CHL1 cDNA ORF clone, Pan troglodytes(chimpanzee)

The following CHL1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CHL1 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
OPc06190 XM_009444755.3
Latest version!
Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OPc06190 XM_016940310.2
Latest version!
Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OPc06190 XM_001136570.4
Latest version!
Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OPc06191 XM_009444749.3
Latest version!
Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OPc06191 XM_009444751.3
Latest version!
Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OPc06191 XM_009444750.3
Latest version!
Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OPc06191 XM_009444753.3
Latest version!
Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OPc06191 XM_009444754.3
Latest version!
Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OPc06191 XM_016940308.1
Latest version!
Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OPc06191 XM_001136954.4
Latest version!
Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OPc06191 XM_016940309.2
Latest version!
Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OPc37676 XM_016940312.2
Latest version!
Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
View Old Accession Versions >>
OPc06191 XM_009444754.2 Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OPc06191 XM_009444753.2 Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OPc37676 XM_016940312.1 Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OPc06191 XM_016940309.1 Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OPc06190 XM_001136570.3 Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OPc06190 XM_016940310.1 Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OPc06190 XM_009444755.2 Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OPc06191 XM_009444750.2 Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OPc06191 XM_001136954.3 Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OPc06191 XM_009444751.2 Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OPc06191 XM_009444749.2 Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
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 OPc06190
    Clone ID Related Accession (Same CDS sequence) XM_001136570.3 , XM_016940310.2 , XM_009444755.3 , XM_001136570.4 , XM_016940310.1 , XM_009444755.2
    Accession Version XM_001136570.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3630bp)
    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 neural cell adhesion molecule L1-like protein isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_006490.4) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Oct 7, 2014 this sequence version replaced XM_001136570.2. ##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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTC AAATTCCATC AAGCAAAGAA AACCCAAACT GCTGTTGCCT
    CCCACTGAGA GTGGCAGTGA GTCTTCAATT ACCATCCTCA AAGGGGAAAT CTTGCTGCTT
    GAGTGTTTTG CTGAAGGCTT GCCAACTCCA CAGGTTGATT GGAACAAAAT TGGTGGTGAC
    TTACCAAAGG GGAGAGAAAC AAAAGAAAAT TATGGCAAGA CTTTGAAGAT AGAGAATGTC
