
    AAGCTGGCAA GAGAGGAACC AGATATTTAT CAGATTGCAA AAAGTGAACC ACGAGATGCT 
    GGAACTGACC AACGTAGCTC TGGCATTATT CGCCTTCATA CAATAAAGCA AATAATAGAT 
    CAGGACAAAC ATGCTTTATT AGATGTAACA CCAAATGCAG TTGATCGTCT GAATTATGCC 
    CAGTGGTATC CAATTGTAGT ATTCCTTAAC CCTGATTCTA AGCAAGGTGT GAAAACTATG 
    AGGATGAGGT TATGTCCAGA ATCTCGGAAA AGTGCCAGGA AATTATATGA ACGATCTCAT 
    AAACTTCGTA AAAATAATCA CCATCTTTTT ACAACTACAA TTAACTTAAA TTCAATGAAT 
    GATGGTTGGT ATGGTGCATT GAAAGAAGCA ATTCAGCAAC AACAGAACCA GTTGGTATGG 
    GTTTCTGAGG GAAAGGCGGA TGGTGCTACA AGTGATGACC TTGATTTGCA TGATGATCGT 
    CTGTCCTACC TGTCAGCCCC AGGTAGTGAA TACTCAATGT ATAGCACGGA CAGTAGACAC 
    ACTTCTGACT ATGAAGACAC AGATACAGAA GGCGGGGCCT ACACTGATCA AGAACTAGAT 
    GAAACTCTTA ATGATGAGGT TGGGACTCCA CCGGAGTCTG CCATTACACG GTCCTCTGAG 
    CCTGTAAGAG AGGACTCCTC TGGAATGCAT CATGAAAACC AAACATATCC TCCTTATTCA 
    CCACAAGCGC AGCCACAACC AATTCATAGA ATAGACTCCC CTGGATTTAA AACAGCCTCT 
    CAACAGAAAG CAGAAGCCTC ATCTCCAGTC CCTTACCTTT CGCCTGAAAC AAACTCAGCA 
    TCATCAACCT CTGCTGTTAA CCATAATGTA ACTTTAACTA ATGTCAGACT GGAGGGGCCC 
    ACCCCAGCTC CTTCCACCTC TTACTCACCA CAAGCTGATT CTTTAAGAAC ACCAAGTACT 
    GAGGCAGCTC ACATAATGCT AAGAGATCAA GAGCCATCAT TGCCGTCGCA TGTAGATCCA 
    GCAAAGGTGT ATAGAAAAGA TCCCTATCCT GAGGAAATGA TGAGACAGAA TCACGTTTTG 
    AAACAGCCAG CTGTTGGTCA CCCAGGGCAG AGGCCAGACA AAGAGCCTAA TCTGAGCTAT 
    GAATCCCAAC CCCCATATGT AGAGAAACAA GCCAACAGAG ACCTCGAGCA GCCCACATAC 
    AGATATGACT CCTCAAGTTA CACAGACCAG TTTTCTCGAA ACTATGACCA TCGTCTCCGC 
    TACGAAGAGC GCATTCCTAC ATATGAAGAG CAGTGGTCTT ATTATGATGA CAAACAGCCC 
    TACCAGCCTC GGACGCCTTT TGATAATCAG CACCCTCGGG ACCTTGACTC CAGACAGCAT 
    CCTGAAGAGT CCTCAGAACG AGGCTATTAC CCACGTTTTG AAGAGCCAGC CCCTCTGTCC 
    TATGACAGCA GACCACGCTA TGACCAGCCA CCTAGAACCT CCACCCTACG ACATGAAGAG 
    CAGCCAGCTC CTGGGTATGA CATGCACAAC AGATACAGGC CGGAAGCACA GTCCTATTCA 
    GTAGGCCCGA AGGCGACTGA ACCCAAACAG TATTTTGACC AATACCCACG AAGTTACGAG 
    CAAGTACCAC CACAAGGATT TACCTCTAAA GCAGGCCACT ATGAGCCTCT CCATGGTGCT 
    GCAGTTGTCC CTCCTCTAAT TCCCGCATCT CAACACAAGC CAGAAGTTCT GCCTTCAAAT 
    ACCAAACCAC TGCCTCCACC CCCCACTCTG ACTGAAGAGG AGGAAGATCC AGCAATGAAG 
    CCCCAGTCTG TGCTCACTAG AGTGAAAATG TTTGAAAACA AAAGATCTGC ATCATTGGAG 
    AGCAAGAAGG ATGAAAACCA CACTGCTGCT TTTAAGCCTC CAGAGGTAGC ATCTAAACCT 
    TCAGGTGCTC CCATCATTGG CCCTAAAGCC ACTCCTCAGA ATCAGTTCAG TGAACATGAC 
    AAAACACTGT ACAGGATCCC AGAACCTCAA AAACCTCAAA TGAAGCCACC CGAAGATATT 
    GTTCGGTCTA ATCATTATGA TCCCGAGGAA GATGAAGAAT ATTATCGAAA ACAGCTCTCA 
    TACTTTGACC GAAGAAGTTT TGAAAACAAG CCTTCTACAC ACATTCCTGC TGGCCATCTC 
    TCAGAGCCTG CCAAGCCAGT TCATTCTCAG AATCAACCAA ACTTTTCTAG TTATTCTTCA 
    AAGGGAAAGT CTCCTGAAGC TGATGGCATG GATAGAGCAT TTGGTGAGAA GCGCTATGAG 
    CCAGTCCAGG CCACTCCCCC TCCTCCCCCA TTGCCCTCCC AGTACGCCCA GCCTGCTCAG 
    TCCAGTACCA GCTCCTCTCT TGCCCTCCAC ACGCATGCCA AGGGGGCACA TGGTGAAGGT 
    AATTCGGTGT CGCTGGATTT TCAGAATTCT TTAGTGTCCA AACCAGACCC ACCTCCATCT 
    CAGAATAAGC CAGCAACTTT CAGACCACCG AACCGAGAAG ACACTGTTCA GTCTACTTTC 
    TATCCCCAGA AAAGTTTCCC AGATAAAGCT CCAGCTAATG GAGCTGAACA GACTCAGAAA 
    ACGGTCACTC CAGCATATAA TCGATTCACG CCAAAACCAT ACACAAGTTC TGCCCGGCCA 
    TTTGAGCGCA AGTTCGAAAG TCCTAAATTC AACCACAATC TGCTGCCAAG TGAAACGGCA 
    CATAAACCTG ACTTGTCTTC AAAAGCCCCC GCTTCTCCCA AAACACTTGC GAAAGCACAC 
    AGCGCGACAC AGCCTCCTGA GTTTGACAGC GGGGTTGAAA CTTTCTCCAT CCACGCGGAT 
    AAGCCTAAAT ATCAAATGAA CAATATCAGC ACAGTGCCTA AAGCTATTCC TGTGAGCCCT 
    TCAGCTGTGG AAGAAGATGA AGATGAGGAT GGTCATACTG TGGTGGCCAC AGCCCGAGGC 
    GTGTTTAACA GCAATGGTGG GGTGTTGAGT TCCATAGAAA CTGGTGTTAG TATAATTATC 
    CCACAAGGAG CCATTCCTGA GGGAATTGAG CAGGAAATCT ATTTCAAGGT CTGCCGAGAC 
    AACAGCATCC TCCCGCCTTT AGATAAGGAG AAAGGTGAGA CACTGCTGAG CCCTTTAGTG 
    ATGTGTGGGC CCCATGGCCT CAAGTTCCTG AAGCCCGTGG AGCTGCGCTT ACCACACTGT 
    GCGTCCATGA CTCCTGACGG TTGGTCTTTT GCTCTAAAAT CATCCGACTC CTCGTCGGGT 
    GATCCTAAAA CATGGCAAAA CAAGTGTCTT CCTGGAGATC CAAATTACCT TGTTGGAGCA 
    AACTGTGTTT CTGTACTGAT TGACCACTTT TAA

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

    TJP1 ( XM_011232276.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011230578.2 Ailuropoda melanoleuca tight junction protein 1 (TJP1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OAc96975
    Clone ID Related Accession (Same CDS sequence) XM_011232276.2
    Accession Version XM_011232276.2 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 1482768000000
    Organism Ailuropoda melanoleuca(giant panda)
    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 (NW_003218187.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011232276.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    ATGCGTCAGA ACCAGAGCCA GTGGAACACA GTAGAAGACA AGAACACAGC AATGGAGGAA 
    ACAGCTATAT GGGAACAACA CACAGTGACT CTTCACAGGG CTCCTGGATT TGGATTTGGA 
    ATTGCAATAT CTGGTGGAAG AGACAACCCT CATTTTCAGA GTGGGGAAAC TTCCATAGTA 
    ATTTCAGATG TGCTGAAAGG GGGACCCGCT GAAGGACAGC TACAGGAAAA TGACCGAGTT 
    GCAATGGTTA ATGGAGTTTC AATGGACAAT GTTGAACATG CTTTTGCTGT TCAGCAACTA 
    AGGAAAAGTG GGAAGAATGC AAAAATTACC ATTCGGAGGA AGAAGAAAGT TCAGATACCA 
    GTTAGTCGTC CTGATCCTGA ACCGGTATCT GGGAATGAAG AAGATAGTTA CGATGAGGAA 
    GTCCATGACC CAAGAAGCAG CCGTGGCGGT CTGGTCAGTA GAAGGAGTGA GAAGAGTTGG 
    GCAAGGGATA GAAGTGCAAG CAGAGAGAGG AGTTTGTCCC CACGGTCTGA TAGGCGATCT 
    GTGGCCTCCA GTCAACCTGC CAAACCCACC AAAGTTACAT TGGTGAAATC CCGGAAAAAT 
    GAAGAATATG GTCTTCGATT GGCCAGCCAT ATATTTGTAA AGGAAATTTC ACAAGATAGT 
    TTGGCAGCAA GAGATGGCAA TATTCAAGAA GGCGATGTTG TACTAAAGAT AAATGGTACC 
    GTGACAGAAA ATATGTCACT GACAGATGCA AAAACATTGA TAGAAAGGTC TAAAGGCAAG 
    TTAAAAATGG TAGTTCAGAG GGATGAACGG GCTACCCTAT TGAACGTCCC TGATCTTTCT 
    GACAGTATCC ATTCTGCTAA TGCCTCTGAG AGAGATGACA TTTCAGAAAT TCAGTCACTG 
    GCCTCAGATC ATTCTGGTCG ATCACATGAT AGACCTCCCC GCCACAGCCG GTCACGATCA 
    CCTGACCAGC GGTCAGAGCC TTCTGATCAT TCCAGACACT CTCCACAGCA GCCCAGCAGT 
    GGCAGTCTCC GGAGCAGAGA GGAAGAGAGA ATTTCTAAAC CTGGGGCTGT CTCAACTCCT 
    CTGAAGCATG CGGATGATCA TACACCTAAA ACGGTAGAAG AAGTTGTAGT TGAGAGAAAT 
    GAGAAACAAG CGCCCACTCT TCCAGAACCA AAGCCTGTGT ATGCTCAAGG TGGACAACCA 
    GACGTGGATT TACCTGTCAG TCCGTCTGAT GGCGTCCTGC CTAATTCAAC TCATGAAGAT 
    GGGATTCTCC GGCCCAGCAT GAAATTGGTA AAATTCAGAA AAGGAGATAG TGTGGGTCTG 
    CGCCTGGCTG GTGGAAATGA TGTTGGAATA TTTGTAGCTG GTGTTCTAGA AGATAGCCCT 
    GCAGCCAAAG AAGGCTTAGA AGAGGGTGAT CAAATTCTCA GGGTAAACAA TGTAGATTTC 
    ACAAACATCA TAAGAGAAGA AGCTGTCCTT TTCCTGCTCG ACCTCCCTAA AGGAGAAGAA 
    GTGACCATAT TGGCTCAGAA GAAGAAAGAT GTTTATCGTC GCATCGTAGA ATCAGATGTA 
    GGAGATTCTT TCTATATTAG AACCCATTTT GAATATGAAA AGGAATCTCC CTATGGACTT 
    AGTTTTAACA AAGGAGAGGT GTTCCGTGTT GTGGATACCT TGTACAATGG GAAACTAGGC 
    TCTTGGCTCG CTATTCGAAT TGGTAAAAAT CATAAAGAAG TAGAACGAGG CATCATCCCT 
    AACAAGAACA GGGCTGAGCA GTTAGCCAGT GTACAGTACA CACTTCCAAA AACAGCTGGG 
    GGAGACCGTG CTGACTTCTG GAGATTCCGG GGTCTTCGCA GTTCCAAGAG AAATCTTCGA 
    AAGAGCAGAG AGGATTTGTC AGCTCAGCCA GTTCAAACAA AGTTTCCAGC CTATGAAAGA 
    GTTGTTCTTC GAGAAGCTGG ATTTCTGAGG CCTGTAACTA TCTTTGGACC CATAGCTGAT 
    GTTGCCCGAG AAAAGCTGGC AAGAGAGGAA CCAGATATTT ATCAGATTGC AAAAAGTGAA 
    CCACGAGATG CTGGAACTGA CCAACGTAGC TCTGGCATTA TTCGCCTTCA TACAATAAAG 
    CAAATAATAG ATCAGGACAA ACATGCTTTA TTAGATGTAA CACCAAATGC AGTTGATCGT 
    CTGAATTATG CCCAGTGGTA TCCAATTGTA GTATTCCTTA ACCCTGATTC TAAGCAAGGT 
    GTGAAAACTA TGAGGATGAG GTTATGTCCA GAATCTCGGA AAAGTGCCAG GAAATTATAT 
    GAACGATCTC ATAAACTTCG TAAAAATAAT CACCATCTTT TTACAACTAC AATTAACTTA 
    AATTCAATGA ATGATGGTTG GTATGGTGCA TTGAAAGAAG CAATTCAGCA ACAACAGAAC 
    CAGTTGGTAT GGGTTTCTGA GGGAAAGGCG GATGGTGCTA CAAGTGATGA CCTTGATTTG 
    CATGATGATC GTCTGTCCTA CCTGTCAGCC CCAGGTAGTG AATACTCAAT GTATAGCACG 
    GACAGTAGAC ACACTTCTGA CTATGAAGAC ACAGATACAG AAGGCGGGGC CTACACTGAT 
    CAAGAACTAG ATGAAACTCT TAATGATGAG GTTGGGACTC CACCGGAGTC TGCCATTACA 
    CGGTCCTCTG AGCCTGTAAG AGAGGACTCC TCTGGAATGC ATCATGAAAA CCAAACATAT 
    CCTCCTTATT CACCACAAGC GCAGCCACAA CCAATTCATA GAATAGACTC CCCTGGATTT 
    AAAACAGCCT CTCAACAGAA AGCAGAAGCC TCATCTCCAG TCCCTTACCT TTCGCCTGAA 
    ACAAACTCAG CATCATCAAC CTCTGCTGTT AACCATAATG TAACTTTAAC TAATGTCAGA 
    CTGGAGGGGC CCACCCCAGC TCCTTCCACC TCTTACTCAC CACAAGCTGA TTCTTTAAGA 
    ACACCAAGTA CTGAGGCAGC TCACATAATG CTAAGAGATC AAGAGCCATC ATTGCCGTCG 
    CATGTAGATC CAGCAAAGGT GTATAGAAAA GATCCCTATC CTGAGGAAAT GATGAGACAG 
    AATCACGTTT TGAAACAGCC AGCTGTTGGT CACCCAGGGC AGAGGCCAGA CAAAGAGCCT 
    AATCTGAGCT ATGAATCCCA ACCCCCATAT GTAGAGAAAC AAGCCAACAG AGACCTCGAG 
    CAGCCCACAT ACAGATATGA CTCCTCAAGT TACACAGACC AGTTTTCTCG AAACTATGAC 
    CATCGTCTCC GCTACGAAGA GCGCATTCCT ACATATGAAG AGCAGTGGTC TTATTATGAT 
    GACAAACAGC CCTACCAGCC TCGGACGCCT TTTGATAATC AGCACCCTCG GGACCTTGAC 
    TCCAGACAGC ATCCTGAAGA GTCCTCAGAA CGAGGCTATT ACCCACGTTT TGAAGAGCCA 
    GCCCCTCTGT CCTATGACAG CAGACCACGC TATGACCAGC CACCTAGAAC CTCCACCCTA 
    CGACATGAAG AGCAGCCAGC TCCTGGGTAT GACATGCACA ACAGATACAG GCCGGAAGCA 
    CAGTCCTATT CAGTAGGCCC GAAGGCGACT GAACCCAAAC AGTATTTTGA CCAATACCCA 
    CGAAGTTACG AGCAAGTACC ACCACAAGGA TTTACCTCTA AAGCAGGCCA CTATGAGCCT 
    CTCCATGGTG CTGCAGTTGT CCCTCCTCTA ATTCCCGCAT CTCAACACAA GCCAGAAGTT 
    CTGCCTTCAA ATACCAAACC ACTGCCTCCA CCCCCCACTC TGACTGAAGA GGAGGAAGAT 
    CCAGCAATGA AGCCCCAGTC TGTGCTCACT AGAGTGAAAA TGTTTGAAAA CAAAAGATCT 
    GCATCATTGG AGAGCAAGAA GGATGAAAAC CACACTGCTG CTTTTAAGCC TCCAGAGGTA 
    GCATCTAAAC CTTCAGGTGC TCCCATCATT GGCCCTAAAG CCACTCCTCA GAATCAGTTC 
    AGTGAACATG ACAAAACACT GTACAGGATC CCAGAACCTC AAAAACCTCA AATGAAGCCA 
    CCCGAAGATA TTGTTCGGTC TAATCATTAT GATCCCGAGG AAGATGAAGA ATATTATCGA 
    AAACAGCTCT CATACTTTGA CCGAAGAAGT TTTGAAAACA AGCCTTCTAC ACACATTCCT 
    GCTGGCCATC TCTCAGAGCC TGCCAAGCCA GTTCATTCTC AGAATCAACC AAACTTTTCT 
    AGTTATTCTT CAAAGGGAAA GTCTCCTGAA GCTGATGGCA TGGATAGAGC ATTTGGTGAG 
    AAGCGCTATG AGCCAGTCCA GGCCACTCCC CCTCCTCCCC CATTGCCCTC CCAGTACGCC 
    CAGCCTGCTC AGTCCAGTAC CAGCTCCTCT CTTGCCCTCC ACACGCATGC CAAGGGGGCA 
    CATGGTGAAG GTAATTCGGT GTCGCTGGAT TTTCAGAATT CTTTAGTGTC CAAACCAGAC 
    CCACCTCCAT CTCAGAATAA GCCAGCAACT TTCAGACCAC CGAACCGAGA AGACACTGTT 
    CAGTCTACTT TCTATCCCCA GAAAAGTTTC CCAGATAAAG CTCCAGCTAA TGGAGCTGAA 
    CAGACTCAGA AAACGGTCAC TCCAGCATAT AATCGATTCA CGCCAAAACC ATACACAAGT 
    TCTGCCCGGC CATTTGAGCG CAAGTTCGAA AGTCCTAAAT TCAACCACAA TCTGCTGCCA 
    AGTGAAACGG CACATAAACC TGACTTGTCT TCAAAAGCCC CCGCTTCTCC CAAAACACTT 
    GCGAAAGCAC ACAGCGCGAC ACAGCCTCCT GAGTTTGACA GCGGGGTTGA AACTTTCTCC 
    ATCCACGCGG ATAAGCCTAA ATATCAAATG AACAATATCA GCACAGTGCC TAAAGCTATT 
    CCTGTGAGCC CTTCAGCTGT GGAAGAAGAT GAAGATGAGG ATGGTCATAC TGTGGTGGCC 
    ACAGCCCGAG GCGTGTTTAA CAGCAATGGT GGGGTGTTGA GTTCCATAGA AACTGGTGTT 
    AGTATAATTA TCCCACAAGG AGCCATTCCT GAGGGAATTG AGCAGGAAAT CTATTTCAAG 
    GTCTGCCGAG ACAACAGCAT CCTCCCGCCT TTAGATAAGG AGAAAGGTGA GACACTGCTG 
    AGCCCTTTAG TGATGTGTGG GCCCCATGGC CTCAAGTTCC TGAAGCCCGT GGAGCTGCGC 
    TTACCACACT GTGCGTCCAT GACTCCTGAC GGTGATCCTA AAACATGGCA AAACAAGTGT 
    CTTCCTGGAG ATCCAAATTA CCTTGTTGGA GCAAACTGTG TTTCTGTACT GATTGACCAC 
    TTTTAA

