ITSN1 cDNA ORF clone, Pan troglodytes(chimpanzee)

The following ITSN1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ITSN1 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
OPc102336 XM_024352351.1
Latest version!
Pan troglodytes intersectin 1 (ITSN1), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OPc102337 XM_024352352.1
Latest version!
Pan troglodytes intersectin 1 (ITSN1), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OPc102338 XM_024352353.1
Latest version!
Pan troglodytes intersectin 1 (ITSN1), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OPc27798 XM_003949152.3
Latest version!
Pan troglodytes intersectin 1 (ITSN1), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OPc27798 XM_016947147.2
Latest version!
Pan troglodytes intersectin 1 (ITSN1), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OPc27799 XM_016947143.2
Latest version!
Pan troglodytes intersectin 1 (ITSN1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $1021.30
$1459.00
OPc27799 XM_001166935.4
Latest version!
Pan troglodytes intersectin 1 (ITSN1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $1021.30
$1459.00
OPc46480 XM_016947144.2
Latest version!
Pan troglodytes intersectin 1 (ITSN1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $1021.30
$1459.00
OPc46480 XM_009456194.2
Latest version!
Pan troglodytes intersectin 1 (ITSN1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $1021.30
$1459.00
OPc46481 XM_016947145.2
Latest version!
Pan troglodytes intersectin 1 (ITSN1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
OPc46481 XM_009456243.2
Latest version!
Pan troglodytes intersectin 1 (ITSN1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
OPc46482 XM_009456278.2
Latest version!
Pan troglodytes intersectin 1 (ITSN1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
OPc46482 XM_016947146.2
Latest version!
Pan troglodytes intersectin 1 (ITSN1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00

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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)
    CloneID OPc102336
    Clone ID Related Accession (Same CDS sequence) XM_024352351.1
    Accession Version XM_024352351.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3648bp)
    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 2018-03-19
    Organism Pan troglodytes(chimpanzee)
    Product intersectin-1 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036900.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pan troglodytes Annotation Release 105 Annotation Version :: 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGGCTCAGT TTCCAACACC TTTTGGTGGC AGCCTGGATA TCTGGGCCAT AACTGTAGAG 
    GAAAGAGCGA AGCATGATCA GCAGTTCCAT AGTTTAAAGC CAATATCTGG ATTCATTACT
    GGTGATCAAG CTAGAAACTT TTTTTTTCAA TCTGGGTTAC CTCAACCTGT TTTAGCACAG
    ATATGGGCAC TAGCTGACAT GAATAATGAT GGAAGAATGG ATCAAGTGGA GTTTTCCATA
    GCTATGAAAC TTATCAAACT GAAGCTACAA GGATATCAGC TACCCTCTGC ACTTCCCCCT
    GTCATGAAAC AGCAACCAGT TGCTATTTCT AGCGCACCAG CATTTGGTAT GGGAGGTATC
    GCCAGCATGC CACCGCTTAC AGCTGTTGCT CCAGTGCCAA TGGGATCCAT TCCAGTTGTT
    GGAATGTCTC CAACCCTAGT ATCTTCTGTT CCCACAGCAG CTGTGCCCCC CCTGACTAAC
    GGGGCTCCCC CTGTTATACA ACCTCTGCCT GCATTTGCTC ATCCTGCAGC CACATTGCCA
    AAGAGTTCTT CCTTTAGTAG ATCTGGTCCA GGGTCACAAC TAAACACTAA ATTACAAAAG
    GCACAGTCAT TTGATGTGGC CAGTGTCCCA CCAGTGGCAG AATGGGCTGT TCCTCAGTCA
    TCAAGACTGA AATACAGGCA ATTATTCAAT AGTCATGACA AAACTATGAG TGGACACTTA
    ACAGGTCCCC AAGCAAGAAC TATTCTTATG CAATCAAGTT TACCACAGGC TCAGCTGGCT
    TCAATATGGA ATCTTTCTGA CATTGATCAA GATGGAAAAC TTACAGCAGA AGAATTTATC
    CTGGCAATGC ACCTCATTGA TGTAGCTATG TCTGGCCAAC CACTGCCACC TGTCCTGCCT
    CCAGAATATA TTCCACCTTC TTTTAGAAGA GTTCGATCTG GCAGTGGTAT ATCTGTCATA
    AGCTCAACAT CTGTAGATCA GAGGCTACCA GAGGAACCAG TTTTAGAAGA TGAACAACAA
    CAATTAGAAA AGAAATTACC TGTAACGTTT GAAGATAAGA AGCGGGAGAA CTTTGAACGT
    GGCAACCTGG AACTGGAGAA ACGAAGGCAA GCTCTCCTGG AACAGCAGCG CAAGGAGCAG
    GAGCGCCTGG CCCAGCTGGA GCGGGCGGAG CAGGAGAGGA AGGAGCGTGA GCGCCAGGAG
    CAAGAGCGCA AAAGACAACT GGAACTGGAG AAGCAACTGG AAAAGCAGCG GGAGCTAGAA
    CGGCAGAGAG AGGAGGAGAG GAGGAAAGAA ATTGAGAGGC GAGAGGCTGC AAAACGGGAA
    CTTGAAAGGC AACGACAACT TGAGTGGGAA CGGAATCGAA GGCAAGAACT ACTAAATCAA
    AGAAACAAAG AACAAGAGGA CATAGTTGTA CTGAAAGCAA AGAAAAAGAC TTTGGAATTT
    GAATTAGAAG CTCTAAATGA TAAAAAGCAT CAACTAGAAG GGAAACTTCA AGATATCAGA
    TGTCGATTGA CCACCCAAAG GCAAGAAATT GAGAGCACAA ACAAATCTAG AGAGTTGAGA
    ATTGCCGAAA TCACCCATCT ACAGCAACAA TTACAGGAAT CTCAGCAAAT GCTTGGAAGA
    CTTATTCCAG AAAAACAGAT ACTCAATGAC CAATTAAAAC AAGTTCAACA GAACAGTTTG
    CACAGAGATT CACTTGTTAC ACTTAAAAGA GCCTTAGAAG CAAAAGAACT AGCTCGGCAG
    CAGCTACGAG ACCAACTGGA TGAAGTGGAG AAAGAAACTA GATCAAAACT ACAGGAGATT
    GATATTTTCA ATAATCAGCT GAAGGAACTA AGAGAAATAC ACAATAAGCA ACAACTCCAG
    AAGCAAAAGT CCATGGAGGC TGAACGACTG AAACAGAAAG AACAAGAACG AAAGATCATA
    GAATTAGAAA AACAAAAAGA AGAAGCCCAA AGACGAGCTC AGGAAAGGGA CAAGCAGTGG
    CTGGAGCATG TGCAGCAGGA GGACGAGCAT CAGAGACCAA GAAAACTCCA CGAAGAGGAA
    AAACTGAAAA GGGAGGAGAG TGTCAAAAAG AAGGATGGCG AGGAAAAAGG CAAACAGGAA
    GCACAAGACA AGCTGGGTCG GCTTTTCCAT CAACACCAAG AACCAGCTAA GCCAGCTGTC
    CAGGCACCCT GGTCCACTGC AGAAAAAGGT CCACTTACCA TTTCTGCACA GGAAAATGTA
    AAAGTGGTGT ATTACCGGGC ACTGTACCCC TTTGAATCCA GAAGCCATGA TGAAATCACT
    ATCCAGCCAG GAGACATAGT TATGGTGGAT GAAAGCCAAA CTGGAGAACC CGGCTGGCTT
    GGAGGAGAAT TAAAAGGAAA GACAGGGTGG TTCCCTGCAA ACTATGCAGA GAAAATCCCA
    GAAAATGAGG TTCCTGCTCC AGTGAAACCA GTGACTGATT CAACATCTGC CCCTGCCCCC
    AAACTGGCCT TGCGTGAGAC CCCCGCCCCT TTGGCAGTAA CCTCTTCAGA GCCCTCCACG
    ACCCCTAATA ACTGGGCCGA CTTCAGCTCC ACGTGGCCCA CCAGCACGAA TGAGAAACCA
    GAAACGGATA ACTGGGATGC ATGGGCAGCC CAGCCCTCTC TCACCGTTCC AAGTGCCGGC
    CAGTTAAGGC AGAGGTCCGC CTTTACTCCA GCCACGGCCA CTGGCTCCTC CCCGTCTCCT
    GTGCTAGGCC AGGGTGAAAA GGTGGAGGGG CTACAAGCTC AAGCCCTATA TCCTTGGAGA
    GCCAAAAAAG ACAACCACTT AAATTTTAAC AAAAATGATG TCATCACCGT CCTGGAACAG
    CAAGACATGT GGTGGTTTGG AGAAGTTCAA GGTCAGAAGG GTTGGTTCCC CAAGTCTTAC
    GTGAAACTCA TTTCAGGGCC CATAAGGAAG TCTACAAGCA TGGATTCTGG TTCTTCAGAG
    AGTCCTGCTA GTCTAAAGCG AGTAGCCTCT CCAGCAGCCA AGCCGGTCGT TTCGGGAGAA
    GAATTTATTG CCATGTACAC TTACGAGAGT TCTGAGCAAG GAGATTTAAC CTTTCAGCAA
    GGGGATGTGA TTTTGGTTAC CAAGAAAGAT GGTGACTGGT GGACAGGAAC AGTGGGCGAC
    AAGGCCGGAG TCTTCCCTTC TAACTATGTG AGGCTTAAAG ATTCAGAGGG CTCTGGAACT
    GCTGGGAAAA CAGGGAGTTT AGGAAAAAAA CCTGAAATTG CCCAGGTTAT TGCCTCATAC
    ACCGCCACCG GCCCCGAGCA GCTCACTCTC GCCCCTGGTC AGCTGATTTT GATCCGAAAA
    AAGAACCCAG GTGGATGGTG GGAAGGAGAG CTGCAAGCAC GTGGGAAAAA GCGCCAGATA
    GGCTGGTTCC CAGCTAATTA TGTAAAGCTT CTAAGCCCTG GGACGAGCAA AATCACTCCA
    ACAGAGCCAC CTAAGTCAAC AGCATTAGCG GCAGTGTGCC AGGTGATTGG GATGTACGAC
    TACACCGCGC AGAATGACGA TGAGCTGGCC TTCAACAAGG GCCAGATCAT CAACGTCCTC
    AACAAGGAGG ACCCTGACTG GTGGAAAGGA GAAGTCAATG GACAAGTGGG GCTCTTCCCA
    TCCAATTATG TGAAGCTGAC CACAGACATG GACCCAAGCC AGCAATGA

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

    RefSeq XP_024208119.1
    CDS347..3994
    Translation

    Target ORF information:

    RefSeq Version XM_024352351.1
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes intersectin 1 (ITSN1), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024352351.1

    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
    ATGGCTCAGT TTCCAACACC TTTTGGTGGC AGCCTGGATA TCTGGGCCAT AACTGTAGAG 
    GAAAGAGCGA AGCATGATCA GCAGTTCCAT AGTTTAAAGC CAATATCTGG ATTCATTACT
    GGTGATCAAG CTAGAAACTT TTTTTTTCAA TCTGGGTTAC CTCAACCTGT TTTAGCACAG
    ATATGGGCAC TAGCTGACAT GAATAATGAT GGAAGAATGG ATCAAGTGGA GTTTTCCATA
    GCTATGAAAC TTATCAAACT GAAGCTACAA GGATATCAGC TACCCTCTGC ACTTCCCCCT
    GTCATGAAAC AGCAACCAGT TGCTATTTCT AGCGCACCAG CATTTGGTAT GGGAGGTATC
    GCCAGCATGC CACCGCTTAC AGCTGTTGCT CCAGTGCCAA TGGGATCCAT TCCAGTTGTT
    GGAATGTCTC CAACCCTAGT ATCTTCTGTT CCCACAGCAG CTGTGCCCCC CCTGACTAAC
    GGGGCTCCCC CTGTTATACA ACCTCTGCCT GCATTTGCTC ATCCTGCAGC CACATTGCCA
    AAGAGTTCTT CCTTTAGTAG ATCTGGTCCA GGGTCACAAC TAAACACTAA ATTACAAAAG
    GCACAGTCAT TTGATGTGGC CAGTGTCCCA CCAGTGGCAG AATGGGCTGT TCCTCAGTCA
    TCAAGACTGA AATACAGGCA ATTATTCAAT AGTCATGACA AAACTATGAG TGGACACTTA
    ACAGGTCCCC AAGCAAGAAC TATTCTTATG CAATCAAGTT TACCACAGGC TCAGCTGGCT
    TCAATATGGA ATCTTTCTGA CATTGATCAA GATGGAAAAC TTACAGCAGA AGAATTTATC
    CTGGCAATGC ACCTCATTGA TGTAGCTATG TCTGGCCAAC CACTGCCACC TGTCCTGCCT
    CCAGAATATA TTCCACCTTC TTTTAGAAGA GTTCGATCTG GCAGTGGTAT ATCTGTCATA
    AGCTCAACAT CTGTAGATCA GAGGCTACCA GAGGAACCAG TTTTAGAAGA TGAACAACAA
    CAATTAGAAA AGAAATTACC TGTAACGTTT GAAGATAAGA AGCGGGAGAA CTTTGAACGT
    GGCAACCTGG AACTGGAGAA ACGAAGGCAA GCTCTCCTGG AACAGCAGCG CAAGGAGCAG
    GAGCGCCTGG CCCAGCTGGA GCGGGCGGAG CAGGAGAGGA AGGAGCGTGA GCGCCAGGAG
    CAAGAGCGCA AAAGACAACT GGAACTGGAG AAGCAACTGG AAAAGCAGCG GGAGCTAGAA
    CGGCAGAGAG AGGAGGAGAG GAGGAAAGAA ATTGAGAGGC GAGAGGCTGC AAAACGGGAA
    CTTGAAAGGC AACGACAACT TGAGTGGGAA CGGAATCGAA GGCAAGAACT ACTAAATCAA
    AGAAACAAAG AACAAGAGGA CATAGTTGTA CTGAAAGCAA AGAAAAAGAC TTTGGAATTT
    GAATTAGAAG CTCTAAATGA TAAAAAGCAT CAACTAGAAG GGAAACTTCA AGATATCAGA
    TGTCGATTGA CCACCCAAAG GCAAGAAATT GAGAGCACAA ACAAATCTAG AGAGTTGAGA
    ATTGCCGAAA TCACCCATCT ACAGCAACAA TTACAGGAAT CTCAGCAAAT GCTTGGAAGA
    CTTATTCCAG AAAAACAGAT ACTCAATGAC CAATTAAAAC AAGTTCAACA GAACAGTTTG
    CACAGAGATT CACTTGTTAC ACTTAAAAGA GCCTTAGAAG CAAAAGAACT AGCTCGGCAG
    CAGCTACGAG ACCAACTGGA TGAAGTGGAG AAAGAAACTA GATCAAAACT ACAGGAGATT
    GATATTTTCA ATAATCAGCT GAAGGAACTA AGAGAAATAC ACAATAAGCA ACAACTCCAG
    AAGCAAAAGT CCATGGAGGC TGAACGACTG AAACAGAAAG AACAAGAACG AAAGATCATA
    GAATTAGAAA AACAAAAAGA AGAAGCCCAA AGACGAGCTC AGGAAAGGGA CAAGCAGTGG
    CTGGAGCATG TGCAGCAGGA GGACGAGCAT CAGAGACCAA GAAAACTCCA CGAAGAGGAA
    AAACTGAAAA GGGAGGAGAG TGTCAAAAAG AAGGATGGCG AGGAAAAAGG CAAACAGGAA
    GCACAAGACA AGCTGGGTCG GCTTTTCCAT CAACACCAAG AACCAGCTAA GCCAGCTGTC
    CAGGCACCCT GGTCCACTGC AGAAAAAGGT CCACTTACCA TTTCTGCACA GGAAAATGTA
    AAAGTGGTGT ATTACCGGGC ACTGTACCCC TTTGAATCCA GAAGCCATGA TGAAATCACT
    ATCCAGCCAG GAGACATAGT TATGGTGGAT GAAAGCCAAA CTGGAGAACC CGGCTGGCTT
    GGAGGAGAAT TAAAAGGAAA GACAGGGTGG TTCCCTGCAA ACTATGCAGA GAAAATCCCA
    GAAAATGAGG TTCCTGCTCC AGTGAAACCA GTGACTGATT CAACATCTGC CCCTGCCCCC
    AAACTGGCCT TGCGTGAGAC CCCCGCCCCT TTGGCAGTAA CCTCTTCAGA GCCCTCCACG
    ACCCCTAATA ACTGGGCCGA CTTCAGCTCC ACGTGGCCCA CCAGCACGAA TGAGAAACCA
    GAAACGGATA ACTGGGATGC ATGGGCAGCC CAGCCCTCTC TCACCGTTCC AAGTGCCGGC
    CAGTTAAGGC AGAGGTCCGC CTTTACTCCA GCCACGGCCA CTGGCTCCTC CCCGTCTCCT
    GTGCTAGGCC AGGGTGAAAA GGTGGAGGGG CTACAAGCTC AAGCCCTATA TCCTTGGAGA
    GCCAAAAAAG ACAACCACTT AAATTTTAAC AAAAATGATG TCATCACCGT CCTGGAACAG
    CAAGACATGT GGTGGTTTGG AGAAGTTCAA GGTCAGAAGG GTTGGTTCCC CAAGTCTTAC
    GTGAAACTCA TTTCAGGGCC CATAAGGAAG TCTACAAGCA TGGATTCTGG TTCTTCAGAG
    AGTCCTGCTA GTCTAAAGCG AGTAGCCTCT CCAGCAGCCA AGCCGGTCGT TTCGGGAGAA
    GAATTTATTG CCATGTACAC TTACGAGAGT TCTGAGCAAG GAGATTTAAC CTTTCAGCAA
    GGGGATGTGA TTTTGGTTAC CAAGAAAGAT GGTGACTGGT GGACAGGAAC AGTGGGCGAC
    AAGGCCGGAG TCTTCCCTTC TAACTATGTG AGGCTTAAAG ATTCAGAGGG CTCTGGAACT
    GCTGGGAAAA CAGGGAGTTT AGGAAAAAAA CCTGAAATTG CCCAGGTTAT TGCCTCATAC
    ACCGCCACCG GCCCCGAGCA GCTCACTCTC GCCCCTGGTC AGCTGATTTT GATCCGAAAA
    AAGAACCCAG GTGGATGGTG GGAAGGAGAG CTGCAAGCAC GTGGGAAAAA GCGCCAGATA
    GGCTGGTTCC CAGCTAATTA TGTAAAGCTT CTAAGCCCTG GGACGAGCAA AATCACTCCA
    ACAGAGCCAC CTAAGTCAAC AGCATTAGCG GCAGTGTGCC AGGTGATTGG GATGTACGAC
    TACACCGCGC AGAATGACGA TGAGCTGGCC TTCAACAAGG GCCAGATCAT CAACGTCCTC
    AACAAGGAGG ACCCTGACTG GTGGAAAGGA GAAGTCAATG GACAAGTGGG GCTCTTCCCA
    TCCAATTATG TGAAGCTGAC CACAGACATG GACCCAAGCC AGCAATGA

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

    CloneID OPc102337
    Clone ID Related Accession (Same CDS sequence) XM_024352352.1
    Accession Version XM_024352352.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3450bp)
    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 2018-03-19
    Organism Pan troglodytes(chimpanzee)
    Product intersectin-1 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036900.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pan troglodytes Annotation Release 105 Annotation Version :: 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGGCTCAGT TTCCAACACC TTTTGGTGGC AGCCTGGATA TCTGGGCCAT AACTGTAGAG 
    GAAAGAGCGA AGCATGATCA GCAGTTCCAT AGTTTAAAGC CAATATCTGG ATTCATTACT
    GGTGATCAAG CTAGAAACTT TTTTTTTCAA TCTGGGTTAC CTCAACCTGT TTTAGCACAG
    ATATGGGCAC TAGCTGACAT GAATAATGAT GGAAGAATGG ATCAAGTGGA GTTTTCCATA
    GCTATGAAAC TTATCAAACT GAAGCTACAA GGATATCAGC TACCCTCTGC ACTTCCCCCT
    GTCATGAAAC AGCAACCAGT TGCTATTTCT AGCGCACCAG CATTTGGTAT GGGAGGTATC
    GCCAGCATGC CACCGCTTAC AGCTGTTGCT CCAGTGCCAA TGGGATCCAT TCCAGTTGTT
    GGAATGTCTC CAACCCTAGT ATCTTCTGTT CCCACAGCAG CTGTGCCCCC CCTGACTAAC
    GGGGCTCCCC CTGTTATACA ACCTCTGCCT GCATTTGCTC ATCCTGCAGC CACATTGCCA
    AAGAGTTCTT CCTTTAGTAG ATCTGGTCCA GGGTCACAAC TAAACACTAA ATTACAAAAG
    GCACAGTCAT TTGATGTGGC CAGTGTCCCA CCAGTGGCAG AATGGGCTGT TCCTCAGTCA
    TCAAGACTGA AATACAGGCA ATTATTCAAT AGTCATGACA AAACTATGAG TGGACACTTA
    ACAGGTCCCC AAGCAAGAAC TATTCTTATG CAATCAAGTT TACCACAGGC TCAGCTGGCT
    TCAATATGGA ATCTTTCTGA CATTGATCAA GATGGAAAAC TTACAGCAGA AGAATTTATC
    CTGGCAATGC ACCTCATTGA TGTAGCTATG TCTGGCCAAC CACTGCCACC TGTCCTGCCT
    CCAGAATATA TTCCACCTTC TTTTAGAAGA GTTCGATCTG GCAGTGGTAT ATCTGTCATA
    AGCTCAACAT CTGTAGATCA GAGGCTACCA GAGGAACCAG TTTTAGAAGA TGAACAACAA
    CAATTAGAAA AGAAATTACC TGTAACGTTT GAAGATAAGA AGCGGGAGAA CTTTGAACGT
    GGCAACCTGG AACTGGAGAA ACGAAGGCAA GCTCTCCTGG AACAGCAGCG CAAGGAGCAG
    GAGCGCCTGG CCCAGCTGGA GCGGGCGGAG CAGGAGAGGA AGGAGCGTGA GCGCCAGGAG
    CAAGAGCGCA AAAGACAACT GGAACTGGAG AAGCAACTGG AAAAGCAGCG GGAGCTAGAA
    CGGCAGAGAG AGGAGGAGAG GAGGAAAGAA ATTGAGAGGC GAGAGGCTGC AAAACGGGAA
    CTTGAAAGGC AACGACAACT TGAGTGGGAA CGGAATCGAA GGCAAGAACT ACTAAATCAA
    AGAAACAAAG AACAAGAGGA CATAGTTGTA CTGAAAGCAA AGAAAAAGAC TTTGGAATTT
    GAATTAGAAG CTCTAAATGA TAAAAAGCAT CAACTAGAAG GGAAACTTCA AGATATCAGA
    TGTCGATTGA CCACCCAAAG GCAAGAAATT GAGAGCACAA ACAAATCTAG AGAGTTGAGA
    ATTGCCGAAA TCACCCATCT ACAGCAACAA TTACAGGAAT CTCAGCAAAT GCTTGGAAGA
    CTTATTCCAG AAAAACAGAT ACTCAATGAC CAATTAAAAC AAGTTCAACA GAACAGTTTG
    CACAGAGATT CACTTGTTAC ACTTAAAAGA GCCTTAGAAG CAAAAGAACT AGCTCGGCAG
    CAGCTACGAG ACCAACTGGA TGAAGTGGAG AAAGAAACTA GATCAAAACT ACAGGAGATT
    GATATTTTCA ATAATCAGCT GAAGGAACTA AGAGAAATAC ACAATAAGCA ACAACTCCAG
    AAGCAAAAGT CCATGGAGGC TGAACGACTG AAACAGAAAG AACAAGAACG AAAGATCATA
    GAATTAGAAA AACAAAAAGA AGAAGCCCAA AGACGAGCTC AGGAAAGGGA CAAGCAGTGG
    CTGGAGCATG TGCAGCAGGA GGACGAGCAT CAGAGACCAA GAAAACTCCA CGAAGAGGAA
    AAACTGAAAA GGGAGGAGAG TGTCAAAAAG AAGGATGGCG AGGAAAAAGG CAAACAGGAA
    GCACAAGACA AGCTGGGTCG GCTTTTCCAT CAACACCAAG AACCAGCTAA GCCAGCTGTC
    CAGGCACCCT GGTCCACTGC AGAAAAAGGT CCACTTACCA TTTCTGCACA GGAAAATGTA
    AAAGTGGTGT ATTACCGGGC ACTGTACCCC TTTGAATCCA GAAGCCATGA TGAAATCACT
    ATCCAGCCAG GAGACATAGT TATGGTTAAA GGGGAATGGG TGGATGAAAG CCAAACTGGA
    GAACCCGGCT GGCTTGGAGG AGAATTAAAA GGAAAGACAG GGTGGTTCCC TGCAAACTAT
    GCAGAGAAAA TCCCAGAAAA TGAGGTTCCT GCTCCAGTGA AACCAGTGAC TGATTCAACA
    TCTGCCCCTG CCCCCAAACT GGCCTTGCGT GAGACCCCCG CCCCTTTGGC AGTAACCTCT
    TCAGAGCCCT CCACGACCCC TAATAACTGG GCCGACTTCA GCTCCACGTG GCCCACCAGC
    ACGAATGAGA AACCAGAAAC GGATAACTGG GATGCATGGG CAGCCCAGCC CTCTCTCACC
    GTTCCAAGTG CCGGCCAGTT AAGGCAGAGG TCCGCCTTTA CTCCAGCCAC GGCCACTGGC
    TCCTCCCCGT CTCCTGTGCT AGGCCAGGGT GAAAAGGTGG AGGGGCTACA AGCTCAAGCC
    CTATATCCTT GGAGAGCCAA AAAAGACAAC CACTTAAATT TTAACAAAAA TGATGTCATC
    ACCGTCCTGG AACAGCAAGA CATGTGGTGG TTTGGAGAAG TTCAAGGTCA GAAGGGTTGG
    TTCCCCAAGT CTTACGTGAA ACTCATTTCA GGGCCCATAA GGAAGTCTAC AAGCATGGAT
    TCTGGTTCTT CAGAGAGTCC TGCTAGTCTA AAGCGAGTAG CCTCTCCAGC AGCCAAGCCG
    GTCGTTTCGG GAGAAGAAAT TGCCCAGGTT ATTGCCTCAT ACACCGCCAC CGGCCCCGAG
    CAGCTCACTC TCGCCCCTGG TCAGCTGATT TTGATCCGAA AAAAGAACCC AGGTGGATGG
    TGGGAAGGAG AGCTGCAAGC ACGTGGGAAA AAGCGCCAGA TAGGCTGGTT CCCAGCTAAT
    TATGTAAAGC TTCTAAGCCC TGGGACGAGC AAAATCACTC CAACAGAGCC ACCTAAGTCA
    ACAGCATTAG CGGCAGTGTG CCAGGTGATT GGGATGTACG ACTACACCGC GCAGAATGAC
    GATGAGCTGG CCTTCAACAA GGGCCAGATC ATCAACGTCC TCAACAAGGA GGACCCTGAC
    TGGTGGAAAG GAGAAGTCAA TGGACAAGTG GGGCTCTTCC CATCCAATTA TGTGAAGCTG
    ACCACAGACA TGGACCCAAG CCAGCAATGA

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

    RefSeq XP_024208120.1
    CDS347..3796
    Translation

    Target ORF information:

    RefSeq Version XM_024352352.1
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes intersectin 1 (ITSN1), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024352352.1

    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
    ATGGCTCAGT TTCCAACACC TTTTGGTGGC AGCCTGGATA TCTGGGCCAT AACTGTAGAG 
    GAAAGAGCGA AGCATGATCA GCAGTTCCAT AGTTTAAAGC CAATATCTGG ATTCATTACT
    GGTGATCAAG CTAGAAACTT TTTTTTTCAA TCTGGGTTAC CTCAACCTGT TTTAGCACAG
    ATATGGGCAC TAGCTGACAT GAATAATGAT GGAAGAATGG ATCAAGTGGA GTTTTCCATA
    GCTATGAAAC TTATCAAACT GAAGCTACAA GGATATCAGC TACCCTCTGC ACTTCCCCCT
    GTCATGAAAC AGCAACCAGT TGCTATTTCT AGCGCACCAG CATTTGGTAT GGGAGGTATC
    GCCAGCATGC CACCGCTTAC AGCTGTTGCT CCAGTGCCAA TGGGATCCAT TCCAGTTGTT
    GGAATGTCTC CAACCCTAGT ATCTTCTGTT CCCACAGCAG CTGTGCCCCC CCTGACTAAC
    GGGGCTCCCC CTGTTATACA ACCTCTGCCT GCATTTGCTC ATCCTGCAGC CACATTGCCA
    AAGAGTTCTT CCTTTAGTAG ATCTGGTCCA GGGTCACAAC TAAACACTAA ATTACAAAAG
    GCACAGTCAT TTGATGTGGC CAGTGTCCCA CCAGTGGCAG AATGGGCTGT TCCTCAGTCA
    TCAAGACTGA AATACAGGCA ATTATTCAAT AGTCATGACA AAACTATGAG TGGACACTTA
    ACAGGTCCCC AAGCAAGAAC TATTCTTATG CAATCAAGTT TACCACAGGC TCAGCTGGCT
    TCAATATGGA ATCTTTCTGA CATTGATCAA GATGGAAAAC TTACAGCAGA AGAATTTATC
    CTGGCAATGC ACCTCATTGA TGTAGCTATG TCTGGCCAAC CACTGCCACC TGTCCTGCCT
    CCAGAATATA TTCCACCTTC TTTTAGAAGA GTTCGATCTG GCAGTGGTAT ATCTGTCATA
    AGCTCAACAT CTGTAGATCA GAGGCTACCA GAGGAACCAG TTTTAGAAGA TGAACAACAA
    CAATTAGAAA AGAAATTACC TGTAACGTTT GAAGATAAGA AGCGGGAGAA CTTTGAACGT
    GGCAACCTGG AACTGGAGAA ACGAAGGCAA GCTCTCCTGG AACAGCAGCG CAAGGAGCAG
    GAGCGCCTGG CCCAGCTGGA GCGGGCGGAG CAGGAGAGGA AGGAGCGTGA GCGCCAGGAG
    CAAGAGCGCA AAAGACAACT GGAACTGGAG AAGCAACTGG AAAAGCAGCG GGAGCTAGAA
    CGGCAGAGAG AGGAGGAGAG GAGGAAAGAA ATTGAGAGGC GAGAGGCTGC AAAACGGGAA
    CTTGAAAGGC AACGACAACT TGAGTGGGAA CGGAATCGAA GGCAAGAACT ACTAAATCAA
    AGAAACAAAG AACAAGAGGA CATAGTTGTA CTGAAAGCAA AGAAAAAGAC TTTGGAATTT
    GAATTAGAAG CTCTAAATGA TAAAAAGCAT CAACTAGAAG GGAAACTTCA AGATATCAGA
    TGTCGATTGA CCACCCAAAG GCAAGAAATT GAGAGCACAA ACAAATCTAG AGAGTTGAGA
    ATTGCCGAAA TCACCCATCT ACAGCAACAA TTACAGGAAT CTCAGCAAAT GCTTGGAAGA
    CTTATTCCAG AAAAACAGAT ACTCAATGAC CAATTAAAAC AAGTTCAACA GAACAGTTTG
    CACAGAGATT CACTTGTTAC ACTTAAAAGA GCCTTAGAAG CAAAAGAACT AGCTCGGCAG
    CAGCTACGAG ACCAACTGGA TGAAGTGGAG AAAGAAACTA GATCAAAACT ACAGGAGATT
    GATATTTTCA ATAATCAGCT GAAGGAACTA AGAGAAATAC ACAATAAGCA ACAACTCCAG
    AAGCAAAAGT CCATGGAGGC TGAACGACTG AAACAGAAAG AACAAGAACG AAAGATCATA
    GAATTAGAAA AACAAAAAGA AGAAGCCCAA AGACGAGCTC AGGAAAGGGA CAAGCAGTGG
    CTGGAGCATG TGCAGCAGGA GGACGAGCAT CAGAGACCAA GAAAACTCCA CGAAGAGGAA
    AAACTGAAAA GGGAGGAGAG TGTCAAAAAG AAGGATGGCG AGGAAAAAGG CAAACAGGAA
    GCACAAGACA AGCTGGGTCG GCTTTTCCAT CAACACCAAG AACCAGCTAA GCCAGCTGTC
    CAGGCACCCT GGTCCACTGC AGAAAAAGGT CCACTTACCA TTTCTGCACA GGAAAATGTA
    AAAGTGGTGT ATTACCGGGC ACTGTACCCC TTTGAATCCA GAAGCCATGA TGAAATCACT
    ATCCAGCCAG GAGACATAGT TATGGTTAAA GGGGAATGGG TGGATGAAAG CCAAACTGGA
    GAACCCGGCT GGCTTGGAGG AGAATTAAAA GGAAAGACAG GGTGGTTCCC TGCAAACTAT
    GCAGAGAAAA TCCCAGAAAA TGAGGTTCCT GCTCCAGTGA AACCAGTGAC TGATTCAACA
    TCTGCCCCTG CCCCCAAACT GGCCTTGCGT GAGACCCCCG CCCCTTTGGC AGTAACCTCT
    TCAGAGCCCT CCACGACCCC TAATAACTGG GCCGACTTCA GCTCCACGTG GCCCACCAGC
    ACGAATGAGA AACCAGAAAC GGATAACTGG GATGCATGGG CAGCCCAGCC CTCTCTCACC
    GTTCCAAGTG CCGGCCAGTT AAGGCAGAGG TCCGCCTTTA CTCCAGCCAC GGCCACTGGC
    TCCTCCCCGT CTCCTGTGCT AGGCCAGGGT GAAAAGGTGG AGGGGCTACA AGCTCAAGCC
    CTATATCCTT GGAGAGCCAA AAAAGACAAC CACTTAAATT TTAACAAAAA TGATGTCATC
    ACCGTCCTGG AACAGCAAGA CATGTGGTGG TTTGGAGAAG TTCAAGGTCA GAAGGGTTGG
    TTCCCCAAGT CTTACGTGAA ACTCATTTCA GGGCCCATAA GGAAGTCTAC AAGCATGGAT
    TCTGGTTCTT CAGAGAGTCC TGCTAGTCTA AAGCGAGTAG CCTCTCCAGC AGCCAAGCCG
    GTCGTTTCGG GAGAAGAAAT TGCCCAGGTT ATTGCCTCAT ACACCGCCAC CGGCCCCGAG
    CAGCTCACTC TCGCCCCTGG TCAGCTGATT TTGATCCGAA AAAAGAACCC AGGTGGATGG
    TGGGAAGGAG AGCTGCAAGC ACGTGGGAAA AAGCGCCAGA TAGGCTGGTT CCCAGCTAAT
    TATGTAAAGC TTCTAAGCCC TGGGACGAGC AAAATCACTC CAACAGAGCC ACCTAAGTCA
    ACAGCATTAG CGGCAGTGTG CCAGGTGATT GGGATGTACG ACTACACCGC GCAGAATGAC
    GATGAGCTGG CCTTCAACAA GGGCCAGATC ATCAACGTCC TCAACAAGGA GGACCCTGAC
    TGGTGGAAAG GAGAAGTCAA TGGACAAGTG GGGCTCTTCC CATCCAATTA TGTGAAGCTG
    ACCACAGACA TGGACCCAAG CCAGCAATGA