    TCCTACCAGG ACAAAGGAAA TTATCGCTGC ACAGCCAGCA ATTTCTTGGG AACAGCCACT
    CACGATTTTC ATGTTATAGT AGAAGAGCCT CCTCGCTGGA CAAAGAAGCC TCAGAGTGCT
    GTGTATAGCA CCGGAAGCAA TGGCATCTTG TTATGTGAGG CTGAAGGAGA ACCTCAACCC
    ACAATCAAGT GGAGAGTCAA TGGCTCCCCA GTTGACAATC ATCCATTTGC TGGTGATGTT
    GTCTTCCCCA GGGAAATCAG TTTTACCAAC CTTCAACCAA ATCATACTGC TGTGTACCAG
    TGTGAAGCCT CAAATGTCCA TGGAACTATC CTTGCCAATG CCAATATTGA TGTTGTGGAT
    GTCCGTCCAT TGATACAAAC CAAAGATGGA GAAAATTACG CTACAGTGGT TGGGTACAGT
    GCTTTCTTAC ATTGCGAGTT CTTTGCTTCA CCTGAGGCAG TCGTGTCCTG GCAGAAGGTG
    GAAGAAGTGA AACCCCTGGA GGGCAGGCGG TATCATATCT ATGAAAATGG CACATTGCAG
    ATCAACAGAA CCACCGAAGA AGATGCTGGG TCTTACTCAT GTTGGGTAGA AAATGCTATA
    GGAAAAACTG CAGTCACAGC CAATTTGGAT ATTAGAAATG CTACAAAACT TAGAGTTTCT
    CCTAAGAATC CTCGTATCCC CAAATTGCAT ATGCTTGAAT TACATTGTGA GAGCAAATGT
    GACTCACATT TGAAACACAG TTTGAAGTTG TCCTGGAGTA AAGATGGAGA AGCCTTTGAA
    ATTAATGGCA CAGAAGATGG CAGGATAATT ATTGATGGAG CTAATTTGAC CATTTCTAAT
    GTAACTTTAG AGGACCAAGG CATTTACTGC TGTTCCGCTC ATACTGCTCT AGACAGTGCT
    GCCGATATAA CTCAAGTAAC TGTTCTTGAT GTTCCGGATC CACCAGAAAA CCTTCACTTG
    TCTGAAAGAC AGAACAGGAG TGTTCGGCTG ACCTGGGAAG CTGGAGCTGA CCACAACAGC
    AATATTAGCG AGTATATTGT TGAATTTGAA GGAAACAAAG AAGAGCCTGG AAGGTGGGAG
    GAACTGACCA GAGTCCAAGG AAAGAAAACC ACAGTTATCT TACCTTTGGC TCCATTTGTG
    AGATACCAGT TCAGGGTCAT AGCCGTGAAC GAAGTAGGGA GAAGTCAGCC TAGCCAGCCG
    TCAGACCGTC ATGAAACACC ACCAGCAGCT CCAGATAGGA ATCCACAAAA CATAAGGGTT
    CAAGCCTCTC AACCCAAGGA AATGATTATA AAGTGGGAGC CTTTGAAATC CATGGAGCAG
    AATGGACCAG GCCTAGAGTA CAGAGTGACC TGGAAGCCAC AGGGAGCCCC AGTGGAGTGG
    GAAGAAGAAA CAGTCACAAA CCACACATTG CGGGTGATGA CGCCTGCTGT CTATGCCCCT
    TATGATGTCA AGGTCCAGGC TATCAATCAA CTAGGATCTG GGCCTGACCC TCAGTCAGTG
    ACTCTCTATT CTGGAGAAGA CTATCCTGAT ACAGCTCCAG TGATCCATGG GGTGGACGTT
    ATAAACAGTA CATTAGTTAA AGTTACCTGG TCAACAATTC CAAAGGACAG AGTACATGGA
    CGTCTGAAAG GCTATCAGAT AAATTGGTGG AAAACAAAAA GTCTGTTGGA TGGAAGAACA
    CATCCCAAAG AAGTGAACAT TCTAAGATTT TCAGGACAAA GAAACTCTGG AATGGTTCCT
    TCCTTAGATG CCTTTAGTGA ATTTCATTTA ACAGTCTTAG CCTATAACTC TAAAGGAGCT
    GGTCCTGAAA GTGAGCCTTA TATATTTCAA ACACCAGAAG GAGTACCTGA ACAGCCAACT
    TTTCTCAAGG TCATCAAAGT TGATAAAGAC ACTGCCACTT TATCTTGGGG AGTACCTAAG
    AAATTAAATG GAAACTTAAC TGGCTATCTT TTGCAATATC AGATAATAAA TGACACCTAC
    GAGATTGGAG AATTAAATGA TATTAACATT ACAACTCCAT CAAAGCCCAG CTGGCACCTC
    TCAAACCTCA ATGCAACTAC CAAGTACAAA TTCTACTTGA GGGCTTGCAC TTCACAGGGC
    TGTGGAAAAC CGATCACAGA GGAAAGCTCC ACCTTAGGAG AAGGGAGTAA AGGTATCGGG
    AAGATATCAG AAGGAGTAAA TCTTACTCAA AAGACTCACC CAATAGAGGT ATTTGAGCCG
    GGAGCTGAAC ATATAGTTCG CCTAATGACT AAGAATTGGG GTGATAACGA TAGCATTTTT
    CAAGATGTAA TTGAGACAAG AGGGAGAGAA TATGCTGGTT TATACGATGA CATCTCCACT
    CAAGGCTGGT TTATTGGACT GATGTGTGCG ATTGCTCTTC TCACACTACT ATTATTAACT
    GTTTGCTTTG TGAAGAGGAA TAGGGGTGGA AAGTACTCAG TTAAAGAAAA GGAAGATTTG
    CATCCAGACC CAGAAATTCA GTCAGTAAAA GATGAAACCT TTGGTGAATA CAGTGACAGT
    GATGAAAAGC CTCTCAAAGG AAGCCTTCGG TCCCTTAATA GGGATATGCA GCCTACTGAA
    AGTGCTGACA GCTTAGTCGA ATACGGAGAG GGAGACCACG GTCTATTCAG TGAAGATGGA
    TCATTTATTG GTGCCTACGC TGGATCTAAG GAGAAGGGAT CTGTTGAAAG CAATGGAAGT
    TCTACAGCAA CTTTTCCCCT TCGGGCATAA