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

    RefSeq XP_011230578.2
    CDS28..5313
    Translation

    Target ORF information:

    RefSeq Version XM_011232276.2
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca 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_011232276.2

    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
    ATGCGTCAGA ACCAGAGCCA GTGGAACACA GTAGAAGACA AGAACACAGC AATGGAGGAA 
    ACAGCTATAT GGGAACAACA CACAGTGACT CTTCACAGGG CTCCTGGATT TGGATTTGGA 
    ATTGCAATAT CTGGTGGAAG AGACAACCCT CATTTTCAGA GTGGGGAAAC TTCCATAGTA 
    ATTTCAGATG TGCTGAAAGG GGGACCCGCT GAAGGACAGC TACAGGAAAA TGACCGAGTT 
    GCAATGGTTA ATGGAGTTTC AATGGACAAT GTTGAACATG CTTTTGCTGT TCAGCAACTA 
    AGGAAAAGTG GGAAGAATGC AAAAATTACC ATTCGGAGGA AGAAGAAAGT TCAGATACCA 
    GTTAGTCGTC CTGATCCTGA ACCGGTATCT GGGAATGAAG AAGATAGTTA CGATGAGGAA 
    GTCCATGACC CAAGAAGCAG CCGTGGCGGT CTGGTCAGTA GAAGGAGTGA GAAGAGTTGG 
    GCAAGGGATA GAAGTGCAAG CAGAGAGAGG AGTTTGTCCC CACGGTCTGA TAGGCGATCT 
    GTGGCCTCCA GTCAACCTGC CAAACCCACC AAAGTTACAT TGGTGAAATC CCGGAAAAAT 
    GAAGAATATG GTCTTCGATT GGCCAGCCAT ATATTTGTAA AGGAAATTTC ACAAGATAGT 
    TTGGCAGCAA GAGATGGCAA TATTCAAGAA GGCGATGTTG TACTAAAGAT AAATGGTACC 
    GTGACAGAAA ATATGTCACT GACAGATGCA AAAACATTGA TAGAAAGGTC TAAAGGCAAG 
    TTAAAAATGG TAGTTCAGAG GGATGAACGG GCTACCCTAT TGAACGTCCC TGATCTTTCT 
    GACAGTATCC ATTCTGCTAA TGCCTCTGAG AGAGATGACA TTTCAGAAAT TCAGTCACTG 
    GCCTCAGATC ATTCTGGTCG ATCACATGAT AGACCTCCCC GCCACAGCCG GTCACGATCA 
    CCTGACCAGC GGTCAGAGCC TTCTGATCAT TCCAGACACT CTCCACAGCA GCCCAGCAGT 
    GGCAGTCTCC GGAGCAGAGA GGAAGAGAGA ATTTCTAAAC CTGGGGCTGT CTCAACTCCT 
    CTGAAGCATG CGGATGATCA TACACCTAAA ACGGTAGAAG AAGTTGTAGT TGAGAGAAAT 
    GAGAAACAAG CGCCCACTCT TCCAGAACCA AAGCCTGTGT ATGCTCAAGG TGGACAACCA 
    GACGTGGATT TACCTGTCAG TCCGTCTGAT GGCGTCCTGC CTAATTCAAC TCATGAAGAT 
    GGGATTCTCC GGCCCAGCAT GAAATTGGTA AAATTCAGAA AAGGAGATAG TGTGGGTCTG 
    CGCCTGGCTG GTGGAAATGA TGTTGGAATA TTTGTAGCTG GTGTTCTAGA AGATAGCCCT 
    GCAGCCAAAG AAGGCTTAGA AGAGGGTGAT CAAATTCTCA GGGTAAACAA TGTAGATTTC 
    ACAAACATCA TAAGAGAAGA AGCTGTCCTT TTCCTGCTCG ACCTCCCTAA AGGAGAAGAA 
    GTGACCATAT TGGCTCAGAA GAAGAAAGAT GTTTATCGTC GCATCGTAGA ATCAGATGTA 
    GGAGATTCTT TCTATATTAG AACCCATTTT GAATATGAAA AGGAATCTCC CTATGGACTT 
    AGTTTTAACA AAGGAGAGGT GTTCCGTGTT GTGGATACCT TGTACAATGG GAAACTAGGC 
    TCTTGGCTCG CTATTCGAAT TGGTAAAAAT CATAAAGAAG TAGAACGAGG CATCATCCCT 
    AACAAGAACA GGGCTGAGCA GTTAGCCAGT GTACAGTACA CACTTCCAAA AACAGCTGGG 
    GGAGACCGTG CTGACTTCTG GAGATTCCGG GGTCTTCGCA GTTCCAAGAG AAATCTTCGA 
    AAGAGCAGAG AGGATTTGTC AGCTCAGCCA GTTCAAACAA AGTTTCCAGC CTATGAAAGA 
    GTTGTTCTTC GAGAAGCTGG ATTTCTGAGG CCTGTAACTA TCTTTGGACC CATAGCTGAT 
    GTTGCCCGAG AAAAGCTGGC AAGAGAGGAA CCAGATATTT ATCAGATTGC AAAAAGTGAA 
    CCACGAGATG CTGGAACTGA CCAACGTAGC TCTGGCATTA TTCGCCTTCA TACAATAAAG 
    CAAATAATAG ATCAGGACAA ACATGCTTTA TTAGATGTAA CACCAAATGC AGTTGATCGT 
    CTGAATTATG CCCAGTGGTA TCCAATTGTA GTATTCCTTA ACCCTGATTC TAAGCAAGGT 
    GTGAAAACTA TGAGGATGAG GTTATGTCCA GAATCTCGGA AAAGTGCCAG GAAATTATAT 
    GAACGATCTC ATAAACTTCG TAAAAATAAT CACCATCTTT TTACAACTAC AATTAACTTA 
    AATTCAATGA ATGATGGTTG GTATGGTGCA TTGAAAGAAG CAATTCAGCA ACAACAGAAC 
    CAGTTGGTAT GGGTTTCTGA GGGAAAGGCG GATGGTGCTA CAAGTGATGA CCTTGATTTG 
    CATGATGATC GTCTGTCCTA CCTGTCAGCC CCAGGTAGTG AATACTCAAT GTATAGCACG 
    GACAGTAGAC ACACTTCTGA CTATGAAGAC ACAGATACAG AAGGCGGGGC CTACACTGAT 
    CAAGAACTAG ATGAAACTCT TAATGATGAG GTTGGGACTC CACCGGAGTC TGCCATTACA 
    CGGTCCTCTG AGCCTGTAAG AGAGGACTCC TCTGGAATGC ATCATGAAAA CCAAACATAT 
    CCTCCTTATT CACCACAAGC GCAGCCACAA CCAATTCATA GAATAGACTC CCCTGGATTT 
    AAAACAGCCT CTCAACAGAA AGCAGAAGCC TCATCTCCAG TCCCTTACCT TTCGCCTGAA 
    ACAAACTCAG CATCATCAAC CTCTGCTGTT AACCATAATG TAACTTTAAC TAATGTCAGA 
    CTGGAGGGGC CCACCCCAGC TCCTTCCACC TCTTACTCAC CACAAGCTGA TTCTTTAAGA 
    ACACCAAGTA CTGAGGCAGC TCACATAATG CTAAGAGATC AAGAGCCATC ATTGCCGTCG 
    CATGTAGATC CAGCAAAGGT GTATAGAAAA GATCCCTATC CTGAGGAAAT GATGAGACAG 
    AATCACGTTT TGAAACAGCC AGCTGTTGGT CACCCAGGGC AGAGGCCAGA CAAAGAGCCT 
    AATCTGAGCT ATGAATCCCA ACCCCCATAT GTAGAGAAAC AAGCCAACAG AGACCTCGAG 
    CAGCCCACAT ACAGATATGA CTCCTCAAGT TACACAGACC AGTTTTCTCG AAACTATGAC 
    CATCGTCTCC GCTACGAAGA GCGCATTCCT ACATATGAAG AGCAGTGGTC TTATTATGAT 
    GACAAACAGC CCTACCAGCC TCGGACGCCT TTTGATAATC AGCACCCTCG GGACCTTGAC 
    TCCAGACAGC ATCCTGAAGA GTCCTCAGAA CGAGGCTATT ACCCACGTTT TGAAGAGCCA 
    GCCCCTCTGT CCTATGACAG CAGACCACGC TATGACCAGC CACCTAGAAC CTCCACCCTA 
    CGACATGAAG AGCAGCCAGC TCCTGGGTAT GACATGCACA ACAGATACAG GCCGGAAGCA 
    CAGTCCTATT CAGTAGGCCC GAAGGCGACT GAACCCAAAC AGTATTTTGA CCAATACCCA 
    CGAAGTTACG AGCAAGTACC ACCACAAGGA TTTACCTCTA AAGCAGGCCA CTATGAGCCT 
    CTCCATGGTG CTGCAGTTGT CCCTCCTCTA ATTCCCGCAT CTCAACACAA GCCAGAAGTT 
    CTGCCTTCAA ATACCAAACC ACTGCCTCCA CCCCCCACTC TGACTGAAGA GGAGGAAGAT 
    CCAGCAATGA AGCCCCAGTC TGTGCTCACT AGAGTGAAAA TGTTTGAAAA CAAAAGATCT 
    GCATCATTGG AGAGCAAGAA GGATGAAAAC CACACTGCTG CTTTTAAGCC TCCAGAGGTA 
    GCATCTAAAC CTTCAGGTGC TCCCATCATT GGCCCTAAAG CCACTCCTCA GAATCAGTTC 
    AGTGAACATG ACAAAACACT GTACAGGATC CCAGAACCTC AAAAACCTCA AATGAAGCCA 
    CCCGAAGATA TTGTTCGGTC TAATCATTAT GATCCCGAGG AAGATGAAGA ATATTATCGA 
    AAACAGCTCT CATACTTTGA CCGAAGAAGT TTTGAAAACA AGCCTTCTAC ACACATTCCT 
    GCTGGCCATC TCTCAGAGCC TGCCAAGCCA GTTCATTCTC AGAATCAACC AAACTTTTCT 
    AGTTATTCTT CAAAGGGAAA GTCTCCTGAA GCTGATGGCA TGGATAGAGC ATTTGGTGAG 
    AAGCGCTATG AGCCAGTCCA GGCCACTCCC CCTCCTCCCC CATTGCCCTC CCAGTACGCC 
    CAGCCTGCTC AGTCCAGTAC CAGCTCCTCT CTTGCCCTCC ACACGCATGC CAAGGGGGCA 
    CATGGTGAAG GTAATTCGGT GTCGCTGGAT TTTCAGAATT CTTTAGTGTC CAAACCAGAC 
    CCACCTCCAT CTCAGAATAA GCCAGCAACT TTCAGACCAC CGAACCGAGA AGACACTGTT 
    CAGTCTACTT TCTATCCCCA GAAAAGTTTC CCAGATAAAG CTCCAGCTAA TGGAGCTGAA 
    CAGACTCAGA AAACGGTCAC TCCAGCATAT AATCGATTCA CGCCAAAACC ATACACAAGT 
    TCTGCCCGGC CATTTGAGCG CAAGTTCGAA AGTCCTAAAT TCAACCACAA TCTGCTGCCA 
    AGTGAAACGG CACATAAACC TGACTTGTCT TCAAAAGCCC CCGCTTCTCC CAAAACACTT 
    GCGAAAGCAC ACAGCGCGAC ACAGCCTCCT GAGTTTGACA GCGGGGTTGA AACTTTCTCC 
    ATCCACGCGG ATAAGCCTAA ATATCAAATG AACAATATCA GCACAGTGCC TAAAGCTATT 
    CCTGTGAGCC CTTCAGCTGT GGAAGAAGAT GAAGATGAGG ATGGTCATAC TGTGGTGGCC 
    ACAGCCCGAG GCGTGTTTAA CAGCAATGGT GGGGTGTTGA GTTCCATAGA AACTGGTGTT 
    AGTATAATTA TCCCACAAGG AGCCATTCCT GAGGGAATTG AGCAGGAAAT CTATTTCAAG 
    GTCTGCCGAG ACAACAGCAT CCTCCCGCCT TTAGATAAGG AGAAAGGTGA GACACTGCTG 
    AGCCCTTTAG TGATGTGTGG GCCCCATGGC CTCAAGTTCC TGAAGCCCGT GGAGCTGCGC 
    TTACCACACT GTGCGTCCAT GACTCCTGAC GGTGATCCTA AAACATGGCA AAACAAGTGT 
    CTTCCTGGAG ATCCAAATTA CCTTGTTGGA GCAAACTGTG TTTCTGTACT GATTGACCAC 
    TTTTAA

