CNTNAP1 cDNA ORF clone, Homo sapiens(human)

The following CNTNAP1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CNTNAP1 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
OHu31595 NM_003632.3
Latest version!
Homo sapiens contactin associated protein 1 (CNTNAP1), mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$519.50-$727.30
$1039.00
OHu31595 XM_024451011.1
Latest version!
Homo sapiens contactin associated protein 1 (CNTNAP1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$519.50-$727.30
$1039.00
OHu31595 XM_017025238.1
Latest version!
Homo sapiens contactin associated protein 1 (CNTNAP1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$519.50-$727.30
$1039.00
OHu50736 XM_005257748.4
Latest version!
Homo sapiens contactin associated protein 1 (CNTNAP1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
View Old Accession Versions >>
OHu31595 NM_003632.2 Homo sapiens contactin associated protein 1 (CNTNAP1), mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$519.50-$727.30
$1039.00
Hide Old Accession Versions >>

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

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

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

  • Reference Sequences (Refseq)
    CloneID OHu31595
    Clone ID Related Accession (Same CDS sequence) XM_017025238.1 , NM_003632.2 , NM_003632.3 , XM_024451011.1
    Accession Version NM_003632.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4155bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-10-01
    Organism Homo sapiens(human)
    Product contactin-associated protein 1 precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from U87223.1, BC171797.1 and BU729460.1. This sequence is a reference standard in the RefSeqGene project. On Jan 24, 2009 this sequence version replaced NM_003632.1. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: U87223.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1966682, SAMEA1968189 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGATGCATC TCCGGCTCTT CTGCATCCTG CTCGCCGCGG TCTCAGGAGC CGAGGGCTGG 
    GGCTACTACG GCTGCGACGA GGAGCTGGTG GGTCCCCTGT ATGCACGCTC CCTGGGCGCC
    TCCTCCTACT ACAGTCTCCT TACTGCGCCG AGATTCGCCA GGCTGCACGG CATAAGCGGG
    TGGTCACCAC GGATTGGGGA TCCGAATCCC TGGCTCCAGA TAGACTTAAT GAAGAAGCAC
    CGGATCCGGG CCGTGGCCAC ACAGGGCTCC TTTAATTCTT GGGACTGGGT CACACGTTAC
    ATGCTACTCT ACGGCGACCG AGTGGACAGC TGGACACCGT TCTACCAGCG AGGGCACAAC
    TCGACCTTCT TTGGTAACGT GAACGAGTCG GCGGTGGTGC GCCATGACCT GCACTTCCAC
    TTCACTGCGC GCTACATCCG CATCGTGCCC CTGGCCTGGA ACCCACGCGG CAAGATCGGC
    CTGAGGCTCG GCCTCTATGG CTGCCCATAC AAGGCCGACA TACTCTATTT CGACGGCGAC
    GATGCCATCT CCTACCGCTT CCCGCGAGGG GTCAGCCGAA GCCTGTGGGA CGTGTTCGCC
    TTCAGCTTCA AGACCGAGGA GAAGGACGGT CTTCTGCTGC ACGCCGAGGG CGCCCAGGGC
    GACTACGTGA CGCTCGAGCT GGAGGGGGCA CACCTGCTGC TGCACATGAG CCTGGGCAGC
    AGCCCTATCC AGCCAAGACC AGGTCACACC ACCGTGAGCG CAGGCGGAGT CCTCAATGAC
    CAGCACTGGC ACTATGTGCG GGTGGACCGA TTTGGCCGCG ATGTAAATTT CACCCTGGAC
    GGCTATGTGC AGCGCTTTAT TCTCAATGGA GACTTCGAGA GGCTGAACCT GGACACTGAG
    ATGTTCATCG GAGGTCTGGT GGGCGCCGCG CGGAAGAACC TGGCCTATCG GCATAACTTC
    CGCGGCTGCA TAGAAAACGT AATCTTCAAC CGCGTCAACA TCGCAGACCT GGCCGTGCGG
    CGCCATTCCC GGATCACCTT CGAGGGTAAG GTGGCTTTTC GTTGCCTGGA CCCGGTACCG
    CACCCTATCA ACTTCGGAGG CCCTCACAAC TTCGTTCAAG TGCCCGGTTT CCCACGCCGT
    GGCCGCCTGG CAGTCTCATT TCGCTTCCGC ACCTGGGACC TCACCGGGCT TCTCCTTTTC
    TCCCGTCTGG GGGACGGGCT GGGCCACGTG GAGCTGACGC TCAGCGAAGG GCAGGTCAAC
    GTGTCCATCG CGCAGAGCGG CCGAAAGAAG CTTCAGTTCG CTGCTGGGTA CCGACTGAAT
    GACGGCTTTT GGCACGAGGT GAATTTTGTG GCACAGGAAA ACCATGCAGT TATCAGCATT
    GATGATGTGG AAGGGGCAGA GGTCAGGGTC TCATACCCGT TGCTGATCCG GACAGGGACC
    TCATATTTCT TTGGGGGTTG TCCCAAGCCA GCCAGTCGAT GGGACTGCCA CTCCAACCAG
    ACGGCATTCC ATGGCTGCAT GGAGCTGCTC AAGGTGGATG GTCAACTGGT CAACCTGACT
    CTGGTGGAGG GCCGGCGGCT TGGATTCTAT GCTGAGGTCC TCTTTGATAC ATGTGGCATC
    ACTGATAGGT GCAGCCCTAA CATGTGTGAG CATGATGGAC GCTGCTACCA GTCTTGGGAT
    GACTTCATTT GCTACTGCGA ACTGACGGGC TACAAGGGAG AGACCTGCCA CACACCTTTG
    TATAAGGAAT CCTGTGAGGC TTATCGGCTC AGTGGGAAAA CTTCTGGAAA CTTCACCATT
    GATCCTGATG GCAGTGGCCC CCTGAAGCCA TTTGTAGTGT ACTGTGATAT CCGAGAGAAC
    CGAGCGTGGA CAGTTGTGCG GCATGACAGG CTGTGGACAA CTCGAGTGAC AGGTTCCAGC
    ATGGAGCGGC CATTCCTGGG GGCTATCCAG TACTGGAATG CATCCTGGGA GGAAGTCAGT
    GCCCTTGCCA ATGCTTCCCA GCATTGTGAA CAGTGGATCG AGTTCTCCTG CTACAATTCC
    CGGCTGCTCA ACACTGCAGG AGGCTACCCC TACAGCTTTT GGATTGGCCG AAATGAGGAG
    CAGCACTTCT ACTGGGGAGG CTCCCAGCCT GGGATCCAGC GCTGTGCCTG TGGTCTGGAC
    CGGAGCTGTG TGGACCCTGC CTTGTACTGC AACTGTGACG CTGACCAGCC CCAGTGGAGA
    ACTGACAAGG GACTGCTGAC CTTTGTGGAC CATCTGCCTG TCACTCAGGT AGTGATAGGG
    GATACGAACC GCTCCACTTC TGAGGCCCAG TTCTTCCTGA GGCCTCTGCG CTGCTATGGC
    GATCGAAATT CCTGGAACAC CATTTCCTTC CACACCGGGG CTGCACTACG CTTCCCCCCA
    ATCCGTGCCA ACCACAGCCT GGATGTCTCC TTCTACTTCA GGACCTCTGC TCCCTCGGGG
    GTCTTCCTAG AGAATATGGG GGGCCCTTAC TGCCAGTGGC GCCGACCTTA TGTGCGGGTG
    GAACTCAACA CATCCCGGGA TGTGGTCTTC GCCTTTGATG TGGGGAATGG GGATGAGAAC
    CTCACAGTAC ACTCAGACGA CTTTGAGTTC AATGATGACG AGTGGCACCT GGTCCGGGCT
    GAAATCAACG TGAAGCAGGC CCGGCTCCGA GTGGATCACC GGCCCTGGGT TCTGCGGCCT
    ATGCCACTGC AGACCTACAT CTGGATGGAG TATGACCAGC CCCTCTATGT GGGATCTGCA
    GAGCTTAAGA GACGCCCCTT TGTGGGTTGC TTGAGGGCCA TGCGTCTGAA CGGAGTGACT
    CTGAACCTGG AGGGCCGTGC CAATGCCTCT GAGGGTACCT CACCCAACTG CACAGGCCAC
    TGTGCCCACC CTCGGCTCCC CTGTTTCCAT GGAGGCCGCT GCGTGGAGCG CTATAGCTAC
    TACACGTGTG ACTGTGACCT CACGGCTTTT GATGGGCCAT ACTGCAACCA CGATATTGGT
    GGTTTCTTTG AGCCGGGCAC CTGGATGCGC TATAACCTAC AGTCAGCGCT GCGCTCTGCA
    GCCAGGGAGT TCTCCCACAT GCTGAGCCGG CCAGTGCCAG GCTATGAGCC TGGCTACATC
    CCGGGCTATG ATACTCCGGG CTATGTGCCT GGCTACCATG GCCCCGGGTA CCGCCTGCCC
    GACTACCCCC GGCCTGGTCG GCCTGTGCCC GGTTACCGTG GGCCTGTCTA CAACGTTACG
    GGAGAGGAGG TCTCCTTCAG CTTCAGCACC AGCTCCGCCC CTGCTGTCCT GCTCTACGTC
    AGTTCCTTTG TTCGTGACTA CATGGCTGTG CTCATCAAGG ATGATGGGAC CCTTCAGCTG
    CGATATCAGC TGGGCACCAG TCCCTACGTG TACCAGCTAA CCACTCGACC AGTGACCGAT
    GGCCAGCCCC ATAGCATCAA TATCACCCGT GTTTACCGGA ACCTCTTCAT CCAGGTGGAC
    TACTTCCCAC TGACAGAGCA GAAGTTCTCG CTGTTGGTGG ACAGCCAGTT GGACTCACCC
    AAGGCCTTGT ATTTAGGGCG TGTGATGGAG ACAGGAGTCA TTGACCCGGA GATCCAGCGC
    TACAACACCC CAGGTTTCTC AGGCTGCCTG TCTGGTGTTC GATTCAACAA CGTGGCTCCC
    CTCAAGACCC ACTTCCGAAC CCCTCGACCC ATGACTGCTG AGCTAGCTGA GGCCCTTCGA
    GTTCAGGGAG AACTGTCCGA ATCTAATTGC GGAGCTATGC CACGTCTTGT TTCAGAGGTG
    CCACCTGAGC TTGATCCCTG GTATCTGCCC CCAGACTTCC CCTACTACCA TGATGAAGGA
    TGGGTTGCCA TACTTTTAGG CTTTTTGGTG GCCTTTCTGC TGCTGGGGCT GGTGGGAATG
    TTGGTGCTCT TCTATCTGCA AAATCATCGC TATAAGGGCT CCTACCATAC CAATGAGCCC
    AAGGCTGCCC ACGAGTACCA TCCTGGCAGC AAACCTCCCC TACCCACTTC AGGCCCTGCC
    CAGGTCCCCA CCCCTACAGC AGCTCCCAAC CAAGCTCCAG CCTCAGCCCC AGCCCCAGCC
    CCAACTCCAG CCCCAGCCCC TGGCCCCCGG GATCAGAACC TACCCCAGAT CCTGGAGGAG
    TCCAGGTCTG AATGA

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

    RefSeq NP_003623.1
    CDS217..4371
    Translation

    Target ORF information:

    RefSeq Version NM_003632.2
    Organism Homo sapiens(human)
    Definition Homo sapiens contactin associated protein 1 (CNTNAP1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_003632.2