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

    RefSeq XP_001136570.1
    CDS646..4275
    Translation

    Target ORF information:

    RefSeq Version XM_001136570.3
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_001136570.3

    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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTC AAATTCCATC AAGCAAAGAA AACCCAAACT GCTGTTGCCT
    CCCACTGAGA GTGGCAGTGA GTCTTCAATT ACCATCCTCA AAGGGGAAAT CTTGCTGCTT
    GAGTGTTTTG CTGAAGGCTT GCCAACTCCA CAGGTTGATT GGAACAAAAT TGGTGGTGAC
    TTACCAAAGG GGAGAGAAAC AAAAGAAAAT TATGGCAAGA CTTTGAAGAT AGAGAATGTC
    TCCTACCAGG ACAAAGGAAA TTATCGCTGC ACAGCCAGCA ATTTCTTGGG AACAGCCACT
    CACGATTTTC ATGTTATAGT AGAAGAGCCT CCTCGCTGGA CAAAGAAGCC TCAGAGTGCT
    GTGTATAGCA CCGGAAGCAA TGGCATCTTG TTATGTGAGG CTGAAGGAGA ACCTCAACCC
    ACAATCAAGT GGAGAGTCAA TGGCTCCCCA GTTGACAATC ATCCATTTGC TGGTGATGTT
    GTCTTCCCCA GGGAAATCAG TTTTACCAAC CTTCAACCAA ATCATACTGC TGTGTACCAG
    TGTGAAGCCT CAAATGTCCA TGGAACTATC CTTGCCAATG CCAATATTGA TGTTGTGGAT
    GTCCGTCCAT TGATACAAAC CAAAGATGGA GAAAATTACG CTACAGTGGT TGGGTACAGT
    GCTTTCTTAC ATTGCGAGTT CTTTGCTTCA CCTGAGGCAG TCGTGTCCTG GCAGAAGGTG
    GAAGAAGTGA AACCCCTGGA GGGCAGGCGG TATCATATCT ATGAAAATGG CACATTGCAG
    ATCAACAGAA CCACCGAAGA AGATGCTGGG TCTTACTCAT GTTGGGTAGA AAATGCTATA
    GGAAAAACTG CAGTCACAGC CAATTTGGAT ATTAGAAATG CTACAAAACT TAGAGTTTCT
    CCTAAGAATC CTCGTATCCC CAAATTGCAT ATGCTTGAAT TACATTGTGA GAGCAAATGT
    GACTCACATT TGAAACACAG TTTGAAGTTG TCCTGGAGTA AAGATGGAGA AGCCTTTGAA
    ATTAATGGCA CAGAAGATGG CAGGATAATT ATTGATGGAG CTAATTTGAC CATTTCTAAT
    GTAACTTTAG AGGACCAAGG CATTTACTGC TGTTCCGCTC ATACTGCTCT AGACAGTGCT
    GCCGATATAA CTCAAGTAAC TGTTCTTGAT GTTCCGGATC CACCAGAAAA CCTTCACTTG
    TCTGAAAGAC AGAACAGGAG TGTTCGGCTG ACCTGGGAAG CTGGAGCTGA CCACAACAGC
    AATATTAGCG AGTATATTGT TGAATTTGAA GGAAACAAAG AAGAGCCTGG AAGGTGGGAG
    GAACTGACCA GAGTCCAAGG AAAGAAAACC ACAGTTATCT TACCTTTGGC TCCATTTGTG
    AGATACCAGT TCAGGGTCAT AGCCGTGAAC GAAGTAGGGA GAAGTCAGCC TAGCCAGCCG
    TCAGACCGTC ATGAAACACC ACCAGCAGCT CCAGATAGGA ATCCACAAAA CATAAGGGTT
    CAAGCCTCTC AACCCAAGGA AATGATTATA AAGTGGGAGC CTTTGAAATC CATGGAGCAG
    AATGGACCAG GCCTAGAGTA CAGAGTGACC TGGAAGCCAC AGGGAGCCCC AGTGGAGTGG
    GAAGAAGAAA CAGTCACAAA CCACACATTG CGGGTGATGA CGCCTGCTGT CTATGCCCCT
    TATGATGTCA AGGTCCAGGC TATCAATCAA CTAGGATCTG GGCCTGACCC TCAGTCAGTG
    ACTCTCTATT CTGGAGAAGA CTATCCTGAT ACAGCTCCAG TGATCCATGG GGTGGACGTT
    ATAAACAGTA CATTAGTTAA AGTTACCTGG TCAACAATTC CAAAGGACAG AGTACATGGA
    CGTCTGAAAG GCTATCAGAT AAATTGGTGG AAAACAAAAA GTCTGTTGGA TGGAAGAACA
    CATCCCAAAG AAGTGAACAT TCTAAGATTT TCAGGACAAA GAAACTCTGG AATGGTTCCT
    TCCTTAGATG CCTTTAGTGA ATTTCATTTA ACAGTCTTAG CCTATAACTC TAAAGGAGCT
    GGTCCTGAAA GTGAGCCTTA TATATTTCAA ACACCAGAAG GAGTACCTGA ACAGCCAACT
    TTTCTCAAGG TCATCAAAGT TGATAAAGAC ACTGCCACTT TATCTTGGGG AGTACCTAAG
    AAATTAAATG GAAACTTAAC TGGCTATCTT TTGCAATATC AGATAATAAA TGACACCTAC
    GAGATTGGAG AATTAAATGA TATTAACATT ACAACTCCAT CAAAGCCCAG CTGGCACCTC
    TCAAACCTCA ATGCAACTAC CAAGTACAAA TTCTACTTGA GGGCTTGCAC TTCACAGGGC
    TGTGGAAAAC CGATCACAGA GGAAAGCTCC ACCTTAGGAG AAGGGAGTAA AGGTATCGGG
    AAGATATCAG AAGGAGTAAA TCTTACTCAA AAGACTCACC CAATAGAGGT ATTTGAGCCG
    GGAGCTGAAC ATATAGTTCG CCTAATGACT AAGAATTGGG GTGATAACGA TAGCATTTTT
    CAAGATGTAA TTGAGACAAG AGGGAGAGAA TATGCTGGTT TATACGATGA CATCTCCACT
    CAAGGCTGGT TTATTGGACT GATGTGTGCG ATTGCTCTTC TCACACTACT ATTATTAACT
    GTTTGCTTTG TGAAGAGGAA TAGGGGTGGA AAGTACTCAG TTAAAGAAAA GGAAGATTTG
    CATCCAGACC CAGAAATTCA GTCAGTAAAA GATGAAACCT TTGGTGAATA CAGTGACAGT
    GATGAAAAGC CTCTCAAAGG AAGCCTTCGG TCCCTTAATA GGGATATGCA GCCTACTGAA
    AGTGCTGACA GCTTAGTCGA ATACGGAGAG GGAGACCACG GTCTATTCAG TGAAGATGGA
    TCATTTATTG GTGCCTACGC TGGATCTAAG GAGAAGGGAT CTGTTGAAAG CAATGGAAGT
    TCTACAGCAA CTTTTCCCCT TCGGGCATAA