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

    TJP1 ( XM_011232277.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011230579.2 Ailuropoda melanoleuca tight junction protein 1 (TJP1), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OAc96976
    Clone ID Related Accession (Same CDS sequence) XM_011232277.2
    Accession Version XM_011232277.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5265bp)
    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 1482768000000
    Organism Ailuropoda melanoleuca(giant panda)
    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 (NW_003218187.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011232277.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    ATGCGTCAGA ACCAGAGCCA GTGGAACACA GTAGAAGACA AGAACACAGC AATGGAGGAA 
    ACAGCTATAT GGGAACAACA CACAGTGACT CTTCACAGGG CTCCTGGATT TGGATTTGGA 
    ATTGCAATAT CTGGTGGAAG AGACAACCCT CATTTTCAGA GTGGGGAAAC TTCCATAGTA 
    ATTTCAGATG TGCTGAAAGG GGGACCCGCT GAAGGACAGC TACAGGAAAA TGACCGAGTT 
    GCAATGGTTA ATGGAGTTTC AATGGACAAT GTTGAACATG CTTTTGCTGT TCAGCAACTA 
    AGGAAAAGTG GGAAGAATGC AAAAATTACC ATTCGGAGGA AGAAGAAAGT TCAGATACCA 
    GTTAGTCGTC CTGATCCTGA ACCGGTATCT GGGAATGAAG AAGATAGTTA CGATGAGGAA 
    GTCCATGACC CAAGAAGCAG CCGTGGCGGT CTGGTCAGTA GAAGGAGTGA GAAGAGTTGG 
    GCAAGGGATA GAAGTGCAAG CAGAGAGAGG AGTTTGTCCC CACGGTCTGA TAGGCGATCT 
    GTGGCCTCCA GTCAACCTGC CAAACCCACC AAAGTTACAT TGGTGAAATC CCGGAAAAAT 
    GAAGAATATG GTCTTCGATT GGCCAGCCAT ATATTTGTAA AGGAAATTTC ACAAGATAGT 
    TTGGCAGCAA GAGATGGCAA TATTCAAGAA GGCGATGTTG TACTAAAGAT AAATGGTACC 
    GTGACAGAAA ATATGTCACT GACAGATGCA AAAACATTGA TAGAAAGGTC TAAAGGCAAG 
    TTAAAAATGG TAGTTCAGAG GGATGAACGG GCTACCCTAT TGAACGTCCC TGATCTTTCT 
    GACAGTATCC ATTCTGCTAA TGCCTCTGAG AGAGATGACA TTTCAGAAAT TCAGTCACTG 
    GCCTCAGATC ATTCTGGTCG ATCACATGAT AGACCTCCCC GCCACAGCCG GTCACGATCA 
    CCTGACCAGC GGTCAGAGCC TTCTGATCAT TCCAGACACT CTCCACAGCA GCCCAGCAGT 
    GGCAGTCTCC GGAGCAGAGA GGAAGAGAGA ATTTCTAAAC CTGGGGCTGT CTCAACTCCT 
    CTGAAGCATG CGGATGATCA TACACCTAAA ACGGTAGAAG AAGTTGTAGT TGAGAGAAAT 
    GAGAAACAAG CGCCCACTCT TCCAGAACCA AAGCCTGTGT ATGCTCAAGG TGGACAACCA 
    GACGTGGATT TACCTGTCAG TCCGTCTGAT GGCGTCCTGC CTAATTCAAC TCATGAAGAT 
    GGGATTCTCC GGCCCAGCAT GAAATTGGTA AAATTCAGAA AAGGAGATAG TGTGGGTCTG 
    CGCCTGGCTG GTGGAAATGA TGTTGGAATA TTTGTAGCTG GTGTTCTAGA AGATAGCCCT 
    GCAGCCAAAG AAGGCTTAGA AGAGGGTGAT CAAATTCTCA GGGTAAACAA TGTAGATTTC 
    ACAAACATCA TAAGAGAAGA AGCTGTCCTT TTCCTGCTCG ACCTCCCTAA AGGAGAAGAA 
    GTGACCATAT TGGCTCAGAA GAAGAAAGAT GTTTATCGTC GCATCGTAGA ATCAGATGTA 
    GGAGATTCTT TCTATATTAG AACCCATTTT GAATATGAAA AGGAATCTCC CTATGGACTT 
    AGTTTTAACA AAGGAGAGGT GTTCCGTGTT GTGGATACCT TGTACAATGG GAAACTAGGC 
    TCTTGGCTCG CTATTCGAAT TGGTAAAAAT CATAAAGAAG TAGAACGAGG CATCATCCCT 
    AACAAGAACA GGGCTGAGCA GTTAGCCAGT GTACAGTACA CACTTCCAAA AACAGCTGGG 
    GGAGACCGTG CTGACTTCTG GAGATTCCGG GGTCTTCGCA GTTCCAAGAG AAATCTTCGA 
    AAGAGCAGAG AGGATTTGTC AGCTCAGCCA GTTCAAACAA AGTTTCCAGC CTATGAAAGA 
    GTTGTTCTTC GAGAAGCTGG ATTTCTGAGG CCTGTAACTA TCTTTGGACC CATAGCTGAT 
    GTTGCCCGAG AAAAGCTGGC AAGAGAGGAA CCAGATATTT ATCAGATTGC AAAAAGTGAA 
    CCACGAGATG CTGGAACTGA CCAACGTAGC TCTGGCATTA TTCGCCTTCA TACAATAAAG 
    CAAATAATAG ATCAGGACAA ACATGCTTTA TTAGATGTAA CACCAAATGC AGTTGATCGT 
    CTGAATTATG CCCAGTGGTA TCCAATTGTA GTATTCCTTA ACCCTGATTC TAAGCAAGGT 
    GTGAAAACTA TGAGGATGAG GTTATGTCCA GAATCTCGGA AAAGTGCCAG GAAATTATAT 
    GAACGATCTC ATAAACTTCG TAAAAATAAT CACCATCTTT TTACAACTAC AATTAACTTA 
    AATTCAATGA ATGATGGTTG GTATGGTGCA TTGAAAGAAG CAATTCAGCA ACAACAGAAC 
    CAGTTGGTAT GGGTTTCTGA GGGAAAGGCG GATGGTGCTA CAAGTGATGA CCTTGATTTG 
    CATGATGATC GTCTGTCCTA CCTGTCAGCC CCAGGTAGTG AATACTCAAT GTATAGCACG 
    GACAGTAGAC ACACTTCTGA CTATGAAGAC ACAGATACAG AAGGCGGGGC CTACACTGAT 
    CAAGAACTAG ATGAAACTCT TAATGATGAG GTTGGGACTC CACCGGAGTC TGCCATTACA 
    CGGTCCTCTG AGCCTGTAAG AGAGGACTCC TCTGGAATGC ATCATGAAAA CCAAACATAT 
    CCTCCTTATT CACCACAAGC GCAGCCACAA CCAATTCATA GAATAGACTC CCCTGGATTT 
    AAAACAGCCT CTCAACAGAA AGCAGAAGCC TCATCTCCAG TCCCTTACCT TTCGCCTGAA 
    ACAAACTCAG CATCATCAAC CTCTGCTGTT AACCATAATG TAACTTTAAC TAATGTCAGA 
    CTGGAGGGGC CCACCCCAGC TCCTTCCACC TCTTACTCAC CACAAGCTGA TTCTTTAAGA 
    ACACCAAGTA CTGAGGCAGC TCACATAATG CTAAGAGATC AAGAGCCATC ATTGCCGTCG 
    CATGTAGATC CAGCAAAGGT GTATAGAAAA GATCCCTATC CTGAGGAAAT GATGAGACAG 
    AATCACGTTT TGAAACAGCC AGCTGTTGGT CACCCAGGGC AGAGGCCAGA CAAAGAGCCT 
    AATCTGAGCT ATGAATCCCA ACCCCCATAT GTAGAGAAAC AAGCCAACAG AGACCTCGAG 
    CAGCCCACAT ACAGATATGA CTCCTCAAGT TACACAGACC AGTTTTCTCG AAACTATGAC 
    CATCGTCTCC GCTACGAAGA GCGCATTCCT ACATATGAAG AGCAGTGGTC TTATTATGAT 
    GACAAACAGC CCTACCAGCC TCGGACGCCT TTTGATAATC AGCACCCTCG GGACCTTGAC 
    TCCAGACAGC ATCCTGAAGA GTCCTCAGAA CGAGGCTATT ACCCACGTTT TGAAGAGCCA 
    GCCCCTCTGT CCTATGACAG CAGACCACGC TATGACCAGC CACCTAGAAC CTCCACCCTA 
    CGACATGAAG AGCAGCCAGC TCCTGGGTAT GACATGCACA ACAGATACAG GCCGGAAGCA 
    CAGTCCTATT CAGTAGGCCC GAAGGCGACT GAACCCAAAC AGTATTTTGA CCAATACCCA 
    CGAAGTTACG AGCAAGTACC ACCACAAGGA TTTACCTCTA AAGCAGGCCA CTATGAGCCT 
    CTCCATGGTG CTGCAGTTGT CCCTCCTCTA ATTCCCGCAT CTCAACACAA GCCAGAAGTT 
    CTGCCTTCAA ATACCAAACC ACTGCCTCCA CCCCCCACTC TGACTGAAGA GGAGGAAGAT 
    CCAGCAATGA AGCCCCAGTC TGTGCTCACT AGAGTGAAAA TGTTTGAAAA CAAAAGATCT 
    GCATCATTGG AGAGCAAGAA GGATGAAAAC CACACTGCTG CTTTTAAGCC TCCAGAGGTA 
    GCATCTAAAC CTTCAGGTGC TCCCATCATT GGCCCTAAAG CCACTCCTCA GAATCAGTTC 
    AGTGAACATG ACAAAACACT GTACAGGATC CCAGAACCTC AAAAACCTCA AATGAAGCCA 
    CCCGAAGATA TTGTTCGGTC TAATCATTAT GATCCCGAGG AAGATGAAGA ATATTATCGA 
    AAACAGCTCT CATACTTTGA CCGAAGAAGT TTTGAAAACA AGCCTTCTAC ACACATTCCT 
    GCTGGCCATC TCTCAGAGCC TGCCAAGCCA GTTCATTCTC AGAATCAACC AAACTTTTCT 
    AGTTATTCTT CAAAGGGAAA GTCTCCTGAA GCTGATGGCA TGGATAGAGC ATTTGGTGAG 
    AAGCGCTATG AGCCAGTCCA GGCCACTCCC CCTCCTCCCC CATTGCCCTC CCAGTACGCC 
    CAGCCTGCTC AGTCCAGTAC CAGCTCCTCT CTTGCCCTCC ACACGCATGC CAAGGGGGCA 
    CATGGTGAAG GTAATTCGGT GTCGCTGGAT TTTCAGAATT CTTTAGTGTC CAAACCAGAC 
    CCACCTCCAT CTCAGAATAA GCCAGCAACT TTCAGACCAC CGAACCGAGA AGACACTGTT 
    CAGTCTACTT TCTATCCCCA GAAAAGTTTC CCAGATAAAG CTCCAGCTAA TGGAGCTGAA 
    CAGACTCAGA AAACGGTCAC TCCAGCATAT AATCGATTCA CGCCAAAACC ATACACAAGT 
    TCTGCCCGGC CATTTGAGCG CAAGTTCGAA AGTCCTAAAT TCAACCACAA TCTGCTGCCA 
    AGTGAAACGG CACATAAACC TGACTTGTCT TCAAAAGCCC CCGCTTCTCC CAAAACACTT 
    GCGAAAGCAC ACAGCGCGAC ACAGCCTCCT GAGTTTGACA GCGGGGTTGA AACTTTCTCC 
    ATCCACGCGG ATAAGCCTAA ATATCAAATG AACAATATCA GCACAGTGCC TAAAGCTATT 
    CCTGTGAGCC CTTCAGCTGT GGAAGAAGAT GAAGATGAGG ATGGTCATAC TGTGGTGGCC 
    ACAGCCCGAG GCGTGTTTAA CAGCAATGGT GGGGTGTTGA GTTCCATAGA AACTGGTGTT 
    AGTATAATTA TCCCACAAGG AGCCATTCCT GAGGGAATTG AGCAGGAAAT CTATTTCAAG 
    GTCTGCCGAG ACAACAGCAT CCTCCCGCCT TTAGATAAGG AGAAAGGTGA GACACTGCTG 
    AGCCCTTTAG TGATGTGTGG GCCCCATGGC CTCAAGTTCC TGAAGCCCGT GGAGCTGCGC 
    TTACCACACT GTGATCCTAA AACATGGCAA AACAAGTGTC TTCCTGGAGA TCCAAATTAC 
    CTTGTTGGAG CAAACTGTGT TTCTGTACTG ATTGACCACT TTTAA

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

    RefSeq XP_011230579.2
    CDS28..5292
    Translation

    Target ORF information:

    RefSeq Version XM_011232277.2
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca 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_011232277.2

    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
    ATGCGTCAGA ACCAGAGCCA GTGGAACACA GTAGAAGACA AGAACACAGC AATGGAGGAA 
    ACAGCTATAT GGGAACAACA CACAGTGACT CTTCACAGGG CTCCTGGATT TGGATTTGGA 
    ATTGCAATAT CTGGTGGAAG AGACAACCCT CATTTTCAGA GTGGGGAAAC TTCCATAGTA 
    ATTTCAGATG TGCTGAAAGG GGGACCCGCT GAAGGACAGC TACAGGAAAA TGACCGAGTT 
    GCAATGGTTA ATGGAGTTTC AATGGACAAT GTTGAACATG CTTTTGCTGT TCAGCAACTA 
    AGGAAAAGTG GGAAGAATGC AAAAATTACC ATTCGGAGGA AGAAGAAAGT TCAGATACCA 
    GTTAGTCGTC CTGATCCTGA ACCGGTATCT GGGAATGAAG AAGATAGTTA CGATGAGGAA 
    GTCCATGACC CAAGAAGCAG CCGTGGCGGT CTGGTCAGTA GAAGGAGTGA GAAGAGTTGG 
    GCAAGGGATA GAAGTGCAAG CAGAGAGAGG AGTTTGTCCC CACGGTCTGA TAGGCGATCT 
    GTGGCCTCCA GTCAACCTGC CAAACCCACC AAAGTTACAT TGGTGAAATC CCGGAAAAAT 
    GAAGAATATG GTCTTCGATT GGCCAGCCAT ATATTTGTAA AGGAAATTTC ACAAGATAGT 
    TTGGCAGCAA GAGATGGCAA TATTCAAGAA GGCGATGTTG TACTAAAGAT AAATGGTACC 
    GTGACAGAAA ATATGTCACT GACAGATGCA AAAACATTGA TAGAAAGGTC TAAAGGCAAG 
    TTAAAAATGG TAGTTCAGAG GGATGAACGG GCTACCCTAT TGAACGTCCC TGATCTTTCT 
    GACAGTATCC ATTCTGCTAA TGCCTCTGAG AGAGATGACA TTTCAGAAAT TCAGTCACTG 
    GCCTCAGATC ATTCTGGTCG ATCACATGAT AGACCTCCCC GCCACAGCCG GTCACGATCA 
    CCTGACCAGC GGTCAGAGCC TTCTGATCAT TCCAGACACT CTCCACAGCA GCCCAGCAGT 
    GGCAGTCTCC GGAGCAGAGA GGAAGAGAGA ATTTCTAAAC CTGGGGCTGT CTCAACTCCT 
    CTGAAGCATG CGGATGATCA TACACCTAAA ACGGTAGAAG AAGTTGTAGT TGAGAGAAAT 
    GAGAAACAAG CGCCCACTCT TCCAGAACCA AAGCCTGTGT ATGCTCAAGG TGGACAACCA 
    GACGTGGATT TACCTGTCAG TCCGTCTGAT GGCGTCCTGC CTAATTCAAC TCATGAAGAT 
    GGGATTCTCC GGCCCAGCAT GAAATTGGTA AAATTCAGAA AAGGAGATAG TGTGGGTCTG 
    CGCCTGGCTG GTGGAAATGA TGTTGGAATA TTTGTAGCTG GTGTTCTAGA AGATAGCCCT 
    GCAGCCAAAG AAGGCTTAGA AGAGGGTGAT CAAATTCTCA GGGTAAACAA TGTAGATTTC 
    ACAAACATCA TAAGAGAAGA AGCTGTCCTT TTCCTGCTCG ACCTCCCTAA AGGAGAAGAA 
    GTGACCATAT TGGCTCAGAA GAAGAAAGAT GTTTATCGTC GCATCGTAGA ATCAGATGTA 
    GGAGATTCTT TCTATATTAG AACCCATTTT GAATATGAAA AGGAATCTCC CTATGGACTT 
    AGTTTTAACA AAGGAGAGGT GTTCCGTGTT GTGGATACCT TGTACAATGG GAAACTAGGC 
    TCTTGGCTCG CTATTCGAAT TGGTAAAAAT CATAAAGAAG TAGAACGAGG CATCATCCCT 
    AACAAGAACA GGGCTGAGCA GTTAGCCAGT GTACAGTACA CACTTCCAAA AACAGCTGGG 
    GGAGACCGTG CTGACTTCTG GAGATTCCGG GGTCTTCGCA GTTCCAAGAG AAATCTTCGA 
    AAGAGCAGAG AGGATTTGTC AGCTCAGCCA GTTCAAACAA AGTTTCCAGC CTATGAAAGA 
    GTTGTTCTTC GAGAAGCTGG ATTTCTGAGG CCTGTAACTA TCTTTGGACC CATAGCTGAT 
    GTTGCCCGAG AAAAGCTGGC AAGAGAGGAA CCAGATATTT ATCAGATTGC AAAAAGTGAA 
    CCACGAGATG CTGGAACTGA CCAACGTAGC TCTGGCATTA TTCGCCTTCA TACAATAAAG 
    CAAATAATAG ATCAGGACAA ACATGCTTTA TTAGATGTAA CACCAAATGC AGTTGATCGT 
    CTGAATTATG CCCAGTGGTA TCCAATTGTA GTATTCCTTA ACCCTGATTC TAAGCAAGGT 
    GTGAAAACTA TGAGGATGAG GTTATGTCCA GAATCTCGGA AAAGTGCCAG GAAATTATAT 
    GAACGATCTC ATAAACTTCG TAAAAATAAT CACCATCTTT TTACAACTAC AATTAACTTA 
    AATTCAATGA ATGATGGTTG GTATGGTGCA TTGAAAGAAG CAATTCAGCA ACAACAGAAC 
    CAGTTGGTAT GGGTTTCTGA GGGAAAGGCG GATGGTGCTA CAAGTGATGA CCTTGATTTG 
    CATGATGATC GTCTGTCCTA CCTGTCAGCC CCAGGTAGTG AATACTCAAT GTATAGCACG 
    GACAGTAGAC ACACTTCTGA CTATGAAGAC ACAGATACAG AAGGCGGGGC CTACACTGAT 
    CAAGAACTAG ATGAAACTCT TAATGATGAG GTTGGGACTC CACCGGAGTC TGCCATTACA 
    CGGTCCTCTG AGCCTGTAAG AGAGGACTCC TCTGGAATGC ATCATGAAAA CCAAACATAT 
    CCTCCTTATT CACCACAAGC GCAGCCACAA CCAATTCATA GAATAGACTC CCCTGGATTT 
    AAAACAGCCT CTCAACAGAA AGCAGAAGCC TCATCTCCAG TCCCTTACCT TTCGCCTGAA 
    ACAAACTCAG CATCATCAAC CTCTGCTGTT AACCATAATG TAACTTTAAC TAATGTCAGA 
    CTGGAGGGGC CCACCCCAGC TCCTTCCACC TCTTACTCAC CACAAGCTGA TTCTTTAAGA 
    ACACCAAGTA CTGAGGCAGC TCACATAATG CTAAGAGATC AAGAGCCATC ATTGCCGTCG 
    CATGTAGATC CAGCAAAGGT GTATAGAAAA GATCCCTATC CTGAGGAAAT GATGAGACAG 
    AATCACGTTT TGAAACAGCC AGCTGTTGGT CACCCAGGGC AGAGGCCAGA CAAAGAGCCT 
    AATCTGAGCT ATGAATCCCA ACCCCCATAT GTAGAGAAAC AAGCCAACAG AGACCTCGAG 
    CAGCCCACAT ACAGATATGA CTCCTCAAGT TACACAGACC AGTTTTCTCG AAACTATGAC 
    CATCGTCTCC GCTACGAAGA GCGCATTCCT ACATATGAAG AGCAGTGGTC TTATTATGAT 
    GACAAACAGC CCTACCAGCC TCGGACGCCT TTTGATAATC AGCACCCTCG GGACCTTGAC 
    TCCAGACAGC ATCCTGAAGA GTCCTCAGAA CGAGGCTATT ACCCACGTTT TGAAGAGCCA 
    GCCCCTCTGT CCTATGACAG CAGACCACGC TATGACCAGC CACCTAGAAC CTCCACCCTA 
    CGACATGAAG AGCAGCCAGC TCCTGGGTAT GACATGCACA ACAGATACAG GCCGGAAGCA 
    CAGTCCTATT CAGTAGGCCC GAAGGCGACT GAACCCAAAC AGTATTTTGA CCAATACCCA 
    CGAAGTTACG AGCAAGTACC ACCACAAGGA TTTACCTCTA AAGCAGGCCA CTATGAGCCT 
    CTCCATGGTG CTGCAGTTGT CCCTCCTCTA ATTCCCGCAT CTCAACACAA GCCAGAAGTT 
    CTGCCTTCAA ATACCAAACC ACTGCCTCCA CCCCCCACTC TGACTGAAGA GGAGGAAGAT 
    CCAGCAATGA AGCCCCAGTC TGTGCTCACT AGAGTGAAAA TGTTTGAAAA CAAAAGATCT 
    GCATCATTGG AGAGCAAGAA GGATGAAAAC CACACTGCTG CTTTTAAGCC TCCAGAGGTA 
    GCATCTAAAC CTTCAGGTGC TCCCATCATT GGCCCTAAAG CCACTCCTCA GAATCAGTTC 
    AGTGAACATG ACAAAACACT GTACAGGATC CCAGAACCTC AAAAACCTCA AATGAAGCCA 
    CCCGAAGATA TTGTTCGGTC TAATCATTAT GATCCCGAGG AAGATGAAGA ATATTATCGA 
    AAACAGCTCT CATACTTTGA CCGAAGAAGT TTTGAAAACA AGCCTTCTAC ACACATTCCT 
    GCTGGCCATC TCTCAGAGCC TGCCAAGCCA GTTCATTCTC AGAATCAACC AAACTTTTCT 
    AGTTATTCTT CAAAGGGAAA GTCTCCTGAA GCTGATGGCA TGGATAGAGC ATTTGGTGAG 
    AAGCGCTATG AGCCAGTCCA GGCCACTCCC CCTCCTCCCC CATTGCCCTC CCAGTACGCC 
    CAGCCTGCTC AGTCCAGTAC CAGCTCCTCT CTTGCCCTCC ACACGCATGC CAAGGGGGCA 
    CATGGTGAAG GTAATTCGGT GTCGCTGGAT TTTCAGAATT CTTTAGTGTC CAAACCAGAC 
    CCACCTCCAT CTCAGAATAA GCCAGCAACT TTCAGACCAC CGAACCGAGA AGACACTGTT 
    CAGTCTACTT TCTATCCCCA GAAAAGTTTC CCAGATAAAG CTCCAGCTAA TGGAGCTGAA 
    CAGACTCAGA AAACGGTCAC TCCAGCATAT AATCGATTCA CGCCAAAACC ATACACAAGT 
    TCTGCCCGGC CATTTGAGCG CAAGTTCGAA AGTCCTAAAT TCAACCACAA TCTGCTGCCA 
    AGTGAAACGG CACATAAACC TGACTTGTCT TCAAAAGCCC CCGCTTCTCC CAAAACACTT 
    GCGAAAGCAC ACAGCGCGAC ACAGCCTCCT GAGTTTGACA GCGGGGTTGA AACTTTCTCC 
    ATCCACGCGG ATAAGCCTAA ATATCAAATG AACAATATCA GCACAGTGCC TAAAGCTATT 
    CCTGTGAGCC CTTCAGCTGT GGAAGAAGAT GAAGATGAGG ATGGTCATAC TGTGGTGGCC 
    ACAGCCCGAG GCGTGTTTAA CAGCAATGGT GGGGTGTTGA GTTCCATAGA AACTGGTGTT 
    AGTATAATTA TCCCACAAGG AGCCATTCCT GAGGGAATTG AGCAGGAAAT CTATTTCAAG 
    GTCTGCCGAG ACAACAGCAT CCTCCCGCCT TTAGATAAGG AGAAAGGTGA GACACTGCTG 
    AGCCCTTTAG TGATGTGTGG GCCCCATGGC CTCAAGTTCC TGAAGCCCGT GGAGCTGCGC 
    TTACCACACT GTGATCCTAA AACATGGCAA AACAAGTGTC TTCCTGGAGA TCCAAATTAC 
    CTTGTTGGAG CAAACTGTGT TTCTGTACTG ATTGACCACT TTTAA