    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
    ATGATGCATC TCCGGCTCTT CTGCATCCTG CTCGCCGCGG TCTCAGGAGC CGAGGGCTGG 
    GGCTACTACG GCTGCGACGA GGAGCTGGTG GGTCCCCTGT ATGCACGCTC CCTGGGCGCC
    TCCTCCTACT ACAGTCTCCT TACTGCGCCG AGATTCGCCA GGCTGCACGG CATAAGCGGG
    TGGTCACCAC GGATTGGGGA TCCGAATCCC TGGCTCCAGA TAGACTTAAT GAAGAAGCAC
    CGGATCCGGG CCGTGGCCAC ACAGGGCTCC TTTAATTCTT GGGACTGGGT CACACGTTAC
    ATGCTACTCT ACGGCGACCG AGTGGACAGC TGGACACCGT TCTACCAGCG AGGGCACAAC
    TCGACCTTCT TTGGTAACGT GAACGAGTCG GCGGTGGTGC GCCATGACCT GCACTTCCAC
    TTCACTGCGC GCTACATCCG CATCGTGCCC CTGGCCTGGA ACCCACGCGG CAAGATCGGC
    CTGAGGCTCG GCCTCTATGG CTGCCCATAC AAGGCCGACA TACTCTATTT CGACGGCGAC
    GATGCCATCT CCTACCGCTT CCCGCGAGGG GTCAGCCGAA GCCTGTGGGA CGTGTTCGCC
    TTCAGCTTCA AGACCGAGGA GAAGGACGGT CTTCTGCTGC ACGCCGAGGG CGCCCAGGGC
    GACTACGTGA CGCTCGAGCT GGAGGGGGCA CACCTGCTGC TGCACATGAG CCTGGGCAGC
    AGCCCTATCC AGCCAAGACC AGGTCACACC ACCGTGAGCG CAGGCGGAGT CCTCAATGAC
    CAGCACTGGC ACTATGTGCG GGTGGACCGA TTTGGCCGCG ATGTAAATTT CACCCTGGAC
    GGCTATGTGC AGCGCTTTAT TCTCAATGGA GACTTCGAGA GGCTGAACCT GGACACTGAG
    ATGTTCATCG GAGGTCTGGT GGGCGCCGCG CGGAAGAACC TGGCCTATCG GCATAACTTC
    CGCGGCTGCA TAGAAAACGT AATCTTCAAC CGCGTCAACA TCGCAGACCT GGCCGTGCGG
    CGCCATTCCC GGATCACCTT CGAGGGTAAG GTGGCTTTTC GTTGCCTGGA CCCGGTACCG
    CACCCTATCA ACTTCGGAGG CCCTCACAAC TTCGTTCAAG TGCCCGGTTT CCCACGCCGT
    GGCCGCCTGG CAGTCTCATT TCGCTTCCGC ACCTGGGACC TCACCGGGCT TCTCCTTTTC
    TCCCGTCTGG GGGACGGGCT GGGCCACGTG GAGCTGACGC TCAGCGAAGG GCAGGTCAAC
    GTGTCCATCG CGCAGAGCGG CCGAAAGAAG CTTCAGTTCG CTGCTGGGTA CCGACTGAAT
    GACGGCTTTT GGCACGAGGT GAATTTTGTG GCACAGGAAA ACCATGCAGT TATCAGCATT
    GATGATGTGG AAGGGGCAGA GGTCAGGGTC TCATACCCGT TGCTGATCCG GACAGGGACC
    TCATATTTCT TTGGGGGTTG TCCCAAGCCA GCCAGTCGAT GGGACTGCCA CTCCAACCAG
    ACGGCATTCC ATGGCTGCAT GGAGCTGCTC AAGGTGGATG GTCAACTGGT CAACCTGACT
    CTGGTGGAGG GCCGGCGGCT TGGATTCTAT GCTGAGGTCC TCTTTGATAC ATGTGGCATC
    ACTGATAGGT GCAGCCCTAA CATGTGTGAG CATGATGGAC GCTGCTACCA GTCTTGGGAT
    GACTTCATTT GCTACTGCGA ACTGACGGGC TACAAGGGAG AGACCTGCCA CACACCTTTG
    TATAAGGAAT CCTGTGAGGC TTATCGGCTC AGTGGGAAAA CTTCTGGAAA CTTCACCATT
    GATCCTGATG GCAGTGGCCC CCTGAAGCCA TTTGTAGTGT ACTGTGATAT CCGAGAGAAC
    CGAGCGTGGA CAGTTGTGCG GCATGACAGG CTGTGGACAA CTCGAGTGAC AGGTTCCAGC
    ATGGAGCGGC CATTCCTGGG GGCTATCCAG TACTGGAATG CATCCTGGGA GGAAGTCAGT
    GCCCTTGCCA ATGCTTCCCA GCATTGTGAA CAGTGGATCG AGTTCTCCTG CTACAATTCC
    CGGCTGCTCA ACACTGCAGG AGGCTACCCC TACAGCTTTT GGATTGGCCG AAATGAGGAG
    CAGCACTTCT ACTGGGGAGG CTCCCAGCCT GGGATCCAGC GCTGTGCCTG TGGTCTGGAC
    CGGAGCTGTG TGGACCCTGC CTTGTACTGC AACTGTGACG CTGACCAGCC CCAGTGGAGA
    ACTGACAAGG GACTGCTGAC CTTTGTGGAC CATCTGCCTG TCACTCAGGT AGTGATAGGG
    GATACGAACC GCTCCACTTC TGAGGCCCAG TTCTTCCTGA GGCCTCTGCG CTGCTATGGC
    GATCGAAATT CCTGGAACAC CATTTCCTTC CACACCGGGG CTGCACTACG CTTCCCCCCA
    ATCCGTGCCA ACCACAGCCT GGATGTCTCC TTCTACTTCA GGACCTCTGC TCCCTCGGGG
    GTCTTCCTAG AGAATATGGG GGGCCCTTAC TGCCAGTGGC GCCGACCTTA TGTGCGGGTG
    GAACTCAACA CATCCCGGGA TGTGGTCTTC GCCTTTGATG TGGGGAATGG GGATGAGAAC
    CTCACAGTAC ACTCAGACGA CTTTGAGTTC AATGATGACG AGTGGCACCT GGTCCGGGCT
    GAAATCAACG TGAAGCAGGC CCGGCTCCGA GTGGATCACC GGCCCTGGGT TCTGCGGCCT
    ATGCCACTGC AGACCTACAT CTGGATGGAG TATGACCAGC CCCTCTATGT GGGATCTGCA
    GAGCTTAAGA GACGCCCCTT TGTGGGTTGC TTGAGGGCCA TGCGTCTGAA CGGAGTGACT
    CTGAACCTGG AGGGCCGTGC CAATGCCTCT GAGGGTACCT CACCCAACTG CACAGGCCAC
    TGTGCCCACC CTCGGCTCCC CTGTTTCCAT GGAGGCCGCT GCGTGGAGCG CTATAGCTAC
    TACACGTGTG ACTGTGACCT CACGGCTTTT GATGGGCCAT ACTGCAACCA CGATATTGGT
    GGTTTCTTTG AGCCGGGCAC CTGGATGCGC TATAACCTAC AGTCAGCGCT GCGCTCTGCA
    GCCAGGGAGT TCTCCCACAT GCTGAGCCGG CCAGTGCCAG GCTATGAGCC TGGCTACATC
    CCGGGCTATG ATACTCCGGG CTATGTGCCT GGCTACCATG GCCCCGGGTA CCGCCTGCCC
    GACTACCCCC GGCCTGGTCG GCCTGTGCCC GGTTACCGTG GGCCTGTCTA CAACGTTACG
    GGAGAGGAGG TCTCCTTCAG CTTCAGCACC AGCTCCGCCC CTGCTGTCCT GCTCTACGTC
    AGTTCCTTTG TTCGTGACTA CATGGCTGTG CTCATCAAGG ATGATGGGAC CCTTCAGCTG
    CGATATCAGC TGGGCACCAG TCCCTACGTG TACCAGCTAA CCACTCGACC AGTGACCGAT
    GGCCAGCCCC ATAGCATCAA TATCACCCGT GTTTACCGGA ACCTCTTCAT CCAGGTGGAC
    TACTTCCCAC TGACAGAGCA GAAGTTCTCG CTGTTGGTGG ACAGCCAGTT GGACTCACCC
    AAGGCCTTGT ATTTAGGGCG TGTGATGGAG ACAGGAGTCA TTGACCCGGA GATCCAGCGC
    TACAACACCC CAGGTTTCTC AGGCTGCCTG TCTGGTGTTC GATTCAACAA CGTGGCTCCC
    CTCAAGACCC ACTTCCGAAC CCCTCGACCC ATGACTGCTG AGCTAGCTGA GGCCCTTCGA
    GTTCAGGGAG AACTGTCCGA ATCTAATTGC GGAGCTATGC CACGTCTTGT TTCAGAGGTG
    CCACCTGAGC TTGATCCCTG GTATCTGCCC CCAGACTTCC CCTACTACCA TGATGAAGGA
    TGGGTTGCCA TACTTTTAGG CTTTTTGGTG GCCTTTCTGC TGCTGGGGCT GGTGGGAATG
    TTGGTGCTCT TCTATCTGCA AAATCATCGC TATAAGGGCT CCTACCATAC CAATGAGCCC
    AAGGCTGCCC ACGAGTACCA TCCTGGCAGC AAACCTCCCC TACCCACTTC AGGCCCTGCC
    CAGGTCCCCA CCCCTACAGC AGCTCCCAAC CAAGCTCCAG CCTCAGCCCC AGCCCCAGCC
    CCAACTCCAG CCCCAGCCCC TGGCCCCCGG GATCAGAACC TACCCCAGAT CCTGGAGGAG
    TCCAGGTCTG AATGA

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

    CloneID OHu31595
    Clone ID Related Accession (Same CDS sequence) XM_017025238.1 , NM_003632.2 , NM_003632.3 , XM_024451011.1
    Accession Version NM_003632.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4155bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-10-25
    Organism Homo sapiens(human)
    Product contactin-associated protein 1 precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC100793.8, U87223.1, BC171797.1 and BU729460.1. This sequence is a reference standard in the RefSeqGene project. On Nov 23, 2018 this sequence version replaced NM_003632.2. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: U87223.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1966682, SAMEA1968189 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000264638.9/ ENSP00000264638.3 RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: full length.