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

    CloneID OPc06190
    Clone ID Related Accession (Same CDS sequence) XM_001136570.3 , XM_016940310.2 , XM_009444755.3 , XM_001136570.4 , XM_016940310.1 , XM_009444755.2
    Accession Version XM_016940310.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3630bp)
    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 neural cell adhesion molecule L1-like protein isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036882.1) 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_016940310.1. ##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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTC AAATTCCATC AAGCAAAGAA AACCCAAACT GCTGTTGCCT
    CCCACTGAGA GTGGCAGTGA GTCTTCAATT ACCATCCTCA AAGGGGAAAT CTTGCTGCTT
    GAGTGTTTTG CTGAAGGCTT GCCAACTCCA CAGGTTGATT GGAACAAAAT TGGTGGTGAC
    TTACCAAAGG GGAGAGAAAC AAAAGAAAAT TATGGCAAGA CTTTGAAGAT AGAGAATGTC
    TCCTACCAGG ACAAAGGAAA TTATCGCTGC ACAGCCAGCA ATTTCTTGGG AACAGCCACT
    CACGATTTTC ATGTTATAGT AGAAGAGCCT CCTCGCTGGA CAAAGAAGCC TCAGAGTGCT
    GTGTATAGCA CCGGAAGCAA TGGCATCTTG TTATGTGAGG CTGAAGGAGA ACCTCAACCC
    ACAATCAAGT GGAGAGTCAA TGGCTCCCCA GTTGACAATC ATCCATTTGC TGGTGATGTT
    GTCTTCCCCA GGGAAATCAG TTTTACCAAC CTTCAACCAA ATCATACTGC TGTGTACCAG
    TGTGAAGCCT CAAATGTCCA TGGAACTATC CTTGCCAATG CCAATATTGA TGTTGTGGAT
    GTCCGTCCAT TGATACAAAC CAAAGATGGA GAAAATTACG CTACAGTGGT TGGGTACAGT
    GCTTTCTTAC ATTGCGAGTT CTTTGCTTCA CCTGAGGCAG TCGTGTCCTG GCAGAAGGTG
    GAAGAAGTGA AACCCCTGGA GGGCAGGCGG TATCATATCT ATGAAAATGG CACATTGCAG
    ATCAACAGAA CCACCGAAGA AGATGCTGGG TCTTACTCAT GTTGGGTAGA AAATGCTATA
    GGAAAAACTG CAGTCACAGC CAATTTGGAT ATTAGAAATG CTACAAAACT TAGAGTTTCT
    CCTAAGAATC CTCGTATCCC CAAATTGCAT ATGCTTGAAT TACATTGTGA GAGCAAATGT
    GACTCACATT TGAAACACAG TTTGAAGTTG TCCTGGAGTA AAGATGGAGA AGCCTTTGAA
    ATTAATGGCA CAGAAGATGG CAGGATAATT ATTGATGGAG CTAATTTGAC CATTTCTAAT
    GTAACTTTAG AGGACCAAGG CATTTACTGC TGTTCCGCTC ATACTGCTCT AGACAGTGCT
    GCCGATATAA CTCAAGTAAC TGTTCTTGAT GTTCCGGATC CACCAGAAAA CCTTCACTTG
    TCTGAAAGAC AGAACAGGAG TGTTCGGCTG ACCTGGGAAG CTGGAGCTGA CCACAACAGC
    AATATTAGCG AGTATATTGT TGAATTTGAA GGAAACAAAG AAGAGCCTGG AAGGTGGGAG
    GAACTGACCA GAGTCCAAGG AAAGAAAACC ACAGTTATCT TACCTTTGGC TCCATTTGTG
    AGATACCAGT TCAGGGTCAT AGCCGTGAAC GAAGTAGGGA GAAGTCAGCC TAGCCAGCCG
    TCAGACCGTC ATGAAACACC ACCAGCAGCT CCAGATAGGA ATCCACAAAA CATAAGGGTT
    CAAGCCTCTC AACCCAAGGA AATGATTATA AAGTGGGAGC CTTTGAAATC CATGGAGCAG
    AATGGACCAG GCCTAGAGTA CAGAGTGACC TGGAAGCCAC AGGGAGCCCC AGTGGAGTGG
    GAAGAAGAAA CAGTCACAAA CCACACATTG CGGGTGATGA CGCCTGCTGT CTATGCCCCT
    TATGATGTCA AGGTCCAGGC TATCAATCAA CTAGGATCTG GGCCTGACCC TCAGTCAGTG
    ACTCTCTATT CTGGAGAAGA CTATCCTGAT ACAGCTCCAG TGATCCATGG GGTGGACGTT
    ATAAACAGTA CATTAGTTAA AGTTACCTGG TCAACAATTC CAAAGGACAG AGTACATGGA
    CGTCTGAAAG GCTATCAGAT AAATTGGTGG AAAACAAAAA GTCTGTTGGA TGGAAGAACA
    CATCCCAAAG AAGTGAACAT TCTAAGATTT TCAGGACAAA GAAACTCTGG AATGGTTCCT
    TCCTTAGATG CCTTTAGTGA ATTTCATTTA ACAGTCTTAG CCTATAACTC TAAAGGAGCT
    GGTCCTGAAA GTGAGCCTTA TATATTTCAA ACACCAGAAG GAGTACCTGA ACAGCCAACT
    TTTCTCAAGG TCATCAAAGT TGATAAAGAC ACTGCCACTT TATCTTGGGG AGTACCTAAG
    AAATTAAATG GAAACTTAAC TGGCTATCTT TTGCAATATC AGATAATAAA TGACACCTAC
    GAGATTGGAG AATTAAATGA TATTAACATT ACAACTCCAT CAAAGCCCAG CTGGCACCTC
    TCAAACCTCA ATGCAACTAC CAAGTACAAA TTCTACTTGA GGGCTTGCAC TTCACAGGGC
    TGTGGAAAAC CGATCACAGA GGAAAGCTCC ACCTTAGGAG AAGGGAGTAA AGGTATCGGG
    AAGATATCAG AAGGAGTAAA TCTTACTCAA AAGACTCACC CAATAGAGGT ATTTGAGCCG
    GGAGCTGAAC ATATAGTTCG CCTAATGACT AAGAATTGGG GTGATAACGA TAGCATTTTT
    CAAGATGTAA TTGAGACAAG AGGGAGAGAA TATGCTGGTT TATACGATGA CATCTCCACT
    CAAGGCTGGT TTATTGGACT GATGTGTGCG ATTGCTCTTC TCACACTACT ATTATTAACT
    GTTTGCTTTG TGAAGAGGAA TAGGGGTGGA AAGTACTCAG TTAAAGAAAA GGAAGATTTG
    CATCCAGACC CAGAAATTCA GTCAGTAAAA GATGAAACCT TTGGTGAATA CAGTGACAGT
    GATGAAAAGC CTCTCAAAGG AAGCCTTCGG TCCCTTAATA GGGATATGCA GCCTACTGAA
    AGTGCTGACA GCTTAGTCGA ATACGGAGAG GGAGACCACG GTCTATTCAG TGAAGATGGA
    TCATTTATTG GTGCCTACGC TGGATCTAAG GAGAAGGGAT CTGTTGAAAG CAATGGAAGT
    TCTACAGCAA CTTTTCCCCT TCGGGCATAA

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

    RefSeq XP_016795799.1
    CDS493..4122
    Translation

    Target ORF information:

    RefSeq Version XM_016940310.2
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_016940310.2