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

    TJP1 ( XM_011232278.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011230580.2 Ailuropoda melanoleuca tight junction protein 1 (TJP1), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OAc96977
    Clone ID Related Accession (Same CDS sequence) XM_011232278.2
    Accession Version XM_011232278.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5190bp)
    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 1482768000000
    Organism Ailuropoda melanoleuca(giant panda)
    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 (NW_003218187.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011232278.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    ATGCGTCAGA ACCAGAGCCA GTGGAACACA GTAGAAGACA AGAACACAGC AATGGAGGAA 
    ACAGCTATAT GGGAACAACA CACAGTGACT CTTCACAGGG CTCCTGGATT TGGATTTGGA 
    ATTGCAATAT CTGGTGGAAG AGACAACCCT CATTTTCAGA GTGGGGAAAC TTCCATAGTA 
    ATTTCAGATG TGCTGAAAGG GGGACCCGCT GAAGGACAGC TACAGGAAAA TGACCGAGTT 
    GCAATGGTTA ATGGAGTTTC AATGGACAAT GTTGAACATG CTTTTGCTGT TCAGCAACTA 
    AGGAAAAGTG GGAAGAATGC AAAAATTACC ATTCGGAGGA AGAAGAAAGT TCAGATACCA 
    GTTAGTCGTC CTGATCCTGA ACCGGTATCT GGGAATGAAG AAGATAGTTA CGATGAGGAA 
    GTCCATGACC CAAGAAGCAG CCGTGGCGGT CTGGTCAGTA GAAGGAGTGA GAAGAGTTGG 
    GCAAGGGATA GAAGTGCAAG CAGAGAGAGG AGTTTGTCCC CACGGTCTGA TAGGCGATCT 
    GTGGCCTCCA GTCAACCTGC CAAACCCACC AAAGTTACAT TGGTGAAATC CCGGAAAAAT 
    GAAGAATATG GTCTTCGATT GGCCAGCCAT ATATTTGTAA AGGAAATTTC ACAAGATAGT 
    TTGGCAGCAA GAGATGGCAA TATTCAAGAA GGCGATGTTG TACTAAAGAT AAATGGTACC 
    GTGACAGAAA ATATGTCACT GACAGATGCA AAAACATTGA TAGAAAGGTC TAAAGGCAAG 
    TTAAAAATGG TAGTTCAGAG GGATGAACGG GCTACCCTAT TGAACGTCCC TGATCTTTCT 
    GACAGTATCC ATTCTGCTAA TGCCTCTGAG AGAGATGACA TTTCAGAAAT TCAGTCACTG 
    GCCTCAGATC ATTCTGGTCG ATCACATGAT AGACCTCCCC GCCACAGCCG GTCACGATCA 
    CCTGACCAGC GGTCAGAGCC TTCTGATCAT TCCAGACACT CTCCACAGCA GCCCAGCAGT 
    GGCAGTCTCC GGAGCAGAGA GGAAGAGAGA ATTTCTAAAC CTGGGGCTGT CTCAACTCCT 
    CTGAAGCATG CGGATGATCA TACACCTAAA ACGGTAGAAG AAGTTGTAGT TGAGAGAAAT 
    GAGAAACAAG CGCCCACTCT TCCAGAACCA AAGCCTGTGT ATGCTCAAGG TGGACAACCA 
    GACGTGGATT TACCTGTCAG TCCGTCTGAT GGCGTCCTGC CTAATTCAAC TCATGAAGAT 
    GGGATTCTCC GGCCCAGCAT GAAATTGGTA AAATTCAGAA AAGGAGATAG TGTGGGTCTG 
    CGCCTGGCTG GTGGAAATGA TGTTGGAATA TTTGTAGCTG GTGTTCTAGA AGATAGCCCT 
    GCAGCCAAAG AAGGCTTAGA AGAGGGTGAT CAAATTCTCA GGGTAAACAA TGTAGATTTC 
    ACAAACATCA TAAGAGAAGA AGCTGTCCTT TTCCTGCTCG ACCTCCCTAA AGGAGAAGAA 
    GTGACCATAT TGGCTCAGAA GAAGAAAGAT GTTTATCGTC GCATCGTAGA ATCAGATGTA 
    GGAGATTCTT TCTATATTAG AACCCATTTT GAATATGAAA AGGAATCTCC CTATGGACTT 
    AGTTTTAACA AAGGAGAGGT GTTCCGTGTT GTGGATACCT TGTACAATGG GAAACTAGGC 
    TCTTGGCTCG CTATTCGAAT TGGTAAAAAT CATAAAGAAG TAGAACGAGG CATCATCCCT 
    AACAAGAACA GGGCTGAGCA GTTAGCCAGT GTACAGTACA CACTTCCAAA AACAGCTGGG 
    GGAGACCGTG CTGACTTCTG GAGATTCCGG GGTCTTCGCA GTTCCAAGAG AAATCTTCGA 
    AAGAGCAGAG AGGATTTGTC AGCTCAGCCA GTTCAAACAA AGTTTCCAGC CTATGAAAGA 
    GTTGTTCTTC GAGAAGCTGG ATTTCTGAGG CCTGTAACTA TCTTTGGACC CATAGCTGAT 
    GTTGCCCGAG AAAAGCTGGC AAGAGAGGAA CCAGATATTT ATCAGATTGC AAAAAGTGAA 
    CCACGAGATG CTGGAACTGA CCAACGTAGC TCTGGCATTA TTCGCCTTCA TACAATAAAG 
    CAAATAATAG ATCAGGACAA ACATGCTTTA TTAGATGTAA CACCAAATGC AGTTGATCGT 
    CTGAATTATG CCCAGTGGTA TCCAATTGTA GTATTCCTTA ACCCTGATTC TAAGCAAGGT 
    GTGAAAACTA TGAGGATGAG GTTATGTCCA GAATCTCGGA AAAGTGCCAG GAAATTATAT 
    GAACGATCTC ATAAACTTCG TAAAAATAAT CACCATCTTT TTACAACTAC AATTAACTTA 
    AATTCAATGA ATGATGGTTG GTATGGTGCA TTGAAAGAAG CAATTCAGCA ACAACAGAAC 
    CAGTTGGTAT GGGTTTCTGA GGGAAAGGCG GATGGTGCTA CAAGTGATGA CCTTGATTTG 
    CATGATGATC GTCTGTCCTA CCTGTCAGCC CCAGGTAGTG AATACTCAAT GTATAGCACG 
    GACAGTAGAC ACACTTCTGA CTATGAAGAC ACAGATACAG AAGGCGGGGC CTACACTGAT 
    CAAGAACTAG ATGAAACTCT TAATGATGAG GTTGGGACTC CACCGGAGTC TGCCATTACA 
    CGGTCCTCTG AGCCTGTAAG AGAGGACTCC TCTGGAATGC ATCATGAAAA CCAAACATAT 
    CCTCCTTATT CACCACAAGC GCAGCCACAA CCAATTCATA GAATAGACTC CCCTGGATTT 
    AAAACAGCCT CTCAACAGAA AGCAGAAGCC TCATCTCCAG TCCCTTACCT TTCGCCTGAA 
    ACAAACTCAG CATCATCAAC CTCTGCTGTT AACCATAATG TAACTTTAAC TAATGTCAGA 
    CTGGAGGGGC CCACCCCAGC TCCTTCCACC TCTTACTCAC CACAAGCTGA TTCTTTAAGA 
    ACACCAAGTA CTGAGGCAGC TCACATAATG CTAAGAGATC AAGAGCCATC ATTGCCGTCG 
    CATGTAGATC CAGCAAAGGT GTATAGAAAA GATCCCTATC CTGAGGAAAT GATGAGACAG 
    AATCACGTTT TGAAACAGCC AGCTGTTGGT CACCCAGGGC AGAGGCCAGA CAAAGAGCCT 
    AATCTGAGCT ATGAATCCCA ACCCCCATAT GTAGAGAAAC AAGCCAACAG AGACCTCGAG 
    CAGCCCACAT ACAGATATGA CTCCTCAAGT TACACAGACC AGTTTTCTCG AAACTATGAC 
    CATCGTCTCC GCTACGAAGA GCGCATTCCT ACATATGAAG AGCAGTGGTC TTATTATGAT 
    GACAAACAGC CCTACCAGCC TCGGACGCCT TTTGATAATC AGCACCCTCG GGACCTTGAC 
    TCCAGACAGC ATCCTGAAGA GTCCTCAGAA CGAGGCTATT ACCCACGTTT TGAAGAGCCA 
    GCCCCTCTGT CCTATGACAG CAGACCACGC TATGACCAGC CACCTAGAAC CTCCACCCTA 
    CGACATGAAG AGCAGCCAGC TCCTGGGTAT GACATGCACA ACAGATACAG GCCGGAAGCA 
    CAGTCCTATT CAGTAGGCCC GAAGGCGACT GAACCCAAAC AGTATTTTGA CCAATACCCA 
    CGAAGTTACG AGCAAGTACC ACCACAAGGA TTTACCTCTA AAGCAGGCCA CTATGAGCCT 
    CTCCATGGTG CTGCAGTTGT CCCTCCTCTA ATTCCCGCAT CTCAACACAA GCCAGAAGTT 
    CTGCCTTCAA ATACCAAACC ACTGCCTCCA CCCCCCACTC TGACTGAAGA GGAGGAAGAT 
    CCAGCAATGA AGCCCCAGTC TGTGCTCACT AGAGTGAAAA TGTTTGAAAA CAAAAGATCT 
    GCATCATTGG AGAGCAAGAA GGATGAAAAC CACACTGCTG CTTTTAAGCC TCCAGAGGTA 
    GCATCTAAAC CTTCAGGTGC TCCCATCATT GGCCCTAAAG CCACTCCTCA GAATCAGTTC 
    AGTGAACATG ACAAAACACT GTACAGGATC CCAGAACCTC AAAAACCTCA AATGAAGCCA 
    CCCGAAGATA TTGTTCGGTC TAATCATTAT GATCCCGAGG AAGATGAAGA ATATTATCGA 
    AAACAGCTCT CATACTTTGA CCGAAGAAGT TTTGAAAACA AGCCTTCTAC ACACATTCCT 
    GCTGGCCATC TCTCAGAGCC TGCCAAGCCA GTTCATTCTC AGAATCAACC AAACTTTTCT 
    AGTTATTCTT CAAAGGGAAA GTCTCCTGAA GCTGATGGCA TGGATAGAGC ATTTGGTAAT 
    TCGGTGTCGC TGGATTTTCA GAATTCTTTA GTGTCCAAAC CAGACCCACC TCCATCTCAG 
    AATAAGCCAG CAACTTTCAG ACCACCGAAC CGAGAAGACA CTGTTCAGTC TACTTTCTAT 
    CCCCAGAAAA GTTTCCCAGA TAAAGCTCCA GCTAATGGAG CTGAACAGAC TCAGAAAACG 
    GTCACTCCAG CATATAATCG ATTCACGCCA AAACCATACA CAAGTTCTGC CCGGCCATTT 
    GAGCGCAAGT TCGAAAGTCC TAAATTCAAC CACAATCTGC TGCCAAGTGA AACGGCACAT 
    AAACCTGACT TGTCTTCAAA AGCCCCCGCT TCTCCCAAAA CACTTGCGAA AGCACACAGC 
    GCGACACAGC CTCCTGAGTT TGACAGCGGG GTTGAAACTT TCTCCATCCA CGCGGATAAG 
    CCTAAATATC AAATGAACAA TATCAGCACA GTGCCTAAAG CTATTCCTGT GAGCCCTTCA 
    GCTGTGGAAG AAGATGAAGA TGAGGATGGT CATACTGTGG TGGCCACAGC CCGAGGCGTG 
    TTTAACAGCA ATGGTGGGGT GTTGAGTTCC ATAGAAACTG GTGTTAGTAT AATTATCCCA 
    CAAGGAGCCA TTCCTGAGGG AATTGAGCAG GAAATCTATT TCAAGGTCTG CCGAGACAAC 
    AGCATCCTCC CGCCTTTAGA TAAGGAGAAA GGTGAGACAC TGCTGAGCCC TTTAGTGATG 
    TGTGGGCCCC ATGGCCTCAA GTTCCTGAAG CCCGTGGAGC TGCGCTTACC ACACTGTGCG 
    TCCATGACTC CTGACGGTTG GTCTTTTGCT CTAAAATCAT CCGACTCCTC GTCGGGTGAT 
    CCTAAAACAT GGCAAAACAA GTGTCTTCCT GGAGATCCAA ATTACCTTGT TGGAGCAAAC 
    TGTGTTTCTG TACTGATTGA CCACTTTTAA

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

    RefSeq XP_011230580.2
    CDS28..5217
    Translation

    Target ORF information:

    RefSeq Version XM_011232278.2
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca 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_011232278.2

    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
    ATGCGTCAGA ACCAGAGCCA GTGGAACACA GTAGAAGACA AGAACACAGC AATGGAGGAA 
    ACAGCTATAT GGGAACAACA CACAGTGACT CTTCACAGGG CTCCTGGATT TGGATTTGGA 
    ATTGCAATAT CTGGTGGAAG AGACAACCCT CATTTTCAGA GTGGGGAAAC TTCCATAGTA 
    ATTTCAGATG TGCTGAAAGG GGGACCCGCT GAAGGACAGC TACAGGAAAA TGACCGAGTT 
    GCAATGGTTA ATGGAGTTTC AATGGACAAT GTTGAACATG CTTTTGCTGT TCAGCAACTA 
    AGGAAAAGTG GGAAGAATGC AAAAATTACC ATTCGGAGGA AGAAGAAAGT TCAGATACCA 
    GTTAGTCGTC CTGATCCTGA ACCGGTATCT GGGAATGAAG AAGATAGTTA CGATGAGGAA 
    GTCCATGACC CAAGAAGCAG CCGTGGCGGT CTGGTCAGTA GAAGGAGTGA GAAGAGTTGG 
    GCAAGGGATA GAAGTGCAAG CAGAGAGAGG AGTTTGTCCC CACGGTCTGA TAGGCGATCT 
    GTGGCCTCCA GTCAACCTGC CAAACCCACC AAAGTTACAT TGGTGAAATC CCGGAAAAAT 
    GAAGAATATG GTCTTCGATT GGCCAGCCAT ATATTTGTAA AGGAAATTTC ACAAGATAGT 
    TTGGCAGCAA GAGATGGCAA TATTCAAGAA GGCGATGTTG TACTAAAGAT AAATGGTACC 
    GTGACAGAAA ATATGTCACT GACAGATGCA AAAACATTGA TAGAAAGGTC TAAAGGCAAG 
    TTAAAAATGG TAGTTCAGAG GGATGAACGG GCTACCCTAT TGAACGTCCC TGATCTTTCT 
    GACAGTATCC ATTCTGCTAA TGCCTCTGAG AGAGATGACA TTTCAGAAAT TCAGTCACTG 
    GCCTCAGATC ATTCTGGTCG ATCACATGAT AGACCTCCCC GCCACAGCCG GTCACGATCA 
    CCTGACCAGC GGTCAGAGCC TTCTGATCAT TCCAGACACT CTCCACAGCA GCCCAGCAGT 
    GGCAGTCTCC GGAGCAGAGA GGAAGAGAGA ATTTCTAAAC CTGGGGCTGT CTCAACTCCT 
    CTGAAGCATG CGGATGATCA TACACCTAAA ACGGTAGAAG AAGTTGTAGT TGAGAGAAAT 
    GAGAAACAAG CGCCCACTCT TCCAGAACCA AAGCCTGTGT ATGCTCAAGG TGGACAACCA 
    GACGTGGATT TACCTGTCAG TCCGTCTGAT GGCGTCCTGC CTAATTCAAC TCATGAAGAT 
    GGGATTCTCC GGCCCAGCAT GAAATTGGTA AAATTCAGAA AAGGAGATAG TGTGGGTCTG 
    CGCCTGGCTG GTGGAAATGA TGTTGGAATA TTTGTAGCTG GTGTTCTAGA AGATAGCCCT 
    GCAGCCAAAG AAGGCTTAGA AGAGGGTGAT CAAATTCTCA GGGTAAACAA TGTAGATTTC 
    ACAAACATCA TAAGAGAAGA AGCTGTCCTT TTCCTGCTCG ACCTCCCTAA AGGAGAAGAA 
    GTGACCATAT TGGCTCAGAA GAAGAAAGAT GTTTATCGTC GCATCGTAGA ATCAGATGTA 
    GGAGATTCTT TCTATATTAG AACCCATTTT GAATATGAAA AGGAATCTCC CTATGGACTT 
    AGTTTTAACA AAGGAGAGGT GTTCCGTGTT GTGGATACCT TGTACAATGG GAAACTAGGC 
    TCTTGGCTCG CTATTCGAAT TGGTAAAAAT CATAAAGAAG TAGAACGAGG CATCATCCCT 
    AACAAGAACA GGGCTGAGCA GTTAGCCAGT GTACAGTACA CACTTCCAAA AACAGCTGGG 
    GGAGACCGTG CTGACTTCTG GAGATTCCGG GGTCTTCGCA GTTCCAAGAG AAATCTTCGA 
    AAGAGCAGAG AGGATTTGTC AGCTCAGCCA GTTCAAACAA AGTTTCCAGC CTATGAAAGA 
    GTTGTTCTTC GAGAAGCTGG ATTTCTGAGG CCTGTAACTA TCTTTGGACC CATAGCTGAT 
    GTTGCCCGAG AAAAGCTGGC AAGAGAGGAA CCAGATATTT ATCAGATTGC AAAAAGTGAA 
    CCACGAGATG CTGGAACTGA CCAACGTAGC TCTGGCATTA TTCGCCTTCA TACAATAAAG 
    CAAATAATAG ATCAGGACAA ACATGCTTTA TTAGATGTAA CACCAAATGC AGTTGATCGT 
    CTGAATTATG CCCAGTGGTA TCCAATTGTA GTATTCCTTA ACCCTGATTC TAAGCAAGGT 
    GTGAAAACTA TGAGGATGAG GTTATGTCCA GAATCTCGGA AAAGTGCCAG GAAATTATAT 
    GAACGATCTC ATAAACTTCG TAAAAATAAT CACCATCTTT TTACAACTAC AATTAACTTA 
    AATTCAATGA ATGATGGTTG GTATGGTGCA TTGAAAGAAG CAATTCAGCA ACAACAGAAC 
    CAGTTGGTAT GGGTTTCTGA GGGAAAGGCG GATGGTGCTA CAAGTGATGA CCTTGATTTG 
    CATGATGATC GTCTGTCCTA CCTGTCAGCC CCAGGTAGTG AATACTCAAT GTATAGCACG 
    GACAGTAGAC ACACTTCTGA CTATGAAGAC ACAGATACAG AAGGCGGGGC CTACACTGAT 
    CAAGAACTAG ATGAAACTCT TAATGATGAG GTTGGGACTC CACCGGAGTC TGCCATTACA 
    CGGTCCTCTG AGCCTGTAAG AGAGGACTCC TCTGGAATGC ATCATGAAAA CCAAACATAT 
    CCTCCTTATT CACCACAAGC GCAGCCACAA CCAATTCATA GAATAGACTC CCCTGGATTT 
    AAAACAGCCT CTCAACAGAA AGCAGAAGCC TCATCTCCAG TCCCTTACCT TTCGCCTGAA 
    ACAAACTCAG CATCATCAAC CTCTGCTGTT AACCATAATG TAACTTTAAC TAATGTCAGA 
    CTGGAGGGGC CCACCCCAGC TCCTTCCACC TCTTACTCAC CACAAGCTGA TTCTTTAAGA 
    ACACCAAGTA CTGAGGCAGC TCACATAATG CTAAGAGATC AAGAGCCATC ATTGCCGTCG 
    CATGTAGATC CAGCAAAGGT GTATAGAAAA GATCCCTATC CTGAGGAAAT GATGAGACAG 
    AATCACGTTT TGAAACAGCC AGCTGTTGGT CACCCAGGGC AGAGGCCAGA CAAAGAGCCT 
    AATCTGAGCT ATGAATCCCA ACCCCCATAT GTAGAGAAAC AAGCCAACAG AGACCTCGAG 
    CAGCCCACAT ACAGATATGA CTCCTCAAGT TACACAGACC AGTTTTCTCG AAACTATGAC 
    CATCGTCTCC GCTACGAAGA GCGCATTCCT ACATATGAAG AGCAGTGGTC TTATTATGAT 
    GACAAACAGC CCTACCAGCC TCGGACGCCT TTTGATAATC AGCACCCTCG GGACCTTGAC 
    TCCAGACAGC ATCCTGAAGA GTCCTCAGAA CGAGGCTATT ACCCACGTTT TGAAGAGCCA 
    GCCCCTCTGT CCTATGACAG CAGACCACGC TATGACCAGC CACCTAGAAC CTCCACCCTA 
    CGACATGAAG AGCAGCCAGC TCCTGGGTAT GACATGCACA ACAGATACAG GCCGGAAGCA 
    CAGTCCTATT CAGTAGGCCC GAAGGCGACT GAACCCAAAC AGTATTTTGA CCAATACCCA 
    CGAAGTTACG AGCAAGTACC ACCACAAGGA TTTACCTCTA AAGCAGGCCA CTATGAGCCT 
    CTCCATGGTG CTGCAGTTGT CCCTCCTCTA ATTCCCGCAT CTCAACACAA GCCAGAAGTT 
    CTGCCTTCAA ATACCAAACC ACTGCCTCCA CCCCCCACTC TGACTGAAGA GGAGGAAGAT 
    CCAGCAATGA AGCCCCAGTC TGTGCTCACT AGAGTGAAAA TGTTTGAAAA CAAAAGATCT 
    GCATCATTGG AGAGCAAGAA GGATGAAAAC CACACTGCTG CTTTTAAGCC TCCAGAGGTA 
    GCATCTAAAC CTTCAGGTGC TCCCATCATT GGCCCTAAAG CCACTCCTCA GAATCAGTTC 
    AGTGAACATG ACAAAACACT GTACAGGATC CCAGAACCTC AAAAACCTCA AATGAAGCCA 
    CCCGAAGATA TTGTTCGGTC TAATCATTAT GATCCCGAGG AAGATGAAGA ATATTATCGA 
    AAACAGCTCT CATACTTTGA CCGAAGAAGT TTTGAAAACA AGCCTTCTAC ACACATTCCT 
    GCTGGCCATC TCTCAGAGCC TGCCAAGCCA GTTCATTCTC AGAATCAACC AAACTTTTCT 
    AGTTATTCTT CAAAGGGAAA GTCTCCTGAA GCTGATGGCA TGGATAGAGC ATTTGGTAAT 
    TCGGTGTCGC TGGATTTTCA GAATTCTTTA GTGTCCAAAC CAGACCCACC TCCATCTCAG 
    AATAAGCCAG CAACTTTCAG ACCACCGAAC CGAGAAGACA CTGTTCAGTC TACTTTCTAT 
    CCCCAGAAAA GTTTCCCAGA TAAAGCTCCA GCTAATGGAG CTGAACAGAC TCAGAAAACG 
    GTCACTCCAG CATATAATCG ATTCACGCCA AAACCATACA CAAGTTCTGC CCGGCCATTT 
    GAGCGCAAGT TCGAAAGTCC TAAATTCAAC CACAATCTGC TGCCAAGTGA AACGGCACAT 
    AAACCTGACT TGTCTTCAAA AGCCCCCGCT TCTCCCAAAA CACTTGCGAA AGCACACAGC 
    GCGACACAGC CTCCTGAGTT TGACAGCGGG GTTGAAACTT TCTCCATCCA CGCGGATAAG 
    CCTAAATATC AAATGAACAA TATCAGCACA GTGCCTAAAG CTATTCCTGT GAGCCCTTCA 
    GCTGTGGAAG AAGATGAAGA TGAGGATGGT CATACTGTGG TGGCCACAGC CCGAGGCGTG 
    TTTAACAGCA ATGGTGGGGT GTTGAGTTCC ATAGAAACTG GTGTTAGTAT AATTATCCCA 
    CAAGGAGCCA TTCCTGAGGG AATTGAGCAG GAAATCTATT TCAAGGTCTG CCGAGACAAC 
    AGCATCCTCC CGCCTTTAGA TAAGGAGAAA GGTGAGACAC TGCTGAGCCC TTTAGTGATG 
    TGTGGGCCCC ATGGCCTCAA GTTCCTGAAG CCCGTGGAGC TGCGCTTACC ACACTGTGCG 
    TCCATGACTC CTGACGGTTG GTCTTTTGCT CTAAAATCAT CCGACTCCTC GTCGGGTGAT 
    CCTAAAACAT GGCAAAACAA GTGTCTTCCT GGAGATCCAA ATTACCTTGT TGGAGCAAAC 
    TGTGTTTCTG TACTGATTGA CCACTTTTAA