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

    CloneID OPc102338
    Clone ID Related Accession (Same CDS sequence) XM_024352353.1
    Accession Version XM_024352353.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3435bp)
    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 2018-03-19
    Organism Pan troglodytes(chimpanzee)
    Product intersectin-1 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036900.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pan troglodytes Annotation Release 105 Annotation Version :: 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGGCTCAGT TTCCAACACC TTTTGGTGGC AGCCTGGATA TCTGGGCCAT AACTGTAGAG 
    GAAAGAGCGA AGCATGATCA GCAGTTCCAT AGTTTAAAGC CAATATCTGG ATTCATTACT
    GGTGATCAAG CTAGAAACTT TTTTTTTCAA TCTGGGTTAC CTCAACCTGT TTTAGCACAG
    ATATGGGCAC TAGCTGACAT GAATAATGAT GGAAGAATGG ATCAAGTGGA GTTTTCCATA
    GCTATGAAAC TTATCAAACT GAAGCTACAA GGATATCAGC TACCCTCTGC ACTTCCCCCT
    GTCATGAAAC AGCAACCAGT TGCTATTTCT AGCGCACCAG CATTTGGTAT GGGAGGTATC
    GCCAGCATGC CACCGCTTAC AGCTGTTGCT CCAGTGCCAA TGGGATCCAT TCCAGTTGTT
    GGAATGTCTC CAACCCTAGT ATCTTCTGTT CCCACAGCAG CTGTGCCCCC CCTGACTAAC
    GGGGCTCCCC CTGTTATACA ACCTCTGCCT GCATTTGCTC ATCCTGCAGC CACATTGCCA
    AAGAGTTCTT CCTTTAGTAG ATCTGGTCCA GGGTCACAAC TAAACACTAA ATTACAAAAG
    GCACAGTCAT TTGATGTGGC CAGTGTCCCA CCAGTGGCAG AATGGGCTGT TCCTCAGTCA
    TCAAGACTGA AATACAGGCA ATTATTCAAT AGTCATGACA AAACTATGAG TGGACACTTA
    ACAGGTCCCC AAGCAAGAAC TATTCTTATG CAATCAAGTT TACCACAGGC TCAGCTGGCT
    TCAATATGGA ATCTTTCTGA CATTGATCAA GATGGAAAAC TTACAGCAGA AGAATTTATC
    CTGGCAATGC ACCTCATTGA TGTAGCTATG TCTGGCCAAC CACTGCCACC TGTCCTGCCT
    CCAGAATATA TTCCACCTTC TTTTAGAAGA GTTCGATCTG GCAGTGGTAT ATCTGTCATA
    AGCTCAACAT CTGTAGATCA GAGGCTACCA GAGGAACCAG TTTTAGAAGA TGAACAACAA
    CAATTAGAAA AGAAATTACC TGTAACGTTT GAAGATAAGA AGCGGGAGAA CTTTGAACGT
    GGCAACCTGG AACTGGAGAA ACGAAGGCAA GCTCTCCTGG AACAGCAGCG CAAGGAGCAG
    GAGCGCCTGG CCCAGCTGGA GCGGGCGGAG CAGGAGAGGA AGGAGCGTGA GCGCCAGGAG
    CAAGAGCGCA AAAGACAACT GGAACTGGAG AAGCAACTGG AAAAGCAGCG GGAGCTAGAA
    CGGCAGAGAG AGGAGGAGAG GAGGAAAGAA ATTGAGAGGC GAGAGGCTGC AAAACGGGAA
    CTTGAAAGGC AACGACAACT TGAGTGGGAA CGGAATCGAA GGCAAGAACT ACTAAATCAA
    AGAAACAAAG AACAAGAGGA CATAGTTGTA CTGAAAGCAA AGAAAAAGAC TTTGGAATTT
    GAATTAGAAG CTCTAAATGA TAAAAAGCAT CAACTAGAAG GGAAACTTCA AGATATCAGA
    TGTCGATTGA CCACCCAAAG GCAAGAAATT GAGAGCACAA ACAAATCTAG AGAGTTGAGA
    ATTGCCGAAA TCACCCATCT ACAGCAACAA TTACAGGAAT CTCAGCAAAT GCTTGGAAGA
    CTTATTCCAG AAAAACAGAT ACTCAATGAC CAATTAAAAC AAGTTCAACA GAACAGTTTG
    CACAGAGATT CACTTGTTAC ACTTAAAAGA GCCTTAGAAG CAAAAGAACT AGCTCGGCAG
    CAGCTACGAG ACCAACTGGA TGAAGTGGAG AAAGAAACTA GATCAAAACT ACAGGAGATT
    GATATTTTCA ATAATCAGCT GAAGGAACTA AGAGAAATAC ACAATAAGCA ACAACTCCAG
    AAGCAAAAGT CCATGGAGGC TGAACGACTG AAACAGAAAG AACAAGAACG AAAGATCATA
    GAATTAGAAA AACAAAAAGA AGAAGCCCAA AGACGAGCTC AGGAAAGGGA CAAGCAGTGG
    CTGGAGCATG TGCAGCAGGA GGACGAGCAT CAGAGACCAA GAAAACTCCA CGAAGAGGAA
    AAACTGAAAA GGGAGGAGAG TGTCAAAAAG AAGGATGGCG AGGAAAAAGG CAAACAGGAA
    GCACAAGACA AGCTGGGTCG GCTTTTCCAT CAACACCAAG AACCAGCTAA GCCAGCTGTC
    CAGGCACCCT GGTCCACTGC AGAAAAAGGT CCACTTACCA TTTCTGCACA GGAAAATGTA
    AAAGTGGTGT ATTACCGGGC ACTGTACCCC TTTGAATCCA GAAGCCATGA TGAAATCACT
    ATCCAGCCAG GAGACATAGT TATGGTGGAT GAAAGCCAAA CTGGAGAACC CGGCTGGCTT
    GGAGGAGAAT TAAAAGGAAA GACAGGGTGG TTCCCTGCAA ACTATGCAGA GAAAATCCCA
    GAAAATGAGG TTCCTGCTCC AGTGAAACCA GTGACTGATT CAACATCTGC CCCTGCCCCC
    AAACTGGCCT TGCGTGAGAC CCCCGCCCCT TTGGCAGTAA CCTCTTCAGA GCCCTCCACG
    ACCCCTAATA ACTGGGCCGA CTTCAGCTCC ACGTGGCCCA CCAGCACGAA TGAGAAACCA
    GAAACGGATA ACTGGGATGC ATGGGCAGCC CAGCCCTCTC TCACCGTTCC AAGTGCCGGC
    CAGTTAAGGC AGAGGTCCGC CTTTACTCCA GCCACGGCCA CTGGCTCCTC CCCGTCTCCT
    GTGCTAGGCC AGGGTGAAAA GGTGGAGGGG CTACAAGCTC AAGCCCTATA TCCTTGGAGA
    GCCAAAAAAG ACAACCACTT AAATTTTAAC AAAAATGATG TCATCACCGT CCTGGAACAG
    CAAGACATGT GGTGGTTTGG AGAAGTTCAA GGTCAGAAGG GTTGGTTCCC CAAGTCTTAC
    GTGAAACTCA TTTCAGGGCC CATAAGGAAG TCTACAAGCA TGGATTCTGG TTCTTCAGAG
    AGTCCTGCTA GTCTAAAGCG AGTAGCCTCT CCAGCAGCCA AGCCGGTCGT TTCGGGAGAA
    GAAATTGCCC AGGTTATTGC CTCATACACC GCCACCGGCC CCGAGCAGCT CACTCTCGCC
    CCTGGTCAGC TGATTTTGAT CCGAAAAAAG AACCCAGGTG GATGGTGGGA AGGAGAGCTG
    CAAGCACGTG GGAAAAAGCG CCAGATAGGC TGGTTCCCAG CTAATTATGT AAAGCTTCTA
    AGCCCTGGGA CGAGCAAAAT CACTCCAACA GAGCCACCTA AGTCAACAGC ATTAGCGGCA
    GTGTGCCAGG TGATTGGGAT GTACGACTAC ACCGCGCAGA ATGACGATGA GCTGGCCTTC
    AACAAGGGCC AGATCATCAA CGTCCTCAAC AAGGAGGACC CTGACTGGTG GAAAGGAGAA
    GTCAATGGAC AAGTGGGGCT CTTCCCATCC AATTATGTGA AGCTGACCAC AGACATGGAC
    CCAAGCCAGC AATGA

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

    RefSeq XP_024208121.1
    CDS347..3781
    Translation

    Target ORF information:

    RefSeq Version XM_024352353.1
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes intersectin 1 (ITSN1), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024352353.1

    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
    ATGGCTCAGT TTCCAACACC TTTTGGTGGC AGCCTGGATA TCTGGGCCAT AACTGTAGAG 
    GAAAGAGCGA AGCATGATCA GCAGTTCCAT AGTTTAAAGC CAATATCTGG ATTCATTACT
    GGTGATCAAG CTAGAAACTT TTTTTTTCAA TCTGGGTTAC CTCAACCTGT TTTAGCACAG
    ATATGGGCAC TAGCTGACAT GAATAATGAT GGAAGAATGG ATCAAGTGGA GTTTTCCATA
    GCTATGAAAC TTATCAAACT GAAGCTACAA GGATATCAGC TACCCTCTGC ACTTCCCCCT
    GTCATGAAAC AGCAACCAGT TGCTATTTCT AGCGCACCAG CATTTGGTAT GGGAGGTATC
    GCCAGCATGC CACCGCTTAC AGCTGTTGCT CCAGTGCCAA TGGGATCCAT TCCAGTTGTT
    GGAATGTCTC CAACCCTAGT ATCTTCTGTT CCCACAGCAG CTGTGCCCCC CCTGACTAAC
    GGGGCTCCCC CTGTTATACA ACCTCTGCCT GCATTTGCTC ATCCTGCAGC CACATTGCCA
    AAGAGTTCTT CCTTTAGTAG ATCTGGTCCA GGGTCACAAC TAAACACTAA ATTACAAAAG
    GCACAGTCAT TTGATGTGGC CAGTGTCCCA CCAGTGGCAG AATGGGCTGT TCCTCAGTCA
    TCAAGACTGA AATACAGGCA ATTATTCAAT AGTCATGACA AAACTATGAG TGGACACTTA
    ACAGGTCCCC AAGCAAGAAC TATTCTTATG CAATCAAGTT TACCACAGGC TCAGCTGGCT
    TCAATATGGA ATCTTTCTGA CATTGATCAA GATGGAAAAC TTACAGCAGA AGAATTTATC
    CTGGCAATGC ACCTCATTGA TGTAGCTATG TCTGGCCAAC CACTGCCACC TGTCCTGCCT
    CCAGAATATA TTCCACCTTC TTTTAGAAGA GTTCGATCTG GCAGTGGTAT ATCTGTCATA
    AGCTCAACAT CTGTAGATCA GAGGCTACCA GAGGAACCAG TTTTAGAAGA TGAACAACAA
    CAATTAGAAA AGAAATTACC TGTAACGTTT GAAGATAAGA AGCGGGAGAA CTTTGAACGT
    GGCAACCTGG AACTGGAGAA ACGAAGGCAA GCTCTCCTGG AACAGCAGCG CAAGGAGCAG
    GAGCGCCTGG CCCAGCTGGA GCGGGCGGAG CAGGAGAGGA AGGAGCGTGA GCGCCAGGAG
    CAAGAGCGCA AAAGACAACT GGAACTGGAG AAGCAACTGG AAAAGCAGCG GGAGCTAGAA
    CGGCAGAGAG AGGAGGAGAG GAGGAAAGAA ATTGAGAGGC GAGAGGCTGC AAAACGGGAA
    CTTGAAAGGC AACGACAACT TGAGTGGGAA CGGAATCGAA GGCAAGAACT ACTAAATCAA
    AGAAACAAAG AACAAGAGGA CATAGTTGTA CTGAAAGCAA AGAAAAAGAC TTTGGAATTT
    GAATTAGAAG CTCTAAATGA TAAAAAGCAT CAACTAGAAG GGAAACTTCA AGATATCAGA
    TGTCGATTGA CCACCCAAAG GCAAGAAATT GAGAGCACAA ACAAATCTAG AGAGTTGAGA
    ATTGCCGAAA TCACCCATCT ACAGCAACAA TTACAGGAAT CTCAGCAAAT GCTTGGAAGA
    CTTATTCCAG AAAAACAGAT ACTCAATGAC CAATTAAAAC AAGTTCAACA GAACAGTTTG
    CACAGAGATT CACTTGTTAC ACTTAAAAGA GCCTTAGAAG CAAAAGAACT AGCTCGGCAG
    CAGCTACGAG ACCAACTGGA TGAAGTGGAG AAAGAAACTA GATCAAAACT ACAGGAGATT
    GATATTTTCA ATAATCAGCT GAAGGAACTA AGAGAAATAC ACAATAAGCA ACAACTCCAG
    AAGCAAAAGT CCATGGAGGC TGAACGACTG AAACAGAAAG AACAAGAACG AAAGATCATA
    GAATTAGAAA AACAAAAAGA AGAAGCCCAA AGACGAGCTC AGGAAAGGGA CAAGCAGTGG
    CTGGAGCATG TGCAGCAGGA GGACGAGCAT CAGAGACCAA GAAAACTCCA CGAAGAGGAA
    AAACTGAAAA GGGAGGAGAG TGTCAAAAAG AAGGATGGCG AGGAAAAAGG CAAACAGGAA
    GCACAAGACA AGCTGGGTCG GCTTTTCCAT CAACACCAAG AACCAGCTAA GCCAGCTGTC
    CAGGCACCCT GGTCCACTGC AGAAAAAGGT CCACTTACCA TTTCTGCACA GGAAAATGTA
    AAAGTGGTGT ATTACCGGGC ACTGTACCCC TTTGAATCCA GAAGCCATGA TGAAATCACT
    ATCCAGCCAG GAGACATAGT TATGGTGGAT GAAAGCCAAA CTGGAGAACC CGGCTGGCTT
    GGAGGAGAAT TAAAAGGAAA GACAGGGTGG TTCCCTGCAA ACTATGCAGA GAAAATCCCA
    GAAAATGAGG TTCCTGCTCC AGTGAAACCA GTGACTGATT CAACATCTGC CCCTGCCCCC
    AAACTGGCCT TGCGTGAGAC CCCCGCCCCT TTGGCAGTAA CCTCTTCAGA GCCCTCCACG
    ACCCCTAATA ACTGGGCCGA CTTCAGCTCC ACGTGGCCCA CCAGCACGAA TGAGAAACCA
    GAAACGGATA ACTGGGATGC ATGGGCAGCC CAGCCCTCTC TCACCGTTCC AAGTGCCGGC
    CAGTTAAGGC AGAGGTCCGC CTTTACTCCA GCCACGGCCA CTGGCTCCTC CCCGTCTCCT
    GTGCTAGGCC AGGGTGAAAA GGTGGAGGGG CTACAAGCTC AAGCCCTATA TCCTTGGAGA
    GCCAAAAAAG ACAACCACTT AAATTTTAAC AAAAATGATG TCATCACCGT CCTGGAACAG
    CAAGACATGT GGTGGTTTGG AGAAGTTCAA GGTCAGAAGG GTTGGTTCCC CAAGTCTTAC
    GTGAAACTCA TTTCAGGGCC CATAAGGAAG TCTACAAGCA TGGATTCTGG TTCTTCAGAG
    AGTCCTGCTA GTCTAAAGCG AGTAGCCTCT CCAGCAGCCA AGCCGGTCGT TTCGGGAGAA
    GAAATTGCCC AGGTTATTGC CTCATACACC GCCACCGGCC CCGAGCAGCT CACTCTCGCC
    CCTGGTCAGC TGATTTTGAT CCGAAAAAAG AACCCAGGTG GATGGTGGGA AGGAGAGCTG
    CAAGCACGTG GGAAAAAGCG CCAGATAGGC TGGTTCCCAG CTAATTATGT AAAGCTTCTA
    AGCCCTGGGA CGAGCAAAAT CACTCCAACA GAGCCACCTA AGTCAACAGC ATTAGCGGCA
    GTGTGCCAGG TGATTGGGAT GTACGACTAC ACCGCGCAGA ATGACGATGA GCTGGCCTTC
    AACAAGGGCC AGATCATCAA CGTCCTCAAC AAGGAGGACC CTGACTGGTG GAAAGGAGAA
    GTCAATGGAC AAGTGGGGCT CTTCCCATCC AATTATGTGA AGCTGACCAC AGACATGGAC
    CCAAGCCAGC AATGA

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

    CloneID OPc27798
    Clone ID Related Accession (Same CDS sequence) XM_003949152.3 , XM_016947147.2
    Accession Version XM_003949152.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3663bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-01
    Organism Pan troglodytes(chimpanzee)
    Product intersectin-1 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_006488.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 2, 2016 this sequence version replaced XM_003949152.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Pan troglodytes Annotation Release 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    ATGGCTCAGT TTCCAACACC TTTTGGTGGC AGCCTGGATA TCTGGGCCAT AACTGTAGAG 
    GAAAGAGCGA AGCATGATCA GCAGTTCCAT AGTTTAAAGC CAATATCTGG ATTCATTACT
    GGTGATCAAG CTAGAAACTT TTTTTTTCAA TCTGGGTTAC CTCAACCTGT TTTAGCACAG
    ATATGGGCAC TAGCTGACAT GAATAATGAT GGAAGAATGG ATCAAGTGGA GTTTTCCATA
    GCTATGAAAC TTATCAAACT GAAGCTACAA GGATATCAGC TACCCTCTGC ACTTCCCCCT
    GTCATGAAAC AGCAACCAGT TGCTATTTCT AGCGCACCAG CATTTGGTAT GGGAGGTATC
    GCCAGCATGC CACCGCTTAC AGCTGTTGCT CCAGTGCCAA TGGGATCCAT TCCAGTTGTT
    GGAATGTCTC CAACCCTAGT ATCTTCTGTT CCCACAGCAG CTGTGCCCCC CCTGACTAAC
    GGGGCTCCCC CTGTTATACA ACCTCTGCCT GCATTTGCTC ATCCTGCAGC CACATTGCCA
    AAGAGTTCTT CCTTTAGTAG ATCTGGTCCA GGGTCACAAC TAAACACTAA ATTACAAAAG
    GCACAGTCAT TTGATGTGGC CAGTGTCCCA CCAGTGGCAG AATGGGCTGT TCCTCAGTCA
    TCAAGACTGA AATACAGGCA ATTATTCAAT AGTCATGACA AAACTATGAG TGGACACTTA
    ACAGGTCCCC AAGCAAGAAC TATTCTTATG CAATCAAGTT TACCACAGGC TCAGCTGGCT
    TCAATATGGA ATCTTTCTGA CATTGATCAA GATGGAAAAC TTACAGCAGA AGAATTTATC
    CTGGCAATGC ACCTCATTGA TGTAGCTATG TCTGGCCAAC CACTGCCACC TGTCCTGCCT
    CCAGAATATA TTCCACCTTC TTTTAGAAGA GTTCGATCTG GCAGTGGTAT ATCTGTCATA
    AGCTCAACAT CTGTAGATCA GAGGCTACCA GAGGAACCAG TTTTAGAAGA TGAACAACAA
    CAATTAGAAA AGAAATTACC TGTAACGTTT GAAGATAAGA AGCGGGAGAA CTTTGAACGT
    GGCAACCTGG AACTGGAGAA ACGAAGGCAA GCTCTCCTGG AACAGCAGCG CAAGGAGCAG
    GAGCGCCTGG CCCAGCTGGA GCGGGCGGAG CAGGAGAGGA AGGAGCGTGA GCGCCAGGAG
    CAAGAGCGCA AAAGACAACT GGAACTGGAG AAGCAACTGG AAAAGCAGCG GGAGCTAGAA
    CGGCAGAGAG AGGAGGAGAG GAGGAAAGAA ATTGAGAGGC GAGAGGCTGC AAAACGGGAA
    CTTGAAAGGC AACGACAACT TGAGTGGGAA CGGAATCGAA GGCAAGAACT ACTAAATCAA
    AGAAACAAAG AACAAGAGGA CATAGTTGTA CTGAAAGCAA AGAAAAAGAC TTTGGAATTT
    GAATTAGAAG CTCTAAATGA TAAAAAGCAT CAACTAGAAG GGAAACTTCA AGATATCAGA
    TGTCGATTGA CCACCCAAAG GCAAGAAATT GAGAGCACAA ACAAATCTAG AGAGTTGAGA
    ATTGCCGAAA TCACCCATCT ACAGCAACAA TTACAGGAAT CTCAGCAAAT GCTTGGAAGA
    CTTATTCCAG AAAAACAGAT ACTCAATGAC CAATTAAAAC AAGTTCAACA GAACAGTTTG
    CACAGAGATT CACTTGTTAC ACTTAAAAGA GCCTTAGAAG CAAAAGAACT AGCTCGGCAG
    CAGCTACGAG ACCAACTGGA TGAAGTGGAG AAAGAAACTA GATCAAAACT ACAGGAGATT
    GATATTTTCA ATAATCAGCT GAAGGAACTA AGAGAAATAC ACAATAAGCA ACAACTCCAG
    AAGCAAAAGT CCATGGAGGC TGAACGACTG AAACAGAAAG AACAAGAACG AAAGATCATA
    GAATTAGAAA AACAAAAAGA AGAAGCCCAA AGACGAGCTC AGGAAAGGGA CAAGCAGTGG
    CTGGAGCATG TGCAGCAGGA GGACGAGCAT CAGAGACCAA GAAAACTCCA CGAAGAGGAA
    AAACTGAAAA GGGAGGAGAG TGTCAAAAAG AAGGATGGCG AGGAAAAAGG CAAACAGGAA
    GCACAAGACA AGCTGGGTCG GCTTTTCCAT CAACACCAAG AACCAGCTAA GCCAGCTGTC
    CAGGCACCCT GGTCCACTGC AGAAAAAGGT CCACTTACCA TTTCTGCACA GGAAAATGTA
    AAAGTGGTGT ATTACCGGGC ACTGTACCCC TTTGAATCCA GAAGCCATGA TGAAATCACT
    ATCCAGCCAG GAGACATAGT TATGGTTAAA GGGGAATGGG TGGATGAAAG CCAAACTGGA
    GAACCCGGCT GGCTTGGAGG AGAATTAAAA GGAAAGACAG GGTGGTTCCC TGCAAACTAT
    GCAGAGAAAA TCCCAGAAAA TGAGGTTCCT GCTCCAGTGA AACCAGTGAC TGATTCAACA
    TCTGCCCCTG CCCCCAAACT GGCCTTGCGT GAGACCCCCG CCCCTTTGGC AGTAACCTCT
    TCAGAGCCCT CCACGACCCC TAATAACTGG GCCGACTTCA GCTCCACGTG GCCCACCAGC
    ACGAATGAGA AACCAGAAAC GGATAACTGG GATGCATGGG CAGCCCAGCC CTCTCTCACC
    GTTCCAAGTG CCGGCCAGTT AAGGCAGAGG TCCGCCTTTA CTCCAGCCAC GGCCACTGGC
    TCCTCCCCGT CTCCTGTGCT AGGCCAGGGT GAAAAGGTGG AGGGGCTACA AGCTCAAGCC
    CTATATCCTT GGAGAGCCAA AAAAGACAAC CACTTAAATT TTAACAAAAA TGATGTCATC
    ACCGTCCTGG AACAGCAAGA CATGTGGTGG TTTGGAGAAG TTCAAGGTCA GAAGGGTTGG
    TTCCCCAAGT CTTACGTGAA ACTCATTTCA GGGCCCATAA GGAAGTCTAC AAGCATGGAT
    TCTGGTTCTT CAGAGAGTCC TGCTAGTCTA AAGCGAGTAG CCTCTCCAGC AGCCAAGCCG
    GTCGTTTCGG GAGAAGAATT TATTGCCATG TACACTTACG AGAGTTCTGA GCAAGGAGAT
    TTAACCTTTC AGCAAGGGGA TGTGATTTTG GTTACCAAGA AAGATGGTGA CTGGTGGACA
    GGAACAGTGG GCGACAAGGC CGGAGTCTTC CCTTCTAACT ATGTGAGGCT TAAAGATTCA
    GAGGGCTCTG GAACTGCTGG GAAAACAGGG AGTTTAGGAA AAAAACCTGA AATTGCCCAG
    GTTATTGCCT CATACACCGC CACCGGCCCC GAGCAGCTCA CTCTCGCCCC TGGTCAGCTG
    ATTTTGATCC GAAAAAAGAA CCCAGGTGGA TGGTGGGAAG GAGAGCTGCA AGCACGTGGG
    AAAAAGCGCC AGATAGGCTG GTTCCCAGCT AATTATGTAA AGCTTCTAAG CCCTGGGACG
    AGCAAAATCA CTCCAACAGA GCCACCTAAG TCAACAGCAT TAGCGGCAGT GTGCCAGGTG
    ATTGGGATGT ACGACTACAC CGCGCAGAAT GACGATGAGC TGGCCTTCAA CAAGGGCCAG
    ATCATCAACG TCCTCAACAA GGAGGACCCT GACTGGTGGA AAGGAGAAGT CAATGGACAA
    GTGGGGCTCT TCCCATCCAA TTATGTGAAG CTGACCACAG ACATGGACCC AAGCCAGCAA
    TGA

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

    RefSeq XP_003949201.1
    CDS318..3980
    Translation

    Target ORF information:

    RefSeq Version XM_003949152.3
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes intersectin 1 (ITSN1), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_003949152.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    ATGGCTCAGT TTCCAACACC TTTTGGTGGC AGCCTGGATA TCTGGGCCAT AACTGTAGAG 
    GAAAGAGCGA AGCATGATCA GCAGTTCCAT AGTTTAAAGC CAATATCTGG ATTCATTACT
    GGTGATCAAG CTAGAAACTT TTTTTTTCAA TCTGGGTTAC CTCAACCTGT TTTAGCACAG
    ATATGGGCAC TAGCTGACAT GAATAATGAT GGAAGAATGG ATCAAGTGGA GTTTTCCATA
    GCTATGAAAC TTATCAAACT GAAGCTACAA GGATATCAGC TACCCTCTGC ACTTCCCCCT
    GTCATGAAAC AGCAACCAGT TGCTATTTCT AGCGCACCAG CATTTGGTAT GGGAGGTATC
    GCCAGCATGC CACCGCTTAC AGCTGTTGCT CCAGTGCCAA TGGGATCCAT TCCAGTTGTT
    GGAATGTCTC CAACCCTAGT ATCTTCTGTT CCCACAGCAG CTGTGCCCCC CCTGACTAAC
    GGGGCTCCCC CTGTTATACA ACCTCTGCCT GCATTTGCTC ATCCTGCAGC CACATTGCCA
    AAGAGTTCTT CCTTTAGTAG ATCTGGTCCA GGGTCACAAC TAAACACTAA ATTACAAAAG
    GCACAGTCAT TTGATGTGGC CAGTGTCCCA CCAGTGGCAG AATGGGCTGT TCCTCAGTCA
    TCAAGACTGA AATACAGGCA ATTATTCAAT AGTCATGACA AAACTATGAG TGGACACTTA
    ACAGGTCCCC AAGCAAGAAC TATTCTTATG CAATCAAGTT TACCACAGGC TCAGCTGGCT
    TCAATATGGA ATCTTTCTGA CATTGATCAA GATGGAAAAC TTACAGCAGA AGAATTTATC
    CTGGCAATGC ACCTCATTGA TGTAGCTATG TCTGGCCAAC CACTGCCACC TGTCCTGCCT
    CCAGAATATA TTCCACCTTC TTTTAGAAGA GTTCGATCTG GCAGTGGTAT ATCTGTCATA
    AGCTCAACAT CTGTAGATCA GAGGCTACCA GAGGAACCAG TTTTAGAAGA TGAACAACAA
    CAATTAGAAA AGAAATTACC TGTAACGTTT GAAGATAAGA AGCGGGAGAA CTTTGAACGT
    GGCAACCTGG AACTGGAGAA ACGAAGGCAA GCTCTCCTGG AACAGCAGCG CAAGGAGCAG
    GAGCGCCTGG CCCAGCTGGA GCGGGCGGAG CAGGAGAGGA AGGAGCGTGA GCGCCAGGAG
    CAAGAGCGCA AAAGACAACT GGAACTGGAG AAGCAACTGG AAAAGCAGCG GGAGCTAGAA
    CGGCAGAGAG AGGAGGAGAG GAGGAAAGAA ATTGAGAGGC GAGAGGCTGC AAAACGGGAA
    CTTGAAAGGC AACGACAACT TGAGTGGGAA CGGAATCGAA GGCAAGAACT ACTAAATCAA
    AGAAACAAAG AACAAGAGGA CATAGTTGTA CTGAAAGCAA AGAAAAAGAC TTTGGAATTT
    GAATTAGAAG CTCTAAATGA TAAAAAGCAT CAACTAGAAG GGAAACTTCA AGATATCAGA
    TGTCGATTGA CCACCCAAAG GCAAGAAATT GAGAGCACAA ACAAATCTAG AGAGTTGAGA
    ATTGCCGAAA TCACCCATCT ACAGCAACAA TTACAGGAAT CTCAGCAAAT GCTTGGAAGA
    CTTATTCCAG AAAAACAGAT ACTCAATGAC CAATTAAAAC AAGTTCAACA GAACAGTTTG
    CACAGAGATT CACTTGTTAC ACTTAAAAGA GCCTTAGAAG CAAAAGAACT AGCTCGGCAG
    CAGCTACGAG ACCAACTGGA TGAAGTGGAG AAAGAAACTA GATCAAAACT ACAGGAGATT
    GATATTTTCA ATAATCAGCT GAAGGAACTA AGAGAAATAC ACAATAAGCA ACAACTCCAG
    AAGCAAAAGT CCATGGAGGC TGAACGACTG AAACAGAAAG AACAAGAACG AAAGATCATA
    GAATTAGAAA AACAAAAAGA AGAAGCCCAA AGACGAGCTC AGGAAAGGGA CAAGCAGTGG
    CTGGAGCATG TGCAGCAGGA GGACGAGCAT CAGAGACCAA GAAAACTCCA CGAAGAGGAA
    AAACTGAAAA GGGAGGAGAG TGTCAAAAAG AAGGATGGCG AGGAAAAAGG CAAACAGGAA
    GCACAAGACA AGCTGGGTCG GCTTTTCCAT CAACACCAAG AACCAGCTAA GCCAGCTGTC
    CAGGCACCCT GGTCCACTGC AGAAAAAGGT CCACTTACCA TTTCTGCACA GGAAAATGTA
    AAAGTGGTGT ATTACCGGGC ACTGTACCCC TTTGAATCCA GAAGCCATGA TGAAATCACT
    ATCCAGCCAG GAGACATAGT TATGGTTAAA GGGGAATGGG TGGATGAAAG CCAAACTGGA
    GAACCCGGCT GGCTTGGAGG AGAATTAAAA GGAAAGACAG GGTGGTTCCC TGCAAACTAT
    GCAGAGAAAA TCCCAGAAAA TGAGGTTCCT GCTCCAGTGA AACCAGTGAC TGATTCAACA
    TCTGCCCCTG CCCCCAAACT GGCCTTGCGT GAGACCCCCG CCCCTTTGGC AGTAACCTCT
    TCAGAGCCCT CCACGACCCC TAATAACTGG GCCGACTTCA GCTCCACGTG GCCCACCAGC
    ACGAATGAGA AACCAGAAAC GGATAACTGG GATGCATGGG CAGCCCAGCC CTCTCTCACC
    GTTCCAAGTG CCGGCCAGTT AAGGCAGAGG TCCGCCTTTA CTCCAGCCAC GGCCACTGGC
    TCCTCCCCGT CTCCTGTGCT AGGCCAGGGT GAAAAGGTGG AGGGGCTACA AGCTCAAGCC
    CTATATCCTT GGAGAGCCAA AAAAGACAAC CACTTAAATT TTAACAAAAA TGATGTCATC
    ACCGTCCTGG AACAGCAAGA CATGTGGTGG TTTGGAGAAG TTCAAGGTCA GAAGGGTTGG
    TTCCCCAAGT CTTACGTGAA ACTCATTTCA GGGCCCATAA GGAAGTCTAC AAGCATGGAT
    TCTGGTTCTT CAGAGAGTCC TGCTAGTCTA AAGCGAGTAG CCTCTCCAGC AGCCAAGCCG
    GTCGTTTCGG GAGAAGAATT TATTGCCATG TACACTTACG AGAGTTCTGA GCAAGGAGAT
    TTAACCTTTC AGCAAGGGGA TGTGATTTTG GTTACCAAGA AAGATGGTGA CTGGTGGACA
    GGAACAGTGG GCGACAAGGC CGGAGTCTTC CCTTCTAACT ATGTGAGGCT TAAAGATTCA
    GAGGGCTCTG GAACTGCTGG GAAAACAGGG AGTTTAGGAA AAAAACCTGA AATTGCCCAG
    GTTATTGCCT CATACACCGC CACCGGCCCC GAGCAGCTCA CTCTCGCCCC TGGTCAGCTG
    ATTTTGATCC GAAAAAAGAA CCCAGGTGGA TGGTGGGAAG GAGAGCTGCA AGCACGTGGG
    AAAAAGCGCC AGATAGGCTG GTTCCCAGCT AATTATGTAA AGCTTCTAAG CCCTGGGACG
    AGCAAAATCA CTCCAACAGA GCCACCTAAG TCAACAGCAT TAGCGGCAGT GTGCCAGGTG
    ATTGGGATGT ACGACTACAC CGCGCAGAAT GACGATGAGC TGGCCTTCAA CAAGGGCCAG
    ATCATCAACG TCCTCAACAA GGAGGACCCT GACTGGTGGA AAGGAGAAGT CAATGGACAA
    GTGGGGCTCT TCCCATCCAA TTATGTGAAG CTGACCACAG ACATGGACCC AAGCCAGCAA
    TGA