    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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTC AAATTCCATC AAGCAAAGAA AACCCAAACT GCTGTTGCCT
    CCCACTGAGA GTGGCAGTGA GTCTTCAATT ACCATCCTCA AAGGGGAAAT CTTGCTGCTT
    GAGTGTTTTG CTGAAGGCTT GCCAACTCCA CAGGTTGATT GGAACAAAAT TGGTGGTGAC
    TTACCAAAGG GGAGAGAAAC AAAAGAAAAT TATGGCAAGA CTTTGAAGAT AGAGAATGTC
    TCCTACCAGG ACAAAGGAAA TTATCGCTGC ACAGCCAGCA ATTTCTTGGG AACAGCCACT
    CACGATTTTC ATGTTATAGT AGAAGAGCCT CCTCGCTGGA CAAAGAAGCC TCAGAGTGCT
    GTGTATAGCA CCGGAAGCAA TGGCATCTTG TTATGTGAGG CTGAAGGAGA ACCTCAACCC
    ACAATCAAGT GGAGAGTCAA TGGCTCCCCA GTTGACAATC ATCCATTTGC TGGTGATGTT
    GTCTTCCCCA GGGAAATCAG TTTTACCAAC CTTCAACCAA ATCATACTGC TGTGTACCAG
    TGTGAAGCCT CAAATGTCCA TGGAACTATC CTTGCCAATG CCAATATTGA TGTTGTGGAT
    GTCCGTCCAT TGATACAAAC CAAAGATGGA GAAAATTACG CTACAGTGGT TGGGTACAGT
    GCTTTCTTAC ATTGCGAGTT CTTTGCTTCA CCTGAGGCAG TCGTGTCCTG GCAGAAGGTG
    GAAGAAGTGA AACCCCTGGA GGGCAGGCGG TATCATATCT ATGAAAATGG CACATTGCAG
    ATCAACAGAA CCACCGAAGA AGATGCTGGG TCTTACTCAT GTTGGGTAGA AAATGCTATA
    GGAAAAACTG CAGTCACAGC CAATTTGGAT ATTAGAAATG CTACAAAACT TAGAGTTTCT
    CCTAAGAATC CTCGTATCCC CAAATTGCAT ATGCTTGAAT TACATTGTGA GAGCAAATGT
    GACTCACATT TGAAACACAG TTTGAAGTTG TCCTGGAGTA AAGATGGAGA AGCCTTTGAA
    ATTAATGGCA CAGAAGATGG CAGGATAATT ATTGATGGAG CTAATTTGAC CATTTCTAAT
    GTAACTTTAG AGGACCAAGG CATTTACTGC TGTTCCGCTC ATACTGCTCT AGACAGTGCT
    GCCGATATAA CTCAAGTAAC TGTTCTTGAT GTTCCGGATC CACCAGAAAA CCTTCACTTG
    TCTGAAAGAC AGAACAGGAG TGTTCGGCTG ACCTGGGAAG CTGGAGCTGA CCACAACAGC
    AATATTAGCG AGTATATTGT TGAATTTGAA GGAAACAAAG AAGAGCCTGG AAGGTGGGAG
    GAACTGACCA GAGTCCAAGG AAAGAAAACC ACAGTTATCT TACCTTTGGC TCCATTTGTG
    AGATACCAGT TCAGGGTCAT AGCCGTGAAC GAAGTAGGGA GAAGTCAGCC TAGCCAGCCG
    TCAGACCGTC ATGAAACACC ACCAGCAGCT CCAGATAGGA ATCCACAAAA CATAAGGGTT
    CAAGCCTCTC AACCCAAGGA AATGATTATA AAGTGGGAGC CTTTGAAATC CATGGAGCAG
    AATGGACCAG GCCTAGAGTA CAGAGTGACC TGGAAGCCAC AGGGAGCCCC AGTGGAGTGG
    GAAGAAGAAA CAGTCACAAA CCACACATTG CGGGTGATGA CGCCTGCTGT CTATGCCCCT
    TATGATGTCA AGGTCCAGGC TATCAATCAA CTAGGATCTG GGCCTGACCC TCAGTCAGTG
    ACTCTCTATT CTGGAGAAGA CTATCCTGAT ACAGCTCCAG TGATCCATGG GGTGGACGTT
    ATAAACAGTA CATTAGTTAA AGTTACCTGG TCAACAATTC CAAAGGACAG AGTACATGGA
    CGTCTGAAAG GCTATCAGAT AAATTGGTGG AAAACAAAAA GTCTGTTGGA TGGAAGAACA
    CATCCCAAAG AAGTGAACAT TCTAAGATTT TCAGGACAAA GAAACTCTGG AATGGTTCCT
    TCCTTAGATG CCTTTAGTGA ATTTCATTTA ACAGTCTTAG CCTATAACTC TAAAGGAGCT
    GGTCCTGAAA GTGAGCCTTA TATATTTCAA ACACCAGAAG GAGTACCTGA ACAGCCAACT
    TTTCTCAAGG TCATCAAAGT TGATAAAGAC ACTGCCACTT TATCTTGGGG AGTACCTAAG
    AAATTAAATG GAAACTTAAC TGGCTATCTT TTGCAATATC AGATAATAAA TGACACCTAC
    GAGATTGGAG AATTAAATGA TATTAACATT ACAACTCCAT CAAAGCCCAG CTGGCACCTC
    TCAAACCTCA ATGCAACTAC CAAGTACAAA TTCTACTTGA GGGCTTGCAC TTCACAGGGC
    TGTGGAAAAC CGATCACAGA GGAAAGCTCC ACCTTAGGAG AAGGGAGTAA AGGTATCGGG
    AAGATATCAG AAGGAGTAAA TCTTACTCAA AAGACTCACC CAATAGAGGT ATTTGAGCCG
    GGAGCTGAAC ATATAGTTCG CCTAATGACT AAGAATTGGG GTGATAACGA TAGCATTTTT
    CAAGATGTAA TTGAGACAAG AGGGAGAGAA TATGCTGGTT TATACGATGA CATCTCCACT
    CAAGGCTGGT TTATTGGACT GATGTGTGCG ATTGCTCTTC TCACACTACT ATTATTAACT
    GTTTGCTTTG TGAAGAGGAA TAGGGGTGGA AAGTACTCAG TTAAAGAAAA GGAAGATTTG
    CATCCAGACC CAGAAATTCA GTCAGTAAAA GATGAAACCT TTGGTGAATA CAGTGACAGT
    GATGAAAAGC CTCTCAAAGG AAGCCTTCGG TCCCTTAATA GGGATATGCA GCCTACTGAA
    AGTGCTGACA GCTTAGTCGA ATACGGAGAG GGAGACCACG GTCTATTCAG TGAAGATGGA
    TCATTTATTG GTGCCTACGC TGGATCTAAG GAGAAGGGAT CTGTTGAAAG CAATGGAAGT
    TCTACAGCAA CTTTTCCCCT TCGGGCATAA