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

    TJP1 ( XM_011232279.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011230581.2 Ailuropoda melanoleuca tight junction protein 1 (TJP1), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OAc96978
    Clone ID Related Accession (Same CDS sequence) XM_011232279.2
    Accession Version XM_011232279.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5085bp)
    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 1482768000000
    Organism Ailuropoda melanoleuca(giant panda)
    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 (NW_003218187.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011232279.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    ATGCGTCAGA ACCAGAGCCA GTGGAACACA GTAGAAGACA AGAACACAGC AATGGAGGAA 
    ACAGCTATAT GGGAACAACA CACAGTGACT CTTCACAGGG CTCCTGGATT TGGATTTGGA 
    ATTGCAATAT CTGGTGGAAG AGACAACCCT CATTTTCAGA GTGGGGAAAC TTCCATAGTA 
    ATTTCAGATG TGCTGAAAGG GGGACCCGCT GAAGGACAGC TACAGGAAAA TGACCGAGTT 
    GCAATGGTTA ATGGAGTTTC AATGGACAAT GTTGAACATG CTTTTGCTGT TCAGCAACTA 
    AGGAAAAGTG GGAAGAATGC AAAAATTACC ATTCGGAGGA AGAAGAAAGT TCAGATACCA 
    GTTAGTCGTC CTGATCCTGA ACCGGTATCT GGGAATGAAG AAGATAGTTA CGATGAGGAA 
    GTCCATGACC CAAGAAGCAG CCGTGGCGGT CTGGTCAGTA GAAGGAGTGA GAAGAGTTGG 
    GCAAGGGATA GAAGTGCAAG CAGAGAGAGG AGTTTGTCCC CACGGTCTGA TAGGCGATCT 
    GTGGCCTCCA GTCAACCTGC CAAACCCACC AAAGTTACAT TGGTGAAATC CCGGAAAAAT 
    GAAGAATATG GTCTTCGATT GGCCAGCCAT ATATTTGTAA AGGAAATTTC ACAAGATAGT 
    TTGGCAGCAA GAGATGGCAA TATTCAAGAA GGCGATGTTG TACTAAAGAT AAATGGTACC 
    GTGACAGAAA ATATGTCACT GACAGATGCA AAAACATTGA TAGAAAGGTC TAAAGGCAAG 
    TTAAAAATGG TAGTTCAGAG GGATGAACGG GCTACCCTAT TGAACGTCCC TGATCTTTCT 
    GACAGTATCC ATTCTGCTAA TGCCTCTGAG AGAGATGACA TTTCAGAAAT TCAGTCACTG 
    GCCTCAGATC ATTCTGGTCG ATCACATGAT AGACCTCCCC GCCACAGCCG GTCACGATCA 
    CCTGACCAGC GGTCAGAGCC TTCTGATCAT TCCAGACACT CTCCACAGCA GCCCAGCAGT 
    GGCAGTCTCC GGAGCAGAGA GGAAGAGAGA ATTTCTAAAC CTGGGGCTGT CTCAACTCCT 
    CTGAAGCATG CGGATGATCA TACACCTAAA ACGGTAGAAG AAGTTGTAGT TGAGAGAAAT 
    GAGAAACAAG CGCCCACTCT TCCAGAACCA AAGCCTGTGT ATGCTCAAGG TGGACAACCA 
    GACGTGGATT TACCTGTCAG TCCGTCTGAT GGCGTCCTGC CTAATTCAAC TCATGAAGAT 
    GGGATTCTCC GGCCCAGCAT GAAATTGGTA AAATTCAGAA AAGGAGATAG TGTGGGTCTG 
    CGCCTGGCTG GTGGAAATGA TGTTGGAATA TTTGTAGCTG GTGTTCTAGA AGATAGCCCT 
    GCAGCCAAAG AAGGCTTAGA AGAGGGTGAT CAAATTCTCA GGGTAAACAA TGTAGATTTC 
    ACAAACATCA TAAGAGAAGA AGCTGTCCTT TTCCTGCTCG ACCTCCCTAA AGGAGAAGAA 
    GTGACCATAT TGGCTCAGAA GAAGAAAGAT GTTTATCGTC GCATCGTAGA ATCAGATGTA 
    GGAGATTCTT TCTATATTAG AACCCATTTT GAATATGAAA AGGAATCTCC CTATGGACTT 
    AGTTTTAACA AAGGAGAGGT GTTCCGTGTT GTGGATACCT TGTACAATGG GAAACTAGGC 
    TCTTGGCTCG CTATTCGAAT TGGTAAAAAT CATAAAGAAG TAGAACGAGG CATCATCCCT 
    AACAAGAACA GGGCTGAGCA GTTAGCCAGT GTACAGTACA CACTTCCAAA AACAGCTGGG 
    GGAGACCGTG CTGACTTCTG GAGATTCCGG GGTCTTCGCA GTTCCAAGAG AAATCTTCGA 
    AAGAGCAGAG AGGATTTGTC AGCTCAGCCA GTTCAAACAA AGTTTCCAGC CTATGAAAGA 
    GTTGTTCTTC GAGAAGCTGG ATTTCTGAGG CCTGTAACTA TCTTTGGACC CATAGCTGAT 
    GTTGCCCGAG AAAAGCTGGC AAGAGAGGAA CCAGATATTT ATCAGATTGC AAAAAGTGAA 
    CCACGAGATG CTGGAACTGA CCAACGTAGC TCTGGCATTA TTCGCCTTCA TACAATAAAG 
    CAAATAATAG ATCAGGACAA ACATGCTTTA TTAGATGTAA CACCAAATGC AGTTGATCGT 
    CTGAATTATG CCCAGTGGTA TCCAATTGTA GTATTCCTTA ACCCTGATTC TAAGCAAGGT 
    GTGAAAACTA TGAGGATGAG GTTATGTCCA GAATCTCGGA AAAGTGCCAG GAAATTATAT 
    GAACGATCTC ATAAACTTCG TAAAAATAAT CACCATCTTT TTACAACTAC AATTAACTTA 
    AATTCAATGA ATGATGGTTG GTATGGTGCA TTGAAAGAAG CAATTCAGCA ACAACAGAAC 
    CAGTTGGTAT GGGTTTCTGA GGGAAAGGCG GATGGTGCTA CAAGTGATGA CCTTGATTTG 
    CATGATGATC GTCTGTCCTA CCTGTCAGCC CCAGGTAGTG AATACTCAAT GTATAGCACG 
    GACAGTAGAC ACACTTCTGA CTATGAAGAC ACAGATACAG AAGGCGGGGC CTACACTGAT 
    CAAGAACTAG ATGAAACTCT TAATGATGAG GTTGGGACTC CACCGGAGTC TGCCATTACA 
    CGGTCCTCTG AGCCTGTAAG AGAGGACTCC TCTGGAATGC ATCATGAAAA CCAAACATAT 
    CCTCCTTATT CACCACAAGC GCAGCCACAA CCAATTCATA GAATAGACTC CCCTGGATTT 
    AAAACAGCCT CTCAACAGGT GTATAGAAAA GATCCCTATC CTGAGGAAAT GATGAGACAG 
    AATCACGTTT TGAAACAGCC AGCTGTTGGT CACCCAGGGC AGAGGCCAGA CAAAGAGCCT 
    AATCTGAGCT ATGAATCCCA ACCCCCATAT GTAGAGAAAC AAGCCAACAG AGACCTCGAG 
    CAGCCCACAT ACAGATATGA CTCCTCAAGT TACACAGACC AGTTTTCTCG AAACTATGAC 
    CATCGTCTCC GCTACGAAGA GCGCATTCCT ACATATGAAG AGCAGTGGTC TTATTATGAT 
    GACAAACAGC CCTACCAGCC TCGGACGCCT TTTGATAATC AGCACCCTCG GGACCTTGAC 
    TCCAGACAGC ATCCTGAAGA GTCCTCAGAA CGAGGCTATT ACCCACGTTT TGAAGAGCCA 
    GCCCCTCTGT CCTATGACAG CAGACCACGC TATGACCAGC CACCTAGAAC CTCCACCCTA 
    CGACATGAAG AGCAGCCAGC TCCTGGGTAT GACATGCACA ACAGATACAG GCCGGAAGCA 
    CAGTCCTATT CAGTAGGCCC GAAGGCGACT GAACCCAAAC AGTATTTTGA CCAATACCCA 
    CGAAGTTACG AGCAAGTACC ACCACAAGGA TTTACCTCTA AAGCAGGCCA CTATGAGCCT 
    CTCCATGGTG CTGCAGTTGT CCCTCCTCTA ATTCCCGCAT CTCAACACAA GCCAGAAGTT 
    CTGCCTTCAA ATACCAAACC ACTGCCTCCA CCCCCCACTC TGACTGAAGA GGAGGAAGAT 
    CCAGCAATGA AGCCCCAGTC TGTGCTCACT AGAGTGAAAA TGTTTGAAAA CAAAAGATCT 
    GCATCATTGG AGAGCAAGAA GGATGAAAAC CACACTGCTG CTTTTAAGCC TCCAGAGGTA 
    GCATCTAAAC CTTCAGGTGC TCCCATCATT GGCCCTAAAG CCACTCCTCA GAATCAGTTC 
    AGTGAACATG ACAAAACACT GTACAGGATC CCAGAACCTC AAAAACCTCA AATGAAGCCA 
    CCCGAAGATA TTGTTCGGTC TAATCATTAT GATCCCGAGG AAGATGAAGA ATATTATCGA 
    AAACAGCTCT CATACTTTGA CCGAAGAAGT TTTGAAAACA AGCCTTCTAC ACACATTCCT 
    GCTGGCCATC TCTCAGAGCC TGCCAAGCCA GTTCATTCTC AGAATCAACC AAACTTTTCT 
    AGTTATTCTT CAAAGGGAAA GTCTCCTGAA GCTGATGGCA TGGATAGAGC ATTTGGTGAG 
    AAGCGCTATG AGCCAGTCCA GGCCACTCCC CCTCCTCCCC CATTGCCCTC CCAGTACGCC 
    CAGCCTGCTC AGTCCAGTAC CAGCTCCTCT CTTGCCCTCC ACACGCATGC CAAGGGGGCA 
    CATGGTGAAG GTAATTCGGT GTCGCTGGAT TTTCAGAATT CTTTAGTGTC CAAACCAGAC 
    CCACCTCCAT CTCAGAATAA GCCAGCAACT TTCAGACCAC CGAACCGAGA AGACACTGTT 
    CAGTCTACTT TCTATCCCCA GAAAAGTTTC CCAGATAAAG CTCCAGCTAA TGGAGCTGAA 
    CAGACTCAGA AAACGGTCAC TCCAGCATAT AATCGATTCA CGCCAAAACC ATACACAAGT 
    TCTGCCCGGC CATTTGAGCG CAAGTTCGAA AGTCCTAAAT TCAACCACAA TCTGCTGCCA 
    AGTGAAACGG CACATAAACC TGACTTGTCT TCAAAAGCCC CCGCTTCTCC CAAAACACTT 
    GCGAAAGCAC ACAGCGCGAC ACAGCCTCCT GAGTTTGACA GCGGGGTTGA AACTTTCTCC 
    ATCCACGCGG ATAAGCCTAA ATATCAAATG AACAATATCA GCACAGTGCC TAAAGCTATT 
    CCTGTGAGCC CTTCAGCTGT GGAAGAAGAT GAAGATGAGG ATGGTCATAC TGTGGTGGCC 
    ACAGCCCGAG GCGTGTTTAA CAGCAATGGT GGGGTGTTGA GTTCCATAGA AACTGGTGTT 
    AGTATAATTA TCCCACAAGG AGCCATTCCT GAGGGAATTG AGCAGGAAAT CTATTTCAAG 
    GTCTGCCGAG ACAACAGCAT CCTCCCGCCT TTAGATAAGG AGAAAGGTGA GACACTGCTG 
    AGCCCTTTAG TGATGTGTGG GCCCCATGGC CTCAAGTTCC TGAAGCCCGT GGAGCTGCGC 
    TTACCACACT GTGCGTCCAT GACTCCTGAC GGTTGGTCTT TTGCTCTAAA ATCATCCGAC 
    TCCTCGTCGG GTGATCCTAA AACATGGCAA AACAAGTGTC TTCCTGGAGA TCCAAATTAC 
    CTTGTTGGAG CAAACTGTGT TTCTGTACTG ATTGACCACT TTTAA

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

    RefSeq XP_011230581.2
    CDS28..5112
    Translation

    Target ORF information:

    RefSeq Version XM_011232279.2
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca 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_011232279.2