    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
    ATGATGCATC TCCGGCTCTT CTGCATCCTG CTCGCCGCGG TCTCAGGAGC CGAGGGCTGG 
    GGCTACTACG GCTGCGACGA GGAGCTGGTG GGTCCCCTGT ATGCACGCTC CCTGGGCGCC
    TCCTCCTACT ACAGTCTCCT TACTGCGCCG AGATTCGCCA GGCTGCACGG CATAAGCGGG
    TGGTCACCAC GGATTGGGGA TCCGAATCCC TGGCTCCAGA TAGACTTAAT GAAGAAGCAC
    CGGATCCGGG CCGTGGCCAC ACAGGGCTCC TTTAATTCTT GGGACTGGGT CACACGTTAC
    ATGCTACTCT ACGGCGACCG AGTGGACAGC TGGACACCGT TCTACCAGCG AGGGCACAAC
    TCGACCTTCT TTGGTAACGT GAACGAGTCG GCGGTGGTGC GCCATGACCT GCACTTCCAC
    TTCACTGCGC GCTACATCCG CATCGTGCCC CTGGCCTGGA ACCCACGCGG CAAGATCGGC
    CTGAGGCTCG GCCTCTATGG CTGCCCATAC AAGGCCGACA TACTCTATTT CGACGGCGAC
    GATGCCATCT CCTACCGCTT CCCGCGAGGG GTCAGCCGAA GCCTGTGGGA CGTGTTCGCC
    TTCAGCTTCA AGACCGAGGA GAAGGACGGT CTTCTGCTGC ACGCCGAGGG CGCCCAGGGC
    GACTACGTGA CGCTCGAGCT GGAGGGGGCA CACCTGCTGC TGCACATGAG CCTGGGCAGC
    AGCCCTATCC AGCCAAGACC AGGTCACACC ACCGTGAGCG CAGGCGGAGT CCTCAATGAC
    CAGCACTGGC ACTATGTGCG GGTGGACCGA TTTGGCCGCG ATGTAAATTT CACCCTGGAC
    GGCTATGTGC AGCGCTTTAT TCTCAATGGA GACTTCGAGA GGCTGAACCT GGACACTGAG
    ATGTTCATCG GAGGTCTGGT GGGCGCCGCG CGGAAGAACC TGGCCTATCG GCATAACTTC
    CGCGGCTGCA TAGAAAACGT AATCTTCAAC CGCGTCAACA TCGCAGACCT GGCCGTGCGG
    CGCCATTCCC GGATCACCTT CGAGGGTAAG GTGGCTTTTC GTTGCCTGGA CCCGGTACCG
    CACCCTATCA ACTTCGGAGG CCCTCACAAC TTCGTTCAAG TGCCCGGTTT CCCACGCCGT
    GGCCGCCTGG CAGTCTCATT TCGCTTCCGC ACCTGGGACC TCACCGGGCT TCTCCTTTTC
    TCCCGTCTGG GGGACGGGCT GGGCCACGTG GAGCTGACGC TCAGCGAAGG GCAGGTCAAC
    GTGTCCATCG CGCAGAGCGG CCGAAAGAAG CTTCAGTTCG CTGCTGGGTA CCGACTGAAT
    GACGGCTTTT GGCACGAGGT GAATTTTGTG GCACAGGAAA ACCATGCAGT TATCAGCATT
    GATGATGTGG AAGGGGCAGA GGTCAGGGTC TCATACCCGT TGCTGATCCG GACAGGGACC
    TCATATTTCT TTGGGGGTTG TCCCAAGCCA GCCAGTCGAT GGGACTGCCA CTCCAACCAG
    ACGGCATTCC ATGGCTGCAT GGAGCTGCTC AAGGTGGATG GTCAACTGGT CAACCTGACT
    CTGGTGGAGG GCCGGCGGCT TGGATTCTAT GCTGAGGTCC TCTTTGATAC ATGTGGCATC
    ACTGATAGGT GCAGCCCTAA CATGTGTGAG CATGATGGAC GCTGCTACCA GTCTTGGGAT
    GACTTCATTT GCTACTGCGA ACTGACGGGC TACAAGGGAG AGACCTGCCA CACACCTTTG
    TATAAGGAAT CCTGTGAGGC TTATCGGCTC AGTGGGAAAA CTTCTGGAAA CTTCACCATT
    GATCCTGATG GCAGTGGCCC CCTGAAGCCA TTTGTAGTGT ACTGTGATAT CCGAGAGAAC
    CGAGCGTGGA CAGTTGTGCG GCATGACAGG CTGTGGACAA CTCGAGTGAC AGGTTCCAGC
    ATGGAGCGGC CATTCCTGGG GGCTATCCAG TACTGGAATG CATCCTGGGA GGAAGTCAGT
    GCCCTTGCCA ATGCTTCCCA GCATTGTGAA CAGTGGATCG AGTTCTCCTG CTACAATTCC
    CGGCTGCTCA ACACTGCAGG AGGCTACCCC TACAGCTTTT GGATTGGCCG AAATGAGGAG
    CAGCACTTCT ACTGGGGAGG CTCCCAGCCT GGGATCCAGC GCTGTGCCTG TGGTCTGGAC
    CGGAGCTGTG TGGACCCTGC CTTGTACTGC AACTGTGACG CTGACCAGCC CCAGTGGAGA
    ACTGACAAGG GACTGCTGAC CTTTGTGGAC CATCTGCCTG TCACTCAGGT AGTGATAGGG
    GATACGAACC GCTCCACTTC TGAGGCCCAG TTCTTCCTGA GGCCTCTGCG CTGCTATGGC
    GATCGAAATT CCTGGAACAC CATTTCCTTC CACACCGGGG CTGCACTACG CTTCCCCCCA
    ATCCGTGCCA ACCACAGCCT GGATGTCTCC TTCTACTTCA GGACCTCTGC TCCCTCGGGG
    GTCTTCCTAG AGAATATGGG GGGCCCTTAC TGCCAGTGGC GCCGACCTTA TGTGCGGGTG
    GAACTCAACA CATCCCGGGA TGTGGTCTTC GCCTTTGATG TGGGGAATGG GGATGAGAAC
    CTCACAGTAC ACTCAGACGA CTTTGAGTTC AATGATGACG AGTGGCACCT GGTCCGGGCT
    GAAATCAACG TGAAGCAGGC CCGGCTCCGA GTGGATCACC GGCCCTGGGT TCTGCGGCCT
    ATGCCACTGC AGACCTACAT CTGGATGGAG TATGACCAGC CCCTCTATGT GGGATCTGCA
    GAGCTTAAGA GACGCCCCTT TGTGGGTTGC TTGAGGGCCA TGCGTCTGAA CGGAGTGACT
    CTGAACCTGG AGGGCCGTGC CAATGCCTCT GAGGGTACCT CACCCAACTG CACAGGCCAC
    TGTGCCCACC CTCGGCTCCC CTGTTTCCAT GGAGGCCGCT GCGTGGAGCG CTATAGCTAC
    TACACGTGTG ACTGTGACCT CACGGCTTTT GATGGGCCAT ACTGCAACCA CGATATTGGT
    GGTTTCTTTG AGCCGGGCAC CTGGATGCGC TATAACCTAC AGTCAGCGCT GCGCTCTGCA
    GCCAGGGAGT TCTCCCACAT GCTGAGCCGG CCAGTGCCAG GCTATGAGCC TGGCTACATC
    CCGGGCTATG ATACTCCGGG CTATGTGCCT GGCTACCATG GCCCCGGGTA CCGCCTGCCC
    GACTACCCCC GGCCTGGTCG GCCTGTGCCC GGTTACCGTG GGCCTGTCTA CAACGTTACG
    GGAGAGGAGG TCTCCTTCAG CTTCAGCACC AGCTCCGCCC CTGCTGTCCT GCTCTACGTC
    AGTTCCTTTG TTCGTGACTA CATGGCTGTG CTCATCAAGG ATGATGGGAC CCTTCAGCTG
    CGATATCAGC TGGGCACCAG TCCCTACGTG TACCAGCTAA CCACTCGACC AGTGACCGAT
    GGCCAGCCCC ATAGCATCAA TATCACCCGT GTTTACCGGA ACCTCTTCAT CCAGGTGGAC
    TACTTCCCAC TGACAGAGCA GAAGTTCTCG CTGTTGGTGG ACAGCCAGTT GGACTCACCC
    AAGGCCTTGT ATTTAGGGCG TGTGATGGAG ACAGGAGTCA TTGACCCGGA GATCCAGCGC
    TACAACACCC CAGGTTTCTC AGGCTGCCTG TCTGGTGTTC GATTCAACAA CGTGGCTCCC
    CTCAAGACCC ACTTCCGAAC CCCTCGACCC ATGACTGCTG AGCTAGCTGA GGCCCTTCGA
    GTTCAGGGAG AACTGTCCGA ATCTAATTGC GGAGCTATGC CACGTCTTGT TTCAGAGGTG
    CCACCTGAGC TTGATCCCTG GTATCTGCCC CCAGACTTCC CCTACTACCA TGATGAAGGA
    TGGGTTGCCA TACTTTTAGG CTTTTTGGTG GCCTTTCTGC TGCTGGGGCT GGTGGGAATG
    TTGGTGCTCT TCTATCTGCA AAATCATCGC TATAAGGGCT CCTACCATAC CAATGAGCCC
    AAGGCTGCCC ACGAGTACCA TCCTGGCAGC AAACCTCCCC TACCCACTTC AGGCCCTGCC
    CAGGTCCCCA CCCCTACAGC AGCTCCCAAC CAAGCTCCAG CCTCAGCCCC AGCCCCAGCC
    CCAACTCCAG CCCCAGCCCC TGGCCCCCGG GATCAGAACC TACCCCAGAT CCTGGAGGAG
    TCCAGGTCTG AATGA

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

    RefSeq NP_003623.1
    CDS300..4454
    Translation

    Target ORF information:

    RefSeq Version NM_003632.3
    Organism Homo sapiens(human)
    Definition Homo sapiens contactin associated protein 1 (CNTNAP1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_003632.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGATGCATC TCCGGCTCTT CTGCATCCTG CTCGCCGCGG TCTCAGGAGC CGAGGGCTGG 
    GGCTACTACG GCTGCGACGA GGAGCTGGTG GGTCCCCTGT ATGCACGCTC CCTGGGCGCC
    TCCTCCTACT ACAGTCTCCT TACTGCGCCG AGATTCGCCA GGCTGCACGG CATAAGCGGG
    TGGTCACCAC GGATTGGGGA TCCGAATCCC TGGCTCCAGA TAGACTTAAT GAAGAAGCAC
    CGGATCCGGG CCGTGGCCAC ACAGGGCTCC TTTAATTCTT GGGACTGGGT CACACGTTAC
    ATGCTACTCT ACGGCGACCG AGTGGACAGC TGGACACCGT TCTACCAGCG AGGGCACAAC
    TCGACCTTCT TTGGTAACGT GAACGAGTCG GCGGTGGTGC GCCATGACCT GCACTTCCAC
    TTCACTGCGC GCTACATCCG CATCGTGCCC CTGGCCTGGA ACCCACGCGG CAAGATCGGC
    CTGAGGCTCG GCCTCTATGG CTGCCCATAC AAGGCCGACA TACTCTATTT CGACGGCGAC
    GATGCCATCT CCTACCGCTT CCCGCGAGGG GTCAGCCGAA GCCTGTGGGA CGTGTTCGCC
    TTCAGCTTCA AGACCGAGGA GAAGGACGGT CTTCTGCTGC ACGCCGAGGG CGCCCAGGGC
    GACTACGTGA CGCTCGAGCT GGAGGGGGCA CACCTGCTGC TGCACATGAG CCTGGGCAGC
    AGCCCTATCC AGCCAAGACC AGGTCACACC ACCGTGAGCG CAGGCGGAGT CCTCAATGAC
    CAGCACTGGC ACTATGTGCG GGTGGACCGA TTTGGCCGCG ATGTAAATTT CACCCTGGAC
    GGCTATGTGC AGCGCTTTAT TCTCAATGGA GACTTCGAGA GGCTGAACCT GGACACTGAG
    ATGTTCATCG GAGGTCTGGT GGGCGCCGCG CGGAAGAACC TGGCCTATCG GCATAACTTC
    CGCGGCTGCA TAGAAAACGT AATCTTCAAC CGCGTCAACA TCGCAGACCT GGCCGTGCGG
    CGCCATTCCC GGATCACCTT CGAGGGTAAG GTGGCTTTTC GTTGCCTGGA CCCGGTACCG
    CACCCTATCA ACTTCGGAGG CCCTCACAAC TTCGTTCAAG TGCCCGGTTT CCCACGCCGT
    GGCCGCCTGG CAGTCTCATT TCGCTTCCGC ACCTGGGACC TCACCGGGCT TCTCCTTTTC
    TCCCGTCTGG GGGACGGGCT GGGCCACGTG GAGCTGACGC TCAGCGAAGG GCAGGTCAAC
    GTGTCCATCG CGCAGAGCGG CCGAAAGAAG CTTCAGTTCG CTGCTGGGTA CCGACTGAAT
    GACGGCTTTT GGCACGAGGT GAATTTTGTG GCACAGGAAA ACCATGCAGT TATCAGCATT
    GATGATGTGG AAGGGGCAGA GGTCAGGGTC TCATACCCGT TGCTGATCCG GACAGGGACC
    TCATATTTCT TTGGGGGTTG TCCCAAGCCA GCCAGTCGAT GGGACTGCCA CTCCAACCAG
    ACGGCATTCC ATGGCTGCAT GGAGCTGCTC AAGGTGGATG GTCAACTGGT CAACCTGACT
    CTGGTGGAGG GCCGGCGGCT TGGATTCTAT GCTGAGGTCC TCTTTGATAC ATGTGGCATC
    ACTGATAGGT GCAGCCCTAA CATGTGTGAG CATGATGGAC GCTGCTACCA GTCTTGGGAT
    GACTTCATTT GCTACTGCGA ACTGACGGGC TACAAGGGAG AGACCTGCCA CACACCTTTG
    TATAAGGAAT CCTGTGAGGC TTATCGGCTC AGTGGGAAAA CTTCTGGAAA CTTCACCATT
    GATCCTGATG GCAGTGGCCC CCTGAAGCCA TTTGTAGTGT ACTGTGATAT CCGAGAGAAC
    CGAGCGTGGA CAGTTGTGCG GCATGACAGG CTGTGGACAA CTCGAGTGAC AGGTTCCAGC
    ATGGAGCGGC CATTCCTGGG GGCTATCCAG TACTGGAATG CATCCTGGGA GGAAGTCAGT
    GCCCTTGCCA ATGCTTCCCA GCATTGTGAA CAGTGGATCG AGTTCTCCTG CTACAATTCC
    CGGCTGCTCA ACACTGCAGG AGGCTACCCC TACAGCTTTT GGATTGGCCG AAATGAGGAG
    CAGCACTTCT ACTGGGGAGG CTCCCAGCCT GGGATCCAGC GCTGTGCCTG TGGTCTGGAC
    CGGAGCTGTG TGGACCCTGC CTTGTACTGC AACTGTGACG CTGACCAGCC CCAGTGGAGA
    ACTGACAAGG GACTGCTGAC CTTTGTGGAC CATCTGCCTG TCACTCAGGT AGTGATAGGG
    GATACGAACC GCTCCACTTC TGAGGCCCAG TTCTTCCTGA GGCCTCTGCG CTGCTATGGC
    GATCGAAATT CCTGGAACAC CATTTCCTTC CACACCGGGG CTGCACTACG CTTCCCCCCA
    ATCCGTGCCA ACCACAGCCT GGATGTCTCC TTCTACTTCA GGACCTCTGC TCCCTCGGGG
    GTCTTCCTAG AGAATATGGG GGGCCCTTAC TGCCAGTGGC GCCGACCTTA TGTGCGGGTG
    GAACTCAACA CATCCCGGGA TGTGGTCTTC GCCTTTGATG TGGGGAATGG GGATGAGAAC
    CTCACAGTAC ACTCAGACGA CTTTGAGTTC AATGATGACG AGTGGCACCT GGTCCGGGCT
    GAAATCAACG TGAAGCAGGC CCGGCTCCGA GTGGATCACC GGCCCTGGGT TCTGCGGCCT
    ATGCCACTGC AGACCTACAT CTGGATGGAG TATGACCAGC CCCTCTATGT GGGATCTGCA
    GAGCTTAAGA GACGCCCCTT TGTGGGTTGC TTGAGGGCCA TGCGTCTGAA CGGAGTGACT
    CTGAACCTGG AGGGCCGTGC CAATGCCTCT GAGGGTACCT CACCCAACTG CACAGGCCAC
    TGTGCCCACC CTCGGCTCCC CTGTTTCCAT GGAGGCCGCT GCGTGGAGCG CTATAGCTAC
    TACACGTGTG ACTGTGACCT CACGGCTTTT GATGGGCCAT ACTGCAACCA CGATATTGGT
    GGTTTCTTTG AGCCGGGCAC CTGGATGCGC TATAACCTAC AGTCAGCGCT GCGCTCTGCA
    GCCAGGGAGT TCTCCCACAT GCTGAGCCGG CCAGTGCCAG GCTATGAGCC TGGCTACATC
    CCGGGCTATG ATACTCCGGG CTATGTGCCT GGCTACCATG GCCCCGGGTA CCGCCTGCCC
    GACTACCCCC GGCCTGGTCG GCCTGTGCCC GGTTACCGTG GGCCTGTCTA CAACGTTACG
    GGAGAGGAGG TCTCCTTCAG CTTCAGCACC AGCTCCGCCC CTGCTGTCCT GCTCTACGTC
    AGTTCCTTTG TTCGTGACTA CATGGCTGTG CTCATCAAGG ATGATGGGAC CCTTCAGCTG
    CGATATCAGC TGGGCACCAG TCCCTACGTG TACCAGCTAA CCACTCGACC AGTGACCGAT
    GGCCAGCCCC ATAGCATCAA TATCACCCGT GTTTACCGGA ACCTCTTCAT CCAGGTGGAC
    TACTTCCCAC TGACAGAGCA GAAGTTCTCG CTGTTGGTGG ACAGCCAGTT GGACTCACCC
    AAGGCCTTGT ATTTAGGGCG TGTGATGGAG ACAGGAGTCA TTGACCCGGA GATCCAGCGC
    TACAACACCC CAGGTTTCTC AGGCTGCCTG TCTGGTGTTC GATTCAACAA CGTGGCTCCC
    CTCAAGACCC ACTTCCGAAC CCCTCGACCC ATGACTGCTG AGCTAGCTGA GGCCCTTCGA
    GTTCAGGGAG AACTGTCCGA ATCTAATTGC GGAGCTATGC CACGTCTTGT TTCAGAGGTG
    CCACCTGAGC TTGATCCCTG GTATCTGCCC CCAGACTTCC CCTACTACCA TGATGAAGGA
    TGGGTTGCCA TACTTTTAGG CTTTTTGGTG GCCTTTCTGC TGCTGGGGCT GGTGGGAATG
    TTGGTGCTCT TCTATCTGCA AAATCATCGC TATAAGGGCT CCTACCATAC CAATGAGCCC
    AAGGCTGCCC ACGAGTACCA TCCTGGCAGC AAACCTCCCC TACCCACTTC AGGCCCTGCC
    CAGGTCCCCA CCCCTACAGC AGCTCCCAAC CAAGCTCCAG CCTCAGCCCC AGCCCCAGCC
    CCAACTCCAG CCCCAGCCCC TGGCCCCCGG GATCAGAACC TACCCCAGAT CCTGGAGGAG
    TCCAGGTCTG AATGA