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

    CloneID OPc06190
    Clone ID Related Accession (Same CDS sequence) XM_001136570.3 , XM_016940310.2 , XM_009444755.3 , XM_001136570.4 , XM_016940310.1 , XM_009444755.2
    Accession Version XM_009444755.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3630bp)
    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 neural cell adhesion molecule L1-like protein isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036882.1) 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_009444755.2. ##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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTC AAATTCCATC AAGCAAAGAA AACCCAAACT GCTGTTGCCT
    CCCACTGAGA GTGGCAGTGA GTCTTCAATT ACCATCCTCA AAGGGGAAAT CTTGCTGCTT
    GAGTGTTTTG CTGAAGGCTT GCCAACTCCA CAGGTTGATT GGAACAAAAT TGGTGGTGAC
    TTACCAAAGG GGAGAGAAAC AAAAGAAAAT TATGGCAAGA CTTTGAAGAT AGAGAATGTC
    TCCTACCAGG ACAAAGGAAA TTATCGCTGC ACAGCCAGCA ATTTCTTGGG AACAGCCACT
    CACGATTTTC ATGTTATAGT AGAAGAGCCT CCTCGCTGGA CAAAGAAGCC TCAGAGTGCT
    GTGTATAGCA CCGGAAGCAA TGGCATCTTG TTATGTGAGG CTGAAGGAGA ACCTCAACCC
    ACAATCAAGT GGAGAGTCAA TGGCTCCCCA GTTGACAATC ATCCATTTGC TGGTGATGTT
    GTCTTCCCCA GGGAAATCAG TTTTACCAAC CTTCAACCAA ATCATACTGC TGTGTACCAG
    TGTGAAGCCT CAAATGTCCA TGGAACTATC CTTGCCAATG CCAATATTGA TGTTGTGGAT
    GTCCGTCCAT TGATACAAAC CAAAGATGGA GAAAATTACG CTACAGTGGT TGGGTACAGT
    GCTTTCTTAC ATTGCGAGTT CTTTGCTTCA CCTGAGGCAG TCGTGTCCTG GCAGAAGGTG
    GAAGAAGTGA AACCCCTGGA GGGCAGGCGG TATCATATCT ATGAAAATGG CACATTGCAG
    ATCAACAGAA CCACCGAAGA AGATGCTGGG TCTTACTCAT GTTGGGTAGA AAATGCTATA
    GGAAAAACTG CAGTCACAGC CAATTTGGAT ATTAGAAATG CTACAAAACT TAGAGTTTCT
    CCTAAGAATC CTCGTATCCC CAAATTGCAT ATGCTTGAAT TACATTGTGA GAGCAAATGT
    GACTCACATT TGAAACACAG TTTGAAGTTG TCCTGGAGTA AAGATGGAGA AGCCTTTGAA
    ATTAATGGCA CAGAAGATGG CAGGATAATT ATTGATGGAG CTAATTTGAC CATTTCTAAT
    GTAACTTTAG AGGACCAAGG CATTTACTGC TGTTCCGCTC ATACTGCTCT AGACAGTGCT
    GCCGATATAA CTCAAGTAAC TGTTCTTGAT GTTCCGGATC CACCAGAAAA CCTTCACTTG
    TCTGAAAGAC AGAACAGGAG TGTTCGGCTG ACCTGGGAAG CTGGAGCTGA CCACAACAGC
    AATATTAGCG AGTATATTGT TGAATTTGAA GGAAACAAAG AAGAGCCTGG AAGGTGGGAG
    GAACTGACCA GAGTCCAAGG AAAGAAAACC ACAGTTATCT TACCTTTGGC TCCATTTGTG
    AGATACCAGT TCAGGGTCAT AGCCGTGAAC GAAGTAGGGA GAAGTCAGCC TAGCCAGCCG
    TCAGACCGTC ATGAAACACC ACCAGCAGCT CCAGATAGGA ATCCACAAAA CATAAGGGTT
    CAAGCCTCTC AACCCAAGGA AATGATTATA AAGTGGGAGC CTTTGAAATC CATGGAGCAG
    AATGGACCAG GCCTAGAGTA CAGAGTGACC TGGAAGCCAC AGGGAGCCCC AGTGGAGTGG
    GAAGAAGAAA CAGTCACAAA CCACACATTG CGGGTGATGA CGCCTGCTGT CTATGCCCCT
    TATGATGTCA AGGTCCAGGC TATCAATCAA CTAGGATCTG GGCCTGACCC TCAGTCAGTG
    ACTCTCTATT CTGGAGAAGA CTATCCTGAT ACAGCTCCAG TGATCCATGG GGTGGACGTT
    ATAAACAGTA CATTAGTTAA AGTTACCTGG TCAACAATTC CAAAGGACAG AGTACATGGA
    CGTCTGAAAG GCTATCAGAT AAATTGGTGG AAAACAAAAA GTCTGTTGGA TGGAAGAACA
    CATCCCAAAG AAGTGAACAT TCTAAGATTT TCAGGACAAA GAAACTCTGG AATGGTTCCT
    TCCTTAGATG CCTTTAGTGA ATTTCATTTA ACAGTCTTAG CCTATAACTC TAAAGGAGCT
    GGTCCTGAAA GTGAGCCTTA TATATTTCAA ACACCAGAAG GAGTACCTGA ACAGCCAACT
    TTTCTCAAGG TCATCAAAGT TGATAAAGAC ACTGCCACTT TATCTTGGGG AGTACCTAAG
    AAATTAAATG GAAACTTAAC TGGCTATCTT TTGCAATATC AGATAATAAA TGACACCTAC
    GAGATTGGAG AATTAAATGA TATTAACATT ACAACTCCAT CAAAGCCCAG CTGGCACCTC
    TCAAACCTCA ATGCAACTAC CAAGTACAAA TTCTACTTGA GGGCTTGCAC TTCACAGGGC
    TGTGGAAAAC CGATCACAGA GGAAAGCTCC ACCTTAGGAG AAGGGAGTAA AGGTATCGGG
    AAGATATCAG AAGGAGTAAA TCTTACTCAA AAGACTCACC CAATAGAGGT ATTTGAGCCG
    GGAGCTGAAC ATATAGTTCG CCTAATGACT AAGAATTGGG GTGATAACGA TAGCATTTTT
    CAAGATGTAA TTGAGACAAG AGGGAGAGAA TATGCTGGTT TATACGATGA CATCTCCACT
    CAAGGCTGGT TTATTGGACT GATGTGTGCG ATTGCTCTTC TCACACTACT ATTATTAACT
    GTTTGCTTTG TGAAGAGGAA TAGGGGTGGA AAGTACTCAG TTAAAGAAAA GGAAGATTTG
    CATCCAGACC CAGAAATTCA GTCAGTAAAA GATGAAACCT TTGGTGAATA CAGTGACAGT
    GATGAAAAGC CTCTCAAAGG AAGCCTTCGG TCCCTTAATA GGGATATGCA GCCTACTGAA
    AGTGCTGACA GCTTAGTCGA ATACGGAGAG GGAGACCACG GTCTATTCAG TGAAGATGGA
    TCATTTATTG GTGCCTACGC TGGATCTAAG GAGAAGGGAT CTGTTGAAAG CAATGGAAGT
    TCTACAGCAA CTTTTCCCCT TCGGGCATAA