    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
    ATGCGTCAGA ACCAGAGCCA GTGGAACACA GTAGAAGACA AGAACACAGC AATGGAGGAA 
    ACAGCTATAT GGGAACAACA CACAGTGACT CTTCACAGGG CTCCTGGATT TGGATTTGGA 
    ATTGCAATAT CTGGTGGAAG AGACAACCCT CATTTTCAGA GTGGGGAAAC TTCCATAGTA 
    ATTTCAGATG TGCTGAAAGG GGGACCCGCT GAAGGACAGC TACAGGAAAA TGACCGAGTT 
    GCAATGGTTA ATGGAGTTTC AATGGACAAT GTTGAACATG CTTTTGCTGT TCAGCAACTA 
    AGGAAAAGTG GGAAGAATGC AAAAATTACC ATTCGGAGGA AGAAGAAAGT TCAGATACCA 
    GTTAGTCGTC CTGATCCTGA ACCGGTATCT GGGAATGAAG AAGATAGTTA CGATGAGGAA 
    GTCCATGACC CAAGAAGCAG CCGTGGCGGT CTGGTCAGTA GAAGGAGTGA GAAGAGTTGG 
    GCAAGGGATA GAAGTGCAAG CAGAGAGAGG AGTTTGTCCC CACGGTCTGA TAGGCGATCT 
    GTGGCCTCCA GTCAACCTGC CAAACCCACC AAAGTTACAT TGGTGAAATC CCGGAAAAAT 
    GAAGAATATG GTCTTCGATT GGCCAGCCAT ATATTTGTAA AGGAAATTTC ACAAGATAGT 
    TTGGCAGCAA GAGATGGCAA TATTCAAGAA GGCGATGTTG TACTAAAGAT AAATGGTACC 
    GTGACAGAAA ATATGTCACT GACAGATGCA AAAACATTGA TAGAAAGGTC TAAAGGCAAG 
    TTAAAAATGG TAGTTCAGAG GGATGAACGG GCTACCCTAT TGAACGTCCC TGATCTTTCT 
    GACAGTATCC ATTCTGCTAA TGCCTCTGAG AGAGATGACA TTTCAGAAAT TCAGTCACTG 
    GCCTCAGATC ATTCTGGTCG ATCACATGAT AGACCTCCCC GCCACAGCCG GTCACGATCA 
    CCTGACCAGC GGTCAGAGCC TTCTGATCAT TCCAGACACT CTCCACAGCA GCCCAGCAGT 
    GGCAGTCTCC GGAGCAGAGA GGAAGAGAGA ATTTCTAAAC CTGGGGCTGT CTCAACTCCT 
    CTGAAGCATG CGGATGATCA TACACCTAAA ACGGTAGAAG AAGTTGTAGT TGAGAGAAAT 
    GAGAAACAAG CGCCCACTCT TCCAGAACCA AAGCCTGTGT ATGCTCAAGG TGGACAACCA 
    GACGTGGATT TACCTGTCAG TCCGTCTGAT GGCGTCCTGC CTAATTCAAC TCATGAAGAT 
    GGGATTCTCC GGCCCAGCAT GAAATTGGTA AAATTCAGAA AAGGAGATAG TGTGGGTCTG 
    CGCCTGGCTG GTGGAAATGA TGTTGGAATA TTTGTAGCTG GTGTTCTAGA AGATAGCCCT 
    GCAGCCAAAG AAGGCTTAGA AGAGGGTGAT CAAATTCTCA GGGTAAACAA TGTAGATTTC 
    ACAAACATCA TAAGAGAAGA AGCTGTCCTT TTCCTGCTCG ACCTCCCTAA AGGAGAAGAA 
    GTGACCATAT TGGCTCAGAA GAAGAAAGAT GTTTATCGTC GCATCGTAGA ATCAGATGTA 
    GGAGATTCTT TCTATATTAG AACCCATTTT GAATATGAAA AGGAATCTCC CTATGGACTT 
    AGTTTTAACA AAGGAGAGGT GTTCCGTGTT GTGGATACCT TGTACAATGG GAAACTAGGC 
    TCTTGGCTCG CTATTCGAAT TGGTAAAAAT CATAAAGAAG TAGAACGAGG CATCATCCCT 
    AACAAGAACA GGGCTGAGCA GTTAGCCAGT GTACAGTACA CACTTCCAAA AACAGCTGGG 
    GGAGACCGTG CTGACTTCTG GAGATTCCGG GGTCTTCGCA GTTCCAAGAG AAATCTTCGA 
    AAGAGCAGAG AGGATTTGTC AGCTCAGCCA GTTCAAACAA AGTTTCCAGC CTATGAAAGA 
    GTTGTTCTTC GAGAAGCTGG ATTTCTGAGG CCTGTAACTA TCTTTGGACC CATAGCTGAT 
    GTTGCCCGAG AAAAGCTGGC AAGAGAGGAA CCAGATATTT ATCAGATTGC AAAAAGTGAA 
    CCACGAGATG CTGGAACTGA CCAACGTAGC TCTGGCATTA TTCGCCTTCA TACAATAAAG 
    CAAATAATAG ATCAGGACAA ACATGCTTTA TTAGATGTAA CACCAAATGC AGTTGATCGT 
    CTGAATTATG CCCAGTGGTA TCCAATTGTA GTATTCCTTA ACCCTGATTC TAAGCAAGGT 
    GTGAAAACTA TGAGGATGAG GTTATGTCCA GAATCTCGGA AAAGTGCCAG GAAATTATAT 
    GAACGATCTC ATAAACTTCG TAAAAATAAT CACCATCTTT TTACAACTAC AATTAACTTA 
    AATTCAATGA ATGATGGTTG GTATGGTGCA TTGAAAGAAG CAATTCAGCA ACAACAGAAC 
    CAGTTGGTAT GGGTTTCTGA GGGAAAGGCG GATGGTGCTA CAAGTGATGA CCTTGATTTG 
    CATGATGATC GTCTGTCCTA CCTGTCAGCC CCAGGTAGTG AATACTCAAT GTATAGCACG 
    GACAGTAGAC ACACTTCTGA CTATGAAGAC ACAGATACAG AAGGCGGGGC CTACACTGAT 
    CAAGAACTAG ATGAAACTCT TAATGATGAG GTTGGGACTC CACCGGAGTC TGCCATTACA 
    CGGTCCTCTG AGCCTGTAAG AGAGGACTCC TCTGGAATGC ATCATGAAAA CCAAACATAT 
    CCTCCTTATT CACCACAAGC GCAGCCACAA CCAATTCATA GAATAGACTC CCCTGGATTT 
    AAAACAGCCT CTCAACAGGT GTATAGAAAA GATCCCTATC CTGAGGAAAT GATGAGACAG 
    AATCACGTTT TGAAACAGCC AGCTGTTGGT CACCCAGGGC AGAGGCCAGA CAAAGAGCCT 
    AATCTGAGCT ATGAATCCCA ACCCCCATAT GTAGAGAAAC AAGCCAACAG AGACCTCGAG 
    CAGCCCACAT ACAGATATGA CTCCTCAAGT TACACAGACC AGTTTTCTCG AAACTATGAC 
    CATCGTCTCC GCTACGAAGA GCGCATTCCT ACATATGAAG AGCAGTGGTC TTATTATGAT 
    GACAAACAGC CCTACCAGCC TCGGACGCCT TTTGATAATC AGCACCCTCG GGACCTTGAC 
    TCCAGACAGC ATCCTGAAGA GTCCTCAGAA CGAGGCTATT ACCCACGTTT TGAAGAGCCA 
    GCCCCTCTGT CCTATGACAG CAGACCACGC TATGACCAGC CACCTAGAAC CTCCACCCTA 
    CGACATGAAG AGCAGCCAGC TCCTGGGTAT GACATGCACA ACAGATACAG GCCGGAAGCA 
    CAGTCCTATT CAGTAGGCCC GAAGGCGACT GAACCCAAAC AGTATTTTGA CCAATACCCA 
    CGAAGTTACG AGCAAGTACC ACCACAAGGA TTTACCTCTA AAGCAGGCCA CTATGAGCCT 
    CTCCATGGTG CTGCAGTTGT CCCTCCTCTA ATTCCCGCAT CTCAACACAA GCCAGAAGTT 
    CTGCCTTCAA ATACCAAACC ACTGCCTCCA CCCCCCACTC TGACTGAAGA GGAGGAAGAT 
    CCAGCAATGA AGCCCCAGTC TGTGCTCACT AGAGTGAAAA TGTTTGAAAA CAAAAGATCT 
    GCATCATTGG AGAGCAAGAA GGATGAAAAC CACACTGCTG CTTTTAAGCC TCCAGAGGTA 
    GCATCTAAAC CTTCAGGTGC TCCCATCATT GGCCCTAAAG CCACTCCTCA GAATCAGTTC 
    AGTGAACATG ACAAAACACT GTACAGGATC CCAGAACCTC AAAAACCTCA AATGAAGCCA 
    CCCGAAGATA TTGTTCGGTC TAATCATTAT GATCCCGAGG AAGATGAAGA ATATTATCGA 
    AAACAGCTCT CATACTTTGA CCGAAGAAGT TTTGAAAACA AGCCTTCTAC ACACATTCCT 
    GCTGGCCATC TCTCAGAGCC TGCCAAGCCA GTTCATTCTC AGAATCAACC AAACTTTTCT 
    AGTTATTCTT CAAAGGGAAA GTCTCCTGAA GCTGATGGCA TGGATAGAGC ATTTGGTGAG 
    AAGCGCTATG AGCCAGTCCA GGCCACTCCC CCTCCTCCCC CATTGCCCTC CCAGTACGCC 
    CAGCCTGCTC AGTCCAGTAC CAGCTCCTCT CTTGCCCTCC ACACGCATGC CAAGGGGGCA 
    CATGGTGAAG GTAATTCGGT GTCGCTGGAT TTTCAGAATT CTTTAGTGTC CAAACCAGAC 
    CCACCTCCAT CTCAGAATAA GCCAGCAACT TTCAGACCAC CGAACCGAGA AGACACTGTT 
    CAGTCTACTT TCTATCCCCA GAAAAGTTTC CCAGATAAAG CTCCAGCTAA TGGAGCTGAA 
    CAGACTCAGA AAACGGTCAC TCCAGCATAT AATCGATTCA CGCCAAAACC ATACACAAGT 
    TCTGCCCGGC CATTTGAGCG CAAGTTCGAA AGTCCTAAAT TCAACCACAA TCTGCTGCCA 
    AGTGAAACGG CACATAAACC TGACTTGTCT TCAAAAGCCC CCGCTTCTCC CAAAACACTT 
    GCGAAAGCAC ACAGCGCGAC ACAGCCTCCT GAGTTTGACA GCGGGGTTGA AACTTTCTCC 
    ATCCACGCGG ATAAGCCTAA ATATCAAATG AACAATATCA GCACAGTGCC TAAAGCTATT 
    CCTGTGAGCC CTTCAGCTGT GGAAGAAGAT GAAGATGAGG ATGGTCATAC TGTGGTGGCC 
    ACAGCCCGAG GCGTGTTTAA CAGCAATGGT GGGGTGTTGA GTTCCATAGA AACTGGTGTT 
    AGTATAATTA TCCCACAAGG AGCCATTCCT GAGGGAATTG AGCAGGAAAT CTATTTCAAG 
    GTCTGCCGAG ACAACAGCAT CCTCCCGCCT TTAGATAAGG AGAAAGGTGA GACACTGCTG 
    AGCCCTTTAG TGATGTGTGG GCCCCATGGC CTCAAGTTCC TGAAGCCCGT GGAGCTGCGC 
    TTACCACACT GTGCGTCCAT GACTCCTGAC GGTTGGTCTT TTGCTCTAAA ATCATCCGAC 
    TCCTCGTCGG GTGATCCTAA AACATGGCAA AACAAGTGTC TTCCTGGAGA TCCAAATTAC 
    CTTGTTGGAG CAAACTGTGT TTCTGTACTG ATTGACCACT TTTAA

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

    TJP1 ( XM_011232280.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011230582.2 Ailuropoda melanoleuca tight junction protein 1 (TJP1), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OAc96979
    Clone ID Related Accession (Same CDS sequence) XM_011232280.2
    Accession Version XM_011232280.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5025bp)
    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 1482768000000
    Organism Ailuropoda melanoleuca(giant panda)
    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 (NW_003218187.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011232280.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGCGTCAGA ACCAGAGCCA GTGGAACACA GTAGAAGACA AGAACACAGC AATGGAGGAA 
    ACAGCTATAT GGGAACAACA CACAGTGACT CTTCACAGGG CTCCTGGATT TGGATTTGGA 
    ATTGCAATAT CTGGTGGAAG AGACAACCCT CATTTTCAGA GTGGGGAAAC TTCCATAGTA 
    ATTTCAGATG TGCTGAAAGG GGGACCCGCT GAAGGACAGC TACAGGAAAA TGACCGAGTT 
    GCAATGGTTA ATGGAGTTTC AATGGACAAT GTTGAACATG CTTTTGCTGT TCAGCAACTA 
    AGGAAAAGTG GGAAGAATGC AAAAATTACC ATTCGGAGGA AGAAGAAAGT TCAGATACCA 
    GTTAGTCGTC CTGATCCTGA ACCGGTATCT GGGAATGAAG AAGATAGTTA CGATGAGGAA 
    GTCCATGACC CAAGAAGCAG CCGTGGCGGT CTGGTCAGTA GAAGGAGTGA GAAGAGTTGG 
    GCAAGGGATA GAAGTGCAAG CAGAGAGAGG AGTTTGTCCC CACGGTCTGA TAGGCGATCT 
    GTGGCCTCCA GTCAACCTGC CAAACCCACC AAAGTTACAT TGGTGAAATC CCGGAAAAAT 
    GAAGAATATG GTCTTCGATT GGCCAGCCAT ATATTTGTAA AGGAAATTTC ACAAGATAGT 
    TTGGCAGCAA GAGATGGCAA TATTCAAGAA GGCGATGTTG TACTAAAGAT AAATGGTACC 
    GTGACAGAAA ATATGTCACT GACAGATGCA AAAACATTGA TAGAAAGGTC TAAAGGCAAG 
    TTAAAAATGG TAGTTCAGAG GGATGAACGG GCTACCCTAT TGAACGTCCC TGATCTTTCT 
    GACAGTATCC ATTCTGCTAA TGCCTCTGAG AGAGATGACA TTTCAGAAAT TCAGTCACTG 
    GCCTCAGATC ATTCTGGTCG ATCACATGAT AGACCTCCCC GCCACAGCCG GTCACGATCA 
    CCTGACCAGC GGTCAGAGCC TTCTGATCAT TCCAGACACT CTCCACAGCA GCCCAGCAGT 
    GGCAGTCTCC GGAGCAGAGA GGAAGAGAGA ATTTCTAAAC CTGGGGCTGT CTCAACTCCT 
    CTGAAGCATG CGGATGATCA TACACCTAAA ACGGTAGAAG AAGTTGTAGT TGAGAGAAAT 
    GAGAAACAAG CGCCCACTCT TCCAGAACCA AAGCCTGTGT ATGCTCAAGG TGGACAACCA 
    GACGTGGATT TACCTGTCAG TCCGTCTGAT GGCGTCCTGC CTAATTCAAC TCATGAAGAT 
    GGGATTCTCC GGCCCAGCAT GAAATTGGTA AAATTCAGAA AAGGAGATAG TGTGGGTCTG 
    CGCCTGGCTG GTGGAAATGA TGTTGGAATA TTTGTAGCTG GTGTTCTAGA AGATAGCCCT 
    GCAGCCAAAG AAGGCTTAGA AGAGGGTGAT CAAATTCTCA GGGTAAACAA TGTAGATTTC 
    ACAAACATCA TAAGAGAAGA AGCTGTCCTT TTCCTGCTCG ACCTCCCTAA AGGAGAAGAA 
    GTGACCATAT TGGCTCAGAA GAAGAAAGAT GTTTATCGTC GCATCGTAGA ATCAGATGTA 
    GGAGATTCTT TCTATATTAG AACCCATTTT GAATATGAAA AGGAATCTCC CTATGGACTT 
    AGTTTTAACA AAGGAGAGGT GTTCCGTGTT GTGGATACCT TGTACAATGG GAAACTAGGC 
    TCTTGGCTCG CTATTCGAAT TGGTAAAAAT CATAAAGAAG TAGAACGAGG CATCATCCCT 
    AACAAGAACA GGGCTGAGCA GTTAGCCAGT GTACAGTACA CACTTCCAAA AACAGCTGGG 
    GGAGACCGTG CTGACTTCTG GAGATTCCGG GGTCTTCGCA GTTCCAAGAG AAATCTTCGA 
    AAGAGCAGAG AGGATTTGTC AGCTCAGCCA GTTCAAACAA AGTTTCCAGC CTATGAAAGA 
    GTTGTTCTTC GAGAAGCTGG ATTTCTGAGG CCTGTAACTA TCTTTGGACC CATAGCTGAT 
    GTTGCCCGAG AAAAGCTGGC AAGAGAGGAA CCAGATATTT ATCAGATTGC AAAAAGTGAA 
    CCACGAGATG CTGGAACTGA CCAACGTAGC TCTGGCATTA TTCGCCTTCA TACAATAAAG 
    CAAATAATAG ATCAGGACAA ACATGCTTTA TTAGATGTAA CACCAAATGC AGTTGATCGT 
    CTGAATTATG CCCAGTGGTA TCCAATTGTA GTATTCCTTA ACCCTGATTC TAAGCAAGGT 
    GTGAAAACTA TGAGGATGAG GTTATGTCCA GAATCTCGGA AAAGTGCCAG GAAATTATAT 
    GAACGATCTC ATAAACTTCG TAAAAATAAT CACCATCTTT TTACAACTAC AATTAACTTA 
    AATTCAATGA ATGATGGTTG GTATGGTGCA TTGAAAGAAG CAATTCAGCA ACAACAGAAC 
    CAGTTGGTAT GGGTTTCTGA GGGAAAGGCG GATGGTGCTA CAAGTGATGA CCTTGATTTG 
    CATGATGATC GTCTGTCCTA CCTGTCAGCC CCAGGTAGTG AATACTCAAT GTATAGCACG 
    GACAGTAGAC ACACTTCTGA CTATGAAGAC ACAGATACAG AAGGCGGGGC CTACACTGAT 
    CAAGAACTAG ATGAAACTCT TAATGATGAG GTTGGGACTC CACCGGAGTC TGCCATTACA 
    CGGTCCTCTG AGCCTGTAAG AGAGGACTCC TCTGGAATGC ATCATGAAAA CCAAACATAT 
    CCTCCTTATT CACCACAAGC GCAGCCACAA CCAATTCATA GAATAGACTC CCCTGGATTT 
    AAAACAGCCT CTCAACAGGT GTATAGAAAA GATCCCTATC CTGAGGAAAT GATGAGACAG 
    AATCACGTTT TGAAACAGCC AGCTGTTGGT CACCCAGGGC AGAGGCCAGA CAAAGAGCCT 
    AATCTGAGCT ATGAATCCCA ACCCCCATAT GTAGAGAAAC AAGCCAACAG AGACCTCGAG 
    CAGCCCACAT ACAGATATGA CTCCTCAAGT TACACAGACC AGTTTTCTCG AAACTATGAC 
    CATCGTCTCC GCTACGAAGA GCGCATTCCT ACATATGAAG AGCAGTGGTC TTATTATGAT 
    GACAAACAGC CCTACCAGCC TCGGACGCCT TTTGATAATC AGCACCCTCG GGACCTTGAC 
    TCCAGACAGC ATCCTGAAGA GTCCTCAGAA CGAGGCTATT ACCCACGTTT TGAAGAGCCA 
    GCCCCTCTGT CCTATGACAG CAGACCACGC TATGACCAGC CACCTAGAAC CTCCACCCTA 
    CGACATGAAG AGCAGCCAGC TCCTGGGTAT GACATGCACA ACAGATACAG GCCGGAAGCA 
    CAGTCCTATT CAGTAGGCCC GAAGGCGACT GAACCCAAAC AGTATTTTGA CCAATACCCA 
    CGAAGTTACG AGCAAGTACC ACCACAAGGA TTTACCTCTA AAGCAGGCCA CTATGAGCCT 
    CTCCATGGTG CTGCAGTTGT CCCTCCTCTA ATTCCCGCAT CTCAACACAA GCCAGAAGTT 
    CTGCCTTCAA ATACCAAACC ACTGCCTCCA CCCCCCACTC TGACTGAAGA GGAGGAAGAT 
    CCAGCAATGA AGCCCCAGTC TGTGCTCACT AGAGTGAAAA TGTTTGAAAA CAAAAGATCT 
    GCATCATTGG AGAGCAAGAA GGATGAAAAC CACACTGCTG CTTTTAAGCC TCCAGAGGTA 
    GCATCTAAAC CTTCAGGTGC TCCCATCATT GGCCCTAAAG CCACTCCTCA GAATCAGTTC 
    AGTGAACATG ACAAAACACT GTACAGGATC CCAGAACCTC AAAAACCTCA AATGAAGCCA 
    CCCGAAGATA TTGTTCGGTC TAATCATTAT GATCCCGAGG AAGATGAAGA ATATTATCGA 
    AAACAGCTCT CATACTTTGA CCGAAGAAGT TTTGAAAACA AGCCTTCTAC ACACATTCCT 
    GCTGGCCATC TCTCAGAGCC TGCCAAGCCA GTTCATTCTC AGAATCAACC AAACTTTTCT 
    AGTTATTCTT CAAAGGGAAA GTCTCCTGAA GCTGATGGCA TGGATAGAGC ATTTGGTGAG 
    AAGCGCTATG AGCCAGTCCA GGCCACTCCC CCTCCTCCCC CATTGCCCTC CCAGTACGCC 
    CAGCCTGCTC AGTCCAGTAC CAGCTCCTCT CTTGCCCTCC ACACGCATGC CAAGGGGGCA 
    CATGGTGAAG GTAATTCGGT GTCGCTGGAT TTTCAGAATT CTTTAGTGTC CAAACCAGAC 
    CCACCTCCAT CTCAGAATAA GCCAGCAACT TTCAGACCAC CGAACCGAGA AGACACTGTT 
    CAGTCTACTT TCTATCCCCA GAAAAGTTTC CCAGATAAAG CTCCAGCTAA TGGAGCTGAA 
    CAGACTCAGA AAACGGTCAC TCCAGCATAT AATCGATTCA CGCCAAAACC ATACACAAGT 
    TCTGCCCGGC CATTTGAGCG CAAGTTCGAA AGTCCTAAAT TCAACCACAA TCTGCTGCCA 
    AGTGAAACGG CACATAAACC TGACTTGTCT TCAAAAGCCC CCGCTTCTCC CAAAACACTT 
    GCGAAAGCAC ACAGCGCGAC ACAGCCTCCT GAGTTTGACA GCGGGGTTGA AACTTTCTCC 
    ATCCACGCGG ATAAGCCTAA ATATCAAATG AACAATATCA GCACAGTGCC TAAAGCTATT 
    CCTGTGAGCC CTTCAGCTGT GGAAGAAGAT GAAGATGAGG ATGGTCATAC TGTGGTGGCC 
    ACAGCCCGAG GCGTGTTTAA CAGCAATGGT GGGGTGTTGA GTTCCATAGA AACTGGTGTT 
    AGTATAATTA TCCCACAAGG AGCCATTCCT GAGGGAATTG AGCAGGAAAT CTATTTCAAG 
    GTCTGCCGAG ACAACAGCAT CCTCCCGCCT TTAGATAAGG AGAAAGGTGA GACACTGCTG 
    AGCCCTTTAG TGATGTGTGG GCCCCATGGC CTCAAGTTCC TGAAGCCCGT GGAGCTGCGC 
    TTACCACACT GTGATCCTAA AACATGGCAA AACAAGTGTC TTCCTGGAGA TCCAAATTAC 
    CTTGTTGGAG CAAACTGTGT TTCTGTACTG ATTGACCACT TTTAA