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

    CloneID OPc27798
    Clone ID Related Accession (Same CDS sequence) XM_003949152.3 , XM_016947147.2
    Accession Version XM_016947147.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3663bp)
    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 2018-03-19
    Organism Pan troglodytes(chimpanzee)
    Product intersectin-1 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036900.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 20, 2018 this sequence version replaced XM_016947147.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pan troglodytes Annotation Release 105 Annotation Version :: 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    ATGGCTCAGT TTCCAACACC TTTTGGTGGC AGCCTGGATA TCTGGGCCAT AACTGTAGAG 
    GAAAGAGCGA AGCATGATCA GCAGTTCCAT AGTTTAAAGC CAATATCTGG ATTCATTACT
    GGTGATCAAG CTAGAAACTT TTTTTTTCAA TCTGGGTTAC CTCAACCTGT TTTAGCACAG
    ATATGGGCAC TAGCTGACAT GAATAATGAT GGAAGAATGG ATCAAGTGGA GTTTTCCATA
    GCTATGAAAC TTATCAAACT GAAGCTACAA GGATATCAGC TACCCTCTGC ACTTCCCCCT
    GTCATGAAAC AGCAACCAGT TGCTATTTCT AGCGCACCAG CATTTGGTAT GGGAGGTATC
    GCCAGCATGC CACCGCTTAC AGCTGTTGCT CCAGTGCCAA TGGGATCCAT TCCAGTTGTT
    GGAATGTCTC CAACCCTAGT ATCTTCTGTT CCCACAGCAG CTGTGCCCCC CCTGACTAAC
    GGGGCTCCCC CTGTTATACA ACCTCTGCCT GCATTTGCTC ATCCTGCAGC CACATTGCCA
    AAGAGTTCTT CCTTTAGTAG ATCTGGTCCA GGGTCACAAC TAAACACTAA ATTACAAAAG
    GCACAGTCAT TTGATGTGGC CAGTGTCCCA CCAGTGGCAG AATGGGCTGT TCCTCAGTCA
    TCAAGACTGA AATACAGGCA ATTATTCAAT AGTCATGACA AAACTATGAG TGGACACTTA
    ACAGGTCCCC AAGCAAGAAC TATTCTTATG CAATCAAGTT TACCACAGGC TCAGCTGGCT
    TCAATATGGA ATCTTTCTGA CATTGATCAA GATGGAAAAC TTACAGCAGA AGAATTTATC
    CTGGCAATGC ACCTCATTGA TGTAGCTATG TCTGGCCAAC CACTGCCACC TGTCCTGCCT
    CCAGAATATA TTCCACCTTC TTTTAGAAGA GTTCGATCTG GCAGTGGTAT ATCTGTCATA
    AGCTCAACAT CTGTAGATCA GAGGCTACCA GAGGAACCAG TTTTAGAAGA TGAACAACAA
    CAATTAGAAA AGAAATTACC TGTAACGTTT GAAGATAAGA AGCGGGAGAA CTTTGAACGT
    GGCAACCTGG AACTGGAGAA ACGAAGGCAA GCTCTCCTGG AACAGCAGCG CAAGGAGCAG
    GAGCGCCTGG CCCAGCTGGA GCGGGCGGAG CAGGAGAGGA AGGAGCGTGA GCGCCAGGAG
    CAAGAGCGCA AAAGACAACT GGAACTGGAG AAGCAACTGG AAAAGCAGCG GGAGCTAGAA
    CGGCAGAGAG AGGAGGAGAG GAGGAAAGAA ATTGAGAGGC GAGAGGCTGC AAAACGGGAA
    CTTGAAAGGC AACGACAACT TGAGTGGGAA CGGAATCGAA GGCAAGAACT ACTAAATCAA
    AGAAACAAAG AACAAGAGGA CATAGTTGTA CTGAAAGCAA AGAAAAAGAC TTTGGAATTT
    GAATTAGAAG CTCTAAATGA TAAAAAGCAT CAACTAGAAG GGAAACTTCA AGATATCAGA
    TGTCGATTGA CCACCCAAAG GCAAGAAATT GAGAGCACAA ACAAATCTAG AGAGTTGAGA
    ATTGCCGAAA TCACCCATCT ACAGCAACAA TTACAGGAAT CTCAGCAAAT GCTTGGAAGA
    CTTATTCCAG AAAAACAGAT ACTCAATGAC CAATTAAAAC AAGTTCAACA GAACAGTTTG
    CACAGAGATT CACTTGTTAC ACTTAAAAGA GCCTTAGAAG CAAAAGAACT AGCTCGGCAG
    CAGCTACGAG ACCAACTGGA TGAAGTGGAG AAAGAAACTA GATCAAAACT ACAGGAGATT
    GATATTTTCA ATAATCAGCT GAAGGAACTA AGAGAAATAC ACAATAAGCA ACAACTCCAG
    AAGCAAAAGT CCATGGAGGC TGAACGACTG AAACAGAAAG AACAAGAACG AAAGATCATA
    GAATTAGAAA AACAAAAAGA AGAAGCCCAA AGACGAGCTC AGGAAAGGGA CAAGCAGTGG
    CTGGAGCATG TGCAGCAGGA GGACGAGCAT CAGAGACCAA GAAAACTCCA CGAAGAGGAA
    AAACTGAAAA GGGAGGAGAG TGTCAAAAAG AAGGATGGCG AGGAAAAAGG CAAACAGGAA
    GCACAAGACA AGCTGGGTCG GCTTTTCCAT CAACACCAAG AACCAGCTAA GCCAGCTGTC
    CAGGCACCCT GGTCCACTGC AGAAAAAGGT CCACTTACCA TTTCTGCACA GGAAAATGTA
    AAAGTGGTGT ATTACCGGGC ACTGTACCCC TTTGAATCCA GAAGCCATGA TGAAATCACT
    ATCCAGCCAG GAGACATAGT TATGGTTAAA GGGGAATGGG TGGATGAAAG CCAAACTGGA
    GAACCCGGCT GGCTTGGAGG AGAATTAAAA GGAAAGACAG GGTGGTTCCC TGCAAACTAT
    GCAGAGAAAA TCCCAGAAAA TGAGGTTCCT GCTCCAGTGA AACCAGTGAC TGATTCAACA
    TCTGCCCCTG CCCCCAAACT GGCCTTGCGT GAGACCCCCG CCCCTTTGGC AGTAACCTCT
    TCAGAGCCCT CCACGACCCC TAATAACTGG GCCGACTTCA GCTCCACGTG GCCCACCAGC
    ACGAATGAGA AACCAGAAAC GGATAACTGG GATGCATGGG CAGCCCAGCC CTCTCTCACC
    GTTCCAAGTG CCGGCCAGTT AAGGCAGAGG TCCGCCTTTA CTCCAGCCAC GGCCACTGGC
    TCCTCCCCGT CTCCTGTGCT AGGCCAGGGT GAAAAGGTGG AGGGGCTACA AGCTCAAGCC
    CTATATCCTT GGAGAGCCAA AAAAGACAAC CACTTAAATT TTAACAAAAA TGATGTCATC
    ACCGTCCTGG AACAGCAAGA CATGTGGTGG TTTGGAGAAG TTCAAGGTCA GAAGGGTTGG
    TTCCCCAAGT CTTACGTGAA ACTCATTTCA GGGCCCATAA GGAAGTCTAC AAGCATGGAT
    TCTGGTTCTT CAGAGAGTCC TGCTAGTCTA AAGCGAGTAG CCTCTCCAGC AGCCAAGCCG
    GTCGTTTCGG GAGAAGAATT TATTGCCATG TACACTTACG AGAGTTCTGA GCAAGGAGAT
    TTAACCTTTC AGCAAGGGGA TGTGATTTTG GTTACCAAGA AAGATGGTGA CTGGTGGACA
    GGAACAGTGG GCGACAAGGC CGGAGTCTTC CCTTCTAACT ATGTGAGGCT TAAAGATTCA
    GAGGGCTCTG GAACTGCTGG GAAAACAGGG AGTTTAGGAA AAAAACCTGA AATTGCCCAG
    GTTATTGCCT CATACACCGC CACCGGCCCC GAGCAGCTCA CTCTCGCCCC TGGTCAGCTG
    ATTTTGATCC GAAAAAAGAA CCCAGGTGGA TGGTGGGAAG GAGAGCTGCA AGCACGTGGG
    AAAAAGCGCC AGATAGGCTG GTTCCCAGCT AATTATGTAA AGCTTCTAAG CCCTGGGACG
    AGCAAAATCA CTCCAACAGA GCCACCTAAG TCAACAGCAT TAGCGGCAGT GTGCCAGGTG
    ATTGGGATGT ACGACTACAC CGCGCAGAAT GACGATGAGC TGGCCTTCAA CAAGGGCCAG
    ATCATCAACG TCCTCAACAA GGAGGACCCT GACTGGTGGA AAGGAGAAGT CAATGGACAA
    GTGGGGCTCT TCCCATCCAA TTATGTGAAG CTGACCACAG ACATGGACCC AAGCCAGCAA
    TGA

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

    RefSeq XP_016802636.1
    CDS296..3958
    Translation

    Target ORF information:

    RefSeq Version XM_016947147.2
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes intersectin 1 (ITSN1), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_016947147.2

    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
    ATGGCTCAGT TTCCAACACC TTTTGGTGGC AGCCTGGATA TCTGGGCCAT AACTGTAGAG 
    GAAAGAGCGA AGCATGATCA GCAGTTCCAT AGTTTAAAGC CAATATCTGG ATTCATTACT
    GGTGATCAAG CTAGAAACTT TTTTTTTCAA TCTGGGTTAC CTCAACCTGT TTTAGCACAG
    ATATGGGCAC TAGCTGACAT GAATAATGAT GGAAGAATGG ATCAAGTGGA GTTTTCCATA
    GCTATGAAAC TTATCAAACT GAAGCTACAA GGATATCAGC TACCCTCTGC ACTTCCCCCT
    GTCATGAAAC AGCAACCAGT TGCTATTTCT AGCGCACCAG CATTTGGTAT GGGAGGTATC
    GCCAGCATGC CACCGCTTAC AGCTGTTGCT CCAGTGCCAA TGGGATCCAT TCCAGTTGTT
    GGAATGTCTC CAACCCTAGT ATCTTCTGTT CCCACAGCAG CTGTGCCCCC CCTGACTAAC
    GGGGCTCCCC CTGTTATACA ACCTCTGCCT GCATTTGCTC ATCCTGCAGC CACATTGCCA
    AAGAGTTCTT CCTTTAGTAG ATCTGGTCCA GGGTCACAAC TAAACACTAA ATTACAAAAG
    GCACAGTCAT TTGATGTGGC CAGTGTCCCA CCAGTGGCAG AATGGGCTGT TCCTCAGTCA
    TCAAGACTGA AATACAGGCA ATTATTCAAT AGTCATGACA AAACTATGAG TGGACACTTA
    ACAGGTCCCC AAGCAAGAAC TATTCTTATG CAATCAAGTT TACCACAGGC TCAGCTGGCT
    TCAATATGGA ATCTTTCTGA CATTGATCAA GATGGAAAAC TTACAGCAGA AGAATTTATC
    CTGGCAATGC ACCTCATTGA TGTAGCTATG TCTGGCCAAC CACTGCCACC TGTCCTGCCT
    CCAGAATATA TTCCACCTTC TTTTAGAAGA GTTCGATCTG GCAGTGGTAT ATCTGTCATA
    AGCTCAACAT CTGTAGATCA GAGGCTACCA GAGGAACCAG TTTTAGAAGA TGAACAACAA
    CAATTAGAAA AGAAATTACC TGTAACGTTT GAAGATAAGA AGCGGGAGAA CTTTGAACGT
    GGCAACCTGG AACTGGAGAA ACGAAGGCAA GCTCTCCTGG AACAGCAGCG CAAGGAGCAG
    GAGCGCCTGG CCCAGCTGGA GCGGGCGGAG CAGGAGAGGA AGGAGCGTGA GCGCCAGGAG
    CAAGAGCGCA AAAGACAACT GGAACTGGAG AAGCAACTGG AAAAGCAGCG GGAGCTAGAA
    CGGCAGAGAG AGGAGGAGAG GAGGAAAGAA ATTGAGAGGC GAGAGGCTGC AAAACGGGAA
    CTTGAAAGGC AACGACAACT TGAGTGGGAA CGGAATCGAA GGCAAGAACT ACTAAATCAA
    AGAAACAAAG AACAAGAGGA CATAGTTGTA CTGAAAGCAA AGAAAAAGAC TTTGGAATTT
    GAATTAGAAG CTCTAAATGA TAAAAAGCAT CAACTAGAAG GGAAACTTCA AGATATCAGA
    TGTCGATTGA CCACCCAAAG GCAAGAAATT GAGAGCACAA ACAAATCTAG AGAGTTGAGA
    ATTGCCGAAA TCACCCATCT ACAGCAACAA TTACAGGAAT CTCAGCAAAT GCTTGGAAGA
    CTTATTCCAG AAAAACAGAT ACTCAATGAC CAATTAAAAC AAGTTCAACA GAACAGTTTG
    CACAGAGATT CACTTGTTAC ACTTAAAAGA GCCTTAGAAG CAAAAGAACT AGCTCGGCAG
    CAGCTACGAG ACCAACTGGA TGAAGTGGAG AAAGAAACTA GATCAAAACT ACAGGAGATT
    GATATTTTCA ATAATCAGCT GAAGGAACTA AGAGAAATAC ACAATAAGCA ACAACTCCAG
    AAGCAAAAGT CCATGGAGGC TGAACGACTG AAACAGAAAG AACAAGAACG AAAGATCATA
    GAATTAGAAA AACAAAAAGA AGAAGCCCAA AGACGAGCTC AGGAAAGGGA CAAGCAGTGG
    CTGGAGCATG TGCAGCAGGA GGACGAGCAT CAGAGACCAA GAAAACTCCA CGAAGAGGAA
    AAACTGAAAA GGGAGGAGAG TGTCAAAAAG AAGGATGGCG AGGAAAAAGG CAAACAGGAA
    GCACAAGACA AGCTGGGTCG GCTTTTCCAT CAACACCAAG AACCAGCTAA GCCAGCTGTC
    CAGGCACCCT GGTCCACTGC AGAAAAAGGT CCACTTACCA TTTCTGCACA GGAAAATGTA
    AAAGTGGTGT ATTACCGGGC ACTGTACCCC TTTGAATCCA GAAGCCATGA TGAAATCACT
    ATCCAGCCAG GAGACATAGT TATGGTTAAA GGGGAATGGG TGGATGAAAG CCAAACTGGA
    GAACCCGGCT GGCTTGGAGG AGAATTAAAA GGAAAGACAG GGTGGTTCCC TGCAAACTAT
    GCAGAGAAAA TCCCAGAAAA TGAGGTTCCT GCTCCAGTGA AACCAGTGAC TGATTCAACA
    TCTGCCCCTG CCCCCAAACT GGCCTTGCGT GAGACCCCCG CCCCTTTGGC AGTAACCTCT
    TCAGAGCCCT CCACGACCCC TAATAACTGG GCCGACTTCA GCTCCACGTG GCCCACCAGC
    ACGAATGAGA AACCAGAAAC GGATAACTGG GATGCATGGG CAGCCCAGCC CTCTCTCACC
    GTTCCAAGTG CCGGCCAGTT AAGGCAGAGG TCCGCCTTTA CTCCAGCCAC GGCCACTGGC
    TCCTCCCCGT CTCCTGTGCT AGGCCAGGGT GAAAAGGTGG AGGGGCTACA AGCTCAAGCC
    CTATATCCTT GGAGAGCCAA AAAAGACAAC CACTTAAATT TTAACAAAAA TGATGTCATC
    ACCGTCCTGG AACAGCAAGA CATGTGGTGG TTTGGAGAAG TTCAAGGTCA GAAGGGTTGG
    TTCCCCAAGT CTTACGTGAA ACTCATTTCA GGGCCCATAA GGAAGTCTAC AAGCATGGAT
    TCTGGTTCTT CAGAGAGTCC TGCTAGTCTA AAGCGAGTAG CCTCTCCAGC AGCCAAGCCG
    GTCGTTTCGG GAGAAGAATT TATTGCCATG TACACTTACG AGAGTTCTGA GCAAGGAGAT
    TTAACCTTTC AGCAAGGGGA TGTGATTTTG GTTACCAAGA AAGATGGTGA CTGGTGGACA
    GGAACAGTGG GCGACAAGGC CGGAGTCTTC CCTTCTAACT ATGTGAGGCT TAAAGATTCA
    GAGGGCTCTG GAACTGCTGG GAAAACAGGG AGTTTAGGAA AAAAACCTGA AATTGCCCAG
    GTTATTGCCT CATACACCGC CACCGGCCCC GAGCAGCTCA CTCTCGCCCC TGGTCAGCTG
    ATTTTGATCC GAAAAAAGAA CCCAGGTGGA TGGTGGGAAG GAGAGCTGCA AGCACGTGGG
    AAAAAGCGCC AGATAGGCTG GTTCCCAGCT AATTATGTAA AGCTTCTAAG CCCTGGGACG
    AGCAAAATCA CTCCAACAGA GCCACCTAAG TCAACAGCAT TAGCGGCAGT GTGCCAGGTG
    ATTGGGATGT ACGACTACAC CGCGCAGAAT GACGATGAGC TGGCCTTCAA CAAGGGCCAG
    ATCATCAACG TCCTCAACAA GGAGGACCCT GACTGGTGGA AAGGAGAAGT CAATGGACAA
    GTGGGGCTCT TCCCATCCAA TTATGTGAAG CTGACCACAG ACATGGACCC AAGCCAGCAA
    TGA

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

    CloneID OPc27799
    Clone ID Related Accession (Same CDS sequence) XM_016947143.2 , XM_001166935.4
    Accession Version XM_016947143.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5166bp)
    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 2018-03-19
    Organism Pan troglodytes(chimpanzee)
    Product intersectin-1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036900.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 20, 2018 this sequence version replaced XM_016947143.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pan troglodytes Annotation Release 105 Annotation Version :: 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    ATGGCTCAGT TTCCAACACC TTTTGGTGGC AGCCTGGATA TCTGGGCCAT AACTGTAGAG 
    GAAAGAGCGA AGCATGATCA GCAGTTCCAT AGTTTAAAGC CAATATCTGG ATTCATTACT
    GGTGATCAAG CTAGAAACTT TTTTTTTCAA TCTGGGTTAC CTCAACCTGT TTTAGCACAG
    ATATGGGCAC TAGCTGACAT GAATAATGAT GGAAGAATGG ATCAAGTGGA GTTTTCCATA
    GCTATGAAAC TTATCAAACT GAAGCTACAA GGATATCAGC TACCCTCTGC ACTTCCCCCT
    GTCATGAAAC AGCAACCAGT TGCTATTTCT AGCGCACCAG CATTTGGTAT GGGAGGTATC
    GCCAGCATGC CACCGCTTAC AGCTGTTGCT CCAGTGCCAA TGGGATCCAT TCCAGTTGTT
    GGAATGTCTC CAACCCTAGT ATCTTCTGTT CCCACAGCAG CTGTGCCCCC CCTGACTAAC
    GGGGCTCCCC CTGTTATACA ACCTCTGCCT GCATTTGCTC ATCCTGCAGC CACATTGCCA
    AAGAGTTCTT CCTTTAGTAG ATCTGGTCCA GGGTCACAAC TAAACACTAA ATTACAAAAG
    GCACAGTCAT TTGATGTGGC CAGTGTCCCA CCAGTGGCAG AATGGGCTGT TCCTCAGTCA
    TCAAGACTGA AATACAGGCA ATTATTCAAT AGTCATGACA AAACTATGAG TGGACACTTA
    ACAGGTCCCC AAGCAAGAAC TATTCTTATG CAATCAAGTT TACCACAGGC TCAGCTGGCT
    TCAATATGGA ATCTTTCTGA CATTGATCAA GATGGAAAAC TTACAGCAGA AGAATTTATC
    CTGGCAATGC ACCTCATTGA TGTAGCTATG TCTGGCCAAC CACTGCCACC TGTCCTGCCT
    CCAGAATATA TTCCACCTTC TTTTAGAAGA GTTCGATCTG GCAGTGGTAT ATCTGTCATA
    AGCTCAACAT CTGTAGATCA GAGGCTACCA GAGGAACCAG TTTTAGAAGA TGAACAACAA
    CAATTAGAAA AGAAATTACC TGTAACGTTT GAAGATAAGA AGCGGGAGAA CTTTGAACGT
    GGCAACCTGG AACTGGAGAA ACGAAGGCAA GCTCTCCTGG AACAGCAGCG CAAGGAGCAG
    GAGCGCCTGG CCCAGCTGGA GCGGGCGGAG CAGGAGAGGA AGGAGCGTGA GCGCCAGGAG
    CAAGAGCGCA AAAGACAACT GGAACTGGAG AAGCAACTGG AAAAGCAGCG GGAGCTAGAA
    CGGCAGAGAG AGGAGGAGAG GAGGAAAGAA ATTGAGAGGC GAGAGGCTGC AAAACGGGAA
    CTTGAAAGGC AACGACAACT TGAGTGGGAA CGGAATCGAA GGCAAGAACT ACTAAATCAA
    AGAAACAAAG AACAAGAGGA CATAGTTGTA CTGAAAGCAA AGAAAAAGAC TTTGGAATTT
    GAATTAGAAG CTCTAAATGA TAAAAAGCAT CAACTAGAAG GGAAACTTCA AGATATCAGA
    TGTCGATTGA CCACCCAAAG GCAAGAAATT GAGAGCACAA ACAAATCTAG AGAGTTGAGA
    ATTGCCGAAA TCACCCATCT ACAGCAACAA TTACAGGAAT CTCAGCAAAT GCTTGGAAGA
    CTTATTCCAG AAAAACAGAT ACTCAATGAC CAATTAAAAC AAGTTCAACA GAACAGTTTG
    CACAGAGATT CACTTGTTAC ACTTAAAAGA GCCTTAGAAG CAAAAGAACT AGCTCGGCAG
    CAGCTACGAG ACCAACTGGA TGAAGTGGAG AAAGAAACTA GATCAAAACT ACAGGAGATT
    GATATTTTCA ATAATCAGCT GAAGGAACTA AGAGAAATAC ACAATAAGCA ACAACTCCAG
    AAGCAAAAGT CCATGGAGGC TGAACGACTG AAACAGAAAG AACAAGAACG AAAGATCATA
    GAATTAGAAA AACAAAAAGA AGAAGCCCAA AGACGAGCTC AGGAAAGGGA CAAGCAGTGG
    CTGGAGCATG TGCAGCAGGA GGACGAGCAT CAGAGACCAA GAAAACTCCA CGAAGAGGAA
    AAACTGAAAA GGGAGGAGAG TGTCAAAAAG AAGGATGGCG AGGAAAAAGG CAAACAGGAA
    GCACAAGACA AGCTGGGTCG GCTTTTCCAT CAACACCAAG AACCAGCTAA GCCAGCTGTC
    CAGGCACCCT GGTCCACTGC AGAAAAAGGT CCACTTACCA TTTCTGCACA GGAAAATGTA
    AAAGTGGTGT ATTACCGGGC ACTGTACCCC TTTGAATCCA GAAGCCATGA TGAAATCACT
    ATCCAGCCAG GAGACATAGT TATGGTTAAA GGGGAATGGG TGGATGAAAG CCAAACTGGA
    GAACCCGGCT GGCTTGGAGG AGAATTAAAA GGAAAGACAG GGTGGTTCCC TGCAAACTAT
    GCAGAGAAAA TCCCAGAAAA TGAGGTTCCT GCTCCAGTGA AACCAGTGAC TGATTCAACA
    TCTGCCCCTG CCCCCAAACT GGCCTTGCGT GAGACCCCCG CCCCTTTGGC AGTAACCTCT
    TCAGAGCCCT CCACGACCCC TAATAACTGG GCCGACTTCA GCTCCACGTG GCCCACCAGC
    ACGAATGAGA AACCAGAAAC GGATAACTGG GATGCATGGG CAGCCCAGCC CTCTCTCACC
    GTTCCAAGTG CCGGCCAGTT AAGGCAGAGG TCCGCCTTTA CTCCAGCCAC GGCCACTGGC
    TCCTCCCCGT CTCCTGTGCT AGGCCAGGGT GAAAAGGTGG AGGGGCTACA AGCTCAAGCC
    CTATATCCTT GGAGAGCCAA AAAAGACAAC CACTTAAATT TTAACAAAAA TGATGTCATC
    ACCGTCCTGG AACAGCAAGA CATGTGGTGG TTTGGAGAAG TTCAAGGTCA GAAGGGTTGG
    TTCCCCAAGT CTTACGTGAA ACTCATTTCA GGGCCCATAA GGAAGTCTAC AAGCATGGAT
    TCTGGTTCTT CAGAGAGTCC TGCTAGTCTA AAGCGAGTAG CCTCTCCAGC AGCCAAGCCG
    GTCGTTTCGG GAGAAGAATT TATTGCCATG TACACTTACG AGAGTTCTGA GCAAGGAGAT
    TTAACCTTTC AGCAAGGGGA TGTGATTTTG GTTACCAAGA AAGATGGTGA CTGGTGGACA
    GGAACAGTGG GCGACAAGGC CGGAGTCTTC CCTTCTAACT ATGTGAGGCT TAAAGATTCA
    GAGGGCTCTG GAACTGCTGG GAAAACAGGG AGTTTAGGAA AAAAACCTGA AATTGCCCAG
    GTTATTGCCT CATACACCGC CACCGGCCCC GAGCAGCTCA CTCTCGCCCC TGGTCAGCTG
    ATTTTGATCC GAAAAAAGAA CCCAGGTGGA TGGTGGGAAG GAGAGCTGCA AGCACGTGGG
    AAAAAGCGCC AGATAGGCTG GTTCCCAGCT AATTATGTAA AGCTTCTAAG CCCTGGGACG
    AGCAAAATCA CTCCAACAGA GCCACCTAAG TCAACAGCAT TAGCGGCAGT GTGCCAGGTG
    ATTGGGATGT ACGACTACAC CGCGCAGAAT GACGATGAGC TGGCCTTCAA CAAGGGCCAG
    ATCATCAACG TCCTCAACAA GGAGGACCCT GACTGGTGGA AAGGAGAAGT CAATGGACAA
    GTGGGGCTCT TCCCATCCAA TTATGTGAAG CTGACCACAG ACATGGACCC AAGCCAGCAA
    TGGTGTTCAG ACTTACATCT CTTGGATATG TTGACCCCAA CTGAAAGAAA GCGACAAGGA
    TACATCCACG AGCTCATTGT CACCGAGGAG AACTATGTGA ATGACCTGCA GCTGGTCACA
    GAGATTTTTC AAAAACCCCT GATGGAGTCT GAGCTGCTGA CAGAAAAAGA GGTTGCTATG
    ATTTTTGTGA ACTGGAAGGA GCTGATTATG TGTAATATCA AACTACTGAA AGCGCTGAGA
    GTCCGCAAGA AGATGTCCGG GGAGAAGATG CCTGTGAAGA TGATTGGAGA CATCCTGAGC
    GCACAGCTGC CGCACATGCA GCCCTACATC CGCTTCTGCA GCCGCCAGCT CAACGGGGCT
    GCCCTGATCC AGCAGAAGAC GGACGAGGCC CCAGACTTCA AGGAGTTTGT CAAAAGATTG
    GCAATGGATC CTCGGTGTAA AGGGATGCCA CTCTCTAGTT TTATACTGAA GCCTATGCAA
    CGGGTAACAA GATACCCACT GATCATTAAA AATATCCTGG AAAACACCCC TGAAAACCAC
    CCGGACCACA GCCACTTGAA GCACGCCCTG GAGAAGGCGG AAGAGCTCTG TTCCCAGGTG
    AACGAAGGGG TGCGGGAGAA GGAGAACTCT GACCGGCTGG AGTGGATCCA GGCCCACGTG
    CAGTGTGAAG GCCTGTCTGA GCAACTTGTG TTCAATTCAG TGACCAATTG CTTGGGGCCA
    CGCAAATTTC TGCACAGTGG GAAGCTCTAC AAGGCCAAGA GCAACAAGGA GCTGTATGGC
    TTCCTTTTCA ACGACTTCCT CCTGCTGACT CAGATCACGA AGCCCTTGGG GTCTTCTGGC
    ACCGACAAAG TCTTCAGCCC CAAATCAAAC CTGCAGTATA AAATGTATAA AACACCTATT
    TTCCTAAATG AGGTTCTAGT AAAATTACCC ACCGACCCTT CTGGAGACGA GCCCATCTTC
    CACATCTCCC ACATTGACCG CGTCTATACT CTCCGAGCAG AAAGCATAAA TGAAAGGACT
    GCCTGGGTGC AGAAAATCAA AGCTGCTTCT GAACTCTACA TAGAGACTGA GAAAAAGAAG
    CGCGAGAAAG CGTACCTGGT CCGTTCCCAA AGGGCAACAG GCATTGGAAG GTTGATGGTG
    AACGTGGTTG AAGGCATTGA GTTGAAACCC TGTCGGTCAC ATGGAAAGAG CAACCCGTAC
    TGTGAGGTGA CCATGGGTTC CCAGTGCCAC ATCACCAAGA CGATCCAGGA CACTCTGAAC
    CCCAAGTGGA ATTCCAACTG CCAGTTCTTC ATCCGAGACC TGGAGCAGGA AGTCCTCTGC
    ATCACTGTGT TCGAGAGGGA CCAGTTCTCA CCAGATGATT TTTTGGGTCG GACGGAGATC
    CGCGTGGCGG ACATCAAGAA AGACCAGGGC TCCAAAGGTC CAGTTACGAA GTGTCTTCTG
    CTGCACGAAG TCCCCACGGG AGAGATTGTG GTCCGCTTGG ACCTGCAGTT GTTTGATGAG
    CCGTAG

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

    RefSeq XP_016802632.1
    CDS296..5461
    Translation

    Target ORF information:

    RefSeq Version XM_016947143.2
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes intersectin 1 (ITSN1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_016947143.2