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

    RefSeq XP_009443030.1
    CDS631..4260
    Translation

    Target ORF information:

    RefSeq Version XM_009444755.3
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009444755.3

    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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTC AAATTCCATC AAGCAAAGAA AACCCAAACT GCTGTTGCCT
    CCCACTGAGA GTGGCAGTGA GTCTTCAATT ACCATCCTCA AAGGGGAAAT CTTGCTGCTT
    GAGTGTTTTG CTGAAGGCTT GCCAACTCCA CAGGTTGATT GGAACAAAAT TGGTGGTGAC
    TTACCAAAGG GGAGAGAAAC AAAAGAAAAT TATGGCAAGA CTTTGAAGAT AGAGAATGTC
    TCCTACCAGG ACAAAGGAAA TTATCGCTGC ACAGCCAGCA ATTTCTTGGG AACAGCCACT
    CACGATTTTC ATGTTATAGT AGAAGAGCCT CCTCGCTGGA CAAAGAAGCC TCAGAGTGCT
    GTGTATAGCA CCGGAAGCAA TGGCATCTTG TTATGTGAGG CTGAAGGAGA ACCTCAACCC
    ACAATCAAGT GGAGAGTCAA TGGCTCCCCA GTTGACAATC ATCCATTTGC TGGTGATGTT
    GTCTTCCCCA GGGAAATCAG TTTTACCAAC CTTCAACCAA ATCATACTGC TGTGTACCAG
    TGTGAAGCCT CAAATGTCCA TGGAACTATC CTTGCCAATG CCAATATTGA TGTTGTGGAT
    GTCCGTCCAT TGATACAAAC CAAAGATGGA GAAAATTACG CTACAGTGGT TGGGTACAGT
    GCTTTCTTAC ATTGCGAGTT CTTTGCTTCA CCTGAGGCAG TCGTGTCCTG GCAGAAGGTG
    GAAGAAGTGA AACCCCTGGA GGGCAGGCGG TATCATATCT ATGAAAATGG CACATTGCAG
    ATCAACAGAA CCACCGAAGA AGATGCTGGG TCTTACTCAT GTTGGGTAGA AAATGCTATA
    GGAAAAACTG CAGTCACAGC CAATTTGGAT ATTAGAAATG CTACAAAACT TAGAGTTTCT
    CCTAAGAATC CTCGTATCCC CAAATTGCAT ATGCTTGAAT TACATTGTGA GAGCAAATGT
    GACTCACATT TGAAACACAG TTTGAAGTTG TCCTGGAGTA AAGATGGAGA AGCCTTTGAA
    ATTAATGGCA CAGAAGATGG CAGGATAATT ATTGATGGAG CTAATTTGAC CATTTCTAAT
    GTAACTTTAG AGGACCAAGG CATTTACTGC TGTTCCGCTC ATACTGCTCT AGACAGTGCT
    GCCGATATAA CTCAAGTAAC TGTTCTTGAT GTTCCGGATC CACCAGAAAA CCTTCACTTG
    TCTGAAAGAC AGAACAGGAG TGTTCGGCTG ACCTGGGAAG CTGGAGCTGA CCACAACAGC
    AATATTAGCG AGTATATTGT TGAATTTGAA GGAAACAAAG AAGAGCCTGG AAGGTGGGAG
    GAACTGACCA GAGTCCAAGG AAAGAAAACC ACAGTTATCT TACCTTTGGC TCCATTTGTG
    AGATACCAGT TCAGGGTCAT AGCCGTGAAC GAAGTAGGGA GAAGTCAGCC TAGCCAGCCG
    TCAGACCGTC ATGAAACACC ACCAGCAGCT CCAGATAGGA ATCCACAAAA CATAAGGGTT
    CAAGCCTCTC AACCCAAGGA AATGATTATA AAGTGGGAGC CTTTGAAATC CATGGAGCAG
    AATGGACCAG GCCTAGAGTA CAGAGTGACC TGGAAGCCAC AGGGAGCCCC AGTGGAGTGG
    GAAGAAGAAA CAGTCACAAA CCACACATTG CGGGTGATGA CGCCTGCTGT CTATGCCCCT
    TATGATGTCA AGGTCCAGGC TATCAATCAA CTAGGATCTG GGCCTGACCC TCAGTCAGTG
    ACTCTCTATT CTGGAGAAGA CTATCCTGAT ACAGCTCCAG TGATCCATGG GGTGGACGTT
    ATAAACAGTA CATTAGTTAA AGTTACCTGG TCAACAATTC CAAAGGACAG AGTACATGGA
    CGTCTGAAAG GCTATCAGAT AAATTGGTGG AAAACAAAAA GTCTGTTGGA TGGAAGAACA
    CATCCCAAAG AAGTGAACAT TCTAAGATTT TCAGGACAAA GAAACTCTGG AATGGTTCCT
    TCCTTAGATG CCTTTAGTGA ATTTCATTTA ACAGTCTTAG CCTATAACTC TAAAGGAGCT
    GGTCCTGAAA GTGAGCCTTA TATATTTCAA ACACCAGAAG GAGTACCTGA ACAGCCAACT
    TTTCTCAAGG TCATCAAAGT TGATAAAGAC ACTGCCACTT TATCTTGGGG AGTACCTAAG
    AAATTAAATG GAAACTTAAC TGGCTATCTT TTGCAATATC AGATAATAAA TGACACCTAC
    GAGATTGGAG AATTAAATGA TATTAACATT ACAACTCCAT CAAAGCCCAG CTGGCACCTC
    TCAAACCTCA ATGCAACTAC CAAGTACAAA TTCTACTTGA GGGCTTGCAC TTCACAGGGC
    TGTGGAAAAC CGATCACAGA GGAAAGCTCC ACCTTAGGAG AAGGGAGTAA AGGTATCGGG
    AAGATATCAG AAGGAGTAAA TCTTACTCAA AAGACTCACC CAATAGAGGT ATTTGAGCCG
    GGAGCTGAAC ATATAGTTCG CCTAATGACT AAGAATTGGG GTGATAACGA TAGCATTTTT
    CAAGATGTAA TTGAGACAAG AGGGAGAGAA TATGCTGGTT TATACGATGA CATCTCCACT
    CAAGGCTGGT TTATTGGACT GATGTGTGCG ATTGCTCTTC TCACACTACT ATTATTAACT
    GTTTGCTTTG TGAAGAGGAA TAGGGGTGGA AAGTACTCAG TTAAAGAAAA GGAAGATTTG
    CATCCAGACC CAGAAATTCA GTCAGTAAAA GATGAAACCT TTGGTGAATA CAGTGACAGT
    GATGAAAAGC CTCTCAAAGG AAGCCTTCGG TCCCTTAATA GGGATATGCA GCCTACTGAA
    AGTGCTGACA GCTTAGTCGA ATACGGAGAG GGAGACCACG GTCTATTCAG TGAAGATGGA
    TCATTTATTG GTGCCTACGC TGGATCTAAG GAGAAGGGAT CTGTTGAAAG CAATGGAAGT
    TCTACAGCAA CTTTTCCCCT TCGGGCATAA