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

    CloneID OHu31595
    Clone ID Related Accession (Same CDS sequence) XM_017025238.1 , NM_003632.2 , NM_003632.3 , XM_024451011.1
    Accession Version XM_017025238.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4155bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product contactin-associated protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGATGCATC TCCGGCTCTT CTGCATCCTG CTCGCCGCGG TCTCAGGAGC CGAGGGCTGG 
    GGCTACTACG GCTGCGACGA GGAGCTGGTG GGTCCCCTGT ATGCACGCTC CCTGGGCGCC
    TCCTCCTACT ACAGTCTCCT TACTGCGCCG AGATTCGCCA GGCTGCACGG CATAAGCGGG
    TGGTCACCAC GGATTGGGGA TCCGAATCCC TGGCTCCAGA TAGACTTAAT GAAGAAGCAC
    CGGATCCGGG CCGTGGCCAC ACAGGGCTCC TTTAATTCTT GGGACTGGGT CACACGTTAC
    ATGCTACTCT ACGGCGACCG AGTGGACAGC TGGACACCGT TCTACCAGCG AGGGCACAAC
    TCGACCTTCT TTGGTAACGT GAACGAGTCG GCGGTGGTGC GCCATGACCT GCACTTCCAC
    TTCACTGCGC GCTACATCCG CATCGTGCCC CTGGCCTGGA ACCCACGCGG CAAGATCGGC
    CTGAGGCTCG GCCTCTATGG CTGCCCATAC AAGGCCGACA TACTCTATTT CGACGGCGAC
    GATGCCATCT CCTACCGCTT CCCGCGAGGG GTCAGCCGAA GCCTGTGGGA CGTGTTCGCC
    TTCAGCTTCA AGACCGAGGA GAAGGACGGT CTTCTGCTGC ACGCCGAGGG CGCCCAGGGC
    GACTACGTGA CGCTCGAGCT GGAGGGGGCA CACCTGCTGC TGCACATGAG CCTGGGCAGC
    AGCCCTATCC AGCCAAGACC AGGTCACACC ACCGTGAGCG CAGGCGGAGT CCTCAATGAC
    CAGCACTGGC ACTATGTGCG GGTGGACCGA TTTGGCCGCG ATGTAAATTT CACCCTGGAC
    GGCTATGTGC AGCGCTTTAT TCTCAATGGA GACTTCGAGA GGCTGAACCT GGACACTGAG
    ATGTTCATCG GAGGTCTGGT GGGCGCCGCG CGGAAGAACC TGGCCTATCG GCATAACTTC
    CGCGGCTGCA TAGAAAACGT AATCTTCAAC CGCGTCAACA TCGCAGACCT GGCCGTGCGG
    CGCCATTCCC GGATCACCTT CGAGGGTAAG GTGGCTTTTC GTTGCCTGGA CCCGGTACCG
    CACCCTATCA ACTTCGGAGG CCCTCACAAC TTCGTTCAAG TGCCCGGTTT CCCACGCCGT
    GGCCGCCTGG CAGTCTCATT TCGCTTCCGC ACCTGGGACC TCACCGGGCT TCTCCTTTTC
    TCCCGTCTGG GGGACGGGCT GGGCCACGTG GAGCTGACGC TCAGCGAAGG GCAGGTCAAC
    GTGTCCATCG CGCAGAGCGG CCGAAAGAAG CTTCAGTTCG CTGCTGGGTA CCGACTGAAT
    GACGGCTTTT GGCACGAGGT GAATTTTGTG GCACAGGAAA ACCATGCAGT TATCAGCATT
    GATGATGTGG AAGGGGCAGA GGTCAGGGTC TCATACCCGT TGCTGATCCG GACAGGGACC
    TCATATTTCT TTGGGGGTTG TCCCAAGCCA GCCAGTCGAT GGGACTGCCA CTCCAACCAG
    ACGGCATTCC ATGGCTGCAT GGAGCTGCTC AAGGTGGATG GTCAACTGGT CAACCTGACT
    CTGGTGGAGG GCCGGCGGCT TGGATTCTAT GCTGAGGTCC TCTTTGATAC ATGTGGCATC
    ACTGATAGGT GCAGCCCTAA CATGTGTGAG CATGATGGAC GCTGCTACCA GTCTTGGGAT
    GACTTCATTT GCTACTGCGA ACTGACGGGC TACAAGGGAG AGACCTGCCA CACACCTTTG
    TATAAGGAAT CCTGTGAGGC TTATCGGCTC AGTGGGAAAA CTTCTGGAAA CTTCACCATT
    GATCCTGATG GCAGTGGCCC CCTGAAGCCA TTTGTAGTGT ACTGTGATAT CCGAGAGAAC
    CGAGCGTGGA CAGTTGTGCG GCATGACAGG CTGTGGACAA CTCGAGTGAC AGGTTCCAGC
    ATGGAGCGGC CATTCCTGGG GGCTATCCAG TACTGGAATG CATCCTGGGA GGAAGTCAGT
    GCCCTTGCCA ATGCTTCCCA GCATTGTGAA CAGTGGATCG AGTTCTCCTG CTACAATTCC
    CGGCTGCTCA ACACTGCAGG AGGCTACCCC TACAGCTTTT GGATTGGCCG AAATGAGGAG
    CAGCACTTCT ACTGGGGAGG CTCCCAGCCT GGGATCCAGC GCTGTGCCTG TGGTCTGGAC
    CGGAGCTGTG TGGACCCTGC CTTGTACTGC AACTGTGACG CTGACCAGCC CCAGTGGAGA
    ACTGACAAGG GACTGCTGAC CTTTGTGGAC CATCTGCCTG TCACTCAGGT AGTGATAGGG
    GATACGAACC GCTCCACTTC TGAGGCCCAG TTCTTCCTGA GGCCTCTGCG CTGCTATGGC
    GATCGAAATT CCTGGAACAC CATTTCCTTC CACACCGGGG CTGCACTACG CTTCCCCCCA
    ATCCGTGCCA ACCACAGCCT GGATGTCTCC TTCTACTTCA GGACCTCTGC TCCCTCGGGG
    GTCTTCCTAG AGAATATGGG GGGCCCTTAC TGCCAGTGGC GCCGACCTTA TGTGCGGGTG
    GAACTCAACA CATCCCGGGA TGTGGTCTTC GCCTTTGATG TGGGGAATGG GGATGAGAAC
    CTCACAGTAC ACTCAGACGA CTTTGAGTTC AATGATGACG AGTGGCACCT GGTCCGGGCT
    GAAATCAACG TGAAGCAGGC CCGGCTCCGA GTGGATCACC GGCCCTGGGT TCTGCGGCCT
    ATGCCACTGC AGACCTACAT CTGGATGGAG TATGACCAGC CCCTCTATGT GGGATCTGCA
    GAGCTTAAGA GACGCCCCTT TGTGGGTTGC TTGAGGGCCA TGCGTCTGAA CGGAGTGACT
    CTGAACCTGG AGGGCCGTGC CAATGCCTCT GAGGGTACCT CACCCAACTG CACAGGCCAC
    TGTGCCCACC CTCGGCTCCC CTGTTTCCAT GGAGGCCGCT GCGTGGAGCG CTATAGCTAC
    TACACGTGTG ACTGTGACCT CACGGCTTTT GATGGGCCAT ACTGCAACCA CGATATTGGT
    GGTTTCTTTG AGCCGGGCAC CTGGATGCGC TATAACCTAC AGTCAGCGCT GCGCTCTGCA
    GCCAGGGAGT TCTCCCACAT GCTGAGCCGG CCAGTGCCAG GCTATGAGCC TGGCTACATC
    CCGGGCTATG ATACTCCGGG CTATGTGCCT GGCTACCATG GCCCCGGGTA CCGCCTGCCC
    GACTACCCCC GGCCTGGTCG GCCTGTGCCC GGTTACCGTG GGCCTGTCTA CAACGTTACG
    GGAGAGGAGG TCTCCTTCAG CTTCAGCACC AGCTCCGCCC CTGCTGTCCT GCTCTACGTC
    AGTTCCTTTG TTCGTGACTA CATGGCTGTG CTCATCAAGG ATGATGGGAC CCTTCAGCTG
    CGATATCAGC TGGGCACCAG TCCCTACGTG TACCAGCTAA CCACTCGACC AGTGACCGAT
    GGCCAGCCCC ATAGCATCAA TATCACCCGT GTTTACCGGA ACCTCTTCAT CCAGGTGGAC
    TACTTCCCAC TGACAGAGCA GAAGTTCTCG CTGTTGGTGG ACAGCCAGTT GGACTCACCC
    AAGGCCTTGT ATTTAGGGCG TGTGATGGAG ACAGGAGTCA TTGACCCGGA GATCCAGCGC
    TACAACACCC CAGGTTTCTC AGGCTGCCTG TCTGGTGTTC GATTCAACAA CGTGGCTCCC
    CTCAAGACCC ACTTCCGAAC CCCTCGACCC ATGACTGCTG AGCTAGCTGA GGCCCTTCGA
    GTTCAGGGAG AACTGTCCGA ATCTAATTGC GGAGCTATGC CACGTCTTGT TTCAGAGGTG
    CCACCTGAGC TTGATCCCTG GTATCTGCCC CCAGACTTCC CCTACTACCA TGATGAAGGA
    TGGGTTGCCA TACTTTTAGG CTTTTTGGTG GCCTTTCTGC TGCTGGGGCT GGTGGGAATG
    TTGGTGCTCT TCTATCTGCA AAATCATCGC TATAAGGGCT CCTACCATAC CAATGAGCCC
    AAGGCTGCCC ACGAGTACCA TCCTGGCAGC AAACCTCCCC TACCCACTTC AGGCCCTGCC
    CAGGTCCCCA CCCCTACAGC AGCTCCCAAC CAAGCTCCAG CCTCAGCCCC AGCCCCAGCC
    CCAACTCCAG CCCCAGCCCC TGGCCCCCGG GATCAGAACC TACCCCAGAT CCTGGAGGAG
    TCCAGGTCTG AATGA