    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
    ATGGCTCAGT TTCCAACACC TTTTGGTGGC AGCCTGGATA TCTGGGCCAT AACTGTAGAG 
    GAAAGAGCGA AGCATGATCA GCAGTTCCAT AGTTTAAAGC CAATATCTGG ATTCATTACT
    GGTGATCAAG CTAGAAACTT TTTTTTTCAA TCTGGGTTAC CTCAACCTGT TTTAGCACAG
    ATATGGGCAC TAGCTGACAT GAATAATGAT GGAAGAATGG ATCAAGTGGA GTTTTCCATA
    GCTATGAAAC TTATCAAACT GAAGCTACAA GGATATCAGC TACCCTCTGC ACTTCCCCCT
    GTCATGAAAC AGCAACCAGT TGCTATTTCT AGCGCACCAG CATTTGGTAT GGGAGGTATC
    GCCAGCATGC CACCGCTTAC AGCTGTTGCT CCAGTGCCAA TGGGATCCAT TCCAGTTGTT
    GGAATGTCTC CAACCCTAGT ATCTTCTGTT CCCACAGCAG CTGTGCCCCC CCTGACTAAC
    GGGGCTCCCC CTGTTATACA ACCTCTGCCT GCATTTGCTC ATCCTGCAGC CACATTGCCA
    AAGAGTTCTT CCTTTAGTAG ATCTGGTCCA GGGTCACAAC TAAACACTAA ATTACAAAAG
    GCACAGTCAT TTGATGTGGC CAGTGTCCCA CCAGTGGCAG AATGGGCTGT TCCTCAGTCA
    TCAAGACTGA AATACAGGCA ATTATTCAAT AGTCATGACA AAACTATGAG TGGACACTTA
    ACAGGTCCCC AAGCAAGAAC TATTCTTATG CAATCAAGTT TACCACAGGC TCAGCTGGCT
    TCAATATGGA ATCTTTCTGA CATTGATCAA GATGGAAAAC TTACAGCAGA AGAATTTATC
    CTGGCAATGC ACCTCATTGA TGTAGCTATG TCTGGCCAAC CACTGCCACC TGTCCTGCCT
    CCAGAATATA TTCCACCTTC TTTTAGAAGA GTTCGATCTG GCAGTGGTAT ATCTGTCATA
    AGCTCAACAT CTGTAGATCA GAGGCTACCA GAGGAACCAG TTTTAGAAGA TGAACAACAA
    CAATTAGAAA AGAAATTACC TGTAACGTTT GAAGATAAGA AGCGGGAGAA CTTTGAACGT
    GGCAACCTGG AACTGGAGAA ACGAAGGCAA GCTCTCCTGG AACAGCAGCG CAAGGAGCAG
    GAGCGCCTGG CCCAGCTGGA GCGGGCGGAG CAGGAGAGGA AGGAGCGTGA GCGCCAGGAG
    CAAGAGCGCA AAAGACAACT GGAACTGGAG AAGCAACTGG AAAAGCAGCG GGAGCTAGAA
    CGGCAGAGAG AGGAGGAGAG GAGGAAAGAA ATTGAGAGGC GAGAGGCTGC AAAACGGGAA
    CTTGAAAGGC AACGACAACT TGAGTGGGAA CGGAATCGAA GGCAAGAACT ACTAAATCAA
    AGAAACAAAG AACAAGAGGA CATAGTTGTA CTGAAAGCAA AGAAAAAGAC TTTGGAATTT
    GAATTAGAAG CTCTAAATGA TAAAAAGCAT CAACTAGAAG GGAAACTTCA AGATATCAGA
    TGTCGATTGA CCACCCAAAG GCAAGAAATT GAGAGCACAA ACAAATCTAG AGAGTTGAGA
    ATTGCCGAAA TCACCCATCT ACAGCAACAA TTACAGGAAT CTCAGCAAAT GCTTGGAAGA
    CTTATTCCAG AAAAACAGAT ACTCAATGAC CAATTAAAAC AAGTTCAACA GAACAGTTTG
    CACAGAGATT CACTTGTTAC ACTTAAAAGA GCCTTAGAAG CAAAAGAACT AGCTCGGCAG
    CAGCTACGAG ACCAACTGGA TGAAGTGGAG AAAGAAACTA GATCAAAACT ACAGGAGATT
    GATATTTTCA ATAATCAGCT GAAGGAACTA AGAGAAATAC ACAATAAGCA ACAACTCCAG
    AAGCAAAAGT CCATGGAGGC TGAACGACTG AAACAGAAAG AACAAGAACG AAAGATCATA
    GAATTAGAAA AACAAAAAGA AGAAGCCCAA AGACGAGCTC AGGAAAGGGA CAAGCAGTGG
    CTGGAGCATG TGCAGCAGGA GGACGAGCAT CAGAGACCAA GAAAACTCCA CGAAGAGGAA
    AAACTGAAAA GGGAGGAGAG TGTCAAAAAG AAGGATGGCG AGGAAAAAGG CAAACAGGAA
    GCACAAGACA AGCTGGGTCG GCTTTTCCAT CAACACCAAG AACCAGCTAA GCCAGCTGTC
    CAGGCACCCT GGTCCACTGC AGAAAAAGGT CCACTTACCA TTTCTGCACA GGAAAATGTA
    AAAGTGGTGT ATTACCGGGC ACTGTACCCC TTTGAATCCA GAAGCCATGA TGAAATCACT
    ATCCAGCCAG GAGACATAGT TATGGTTAAA GGGGAATGGG TGGATGAAAG CCAAACTGGA
    GAACCCGGCT GGCTTGGAGG AGAATTAAAA GGAAAGACAG GGTGGTTCCC TGCAAACTAT
    GCAGAGAAAA TCCCAGAAAA TGAGGTTCCT GCTCCAGTGA AACCAGTGAC TGATTCAACA
    TCTGCCCCTG CCCCCAAACT GGCCTTGCGT GAGACCCCCG CCCCTTTGGC AGTAACCTCT
    TCAGAGCCCT CCACGACCCC TAATAACTGG GCCGACTTCA GCTCCACGTG GCCCACCAGC
    ACGAATGAGA AACCAGAAAC GGATAACTGG GATGCATGGG CAGCCCAGCC CTCTCTCACC
    GTTCCAAGTG CCGGCCAGTT AAGGCAGAGG TCCGCCTTTA CTCCAGCCAC GGCCACTGGC
    TCCTCCCCGT CTCCTGTGCT AGGCCAGGGT GAAAAGGTGG AGGGGCTACA AGCTCAAGCC
    CTATATCCTT GGAGAGCCAA AAAAGACAAC CACTTAAATT TTAACAAAAA TGATGTCATC
    ACCGTCCTGG AACAGCAAGA CATGTGGTGG TTTGGAGAAG TTCAAGGTCA GAAGGGTTGG
    TTCCCCAAGT CTTACGTGAA ACTCATTTCA GGGCCCATAA GGAAGTCTAC AAGCATGGAT
    TCTGGTTCTT CAGAGAGTCC TGCTAGTCTA AAGCGAGTAG CCTCTCCAGC AGCCAAGCCG
    GTCGTTTCGG GAGAAGAATT TATTGCCATG TACACTTACG AGAGTTCTGA GCAAGGAGAT
    TTAACCTTTC AGCAAGGGGA TGTGATTTTG GTTACCAAGA AAGATGGTGA CTGGTGGACA
    GGAACAGTGG GCGACAAGGC CGGAGTCTTC CCTTCTAACT ATGTGAGGCT TAAAGATTCA
    GAGGGCTCTG GAACTGCTGG GAAAACAGGG AGTTTAGGAA AAAAACCTGA AATTGCCCAG
    GTTATTGCCT CATACACCGC CACCGGCCCC GAGCAGCTCA CTCTCGCCCC TGGTCAGCTG
    ATTTTGATCC GAAAAAAGAA CCCAGGTGGA TGGTGGGAAG GAGAGCTGCA AGCACGTGGG
    AAAAAGCGCC AGATAGGCTG GTTCCCAGCT AATTATGTAA AGCTTCTAAG CCCTGGGACG
    AGCAAAATCA CTCCAACAGA GCCACCTAAG TCAACAGCAT TAGCGGCAGT GTGCCAGGTG
    ATTGGGATGT ACGACTACAC CGCGCAGAAT GACGATGAGC TGGCCTTCAA CAAGGGCCAG
    ATCATCAACG TCCTCAACAA GGAGGACCCT GACTGGTGGA AAGGAGAAGT CAATGGACAA
    GTGGGGCTCT TCCCATCCAA TTATGTGAAG CTGACCACAG ACATGGACCC AAGCCAGCAA
    TGGTGTTCAG ACTTACATCT CTTGGATATG TTGACCCCAA CTGAAAGAAA GCGACAAGGA
    TACATCCACG AGCTCATTGT CACCGAGGAG AACTATGTGA ATGACCTGCA GCTGGTCACA
    GAGATTTTTC AAAAACCCCT GATGGAGTCT GAGCTGCTGA CAGAAAAAGA GGTTGCTATG
    ATTTTTGTGA ACTGGAAGGA GCTGATTATG TGTAATATCA AACTACTGAA AGCGCTGAGA
    GTCCGCAAGA AGATGTCCGG GGAGAAGATG CCTGTGAAGA TGATTGGAGA CATCCTGAGC
    GCACAGCTGC CGCACATGCA GCCCTACATC CGCTTCTGCA GCCGCCAGCT CAACGGGGCT
    GCCCTGATCC AGCAGAAGAC GGACGAGGCC CCAGACTTCA AGGAGTTTGT CAAAAGATTG
    GCAATGGATC CTCGGTGTAA AGGGATGCCA CTCTCTAGTT TTATACTGAA GCCTATGCAA
    CGGGTAACAA GATACCCACT GATCATTAAA AATATCCTGG AAAACACCCC TGAAAACCAC
    CCGGACCACA GCCACTTGAA GCACGCCCTG GAGAAGGCGG AAGAGCTCTG TTCCCAGGTG
    AACGAAGGGG TGCGGGAGAA GGAGAACTCT GACCGGCTGG AGTGGATCCA GGCCCACGTG
    CAGTGTGAAG GCCTGTCTGA GCAACTTGTG TTCAATTCAG TGACCAATTG CTTGGGGCCA
    CGCAAATTTC TGCACAGTGG GAAGCTCTAC AAGGCCAAGA GCAACAAGGA GCTGTATGGC
    TTCCTTTTCA ACGACTTCCT CCTGCTGACT CAGATCACGA AGCCCTTGGG GTCTTCTGGC
    ACCGACAAAG TCTTCAGCCC CAAATCAAAC CTGCAGTATA AAATGTATAA AACACCTATT
    TTCCTAAATG AGGTTCTAGT AAAATTACCC ACCGACCCTT CTGGAGACGA GCCCATCTTC
    CACATCTCCC ACATTGACCG CGTCTATACT CTCCGAGCAG AAAGCATAAA TGAAAGGACT
    GCCTGGGTGC AGAAAATCAA AGCTGCTTCT GAACTCTACA TAGAGACTGA GAAAAAGAAG
    CGCGAGAAAG CGTACCTGGT CCGTTCCCAA AGGGCAACAG GCATTGGAAG GTTGATGGTG
    AACGTGGTTG AAGGCATTGA GTTGAAACCC TGTCGGTCAC ATGGAAAGAG CAACCCGTAC
    TGTGAGGTGA CCATGGGTTC CCAGTGCCAC ATCACCAAGA CGATCCAGGA CACTCTGAAC
    CCCAAGTGGA ATTCCAACTG CCAGTTCTTC ATCCGAGACC TGGAGCAGGA AGTCCTCTGC
    ATCACTGTGT TCGAGAGGGA CCAGTTCTCA CCAGATGATT TTTTGGGTCG GACGGAGATC
    CGCGTGGCGG ACATCAAGAA AGACCAGGGC TCCAAAGGTC CAGTTACGAA GTGTCTTCTG
    CTGCACGAAG TCCCCACGGG AGAGATTGTG GTCCGCTTGG ACCTGCAGTT GTTTGATGAG
    CCGTAG

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

    CloneID OPc27799
    Clone ID Related Accession (Same CDS sequence) XM_016947143.2 , XM_001166935.4
    Accession Version XM_001166935.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5166bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-01
    Organism Pan troglodytes(chimpanzee)
    Product intersectin-1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_006488.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 2, 2016 this sequence version replaced XM_001166935.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Pan troglodytes Annotation Release 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    ATGGCTCAGT TTCCAACACC TTTTGGTGGC AGCCTGGATA TCTGGGCCAT AACTGTAGAG 
    GAAAGAGCGA AGCATGATCA GCAGTTCCAT AGTTTAAAGC CAATATCTGG ATTCATTACT
    GGTGATCAAG CTAGAAACTT TTTTTTTCAA TCTGGGTTAC CTCAACCTGT TTTAGCACAG
    ATATGGGCAC TAGCTGACAT GAATAATGAT GGAAGAATGG ATCAAGTGGA GTTTTCCATA
    GCTATGAAAC TTATCAAACT GAAGCTACAA GGATATCAGC TACCCTCTGC ACTTCCCCCT
    GTCATGAAAC AGCAACCAGT TGCTATTTCT AGCGCACCAG CATTTGGTAT GGGAGGTATC
    GCCAGCATGC CACCGCTTAC AGCTGTTGCT CCAGTGCCAA TGGGATCCAT TCCAGTTGTT
    GGAATGTCTC CAACCCTAGT ATCTTCTGTT CCCACAGCAG CTGTGCCCCC CCTGACTAAC
    GGGGCTCCCC CTGTTATACA ACCTCTGCCT GCATTTGCTC ATCCTGCAGC CACATTGCCA
    AAGAGTTCTT CCTTTAGTAG ATCTGGTCCA GGGTCACAAC TAAACACTAA ATTACAAAAG
    GCACAGTCAT TTGATGTGGC CAGTGTCCCA CCAGTGGCAG AATGGGCTGT TCCTCAGTCA
    TCAAGACTGA AATACAGGCA ATTATTCAAT AGTCATGACA AAACTATGAG TGGACACTTA
    ACAGGTCCCC AAGCAAGAAC TATTCTTATG CAATCAAGTT TACCACAGGC TCAGCTGGCT
    TCAATATGGA ATCTTTCTGA CATTGATCAA GATGGAAAAC TTACAGCAGA AGAATTTATC
    CTGGCAATGC ACCTCATTGA TGTAGCTATG TCTGGCCAAC CACTGCCACC TGTCCTGCCT
    CCAGAATATA TTCCACCTTC TTTTAGAAGA GTTCGATCTG GCAGTGGTAT ATCTGTCATA
    AGCTCAACAT CTGTAGATCA GAGGCTACCA GAGGAACCAG TTTTAGAAGA TGAACAACAA
    CAATTAGAAA AGAAATTACC TGTAACGTTT GAAGATAAGA AGCGGGAGAA CTTTGAACGT
    GGCAACCTGG AACTGGAGAA ACGAAGGCAA GCTCTCCTGG AACAGCAGCG CAAGGAGCAG
    GAGCGCCTGG CCCAGCTGGA GCGGGCGGAG CAGGAGAGGA AGGAGCGTGA GCGCCAGGAG
    CAAGAGCGCA AAAGACAACT GGAACTGGAG AAGCAACTGG AAAAGCAGCG GGAGCTAGAA
    CGGCAGAGAG AGGAGGAGAG GAGGAAAGAA ATTGAGAGGC GAGAGGCTGC AAAACGGGAA
    CTTGAAAGGC AACGACAACT TGAGTGGGAA CGGAATCGAA GGCAAGAACT ACTAAATCAA
    AGAAACAAAG AACAAGAGGA CATAGTTGTA CTGAAAGCAA AGAAAAAGAC TTTGGAATTT
    GAATTAGAAG CTCTAAATGA TAAAAAGCAT CAACTAGAAG GGAAACTTCA AGATATCAGA
    TGTCGATTGA CCACCCAAAG GCAAGAAATT GAGAGCACAA ACAAATCTAG AGAGTTGAGA
    ATTGCCGAAA TCACCCATCT ACAGCAACAA TTACAGGAAT CTCAGCAAAT GCTTGGAAGA
    CTTATTCCAG AAAAACAGAT ACTCAATGAC CAATTAAAAC AAGTTCAACA GAACAGTTTG
    CACAGAGATT CACTTGTTAC ACTTAAAAGA GCCTTAGAAG CAAAAGAACT AGCTCGGCAG
    CAGCTACGAG ACCAACTGGA TGAAGTGGAG AAAGAAACTA GATCAAAACT ACAGGAGATT
    GATATTTTCA ATAATCAGCT GAAGGAACTA AGAGAAATAC ACAATAAGCA ACAACTCCAG
    AAGCAAAAGT CCATGGAGGC TGAACGACTG AAACAGAAAG AACAAGAACG AAAGATCATA
    GAATTAGAAA AACAAAAAGA AGAAGCCCAA AGACGAGCTC AGGAAAGGGA CAAGCAGTGG
    CTGGAGCATG TGCAGCAGGA GGACGAGCAT CAGAGACCAA GAAAACTCCA CGAAGAGGAA
    AAACTGAAAA GGGAGGAGAG TGTCAAAAAG AAGGATGGCG AGGAAAAAGG CAAACAGGAA
    GCACAAGACA AGCTGGGTCG GCTTTTCCAT CAACACCAAG AACCAGCTAA GCCAGCTGTC
    CAGGCACCCT GGTCCACTGC AGAAAAAGGT CCACTTACCA TTTCTGCACA GGAAAATGTA
    AAAGTGGTGT ATTACCGGGC ACTGTACCCC TTTGAATCCA GAAGCCATGA TGAAATCACT
    ATCCAGCCAG GAGACATAGT TATGGTTAAA GGGGAATGGG TGGATGAAAG CCAAACTGGA
    GAACCCGGCT GGCTTGGAGG AGAATTAAAA GGAAAGACAG GGTGGTTCCC TGCAAACTAT
    GCAGAGAAAA TCCCAGAAAA TGAGGTTCCT GCTCCAGTGA AACCAGTGAC TGATTCAACA
    TCTGCCCCTG CCCCCAAACT GGCCTTGCGT GAGACCCCCG CCCCTTTGGC AGTAACCTCT
    TCAGAGCCCT CCACGACCCC TAATAACTGG GCCGACTTCA GCTCCACGTG GCCCACCAGC
    ACGAATGAGA AACCAGAAAC GGATAACTGG GATGCATGGG CAGCCCAGCC CTCTCTCACC
    GTTCCAAGTG CCGGCCAGTT AAGGCAGAGG TCCGCCTTTA CTCCAGCCAC GGCCACTGGC
    TCCTCCCCGT CTCCTGTGCT AGGCCAGGGT GAAAAGGTGG AGGGGCTACA AGCTCAAGCC
    CTATATCCTT GGAGAGCCAA AAAAGACAAC CACTTAAATT TTAACAAAAA TGATGTCATC
    ACCGTCCTGG AACAGCAAGA CATGTGGTGG TTTGGAGAAG TTCAAGGTCA GAAGGGTTGG
    TTCCCCAAGT CTTACGTGAA ACTCATTTCA GGGCCCATAA GGAAGTCTAC AAGCATGGAT
    TCTGGTTCTT CAGAGAGTCC TGCTAGTCTA AAGCGAGTAG CCTCTCCAGC AGCCAAGCCG
    GTCGTTTCGG GAGAAGAATT TATTGCCATG TACACTTACG AGAGTTCTGA GCAAGGAGAT
    TTAACCTTTC AGCAAGGGGA TGTGATTTTG GTTACCAAGA AAGATGGTGA CTGGTGGACA
    GGAACAGTGG GCGACAAGGC CGGAGTCTTC CCTTCTAACT ATGTGAGGCT TAAAGATTCA
    GAGGGCTCTG GAACTGCTGG GAAAACAGGG AGTTTAGGAA AAAAACCTGA AATTGCCCAG
    GTTATTGCCT CATACACCGC CACCGGCCCC GAGCAGCTCA CTCTCGCCCC TGGTCAGCTG
    ATTTTGATCC GAAAAAAGAA CCCAGGTGGA TGGTGGGAAG GAGAGCTGCA AGCACGTGGG
    AAAAAGCGCC AGATAGGCTG GTTCCCAGCT AATTATGTAA AGCTTCTAAG CCCTGGGACG
    AGCAAAATCA CTCCAACAGA GCCACCTAAG TCAACAGCAT TAGCGGCAGT GTGCCAGGTG
    ATTGGGATGT ACGACTACAC CGCGCAGAAT GACGATGAGC TGGCCTTCAA CAAGGGCCAG
    ATCATCAACG TCCTCAACAA GGAGGACCCT GACTGGTGGA AAGGAGAAGT CAATGGACAA
    GTGGGGCTCT TCCCATCCAA TTATGTGAAG CTGACCACAG ACATGGACCC AAGCCAGCAA
    TGGTGTTCAG ACTTACATCT CTTGGATATG TTGACCCCAA CTGAAAGAAA GCGACAAGGA
    TACATCCACG AGCTCATTGT CACCGAGGAG AACTATGTGA ATGACCTGCA GCTGGTCACA
    GAGATTTTTC AAAAACCCCT GATGGAGTCT GAGCTGCTGA CAGAAAAAGA GGTTGCTATG
    ATTTTTGTGA ACTGGAAGGA GCTGATTATG TGTAATATCA AACTACTGAA AGCGCTGAGA
    GTCCGCAAGA AGATGTCCGG GGAGAAGATG CCTGTGAAGA TGATTGGAGA CATCCTGAGC
    GCACAGCTGC CGCACATGCA GCCCTACATC CGCTTCTGCA GCCGCCAGCT CAACGGGGCT
    GCCCTGATCC AGCAGAAGAC GGACGAGGCC CCAGACTTCA AGGAGTTTGT CAAAAGATTG
    GCAATGGATC CTCGGTGTAA AGGGATGCCA CTCTCTAGTT TTATACTGAA GCCTATGCAA
    CGGGTAACAA GATACCCACT GATCATTAAA AATATCCTGG AAAACACCCC TGAAAACCAC
    CCGGACCACA GCCACTTGAA GCACGCCCTG GAGAAGGCGG AAGAGCTCTG TTCCCAGGTG
    AACGAAGGGG TGCGGGAGAA GGAGAACTCT GACCGGCTGG AGTGGATCCA GGCCCACGTG
    CAGTGTGAAG GCCTGTCTGA GCAACTTGTG TTCAATTCAG TGACCAATTG CTTGGGGCCA
    CGCAAATTTC TGCACAGTGG GAAGCTCTAC AAGGCCAAGA GCAACAAGGA GCTGTATGGC
    TTCCTTTTCA ACGACTTCCT CCTGCTGACT CAGATCACGA AGCCCTTGGG GTCTTCTGGC
    ACCGACAAAG TCTTCAGCCC CAAATCAAAC CTGCAGTATA AAATGTATAA AACACCTATT
    TTCCTAAATG AGGTTCTAGT AAAATTACCC ACCGACCCTT CTGGAGACGA GCCCATCTTC
    CACATCTCCC ACATTGACCG CGTCTATACT CTCCGAGCAG AAAGCATAAA TGAAAGGACT
    GCCTGGGTGC AGAAAATCAA AGCTGCTTCT GAACTCTACA TAGAGACTGA GAAAAAGAAG
    CGCGAGAAAG CGTACCTGGT CCGTTCCCAA AGGGCAACAG GCATTGGAAG GTTGATGGTG
    AACGTGGTTG AAGGCATTGA GTTGAAACCC TGTCGGTCAC ATGGAAAGAG CAACCCGTAC
    TGTGAGGTGA CCATGGGTTC CCAGTGCCAC ATCACCAAGA CGATCCAGGA CACTCTGAAC
    CCCAAGTGGA ATTCCAACTG CCAGTTCTTC ATCCGAGACC TGGAGCAGGA AGTCCTCTGC
    ATCACTGTGT TCGAGAGGGA CCAGTTCTCA CCAGATGATT TTTTGGGTCG GACGGAGATC
    CGCGTGGCGG ACATCAAGAA AGACCAGGGC TCCAAAGGTC CAGTTACGAA GTGTCTTCTG
    CTGCACGAAG TCCCCACGGG AGAGATTGTG GTCCGCTTGG ACCTGCAGTT GTTTGATGAG
    CCGTAG

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

    RefSeq XP_001166935.1
    CDS318..5483
    Translation

    Target ORF information:

    RefSeq Version XM_001166935.4
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes intersectin 1 (ITSN1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_001166935.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    ATGGCTCAGT TTCCAACACC TTTTGGTGGC AGCCTGGATA TCTGGGCCAT AACTGTAGAG 
    GAAAGAGCGA AGCATGATCA GCAGTTCCAT AGTTTAAAGC CAATATCTGG ATTCATTACT
    GGTGATCAAG CTAGAAACTT TTTTTTTCAA TCTGGGTTAC CTCAACCTGT TTTAGCACAG
    ATATGGGCAC TAGCTGACAT GAATAATGAT GGAAGAATGG ATCAAGTGGA GTTTTCCATA
    GCTATGAAAC TTATCAAACT GAAGCTACAA GGATATCAGC TACCCTCTGC ACTTCCCCCT
    GTCATGAAAC AGCAACCAGT TGCTATTTCT AGCGCACCAG CATTTGGTAT GGGAGGTATC
    GCCAGCATGC CACCGCTTAC AGCTGTTGCT CCAGTGCCAA TGGGATCCAT TCCAGTTGTT
    GGAATGTCTC CAACCCTAGT ATCTTCTGTT CCCACAGCAG CTGTGCCCCC CCTGACTAAC
    GGGGCTCCCC CTGTTATACA ACCTCTGCCT GCATTTGCTC ATCCTGCAGC CACATTGCCA
    AAGAGTTCTT CCTTTAGTAG ATCTGGTCCA GGGTCACAAC TAAACACTAA ATTACAAAAG
    GCACAGTCAT TTGATGTGGC CAGTGTCCCA CCAGTGGCAG AATGGGCTGT TCCTCAGTCA
    TCAAGACTGA AATACAGGCA ATTATTCAAT AGTCATGACA AAACTATGAG TGGACACTTA
    ACAGGTCCCC AAGCAAGAAC TATTCTTATG CAATCAAGTT TACCACAGGC TCAGCTGGCT
    TCAATATGGA ATCTTTCTGA CATTGATCAA GATGGAAAAC TTACAGCAGA AGAATTTATC
    CTGGCAATGC ACCTCATTGA TGTAGCTATG TCTGGCCAAC CACTGCCACC TGTCCTGCCT
    CCAGAATATA TTCCACCTTC TTTTAGAAGA GTTCGATCTG GCAGTGGTAT ATCTGTCATA
    AGCTCAACAT CTGTAGATCA GAGGCTACCA GAGGAACCAG TTTTAGAAGA TGAACAACAA
    CAATTAGAAA AGAAATTACC TGTAACGTTT GAAGATAAGA AGCGGGAGAA CTTTGAACGT
    GGCAACCTGG AACTGGAGAA ACGAAGGCAA GCTCTCCTGG AACAGCAGCG CAAGGAGCAG
    GAGCGCCTGG CCCAGCTGGA GCGGGCGGAG CAGGAGAGGA AGGAGCGTGA GCGCCAGGAG
    CAAGAGCGCA AAAGACAACT GGAACTGGAG AAGCAACTGG AAAAGCAGCG GGAGCTAGAA
    CGGCAGAGAG AGGAGGAGAG GAGGAAAGAA ATTGAGAGGC GAGAGGCTGC AAAACGGGAA
    CTTGAAAGGC AACGACAACT TGAGTGGGAA CGGAATCGAA GGCAAGAACT ACTAAATCAA
    AGAAACAAAG AACAAGAGGA CATAGTTGTA CTGAAAGCAA AGAAAAAGAC TTTGGAATTT
    GAATTAGAAG CTCTAAATGA TAAAAAGCAT CAACTAGAAG GGAAACTTCA AGATATCAGA
    TGTCGATTGA CCACCCAAAG GCAAGAAATT GAGAGCACAA ACAAATCTAG AGAGTTGAGA
    ATTGCCGAAA TCACCCATCT ACAGCAACAA TTACAGGAAT CTCAGCAAAT GCTTGGAAGA
    CTTATTCCAG AAAAACAGAT ACTCAATGAC CAATTAAAAC AAGTTCAACA GAACAGTTTG
    CACAGAGATT CACTTGTTAC ACTTAAAAGA GCCTTAGAAG CAAAAGAACT AGCTCGGCAG
    CAGCTACGAG ACCAACTGGA TGAAGTGGAG AAAGAAACTA GATCAAAACT ACAGGAGATT
    GATATTTTCA ATAATCAGCT GAAGGAACTA AGAGAAATAC ACAATAAGCA ACAACTCCAG
    AAGCAAAAGT CCATGGAGGC TGAACGACTG AAACAGAAAG AACAAGAACG AAAGATCATA
    GAATTAGAAA AACAAAAAGA AGAAGCCCAA AGACGAGCTC AGGAAAGGGA CAAGCAGTGG
    CTGGAGCATG TGCAGCAGGA GGACGAGCAT CAGAGACCAA GAAAACTCCA CGAAGAGGAA
    AAACTGAAAA GGGAGGAGAG TGTCAAAAAG AAGGATGGCG AGGAAAAAGG CAAACAGGAA
    GCACAAGACA AGCTGGGTCG GCTTTTCCAT CAACACCAAG AACCAGCTAA GCCAGCTGTC
    CAGGCACCCT GGTCCACTGC AGAAAAAGGT CCACTTACCA TTTCTGCACA GGAAAATGTA
    AAAGTGGTGT ATTACCGGGC ACTGTACCCC TTTGAATCCA GAAGCCATGA TGAAATCACT
    ATCCAGCCAG GAGACATAGT TATGGTTAAA GGGGAATGGG TGGATGAAAG CCAAACTGGA
    GAACCCGGCT GGCTTGGAGG AGAATTAAAA GGAAAGACAG GGTGGTTCCC TGCAAACTAT
    GCAGAGAAAA TCCCAGAAAA TGAGGTTCCT GCTCCAGTGA AACCAGTGAC TGATTCAACA
    TCTGCCCCTG CCCCCAAACT GGCCTTGCGT GAGACCCCCG CCCCTTTGGC AGTAACCTCT
    TCAGAGCCCT CCACGACCCC TAATAACTGG GCCGACTTCA GCTCCACGTG GCCCACCAGC
    ACGAATGAGA AACCAGAAAC GGATAACTGG GATGCATGGG CAGCCCAGCC CTCTCTCACC
    GTTCCAAGTG CCGGCCAGTT AAGGCAGAGG TCCGCCTTTA CTCCAGCCAC GGCCACTGGC
    TCCTCCCCGT CTCCTGTGCT AGGCCAGGGT GAAAAGGTGG AGGGGCTACA AGCTCAAGCC
    CTATATCCTT GGAGAGCCAA AAAAGACAAC CACTTAAATT TTAACAAAAA TGATGTCATC
    ACCGTCCTGG AACAGCAAGA CATGTGGTGG TTTGGAGAAG TTCAAGGTCA GAAGGGTTGG
    TTCCCCAAGT CTTACGTGAA ACTCATTTCA GGGCCCATAA GGAAGTCTAC AAGCATGGAT
    TCTGGTTCTT CAGAGAGTCC TGCTAGTCTA AAGCGAGTAG CCTCTCCAGC AGCCAAGCCG
    GTCGTTTCGG GAGAAGAATT TATTGCCATG TACACTTACG AGAGTTCTGA GCAAGGAGAT
    TTAACCTTTC AGCAAGGGGA TGTGATTTTG GTTACCAAGA AAGATGGTGA CTGGTGGACA
    GGAACAGTGG GCGACAAGGC CGGAGTCTTC CCTTCTAACT ATGTGAGGCT TAAAGATTCA
    GAGGGCTCTG GAACTGCTGG GAAAACAGGG AGTTTAGGAA AAAAACCTGA AATTGCCCAG
    GTTATTGCCT CATACACCGC CACCGGCCCC GAGCAGCTCA CTCTCGCCCC TGGTCAGCTG
    ATTTTGATCC GAAAAAAGAA CCCAGGTGGA TGGTGGGAAG GAGAGCTGCA AGCACGTGGG
    AAAAAGCGCC AGATAGGCTG GTTCCCAGCT AATTATGTAA AGCTTCTAAG CCCTGGGACG
    AGCAAAATCA CTCCAACAGA GCCACCTAAG TCAACAGCAT TAGCGGCAGT GTGCCAGGTG
    ATTGGGATGT ACGACTACAC CGCGCAGAAT GACGATGAGC TGGCCTTCAA CAAGGGCCAG
    ATCATCAACG TCCTCAACAA GGAGGACCCT GACTGGTGGA AAGGAGAAGT CAATGGACAA
    GTGGGGCTCT TCCCATCCAA TTATGTGAAG CTGACCACAG ACATGGACCC AAGCCAGCAA
    TGGTGTTCAG ACTTACATCT CTTGGATATG TTGACCCCAA CTGAAAGAAA GCGACAAGGA
    TACATCCACG AGCTCATTGT CACCGAGGAG AACTATGTGA ATGACCTGCA GCTGGTCACA
    GAGATTTTTC AAAAACCCCT GATGGAGTCT GAGCTGCTGA CAGAAAAAGA GGTTGCTATG
    ATTTTTGTGA ACTGGAAGGA GCTGATTATG TGTAATATCA AACTACTGAA AGCGCTGAGA
    GTCCGCAAGA AGATGTCCGG GGAGAAGATG CCTGTGAAGA TGATTGGAGA CATCCTGAGC
    GCACAGCTGC CGCACATGCA GCCCTACATC CGCTTCTGCA GCCGCCAGCT CAACGGGGCT
    GCCCTGATCC AGCAGAAGAC GGACGAGGCC CCAGACTTCA AGGAGTTTGT CAAAAGATTG
    GCAATGGATC CTCGGTGTAA AGGGATGCCA CTCTCTAGTT TTATACTGAA GCCTATGCAA
    CGGGTAACAA GATACCCACT GATCATTAAA AATATCCTGG AAAACACCCC TGAAAACCAC
    CCGGACCACA GCCACTTGAA GCACGCCCTG GAGAAGGCGG AAGAGCTCTG TTCCCAGGTG
    AACGAAGGGG TGCGGGAGAA GGAGAACTCT GACCGGCTGG AGTGGATCCA GGCCCACGTG
    CAGTGTGAAG GCCTGTCTGA GCAACTTGTG TTCAATTCAG TGACCAATTG CTTGGGGCCA
    CGCAAATTTC TGCACAGTGG GAAGCTCTAC AAGGCCAAGA GCAACAAGGA GCTGTATGGC
    TTCCTTTTCA ACGACTTCCT CCTGCTGACT CAGATCACGA AGCCCTTGGG GTCTTCTGGC
    ACCGACAAAG TCTTCAGCCC CAAATCAAAC CTGCAGTATA AAATGTATAA AACACCTATT
    TTCCTAAATG AGGTTCTAGT AAAATTACCC ACCGACCCTT CTGGAGACGA GCCCATCTTC
    CACATCTCCC ACATTGACCG CGTCTATACT CTCCGAGCAG AAAGCATAAA TGAAAGGACT
    GCCTGGGTGC AGAAAATCAA AGCTGCTTCT GAACTCTACA TAGAGACTGA GAAAAAGAAG
    CGCGAGAAAG CGTACCTGGT CCGTTCCCAA AGGGCAACAG GCATTGGAAG GTTGATGGTG
    AACGTGGTTG AAGGCATTGA GTTGAAACCC TGTCGGTCAC ATGGAAAGAG CAACCCGTAC
    TGTGAGGTGA CCATGGGTTC CCAGTGCCAC ATCACCAAGA CGATCCAGGA CACTCTGAAC
    CCCAAGTGGA ATTCCAACTG CCAGTTCTTC ATCCGAGACC TGGAGCAGGA AGTCCTCTGC
    ATCACTGTGT TCGAGAGGGA CCAGTTCTCA CCAGATGATT TTTTGGGTCG GACGGAGATC
    CGCGTGGCGG ACATCAAGAA AGACCAGGGC TCCAAAGGTC CAGTTACGAA GTGTCTTCTG
    CTGCACGAAG TCCCCACGGG AGAGATTGTG GTCCGCTTGG ACCTGCAGTT GTTTGATGAG
    CCGTAG