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

    RefSeq XP_011230582.2
    CDS28..5052
    Translation

    Target ORF information:

    RefSeq Version XM_011232280.2
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca 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_011232280.2

    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
    ATGCGTCAGA ACCAGAGCCA GTGGAACACA GTAGAAGACA AGAACACAGC AATGGAGGAA 
    ACAGCTATAT GGGAACAACA CACAGTGACT CTTCACAGGG CTCCTGGATT TGGATTTGGA 
    ATTGCAATAT CTGGTGGAAG AGACAACCCT CATTTTCAGA GTGGGGAAAC TTCCATAGTA 
    ATTTCAGATG TGCTGAAAGG GGGACCCGCT GAAGGACAGC TACAGGAAAA TGACCGAGTT 
    GCAATGGTTA ATGGAGTTTC AATGGACAAT GTTGAACATG CTTTTGCTGT TCAGCAACTA 
    AGGAAAAGTG GGAAGAATGC AAAAATTACC ATTCGGAGGA AGAAGAAAGT TCAGATACCA 
    GTTAGTCGTC CTGATCCTGA ACCGGTATCT GGGAATGAAG AAGATAGTTA CGATGAGGAA 
    GTCCATGACC CAAGAAGCAG CCGTGGCGGT CTGGTCAGTA GAAGGAGTGA GAAGAGTTGG 
    GCAAGGGATA GAAGTGCAAG CAGAGAGAGG AGTTTGTCCC CACGGTCTGA TAGGCGATCT 
    GTGGCCTCCA GTCAACCTGC CAAACCCACC AAAGTTACAT TGGTGAAATC CCGGAAAAAT 
    GAAGAATATG GTCTTCGATT GGCCAGCCAT ATATTTGTAA AGGAAATTTC ACAAGATAGT 
    TTGGCAGCAA GAGATGGCAA TATTCAAGAA GGCGATGTTG TACTAAAGAT AAATGGTACC 
    GTGACAGAAA ATATGTCACT GACAGATGCA AAAACATTGA TAGAAAGGTC TAAAGGCAAG 
    TTAAAAATGG TAGTTCAGAG GGATGAACGG GCTACCCTAT TGAACGTCCC TGATCTTTCT 
    GACAGTATCC ATTCTGCTAA TGCCTCTGAG AGAGATGACA TTTCAGAAAT TCAGTCACTG 
    GCCTCAGATC ATTCTGGTCG ATCACATGAT AGACCTCCCC GCCACAGCCG GTCACGATCA 
    CCTGACCAGC GGTCAGAGCC TTCTGATCAT TCCAGACACT CTCCACAGCA GCCCAGCAGT 
    GGCAGTCTCC GGAGCAGAGA GGAAGAGAGA ATTTCTAAAC CTGGGGCTGT CTCAACTCCT 
    CTGAAGCATG CGGATGATCA TACACCTAAA ACGGTAGAAG AAGTTGTAGT TGAGAGAAAT 
    GAGAAACAAG CGCCCACTCT TCCAGAACCA AAGCCTGTGT ATGCTCAAGG TGGACAACCA 
    GACGTGGATT TACCTGTCAG TCCGTCTGAT GGCGTCCTGC CTAATTCAAC TCATGAAGAT 
    GGGATTCTCC GGCCCAGCAT GAAATTGGTA AAATTCAGAA AAGGAGATAG TGTGGGTCTG 
    CGCCTGGCTG GTGGAAATGA TGTTGGAATA TTTGTAGCTG GTGTTCTAGA AGATAGCCCT 
    GCAGCCAAAG AAGGCTTAGA AGAGGGTGAT CAAATTCTCA GGGTAAACAA TGTAGATTTC 
    ACAAACATCA TAAGAGAAGA AGCTGTCCTT TTCCTGCTCG ACCTCCCTAA AGGAGAAGAA 
    GTGACCATAT TGGCTCAGAA GAAGAAAGAT GTTTATCGTC GCATCGTAGA ATCAGATGTA 
    GGAGATTCTT TCTATATTAG AACCCATTTT GAATATGAAA AGGAATCTCC CTATGGACTT 
    AGTTTTAACA AAGGAGAGGT GTTCCGTGTT GTGGATACCT TGTACAATGG GAAACTAGGC 
    TCTTGGCTCG CTATTCGAAT TGGTAAAAAT CATAAAGAAG TAGAACGAGG CATCATCCCT 
    AACAAGAACA GGGCTGAGCA GTTAGCCAGT GTACAGTACA CACTTCCAAA AACAGCTGGG 
    GGAGACCGTG CTGACTTCTG GAGATTCCGG GGTCTTCGCA GTTCCAAGAG AAATCTTCGA 
    AAGAGCAGAG AGGATTTGTC AGCTCAGCCA GTTCAAACAA AGTTTCCAGC CTATGAAAGA 
    GTTGTTCTTC GAGAAGCTGG ATTTCTGAGG CCTGTAACTA TCTTTGGACC CATAGCTGAT 
    GTTGCCCGAG AAAAGCTGGC AAGAGAGGAA CCAGATATTT ATCAGATTGC AAAAAGTGAA 
    CCACGAGATG CTGGAACTGA CCAACGTAGC TCTGGCATTA TTCGCCTTCA TACAATAAAG 
    CAAATAATAG ATCAGGACAA ACATGCTTTA TTAGATGTAA CACCAAATGC AGTTGATCGT 
    CTGAATTATG CCCAGTGGTA TCCAATTGTA GTATTCCTTA ACCCTGATTC TAAGCAAGGT 
    GTGAAAACTA TGAGGATGAG GTTATGTCCA GAATCTCGGA AAAGTGCCAG GAAATTATAT 
    GAACGATCTC ATAAACTTCG TAAAAATAAT CACCATCTTT TTACAACTAC AATTAACTTA 
    AATTCAATGA ATGATGGTTG GTATGGTGCA TTGAAAGAAG CAATTCAGCA ACAACAGAAC 
    CAGTTGGTAT GGGTTTCTGA GGGAAAGGCG GATGGTGCTA CAAGTGATGA CCTTGATTTG 
    CATGATGATC GTCTGTCCTA CCTGTCAGCC CCAGGTAGTG AATACTCAAT GTATAGCACG 
    GACAGTAGAC ACACTTCTGA CTATGAAGAC ACAGATACAG AAGGCGGGGC CTACACTGAT 
    CAAGAACTAG ATGAAACTCT TAATGATGAG GTTGGGACTC CACCGGAGTC TGCCATTACA 
    CGGTCCTCTG AGCCTGTAAG AGAGGACTCC TCTGGAATGC ATCATGAAAA CCAAACATAT 
    CCTCCTTATT CACCACAAGC GCAGCCACAA CCAATTCATA GAATAGACTC CCCTGGATTT 
    AAAACAGCCT CTCAACAGGT GTATAGAAAA GATCCCTATC CTGAGGAAAT GATGAGACAG 
    AATCACGTTT TGAAACAGCC AGCTGTTGGT CACCCAGGGC AGAGGCCAGA CAAAGAGCCT 
    AATCTGAGCT ATGAATCCCA ACCCCCATAT GTAGAGAAAC AAGCCAACAG AGACCTCGAG 
    CAGCCCACAT ACAGATATGA CTCCTCAAGT TACACAGACC AGTTTTCTCG AAACTATGAC 
    CATCGTCTCC GCTACGAAGA GCGCATTCCT ACATATGAAG AGCAGTGGTC TTATTATGAT 
    GACAAACAGC CCTACCAGCC TCGGACGCCT TTTGATAATC AGCACCCTCG GGACCTTGAC 
    TCCAGACAGC ATCCTGAAGA GTCCTCAGAA CGAGGCTATT ACCCACGTTT TGAAGAGCCA 
    GCCCCTCTGT CCTATGACAG CAGACCACGC TATGACCAGC CACCTAGAAC CTCCACCCTA 
    CGACATGAAG AGCAGCCAGC TCCTGGGTAT GACATGCACA ACAGATACAG GCCGGAAGCA 
    CAGTCCTATT CAGTAGGCCC GAAGGCGACT GAACCCAAAC AGTATTTTGA CCAATACCCA 
    CGAAGTTACG AGCAAGTACC ACCACAAGGA TTTACCTCTA AAGCAGGCCA CTATGAGCCT 
    CTCCATGGTG CTGCAGTTGT CCCTCCTCTA ATTCCCGCAT CTCAACACAA GCCAGAAGTT 
    CTGCCTTCAA ATACCAAACC ACTGCCTCCA CCCCCCACTC TGACTGAAGA GGAGGAAGAT 
    CCAGCAATGA AGCCCCAGTC TGTGCTCACT AGAGTGAAAA TGTTTGAAAA CAAAAGATCT 
    GCATCATTGG AGAGCAAGAA GGATGAAAAC CACACTGCTG CTTTTAAGCC TCCAGAGGTA 
    GCATCTAAAC CTTCAGGTGC TCCCATCATT GGCCCTAAAG CCACTCCTCA GAATCAGTTC 
    AGTGAACATG ACAAAACACT GTACAGGATC CCAGAACCTC AAAAACCTCA AATGAAGCCA 
    CCCGAAGATA TTGTTCGGTC TAATCATTAT GATCCCGAGG AAGATGAAGA ATATTATCGA 
    AAACAGCTCT CATACTTTGA CCGAAGAAGT TTTGAAAACA AGCCTTCTAC ACACATTCCT 
    GCTGGCCATC TCTCAGAGCC TGCCAAGCCA GTTCATTCTC AGAATCAACC AAACTTTTCT 
    AGTTATTCTT CAAAGGGAAA GTCTCCTGAA GCTGATGGCA TGGATAGAGC ATTTGGTGAG 
    AAGCGCTATG AGCCAGTCCA GGCCACTCCC CCTCCTCCCC CATTGCCCTC CCAGTACGCC 
    CAGCCTGCTC AGTCCAGTAC CAGCTCCTCT CTTGCCCTCC ACACGCATGC CAAGGGGGCA 
    CATGGTGAAG GTAATTCGGT GTCGCTGGAT TTTCAGAATT CTTTAGTGTC CAAACCAGAC 
    CCACCTCCAT CTCAGAATAA GCCAGCAACT TTCAGACCAC CGAACCGAGA AGACACTGTT 
    CAGTCTACTT TCTATCCCCA GAAAAGTTTC CCAGATAAAG CTCCAGCTAA TGGAGCTGAA 
    CAGACTCAGA AAACGGTCAC TCCAGCATAT AATCGATTCA CGCCAAAACC ATACACAAGT 
    TCTGCCCGGC CATTTGAGCG CAAGTTCGAA AGTCCTAAAT TCAACCACAA TCTGCTGCCA 
    AGTGAAACGG CACATAAACC TGACTTGTCT TCAAAAGCCC CCGCTTCTCC CAAAACACTT 
    GCGAAAGCAC ACAGCGCGAC ACAGCCTCCT GAGTTTGACA GCGGGGTTGA AACTTTCTCC 
    ATCCACGCGG ATAAGCCTAA ATATCAAATG AACAATATCA GCACAGTGCC TAAAGCTATT 
    CCTGTGAGCC CTTCAGCTGT GGAAGAAGAT GAAGATGAGG ATGGTCATAC TGTGGTGGCC 
    ACAGCCCGAG GCGTGTTTAA CAGCAATGGT GGGGTGTTGA GTTCCATAGA AACTGGTGTT 
    AGTATAATTA TCCCACAAGG AGCCATTCCT GAGGGAATTG AGCAGGAAAT CTATTTCAAG 
    GTCTGCCGAG ACAACAGCAT CCTCCCGCCT TTAGATAAGG AGAAAGGTGA GACACTGCTG 
    AGCCCTTTAG TGATGTGTGG GCCCCATGGC CTCAAGTTCC TGAAGCCCGT GGAGCTGCGC 
    TTACCACACT GTGATCCTAA AACATGGCAA AACAAGTGTC TTCCTGGAGA TCCAAATTAC 
    CTTGTTGGAG CAAACTGTGT TTCTGTACTG ATTGACCACT TTTAA