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

    RefSeq XP_016880727.1
    CDS1352..5506
    Translation

    Target ORF information:

    RefSeq Version XM_017025238.1
    Organism Homo sapiens(human)
    Definition Homo sapiens contactin associated protein 1 (CNTNAP1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017025238.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGATGCATC TCCGGCTCTT CTGCATCCTG CTCGCCGCGG TCTCAGGAGC CGAGGGCTGG 
    GGCTACTACG GCTGCGACGA GGAGCTGGTG GGTCCCCTGT ATGCACGCTC CCTGGGCGCC
    TCCTCCTACT ACAGTCTCCT TACTGCGCCG AGATTCGCCA GGCTGCACGG CATAAGCGGG
    TGGTCACCAC GGATTGGGGA TCCGAATCCC TGGCTCCAGA TAGACTTAAT GAAGAAGCAC
    CGGATCCGGG CCGTGGCCAC ACAGGGCTCC TTTAATTCTT GGGACTGGGT CACACGTTAC
    ATGCTACTCT ACGGCGACCG AGTGGACAGC TGGACACCGT TCTACCAGCG AGGGCACAAC
    TCGACCTTCT TTGGTAACGT GAACGAGTCG GCGGTGGTGC GCCATGACCT GCACTTCCAC
    TTCACTGCGC GCTACATCCG CATCGTGCCC CTGGCCTGGA ACCCACGCGG CAAGATCGGC
    CTGAGGCTCG GCCTCTATGG CTGCCCATAC AAGGCCGACA TACTCTATTT CGACGGCGAC
    GATGCCATCT CCTACCGCTT CCCGCGAGGG GTCAGCCGAA GCCTGTGGGA CGTGTTCGCC
    TTCAGCTTCA AGACCGAGGA GAAGGACGGT CTTCTGCTGC ACGCCGAGGG CGCCCAGGGC
    GACTACGTGA CGCTCGAGCT GGAGGGGGCA CACCTGCTGC TGCACATGAG CCTGGGCAGC
    AGCCCTATCC AGCCAAGACC AGGTCACACC ACCGTGAGCG CAGGCGGAGT CCTCAATGAC
    CAGCACTGGC ACTATGTGCG GGTGGACCGA TTTGGCCGCG ATGTAAATTT CACCCTGGAC
    GGCTATGTGC AGCGCTTTAT TCTCAATGGA GACTTCGAGA GGCTGAACCT GGACACTGAG
    ATGTTCATCG GAGGTCTGGT GGGCGCCGCG CGGAAGAACC TGGCCTATCG GCATAACTTC
    CGCGGCTGCA TAGAAAACGT AATCTTCAAC CGCGTCAACA TCGCAGACCT GGCCGTGCGG
    CGCCATTCCC GGATCACCTT CGAGGGTAAG GTGGCTTTTC GTTGCCTGGA CCCGGTACCG
    CACCCTATCA ACTTCGGAGG CCCTCACAAC TTCGTTCAAG TGCCCGGTTT CCCACGCCGT
    GGCCGCCTGG CAGTCTCATT TCGCTTCCGC ACCTGGGACC TCACCGGGCT TCTCCTTTTC
    TCCCGTCTGG GGGACGGGCT GGGCCACGTG GAGCTGACGC TCAGCGAAGG GCAGGTCAAC
    GTGTCCATCG CGCAGAGCGG CCGAAAGAAG CTTCAGTTCG CTGCTGGGTA CCGACTGAAT
    GACGGCTTTT GGCACGAGGT GAATTTTGTG GCACAGGAAA ACCATGCAGT TATCAGCATT
    GATGATGTGG AAGGGGCAGA GGTCAGGGTC TCATACCCGT TGCTGATCCG GACAGGGACC
    TCATATTTCT TTGGGGGTTG TCCCAAGCCA GCCAGTCGAT GGGACTGCCA CTCCAACCAG
    ACGGCATTCC ATGGCTGCAT GGAGCTGCTC AAGGTGGATG GTCAACTGGT CAACCTGACT
    CTGGTGGAGG GCCGGCGGCT TGGATTCTAT GCTGAGGTCC TCTTTGATAC ATGTGGCATC
    ACTGATAGGT GCAGCCCTAA CATGTGTGAG CATGATGGAC GCTGCTACCA GTCTTGGGAT
    GACTTCATTT GCTACTGCGA ACTGACGGGC TACAAGGGAG AGACCTGCCA CACACCTTTG
    TATAAGGAAT CCTGTGAGGC TTATCGGCTC AGTGGGAAAA CTTCTGGAAA CTTCACCATT
    GATCCTGATG GCAGTGGCCC CCTGAAGCCA TTTGTAGTGT ACTGTGATAT CCGAGAGAAC
    CGAGCGTGGA CAGTTGTGCG GCATGACAGG CTGTGGACAA CTCGAGTGAC AGGTTCCAGC
    ATGGAGCGGC CATTCCTGGG GGCTATCCAG TACTGGAATG CATCCTGGGA GGAAGTCAGT
    GCCCTTGCCA ATGCTTCCCA GCATTGTGAA CAGTGGATCG AGTTCTCCTG CTACAATTCC
    CGGCTGCTCA ACACTGCAGG AGGCTACCCC TACAGCTTTT GGATTGGCCG AAATGAGGAG
    CAGCACTTCT ACTGGGGAGG CTCCCAGCCT GGGATCCAGC GCTGTGCCTG TGGTCTGGAC
    CGGAGCTGTG TGGACCCTGC CTTGTACTGC AACTGTGACG CTGACCAGCC CCAGTGGAGA
    ACTGACAAGG GACTGCTGAC CTTTGTGGAC CATCTGCCTG TCACTCAGGT AGTGATAGGG
    GATACGAACC GCTCCACTTC TGAGGCCCAG TTCTTCCTGA GGCCTCTGCG CTGCTATGGC
    GATCGAAATT CCTGGAACAC CATTTCCTTC CACACCGGGG CTGCACTACG CTTCCCCCCA
    ATCCGTGCCA ACCACAGCCT GGATGTCTCC TTCTACTTCA GGACCTCTGC TCCCTCGGGG
    GTCTTCCTAG AGAATATGGG GGGCCCTTAC TGCCAGTGGC GCCGACCTTA TGTGCGGGTG
    GAACTCAACA CATCCCGGGA TGTGGTCTTC GCCTTTGATG TGGGGAATGG GGATGAGAAC
    CTCACAGTAC ACTCAGACGA CTTTGAGTTC AATGATGACG AGTGGCACCT GGTCCGGGCT
    GAAATCAACG TGAAGCAGGC CCGGCTCCGA GTGGATCACC GGCCCTGGGT TCTGCGGCCT
    ATGCCACTGC AGACCTACAT CTGGATGGAG TATGACCAGC CCCTCTATGT GGGATCTGCA
    GAGCTTAAGA GACGCCCCTT TGTGGGTTGC TTGAGGGCCA TGCGTCTGAA CGGAGTGACT
    CTGAACCTGG AGGGCCGTGC CAATGCCTCT GAGGGTACCT CACCCAACTG CACAGGCCAC
    TGTGCCCACC CTCGGCTCCC CTGTTTCCAT GGAGGCCGCT GCGTGGAGCG CTATAGCTAC
    TACACGTGTG ACTGTGACCT CACGGCTTTT GATGGGCCAT ACTGCAACCA CGATATTGGT
    GGTTTCTTTG AGCCGGGCAC CTGGATGCGC TATAACCTAC AGTCAGCGCT GCGCTCTGCA
    GCCAGGGAGT TCTCCCACAT GCTGAGCCGG CCAGTGCCAG GCTATGAGCC TGGCTACATC
    CCGGGCTATG ATACTCCGGG CTATGTGCCT GGCTACCATG GCCCCGGGTA CCGCCTGCCC
    GACTACCCCC GGCCTGGTCG GCCTGTGCCC GGTTACCGTG GGCCTGTCTA CAACGTTACG
    GGAGAGGAGG TCTCCTTCAG CTTCAGCACC AGCTCCGCCC CTGCTGTCCT GCTCTACGTC
    AGTTCCTTTG TTCGTGACTA CATGGCTGTG CTCATCAAGG ATGATGGGAC CCTTCAGCTG
    CGATATCAGC TGGGCACCAG TCCCTACGTG TACCAGCTAA CCACTCGACC AGTGACCGAT
    GGCCAGCCCC ATAGCATCAA TATCACCCGT GTTTACCGGA ACCTCTTCAT CCAGGTGGAC
    TACTTCCCAC TGACAGAGCA GAAGTTCTCG CTGTTGGTGG ACAGCCAGTT GGACTCACCC
    AAGGCCTTGT ATTTAGGGCG TGTGATGGAG ACAGGAGTCA TTGACCCGGA GATCCAGCGC
    TACAACACCC CAGGTTTCTC AGGCTGCCTG TCTGGTGTTC GATTCAACAA CGTGGCTCCC
    CTCAAGACCC ACTTCCGAAC CCCTCGACCC ATGACTGCTG AGCTAGCTGA GGCCCTTCGA
    GTTCAGGGAG AACTGTCCGA ATCTAATTGC GGAGCTATGC CACGTCTTGT TTCAGAGGTG
    CCACCTGAGC TTGATCCCTG GTATCTGCCC CCAGACTTCC CCTACTACCA TGATGAAGGA
    TGGGTTGCCA TACTTTTAGG CTTTTTGGTG GCCTTTCTGC TGCTGGGGCT GGTGGGAATG
    TTGGTGCTCT TCTATCTGCA AAATCATCGC TATAAGGGCT CCTACCATAC CAATGAGCCC
    AAGGCTGCCC ACGAGTACCA TCCTGGCAGC AAACCTCCCC TACCCACTTC AGGCCCTGCC
    CAGGTCCCCA CCCCTACAGC AGCTCCCAAC CAAGCTCCAG CCTCAGCCCC AGCCCCAGCC
    CCAACTCCAG CCCCAGCCCC TGGCCCCCGG GATCAGAACC TACCCCAGAT CCTGGAGGAG
    TCCAGGTCTG AATGA