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

    CloneID OPc46480
    Clone ID Related Accession (Same CDS sequence) XM_016947144.2 , XM_009456194.2
    Accession Version XM_016947144.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5151bp)
    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 2018-03-19
    Organism Pan troglodytes(chimpanzee)
    Product intersectin-1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036900.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 20, 2018 this sequence version replaced XM_016947144.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pan troglodytes Annotation Release 105 Annotation Version :: 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGGCTCAGT TTCCAACACC TTTTGGTGGC AGCCTGGATA TCTGGGCCAT AACTGTAGAG 
    GAAAGAGCGA AGCATGATCA GCAGTTCCAT AGTTTAAAGC CAATATCTGG ATTCATTACT
    GGTGATCAAG CTAGAAACTT TTTTTTTCAA TCTGGGTTAC CTCAACCTGT TTTAGCACAG
    ATATGGGCAC TAGCTGACAT GAATAATGAT GGAAGAATGG ATCAAGTGGA GTTTTCCATA
    GCTATGAAAC TTATCAAACT GAAGCTACAA GGATATCAGC TACCCTCTGC ACTTCCCCCT
    GTCATGAAAC AGCAACCAGT TGCTATTTCT AGCGCACCAG CATTTGGTAT GGGAGGTATC
    GCCAGCATGC CACCGCTTAC AGCTGTTGCT CCAGTGCCAA TGGGATCCAT TCCAGTTGTT
    GGAATGTCTC CAACCCTAGT ATCTTCTGTT CCCACAGCAG CTGTGCCCCC CCTGACTAAC
    GGGGCTCCCC CTGTTATACA ACCTCTGCCT GCATTTGCTC ATCCTGCAGC CACATTGCCA
    AAGAGTTCTT CCTTTAGTAG ATCTGGTCCA GGGTCACAAC TAAACACTAA ATTACAAAAG
    GCACAGTCAT TTGATGTGGC CAGTGTCCCA CCAGTGGCAG AATGGGCTGT TCCTCAGTCA
    TCAAGACTGA AATACAGGCA ATTATTCAAT AGTCATGACA AAACTATGAG TGGACACTTA
    ACAGGTCCCC AAGCAAGAAC TATTCTTATG CAATCAAGTT TACCACAGGC TCAGCTGGCT
    TCAATATGGA ATCTTTCTGA CATTGATCAA GATGGAAAAC TTACAGCAGA AGAATTTATC
    CTGGCAATGC ACCTCATTGA TGTAGCTATG TCTGGCCAAC CACTGCCACC TGTCCTGCCT
    CCAGAATATA TTCCACCTTC TTTTAGAAGA GTTCGATCTG GCAGTGGTAT ATCTGTCATA
    AGCTCAACAT CTGTAGATCA GAGGCTACCA GAGGAACCAG TTTTAGAAGA TGAACAACAA
    CAATTAGAAA AGAAATTACC TGTAACGTTT GAAGATAAGA AGCGGGAGAA CTTTGAACGT
    GGCAACCTGG AACTGGAGAA ACGAAGGCAA GCTCTCCTGG AACAGCAGCG CAAGGAGCAG
    GAGCGCCTGG CCCAGCTGGA GCGGGCGGAG CAGGAGAGGA AGGAGCGTGA GCGCCAGGAG
    CAAGAGCGCA AAAGACAACT GGAACTGGAG AAGCAACTGG AAAAGCAGCG GGAGCTAGAA
    CGGCAGAGAG AGGAGGAGAG GAGGAAAGAA ATTGAGAGGC GAGAGGCTGC AAAACGGGAA
    CTTGAAAGGC AACGACAACT TGAGTGGGAA CGGAATCGAA GGCAAGAACT ACTAAATCAA
    AGAAACAAAG AACAAGAGGA CATAGTTGTA CTGAAAGCAA AGAAAAAGAC TTTGGAATTT
    GAATTAGAAG CTCTAAATGA TAAAAAGCAT CAACTAGAAG GGAAACTTCA AGATATCAGA
    TGTCGATTGA CCACCCAAAG GCAAGAAATT GAGAGCACAA ACAAATCTAG AGAGTTGAGA
    ATTGCCGAAA TCACCCATCT ACAGCAACAA TTACAGGAAT CTCAGCAAAT GCTTGGAAGA
    CTTATTCCAG AAAAACAGAT ACTCAATGAC CAATTAAAAC AAGTTCAACA GAACAGTTTG
    CACAGAGATT CACTTGTTAC ACTTAAAAGA GCCTTAGAAG CAAAAGAACT AGCTCGGCAG
    CAGCTACGAG ACCAACTGGA TGAAGTGGAG AAAGAAACTA GATCAAAACT ACAGGAGATT
    GATATTTTCA ATAATCAGCT GAAGGAACTA AGAGAAATAC ACAATAAGCA ACAACTCCAG
    AAGCAAAAGT CCATGGAGGC TGAACGACTG AAACAGAAAG AACAAGAACG AAAGATCATA
    GAATTAGAAA AACAAAAAGA AGAAGCCCAA AGACGAGCTC AGGAAAGGGA CAAGCAGTGG
    CTGGAGCATG TGCAGCAGGA GGACGAGCAT CAGAGACCAA GAAAACTCCA CGAAGAGGAA
    AAACTGAAAA GGGAGGAGAG TGTCAAAAAG AAGGATGGCG AGGAAAAAGG CAAACAGGAA
    GCACAAGACA AGCTGGGTCG GCTTTTCCAT CAACACCAAG AACCAGCTAA GCCAGCTGTC
    CAGGCACCCT GGTCCACTGC AGAAAAAGGT CCACTTACCA TTTCTGCACA GGAAAATGTA
    AAAGTGGTGT ATTACCGGGC ACTGTACCCC TTTGAATCCA GAAGCCATGA TGAAATCACT
    ATCCAGCCAG GAGACATAGT TATGGTGGAT GAAAGCCAAA CTGGAGAACC CGGCTGGCTT
    GGAGGAGAAT TAAAAGGAAA GACAGGGTGG TTCCCTGCAA ACTATGCAGA GAAAATCCCA
    GAAAATGAGG TTCCTGCTCC AGTGAAACCA GTGACTGATT CAACATCTGC CCCTGCCCCC
    AAACTGGCCT TGCGTGAGAC CCCCGCCCCT TTGGCAGTAA CCTCTTCAGA GCCCTCCACG
    ACCCCTAATA ACTGGGCCGA CTTCAGCTCC ACGTGGCCCA CCAGCACGAA TGAGAAACCA
    GAAACGGATA ACTGGGATGC ATGGGCAGCC CAGCCCTCTC TCACCGTTCC AAGTGCCGGC
    CAGTTAAGGC AGAGGTCCGC CTTTACTCCA GCCACGGCCA CTGGCTCCTC CCCGTCTCCT
    GTGCTAGGCC AGGGTGAAAA GGTGGAGGGG CTACAAGCTC AAGCCCTATA TCCTTGGAGA
    GCCAAAAAAG ACAACCACTT AAATTTTAAC AAAAATGATG TCATCACCGT CCTGGAACAG
    CAAGACATGT GGTGGTTTGG AGAAGTTCAA GGTCAGAAGG GTTGGTTCCC CAAGTCTTAC
    GTGAAACTCA TTTCAGGGCC CATAAGGAAG TCTACAAGCA TGGATTCTGG TTCTTCAGAG
    AGTCCTGCTA GTCTAAAGCG AGTAGCCTCT CCAGCAGCCA AGCCGGTCGT TTCGGGAGAA
    GAATTTATTG CCATGTACAC TTACGAGAGT TCTGAGCAAG GAGATTTAAC CTTTCAGCAA
    GGGGATGTGA TTTTGGTTAC CAAGAAAGAT GGTGACTGGT GGACAGGAAC AGTGGGCGAC
    AAGGCCGGAG TCTTCCCTTC TAACTATGTG AGGCTTAAAG ATTCAGAGGG CTCTGGAACT
    GCTGGGAAAA CAGGGAGTTT AGGAAAAAAA CCTGAAATTG CCCAGGTTAT TGCCTCATAC
    ACCGCCACCG GCCCCGAGCA GCTCACTCTC GCCCCTGGTC AGCTGATTTT GATCCGAAAA
    AAGAACCCAG GTGGATGGTG GGAAGGAGAG CTGCAAGCAC GTGGGAAAAA GCGCCAGATA
    GGCTGGTTCC CAGCTAATTA TGTAAAGCTT CTAAGCCCTG GGACGAGCAA AATCACTCCA
    ACAGAGCCAC CTAAGTCAAC AGCATTAGCG GCAGTGTGCC AGGTGATTGG GATGTACGAC
    TACACCGCGC AGAATGACGA TGAGCTGGCC TTCAACAAGG GCCAGATCAT CAACGTCCTC
    AACAAGGAGG ACCCTGACTG GTGGAAAGGA GAAGTCAATG GACAAGTGGG GCTCTTCCCA
    TCCAATTATG TGAAGCTGAC CACAGACATG GACCCAAGCC AGCAATGGTG TTCAGACTTA
    CATCTCTTGG ATATGTTGAC CCCAACTGAA AGAAAGCGAC AAGGATACAT CCACGAGCTC
    ATTGTCACCG AGGAGAACTA TGTGAATGAC CTGCAGCTGG TCACAGAGAT TTTTCAAAAA
    CCCCTGATGG AGTCTGAGCT GCTGACAGAA AAAGAGGTTG CTATGATTTT TGTGAACTGG
    AAGGAGCTGA TTATGTGTAA TATCAAACTA CTGAAAGCGC TGAGAGTCCG CAAGAAGATG
    TCCGGGGAGA AGATGCCTGT GAAGATGATT GGAGACATCC TGAGCGCACA GCTGCCGCAC
    ATGCAGCCCT ACATCCGCTT CTGCAGCCGC CAGCTCAACG GGGCTGCCCT GATCCAGCAG
    AAGACGGACG AGGCCCCAGA CTTCAAGGAG TTTGTCAAAA GATTGGCAAT GGATCCTCGG
    TGTAAAGGGA TGCCACTCTC TAGTTTTATA CTGAAGCCTA TGCAACGGGT AACAAGATAC
    CCACTGATCA TTAAAAATAT CCTGGAAAAC ACCCCTGAAA ACCACCCGGA CCACAGCCAC
    TTGAAGCACG CCCTGGAGAA GGCGGAAGAG CTCTGTTCCC AGGTGAACGA AGGGGTGCGG
    GAGAAGGAGA ACTCTGACCG GCTGGAGTGG ATCCAGGCCC ACGTGCAGTG TGAAGGCCTG
    TCTGAGCAAC TTGTGTTCAA TTCAGTGACC AATTGCTTGG GGCCACGCAA ATTTCTGCAC
    AGTGGGAAGC TCTACAAGGC CAAGAGCAAC AAGGAGCTGT ATGGCTTCCT TTTCAACGAC
    TTCCTCCTGC TGACTCAGAT CACGAAGCCC TTGGGGTCTT CTGGCACCGA CAAAGTCTTC
    AGCCCCAAAT CAAACCTGCA GTATAAAATG TATAAAACAC CTATTTTCCT AAATGAGGTT
    CTAGTAAAAT TACCCACCGA CCCTTCTGGA GACGAGCCCA TCTTCCACAT CTCCCACATT
    GACCGCGTCT ATACTCTCCG AGCAGAAAGC ATAAATGAAA GGACTGCCTG GGTGCAGAAA
    ATCAAAGCTG CTTCTGAACT CTACATAGAG ACTGAGAAAA AGAAGCGCGA GAAAGCGTAC
    CTGGTCCGTT CCCAAAGGGC AACAGGCATT GGAAGGTTGA TGGTGAACGT GGTTGAAGGC
    ATTGAGTTGA AACCCTGTCG GTCACATGGA AAGAGCAACC CGTACTGTGA GGTGACCATG
    GGTTCCCAGT GCCACATCAC CAAGACGATC CAGGACACTC TGAACCCCAA GTGGAATTCC
    AACTGCCAGT TCTTCATCCG AGACCTGGAG CAGGAAGTCC TCTGCATCAC TGTGTTCGAG
    AGGGACCAGT TCTCACCAGA TGATTTTTTG GGTCGGACGG AGATCCGCGT GGCGGACATC
    AAGAAAGACC AGGGCTCCAA AGGTCCAGTT ACGAAGTGTC TTCTGCTGCA CGAAGTCCCC
    ACGGGAGAGA TTGTGGTCCG CTTGGACCTG CAGTTGTTTG ATGAGCCGTA G

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

    RefSeq XP_016802633.1
    CDS347..5497
    Translation

    Target ORF information:

    RefSeq Version XM_016947144.2
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes intersectin 1 (ITSN1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_016947144.2

    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
    ATGGCTCAGT TTCCAACACC TTTTGGTGGC AGCCTGGATA TCTGGGCCAT AACTGTAGAG 
    GAAAGAGCGA AGCATGATCA GCAGTTCCAT AGTTTAAAGC CAATATCTGG ATTCATTACT
    GGTGATCAAG CTAGAAACTT TTTTTTTCAA TCTGGGTTAC CTCAACCTGT TTTAGCACAG
    ATATGGGCAC TAGCTGACAT GAATAATGAT GGAAGAATGG ATCAAGTGGA GTTTTCCATA
    GCTATGAAAC TTATCAAACT GAAGCTACAA GGATATCAGC TACCCTCTGC ACTTCCCCCT
    GTCATGAAAC AGCAACCAGT TGCTATTTCT AGCGCACCAG CATTTGGTAT GGGAGGTATC
    GCCAGCATGC CACCGCTTAC AGCTGTTGCT CCAGTGCCAA TGGGATCCAT TCCAGTTGTT
    GGAATGTCTC CAACCCTAGT ATCTTCTGTT CCCACAGCAG CTGTGCCCCC CCTGACTAAC
    GGGGCTCCCC CTGTTATACA ACCTCTGCCT GCATTTGCTC ATCCTGCAGC CACATTGCCA
    AAGAGTTCTT CCTTTAGTAG ATCTGGTCCA GGGTCACAAC TAAACACTAA ATTACAAAAG
    GCACAGTCAT TTGATGTGGC CAGTGTCCCA CCAGTGGCAG AATGGGCTGT TCCTCAGTCA
    TCAAGACTGA AATACAGGCA ATTATTCAAT AGTCATGACA AAACTATGAG TGGACACTTA
    ACAGGTCCCC AAGCAAGAAC TATTCTTATG CAATCAAGTT TACCACAGGC TCAGCTGGCT
    TCAATATGGA ATCTTTCTGA CATTGATCAA GATGGAAAAC TTACAGCAGA AGAATTTATC
    CTGGCAATGC ACCTCATTGA TGTAGCTATG TCTGGCCAAC CACTGCCACC TGTCCTGCCT
    CCAGAATATA TTCCACCTTC TTTTAGAAGA GTTCGATCTG GCAGTGGTAT ATCTGTCATA
    AGCTCAACAT CTGTAGATCA GAGGCTACCA GAGGAACCAG TTTTAGAAGA TGAACAACAA
    CAATTAGAAA AGAAATTACC TGTAACGTTT GAAGATAAGA AGCGGGAGAA CTTTGAACGT
    GGCAACCTGG AACTGGAGAA ACGAAGGCAA GCTCTCCTGG AACAGCAGCG CAAGGAGCAG
    GAGCGCCTGG CCCAGCTGGA GCGGGCGGAG CAGGAGAGGA AGGAGCGTGA GCGCCAGGAG
    CAAGAGCGCA AAAGACAACT GGAACTGGAG AAGCAACTGG AAAAGCAGCG GGAGCTAGAA
    CGGCAGAGAG AGGAGGAGAG GAGGAAAGAA ATTGAGAGGC GAGAGGCTGC AAAACGGGAA
    CTTGAAAGGC AACGACAACT TGAGTGGGAA CGGAATCGAA GGCAAGAACT ACTAAATCAA
    AGAAACAAAG AACAAGAGGA CATAGTTGTA CTGAAAGCAA AGAAAAAGAC TTTGGAATTT
    GAATTAGAAG CTCTAAATGA TAAAAAGCAT CAACTAGAAG GGAAACTTCA AGATATCAGA
    TGTCGATTGA CCACCCAAAG GCAAGAAATT GAGAGCACAA ACAAATCTAG AGAGTTGAGA
    ATTGCCGAAA TCACCCATCT ACAGCAACAA TTACAGGAAT CTCAGCAAAT GCTTGGAAGA
    CTTATTCCAG AAAAACAGAT ACTCAATGAC CAATTAAAAC AAGTTCAACA GAACAGTTTG
    CACAGAGATT CACTTGTTAC ACTTAAAAGA GCCTTAGAAG CAAAAGAACT AGCTCGGCAG
    CAGCTACGAG ACCAACTGGA TGAAGTGGAG AAAGAAACTA GATCAAAACT ACAGGAGATT
    GATATTTTCA ATAATCAGCT GAAGGAACTA AGAGAAATAC ACAATAAGCA ACAACTCCAG
    AAGCAAAAGT CCATGGAGGC TGAACGACTG AAACAGAAAG AACAAGAACG AAAGATCATA
    GAATTAGAAA AACAAAAAGA AGAAGCCCAA AGACGAGCTC AGGAAAGGGA CAAGCAGTGG
    CTGGAGCATG TGCAGCAGGA GGACGAGCAT CAGAGACCAA GAAAACTCCA CGAAGAGGAA
    AAACTGAAAA GGGAGGAGAG TGTCAAAAAG AAGGATGGCG AGGAAAAAGG CAAACAGGAA
    GCACAAGACA AGCTGGGTCG GCTTTTCCAT CAACACCAAG AACCAGCTAA GCCAGCTGTC
    CAGGCACCCT GGTCCACTGC AGAAAAAGGT CCACTTACCA TTTCTGCACA GGAAAATGTA
    AAAGTGGTGT ATTACCGGGC ACTGTACCCC TTTGAATCCA GAAGCCATGA TGAAATCACT
    ATCCAGCCAG GAGACATAGT TATGGTGGAT GAAAGCCAAA CTGGAGAACC CGGCTGGCTT
    GGAGGAGAAT TAAAAGGAAA GACAGGGTGG TTCCCTGCAA ACTATGCAGA GAAAATCCCA
    GAAAATGAGG TTCCTGCTCC AGTGAAACCA GTGACTGATT CAACATCTGC CCCTGCCCCC
    AAACTGGCCT TGCGTGAGAC CCCCGCCCCT TTGGCAGTAA CCTCTTCAGA GCCCTCCACG
    ACCCCTAATA ACTGGGCCGA CTTCAGCTCC ACGTGGCCCA CCAGCACGAA TGAGAAACCA
    GAAACGGATA ACTGGGATGC ATGGGCAGCC CAGCCCTCTC TCACCGTTCC AAGTGCCGGC
    CAGTTAAGGC AGAGGTCCGC CTTTACTCCA GCCACGGCCA CTGGCTCCTC CCCGTCTCCT
    GTGCTAGGCC AGGGTGAAAA GGTGGAGGGG CTACAAGCTC AAGCCCTATA TCCTTGGAGA
    GCCAAAAAAG ACAACCACTT AAATTTTAAC AAAAATGATG TCATCACCGT CCTGGAACAG
    CAAGACATGT GGTGGTTTGG AGAAGTTCAA GGTCAGAAGG GTTGGTTCCC CAAGTCTTAC
    GTGAAACTCA TTTCAGGGCC CATAAGGAAG TCTACAAGCA TGGATTCTGG TTCTTCAGAG
    AGTCCTGCTA GTCTAAAGCG AGTAGCCTCT CCAGCAGCCA AGCCGGTCGT TTCGGGAGAA
    GAATTTATTG CCATGTACAC TTACGAGAGT TCTGAGCAAG GAGATTTAAC CTTTCAGCAA
    GGGGATGTGA TTTTGGTTAC CAAGAAAGAT GGTGACTGGT GGACAGGAAC AGTGGGCGAC
    AAGGCCGGAG TCTTCCCTTC TAACTATGTG AGGCTTAAAG ATTCAGAGGG CTCTGGAACT
    GCTGGGAAAA CAGGGAGTTT AGGAAAAAAA CCTGAAATTG CCCAGGTTAT TGCCTCATAC
    ACCGCCACCG GCCCCGAGCA GCTCACTCTC GCCCCTGGTC AGCTGATTTT GATCCGAAAA
    AAGAACCCAG GTGGATGGTG GGAAGGAGAG CTGCAAGCAC GTGGGAAAAA GCGCCAGATA
    GGCTGGTTCC CAGCTAATTA TGTAAAGCTT CTAAGCCCTG GGACGAGCAA AATCACTCCA
    ACAGAGCCAC CTAAGTCAAC AGCATTAGCG GCAGTGTGCC AGGTGATTGG GATGTACGAC
    TACACCGCGC AGAATGACGA TGAGCTGGCC TTCAACAAGG GCCAGATCAT CAACGTCCTC
    AACAAGGAGG ACCCTGACTG GTGGAAAGGA GAAGTCAATG GACAAGTGGG GCTCTTCCCA
    TCCAATTATG TGAAGCTGAC CACAGACATG GACCCAAGCC AGCAATGGTG TTCAGACTTA
    CATCTCTTGG ATATGTTGAC CCCAACTGAA AGAAAGCGAC AAGGATACAT CCACGAGCTC
    ATTGTCACCG AGGAGAACTA TGTGAATGAC CTGCAGCTGG TCACAGAGAT TTTTCAAAAA
    CCCCTGATGG AGTCTGAGCT GCTGACAGAA AAAGAGGTTG CTATGATTTT TGTGAACTGG
    AAGGAGCTGA TTATGTGTAA TATCAAACTA CTGAAAGCGC TGAGAGTCCG CAAGAAGATG
    TCCGGGGAGA AGATGCCTGT GAAGATGATT GGAGACATCC TGAGCGCACA GCTGCCGCAC
    ATGCAGCCCT ACATCCGCTT CTGCAGCCGC CAGCTCAACG GGGCTGCCCT GATCCAGCAG
    AAGACGGACG AGGCCCCAGA CTTCAAGGAG TTTGTCAAAA GATTGGCAAT GGATCCTCGG
    TGTAAAGGGA TGCCACTCTC TAGTTTTATA CTGAAGCCTA TGCAACGGGT AACAAGATAC
    CCACTGATCA TTAAAAATAT CCTGGAAAAC ACCCCTGAAA ACCACCCGGA CCACAGCCAC
    TTGAAGCACG CCCTGGAGAA GGCGGAAGAG CTCTGTTCCC AGGTGAACGA AGGGGTGCGG
    GAGAAGGAGA ACTCTGACCG GCTGGAGTGG ATCCAGGCCC ACGTGCAGTG TGAAGGCCTG
    TCTGAGCAAC TTGTGTTCAA TTCAGTGACC AATTGCTTGG GGCCACGCAA ATTTCTGCAC
    AGTGGGAAGC TCTACAAGGC CAAGAGCAAC AAGGAGCTGT ATGGCTTCCT TTTCAACGAC
    TTCCTCCTGC TGACTCAGAT CACGAAGCCC TTGGGGTCTT CTGGCACCGA CAAAGTCTTC
    AGCCCCAAAT CAAACCTGCA GTATAAAATG TATAAAACAC CTATTTTCCT AAATGAGGTT
    CTAGTAAAAT TACCCACCGA CCCTTCTGGA GACGAGCCCA TCTTCCACAT CTCCCACATT
    GACCGCGTCT ATACTCTCCG AGCAGAAAGC ATAAATGAAA GGACTGCCTG GGTGCAGAAA
    ATCAAAGCTG CTTCTGAACT CTACATAGAG ACTGAGAAAA AGAAGCGCGA GAAAGCGTAC
    CTGGTCCGTT CCCAAAGGGC AACAGGCATT GGAAGGTTGA TGGTGAACGT GGTTGAAGGC
    ATTGAGTTGA AACCCTGTCG GTCACATGGA AAGAGCAACC CGTACTGTGA GGTGACCATG
    GGTTCCCAGT GCCACATCAC CAAGACGATC CAGGACACTC TGAACCCCAA GTGGAATTCC
    AACTGCCAGT TCTTCATCCG AGACCTGGAG CAGGAAGTCC TCTGCATCAC TGTGTTCGAG
    AGGGACCAGT TCTCACCAGA TGATTTTTTG GGTCGGACGG AGATCCGCGT GGCGGACATC
    AAGAAAGACC AGGGCTCCAA AGGTCCAGTT ACGAAGTGTC TTCTGCTGCA CGAAGTCCCC
    ACGGGAGAGA TTGTGGTCCG CTTGGACCTG CAGTTGTTTG ATGAGCCGTA G

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

    CloneID OPc46480
    Clone ID Related Accession (Same CDS sequence) XM_016947144.2 , XM_009456194.2
    Accession Version XM_009456194.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5151bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-01
    Organism Pan troglodytes(chimpanzee)
    Product intersectin-1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_006488.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 2, 2016 this sequence version replaced XM_009456194.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Pan troglodytes Annotation Release 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGGCTCAGT TTCCAACACC TTTTGGTGGC AGCCTGGATA TCTGGGCCAT AACTGTAGAG 
    GAAAGAGCGA AGCATGATCA GCAGTTCCAT AGTTTAAAGC CAATATCTGG ATTCATTACT
    GGTGATCAAG CTAGAAACTT TTTTTTTCAA TCTGGGTTAC CTCAACCTGT TTTAGCACAG
    ATATGGGCAC TAGCTGACAT GAATAATGAT GGAAGAATGG ATCAAGTGGA GTTTTCCATA
    GCTATGAAAC TTATCAAACT GAAGCTACAA GGATATCAGC TACCCTCTGC ACTTCCCCCT
    GTCATGAAAC AGCAACCAGT TGCTATTTCT AGCGCACCAG CATTTGGTAT GGGAGGTATC
    GCCAGCATGC CACCGCTTAC AGCTGTTGCT CCAGTGCCAA TGGGATCCAT TCCAGTTGTT
    GGAATGTCTC CAACCCTAGT ATCTTCTGTT CCCACAGCAG CTGTGCCCCC CCTGACTAAC
    GGGGCTCCCC CTGTTATACA ACCTCTGCCT GCATTTGCTC ATCCTGCAGC CACATTGCCA
    AAGAGTTCTT CCTTTAGTAG ATCTGGTCCA GGGTCACAAC TAAACACTAA ATTACAAAAG
    GCACAGTCAT TTGATGTGGC CAGTGTCCCA CCAGTGGCAG AATGGGCTGT TCCTCAGTCA
    TCAAGACTGA AATACAGGCA ATTATTCAAT AGTCATGACA AAACTATGAG TGGACACTTA
    ACAGGTCCCC AAGCAAGAAC TATTCTTATG CAATCAAGTT TACCACAGGC TCAGCTGGCT
    TCAATATGGA ATCTTTCTGA CATTGATCAA GATGGAAAAC TTACAGCAGA AGAATTTATC
    CTGGCAATGC ACCTCATTGA TGTAGCTATG TCTGGCCAAC CACTGCCACC TGTCCTGCCT
    CCAGAATATA TTCCACCTTC TTTTAGAAGA GTTCGATCTG GCAGTGGTAT ATCTGTCATA
    AGCTCAACAT CTGTAGATCA GAGGCTACCA GAGGAACCAG TTTTAGAAGA TGAACAACAA
    CAATTAGAAA AGAAATTACC TGTAACGTTT GAAGATAAGA AGCGGGAGAA CTTTGAACGT
    GGCAACCTGG AACTGGAGAA ACGAAGGCAA GCTCTCCTGG AACAGCAGCG CAAGGAGCAG
    GAGCGCCTGG CCCAGCTGGA GCGGGCGGAG CAGGAGAGGA AGGAGCGTGA GCGCCAGGAG
    CAAGAGCGCA AAAGACAACT GGAACTGGAG AAGCAACTGG AAAAGCAGCG GGAGCTAGAA
    CGGCAGAGAG AGGAGGAGAG GAGGAAAGAA ATTGAGAGGC GAGAGGCTGC AAAACGGGAA
    CTTGAAAGGC AACGACAACT TGAGTGGGAA CGGAATCGAA GGCAAGAACT ACTAAATCAA
    AGAAACAAAG AACAAGAGGA CATAGTTGTA CTGAAAGCAA AGAAAAAGAC TTTGGAATTT
    GAATTAGAAG CTCTAAATGA TAAAAAGCAT CAACTAGAAG GGAAACTTCA AGATATCAGA
    TGTCGATTGA CCACCCAAAG GCAAGAAATT GAGAGCACAA ACAAATCTAG AGAGTTGAGA
    ATTGCCGAAA TCACCCATCT ACAGCAACAA TTACAGGAAT CTCAGCAAAT GCTTGGAAGA
    CTTATTCCAG AAAAACAGAT ACTCAATGAC CAATTAAAAC AAGTTCAACA GAACAGTTTG
    CACAGAGATT CACTTGTTAC ACTTAAAAGA GCCTTAGAAG CAAAAGAACT AGCTCGGCAG
    CAGCTACGAG ACCAACTGGA TGAAGTGGAG AAAGAAACTA GATCAAAACT ACAGGAGATT
    GATATTTTCA ATAATCAGCT GAAGGAACTA AGAGAAATAC ACAATAAGCA ACAACTCCAG
    AAGCAAAAGT CCATGGAGGC TGAACGACTG AAACAGAAAG AACAAGAACG AAAGATCATA
    GAATTAGAAA AACAAAAAGA AGAAGCCCAA AGACGAGCTC AGGAAAGGGA CAAGCAGTGG
    CTGGAGCATG TGCAGCAGGA GGACGAGCAT CAGAGACCAA GAAAACTCCA CGAAGAGGAA
    AAACTGAAAA GGGAGGAGAG TGTCAAAAAG AAGGATGGCG AGGAAAAAGG CAAACAGGAA
    GCACAAGACA AGCTGGGTCG GCTTTTCCAT CAACACCAAG AACCAGCTAA GCCAGCTGTC
    CAGGCACCCT GGTCCACTGC AGAAAAAGGT CCACTTACCA TTTCTGCACA GGAAAATGTA
    AAAGTGGTGT ATTACCGGGC ACTGTACCCC TTTGAATCCA GAAGCCATGA TGAAATCACT
    ATCCAGCCAG GAGACATAGT TATGGTGGAT GAAAGCCAAA CTGGAGAACC CGGCTGGCTT
    GGAGGAGAAT TAAAAGGAAA GACAGGGTGG TTCCCTGCAA ACTATGCAGA GAAAATCCCA
    GAAAATGAGG TTCCTGCTCC AGTGAAACCA GTGACTGATT CAACATCTGC CCCTGCCCCC
    AAACTGGCCT TGCGTGAGAC CCCCGCCCCT TTGGCAGTAA CCTCTTCAGA GCCCTCCACG
    ACCCCTAATA ACTGGGCCGA CTTCAGCTCC ACGTGGCCCA CCAGCACGAA TGAGAAACCA
    GAAACGGATA ACTGGGATGC ATGGGCAGCC CAGCCCTCTC TCACCGTTCC AAGTGCCGGC
    CAGTTAAGGC AGAGGTCCGC CTTTACTCCA GCCACGGCCA CTGGCTCCTC CCCGTCTCCT
    GTGCTAGGCC AGGGTGAAAA GGTGGAGGGG CTACAAGCTC AAGCCCTATA TCCTTGGAGA
    GCCAAAAAAG ACAACCACTT AAATTTTAAC AAAAATGATG TCATCACCGT CCTGGAACAG
    CAAGACATGT GGTGGTTTGG AGAAGTTCAA GGTCAGAAGG GTTGGTTCCC CAAGTCTTAC
    GTGAAACTCA TTTCAGGGCC CATAAGGAAG TCTACAAGCA TGGATTCTGG TTCTTCAGAG
    AGTCCTGCTA GTCTAAAGCG AGTAGCCTCT CCAGCAGCCA AGCCGGTCGT TTCGGGAGAA
    GAATTTATTG CCATGTACAC TTACGAGAGT TCTGAGCAAG GAGATTTAAC CTTTCAGCAA
    GGGGATGTGA TTTTGGTTAC CAAGAAAGAT GGTGACTGGT GGACAGGAAC AGTGGGCGAC
    AAGGCCGGAG TCTTCCCTTC TAACTATGTG AGGCTTAAAG ATTCAGAGGG CTCTGGAACT
    GCTGGGAAAA CAGGGAGTTT AGGAAAAAAA CCTGAAATTG CCCAGGTTAT TGCCTCATAC
    ACCGCCACCG GCCCCGAGCA GCTCACTCTC GCCCCTGGTC AGCTGATTTT GATCCGAAAA
    AAGAACCCAG GTGGATGGTG GGAAGGAGAG CTGCAAGCAC GTGGGAAAAA GCGCCAGATA
    GGCTGGTTCC CAGCTAATTA TGTAAAGCTT CTAAGCCCTG GGACGAGCAA AATCACTCCA
    ACAGAGCCAC CTAAGTCAAC AGCATTAGCG GCAGTGTGCC AGGTGATTGG GATGTACGAC
    TACACCGCGC AGAATGACGA TGAGCTGGCC TTCAACAAGG GCCAGATCAT CAACGTCCTC
    AACAAGGAGG ACCCTGACTG GTGGAAAGGA GAAGTCAATG GACAAGTGGG GCTCTTCCCA
    TCCAATTATG TGAAGCTGAC CACAGACATG GACCCAAGCC AGCAATGGTG TTCAGACTTA
    CATCTCTTGG ATATGTTGAC CCCAACTGAA AGAAAGCGAC AAGGATACAT CCACGAGCTC
    ATTGTCACCG AGGAGAACTA TGTGAATGAC CTGCAGCTGG TCACAGAGAT TTTTCAAAAA
    CCCCTGATGG AGTCTGAGCT GCTGACAGAA AAAGAGGTTG CTATGATTTT TGTGAACTGG
    AAGGAGCTGA TTATGTGTAA TATCAAACTA CTGAAAGCGC TGAGAGTCCG CAAGAAGATG
    TCCGGGGAGA AGATGCCTGT GAAGATGATT GGAGACATCC TGAGCGCACA GCTGCCGCAC
    ATGCAGCCCT ACATCCGCTT CTGCAGCCGC CAGCTCAACG GGGCTGCCCT GATCCAGCAG
    AAGACGGACG AGGCCCCAGA CTTCAAGGAG TTTGTCAAAA GATTGGCAAT GGATCCTCGG
    TGTAAAGGGA TGCCACTCTC TAGTTTTATA CTGAAGCCTA TGCAACGGGT AACAAGATAC
    CCACTGATCA TTAAAAATAT CCTGGAAAAC ACCCCTGAAA ACCACCCGGA CCACAGCCAC
    TTGAAGCACG CCCTGGAGAA GGCGGAAGAG CTCTGTTCCC AGGTGAACGA AGGGGTGCGG
    GAGAAGGAGA ACTCTGACCG GCTGGAGTGG ATCCAGGCCC ACGTGCAGTG TGAAGGCCTG
    TCTGAGCAAC TTGTGTTCAA TTCAGTGACC AATTGCTTGG GGCCACGCAA ATTTCTGCAC
    AGTGGGAAGC TCTACAAGGC CAAGAGCAAC AAGGAGCTGT ATGGCTTCCT TTTCAACGAC
    TTCCTCCTGC TGACTCAGAT CACGAAGCCC TTGGGGTCTT CTGGCACCGA CAAAGTCTTC
    AGCCCCAAAT CAAACCTGCA GTATAAAATG TATAAAACAC CTATTTTCCT AAATGAGGTT
    CTAGTAAAAT TACCCACCGA CCCTTCTGGA GACGAGCCCA TCTTCCACAT CTCCCACATT
    GACCGCGTCT ATACTCTCCG AGCAGAAAGC ATAAATGAAA GGACTGCCTG GGTGCAGAAA
    ATCAAAGCTG CTTCTGAACT CTACATAGAG ACTGAGAAAA AGAAGCGCGA GAAAGCGTAC
    CTGGTCCGTT CCCAAAGGGC AACAGGCATT GGAAGGTTGA TGGTGAACGT GGTTGAAGGC
    ATTGAGTTGA AACCCTGTCG GTCACATGGA AAGAGCAACC CGTACTGTGA GGTGACCATG
    GGTTCCCAGT GCCACATCAC CAAGACGATC CAGGACACTC TGAACCCCAA GTGGAATTCC
    AACTGCCAGT TCTTCATCCG AGACCTGGAG CAGGAAGTCC TCTGCATCAC TGTGTTCGAG
    AGGGACCAGT TCTCACCAGA TGATTTTTTG GGTCGGACGG AGATCCGCGT GGCGGACATC
    AAGAAAGACC AGGGCTCCAA AGGTCCAGTT ACGAAGTGTC TTCTGCTGCA CGAAGTCCCC
    ACGGGAGAGA TTGTGGTCCG CTTGGACCTG CAGTTGTTTG ATGAGCCGTA G

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

    RefSeq XP_009454469.1
    CDS318..5468
    Translation

    Target ORF information:

    RefSeq Version XM_009456194.2
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes intersectin 1 (ITSN1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009456194.2