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

    TJP1 ( XM_019805912.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019661471.1 Ailuropoda melanoleuca tight junction protein 1 (TJP1), transcript variant X10, mRNA.
    Price & Availability↑
    CloneID OAc96980
    Clone ID Related Accession (Same CDS sequence) XM_019805912.1
    Accession Version XM_019805912.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5304bp)
    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 1482768000000
    Organism Ailuropoda melanoleuca(giant panda)
    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 (NW_003218187.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    ATGCTCCTGG CCTGGCCACG AAACACAGCA ATGGAGGAAA CAGCTATATG GGAACAACAC 
    ACAGTGACTC TTCACAGGGC TCCTGGATTT GGATTTGGAA TTGCAATATC TGGTGGAAGA 
    GACAACCCTC ATTTTCAGAG TGGGGAAACT TCCATAGTAA TTTCAGATGT GCTGAAAGGG 
    GGACCCGCTG AAGGACAGCT ACAGGAAAAT GACCGAGTTG CAATGGTTAA TGGAGTTTCA 
    ATGGACAATG TTGAACATGC TTTTGCTGTT CAGCAACTAA GGAAAAGTGG GAAGAATGCA 
    AAAATTACCA TTCGGAGGAA GAAGAAAGTT CAGATACCAG TTAGTCGTCC TGATCCTGAA 
    CCGGTATCTG GGAATGAAGA AGATAGTTAC GATGAGGAAG TCCATGACCC AAGAAGCAGC 
    CGTGGCGGTC TGGTCAGTAG AAGGAGTGAG AAGAGTTGGG CAAGGGATAG AAGTGCAAGC 
    AGAGAGAGGA GTTTGTCCCC ACGGTCTGAT AGGCGATCTG TGGCCTCCAG TCAACCTGCC 
    AAACCCACCA AAGTTACATT GGTGAAATCC CGGAAAAATG AAGAATATGG TCTTCGATTG 
    GCCAGCCATA TATTTGTAAA GGAAATTTCA CAAGATAGTT TGGCAGCAAG AGATGGCAAT 
    ATTCAAGAAG GCGATGTTGT ACTAAAGATA AATGGTACCG TGACAGAAAA TATGTCACTG 
    ACAGATGCAA AAACATTGAT AGAAAGGTCT AAAGGCAAGT TAAAAATGGT AGTTCAGAGG 
    GATGAACGGG CTACCCTATT GAACGTCCCT GATCTTTCTG ACAGTATCCA TTCTGCTAAT 
    GCCTCTGAGA GAGATGACAT TTCAGAAATT CAGTCACTGG CCTCAGATCA TTCTGGTCGA 
    TCACATGATA GACCTCCCCG CCACAGCCGG TCACGATCAC CTGACCAGCG GTCAGAGCCT 
    TCTGATCATT CCAGACACTC TCCACAGCAG CCCAGCAGTG GCAGTCTCCG GAGCAGAGAG 
    GAAGAGAGAA TTTCTAAACC TGGGGCTGTC TCAACTCCTC TGAAGCATGC GGATGATCAT 
    ACACCTAAAA CGGTAGAAGA AGTTGTAGTT GAGAGAAATG AGAAACAAGC GCCCACTCTT 
    CCAGAACCAA AGCCTGTGTA TGCTCAAGGT GGACAACCAG ACGTGGATTT ACCTGTCAGT 
    CCGTCTGATG GCGTCCTGCC TAATTCAACT CATGAAGATG GGATTCTCCG GCCCAGCATG 
    AAATTGGTAA AATTCAGAAA AGGAGATAGT GTGGGTCTGC GCCTGGCTGG TGGAAATGAT 
    GTTGGAATAT TTGTAGCTGG TGTTCTAGAA GATAGCCCTG CAGCCAAAGA AGGCTTAGAA 
    GAGGGTGATC AAATTCTCAG GGTAAACAAT GTAGATTTCA CAAACATCAT AAGAGAAGAA 
    GCTGTCCTTT TCCTGCTCGA CCTCCCTAAA GGAGAAGAAG TGACCATATT GGCTCAGAAG 
    AAGAAAGATG TTTATCGTCG CATCGTAGAA TCAGATGTAG GAGATTCTTT CTATATTAGA 
    ACCCATTTTG AATATGAAAA GGAATCTCCC TATGGACTTA GTTTTAACAA AGGAGAGGTG 
    TTCCGTGTTG TGGATACCTT GTACAATGGG AAACTAGGCT CTTGGCTCGC TATTCGAATT 
    GGTAAAAATC ATAAAGAAGT AGAACGAGGC ATCATCCCTA ACAAGAACAG GGCTGAGCAG 
    TTAGCCAGTG TACAGTACAC ACTTCCAAAA ACAGCTGGGG GAGACCGTGC TGACTTCTGG 
    AGATTCCGGG GTCTTCGCAG TTCCAAGAGA AATCTTCGAA AGAGCAGAGA GGATTTGTCA 
    GCTCAGCCAG TTCAAACAAA GTTTCCAGCC TATGAAAGAG TTGTTCTTCG AGAAGCTGGA 
    TTTCTGAGGC CTGTAACTAT CTTTGGACCC ATAGCTGATG TTGCCCGAGA AAAGCTGGCA 
    AGAGAGGAAC CAGATATTTA TCAGATTGCA AAAAGTGAAC CACGAGATGC TGGAACTGAC 
    CAACGTAGCT CTGGCATTAT TCGCCTTCAT ACAATAAAGC AAATAATAGA TCAGGACAAA 
    CATGCTTTAT TAGATGTAAC ACCAAATGCA GTTGATCGTC TGAATTATGC CCAGTGGTAT 
    CCAATTGTAG TATTCCTTAA CCCTGATTCT AAGCAAGGTG TGAAAACTAT GAGGATGAGG 
    TTATGTCCAG AATCTCGGAA AAGTGCCAGG AAATTATATG AACGATCTCA TAAACTTCGT 
    AAAAATAATC ACCATCTTTT TACAACTACA ATTAACTTAA ATTCAATGAA TGATGGTTGG 
    TATGGTGCAT TGAAAGAAGC AATTCAGCAA CAACAGAACC AGTTGGTATG GGTTTCTGAG 
    GGAAAGGCGG ATGGTGCTAC AAGTGATGAC CTTGATTTGC ATGATGATCG TCTGTCCTAC 
    CTGTCAGCCC CAGGTAGTGA ATACTCAATG TATAGCACGG ACAGTAGACA CACTTCTGAC 
    TATGAAGACA CAGATACAGA AGGCGGGGCC TACACTGATC AAGAACTAGA TGAAACTCTT 
    AATGATGAGG TTGGGACTCC ACCGGAGTCT GCCATTACAC GGTCCTCTGA GCCTGTAAGA 
    GAGGACTCCT CTGGAATGCA TCATGAAAAC CAAACATATC CTCCTTATTC ACCACAAGCG 
    CAGCCACAAC CAATTCATAG AATAGACTCC CCTGGATTTA AAACAGCCTC TCAACAGAAA 
    GCAGAAGCCT CATCTCCAGT CCCTTACCTT TCGCCTGAAA CAAACTCAGC ATCATCAACC 
    TCTGCTGTTA ACCATAATGT AACTTTAACT AATGTCAGAC TGGAGGGGCC CACCCCAGCT 
    CCTTCCACCT CTTACTCACC ACAAGCTGAT TCTTTAAGAA CACCAAGTAC TGAGGCAGCT 
    CACATAATGC TAAGAGATCA AGAGCCATCA TTGCCGTCGC ATGTAGATCC AGCAAAGGTG 
    TATAGAAAAG ATCCCTATCC TGAGGAAATG ATGAGACAGA ATCACGTTTT GAAACAGCCA 
    GCTGTTGGTC ACCCAGGGCA GAGGCCAGAC AAAGAGCCTA ATCTGAGCTA TGAATCCCAA 
    CCCCCATATG TAGAGAAACA AGCCAACAGA GACCTCGAGC AGCCCACATA CAGATATGAC 
    TCCTCAAGTT ACACAGACCA GTTTTCTCGA AACTATGACC ATCGTCTCCG CTACGAAGAG 
    CGCATTCCTA CATATGAAGA GCAGTGGTCT TATTATGATG ACAAACAGCC CTACCAGCCT 
    CGGACGCCTT TTGATAATCA GCACCCTCGG GACCTTGACT CCAGACAGCA TCCTGAAGAG 
    TCCTCAGAAC GAGGCTATTA CCCACGTTTT GAAGAGCCAG CCCCTCTGTC CTATGACAGC 
    AGACCACGCT ATGACCAGCC ACCTAGAACC TCCACCCTAC GACATGAAGA GCAGCCAGCT 
    CCTGGGTATG ACATGCACAA CAGATACAGG CCGGAAGCAC AGTCCTATTC AGTAGGCCCG 
    AAGGCGACTG AACCCAAACA GTATTTTGAC CAATACCCAC GAAGTTACGA GCAAGTACCA 
    CCACAAGGAT TTACCTCTAA AGCAGGCCAC TATGAGCCTC TCCATGGTGC TGCAGTTGTC 
    CCTCCTCTAA TTCCCGCATC TCAACACAAG CCAGAAGTTC TGCCTTCAAA TACCAAACCA 
    CTGCCTCCAC CCCCCACTCT GACTGAAGAG GAGGAAGATC CAGCAATGAA GCCCCAGTCT 
    GTGCTCACTA GAGTGAAAAT GTTTGAAAAC AAAAGATCTG CATCATTGGA GAGCAAGAAG 
    GATGAAAACC ACACTGCTGC TTTTAAGCCT CCAGAGGTAG CATCTAAACC TTCAGGTGCT 
    CCCATCATTG GCCCTAAAGC CACTCCTCAG AATCAGTTCA GTGAACATGA CAAAACACTG 
    TACAGGATCC CAGAACCTCA AAAACCTCAA ATGAAGCCAC CCGAAGATAT TGTTCGGTCT 
    AATCATTATG ATCCCGAGGA AGATGAAGAA TATTATCGAA AACAGCTCTC ATACTTTGAC 
    CGAAGAAGTT TTGAAAACAA GCCTTCTACA CACATTCCTG CTGGCCATCT CTCAGAGCCT 
    GCCAAGCCAG TTCATTCTCA GAATCAACCA AACTTTTCTA GTTATTCTTC AAAGGGAAAG 
    TCTCCTGAAG CTGATGGCAT GGATAGAGCA TTTGGTGAGA AGCGCTATGA GCCAGTCCAG 
    GCCACTCCCC CTCCTCCCCC ATTGCCCTCC CAGTACGCCC AGCCTGCTCA GTCCAGTACC 
    AGCTCCTCTC TTGCCCTCCA CACGCATGCC AAGGGGGCAC ATGGTGAAGG TAATTCGGTG 
    TCGCTGGATT TTCAGAATTC TTTAGTGTCC AAACCAGACC CACCTCCATC TCAGAATAAG 
    CCAGCAACTT TCAGACCACC GAACCGAGAA GACACTGTTC AGTCTACTTT CTATCCCCAG 
    AAAAGTTTCC CAGATAAAGC TCCAGCTAAT GGAGCTGAAC AGACTCAGAA AACGGTCACT 
    CCAGCATATA ATCGATTCAC GCCAAAACCA TACACAAGTT CTGCCCGGCC ATTTGAGCGC 
    AAGTTCGAAA GTCCTAAATT CAACCACAAT CTGCTGCCAA GTGAAACGGC ACATAAACCT 
    GACTTGTCTT CAAAAGCCCC CGCTTCTCCC AAAACACTTG CGAAAGCACA CAGCGCGACA 
    CAGCCTCCTG AGTTTGACAG CGGGGTTGAA ACTTTCTCCA TCCACGCGGA TAAGCCTAAA 
    TATCAAATGA ACAATATCAG CACAGTGCCT AAAGCTATTC CTGTGAGCCC TTCAGCTGTG 
    GAAGAAGATG AAGATGAGGA TGGTCATACT GTGGTGGCCA CAGCCCGAGG CGTGTTTAAC 
    AGCAATGGTG GGGTGTTGAG TTCCATAGAA ACTGGTGTTA GTATAATTAT CCCACAAGGA 
    GCCATTCCTG AGGGAATTGA GCAGGAAATC TATTTCAAGG TCTGCCGAGA CAACAGCATC 
    CTCCCGCCTT TAGATAAGGA GAAAGGTGAG ACACTGCTGA GCCCTTTAGT GATGTGTGGG 
    CCCCATGGCC TCAAGTTCCT GAAGCCCGTG GAGCTGCGCT TACCACACTG TGCGTCCATG 
    ACTCCTGACG GTTGGTCTTT TGCTCTAAAA TCATCCGACT CCTCGTCGGG TGATCCTAAA 
    ACATGGCAAA ACAAGTGTCT TCCTGGAGAT CCAAATTACC TTGTTGGAGC AAACTGTGTT 
    TCTGTACTGA TTGACCACTT TTAA

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

    RefSeq XP_019661471.1
    CDS115..5418
    Translation

    Target ORF information:

    RefSeq Version XM_019805912.1
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca 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_019805912.1

    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
    ATGCTCCTGG CCTGGCCACG AAACACAGCA ATGGAGGAAA CAGCTATATG GGAACAACAC 
    ACAGTGACTC TTCACAGGGC TCCTGGATTT GGATTTGGAA TTGCAATATC TGGTGGAAGA 
    GACAACCCTC ATTTTCAGAG TGGGGAAACT TCCATAGTAA TTTCAGATGT GCTGAAAGGG 
    GGACCCGCTG AAGGACAGCT ACAGGAAAAT GACCGAGTTG CAATGGTTAA TGGAGTTTCA 
    ATGGACAATG TTGAACATGC TTTTGCTGTT CAGCAACTAA GGAAAAGTGG GAAGAATGCA 
    AAAATTACCA TTCGGAGGAA GAAGAAAGTT CAGATACCAG TTAGTCGTCC TGATCCTGAA 
    CCGGTATCTG GGAATGAAGA AGATAGTTAC GATGAGGAAG TCCATGACCC AAGAAGCAGC 
    CGTGGCGGTC TGGTCAGTAG AAGGAGTGAG AAGAGTTGGG CAAGGGATAG AAGTGCAAGC 
    AGAGAGAGGA GTTTGTCCCC ACGGTCTGAT AGGCGATCTG TGGCCTCCAG TCAACCTGCC 
    AAACCCACCA AAGTTACATT GGTGAAATCC CGGAAAAATG AAGAATATGG TCTTCGATTG 
    GCCAGCCATA TATTTGTAAA GGAAATTTCA CAAGATAGTT TGGCAGCAAG AGATGGCAAT 
    ATTCAAGAAG GCGATGTTGT ACTAAAGATA AATGGTACCG TGACAGAAAA TATGTCACTG 
    ACAGATGCAA AAACATTGAT AGAAAGGTCT AAAGGCAAGT TAAAAATGGT AGTTCAGAGG 
    GATGAACGGG CTACCCTATT GAACGTCCCT GATCTTTCTG ACAGTATCCA TTCTGCTAAT 
    GCCTCTGAGA GAGATGACAT TTCAGAAATT CAGTCACTGG CCTCAGATCA TTCTGGTCGA 
    TCACATGATA GACCTCCCCG CCACAGCCGG TCACGATCAC CTGACCAGCG GTCAGAGCCT 
    TCTGATCATT CCAGACACTC TCCACAGCAG CCCAGCAGTG GCAGTCTCCG GAGCAGAGAG 
    GAAGAGAGAA TTTCTAAACC TGGGGCTGTC TCAACTCCTC TGAAGCATGC GGATGATCAT 
    ACACCTAAAA CGGTAGAAGA AGTTGTAGTT GAGAGAAATG AGAAACAAGC GCCCACTCTT 
    CCAGAACCAA AGCCTGTGTA TGCTCAAGGT GGACAACCAG ACGTGGATTT ACCTGTCAGT 
    CCGTCTGATG GCGTCCTGCC TAATTCAACT CATGAAGATG GGATTCTCCG GCCCAGCATG 
    AAATTGGTAA AATTCAGAAA AGGAGATAGT GTGGGTCTGC GCCTGGCTGG TGGAAATGAT 
    GTTGGAATAT TTGTAGCTGG TGTTCTAGAA GATAGCCCTG CAGCCAAAGA AGGCTTAGAA 
    GAGGGTGATC AAATTCTCAG GGTAAACAAT GTAGATTTCA CAAACATCAT AAGAGAAGAA 
    GCTGTCCTTT TCCTGCTCGA CCTCCCTAAA GGAGAAGAAG TGACCATATT GGCTCAGAAG 
    AAGAAAGATG TTTATCGTCG CATCGTAGAA TCAGATGTAG GAGATTCTTT CTATATTAGA 
    ACCCATTTTG AATATGAAAA GGAATCTCCC TATGGACTTA GTTTTAACAA AGGAGAGGTG 
    TTCCGTGTTG TGGATACCTT GTACAATGGG AAACTAGGCT CTTGGCTCGC TATTCGAATT 
    GGTAAAAATC ATAAAGAAGT AGAACGAGGC ATCATCCCTA ACAAGAACAG GGCTGAGCAG 
    TTAGCCAGTG TACAGTACAC ACTTCCAAAA ACAGCTGGGG GAGACCGTGC TGACTTCTGG 
    AGATTCCGGG GTCTTCGCAG TTCCAAGAGA AATCTTCGAA AGAGCAGAGA GGATTTGTCA 
    GCTCAGCCAG TTCAAACAAA GTTTCCAGCC TATGAAAGAG TTGTTCTTCG AGAAGCTGGA 
    TTTCTGAGGC CTGTAACTAT CTTTGGACCC ATAGCTGATG TTGCCCGAGA AAAGCTGGCA 
    AGAGAGGAAC CAGATATTTA TCAGATTGCA AAAAGTGAAC CACGAGATGC TGGAACTGAC 
    CAACGTAGCT CTGGCATTAT TCGCCTTCAT ACAATAAAGC AAATAATAGA TCAGGACAAA 
    CATGCTTTAT TAGATGTAAC ACCAAATGCA GTTGATCGTC TGAATTATGC CCAGTGGTAT 
    CCAATTGTAG TATTCCTTAA CCCTGATTCT AAGCAAGGTG TGAAAACTAT GAGGATGAGG 
    TTATGTCCAG AATCTCGGAA AAGTGCCAGG AAATTATATG AACGATCTCA TAAACTTCGT 
    AAAAATAATC ACCATCTTTT TACAACTACA ATTAACTTAA ATTCAATGAA TGATGGTTGG 
    TATGGTGCAT TGAAAGAAGC AATTCAGCAA CAACAGAACC AGTTGGTATG GGTTTCTGAG 
    GGAAAGGCGG ATGGTGCTAC AAGTGATGAC CTTGATTTGC ATGATGATCG TCTGTCCTAC 
    CTGTCAGCCC CAGGTAGTGA ATACTCAATG TATAGCACGG ACAGTAGACA CACTTCTGAC 
    TATGAAGACA CAGATACAGA AGGCGGGGCC TACACTGATC AAGAACTAGA TGAAACTCTT 
    AATGATGAGG TTGGGACTCC ACCGGAGTCT GCCATTACAC GGTCCTCTGA GCCTGTAAGA 
    GAGGACTCCT CTGGAATGCA TCATGAAAAC CAAACATATC CTCCTTATTC ACCACAAGCG 
    CAGCCACAAC CAATTCATAG AATAGACTCC CCTGGATTTA AAACAGCCTC TCAACAGAAA 
    GCAGAAGCCT CATCTCCAGT CCCTTACCTT TCGCCTGAAA CAAACTCAGC ATCATCAACC 
    TCTGCTGTTA ACCATAATGT AACTTTAACT AATGTCAGAC TGGAGGGGCC CACCCCAGCT 
    CCTTCCACCT CTTACTCACC ACAAGCTGAT TCTTTAAGAA CACCAAGTAC TGAGGCAGCT 
    CACATAATGC TAAGAGATCA AGAGCCATCA TTGCCGTCGC ATGTAGATCC AGCAAAGGTG 
    TATAGAAAAG ATCCCTATCC TGAGGAAATG ATGAGACAGA ATCACGTTTT GAAACAGCCA 
    GCTGTTGGTC ACCCAGGGCA GAGGCCAGAC AAAGAGCCTA ATCTGAGCTA TGAATCCCAA 
    CCCCCATATG TAGAGAAACA AGCCAACAGA GACCTCGAGC AGCCCACATA CAGATATGAC 
    TCCTCAAGTT ACACAGACCA GTTTTCTCGA AACTATGACC ATCGTCTCCG CTACGAAGAG 
    CGCATTCCTA CATATGAAGA GCAGTGGTCT TATTATGATG ACAAACAGCC CTACCAGCCT 
    CGGACGCCTT TTGATAATCA GCACCCTCGG GACCTTGACT CCAGACAGCA TCCTGAAGAG 
    TCCTCAGAAC GAGGCTATTA CCCACGTTTT GAAGAGCCAG CCCCTCTGTC CTATGACAGC 
    AGACCACGCT ATGACCAGCC ACCTAGAACC TCCACCCTAC GACATGAAGA GCAGCCAGCT 
    CCTGGGTATG ACATGCACAA CAGATACAGG CCGGAAGCAC AGTCCTATTC AGTAGGCCCG 
    AAGGCGACTG AACCCAAACA GTATTTTGAC CAATACCCAC GAAGTTACGA GCAAGTACCA 
    CCACAAGGAT TTACCTCTAA AGCAGGCCAC TATGAGCCTC TCCATGGTGC TGCAGTTGTC 
    CCTCCTCTAA TTCCCGCATC TCAACACAAG CCAGAAGTTC TGCCTTCAAA TACCAAACCA 
    CTGCCTCCAC CCCCCACTCT GACTGAAGAG GAGGAAGATC CAGCAATGAA GCCCCAGTCT 
    GTGCTCACTA GAGTGAAAAT GTTTGAAAAC AAAAGATCTG CATCATTGGA GAGCAAGAAG 
    GATGAAAACC ACACTGCTGC TTTTAAGCCT CCAGAGGTAG CATCTAAACC TTCAGGTGCT 
    CCCATCATTG GCCCTAAAGC CACTCCTCAG AATCAGTTCA GTGAACATGA CAAAACACTG 
    TACAGGATCC CAGAACCTCA AAAACCTCAA ATGAAGCCAC CCGAAGATAT TGTTCGGTCT 
    AATCATTATG ATCCCGAGGA AGATGAAGAA TATTATCGAA AACAGCTCTC ATACTTTGAC 
    CGAAGAAGTT TTGAAAACAA GCCTTCTACA CACATTCCTG CTGGCCATCT CTCAGAGCCT 
    GCCAAGCCAG TTCATTCTCA GAATCAACCA AACTTTTCTA GTTATTCTTC AAAGGGAAAG 
    TCTCCTGAAG CTGATGGCAT GGATAGAGCA TTTGGTGAGA AGCGCTATGA GCCAGTCCAG 
    GCCACTCCCC CTCCTCCCCC ATTGCCCTCC CAGTACGCCC AGCCTGCTCA GTCCAGTACC 
    AGCTCCTCTC TTGCCCTCCA CACGCATGCC AAGGGGGCAC ATGGTGAAGG TAATTCGGTG 
    TCGCTGGATT TTCAGAATTC TTTAGTGTCC AAACCAGACC CACCTCCATC TCAGAATAAG 
    CCAGCAACTT TCAGACCACC GAACCGAGAA GACACTGTTC AGTCTACTTT CTATCCCCAG 
    AAAAGTTTCC CAGATAAAGC TCCAGCTAAT GGAGCTGAAC AGACTCAGAA AACGGTCACT 
    CCAGCATATA ATCGATTCAC GCCAAAACCA TACACAAGTT CTGCCCGGCC ATTTGAGCGC 
    AAGTTCGAAA GTCCTAAATT CAACCACAAT CTGCTGCCAA GTGAAACGGC ACATAAACCT 
    GACTTGTCTT CAAAAGCCCC CGCTTCTCCC AAAACACTTG CGAAAGCACA CAGCGCGACA 
    CAGCCTCCTG AGTTTGACAG CGGGGTTGAA ACTTTCTCCA TCCACGCGGA TAAGCCTAAA 
    TATCAAATGA ACAATATCAG CACAGTGCCT AAAGCTATTC CTGTGAGCCC TTCAGCTGTG 
    GAAGAAGATG AAGATGAGGA TGGTCATACT GTGGTGGCCA CAGCCCGAGG CGTGTTTAAC 
    AGCAATGGTG GGGTGTTGAG TTCCATAGAA ACTGGTGTTA GTATAATTAT CCCACAAGGA 
    GCCATTCCTG AGGGAATTGA GCAGGAAATC TATTTCAAGG TCTGCCGAGA CAACAGCATC 
    CTCCCGCCTT TAGATAAGGA GAAAGGTGAG ACACTGCTGA GCCCTTTAGT GATGTGTGGG 
    CCCCATGGCC TCAAGTTCCT GAAGCCCGTG GAGCTGCGCT TACCACACTG TGCGTCCATG 
    ACTCCTGACG GTTGGTCTTT TGCTCTAAAA TCATCCGACT CCTCGTCGGG TGATCCTAAA 
    ACATGGCAAA ACAAGTGTCT TCCTGGAGAT CCAAATTACC TTGTTGGAGC AAACTGTGTT 
    TCTGTACTGA TTGACCACTT TTAA

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

REQUEST A QUOTE

EMAIL

gene@genscript.com

PHONE

1-877-436-7274

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