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

    CloneID OHu31595
    Clone ID Related Accession (Same CDS sequence) XM_017025238.1 , NM_003632.2 , NM_003632.3 , XM_024451011.1
    Accession Version XM_024451011.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4155bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product contactin-associated protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGATGCATC TCCGGCTCTT CTGCATCCTG CTCGCCGCGG TCTCAGGAGC CGAGGGCTGG 
    GGCTACTACG GCTGCGACGA GGAGCTGGTG GGTCCCCTGT ATGCACGCTC CCTGGGCGCC
    TCCTCCTACT ACAGTCTCCT TACTGCGCCG AGATTCGCCA GGCTGCACGG CATAAGCGGG
    TGGTCACCAC GGATTGGGGA TCCGAATCCC TGGCTCCAGA TAGACTTAAT GAAGAAGCAC
    CGGATCCGGG CCGTGGCCAC ACAGGGCTCC TTTAATTCTT GGGACTGGGT CACACGTTAC
    ATGCTACTCT ACGGCGACCG AGTGGACAGC TGGACACCGT TCTACCAGCG AGGGCACAAC
    TCGACCTTCT TTGGTAACGT GAACGAGTCG GCGGTGGTGC GCCATGACCT GCACTTCCAC
    TTCACTGCGC GCTACATCCG CATCGTGCCC CTGGCCTGGA ACCCACGCGG CAAGATCGGC
    CTGAGGCTCG GCCTCTATGG CTGCCCATAC AAGGCCGACA TACTCTATTT CGACGGCGAC
    GATGCCATCT CCTACCGCTT CCCGCGAGGG GTCAGCCGAA GCCTGTGGGA CGTGTTCGCC
    TTCAGCTTCA AGACCGAGGA GAAGGACGGT CTTCTGCTGC ACGCCGAGGG CGCCCAGGGC
    GACTACGTGA CGCTCGAGCT GGAGGGGGCA CACCTGCTGC TGCACATGAG CCTGGGCAGC
    AGCCCTATCC AGCCAAGACC AGGTCACACC ACCGTGAGCG CAGGCGGAGT CCTCAATGAC
    CAGCACTGGC ACTATGTGCG GGTGGACCGA TTTGGCCGCG ATGTAAATTT CACCCTGGAC
    GGCTATGTGC AGCGCTTTAT TCTCAATGGA GACTTCGAGA GGCTGAACCT GGACACTGAG
    ATGTTCATCG GAGGTCTGGT GGGCGCCGCG CGGAAGAACC TGGCCTATCG GCATAACTTC
    CGCGGCTGCA TAGAAAACGT AATCTTCAAC CGCGTCAACA TCGCAGACCT GGCCGTGCGG
    CGCCATTCCC GGATCACCTT CGAGGGTAAG GTGGCTTTTC GTTGCCTGGA CCCGGTACCG
    CACCCTATCA ACTTCGGAGG CCCTCACAAC TTCGTTCAAG TGCCCGGTTT CCCACGCCGT
    GGCCGCCTGG CAGTCTCATT TCGCTTCCGC ACCTGGGACC TCACCGGGCT TCTCCTTTTC
    TCCCGTCTGG GGGACGGGCT GGGCCACGTG GAGCTGACGC TCAGCGAAGG GCAGGTCAAC
    GTGTCCATCG CGCAGAGCGG CCGAAAGAAG CTTCAGTTCG CTGCTGGGTA CCGACTGAAT
    GACGGCTTTT GGCACGAGGT GAATTTTGTG GCACAGGAAA ACCATGCAGT TATCAGCATT
    GATGATGTGG AAGGGGCAGA GGTCAGGGTC TCATACCCGT TGCTGATCCG GACAGGGACC
    TCATATTTCT TTGGGGGTTG TCCCAAGCCA GCCAGTCGAT GGGACTGCCA CTCCAACCAG
    ACGGCATTCC ATGGCTGCAT GGAGCTGCTC AAGGTGGATG GTCAACTGGT CAACCTGACT
    CTGGTGGAGG GCCGGCGGCT TGGATTCTAT GCTGAGGTCC TCTTTGATAC ATGTGGCATC
    ACTGATAGGT GCAGCCCTAA CATGTGTGAG CATGATGGAC GCTGCTACCA GTCTTGGGAT
    GACTTCATTT GCTACTGCGA ACTGACGGGC TACAAGGGAG AGACCTGCCA CACACCTTTG
    TATAAGGAAT CCTGTGAGGC TTATCGGCTC AGTGGGAAAA CTTCTGGAAA CTTCACCATT
    GATCCTGATG GCAGTGGCCC CCTGAAGCCA TTTGTAGTGT ACTGTGATAT CCGAGAGAAC
    CGAGCGTGGA CAGTTGTGCG GCATGACAGG CTGTGGACAA CTCGAGTGAC AGGTTCCAGC
    ATGGAGCGGC CATTCCTGGG GGCTATCCAG TACTGGAATG CATCCTGGGA GGAAGTCAGT
    GCCCTTGCCA ATGCTTCCCA GCATTGTGAA CAGTGGATCG AGTTCTCCTG CTACAATTCC
    CGGCTGCTCA ACACTGCAGG AGGCTACCCC TACAGCTTTT GGATTGGCCG AAATGAGGAG
    CAGCACTTCT ACTGGGGAGG CTCCCAGCCT GGGATCCAGC GCTGTGCCTG TGGTCTGGAC
    CGGAGCTGTG TGGACCCTGC CTTGTACTGC AACTGTGACG CTGACCAGCC CCAGTGGAGA
    ACTGACAAGG GACTGCTGAC CTTTGTGGAC CATCTGCCTG TCACTCAGGT AGTGATAGGG
    GATACGAACC GCTCCACTTC TGAGGCCCAG TTCTTCCTGA GGCCTCTGCG CTGCTATGGC
    GATCGAAATT CCTGGAACAC CATTTCCTTC CACACCGGGG CTGCACTACG CTTCCCCCCA
    ATCCGTGCCA ACCACAGCCT GGATGTCTCC TTCTACTTCA GGACCTCTGC TCCCTCGGGG
    GTCTTCCTAG AGAATATGGG GGGCCCTTAC TGCCAGTGGC GCCGACCTTA TGTGCGGGTG
    GAACTCAACA CATCCCGGGA TGTGGTCTTC GCCTTTGATG TGGGGAATGG GGATGAGAAC
    CTCACAGTAC ACTCAGACGA CTTTGAGTTC AATGATGACG AGTGGCACCT GGTCCGGGCT
    GAAATCAACG TGAAGCAGGC CCGGCTCCGA GTGGATCACC GGCCCTGGGT TCTGCGGCCT
    ATGCCACTGC AGACCTACAT CTGGATGGAG TATGACCAGC CCCTCTATGT GGGATCTGCA
    GAGCTTAAGA GACGCCCCTT TGTGGGTTGC TTGAGGGCCA TGCGTCTGAA CGGAGTGACT
    CTGAACCTGG AGGGCCGTGC CAATGCCTCT GAGGGTACCT CACCCAACTG CACAGGCCAC
    TGTGCCCACC CTCGGCTCCC CTGTTTCCAT GGAGGCCGCT GCGTGGAGCG CTATAGCTAC
    TACACGTGTG ACTGTGACCT CACGGCTTTT GATGGGCCAT ACTGCAACCA CGATATTGGT
    GGTTTCTTTG AGCCGGGCAC CTGGATGCGC TATAACCTAC AGTCAGCGCT GCGCTCTGCA
    GCCAGGGAGT TCTCCCACAT GCTGAGCCGG CCAGTGCCAG GCTATGAGCC TGGCTACATC
    CCGGGCTATG ATACTCCGGG CTATGTGCCT GGCTACCATG GCCCCGGGTA CCGCCTGCCC
    GACTACCCCC GGCCTGGTCG GCCTGTGCCC GGTTACCGTG GGCCTGTCTA CAACGTTACG
    GGAGAGGAGG TCTCCTTCAG CTTCAGCACC AGCTCCGCCC CTGCTGTCCT GCTCTACGTC
    AGTTCCTTTG TTCGTGACTA CATGGCTGTG CTCATCAAGG ATGATGGGAC CCTTCAGCTG
    CGATATCAGC TGGGCACCAG TCCCTACGTG TACCAGCTAA CCACTCGACC AGTGACCGAT
    GGCCAGCCCC ATAGCATCAA TATCACCCGT GTTTACCGGA ACCTCTTCAT CCAGGTGGAC
    TACTTCCCAC TGACAGAGCA GAAGTTCTCG CTGTTGGTGG ACAGCCAGTT GGACTCACCC
    AAGGCCTTGT ATTTAGGGCG TGTGATGGAG ACAGGAGTCA TTGACCCGGA GATCCAGCGC
    TACAACACCC CAGGTTTCTC AGGCTGCCTG TCTGGTGTTC GATTCAACAA CGTGGCTCCC
    CTCAAGACCC ACTTCCGAAC CCCTCGACCC ATGACTGCTG AGCTAGCTGA GGCCCTTCGA
    GTTCAGGGAG AACTGTCCGA ATCTAATTGC GGAGCTATGC CACGTCTTGT TTCAGAGGTG
    CCACCTGAGC TTGATCCCTG GTATCTGCCC CCAGACTTCC CCTACTACCA TGATGAAGGA
    TGGGTTGCCA TACTTTTAGG CTTTTTGGTG GCCTTTCTGC TGCTGGGGCT GGTGGGAATG
    TTGGTGCTCT TCTATCTGCA AAATCATCGC TATAAGGGCT CCTACCATAC CAATGAGCCC
    AAGGCTGCCC ACGAGTACCA TCCTGGCAGC AAACCTCCCC TACCCACTTC AGGCCCTGCC
    CAGGTCCCCA CCCCTACAGC AGCTCCCAAC CAAGCTCCAG CCTCAGCCCC AGCCCCAGCC
    CCAACTCCAG CCCCAGCCCC TGGCCCCCGG GATCAGAACC TACCCCAGAT CCTGGAGGAG
    TCCAGGTCTG AATGA

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

    RefSeq XP_024306779.1
    CDS2510..6664
    Translation

    Target ORF information:

    RefSeq Version XM_024451011.1
    Organism Homo sapiens(human)
    Definition Homo sapiens contactin associated protein 1 (CNTNAP1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024451011.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGATGCATC TCCGGCTCTT CTGCATCCTG CTCGCCGCGG TCTCAGGAGC CGAGGGCTGG 
    GGCTACTACG GCTGCGACGA GGAGCTGGTG GGTCCCCTGT ATGCACGCTC CCTGGGCGCC
    TCCTCCTACT ACAGTCTCCT TACTGCGCCG AGATTCGCCA GGCTGCACGG CATAAGCGGG
    TGGTCACCAC GGATTGGGGA TCCGAATCCC TGGCTCCAGA TAGACTTAAT GAAGAAGCAC
    CGGATCCGGG CCGTGGCCAC ACAGGGCTCC TTTAATTCTT GGGACTGGGT CACACGTTAC
    ATGCTACTCT ACGGCGACCG AGTGGACAGC TGGACACCGT TCTACCAGCG AGGGCACAAC
    TCGACCTTCT TTGGTAACGT GAACGAGTCG GCGGTGGTGC GCCATGACCT GCACTTCCAC
    TTCACTGCGC GCTACATCCG CATCGTGCCC CTGGCCTGGA ACCCACGCGG CAAGATCGGC
    CTGAGGCTCG GCCTCTATGG CTGCCCATAC AAGGCCGACA TACTCTATTT CGACGGCGAC
    GATGCCATCT CCTACCGCTT CCCGCGAGGG GTCAGCCGAA GCCTGTGGGA CGTGTTCGCC
    TTCAGCTTCA AGACCGAGGA GAAGGACGGT CTTCTGCTGC ACGCCGAGGG CGCCCAGGGC
    GACTACGTGA CGCTCGAGCT GGAGGGGGCA CACCTGCTGC TGCACATGAG CCTGGGCAGC
    AGCCCTATCC AGCCAAGACC AGGTCACACC ACCGTGAGCG CAGGCGGAGT CCTCAATGAC
    CAGCACTGGC ACTATGTGCG GGTGGACCGA TTTGGCCGCG ATGTAAATTT CACCCTGGAC
    GGCTATGTGC AGCGCTTTAT TCTCAATGGA GACTTCGAGA GGCTGAACCT GGACACTGAG
    ATGTTCATCG GAGGTCTGGT GGGCGCCGCG CGGAAGAACC TGGCCTATCG GCATAACTTC
    CGCGGCTGCA TAGAAAACGT AATCTTCAAC CGCGTCAACA TCGCAGACCT GGCCGTGCGG
    CGCCATTCCC GGATCACCTT CGAGGGTAAG GTGGCTTTTC GTTGCCTGGA CCCGGTACCG
    CACCCTATCA ACTTCGGAGG CCCTCACAAC TTCGTTCAAG TGCCCGGTTT CCCACGCCGT
    GGCCGCCTGG CAGTCTCATT TCGCTTCCGC ACCTGGGACC TCACCGGGCT TCTCCTTTTC
    TCCCGTCTGG GGGACGGGCT GGGCCACGTG GAGCTGACGC TCAGCGAAGG GCAGGTCAAC
    GTGTCCATCG CGCAGAGCGG CCGAAAGAAG CTTCAGTTCG CTGCTGGGTA CCGACTGAAT
    GACGGCTTTT GGCACGAGGT GAATTTTGTG GCACAGGAAA ACCATGCAGT TATCAGCATT
    GATGATGTGG AAGGGGCAGA GGTCAGGGTC TCATACCCGT TGCTGATCCG GACAGGGACC
    TCATATTTCT TTGGGGGTTG TCCCAAGCCA GCCAGTCGAT GGGACTGCCA CTCCAACCAG
    ACGGCATTCC ATGGCTGCAT GGAGCTGCTC AAGGTGGATG GTCAACTGGT CAACCTGACT
    CTGGTGGAGG GCCGGCGGCT TGGATTCTAT GCTGAGGTCC TCTTTGATAC ATGTGGCATC
    ACTGATAGGT GCAGCCCTAA CATGTGTGAG CATGATGGAC GCTGCTACCA GTCTTGGGAT
    GACTTCATTT GCTACTGCGA ACTGACGGGC TACAAGGGAG AGACCTGCCA CACACCTTTG
    TATAAGGAAT CCTGTGAGGC TTATCGGCTC AGTGGGAAAA CTTCTGGAAA CTTCACCATT
    GATCCTGATG GCAGTGGCCC CCTGAAGCCA TTTGTAGTGT ACTGTGATAT CCGAGAGAAC
    CGAGCGTGGA CAGTTGTGCG GCATGACAGG CTGTGGACAA CTCGAGTGAC AGGTTCCAGC
    ATGGAGCGGC CATTCCTGGG GGCTATCCAG TACTGGAATG CATCCTGGGA GGAAGTCAGT
    GCCCTTGCCA ATGCTTCCCA GCATTGTGAA CAGTGGATCG AGTTCTCCTG CTACAATTCC
    CGGCTGCTCA ACACTGCAGG AGGCTACCCC TACAGCTTTT GGATTGGCCG AAATGAGGAG
    CAGCACTTCT ACTGGGGAGG CTCCCAGCCT GGGATCCAGC GCTGTGCCTG TGGTCTGGAC
    CGGAGCTGTG TGGACCCTGC CTTGTACTGC AACTGTGACG CTGACCAGCC CCAGTGGAGA
    ACTGACAAGG GACTGCTGAC CTTTGTGGAC CATCTGCCTG TCACTCAGGT AGTGATAGGG
    GATACGAACC GCTCCACTTC TGAGGCCCAG TTCTTCCTGA GGCCTCTGCG CTGCTATGGC
    GATCGAAATT CCTGGAACAC CATTTCCTTC CACACCGGGG CTGCACTACG CTTCCCCCCA
    ATCCGTGCCA ACCACAGCCT GGATGTCTCC TTCTACTTCA GGACCTCTGC TCCCTCGGGG
    GTCTTCCTAG AGAATATGGG GGGCCCTTAC TGCCAGTGGC GCCGACCTTA TGTGCGGGTG
    GAACTCAACA CATCCCGGGA TGTGGTCTTC GCCTTTGATG TGGGGAATGG GGATGAGAAC
    CTCACAGTAC ACTCAGACGA CTTTGAGTTC AATGATGACG AGTGGCACCT GGTCCGGGCT
    GAAATCAACG TGAAGCAGGC CCGGCTCCGA GTGGATCACC GGCCCTGGGT TCTGCGGCCT
    ATGCCACTGC AGACCTACAT CTGGATGGAG TATGACCAGC CCCTCTATGT GGGATCTGCA
    GAGCTTAAGA GACGCCCCTT TGTGGGTTGC TTGAGGGCCA TGCGTCTGAA CGGAGTGACT
    CTGAACCTGG AGGGCCGTGC CAATGCCTCT GAGGGTACCT CACCCAACTG CACAGGCCAC
    TGTGCCCACC CTCGGCTCCC CTGTTTCCAT GGAGGCCGCT GCGTGGAGCG CTATAGCTAC
    TACACGTGTG ACTGTGACCT CACGGCTTTT GATGGGCCAT ACTGCAACCA CGATATTGGT
    GGTTTCTTTG AGCCGGGCAC CTGGATGCGC TATAACCTAC AGTCAGCGCT GCGCTCTGCA
    GCCAGGGAGT TCTCCCACAT GCTGAGCCGG CCAGTGCCAG GCTATGAGCC TGGCTACATC
    CCGGGCTATG ATACTCCGGG CTATGTGCCT GGCTACCATG GCCCCGGGTA CCGCCTGCCC
    GACTACCCCC GGCCTGGTCG GCCTGTGCCC GGTTACCGTG GGCCTGTCTA CAACGTTACG
    GGAGAGGAGG TCTCCTTCAG CTTCAGCACC AGCTCCGCCC CTGCTGTCCT GCTCTACGTC
    AGTTCCTTTG TTCGTGACTA CATGGCTGTG CTCATCAAGG ATGATGGGAC CCTTCAGCTG
    CGATATCAGC TGGGCACCAG TCCCTACGTG TACCAGCTAA CCACTCGACC AGTGACCGAT
    GGCCAGCCCC ATAGCATCAA TATCACCCGT GTTTACCGGA ACCTCTTCAT CCAGGTGGAC
    TACTTCCCAC TGACAGAGCA GAAGTTCTCG CTGTTGGTGG ACAGCCAGTT GGACTCACCC
    AAGGCCTTGT ATTTAGGGCG TGTGATGGAG ACAGGAGTCA TTGACCCGGA GATCCAGCGC
    TACAACACCC CAGGTTTCTC AGGCTGCCTG TCTGGTGTTC GATTCAACAA CGTGGCTCCC
    CTCAAGACCC ACTTCCGAAC CCCTCGACCC ATGACTGCTG AGCTAGCTGA GGCCCTTCGA
    GTTCAGGGAG AACTGTCCGA ATCTAATTGC GGAGCTATGC CACGTCTTGT TTCAGAGGTG
    CCACCTGAGC TTGATCCCTG GTATCTGCCC CCAGACTTCC CCTACTACCA TGATGAAGGA
    TGGGTTGCCA TACTTTTAGG CTTTTTGGTG GCCTTTCTGC TGCTGGGGCT GGTGGGAATG
    TTGGTGCTCT TCTATCTGCA AAATCATCGC TATAAGGGCT CCTACCATAC CAATGAGCCC
    AAGGCTGCCC ACGAGTACCA TCCTGGCAGC AAACCTCCCC TACCCACTTC AGGCCCTGCC
    CAGGTCCCCA CCCCTACAGC AGCTCCCAAC CAAGCTCCAG CCTCAGCCCC AGCCCCAGCC
    CCAACTCCAG CCCCAGCCCC TGGCCCCCGG GATCAGAACC TACCCCAGAT CCTGGAGGAG
    TCCAGGTCTG AATGA

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

    CloneID OHu50736
    Clone ID Related Accession (Same CDS sequence) XM_005257748.4
    Accession Version XM_005257748.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3927bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product contactin-associated protein 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_005257748.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGAAGAAGC ACCGGATCCG GGCCGTGGCC ACACAGGGCT CCTTTAATTC TTGGGACTGG 
    GTCACACGTT ACATGCTACT CTACGGCGAC CGAGTGGACA GCTGGACACC GTTCTACCAG
    CGAGGGCACA ACTCGACCTT CTTTGGTAAC GTGAACGAGT CGGCGGTGGT GCGCCATGAC
    CTGCACTTCC ACTTCACTGC GCGCTACATC CGCATCGTGC CCCTGGCCTG GAACCCACGC
    GGCAAGATCG GCCTGAGGCT CGGCCTCTAT GGCTGCCCAT ACAAGGCCGA CATACTCTAT
    TTCGACGGCG ACGATGCCAT CTCCTACCGC TTCCCGCGAG GGGTCAGCCG AAGCCTGTGG
    GACGTGTTCG CCTTCAGCTT CAAGACCGAG GAGAAGGACG GTCTTCTGCT GCACGCCGAG
    GGCGCCCAGG GCGACTACGT GACGCTCGAG CTGGAGGGGG CACACCTGCT GCTGCACATG
    AGCCTGGGCA GCAGCCCTAT CCAGCCAAGA CCAGGTCACA CCACCGTGAG CGCAGGCGGA
    GTCCTCAATG ACCAGCACTG GCACTATGTG CGGGTGGACC GATTTGGCCG CGATGTAAAT
    TTCACCCTGG ACGGCTATGT GCAGCGCTTT ATTCTCAATG GAGACTTCGA GAGGCTGAAC
    CTGGACACTG AGATGTTCAT CGGAGGTCTG GTGGGCGCCG CGCGGAAGAA CCTGGCCTAT
    CGGCATAACT TCCGCGGCTG CATAGAAAAC GTAATCTTCA ACCGCGTCAA CATCGCAGAC
    CTGGCCGTGC GGCGCCATTC CCGGATCACC TTCGAGGGTA AGGTGGCTTT TCGTTGCCTG
    GACCCGGTAC CGCACCCTAT CAACTTCGGA GGCCCTCACA ACTTCGTTCA AGTGCCCGGT
    TTCCCACGCC GTGGCCGCCT GGCAGTCTCA TTTCGCTTCC GCACCTGGGA CCTCACCGGG
    CTTCTCCTTT TCTCCCGTCT GGGGGACGGG CTGGGCCACG TGGAGCTGAC GCTCAGCGAA
    GGGCAGGTCA ACGTGTCCAT CGCGCAGAGC GGCCGAAAGA AGCTTCAGTT CGCTGCTGGG
    TACCGACTGA ATGACGGCTT TTGGCACGAG GTGAATTTTG TGGCACAGGA AAACCATGCA
    GTTATCAGCA TTGATGATGT GGAAGGGGCA GAGGTCAGGG TCTCATACCC GTTGCTGATC
    CGGACAGGGA CCTCATATTT CTTTGGGGGT TGTCCCAAGC CAGCCAGTCG ATGGGACTGC
    CACTCCAACC AGACGGCATT CCATGGCTGC ATGGAGCTGC TCAAGGTGGA TGGTCAACTG
    GTCAACCTGA CTCTGGTGGA GGGCCGGCGG CTTGGATTCT ATGCTGAGGT CCTCTTTGAT
    ACATGTGGCA TCACTGATAG GTGCAGCCCT AACATGTGTG AGCATGATGG ACGCTGCTAC
    CAGTCTTGGG ATGACTTCAT TTGCTACTGC GAACTGACGG GCTACAAGGG AGAGACCTGC
    CACACACCTT TGTATAAGGA ATCCTGTGAG GCTTATCGGC TCAGTGGGAA AACTTCTGGA
    AACTTCACCA TTGATCCTGA TGGCAGTGGC CCCCTGAAGC CATTTGTAGT GTACTGTGAT
    ATCCGAGAGA ACCGAGCGTG GACAGTTGTG CGGCATGACA GGCTGTGGAC AACTCGAGTG
    ACAGGTTCCA GCATGGAGCG GCCATTCCTG GGGGCTATCC AGTACTGGAA TGCATCCTGG
    GAGGAAGTCA GTGCCCTTGC CAATGCTTCC CAGCATTGTG AACAGTGGAT CGAGTTCTCC
    TGCTACAATT CCCGGCTGCT CAACACTGCA GGAGGCTACC CCTACAGCTT TTGGATTGGC
    CGAAATGAGG AGCAGCACTT CTACTGGGGA GGCTCCCAGC CTGGGATCCA GCGCTGTGCC
    TGTGGTCTGG ACCGGAGCTG TGTGGACCCT GCCTTGTACT GCAACTGTGA CGCTGACCAG
    CCCCAGTGGA GAACTGACAA GGGACTGCTG ACCTTTGTGG ACCATCTGCC TGTCACTCAG
    GTAGTGATAG GGGATACGAA CCGCTCCACT TCTGAGGCCC AGTTCTTCCT GAGGCCTCTG
    CGCTGCTATG GCGATCGAAA TTCCTGGAAC ACCATTTCCT TCCACACCGG GGCTGCACTA
    CGCTTCCCCC CAATCCGTGC CAACCACAGC CTGGATGTCT CCTTCTACTT CAGGACCTCT
    GCTCCCTCGG GGGTCTTCCT AGAGAATATG GGGGGCCCTT ACTGCCAGTG GCGCCGACCT
    TATGTGCGGG TGGAACTCAA CACATCCCGG GATGTGGTCT TCGCCTTTGA TGTGGGGAAT
    GGGGATGAGA ACCTCACAGT ACACTCAGAC GACTTTGAGT TCAATGATGA CGAGTGGCAC
    CTGGTCCGGG CTGAAATCAA CGTGAAGCAG GCCCGGCTCC GAGTGGATCA CCGGCCCTGG
    GTTCTGCGGC CTATGCCACT GCAGACCTAC ATCTGGATGG AGTATGACCA GCCCCTCTAT
    GTGGGATCTG CAGAGCTTAA GAGACGCCCC TTTGTGGGTT GCTTGAGGGC CATGCGTCTG
    AACGGAGTGA CTCTGAACCT GGAGGGCCGT GCCAATGCCT CTGAGGGTAC CTCACCCAAC
    TGCACAGGCC ACTGTGCCCA CCCTCGGCTC CCCTGTTTCC ATGGAGGCCG CTGCGTGGAG
    CGCTATAGCT ACTACACGTG TGACTGTGAC CTCACGGCTT TTGATGGGCC ATACTGCAAC
    CACGATATTG GTGGTTTCTT TGAGCCGGGC ACCTGGATGC GCTATAACCT ACAGTCAGCG
    CTGCGCTCTG CAGCCAGGGA GTTCTCCCAC ATGCTGAGCC GGCCAGTGCC AGGCTATGAG
    CCTGGCTACA TCCCGGGCTA TGATACTCCG GGCTATGTGC CTGGCTACCA TGGCCCCGGG
    TACCGCCTGC CCGACTACCC CCGGCCTGGT CGGCCTGTGC CCGGTTACCG TGGGCCTGTC
    TACAACGTTA CGGGAGAGGA GGTCTCCTTC AGCTTCAGCA CCAGCTCCGC CCCTGCTGTC
    CTGCTCTACG TCAGTTCCTT TGTTCGTGAC TACATGGCTG TGCTCATCAA GGATGATGGG
    ACCCTTCAGC TGCGATATCA GCTGGGCACC AGTCCCTACG TGTACCAGCT AACCACTCGA
    CCAGTGACCG ATGGCCAGCC CCATAGCATC AATATCACCC GTGTTTACCG GAACCTCTTC
    ATCCAGGTGG ACTACTTCCC ACTGACAGAG CAGAAGTTCT CGCTGTTGGT GGACAGCCAG
    TTGGACTCAC CCAAGGCCTT GTATTTAGGG CGTGTGATGG AGACAGGAGT CATTGACCCG
    GAGATCCAGC GCTACAACAC CCCAGGTTTC TCAGGCTGCC TGTCTGGTGT TCGATTCAAC
    AACGTGGCTC CCCTCAAGAC CCACTTCCGA ACCCCTCGAC CCATGACTGC TGAGCTAGCT
    GAGGCCCTTC GAGTTCAGGG AGAACTGTCC GAATCTAATT GCGGAGCTAT GCCACGTCTT
    GTTTCAGAGG TGCCACCTGA GCTTGATCCC TGGTATCTGC CCCCAGACTT CCCCTACTAC
    CATGATGAAG GATGGGTTGC CATACTTTTA GGCTTTTTGG TGGCCTTTCT GCTGCTGGGG
    CTGGTGGGAA TGTTGGTGCT CTTCTATCTG CAAAATCATC GCTATAAGGG CTCCTACCAT
    ACCAATGAGC CCAAGGCTGC CCACGAGTAC CATCCTGGCA GCAAACCTCC CCTACCCACT
    TCAGGCCCTG CCCAGGTCCC CACCCCTACA GCAGCTCCCA ACCAAGCTCC AGCCTCAGCC
    CCAGCCCCAG CCCCAACTCC AGCCCCAGCC CCTGGCCCCC GGGATCAGAA CCTACCCCAG
    ATCCTGGAGG AGTCCAGGTC TGAATGA