    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
    ATGGCTCAGT TTCCAACACC TTTTGGTGGC AGCCTGGATA TCTGGGCCAT AACTGTAGAG 
    GAAAGAGCGA AGCATGATCA GCAGTTCCAT AGTTTAAAGC CAATATCTGG ATTCATTACT
    GGTGATCAAG CTAGAAACTT TTTTTTTCAA TCTGGGTTAC CTCAACCTGT TTTAGCACAG
    ATATGGGCAC TAGCTGACAT GAATAATGAT GGAAGAATGG ATCAAGTGGA GTTTTCCATA
    GCTATGAAAC TTATCAAACT GAAGCTACAA GGATATCAGC TACCCTCTGC ACTTCCCCCT
    GTCATGAAAC AGCAACCAGT TGCTATTTCT AGCGCACCAG CATTTGGTAT GGGAGGTATC
    GCCAGCATGC CACCGCTTAC AGCTGTTGCT CCAGTGCCAA TGGGATCCAT TCCAGTTGTT
    GGAATGTCTC CAACCCTAGT ATCTTCTGTT CCCACAGCAG CTGTGCCCCC CCTGACTAAC
    GGGGCTCCCC CTGTTATACA ACCTCTGCCT GCATTTGCTC ATCCTGCAGC CACATTGCCA
    AAGAGTTCTT CCTTTAGTAG ATCTGGTCCA GGGTCACAAC TAAACACTAA ATTACAAAAG
    GCACAGTCAT TTGATGTGGC CAGTGTCCCA CCAGTGGCAG AATGGGCTGT TCCTCAGTCA
    TCAAGACTGA AATACAGGCA ATTATTCAAT AGTCATGACA AAACTATGAG TGGACACTTA
    ACAGGTCCCC AAGCAAGAAC TATTCTTATG CAATCAAGTT TACCACAGGC TCAGCTGGCT
    TCAATATGGA ATCTTTCTGA CATTGATCAA GATGGAAAAC TTACAGCAGA AGAATTTATC
    CTGGCAATGC ACCTCATTGA TGTAGCTATG TCTGGCCAAC CACTGCCACC TGTCCTGCCT
    CCAGAATATA TTCCACCTTC TTTTAGAAGA GTTCGATCTG GCAGTGGTAT ATCTGTCATA
    AGCTCAACAT CTGTAGATCA GAGGCTACCA GAGGAACCAG TTTTAGAAGA TGAACAACAA
    CAATTAGAAA AGAAATTACC TGTAACGTTT GAAGATAAGA AGCGGGAGAA CTTTGAACGT
    GGCAACCTGG AACTGGAGAA ACGAAGGCAA GCTCTCCTGG AACAGCAGCG CAAGGAGCAG
    GAGCGCCTGG CCCAGCTGGA GCGGGCGGAG CAGGAGAGGA AGGAGCGTGA GCGCCAGGAG
    CAAGAGCGCA AAAGACAACT GGAACTGGAG AAGCAACTGG AAAAGCAGCG GGAGCTAGAA
    CGGCAGAGAG AGGAGGAGAG GAGGAAAGAA ATTGAGAGGC GAGAGGCTGC AAAACGGGAA
    CTTGAAAGGC AACGACAACT TGAGTGGGAA CGGAATCGAA GGCAAGAACT ACTAAATCAA
    AGAAACAAAG AACAAGAGGA CATAGTTGTA CTGAAAGCAA AGAAAAAGAC TTTGGAATTT
    GAATTAGAAG CTCTAAATGA TAAAAAGCAT CAACTAGAAG GGAAACTTCA AGATATCAGA
    TGTCGATTGA CCACCCAAAG GCAAGAAATT GAGAGCACAA ACAAATCTAG AGAGTTGAGA
    ATTGCCGAAA TCACCCATCT ACAGCAACAA TTACAGGAAT CTCAGCAAAT GCTTGGAAGA
    CTTATTCCAG AAAAACAGAT ACTCAATGAC CAATTAAAAC AAGTTCAACA GAACAGTTTG
    CACAGAGATT CACTTGTTAC ACTTAAAAGA GCCTTAGAAG CAAAAGAACT AGCTCGGCAG
    CAGCTACGAG ACCAACTGGA TGAAGTGGAG AAAGAAACTA GATCAAAACT ACAGGAGATT
    GATATTTTCA ATAATCAGCT GAAGGAACTA AGAGAAATAC ACAATAAGCA ACAACTCCAG
    AAGCAAAAGT CCATGGAGGC TGAACGACTG AAACAGAAAG AACAAGAACG AAAGATCATA
    GAATTAGAAA AACAAAAAGA AGAAGCCCAA AGACGAGCTC AGGAAAGGGA CAAGCAGTGG
    CTGGAGCATG TGCAGCAGGA GGACGAGCAT CAGAGACCAA GAAAACTCCA CGAAGAGGAA
    AAACTGAAAA GGGAGGAGAG TGTCAAAAAG AAGGATGGCG AGGAAAAAGG CAAACAGGAA
    GCACAAGACA AGCTGGGTCG GCTTTTCCAT CAACACCAAG AACCAGCTAA GCCAGCTGTC
    CAGGCACCCT GGTCCACTGC AGAAAAAGGT CCACTTACCA TTTCTGCACA GGAAAATGTA
    AAAGTGGTGT ATTACCGGGC ACTGTACCCC TTTGAATCCA GAAGCCATGA TGAAATCACT
    ATCCAGCCAG GAGACATAGT TATGGTGGAT GAAAGCCAAA CTGGAGAACC CGGCTGGCTT
    GGAGGAGAAT TAAAAGGAAA GACAGGGTGG TTCCCTGCAA ACTATGCAGA GAAAATCCCA
    GAAAATGAGG TTCCTGCTCC AGTGAAACCA GTGACTGATT CAACATCTGC CCCTGCCCCC
    AAACTGGCCT TGCGTGAGAC CCCCGCCCCT TTGGCAGTAA CCTCTTCAGA GCCCTCCACG
    ACCCCTAATA ACTGGGCCGA CTTCAGCTCC ACGTGGCCCA CCAGCACGAA TGAGAAACCA
    GAAACGGATA ACTGGGATGC ATGGGCAGCC CAGCCCTCTC TCACCGTTCC AAGTGCCGGC
    CAGTTAAGGC AGAGGTCCGC CTTTACTCCA GCCACGGCCA CTGGCTCCTC CCCGTCTCCT
    GTGCTAGGCC AGGGTGAAAA GGTGGAGGGG CTACAAGCTC AAGCCCTATA TCCTTGGAGA
    GCCAAAAAAG ACAACCACTT AAATTTTAAC AAAAATGATG TCATCACCGT CCTGGAACAG
    CAAGACATGT GGTGGTTTGG AGAAGTTCAA GGTCAGAAGG GTTGGTTCCC CAAGTCTTAC
    GTGAAACTCA TTTCAGGGCC CATAAGGAAG TCTACAAGCA TGGATTCTGG TTCTTCAGAG
    AGTCCTGCTA GTCTAAAGCG AGTAGCCTCT CCAGCAGCCA AGCCGGTCGT TTCGGGAGAA
    GAATTTATTG CCATGTACAC TTACGAGAGT TCTGAGCAAG GAGATTTAAC CTTTCAGCAA
    GGGGATGTGA TTTTGGTTAC CAAGAAAGAT GGTGACTGGT GGACAGGAAC AGTGGGCGAC
    AAGGCCGGAG TCTTCCCTTC TAACTATGTG AGGCTTAAAG ATTCAGAGGG CTCTGGAACT
    GCTGGGAAAA CAGGGAGTTT AGGAAAAAAA CCTGAAATTG CCCAGGTTAT TGCCTCATAC
    ACCGCCACCG GCCCCGAGCA GCTCACTCTC GCCCCTGGTC AGCTGATTTT GATCCGAAAA
    AAGAACCCAG GTGGATGGTG GGAAGGAGAG CTGCAAGCAC GTGGGAAAAA GCGCCAGATA
    GGCTGGTTCC CAGCTAATTA TGTAAAGCTT CTAAGCCCTG GGACGAGCAA AATCACTCCA
    ACAGAGCCAC CTAAGTCAAC AGCATTAGCG GCAGTGTGCC AGGTGATTGG GATGTACGAC
    TACACCGCGC AGAATGACGA TGAGCTGGCC TTCAACAAGG GCCAGATCAT CAACGTCCTC
    AACAAGGAGG ACCCTGACTG GTGGAAAGGA GAAGTCAATG GACAAGTGGG GCTCTTCCCA
    TCCAATTATG TGAAGCTGAC CACAGACATG GACCCAAGCC AGCAATGGTG TTCAGACTTA
    CATCTCTTGG ATATGTTGAC CCCAACTGAA AGAAAGCGAC AAGGATACAT CCACGAGCTC
    ATTGTCACCG AGGAGAACTA TGTGAATGAC CTGCAGCTGG TCACAGAGAT TTTTCAAAAA
    CCCCTGATGG AGTCTGAGCT GCTGACAGAA AAAGAGGTTG CTATGATTTT TGTGAACTGG
    AAGGAGCTGA TTATGTGTAA TATCAAACTA CTGAAAGCGC TGAGAGTCCG CAAGAAGATG
    TCCGGGGAGA AGATGCCTGT GAAGATGATT GGAGACATCC TGAGCGCACA GCTGCCGCAC
    ATGCAGCCCT ACATCCGCTT CTGCAGCCGC CAGCTCAACG GGGCTGCCCT GATCCAGCAG
    AAGACGGACG AGGCCCCAGA CTTCAAGGAG TTTGTCAAAA GATTGGCAAT GGATCCTCGG
    TGTAAAGGGA TGCCACTCTC TAGTTTTATA CTGAAGCCTA TGCAACGGGT AACAAGATAC
    CCACTGATCA TTAAAAATAT CCTGGAAAAC ACCCCTGAAA ACCACCCGGA CCACAGCCAC
    TTGAAGCACG CCCTGGAGAA GGCGGAAGAG CTCTGTTCCC AGGTGAACGA AGGGGTGCGG
    GAGAAGGAGA ACTCTGACCG GCTGGAGTGG ATCCAGGCCC ACGTGCAGTG TGAAGGCCTG
    TCTGAGCAAC TTGTGTTCAA TTCAGTGACC AATTGCTTGG GGCCACGCAA ATTTCTGCAC
    AGTGGGAAGC TCTACAAGGC CAAGAGCAAC AAGGAGCTGT ATGGCTTCCT TTTCAACGAC
    TTCCTCCTGC TGACTCAGAT CACGAAGCCC TTGGGGTCTT CTGGCACCGA CAAAGTCTTC
    AGCCCCAAAT CAAACCTGCA GTATAAAATG TATAAAACAC CTATTTTCCT AAATGAGGTT
    CTAGTAAAAT TACCCACCGA CCCTTCTGGA GACGAGCCCA TCTTCCACAT CTCCCACATT
    GACCGCGTCT ATACTCTCCG AGCAGAAAGC ATAAATGAAA GGACTGCCTG GGTGCAGAAA
    ATCAAAGCTG CTTCTGAACT CTACATAGAG ACTGAGAAAA AGAAGCGCGA GAAAGCGTAC
    CTGGTCCGTT CCCAAAGGGC AACAGGCATT GGAAGGTTGA TGGTGAACGT GGTTGAAGGC
    ATTGAGTTGA AACCCTGTCG GTCACATGGA AAGAGCAACC CGTACTGTGA GGTGACCATG
    GGTTCCCAGT GCCACATCAC CAAGACGATC CAGGACACTC TGAACCCCAA GTGGAATTCC
    AACTGCCAGT TCTTCATCCG AGACCTGGAG CAGGAAGTCC TCTGCATCAC TGTGTTCGAG
    AGGGACCAGT TCTCACCAGA TGATTTTTTG GGTCGGACGG AGATCCGCGT GGCGGACATC
    AAGAAAGACC AGGGCTCCAA AGGTCCAGTT ACGAAGTGTC TTCTGCTGCA CGAAGTCCCC
    ACGGGAGAGA TTGTGGTCCG CTTGGACCTG CAGTTGTTTG ATGAGCCGTA G

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

    CloneID OPc46481
    Clone ID Related Accession (Same CDS sequence) XM_016947145.2 , XM_009456243.2
    Accession Version XM_016947145.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4953bp)
    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 2018-03-19
    Organism Pan troglodytes(chimpanzee)
    Product intersectin-1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036900.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 20, 2018 this sequence version replaced XM_016947145.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pan troglodytes Annotation Release 105 Annotation Version :: 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGGCTCAGT TTCCAACACC TTTTGGTGGC AGCCTGGATA TCTGGGCCAT AACTGTAGAG 
    GAAAGAGCGA AGCATGATCA GCAGTTCCAT AGTTTAAAGC CAATATCTGG ATTCATTACT
    GGTGATCAAG CTAGAAACTT TTTTTTTCAA TCTGGGTTAC CTCAACCTGT TTTAGCACAG
    ATATGGGCAC TAGCTGACAT GAATAATGAT GGAAGAATGG ATCAAGTGGA GTTTTCCATA
    GCTATGAAAC TTATCAAACT GAAGCTACAA GGATATCAGC TACCCTCTGC ACTTCCCCCT
    GTCATGAAAC AGCAACCAGT TGCTATTTCT AGCGCACCAG CATTTGGTAT GGGAGGTATC
    GCCAGCATGC CACCGCTTAC AGCTGTTGCT CCAGTGCCAA TGGGATCCAT TCCAGTTGTT
    GGAATGTCTC CAACCCTAGT ATCTTCTGTT CCCACAGCAG CTGTGCCCCC CCTGACTAAC
    GGGGCTCCCC CTGTTATACA ACCTCTGCCT GCATTTGCTC ATCCTGCAGC CACATTGCCA
    AAGAGTTCTT CCTTTAGTAG ATCTGGTCCA GGGTCACAAC TAAACACTAA ATTACAAAAG
    GCACAGTCAT TTGATGTGGC CAGTGTCCCA CCAGTGGCAG AATGGGCTGT TCCTCAGTCA
    TCAAGACTGA AATACAGGCA ATTATTCAAT AGTCATGACA AAACTATGAG TGGACACTTA
    ACAGGTCCCC AAGCAAGAAC TATTCTTATG CAATCAAGTT TACCACAGGC TCAGCTGGCT
    TCAATATGGA ATCTTTCTGA CATTGATCAA GATGGAAAAC TTACAGCAGA AGAATTTATC
    CTGGCAATGC ACCTCATTGA TGTAGCTATG TCTGGCCAAC CACTGCCACC TGTCCTGCCT
    CCAGAATATA TTCCACCTTC TTTTAGAAGA GTTCGATCTG GCAGTGGTAT ATCTGTCATA
    AGCTCAACAT CTGTAGATCA GAGGCTACCA GAGGAACCAG TTTTAGAAGA TGAACAACAA
    CAATTAGAAA AGAAATTACC TGTAACGTTT GAAGATAAGA AGCGGGAGAA CTTTGAACGT
    GGCAACCTGG AACTGGAGAA ACGAAGGCAA GCTCTCCTGG AACAGCAGCG CAAGGAGCAG
    GAGCGCCTGG CCCAGCTGGA GCGGGCGGAG CAGGAGAGGA AGGAGCGTGA GCGCCAGGAG
    CAAGAGCGCA AAAGACAACT GGAACTGGAG AAGCAACTGG AAAAGCAGCG GGAGCTAGAA
    CGGCAGAGAG AGGAGGAGAG GAGGAAAGAA ATTGAGAGGC GAGAGGCTGC AAAACGGGAA
    CTTGAAAGGC AACGACAACT TGAGTGGGAA CGGAATCGAA GGCAAGAACT ACTAAATCAA
    AGAAACAAAG AACAAGAGGA CATAGTTGTA CTGAAAGCAA AGAAAAAGAC TTTGGAATTT
    GAATTAGAAG CTCTAAATGA TAAAAAGCAT CAACTAGAAG GGAAACTTCA AGATATCAGA
    TGTCGATTGA CCACCCAAAG GCAAGAAATT GAGAGCACAA ACAAATCTAG AGAGTTGAGA
    ATTGCCGAAA TCACCCATCT ACAGCAACAA TTACAGGAAT CTCAGCAAAT GCTTGGAAGA
    CTTATTCCAG AAAAACAGAT ACTCAATGAC CAATTAAAAC AAGTTCAACA GAACAGTTTG
    CACAGAGATT CACTTGTTAC ACTTAAAAGA GCCTTAGAAG CAAAAGAACT AGCTCGGCAG
    CAGCTACGAG ACCAACTGGA TGAAGTGGAG AAAGAAACTA GATCAAAACT ACAGGAGATT
    GATATTTTCA ATAATCAGCT GAAGGAACTA AGAGAAATAC ACAATAAGCA ACAACTCCAG
    AAGCAAAAGT CCATGGAGGC TGAACGACTG AAACAGAAAG AACAAGAACG AAAGATCATA
    GAATTAGAAA AACAAAAAGA AGAAGCCCAA AGACGAGCTC AGGAAAGGGA CAAGCAGTGG
    CTGGAGCATG TGCAGCAGGA GGACGAGCAT CAGAGACCAA GAAAACTCCA CGAAGAGGAA
    AAACTGAAAA GGGAGGAGAG TGTCAAAAAG AAGGATGGCG AGGAAAAAGG CAAACAGGAA
    GCACAAGACA AGCTGGGTCG GCTTTTCCAT CAACACCAAG AACCAGCTAA GCCAGCTGTC
    CAGGCACCCT GGTCCACTGC AGAAAAAGGT CCACTTACCA TTTCTGCACA GGAAAATGTA
    AAAGTGGTGT ATTACCGGGC ACTGTACCCC TTTGAATCCA GAAGCCATGA TGAAATCACT
    ATCCAGCCAG GAGACATAGT TATGGTTAAA GGGGAATGGG TGGATGAAAG CCAAACTGGA
    GAACCCGGCT GGCTTGGAGG AGAATTAAAA GGAAAGACAG GGTGGTTCCC TGCAAACTAT
    GCAGAGAAAA TCCCAGAAAA TGAGGTTCCT GCTCCAGTGA AACCAGTGAC TGATTCAACA
    TCTGCCCCTG CCCCCAAACT GGCCTTGCGT GAGACCCCCG CCCCTTTGGC AGTAACCTCT
    TCAGAGCCCT CCACGACCCC TAATAACTGG GCCGACTTCA GCTCCACGTG GCCCACCAGC
    ACGAATGAGA AACCAGAAAC GGATAACTGG GATGCATGGG CAGCCCAGCC CTCTCTCACC
    GTTCCAAGTG CCGGCCAGTT AAGGCAGAGG TCCGCCTTTA CTCCAGCCAC GGCCACTGGC
    TCCTCCCCGT CTCCTGTGCT AGGCCAGGGT GAAAAGGTGG AGGGGCTACA AGCTCAAGCC
    CTATATCCTT GGAGAGCCAA AAAAGACAAC CACTTAAATT TTAACAAAAA TGATGTCATC
    ACCGTCCTGG AACAGCAAGA CATGTGGTGG TTTGGAGAAG TTCAAGGTCA GAAGGGTTGG
    TTCCCCAAGT CTTACGTGAA ACTCATTTCA GGGCCCATAA GGAAGTCTAC AAGCATGGAT
    TCTGGTTCTT CAGAGAGTCC TGCTAGTCTA AAGCGAGTAG CCTCTCCAGC AGCCAAGCCG
    GTCGTTTCGG GAGAAGAAAT TGCCCAGGTT ATTGCCTCAT ACACCGCCAC CGGCCCCGAG
    CAGCTCACTC TCGCCCCTGG TCAGCTGATT TTGATCCGAA AAAAGAACCC AGGTGGATGG
    TGGGAAGGAG AGCTGCAAGC ACGTGGGAAA AAGCGCCAGA TAGGCTGGTT CCCAGCTAAT
    TATGTAAAGC TTCTAAGCCC TGGGACGAGC AAAATCACTC CAACAGAGCC ACCTAAGTCA
    ACAGCATTAG CGGCAGTGTG CCAGGTGATT GGGATGTACG ACTACACCGC GCAGAATGAC
    GATGAGCTGG CCTTCAACAA GGGCCAGATC ATCAACGTCC TCAACAAGGA GGACCCTGAC
    TGGTGGAAAG GAGAAGTCAA TGGACAAGTG GGGCTCTTCC CATCCAATTA TGTGAAGCTG
    ACCACAGACA TGGACCCAAG CCAGCAATGG TGTTCAGACT TACATCTCTT GGATATGTTG
    ACCCCAACTG AAAGAAAGCG ACAAGGATAC ATCCACGAGC TCATTGTCAC CGAGGAGAAC
    TATGTGAATG ACCTGCAGCT GGTCACAGAG ATTTTTCAAA AACCCCTGAT GGAGTCTGAG
    CTGCTGACAG AAAAAGAGGT TGCTATGATT TTTGTGAACT GGAAGGAGCT GATTATGTGT
    AATATCAAAC TACTGAAAGC GCTGAGAGTC CGCAAGAAGA TGTCCGGGGA GAAGATGCCT
    GTGAAGATGA TTGGAGACAT CCTGAGCGCA CAGCTGCCGC ACATGCAGCC CTACATCCGC
    TTCTGCAGCC GCCAGCTCAA CGGGGCTGCC CTGATCCAGC AGAAGACGGA CGAGGCCCCA
    GACTTCAAGG AGTTTGTCAA AAGATTGGCA ATGGATCCTC GGTGTAAAGG GATGCCACTC
    TCTAGTTTTA TACTGAAGCC TATGCAACGG GTAACAAGAT ACCCACTGAT CATTAAAAAT
    ATCCTGGAAA ACACCCCTGA AAACCACCCG GACCACAGCC ACTTGAAGCA CGCCCTGGAG
    AAGGCGGAAG AGCTCTGTTC CCAGGTGAAC GAAGGGGTGC GGGAGAAGGA GAACTCTGAC
    CGGCTGGAGT GGATCCAGGC CCACGTGCAG TGTGAAGGCC TGTCTGAGCA ACTTGTGTTC
    AATTCAGTGA CCAATTGCTT GGGGCCACGC AAATTTCTGC ACAGTGGGAA GCTCTACAAG
    GCCAAGAGCA ACAAGGAGCT GTATGGCTTC CTTTTCAACG ACTTCCTCCT GCTGACTCAG
    ATCACGAAGC CCTTGGGGTC TTCTGGCACC GACAAAGTCT TCAGCCCCAA ATCAAACCTG
    CAGTATAAAA TGTATAAAAC ACCTATTTTC CTAAATGAGG TTCTAGTAAA ATTACCCACC
    GACCCTTCTG GAGACGAGCC CATCTTCCAC ATCTCCCACA TTGACCGCGT CTATACTCTC
    CGAGCAGAAA GCATAAATGA AAGGACTGCC TGGGTGCAGA AAATCAAAGC TGCTTCTGAA
    CTCTACATAG AGACTGAGAA AAAGAAGCGC GAGAAAGCGT ACCTGGTCCG TTCCCAAAGG
    GCAACAGGCA TTGGAAGGTT GATGGTGAAC GTGGTTGAAG GCATTGAGTT GAAACCCTGT
    CGGTCACATG GAAAGAGCAA CCCGTACTGT GAGGTGACCA TGGGTTCCCA GTGCCACATC
    ACCAAGACGA TCCAGGACAC TCTGAACCCC AAGTGGAATT CCAACTGCCA GTTCTTCATC
    CGAGACCTGG AGCAGGAAGT CCTCTGCATC ACTGTGTTCG AGAGGGACCA GTTCTCACCA
    GATGATTTTT TGGGTCGGAC GGAGATCCGC GTGGCGGACA TCAAGAAAGA CCAGGGCTCC
    AAAGGTCCAG TTACGAAGTG TCTTCTGCTG CACGAAGTCC CCACGGGAGA GATTGTGGTC
    CGCTTGGACC TGCAGTTGTT TGATGAGCCG TAG

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

    RefSeq XP_016802634.1
    CDS296..5248
    Translation

    Target ORF information:

    RefSeq Version XM_016947145.2
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes intersectin 1 (ITSN1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_016947145.2

    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
    ATGGCTCAGT TTCCAACACC TTTTGGTGGC AGCCTGGATA TCTGGGCCAT AACTGTAGAG 
    GAAAGAGCGA AGCATGATCA GCAGTTCCAT AGTTTAAAGC CAATATCTGG ATTCATTACT
    GGTGATCAAG CTAGAAACTT TTTTTTTCAA TCTGGGTTAC CTCAACCTGT TTTAGCACAG
    ATATGGGCAC TAGCTGACAT GAATAATGAT GGAAGAATGG ATCAAGTGGA GTTTTCCATA
    GCTATGAAAC TTATCAAACT GAAGCTACAA GGATATCAGC TACCCTCTGC ACTTCCCCCT
    GTCATGAAAC AGCAACCAGT TGCTATTTCT AGCGCACCAG CATTTGGTAT GGGAGGTATC
    GCCAGCATGC CACCGCTTAC AGCTGTTGCT CCAGTGCCAA TGGGATCCAT TCCAGTTGTT
    GGAATGTCTC CAACCCTAGT ATCTTCTGTT CCCACAGCAG CTGTGCCCCC CCTGACTAAC
    GGGGCTCCCC CTGTTATACA ACCTCTGCCT GCATTTGCTC ATCCTGCAGC CACATTGCCA
    AAGAGTTCTT CCTTTAGTAG ATCTGGTCCA GGGTCACAAC TAAACACTAA ATTACAAAAG
    GCACAGTCAT TTGATGTGGC CAGTGTCCCA CCAGTGGCAG AATGGGCTGT TCCTCAGTCA
    TCAAGACTGA AATACAGGCA ATTATTCAAT AGTCATGACA AAACTATGAG TGGACACTTA
    ACAGGTCCCC AAGCAAGAAC TATTCTTATG CAATCAAGTT TACCACAGGC TCAGCTGGCT
    TCAATATGGA ATCTTTCTGA CATTGATCAA GATGGAAAAC TTACAGCAGA AGAATTTATC
    CTGGCAATGC ACCTCATTGA TGTAGCTATG TCTGGCCAAC CACTGCCACC TGTCCTGCCT
    CCAGAATATA TTCCACCTTC TTTTAGAAGA GTTCGATCTG GCAGTGGTAT ATCTGTCATA
    AGCTCAACAT CTGTAGATCA GAGGCTACCA GAGGAACCAG TTTTAGAAGA TGAACAACAA
    CAATTAGAAA AGAAATTACC TGTAACGTTT GAAGATAAGA AGCGGGAGAA CTTTGAACGT
    GGCAACCTGG AACTGGAGAA ACGAAGGCAA GCTCTCCTGG AACAGCAGCG CAAGGAGCAG
    GAGCGCCTGG CCCAGCTGGA GCGGGCGGAG CAGGAGAGGA AGGAGCGTGA GCGCCAGGAG
    CAAGAGCGCA AAAGACAACT GGAACTGGAG AAGCAACTGG AAAAGCAGCG GGAGCTAGAA
    CGGCAGAGAG AGGAGGAGAG GAGGAAAGAA ATTGAGAGGC GAGAGGCTGC AAAACGGGAA
    CTTGAAAGGC AACGACAACT TGAGTGGGAA CGGAATCGAA GGCAAGAACT ACTAAATCAA
    AGAAACAAAG AACAAGAGGA CATAGTTGTA CTGAAAGCAA AGAAAAAGAC TTTGGAATTT
    GAATTAGAAG CTCTAAATGA TAAAAAGCAT CAACTAGAAG GGAAACTTCA AGATATCAGA
    TGTCGATTGA CCACCCAAAG GCAAGAAATT GAGAGCACAA ACAAATCTAG AGAGTTGAGA
    ATTGCCGAAA TCACCCATCT ACAGCAACAA TTACAGGAAT CTCAGCAAAT GCTTGGAAGA
    CTTATTCCAG AAAAACAGAT ACTCAATGAC CAATTAAAAC AAGTTCAACA GAACAGTTTG
    CACAGAGATT CACTTGTTAC ACTTAAAAGA GCCTTAGAAG CAAAAGAACT AGCTCGGCAG
    CAGCTACGAG ACCAACTGGA TGAAGTGGAG AAAGAAACTA GATCAAAACT ACAGGAGATT
    GATATTTTCA ATAATCAGCT GAAGGAACTA AGAGAAATAC ACAATAAGCA ACAACTCCAG
    AAGCAAAAGT CCATGGAGGC TGAACGACTG AAACAGAAAG AACAAGAACG AAAGATCATA
    GAATTAGAAA AACAAAAAGA AGAAGCCCAA AGACGAGCTC AGGAAAGGGA CAAGCAGTGG
    CTGGAGCATG TGCAGCAGGA GGACGAGCAT CAGAGACCAA GAAAACTCCA CGAAGAGGAA
    AAACTGAAAA GGGAGGAGAG TGTCAAAAAG AAGGATGGCG AGGAAAAAGG CAAACAGGAA
    GCACAAGACA AGCTGGGTCG GCTTTTCCAT CAACACCAAG AACCAGCTAA GCCAGCTGTC
    CAGGCACCCT GGTCCACTGC AGAAAAAGGT CCACTTACCA TTTCTGCACA GGAAAATGTA
    AAAGTGGTGT ATTACCGGGC ACTGTACCCC TTTGAATCCA GAAGCCATGA TGAAATCACT
    ATCCAGCCAG GAGACATAGT TATGGTTAAA GGGGAATGGG TGGATGAAAG CCAAACTGGA
    GAACCCGGCT GGCTTGGAGG AGAATTAAAA GGAAAGACAG GGTGGTTCCC TGCAAACTAT
    GCAGAGAAAA TCCCAGAAAA TGAGGTTCCT GCTCCAGTGA AACCAGTGAC TGATTCAACA
    TCTGCCCCTG CCCCCAAACT GGCCTTGCGT GAGACCCCCG CCCCTTTGGC AGTAACCTCT
    TCAGAGCCCT CCACGACCCC TAATAACTGG GCCGACTTCA GCTCCACGTG GCCCACCAGC
    ACGAATGAGA AACCAGAAAC GGATAACTGG GATGCATGGG CAGCCCAGCC CTCTCTCACC
    GTTCCAAGTG CCGGCCAGTT AAGGCAGAGG TCCGCCTTTA CTCCAGCCAC GGCCACTGGC
    TCCTCCCCGT CTCCTGTGCT AGGCCAGGGT GAAAAGGTGG AGGGGCTACA AGCTCAAGCC
    CTATATCCTT GGAGAGCCAA AAAAGACAAC CACTTAAATT TTAACAAAAA TGATGTCATC
    ACCGTCCTGG AACAGCAAGA CATGTGGTGG TTTGGAGAAG TTCAAGGTCA GAAGGGTTGG
    TTCCCCAAGT CTTACGTGAA ACTCATTTCA GGGCCCATAA GGAAGTCTAC AAGCATGGAT
    TCTGGTTCTT CAGAGAGTCC TGCTAGTCTA AAGCGAGTAG CCTCTCCAGC AGCCAAGCCG
    GTCGTTTCGG GAGAAGAAAT TGCCCAGGTT ATTGCCTCAT ACACCGCCAC CGGCCCCGAG
    CAGCTCACTC TCGCCCCTGG TCAGCTGATT TTGATCCGAA AAAAGAACCC AGGTGGATGG
    TGGGAAGGAG AGCTGCAAGC ACGTGGGAAA AAGCGCCAGA TAGGCTGGTT CCCAGCTAAT
    TATGTAAAGC TTCTAAGCCC TGGGACGAGC AAAATCACTC CAACAGAGCC ACCTAAGTCA
    ACAGCATTAG CGGCAGTGTG CCAGGTGATT GGGATGTACG ACTACACCGC GCAGAATGAC
    GATGAGCTGG CCTTCAACAA GGGCCAGATC ATCAACGTCC TCAACAAGGA GGACCCTGAC
    TGGTGGAAAG GAGAAGTCAA TGGACAAGTG GGGCTCTTCC CATCCAATTA TGTGAAGCTG
    ACCACAGACA TGGACCCAAG CCAGCAATGG TGTTCAGACT TACATCTCTT GGATATGTTG
    ACCCCAACTG AAAGAAAGCG ACAAGGATAC ATCCACGAGC TCATTGTCAC CGAGGAGAAC
    TATGTGAATG ACCTGCAGCT GGTCACAGAG ATTTTTCAAA AACCCCTGAT GGAGTCTGAG
    CTGCTGACAG AAAAAGAGGT TGCTATGATT TTTGTGAACT GGAAGGAGCT GATTATGTGT
    AATATCAAAC TACTGAAAGC GCTGAGAGTC CGCAAGAAGA TGTCCGGGGA GAAGATGCCT
    GTGAAGATGA TTGGAGACAT CCTGAGCGCA CAGCTGCCGC ACATGCAGCC CTACATCCGC
    TTCTGCAGCC GCCAGCTCAA CGGGGCTGCC CTGATCCAGC AGAAGACGGA CGAGGCCCCA
    GACTTCAAGG AGTTTGTCAA AAGATTGGCA ATGGATCCTC GGTGTAAAGG GATGCCACTC
    TCTAGTTTTA TACTGAAGCC TATGCAACGG GTAACAAGAT ACCCACTGAT CATTAAAAAT
    ATCCTGGAAA ACACCCCTGA AAACCACCCG GACCACAGCC ACTTGAAGCA CGCCCTGGAG
    AAGGCGGAAG AGCTCTGTTC CCAGGTGAAC GAAGGGGTGC GGGAGAAGGA GAACTCTGAC
    CGGCTGGAGT GGATCCAGGC CCACGTGCAG TGTGAAGGCC TGTCTGAGCA ACTTGTGTTC
    AATTCAGTGA CCAATTGCTT GGGGCCACGC AAATTTCTGC ACAGTGGGAA GCTCTACAAG
    GCCAAGAGCA ACAAGGAGCT GTATGGCTTC CTTTTCAACG ACTTCCTCCT GCTGACTCAG
    ATCACGAAGC CCTTGGGGTC TTCTGGCACC GACAAAGTCT TCAGCCCCAA ATCAAACCTG
    CAGTATAAAA TGTATAAAAC ACCTATTTTC CTAAATGAGG TTCTAGTAAA ATTACCCACC
    GACCCTTCTG GAGACGAGCC CATCTTCCAC ATCTCCCACA TTGACCGCGT CTATACTCTC
    CGAGCAGAAA GCATAAATGA AAGGACTGCC TGGGTGCAGA AAATCAAAGC TGCTTCTGAA
    CTCTACATAG AGACTGAGAA AAAGAAGCGC GAGAAAGCGT ACCTGGTCCG TTCCCAAAGG
    GCAACAGGCA TTGGAAGGTT GATGGTGAAC GTGGTTGAAG GCATTGAGTT GAAACCCTGT
    CGGTCACATG GAAAGAGCAA CCCGTACTGT GAGGTGACCA TGGGTTCCCA GTGCCACATC
    ACCAAGACGA TCCAGGACAC TCTGAACCCC AAGTGGAATT CCAACTGCCA GTTCTTCATC
    CGAGACCTGG AGCAGGAAGT CCTCTGCATC ACTGTGTTCG AGAGGGACCA GTTCTCACCA
    GATGATTTTT TGGGTCGGAC GGAGATCCGC GTGGCGGACA TCAAGAAAGA CCAGGGCTCC
    AAAGGTCCAG TTACGAAGTG TCTTCTGCTG CACGAAGTCC CCACGGGAGA GATTGTGGTC
    CGCTTGGACC TGCAGTTGTT TGATGAGCCG TAG