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

    RefSeq XP_005257805.1
    CDS1210..5136
    Translation

    Target ORF information:

    RefSeq Version XM_005257748.4
    Organism Homo sapiens(human)
    Definition Homo sapiens contactin associated protein 1 (CNTNAP1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005257748.4

    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
    ATGAAGAAGC ACCGGATCCG GGCCGTGGCC ACACAGGGCT CCTTTAATTC TTGGGACTGG 
    GTCACACGTT ACATGCTACT CTACGGCGAC CGAGTGGACA GCTGGACACC GTTCTACCAG
    CGAGGGCACA ACTCGACCTT CTTTGGTAAC GTGAACGAGT CGGCGGTGGT GCGCCATGAC
    CTGCACTTCC ACTTCACTGC GCGCTACATC CGCATCGTGC CCCTGGCCTG GAACCCACGC
    GGCAAGATCG GCCTGAGGCT CGGCCTCTAT GGCTGCCCAT ACAAGGCCGA CATACTCTAT
    TTCGACGGCG ACGATGCCAT CTCCTACCGC TTCCCGCGAG GGGTCAGCCG AAGCCTGTGG
    GACGTGTTCG CCTTCAGCTT CAAGACCGAG GAGAAGGACG GTCTTCTGCT GCACGCCGAG
    GGCGCCCAGG GCGACTACGT GACGCTCGAG CTGGAGGGGG CACACCTGCT GCTGCACATG
    AGCCTGGGCA GCAGCCCTAT CCAGCCAAGA CCAGGTCACA CCACCGTGAG CGCAGGCGGA
    GTCCTCAATG ACCAGCACTG GCACTATGTG CGGGTGGACC GATTTGGCCG CGATGTAAAT
    TTCACCCTGG ACGGCTATGT GCAGCGCTTT ATTCTCAATG GAGACTTCGA GAGGCTGAAC
    CTGGACACTG AGATGTTCAT CGGAGGTCTG GTGGGCGCCG CGCGGAAGAA CCTGGCCTAT
    CGGCATAACT TCCGCGGCTG CATAGAAAAC GTAATCTTCA ACCGCGTCAA CATCGCAGAC
    CTGGCCGTGC GGCGCCATTC CCGGATCACC TTCGAGGGTA AGGTGGCTTT TCGTTGCCTG
    GACCCGGTAC CGCACCCTAT CAACTTCGGA GGCCCTCACA ACTTCGTTCA AGTGCCCGGT
    TTCCCACGCC GTGGCCGCCT GGCAGTCTCA TTTCGCTTCC GCACCTGGGA CCTCACCGGG
    CTTCTCCTTT TCTCCCGTCT GGGGGACGGG CTGGGCCACG TGGAGCTGAC GCTCAGCGAA
    GGGCAGGTCA ACGTGTCCAT CGCGCAGAGC GGCCGAAAGA AGCTTCAGTT CGCTGCTGGG
    TACCGACTGA ATGACGGCTT TTGGCACGAG GTGAATTTTG TGGCACAGGA AAACCATGCA
    GTTATCAGCA TTGATGATGT GGAAGGGGCA GAGGTCAGGG TCTCATACCC GTTGCTGATC
    CGGACAGGGA CCTCATATTT CTTTGGGGGT TGTCCCAAGC CAGCCAGTCG ATGGGACTGC
    CACTCCAACC AGACGGCATT CCATGGCTGC ATGGAGCTGC TCAAGGTGGA TGGTCAACTG
    GTCAACCTGA CTCTGGTGGA GGGCCGGCGG CTTGGATTCT ATGCTGAGGT CCTCTTTGAT
    ACATGTGGCA TCACTGATAG GTGCAGCCCT AACATGTGTG AGCATGATGG ACGCTGCTAC
    CAGTCTTGGG ATGACTTCAT TTGCTACTGC GAACTGACGG GCTACAAGGG AGAGACCTGC
    CACACACCTT TGTATAAGGA ATCCTGTGAG GCTTATCGGC TCAGTGGGAA AACTTCTGGA
    AACTTCACCA TTGATCCTGA TGGCAGTGGC CCCCTGAAGC CATTTGTAGT GTACTGTGAT
    ATCCGAGAGA ACCGAGCGTG GACAGTTGTG CGGCATGACA GGCTGTGGAC AACTCGAGTG
    ACAGGTTCCA GCATGGAGCG GCCATTCCTG GGGGCTATCC AGTACTGGAA TGCATCCTGG
    GAGGAAGTCA GTGCCCTTGC CAATGCTTCC CAGCATTGTG AACAGTGGAT CGAGTTCTCC
    TGCTACAATT CCCGGCTGCT CAACACTGCA GGAGGCTACC CCTACAGCTT TTGGATTGGC
    CGAAATGAGG AGCAGCACTT CTACTGGGGA GGCTCCCAGC CTGGGATCCA GCGCTGTGCC
    TGTGGTCTGG ACCGGAGCTG TGTGGACCCT GCCTTGTACT GCAACTGTGA CGCTGACCAG
    CCCCAGTGGA GAACTGACAA GGGACTGCTG ACCTTTGTGG ACCATCTGCC TGTCACTCAG
    GTAGTGATAG GGGATACGAA CCGCTCCACT TCTGAGGCCC AGTTCTTCCT GAGGCCTCTG
    CGCTGCTATG GCGATCGAAA TTCCTGGAAC ACCATTTCCT TCCACACCGG GGCTGCACTA
    CGCTTCCCCC CAATCCGTGC CAACCACAGC CTGGATGTCT CCTTCTACTT CAGGACCTCT
    GCTCCCTCGG GGGTCTTCCT AGAGAATATG GGGGGCCCTT ACTGCCAGTG GCGCCGACCT
    TATGTGCGGG TGGAACTCAA CACATCCCGG GATGTGGTCT TCGCCTTTGA TGTGGGGAAT
    GGGGATGAGA ACCTCACAGT ACACTCAGAC GACTTTGAGT TCAATGATGA CGAGTGGCAC
    CTGGTCCGGG CTGAAATCAA CGTGAAGCAG GCCCGGCTCC GAGTGGATCA CCGGCCCTGG
    GTTCTGCGGC CTATGCCACT GCAGACCTAC ATCTGGATGG AGTATGACCA GCCCCTCTAT
    GTGGGATCTG CAGAGCTTAA GAGACGCCCC TTTGTGGGTT GCTTGAGGGC CATGCGTCTG
    AACGGAGTGA CTCTGAACCT GGAGGGCCGT GCCAATGCCT CTGAGGGTAC CTCACCCAAC
    TGCACAGGCC ACTGTGCCCA CCCTCGGCTC CCCTGTTTCC ATGGAGGCCG CTGCGTGGAG
    CGCTATAGCT ACTACACGTG TGACTGTGAC CTCACGGCTT TTGATGGGCC ATACTGCAAC
    CACGATATTG GTGGTTTCTT TGAGCCGGGC ACCTGGATGC GCTATAACCT ACAGTCAGCG
    CTGCGCTCTG CAGCCAGGGA GTTCTCCCAC ATGCTGAGCC GGCCAGTGCC AGGCTATGAG
    CCTGGCTACA TCCCGGGCTA TGATACTCCG GGCTATGTGC CTGGCTACCA TGGCCCCGGG
    TACCGCCTGC CCGACTACCC CCGGCCTGGT CGGCCTGTGC CCGGTTACCG TGGGCCTGTC
    TACAACGTTA CGGGAGAGGA GGTCTCCTTC AGCTTCAGCA CCAGCTCCGC CCCTGCTGTC
    CTGCTCTACG TCAGTTCCTT TGTTCGTGAC TACATGGCTG TGCTCATCAA GGATGATGGG
    ACCCTTCAGC TGCGATATCA GCTGGGCACC AGTCCCTACG TGTACCAGCT AACCACTCGA
    CCAGTGACCG ATGGCCAGCC CCATAGCATC AATATCACCC GTGTTTACCG GAACCTCTTC
    ATCCAGGTGG ACTACTTCCC ACTGACAGAG CAGAAGTTCT CGCTGTTGGT GGACAGCCAG
    TTGGACTCAC CCAAGGCCTT GTATTTAGGG CGTGTGATGG AGACAGGAGT CATTGACCCG
    GAGATCCAGC GCTACAACAC CCCAGGTTTC TCAGGCTGCC TGTCTGGTGT TCGATTCAAC
    AACGTGGCTC CCCTCAAGAC CCACTTCCGA ACCCCTCGAC CCATGACTGC TGAGCTAGCT
    GAGGCCCTTC GAGTTCAGGG AGAACTGTCC GAATCTAATT GCGGAGCTAT GCCACGTCTT
    GTTTCAGAGG TGCCACCTGA GCTTGATCCC TGGTATCTGC CCCCAGACTT CCCCTACTAC
    CATGATGAAG GATGGGTTGC CATACTTTTA GGCTTTTTGG TGGCCTTTCT GCTGCTGGGG
    CTGGTGGGAA TGTTGGTGCT CTTCTATCTG CAAAATCATC GCTATAAGGG CTCCTACCAT
    ACCAATGAGC CCAAGGCTGC CCACGAGTAC CATCCTGGCA GCAAACCTCC CCTACCCACT
    TCAGGCCCTG CCCAGGTCCC CACCCCTACA GCAGCTCCCA ACCAAGCTCC AGCCTCAGCC
    CCAGCCCCAG CCCCAACTCC AGCCCCAGCC CCTGGCCCCC GGGATCAGAA CCTACCCCAG
    ATCCTGGAGG AGTCCAGGTC TGAATGA

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