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

    CloneID OPc46481
    Clone ID Related Accession (Same CDS sequence) XM_016947145.2 , XM_009456243.2
    Accession Version XM_009456243.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4953bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-01
    Organism Pan troglodytes(chimpanzee)
    Product intersectin-1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_006488.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 2, 2016 this sequence version replaced XM_009456243.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Pan troglodytes Annotation Release 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGGCTCAGT TTCCAACACC TTTTGGTGGC AGCCTGGATA TCTGGGCCAT AACTGTAGAG 
    GAAAGAGCGA AGCATGATCA GCAGTTCCAT AGTTTAAAGC CAATATCTGG ATTCATTACT
    GGTGATCAAG CTAGAAACTT TTTTTTTCAA TCTGGGTTAC CTCAACCTGT TTTAGCACAG
    ATATGGGCAC TAGCTGACAT GAATAATGAT GGAAGAATGG ATCAAGTGGA GTTTTCCATA
    GCTATGAAAC TTATCAAACT GAAGCTACAA GGATATCAGC TACCCTCTGC ACTTCCCCCT
    GTCATGAAAC AGCAACCAGT TGCTATTTCT AGCGCACCAG CATTTGGTAT GGGAGGTATC
    GCCAGCATGC CACCGCTTAC AGCTGTTGCT CCAGTGCCAA TGGGATCCAT TCCAGTTGTT
    GGAATGTCTC CAACCCTAGT ATCTTCTGTT CCCACAGCAG CTGTGCCCCC CCTGACTAAC
    GGGGCTCCCC CTGTTATACA ACCTCTGCCT GCATTTGCTC ATCCTGCAGC CACATTGCCA
    AAGAGTTCTT CCTTTAGTAG ATCTGGTCCA GGGTCACAAC TAAACACTAA ATTACAAAAG
    GCACAGTCAT TTGATGTGGC CAGTGTCCCA CCAGTGGCAG AATGGGCTGT TCCTCAGTCA
    TCAAGACTGA AATACAGGCA ATTATTCAAT AGTCATGACA AAACTATGAG TGGACACTTA
    ACAGGTCCCC AAGCAAGAAC TATTCTTATG CAATCAAGTT TACCACAGGC TCAGCTGGCT
    TCAATATGGA ATCTTTCTGA CATTGATCAA GATGGAAAAC TTACAGCAGA AGAATTTATC
    CTGGCAATGC ACCTCATTGA TGTAGCTATG TCTGGCCAAC CACTGCCACC TGTCCTGCCT
    CCAGAATATA TTCCACCTTC TTTTAGAAGA GTTCGATCTG GCAGTGGTAT ATCTGTCATA
    AGCTCAACAT CTGTAGATCA GAGGCTACCA GAGGAACCAG TTTTAGAAGA TGAACAACAA
    CAATTAGAAA AGAAATTACC TGTAACGTTT GAAGATAAGA AGCGGGAGAA CTTTGAACGT
    GGCAACCTGG AACTGGAGAA ACGAAGGCAA GCTCTCCTGG AACAGCAGCG CAAGGAGCAG
    GAGCGCCTGG CCCAGCTGGA GCGGGCGGAG CAGGAGAGGA AGGAGCGTGA GCGCCAGGAG
    CAAGAGCGCA AAAGACAACT GGAACTGGAG AAGCAACTGG AAAAGCAGCG GGAGCTAGAA
    CGGCAGAGAG AGGAGGAGAG GAGGAAAGAA ATTGAGAGGC GAGAGGCTGC AAAACGGGAA
    CTTGAAAGGC AACGACAACT TGAGTGGGAA CGGAATCGAA GGCAAGAACT ACTAAATCAA
    AGAAACAAAG AACAAGAGGA CATAGTTGTA CTGAAAGCAA AGAAAAAGAC TTTGGAATTT
    GAATTAGAAG CTCTAAATGA TAAAAAGCAT CAACTAGAAG GGAAACTTCA AGATATCAGA
    TGTCGATTGA CCACCCAAAG GCAAGAAATT GAGAGCACAA ACAAATCTAG AGAGTTGAGA
    ATTGCCGAAA TCACCCATCT ACAGCAACAA TTACAGGAAT CTCAGCAAAT GCTTGGAAGA
    CTTATTCCAG AAAAACAGAT ACTCAATGAC CAATTAAAAC AAGTTCAACA GAACAGTTTG
    CACAGAGATT CACTTGTTAC ACTTAAAAGA GCCTTAGAAG CAAAAGAACT AGCTCGGCAG
    CAGCTACGAG ACCAACTGGA TGAAGTGGAG AAAGAAACTA GATCAAAACT ACAGGAGATT
    GATATTTTCA ATAATCAGCT GAAGGAACTA AGAGAAATAC ACAATAAGCA ACAACTCCAG
    AAGCAAAAGT CCATGGAGGC TGAACGACTG AAACAGAAAG AACAAGAACG AAAGATCATA
    GAATTAGAAA AACAAAAAGA AGAAGCCCAA AGACGAGCTC AGGAAAGGGA CAAGCAGTGG
    CTGGAGCATG TGCAGCAGGA GGACGAGCAT CAGAGACCAA GAAAACTCCA CGAAGAGGAA
    AAACTGAAAA GGGAGGAGAG TGTCAAAAAG AAGGATGGCG AGGAAAAAGG CAAACAGGAA
    GCACAAGACA AGCTGGGTCG GCTTTTCCAT CAACACCAAG AACCAGCTAA GCCAGCTGTC
    CAGGCACCCT GGTCCACTGC AGAAAAAGGT CCACTTACCA TTTCTGCACA GGAAAATGTA
    AAAGTGGTGT ATTACCGGGC ACTGTACCCC TTTGAATCCA GAAGCCATGA TGAAATCACT
    ATCCAGCCAG GAGACATAGT TATGGTTAAA GGGGAATGGG TGGATGAAAG CCAAACTGGA
    GAACCCGGCT GGCTTGGAGG AGAATTAAAA GGAAAGACAG GGTGGTTCCC TGCAAACTAT
    GCAGAGAAAA TCCCAGAAAA TGAGGTTCCT GCTCCAGTGA AACCAGTGAC TGATTCAACA
    TCTGCCCCTG CCCCCAAACT GGCCTTGCGT GAGACCCCCG CCCCTTTGGC AGTAACCTCT
    TCAGAGCCCT CCACGACCCC TAATAACTGG GCCGACTTCA GCTCCACGTG GCCCACCAGC
    ACGAATGAGA AACCAGAAAC GGATAACTGG GATGCATGGG CAGCCCAGCC CTCTCTCACC
    GTTCCAAGTG CCGGCCAGTT AAGGCAGAGG TCCGCCTTTA CTCCAGCCAC GGCCACTGGC
    TCCTCCCCGT CTCCTGTGCT AGGCCAGGGT GAAAAGGTGG AGGGGCTACA AGCTCAAGCC
    CTATATCCTT GGAGAGCCAA AAAAGACAAC CACTTAAATT TTAACAAAAA TGATGTCATC
    ACCGTCCTGG AACAGCAAGA CATGTGGTGG TTTGGAGAAG TTCAAGGTCA GAAGGGTTGG
    TTCCCCAAGT CTTACGTGAA ACTCATTTCA GGGCCCATAA GGAAGTCTAC AAGCATGGAT
    TCTGGTTCTT CAGAGAGTCC TGCTAGTCTA AAGCGAGTAG CCTCTCCAGC AGCCAAGCCG
    GTCGTTTCGG GAGAAGAAAT TGCCCAGGTT ATTGCCTCAT ACACCGCCAC CGGCCCCGAG
    CAGCTCACTC TCGCCCCTGG TCAGCTGATT TTGATCCGAA AAAAGAACCC AGGTGGATGG
    TGGGAAGGAG AGCTGCAAGC ACGTGGGAAA AAGCGCCAGA TAGGCTGGTT CCCAGCTAAT
    TATGTAAAGC TTCTAAGCCC TGGGACGAGC AAAATCACTC CAACAGAGCC ACCTAAGTCA
    ACAGCATTAG CGGCAGTGTG CCAGGTGATT GGGATGTACG ACTACACCGC GCAGAATGAC
    GATGAGCTGG CCTTCAACAA GGGCCAGATC ATCAACGTCC TCAACAAGGA GGACCCTGAC
    TGGTGGAAAG GAGAAGTCAA TGGACAAGTG GGGCTCTTCC CATCCAATTA TGTGAAGCTG
    ACCACAGACA TGGACCCAAG CCAGCAATGG TGTTCAGACT TACATCTCTT GGATATGTTG
    ACCCCAACTG AAAGAAAGCG ACAAGGATAC ATCCACGAGC TCATTGTCAC CGAGGAGAAC
    TATGTGAATG ACCTGCAGCT GGTCACAGAG ATTTTTCAAA AACCCCTGAT GGAGTCTGAG
    CTGCTGACAG AAAAAGAGGT TGCTATGATT TTTGTGAACT GGAAGGAGCT GATTATGTGT
    AATATCAAAC TACTGAAAGC GCTGAGAGTC CGCAAGAAGA TGTCCGGGGA GAAGATGCCT
    GTGAAGATGA TTGGAGACAT CCTGAGCGCA CAGCTGCCGC ACATGCAGCC CTACATCCGC
    TTCTGCAGCC GCCAGCTCAA CGGGGCTGCC CTGATCCAGC AGAAGACGGA CGAGGCCCCA
    GACTTCAAGG AGTTTGTCAA AAGATTGGCA ATGGATCCTC GGTGTAAAGG GATGCCACTC
    TCTAGTTTTA TACTGAAGCC TATGCAACGG GTAACAAGAT ACCCACTGAT CATTAAAAAT
    ATCCTGGAAA ACACCCCTGA AAACCACCCG GACCACAGCC ACTTGAAGCA CGCCCTGGAG
    AAGGCGGAAG AGCTCTGTTC CCAGGTGAAC GAAGGGGTGC GGGAGAAGGA GAACTCTGAC
    CGGCTGGAGT GGATCCAGGC CCACGTGCAG TGTGAAGGCC TGTCTGAGCA ACTTGTGTTC
    AATTCAGTGA CCAATTGCTT GGGGCCACGC AAATTTCTGC ACAGTGGGAA GCTCTACAAG
    GCCAAGAGCA ACAAGGAGCT GTATGGCTTC CTTTTCAACG ACTTCCTCCT GCTGACTCAG
    ATCACGAAGC CCTTGGGGTC TTCTGGCACC GACAAAGTCT TCAGCCCCAA ATCAAACCTG
    CAGTATAAAA TGTATAAAAC ACCTATTTTC CTAAATGAGG TTCTAGTAAA ATTACCCACC
    GACCCTTCTG GAGACGAGCC CATCTTCCAC ATCTCCCACA TTGACCGCGT CTATACTCTC
    CGAGCAGAAA GCATAAATGA AAGGACTGCC TGGGTGCAGA AAATCAAAGC TGCTTCTGAA
    CTCTACATAG AGACTGAGAA AAAGAAGCGC GAGAAAGCGT ACCTGGTCCG TTCCCAAAGG
    GCAACAGGCA TTGGAAGGTT GATGGTGAAC GTGGTTGAAG GCATTGAGTT GAAACCCTGT
    CGGTCACATG GAAAGAGCAA CCCGTACTGT GAGGTGACCA TGGGTTCCCA GTGCCACATC
    ACCAAGACGA TCCAGGACAC TCTGAACCCC AAGTGGAATT CCAACTGCCA GTTCTTCATC
    CGAGACCTGG AGCAGGAAGT CCTCTGCATC ACTGTGTTCG AGAGGGACCA GTTCTCACCA
    GATGATTTTT TGGGTCGGAC GGAGATCCGC GTGGCGGACA TCAAGAAAGA CCAGGGCTCC
    AAAGGTCCAG TTACGAAGTG TCTTCTGCTG CACGAAGTCC CCACGGGAGA GATTGTGGTC
    CGCTTGGACC TGCAGTTGTT TGATGAGCCG TAG

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

    RefSeq XP_009454518.1
    CDS318..5270
    Translation

    Target ORF information:

    RefSeq Version XM_009456243.2
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes intersectin 1 (ITSN1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009456243.2

    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
    ATGGCTCAGT TTCCAACACC TTTTGGTGGC AGCCTGGATA TCTGGGCCAT AACTGTAGAG 
    GAAAGAGCGA AGCATGATCA GCAGTTCCAT AGTTTAAAGC CAATATCTGG ATTCATTACT
    GGTGATCAAG CTAGAAACTT TTTTTTTCAA TCTGGGTTAC CTCAACCTGT TTTAGCACAG
    ATATGGGCAC TAGCTGACAT GAATAATGAT GGAAGAATGG ATCAAGTGGA GTTTTCCATA
    GCTATGAAAC TTATCAAACT GAAGCTACAA GGATATCAGC TACCCTCTGC ACTTCCCCCT
    GTCATGAAAC AGCAACCAGT TGCTATTTCT AGCGCACCAG CATTTGGTAT GGGAGGTATC
    GCCAGCATGC CACCGCTTAC AGCTGTTGCT CCAGTGCCAA TGGGATCCAT TCCAGTTGTT
    GGAATGTCTC CAACCCTAGT ATCTTCTGTT CCCACAGCAG CTGTGCCCCC CCTGACTAAC
    GGGGCTCCCC CTGTTATACA ACCTCTGCCT GCATTTGCTC ATCCTGCAGC CACATTGCCA
    AAGAGTTCTT CCTTTAGTAG ATCTGGTCCA GGGTCACAAC TAAACACTAA ATTACAAAAG
    GCACAGTCAT TTGATGTGGC CAGTGTCCCA CCAGTGGCAG AATGGGCTGT TCCTCAGTCA
    TCAAGACTGA AATACAGGCA ATTATTCAAT AGTCATGACA AAACTATGAG TGGACACTTA
    ACAGGTCCCC AAGCAAGAAC TATTCTTATG CAATCAAGTT TACCACAGGC TCAGCTGGCT
    TCAATATGGA ATCTTTCTGA CATTGATCAA GATGGAAAAC TTACAGCAGA AGAATTTATC
    CTGGCAATGC ACCTCATTGA TGTAGCTATG TCTGGCCAAC CACTGCCACC TGTCCTGCCT
    CCAGAATATA TTCCACCTTC TTTTAGAAGA GTTCGATCTG GCAGTGGTAT ATCTGTCATA
    AGCTCAACAT CTGTAGATCA GAGGCTACCA GAGGAACCAG TTTTAGAAGA TGAACAACAA
    CAATTAGAAA AGAAATTACC TGTAACGTTT GAAGATAAGA AGCGGGAGAA CTTTGAACGT
    GGCAACCTGG AACTGGAGAA ACGAAGGCAA GCTCTCCTGG AACAGCAGCG CAAGGAGCAG
    GAGCGCCTGG CCCAGCTGGA GCGGGCGGAG CAGGAGAGGA AGGAGCGTGA GCGCCAGGAG
    CAAGAGCGCA AAAGACAACT GGAACTGGAG AAGCAACTGG AAAAGCAGCG GGAGCTAGAA
    CGGCAGAGAG AGGAGGAGAG GAGGAAAGAA ATTGAGAGGC GAGAGGCTGC AAAACGGGAA
    CTTGAAAGGC AACGACAACT TGAGTGGGAA CGGAATCGAA GGCAAGAACT ACTAAATCAA
    AGAAACAAAG AACAAGAGGA CATAGTTGTA CTGAAAGCAA AGAAAAAGAC TTTGGAATTT
    GAATTAGAAG CTCTAAATGA TAAAAAGCAT CAACTAGAAG GGAAACTTCA AGATATCAGA
    TGTCGATTGA CCACCCAAAG GCAAGAAATT GAGAGCACAA ACAAATCTAG AGAGTTGAGA
    ATTGCCGAAA TCACCCATCT ACAGCAACAA TTACAGGAAT CTCAGCAAAT GCTTGGAAGA
    CTTATTCCAG AAAAACAGAT ACTCAATGAC CAATTAAAAC AAGTTCAACA GAACAGTTTG
    CACAGAGATT CACTTGTTAC ACTTAAAAGA GCCTTAGAAG CAAAAGAACT AGCTCGGCAG
    CAGCTACGAG ACCAACTGGA TGAAGTGGAG AAAGAAACTA GATCAAAACT ACAGGAGATT
    GATATTTTCA ATAATCAGCT GAAGGAACTA AGAGAAATAC ACAATAAGCA ACAACTCCAG
    AAGCAAAAGT CCATGGAGGC TGAACGACTG AAACAGAAAG AACAAGAACG AAAGATCATA
    GAATTAGAAA AACAAAAAGA AGAAGCCCAA AGACGAGCTC AGGAAAGGGA CAAGCAGTGG
    CTGGAGCATG TGCAGCAGGA GGACGAGCAT CAGAGACCAA GAAAACTCCA CGAAGAGGAA
    AAACTGAAAA GGGAGGAGAG TGTCAAAAAG AAGGATGGCG AGGAAAAAGG CAAACAGGAA
    GCACAAGACA AGCTGGGTCG GCTTTTCCAT CAACACCAAG AACCAGCTAA GCCAGCTGTC
    CAGGCACCCT GGTCCACTGC AGAAAAAGGT CCACTTACCA TTTCTGCACA GGAAAATGTA
    AAAGTGGTGT ATTACCGGGC ACTGTACCCC TTTGAATCCA GAAGCCATGA TGAAATCACT
    ATCCAGCCAG GAGACATAGT TATGGTTAAA GGGGAATGGG TGGATGAAAG CCAAACTGGA
    GAACCCGGCT GGCTTGGAGG AGAATTAAAA GGAAAGACAG GGTGGTTCCC TGCAAACTAT
    GCAGAGAAAA TCCCAGAAAA TGAGGTTCCT GCTCCAGTGA AACCAGTGAC TGATTCAACA
    TCTGCCCCTG CCCCCAAACT GGCCTTGCGT GAGACCCCCG CCCCTTTGGC AGTAACCTCT
    TCAGAGCCCT CCACGACCCC TAATAACTGG GCCGACTTCA GCTCCACGTG GCCCACCAGC
    ACGAATGAGA AACCAGAAAC GGATAACTGG GATGCATGGG CAGCCCAGCC CTCTCTCACC
    GTTCCAAGTG CCGGCCAGTT AAGGCAGAGG TCCGCCTTTA CTCCAGCCAC GGCCACTGGC
    TCCTCCCCGT CTCCTGTGCT AGGCCAGGGT GAAAAGGTGG AGGGGCTACA AGCTCAAGCC
    CTATATCCTT GGAGAGCCAA AAAAGACAAC CACTTAAATT TTAACAAAAA TGATGTCATC
    ACCGTCCTGG AACAGCAAGA CATGTGGTGG TTTGGAGAAG TTCAAGGTCA GAAGGGTTGG
    TTCCCCAAGT CTTACGTGAA ACTCATTTCA GGGCCCATAA GGAAGTCTAC AAGCATGGAT
    TCTGGTTCTT CAGAGAGTCC TGCTAGTCTA AAGCGAGTAG CCTCTCCAGC AGCCAAGCCG
    GTCGTTTCGG GAGAAGAAAT TGCCCAGGTT ATTGCCTCAT ACACCGCCAC CGGCCCCGAG
    CAGCTCACTC TCGCCCCTGG TCAGCTGATT TTGATCCGAA AAAAGAACCC AGGTGGATGG
    TGGGAAGGAG AGCTGCAAGC ACGTGGGAAA AAGCGCCAGA TAGGCTGGTT CCCAGCTAAT
    TATGTAAAGC TTCTAAGCCC TGGGACGAGC AAAATCACTC CAACAGAGCC ACCTAAGTCA
    ACAGCATTAG CGGCAGTGTG CCAGGTGATT GGGATGTACG ACTACACCGC GCAGAATGAC
    GATGAGCTGG CCTTCAACAA GGGCCAGATC ATCAACGTCC TCAACAAGGA GGACCCTGAC
    TGGTGGAAAG GAGAAGTCAA TGGACAAGTG GGGCTCTTCC CATCCAATTA TGTGAAGCTG
    ACCACAGACA TGGACCCAAG CCAGCAATGG TGTTCAGACT TACATCTCTT GGATATGTTG
    ACCCCAACTG AAAGAAAGCG ACAAGGATAC ATCCACGAGC TCATTGTCAC CGAGGAGAAC
    TATGTGAATG ACCTGCAGCT GGTCACAGAG ATTTTTCAAA AACCCCTGAT GGAGTCTGAG
    CTGCTGACAG AAAAAGAGGT TGCTATGATT TTTGTGAACT GGAAGGAGCT GATTATGTGT
    AATATCAAAC TACTGAAAGC GCTGAGAGTC CGCAAGAAGA TGTCCGGGGA GAAGATGCCT
    GTGAAGATGA TTGGAGACAT CCTGAGCGCA CAGCTGCCGC ACATGCAGCC CTACATCCGC
    TTCTGCAGCC GCCAGCTCAA CGGGGCTGCC CTGATCCAGC AGAAGACGGA CGAGGCCCCA
    GACTTCAAGG AGTTTGTCAA AAGATTGGCA ATGGATCCTC GGTGTAAAGG GATGCCACTC
    TCTAGTTTTA TACTGAAGCC TATGCAACGG GTAACAAGAT ACCCACTGAT CATTAAAAAT
    ATCCTGGAAA ACACCCCTGA AAACCACCCG GACCACAGCC ACTTGAAGCA CGCCCTGGAG
    AAGGCGGAAG AGCTCTGTTC CCAGGTGAAC GAAGGGGTGC GGGAGAAGGA GAACTCTGAC
    CGGCTGGAGT GGATCCAGGC CCACGTGCAG TGTGAAGGCC TGTCTGAGCA ACTTGTGTTC
    AATTCAGTGA CCAATTGCTT GGGGCCACGC AAATTTCTGC ACAGTGGGAA GCTCTACAAG
    GCCAAGAGCA ACAAGGAGCT GTATGGCTTC CTTTTCAACG ACTTCCTCCT GCTGACTCAG
    ATCACGAAGC CCTTGGGGTC TTCTGGCACC GACAAAGTCT TCAGCCCCAA ATCAAACCTG
    CAGTATAAAA TGTATAAAAC ACCTATTTTC CTAAATGAGG TTCTAGTAAA ATTACCCACC
    GACCCTTCTG GAGACGAGCC CATCTTCCAC ATCTCCCACA TTGACCGCGT CTATACTCTC
    CGAGCAGAAA GCATAAATGA AAGGACTGCC TGGGTGCAGA AAATCAAAGC TGCTTCTGAA
    CTCTACATAG AGACTGAGAA AAAGAAGCGC GAGAAAGCGT ACCTGGTCCG TTCCCAAAGG
    GCAACAGGCA TTGGAAGGTT GATGGTGAAC GTGGTTGAAG GCATTGAGTT GAAACCCTGT
    CGGTCACATG GAAAGAGCAA CCCGTACTGT GAGGTGACCA TGGGTTCCCA GTGCCACATC
    ACCAAGACGA TCCAGGACAC TCTGAACCCC AAGTGGAATT CCAACTGCCA GTTCTTCATC
    CGAGACCTGG AGCAGGAAGT CCTCTGCATC ACTGTGTTCG AGAGGGACCA GTTCTCACCA
    GATGATTTTT TGGGTCGGAC GGAGATCCGC GTGGCGGACA TCAAGAAAGA CCAGGGCTCC
    AAAGGTCCAG TTACGAAGTG TCTTCTGCTG CACGAAGTCC CCACGGGAGA GATTGTGGTC
    CGCTTGGACC TGCAGTTGTT TGATGAGCCG TAG

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

    CloneID OPc46482
    Clone ID Related Accession (Same CDS sequence) XM_016947146.2 , XM_009456278.2
    Accession Version XM_016947146.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4938bp)
    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 2018-03-19
    Organism Pan troglodytes(chimpanzee)
    Product intersectin-1 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036900.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 20, 2018 this sequence version replaced XM_016947146.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pan troglodytes Annotation Release 105 Annotation Version :: 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGGCTCAGT TTCCAACACC TTTTGGTGGC AGCCTGGATA TCTGGGCCAT AACTGTAGAG 
    GAAAGAGCGA AGCATGATCA GCAGTTCCAT AGTTTAAAGC CAATATCTGG ATTCATTACT
    GGTGATCAAG CTAGAAACTT TTTTTTTCAA TCTGGGTTAC CTCAACCTGT TTTAGCACAG
    ATATGGGCAC TAGCTGACAT GAATAATGAT GGAAGAATGG ATCAAGTGGA GTTTTCCATA
    GCTATGAAAC TTATCAAACT GAAGCTACAA GGATATCAGC TACCCTCTGC ACTTCCCCCT
    GTCATGAAAC AGCAACCAGT TGCTATTTCT AGCGCACCAG CATTTGGTAT GGGAGGTATC
    GCCAGCATGC CACCGCTTAC AGCTGTTGCT CCAGTGCCAA TGGGATCCAT TCCAGTTGTT
    GGAATGTCTC CAACCCTAGT ATCTTCTGTT CCCACAGCAG CTGTGCCCCC CCTGACTAAC
    GGGGCTCCCC CTGTTATACA ACCTCTGCCT GCATTTGCTC ATCCTGCAGC CACATTGCCA
    AAGAGTTCTT CCTTTAGTAG ATCTGGTCCA GGGTCACAAC TAAACACTAA ATTACAAAAG
    GCACAGTCAT TTGATGTGGC CAGTGTCCCA CCAGTGGCAG AATGGGCTGT TCCTCAGTCA
    TCAAGACTGA AATACAGGCA ATTATTCAAT AGTCATGACA AAACTATGAG TGGACACTTA
    ACAGGTCCCC AAGCAAGAAC TATTCTTATG CAATCAAGTT TACCACAGGC TCAGCTGGCT
    TCAATATGGA ATCTTTCTGA CATTGATCAA GATGGAAAAC TTACAGCAGA AGAATTTATC
    CTGGCAATGC ACCTCATTGA TGTAGCTATG TCTGGCCAAC CACTGCCACC TGTCCTGCCT
    CCAGAATATA TTCCACCTTC TTTTAGAAGA GTTCGATCTG GCAGTGGTAT ATCTGTCATA
    AGCTCAACAT CTGTAGATCA GAGGCTACCA GAGGAACCAG TTTTAGAAGA TGAACAACAA
    CAATTAGAAA AGAAATTACC TGTAACGTTT GAAGATAAGA AGCGGGAGAA CTTTGAACGT
    GGCAACCTGG AACTGGAGAA ACGAAGGCAA GCTCTCCTGG AACAGCAGCG CAAGGAGCAG
    GAGCGCCTGG CCCAGCTGGA GCGGGCGGAG CAGGAGAGGA AGGAGCGTGA GCGCCAGGAG
    CAAGAGCGCA AAAGACAACT GGAACTGGAG AAGCAACTGG AAAAGCAGCG GGAGCTAGAA
    CGGCAGAGAG AGGAGGAGAG GAGGAAAGAA ATTGAGAGGC GAGAGGCTGC AAAACGGGAA
    CTTGAAAGGC AACGACAACT TGAGTGGGAA CGGAATCGAA GGCAAGAACT ACTAAATCAA
    AGAAACAAAG AACAAGAGGA CATAGTTGTA CTGAAAGCAA AGAAAAAGAC TTTGGAATTT
    GAATTAGAAG CTCTAAATGA TAAAAAGCAT CAACTAGAAG GGAAACTTCA AGATATCAGA
    TGTCGATTGA CCACCCAAAG GCAAGAAATT GAGAGCACAA ACAAATCTAG AGAGTTGAGA
    ATTGCCGAAA TCACCCATCT ACAGCAACAA TTACAGGAAT CTCAGCAAAT GCTTGGAAGA
    CTTATTCCAG AAAAACAGAT ACTCAATGAC CAATTAAAAC AAGTTCAACA GAACAGTTTG
    CACAGAGATT CACTTGTTAC ACTTAAAAGA GCCTTAGAAG CAAAAGAACT AGCTCGGCAG
    CAGCTACGAG ACCAACTGGA TGAAGTGGAG AAAGAAACTA GATCAAAACT ACAGGAGATT
    GATATTTTCA ATAATCAGCT GAAGGAACTA AGAGAAATAC ACAATAAGCA ACAACTCCAG
    AAGCAAAAGT CCATGGAGGC TGAACGACTG AAACAGAAAG AACAAGAACG AAAGATCATA
    GAATTAGAAA AACAAAAAGA AGAAGCCCAA AGACGAGCTC AGGAAAGGGA CAAGCAGTGG
    CTGGAGCATG TGCAGCAGGA GGACGAGCAT CAGAGACCAA GAAAACTCCA CGAAGAGGAA
    AAACTGAAAA GGGAGGAGAG TGTCAAAAAG AAGGATGGCG AGGAAAAAGG CAAACAGGAA
    GCACAAGACA AGCTGGGTCG GCTTTTCCAT CAACACCAAG AACCAGCTAA GCCAGCTGTC
    CAGGCACCCT GGTCCACTGC AGAAAAAGGT CCACTTACCA TTTCTGCACA GGAAAATGTA
    AAAGTGGTGT ATTACCGGGC ACTGTACCCC TTTGAATCCA GAAGCCATGA TGAAATCACT
    ATCCAGCCAG GAGACATAGT TATGGTGGAT GAAAGCCAAA CTGGAGAACC CGGCTGGCTT
    GGAGGAGAAT TAAAAGGAAA GACAGGGTGG TTCCCTGCAA ACTATGCAGA GAAAATCCCA
    GAAAATGAGG TTCCTGCTCC AGTGAAACCA GTGACTGATT CAACATCTGC CCCTGCCCCC
    AAACTGGCCT TGCGTGAGAC CCCCGCCCCT TTGGCAGTAA CCTCTTCAGA GCCCTCCACG
    ACCCCTAATA ACTGGGCCGA CTTCAGCTCC ACGTGGCCCA CCAGCACGAA TGAGAAACCA
    GAAACGGATA ACTGGGATGC ATGGGCAGCC CAGCCCTCTC TCACCGTTCC AAGTGCCGGC
    CAGTTAAGGC AGAGGTCCGC CTTTACTCCA GCCACGGCCA CTGGCTCCTC CCCGTCTCCT
    GTGCTAGGCC AGGGTGAAAA GGTGGAGGGG CTACAAGCTC AAGCCCTATA TCCTTGGAGA
    GCCAAAAAAG ACAACCACTT AAATTTTAAC AAAAATGATG TCATCACCGT CCTGGAACAG
    CAAGACATGT GGTGGTTTGG AGAAGTTCAA GGTCAGAAGG GTTGGTTCCC CAAGTCTTAC
    GTGAAACTCA TTTCAGGGCC CATAAGGAAG TCTACAAGCA TGGATTCTGG TTCTTCAGAG
    AGTCCTGCTA GTCTAAAGCG AGTAGCCTCT CCAGCAGCCA AGCCGGTCGT TTCGGGAGAA
    GAAATTGCCC AGGTTATTGC CTCATACACC GCCACCGGCC CCGAGCAGCT CACTCTCGCC
    CCTGGTCAGC TGATTTTGAT CCGAAAAAAG AACCCAGGTG GATGGTGGGA AGGAGAGCTG
    CAAGCACGTG GGAAAAAGCG CCAGATAGGC TGGTTCCCAG CTAATTATGT AAAGCTTCTA
    AGCCCTGGGA CGAGCAAAAT CACTCCAACA GAGCCACCTA AGTCAACAGC ATTAGCGGCA
    GTGTGCCAGG TGATTGGGAT GTACGACTAC ACCGCGCAGA ATGACGATGA GCTGGCCTTC
    AACAAGGGCC AGATCATCAA CGTCCTCAAC AAGGAGGACC CTGACTGGTG GAAAGGAGAA
    GTCAATGGAC AAGTGGGGCT CTTCCCATCC AATTATGTGA AGCTGACCAC AGACATGGAC
    CCAAGCCAGC AATGGTGTTC AGACTTACAT CTCTTGGATA TGTTGACCCC AACTGAAAGA
    AAGCGACAAG GATACATCCA CGAGCTCATT GTCACCGAGG AGAACTATGT GAATGACCTG
    CAGCTGGTCA CAGAGATTTT TCAAAAACCC CTGATGGAGT CTGAGCTGCT GACAGAAAAA
    GAGGTTGCTA TGATTTTTGT GAACTGGAAG GAGCTGATTA TGTGTAATAT CAAACTACTG
    AAAGCGCTGA GAGTCCGCAA GAAGATGTCC GGGGAGAAGA TGCCTGTGAA GATGATTGGA
    GACATCCTGA GCGCACAGCT GCCGCACATG CAGCCCTACA TCCGCTTCTG CAGCCGCCAG
    CTCAACGGGG CTGCCCTGAT CCAGCAGAAG ACGGACGAGG CCCCAGACTT CAAGGAGTTT
    GTCAAAAGAT TGGCAATGGA TCCTCGGTGT AAAGGGATGC CACTCTCTAG TTTTATACTG
    AAGCCTATGC AACGGGTAAC AAGATACCCA CTGATCATTA AAAATATCCT GGAAAACACC
    CCTGAAAACC ACCCGGACCA CAGCCACTTG AAGCACGCCC TGGAGAAGGC GGAAGAGCTC
    TGTTCCCAGG TGAACGAAGG GGTGCGGGAG AAGGAGAACT CTGACCGGCT GGAGTGGATC
    CAGGCCCACG TGCAGTGTGA AGGCCTGTCT GAGCAACTTG TGTTCAATTC AGTGACCAAT
    TGCTTGGGGC CACGCAAATT TCTGCACAGT GGGAAGCTCT ACAAGGCCAA GAGCAACAAG
    GAGCTGTATG GCTTCCTTTT CAACGACTTC CTCCTGCTGA CTCAGATCAC GAAGCCCTTG
    GGGTCTTCTG GCACCGACAA AGTCTTCAGC CCCAAATCAA ACCTGCAGTA TAAAATGTAT
    AAAACACCTA TTTTCCTAAA TGAGGTTCTA GTAAAATTAC CCACCGACCC TTCTGGAGAC
    GAGCCCATCT TCCACATCTC CCACATTGAC CGCGTCTATA CTCTCCGAGC AGAAAGCATA
    AATGAAAGGA CTGCCTGGGT GCAGAAAATC AAAGCTGCTT CTGAACTCTA CATAGAGACT
    GAGAAAAAGA AGCGCGAGAA AGCGTACCTG GTCCGTTCCC AAAGGGCAAC AGGCATTGGA
    AGGTTGATGG TGAACGTGGT TGAAGGCATT GAGTTGAAAC CCTGTCGGTC ACATGGAAAG
    AGCAACCCGT ACTGTGAGGT GACCATGGGT TCCCAGTGCC ACATCACCAA GACGATCCAG
    GACACTCTGA ACCCCAAGTG GAATTCCAAC TGCCAGTTCT TCATCCGAGA CCTGGAGCAG
    GAAGTCCTCT GCATCACTGT GTTCGAGAGG GACCAGTTCT CACCAGATGA TTTTTTGGGT
    CGGACGGAGA TCCGCGTGGC GGACATCAAG AAAGACCAGG GCTCCAAAGG TCCAGTTACG
    AAGTGTCTTC TGCTGCACGA AGTCCCCACG GGAGAGATTG TGGTCCGCTT GGACCTGCAG
    TTGTTTGATG AGCCGTAG

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

    RefSeq XP_016802635.1
    CDS296..5233
    Translation

    Target ORF information:

    RefSeq Version XM_016947146.2
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes intersectin 1 (ITSN1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_016947146.2

    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
    ATGGCTCAGT TTCCAACACC TTTTGGTGGC AGCCTGGATA TCTGGGCCAT AACTGTAGAG 
    GAAAGAGCGA AGCATGATCA GCAGTTCCAT AGTTTAAAGC CAATATCTGG ATTCATTACT
    GGTGATCAAG CTAGAAACTT TTTTTTTCAA TCTGGGTTAC CTCAACCTGT TTTAGCACAG
    ATATGGGCAC TAGCTGACAT GAATAATGAT GGAAGAATGG ATCAAGTGGA GTTTTCCATA
    GCTATGAAAC TTATCAAACT GAAGCTACAA GGATATCAGC TACCCTCTGC ACTTCCCCCT
    GTCATGAAAC AGCAACCAGT TGCTATTTCT AGCGCACCAG CATTTGGTAT GGGAGGTATC
    GCCAGCATGC CACCGCTTAC AGCTGTTGCT CCAGTGCCAA TGGGATCCAT TCCAGTTGTT
    GGAATGTCTC CAACCCTAGT ATCTTCTGTT CCCACAGCAG CTGTGCCCCC CCTGACTAAC
    GGGGCTCCCC CTGTTATACA ACCTCTGCCT GCATTTGCTC ATCCTGCAGC CACATTGCCA
    AAGAGTTCTT CCTTTAGTAG ATCTGGTCCA GGGTCACAAC TAAACACTAA ATTACAAAAG
    GCACAGTCAT TTGATGTGGC CAGTGTCCCA CCAGTGGCAG AATGGGCTGT TCCTCAGTCA
    TCAAGACTGA AATACAGGCA ATTATTCAAT AGTCATGACA AAACTATGAG TGGACACTTA
    ACAGGTCCCC AAGCAAGAAC TATTCTTATG CAATCAAGTT TACCACAGGC TCAGCTGGCT
    TCAATATGGA ATCTTTCTGA CATTGATCAA GATGGAAAAC TTACAGCAGA AGAATTTATC
    CTGGCAATGC ACCTCATTGA TGTAGCTATG TCTGGCCAAC CACTGCCACC TGTCCTGCCT
    CCAGAATATA TTCCACCTTC TTTTAGAAGA GTTCGATCTG GCAGTGGTAT ATCTGTCATA
    AGCTCAACAT CTGTAGATCA GAGGCTACCA GAGGAACCAG TTTTAGAAGA TGAACAACAA
    CAATTAGAAA AGAAATTACC TGTAACGTTT GAAGATAAGA AGCGGGAGAA CTTTGAACGT
    GGCAACCTGG AACTGGAGAA ACGAAGGCAA GCTCTCCTGG AACAGCAGCG CAAGGAGCAG
    GAGCGCCTGG CCCAGCTGGA GCGGGCGGAG CAGGAGAGGA AGGAGCGTGA GCGCCAGGAG
    CAAGAGCGCA AAAGACAACT GGAACTGGAG AAGCAACTGG AAAAGCAGCG GGAGCTAGAA
    CGGCAGAGAG AGGAGGAGAG GAGGAAAGAA ATTGAGAGGC GAGAGGCTGC AAAACGGGAA
    CTTGAAAGGC AACGACAACT TGAGTGGGAA CGGAATCGAA GGCAAGAACT ACTAAATCAA
    AGAAACAAAG AACAAGAGGA CATAGTTGTA CTGAAAGCAA AGAAAAAGAC TTTGGAATTT
    GAATTAGAAG CTCTAAATGA TAAAAAGCAT CAACTAGAAG GGAAACTTCA AGATATCAGA
    TGTCGATTGA CCACCCAAAG GCAAGAAATT GAGAGCACAA ACAAATCTAG AGAGTTGAGA
    ATTGCCGAAA TCACCCATCT ACAGCAACAA TTACAGGAAT CTCAGCAAAT GCTTGGAAGA
    CTTATTCCAG AAAAACAGAT ACTCAATGAC CAATTAAAAC AAGTTCAACA GAACAGTTTG
    CACAGAGATT CACTTGTTAC ACTTAAAAGA GCCTTAGAAG CAAAAGAACT AGCTCGGCAG
    CAGCTACGAG ACCAACTGGA TGAAGTGGAG AAAGAAACTA GATCAAAACT ACAGGAGATT
    GATATTTTCA ATAATCAGCT GAAGGAACTA AGAGAAATAC ACAATAAGCA ACAACTCCAG
    AAGCAAAAGT CCATGGAGGC TGAACGACTG AAACAGAAAG AACAAGAACG AAAGATCATA
    GAATTAGAAA AACAAAAAGA AGAAGCCCAA AGACGAGCTC AGGAAAGGGA CAAGCAGTGG
    CTGGAGCATG TGCAGCAGGA GGACGAGCAT CAGAGACCAA GAAAACTCCA CGAAGAGGAA
    AAACTGAAAA GGGAGGAGAG TGTCAAAAAG AAGGATGGCG AGGAAAAAGG CAAACAGGAA
    GCACAAGACA AGCTGGGTCG GCTTTTCCAT CAACACCAAG AACCAGCTAA GCCAGCTGTC
    CAGGCACCCT GGTCCACTGC AGAAAAAGGT CCACTTACCA TTTCTGCACA GGAAAATGTA
    AAAGTGGTGT ATTACCGGGC ACTGTACCCC TTTGAATCCA GAAGCCATGA TGAAATCACT
    ATCCAGCCAG GAGACATAGT TATGGTGGAT GAAAGCCAAA CTGGAGAACC CGGCTGGCTT
    GGAGGAGAAT TAAAAGGAAA GACAGGGTGG TTCCCTGCAA ACTATGCAGA GAAAATCCCA
    GAAAATGAGG TTCCTGCTCC AGTGAAACCA GTGACTGATT CAACATCTGC CCCTGCCCCC
    AAACTGGCCT TGCGTGAGAC CCCCGCCCCT TTGGCAGTAA CCTCTTCAGA GCCCTCCACG
    ACCCCTAATA ACTGGGCCGA CTTCAGCTCC ACGTGGCCCA CCAGCACGAA TGAGAAACCA
    GAAACGGATA ACTGGGATGC ATGGGCAGCC CAGCCCTCTC TCACCGTTCC AAGTGCCGGC
    CAGTTAAGGC AGAGGTCCGC CTTTACTCCA GCCACGGCCA CTGGCTCCTC CCCGTCTCCT
    GTGCTAGGCC AGGGTGAAAA GGTGGAGGGG CTACAAGCTC AAGCCCTATA TCCTTGGAGA
    GCCAAAAAAG ACAACCACTT AAATTTTAAC AAAAATGATG TCATCACCGT CCTGGAACAG
    CAAGACATGT GGTGGTTTGG AGAAGTTCAA GGTCAGAAGG GTTGGTTCCC CAAGTCTTAC
    GTGAAACTCA TTTCAGGGCC CATAAGGAAG TCTACAAGCA TGGATTCTGG TTCTTCAGAG
    AGTCCTGCTA GTCTAAAGCG AGTAGCCTCT CCAGCAGCCA AGCCGGTCGT TTCGGGAGAA
    GAAATTGCCC AGGTTATTGC CTCATACACC GCCACCGGCC CCGAGCAGCT CACTCTCGCC
    CCTGGTCAGC TGATTTTGAT CCGAAAAAAG AACCCAGGTG GATGGTGGGA AGGAGAGCTG
    CAAGCACGTG GGAAAAAGCG CCAGATAGGC TGGTTCCCAG CTAATTATGT AAAGCTTCTA
    AGCCCTGGGA CGAGCAAAAT CACTCCAACA GAGCCACCTA AGTCAACAGC ATTAGCGGCA
    GTGTGCCAGG TGATTGGGAT GTACGACTAC ACCGCGCAGA ATGACGATGA GCTGGCCTTC
    AACAAGGGCC AGATCATCAA CGTCCTCAAC AAGGAGGACC CTGACTGGTG GAAAGGAGAA
    GTCAATGGAC AAGTGGGGCT CTTCCCATCC AATTATGTGA AGCTGACCAC AGACATGGAC
    CCAAGCCAGC AATGGTGTTC AGACTTACAT CTCTTGGATA TGTTGACCCC AACTGAAAGA
    AAGCGACAAG GATACATCCA CGAGCTCATT GTCACCGAGG AGAACTATGT GAATGACCTG
    CAGCTGGTCA CAGAGATTTT TCAAAAACCC CTGATGGAGT CTGAGCTGCT GACAGAAAAA
    GAGGTTGCTA TGATTTTTGT GAACTGGAAG GAGCTGATTA TGTGTAATAT CAAACTACTG
    AAAGCGCTGA GAGTCCGCAA GAAGATGTCC GGGGAGAAGA TGCCTGTGAA GATGATTGGA
    GACATCCTGA GCGCACAGCT GCCGCACATG CAGCCCTACA TCCGCTTCTG CAGCCGCCAG
    CTCAACGGGG CTGCCCTGAT CCAGCAGAAG ACGGACGAGG CCCCAGACTT CAAGGAGTTT
    GTCAAAAGAT TGGCAATGGA TCCTCGGTGT AAAGGGATGC CACTCTCTAG TTTTATACTG
    AAGCCTATGC AACGGGTAAC AAGATACCCA CTGATCATTA AAAATATCCT GGAAAACACC
    CCTGAAAACC ACCCGGACCA CAGCCACTTG AAGCACGCCC TGGAGAAGGC GGAAGAGCTC
    TGTTCCCAGG TGAACGAAGG GGTGCGGGAG AAGGAGAACT CTGACCGGCT GGAGTGGATC
    CAGGCCCACG TGCAGTGTGA AGGCCTGTCT GAGCAACTTG TGTTCAATTC AGTGACCAAT
    TGCTTGGGGC CACGCAAATT TCTGCACAGT GGGAAGCTCT ACAAGGCCAA GAGCAACAAG
    GAGCTGTATG GCTTCCTTTT CAACGACTTC CTCCTGCTGA CTCAGATCAC GAAGCCCTTG
    GGGTCTTCTG GCACCGACAA AGTCTTCAGC CCCAAATCAA ACCTGCAGTA TAAAATGTAT
    AAAACACCTA TTTTCCTAAA TGAGGTTCTA GTAAAATTAC CCACCGACCC TTCTGGAGAC
    GAGCCCATCT TCCACATCTC CCACATTGAC CGCGTCTATA CTCTCCGAGC AGAAAGCATA
    AATGAAAGGA CTGCCTGGGT GCAGAAAATC AAAGCTGCTT CTGAACTCTA CATAGAGACT
    GAGAAAAAGA AGCGCGAGAA AGCGTACCTG GTCCGTTCCC AAAGGGCAAC AGGCATTGGA
    AGGTTGATGG TGAACGTGGT TGAAGGCATT GAGTTGAAAC CCTGTCGGTC ACATGGAAAG
    AGCAACCCGT ACTGTGAGGT GACCATGGGT TCCCAGTGCC ACATCACCAA GACGATCCAG
    GACACTCTGA ACCCCAAGTG GAATTCCAAC TGCCAGTTCT TCATCCGAGA CCTGGAGCAG
    GAAGTCCTCT GCATCACTGT GTTCGAGAGG GACCAGTTCT CACCAGATGA TTTTTTGGGT
    CGGACGGAGA TCCGCGTGGC GGACATCAAG AAAGACCAGG GCTCCAAAGG TCCAGTTACG
    AAGTGTCTTC TGCTGCACGA AGTCCCCACG GGAGAGATTG TGGTCCGCTT GGACCTGCAG
    TTGTTTGATG AGCCGTAG

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

    CloneID OPc46482
    Clone ID Related Accession (Same CDS sequence) XM_016947146.2 , XM_009456278.2
    Accession Version XM_009456278.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4938bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-01
    Organism Pan troglodytes(chimpanzee)
    Product intersectin-1 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_006488.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 2, 2016 this sequence version replaced XM_009456278.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Pan troglodytes Annotation Release 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGGCTCAGT TTCCAACACC TTTTGGTGGC AGCCTGGATA TCTGGGCCAT AACTGTAGAG 
    GAAAGAGCGA AGCATGATCA GCAGTTCCAT AGTTTAAAGC CAATATCTGG ATTCATTACT
    GGTGATCAAG CTAGAAACTT TTTTTTTCAA TCTGGGTTAC CTCAACCTGT TTTAGCACAG
    ATATGGGCAC TAGCTGACAT GAATAATGAT GGAAGAATGG ATCAAGTGGA GTTTTCCATA
    GCTATGAAAC TTATCAAACT GAAGCTACAA GGATATCAGC TACCCTCTGC ACTTCCCCCT
    GTCATGAAAC AGCAACCAGT TGCTATTTCT AGCGCACCAG CATTTGGTAT GGGAGGTATC
    GCCAGCATGC CACCGCTTAC AGCTGTTGCT CCAGTGCCAA TGGGATCCAT TCCAGTTGTT
    GGAATGTCTC CAACCCTAGT ATCTTCTGTT CCCACAGCAG CTGTGCCCCC CCTGACTAAC
    GGGGCTCCCC CTGTTATACA ACCTCTGCCT GCATTTGCTC ATCCTGCAGC CACATTGCCA
    AAGAGTTCTT CCTTTAGTAG ATCTGGTCCA GGGTCACAAC TAAACACTAA ATTACAAAAG
    GCACAGTCAT TTGATGTGGC CAGTGTCCCA CCAGTGGCAG AATGGGCTGT TCCTCAGTCA
    TCAAGACTGA AATACAGGCA ATTATTCAAT AGTCATGACA AAACTATGAG TGGACACTTA
    ACAGGTCCCC AAGCAAGAAC TATTCTTATG CAATCAAGTT TACCACAGGC TCAGCTGGCT
    TCAATATGGA ATCTTTCTGA CATTGATCAA GATGGAAAAC TTACAGCAGA AGAATTTATC
    CTGGCAATGC ACCTCATTGA TGTAGCTATG TCTGGCCAAC CACTGCCACC TGTCCTGCCT
    CCAGAATATA TTCCACCTTC TTTTAGAAGA GTTCGATCTG GCAGTGGTAT ATCTGTCATA
    AGCTCAACAT CTGTAGATCA GAGGCTACCA GAGGAACCAG TTTTAGAAGA TGAACAACAA
    CAATTAGAAA AGAAATTACC TGTAACGTTT GAAGATAAGA AGCGGGAGAA CTTTGAACGT
    GGCAACCTGG AACTGGAGAA ACGAAGGCAA GCTCTCCTGG AACAGCAGCG CAAGGAGCAG
    GAGCGCCTGG CCCAGCTGGA GCGGGCGGAG CAGGAGAGGA AGGAGCGTGA GCGCCAGGAG
    CAAGAGCGCA AAAGACAACT GGAACTGGAG AAGCAACTGG AAAAGCAGCG GGAGCTAGAA
    CGGCAGAGAG AGGAGGAGAG GAGGAAAGAA ATTGAGAGGC GAGAGGCTGC AAAACGGGAA
    CTTGAAAGGC AACGACAACT TGAGTGGGAA CGGAATCGAA GGCAAGAACT ACTAAATCAA
    AGAAACAAAG AACAAGAGGA CATAGTTGTA CTGAAAGCAA AGAAAAAGAC TTTGGAATTT
    GAATTAGAAG CTCTAAATGA TAAAAAGCAT CAACTAGAAG GGAAACTTCA AGATATCAGA
    TGTCGATTGA CCACCCAAAG GCAAGAAATT GAGAGCACAA ACAAATCTAG AGAGTTGAGA
    ATTGCCGAAA TCACCCATCT ACAGCAACAA TTACAGGAAT CTCAGCAAAT GCTTGGAAGA
    CTTATTCCAG AAAAACAGAT ACTCAATGAC CAATTAAAAC AAGTTCAACA GAACAGTTTG
    CACAGAGATT CACTTGTTAC ACTTAAAAGA GCCTTAGAAG CAAAAGAACT AGCTCGGCAG
    CAGCTACGAG ACCAACTGGA TGAAGTGGAG AAAGAAACTA GATCAAAACT ACAGGAGATT
    GATATTTTCA ATAATCAGCT GAAGGAACTA AGAGAAATAC ACAATAAGCA ACAACTCCAG
    AAGCAAAAGT CCATGGAGGC TGAACGACTG AAACAGAAAG AACAAGAACG AAAGATCATA
    GAATTAGAAA AACAAAAAGA AGAAGCCCAA AGACGAGCTC AGGAAAGGGA CAAGCAGTGG
    CTGGAGCATG TGCAGCAGGA GGACGAGCAT CAGAGACCAA GAAAACTCCA CGAAGAGGAA
    AAACTGAAAA GGGAGGAGAG TGTCAAAAAG AAGGATGGCG AGGAAAAAGG CAAACAGGAA
    GCACAAGACA AGCTGGGTCG GCTTTTCCAT CAACACCAAG AACCAGCTAA GCCAGCTGTC
    CAGGCACCCT GGTCCACTGC AGAAAAAGGT CCACTTACCA TTTCTGCACA GGAAAATGTA
    AAAGTGGTGT ATTACCGGGC ACTGTACCCC TTTGAATCCA GAAGCCATGA TGAAATCACT
    ATCCAGCCAG GAGACATAGT TATGGTGGAT GAAAGCCAAA CTGGAGAACC CGGCTGGCTT
    GGAGGAGAAT TAAAAGGAAA GACAGGGTGG TTCCCTGCAA ACTATGCAGA GAAAATCCCA
    GAAAATGAGG TTCCTGCTCC AGTGAAACCA GTGACTGATT CAACATCTGC CCCTGCCCCC
    AAACTGGCCT TGCGTGAGAC CCCCGCCCCT TTGGCAGTAA CCTCTTCAGA GCCCTCCACG
    ACCCCTAATA ACTGGGCCGA CTTCAGCTCC ACGTGGCCCA CCAGCACGAA TGAGAAACCA
    GAAACGGATA ACTGGGATGC ATGGGCAGCC CAGCCCTCTC TCACCGTTCC AAGTGCCGGC
    CAGTTAAGGC AGAGGTCCGC CTTTACTCCA GCCACGGCCA CTGGCTCCTC CCCGTCTCCT
    GTGCTAGGCC AGGGTGAAAA GGTGGAGGGG CTACAAGCTC AAGCCCTATA TCCTTGGAGA
    GCCAAAAAAG ACAACCACTT AAATTTTAAC AAAAATGATG TCATCACCGT CCTGGAACAG
    CAAGACATGT GGTGGTTTGG AGAAGTTCAA GGTCAGAAGG GTTGGTTCCC CAAGTCTTAC
    GTGAAACTCA TTTCAGGGCC CATAAGGAAG TCTACAAGCA TGGATTCTGG TTCTTCAGAG
    AGTCCTGCTA GTCTAAAGCG AGTAGCCTCT CCAGCAGCCA AGCCGGTCGT TTCGGGAGAA
    GAAATTGCCC AGGTTATTGC CTCATACACC GCCACCGGCC CCGAGCAGCT CACTCTCGCC
    CCTGGTCAGC TGATTTTGAT CCGAAAAAAG AACCCAGGTG GATGGTGGGA AGGAGAGCTG
    CAAGCACGTG GGAAAAAGCG CCAGATAGGC TGGTTCCCAG CTAATTATGT AAAGCTTCTA
    AGCCCTGGGA CGAGCAAAAT CACTCCAACA GAGCCACCTA AGTCAACAGC ATTAGCGGCA
    GTGTGCCAGG TGATTGGGAT GTACGACTAC ACCGCGCAGA ATGACGATGA GCTGGCCTTC
    AACAAGGGCC AGATCATCAA CGTCCTCAAC AAGGAGGACC CTGACTGGTG GAAAGGAGAA
    GTCAATGGAC AAGTGGGGCT CTTCCCATCC AATTATGTGA AGCTGACCAC AGACATGGAC
    CCAAGCCAGC AATGGTGTTC AGACTTACAT CTCTTGGATA TGTTGACCCC AACTGAAAGA
    AAGCGACAAG GATACATCCA CGAGCTCATT GTCACCGAGG AGAACTATGT GAATGACCTG
    CAGCTGGTCA CAGAGATTTT TCAAAAACCC CTGATGGAGT CTGAGCTGCT GACAGAAAAA
    GAGGTTGCTA TGATTTTTGT GAACTGGAAG GAGCTGATTA TGTGTAATAT CAAACTACTG
    AAAGCGCTGA GAGTCCGCAA GAAGATGTCC GGGGAGAAGA TGCCTGTGAA GATGATTGGA
    GACATCCTGA GCGCACAGCT GCCGCACATG CAGCCCTACA TCCGCTTCTG CAGCCGCCAG
    CTCAACGGGG CTGCCCTGAT CCAGCAGAAG ACGGACGAGG CCCCAGACTT CAAGGAGTTT
    GTCAAAAGAT TGGCAATGGA TCCTCGGTGT AAAGGGATGC CACTCTCTAG TTTTATACTG
    AAGCCTATGC AACGGGTAAC AAGATACCCA CTGATCATTA AAAATATCCT GGAAAACACC
    CCTGAAAACC ACCCGGACCA CAGCCACTTG AAGCACGCCC TGGAGAAGGC GGAAGAGCTC
    TGTTCCCAGG TGAACGAAGG GGTGCGGGAG AAGGAGAACT CTGACCGGCT GGAGTGGATC
    CAGGCCCACG TGCAGTGTGA AGGCCTGTCT GAGCAACTTG TGTTCAATTC AGTGACCAAT
    TGCTTGGGGC CACGCAAATT TCTGCACAGT GGGAAGCTCT ACAAGGCCAA GAGCAACAAG
    GAGCTGTATG GCTTCCTTTT CAACGACTTC CTCCTGCTGA CTCAGATCAC GAAGCCCTTG
    GGGTCTTCTG GCACCGACAA AGTCTTCAGC CCCAAATCAA ACCTGCAGTA TAAAATGTAT
    AAAACACCTA TTTTCCTAAA TGAGGTTCTA GTAAAATTAC CCACCGACCC TTCTGGAGAC
    GAGCCCATCT TCCACATCTC CCACATTGAC CGCGTCTATA CTCTCCGAGC AGAAAGCATA
    AATGAAAGGA CTGCCTGGGT GCAGAAAATC AAAGCTGCTT CTGAACTCTA CATAGAGACT
    GAGAAAAAGA AGCGCGAGAA AGCGTACCTG GTCCGTTCCC AAAGGGCAAC AGGCATTGGA
    AGGTTGATGG TGAACGTGGT TGAAGGCATT GAGTTGAAAC CCTGTCGGTC ACATGGAAAG
    AGCAACCCGT ACTGTGAGGT GACCATGGGT TCCCAGTGCC ACATCACCAA GACGATCCAG
    GACACTCTGA ACCCCAAGTG GAATTCCAAC TGCCAGTTCT TCATCCGAGA CCTGGAGCAG
    GAAGTCCTCT GCATCACTGT GTTCGAGAGG GACCAGTTCT CACCAGATGA TTTTTTGGGT
    CGGACGGAGA TCCGCGTGGC GGACATCAAG AAAGACCAGG GCTCCAAAGG TCCAGTTACG
    AAGTGTCTTC TGCTGCACGA AGTCCCCACG GGAGAGATTG TGGTCCGCTT GGACCTGCAG
    TTGTTTGATG AGCCGTAG

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

    RefSeq XP_009454553.1
    CDS318..5255
    Translation

    Target ORF information:

    RefSeq Version XM_009456278.2
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes intersectin 1 (ITSN1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009456278.2

    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
    ATGGCTCAGT TTCCAACACC TTTTGGTGGC AGCCTGGATA TCTGGGCCAT AACTGTAGAG 
    GAAAGAGCGA AGCATGATCA GCAGTTCCAT AGTTTAAAGC CAATATCTGG ATTCATTACT
    GGTGATCAAG CTAGAAACTT TTTTTTTCAA TCTGGGTTAC CTCAACCTGT TTTAGCACAG
    ATATGGGCAC TAGCTGACAT GAATAATGAT GGAAGAATGG ATCAAGTGGA GTTTTCCATA
    GCTATGAAAC TTATCAAACT GAAGCTACAA GGATATCAGC TACCCTCTGC ACTTCCCCCT
    GTCATGAAAC AGCAACCAGT TGCTATTTCT AGCGCACCAG CATTTGGTAT GGGAGGTATC
    GCCAGCATGC CACCGCTTAC AGCTGTTGCT CCAGTGCCAA TGGGATCCAT TCCAGTTGTT
    GGAATGTCTC CAACCCTAGT ATCTTCTGTT CCCACAGCAG CTGTGCCCCC CCTGACTAAC
    GGGGCTCCCC CTGTTATACA ACCTCTGCCT GCATTTGCTC ATCCTGCAGC CACATTGCCA
    AAGAGTTCTT CCTTTAGTAG ATCTGGTCCA GGGTCACAAC TAAACACTAA ATTACAAAAG
    GCACAGTCAT TTGATGTGGC CAGTGTCCCA CCAGTGGCAG AATGGGCTGT TCCTCAGTCA
    TCAAGACTGA AATACAGGCA ATTATTCAAT AGTCATGACA AAACTATGAG TGGACACTTA
    ACAGGTCCCC AAGCAAGAAC TATTCTTATG CAATCAAGTT TACCACAGGC TCAGCTGGCT
    TCAATATGGA ATCTTTCTGA CATTGATCAA GATGGAAAAC TTACAGCAGA AGAATTTATC
    CTGGCAATGC ACCTCATTGA TGTAGCTATG TCTGGCCAAC CACTGCCACC TGTCCTGCCT
    CCAGAATATA TTCCACCTTC TTTTAGAAGA GTTCGATCTG GCAGTGGTAT ATCTGTCATA
    AGCTCAACAT CTGTAGATCA GAGGCTACCA GAGGAACCAG TTTTAGAAGA TGAACAACAA
    CAATTAGAAA AGAAATTACC TGTAACGTTT GAAGATAAGA AGCGGGAGAA CTTTGAACGT
    GGCAACCTGG AACTGGAGAA ACGAAGGCAA GCTCTCCTGG AACAGCAGCG CAAGGAGCAG
    GAGCGCCTGG CCCAGCTGGA GCGGGCGGAG CAGGAGAGGA AGGAGCGTGA GCGCCAGGAG
    CAAGAGCGCA AAAGACAACT GGAACTGGAG AAGCAACTGG AAAAGCAGCG GGAGCTAGAA
    CGGCAGAGAG AGGAGGAGAG GAGGAAAGAA ATTGAGAGGC GAGAGGCTGC AAAACGGGAA
    CTTGAAAGGC AACGACAACT TGAGTGGGAA CGGAATCGAA GGCAAGAACT ACTAAATCAA
    AGAAACAAAG AACAAGAGGA CATAGTTGTA CTGAAAGCAA AGAAAAAGAC TTTGGAATTT
    GAATTAGAAG CTCTAAATGA TAAAAAGCAT CAACTAGAAG GGAAACTTCA AGATATCAGA
    TGTCGATTGA CCACCCAAAG GCAAGAAATT GAGAGCACAA ACAAATCTAG AGAGTTGAGA
    ATTGCCGAAA TCACCCATCT ACAGCAACAA TTACAGGAAT CTCAGCAAAT GCTTGGAAGA
    CTTATTCCAG AAAAACAGAT ACTCAATGAC CAATTAAAAC AAGTTCAACA GAACAGTTTG
    CACAGAGATT CACTTGTTAC ACTTAAAAGA GCCTTAGAAG CAAAAGAACT AGCTCGGCAG
    CAGCTACGAG ACCAACTGGA TGAAGTGGAG AAAGAAACTA GATCAAAACT ACAGGAGATT
    GATATTTTCA ATAATCAGCT GAAGGAACTA AGAGAAATAC ACAATAAGCA ACAACTCCAG
    AAGCAAAAGT CCATGGAGGC TGAACGACTG AAACAGAAAG AACAAGAACG AAAGATCATA
    GAATTAGAAA AACAAAAAGA AGAAGCCCAA AGACGAGCTC AGGAAAGGGA CAAGCAGTGG
    CTGGAGCATG TGCAGCAGGA GGACGAGCAT CAGAGACCAA GAAAACTCCA CGAAGAGGAA
    AAACTGAAAA GGGAGGAGAG TGTCAAAAAG AAGGATGGCG AGGAAAAAGG CAAACAGGAA
    GCACAAGACA AGCTGGGTCG GCTTTTCCAT CAACACCAAG AACCAGCTAA GCCAGCTGTC
    CAGGCACCCT GGTCCACTGC AGAAAAAGGT CCACTTACCA TTTCTGCACA GGAAAATGTA
    AAAGTGGTGT ATTACCGGGC ACTGTACCCC TTTGAATCCA GAAGCCATGA TGAAATCACT
    ATCCAGCCAG GAGACATAGT TATGGTGGAT GAAAGCCAAA CTGGAGAACC CGGCTGGCTT
    GGAGGAGAAT TAAAAGGAAA GACAGGGTGG TTCCCTGCAA ACTATGCAGA GAAAATCCCA
    GAAAATGAGG TTCCTGCTCC AGTGAAACCA GTGACTGATT CAACATCTGC CCCTGCCCCC
    AAACTGGCCT TGCGTGAGAC CCCCGCCCCT TTGGCAGTAA CCTCTTCAGA GCCCTCCACG
    ACCCCTAATA ACTGGGCCGA CTTCAGCTCC ACGTGGCCCA CCAGCACGAA TGAGAAACCA
    GAAACGGATA ACTGGGATGC ATGGGCAGCC CAGCCCTCTC TCACCGTTCC AAGTGCCGGC
    CAGTTAAGGC AGAGGTCCGC CTTTACTCCA GCCACGGCCA CTGGCTCCTC CCCGTCTCCT
    GTGCTAGGCC AGGGTGAAAA GGTGGAGGGG CTACAAGCTC AAGCCCTATA TCCTTGGAGA
    GCCAAAAAAG ACAACCACTT AAATTTTAAC AAAAATGATG TCATCACCGT CCTGGAACAG
    CAAGACATGT GGTGGTTTGG AGAAGTTCAA GGTCAGAAGG GTTGGTTCCC CAAGTCTTAC
    GTGAAACTCA TTTCAGGGCC CATAAGGAAG TCTACAAGCA TGGATTCTGG TTCTTCAGAG
    AGTCCTGCTA GTCTAAAGCG AGTAGCCTCT CCAGCAGCCA AGCCGGTCGT TTCGGGAGAA
    GAAATTGCCC AGGTTATTGC CTCATACACC GCCACCGGCC CCGAGCAGCT CACTCTCGCC
    CCTGGTCAGC TGATTTTGAT CCGAAAAAAG AACCCAGGTG GATGGTGGGA AGGAGAGCTG
    CAAGCACGTG GGAAAAAGCG CCAGATAGGC TGGTTCCCAG CTAATTATGT AAAGCTTCTA
    AGCCCTGGGA CGAGCAAAAT CACTCCAACA GAGCCACCTA AGTCAACAGC ATTAGCGGCA
    GTGTGCCAGG TGATTGGGAT GTACGACTAC ACCGCGCAGA ATGACGATGA GCTGGCCTTC
    AACAAGGGCC AGATCATCAA CGTCCTCAAC AAGGAGGACC CTGACTGGTG GAAAGGAGAA
    GTCAATGGAC AAGTGGGGCT CTTCCCATCC AATTATGTGA AGCTGACCAC AGACATGGAC
    CCAAGCCAGC AATGGTGTTC AGACTTACAT CTCTTGGATA TGTTGACCCC AACTGAAAGA
    AAGCGACAAG GATACATCCA CGAGCTCATT GTCACCGAGG AGAACTATGT GAATGACCTG
    CAGCTGGTCA CAGAGATTTT TCAAAAACCC CTGATGGAGT CTGAGCTGCT GACAGAAAAA
    GAGGTTGCTA TGATTTTTGT GAACTGGAAG GAGCTGATTA TGTGTAATAT CAAACTACTG
    AAAGCGCTGA GAGTCCGCAA GAAGATGTCC GGGGAGAAGA TGCCTGTGAA GATGATTGGA
    GACATCCTGA GCGCACAGCT GCCGCACATG CAGCCCTACA TCCGCTTCTG CAGCCGCCAG
    CTCAACGGGG CTGCCCTGAT CCAGCAGAAG ACGGACGAGG CCCCAGACTT CAAGGAGTTT
    GTCAAAAGAT TGGCAATGGA TCCTCGGTGT AAAGGGATGC CACTCTCTAG TTTTATACTG
    AAGCCTATGC AACGGGTAAC AAGATACCCA CTGATCATTA AAAATATCCT GGAAAACACC
    CCTGAAAACC ACCCGGACCA CAGCCACTTG AAGCACGCCC TGGAGAAGGC GGAAGAGCTC
    TGTTCCCAGG TGAACGAAGG GGTGCGGGAG AAGGAGAACT CTGACCGGCT GGAGTGGATC
    CAGGCCCACG TGCAGTGTGA AGGCCTGTCT GAGCAACTTG TGTTCAATTC AGTGACCAAT
    TGCTTGGGGC CACGCAAATT TCTGCACAGT GGGAAGCTCT ACAAGGCCAA GAGCAACAAG
    GAGCTGTATG GCTTCCTTTT CAACGACTTC CTCCTGCTGA CTCAGATCAC GAAGCCCTTG
    GGGTCTTCTG GCACCGACAA AGTCTTCAGC CCCAAATCAA ACCTGCAGTA TAAAATGTAT
    AAAACACCTA TTTTCCTAAA TGAGGTTCTA GTAAAATTAC CCACCGACCC TTCTGGAGAC
    GAGCCCATCT TCCACATCTC CCACATTGAC CGCGTCTATA CTCTCCGAGC AGAAAGCATA
    AATGAAAGGA CTGCCTGGGT GCAGAAAATC AAAGCTGCTT CTGAACTCTA CATAGAGACT
    GAGAAAAAGA AGCGCGAGAA AGCGTACCTG GTCCGTTCCC AAAGGGCAAC AGGCATTGGA
    AGGTTGATGG TGAACGTGGT TGAAGGCATT GAGTTGAAAC CCTGTCGGTC ACATGGAAAG
    AGCAACCCGT ACTGTGAGGT GACCATGGGT TCCCAGTGCC ACATCACCAA GACGATCCAG
    GACACTCTGA ACCCCAAGTG GAATTCCAAC TGCCAGTTCT TCATCCGAGA CCTGGAGCAG
    GAAGTCCTCT GCATCACTGT GTTCGAGAGG GACCAGTTCT CACCAGATGA TTTTTTGGGT
    CGGACGGAGA TCCGCGTGGC GGACATCAAG AAAGACCAGG GCTCCAAAGG TCCAGTTACG
    AAGTGTCTTC TGCTGCACGA AGTCCCCACG GGAGAGATTG TGGTCCGCTT GGACCTGCAG
    TTGTTTGATG AGCCGTAG

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