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

    CloneID OPc06190
    Clone ID Related Accession (Same CDS sequence) XM_001136570.3 , XM_016940310.2 , XM_009444755.3 , XM_001136570.4 , XM_016940310.1 , XM_009444755.2
    Accession Version XM_001136570.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3630bp)
    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 neural cell adhesion molecule L1-like protein isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036882.1) 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_001136570.3. ##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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTC AAATTCCATC AAGCAAAGAA AACCCAAACT GCTGTTGCCT
    CCCACTGAGA GTGGCAGTGA GTCTTCAATT ACCATCCTCA AAGGGGAAAT CTTGCTGCTT
    GAGTGTTTTG CTGAAGGCTT GCCAACTCCA CAGGTTGATT GGAACAAAAT TGGTGGTGAC
    TTACCAAAGG GGAGAGAAAC AAAAGAAAAT TATGGCAAGA CTTTGAAGAT AGAGAATGTC
    TCCTACCAGG ACAAAGGAAA TTATCGCTGC ACAGCCAGCA ATTTCTTGGG AACAGCCACT
    CACGATTTTC ATGTTATAGT AGAAGAGCCT CCTCGCTGGA CAAAGAAGCC TCAGAGTGCT
    GTGTATAGCA CCGGAAGCAA TGGCATCTTG TTATGTGAGG CTGAAGGAGA ACCTCAACCC
    ACAATCAAGT GGAGAGTCAA TGGCTCCCCA GTTGACAATC ATCCATTTGC TGGTGATGTT
    GTCTTCCCCA GGGAAATCAG TTTTACCAAC CTTCAACCAA ATCATACTGC TGTGTACCAG
    TGTGAAGCCT CAAATGTCCA TGGAACTATC CTTGCCAATG CCAATATTGA TGTTGTGGAT
    GTCCGTCCAT TGATACAAAC CAAAGATGGA GAAAATTACG CTACAGTGGT TGGGTACAGT
    GCTTTCTTAC ATTGCGAGTT CTTTGCTTCA CCTGAGGCAG TCGTGTCCTG GCAGAAGGTG
    GAAGAAGTGA AACCCCTGGA GGGCAGGCGG TATCATATCT ATGAAAATGG CACATTGCAG
    ATCAACAGAA CCACCGAAGA AGATGCTGGG TCTTACTCAT GTTGGGTAGA AAATGCTATA
    GGAAAAACTG CAGTCACAGC CAATTTGGAT ATTAGAAATG CTACAAAACT TAGAGTTTCT
    CCTAAGAATC CTCGTATCCC CAAATTGCAT ATGCTTGAAT TACATTGTGA GAGCAAATGT
    GACTCACATT TGAAACACAG TTTGAAGTTG TCCTGGAGTA AAGATGGAGA AGCCTTTGAA
    ATTAATGGCA CAGAAGATGG CAGGATAATT ATTGATGGAG CTAATTTGAC CATTTCTAAT
    GTAACTTTAG AGGACCAAGG CATTTACTGC TGTTCCGCTC ATACTGCTCT AGACAGTGCT
    GCCGATATAA CTCAAGTAAC TGTTCTTGAT GTTCCGGATC CACCAGAAAA CCTTCACTTG
    TCTGAAAGAC AGAACAGGAG TGTTCGGCTG ACCTGGGAAG CTGGAGCTGA CCACAACAGC
    AATATTAGCG AGTATATTGT TGAATTTGAA GGAAACAAAG AAGAGCCTGG AAGGTGGGAG
    GAACTGACCA GAGTCCAAGG AAAGAAAACC ACAGTTATCT TACCTTTGGC TCCATTTGTG
    AGATACCAGT TCAGGGTCAT AGCCGTGAAC GAAGTAGGGA GAAGTCAGCC TAGCCAGCCG
    TCAGACCGTC ATGAAACACC ACCAGCAGCT CCAGATAGGA ATCCACAAAA CATAAGGGTT
    CAAGCCTCTC AACCCAAGGA AATGATTATA AAGTGGGAGC CTTTGAAATC CATGGAGCAG
    AATGGACCAG GCCTAGAGTA CAGAGTGACC TGGAAGCCAC AGGGAGCCCC AGTGGAGTGG
    GAAGAAGAAA CAGTCACAAA CCACACATTG CGGGTGATGA CGCCTGCTGT CTATGCCCCT
    TATGATGTCA AGGTCCAGGC TATCAATCAA CTAGGATCTG GGCCTGACCC TCAGTCAGTG
    ACTCTCTATT CTGGAGAAGA CTATCCTGAT ACAGCTCCAG TGATCCATGG GGTGGACGTT
    ATAAACAGTA CATTAGTTAA AGTTACCTGG TCAACAATTC CAAAGGACAG AGTACATGGA
    CGTCTGAAAG GCTATCAGAT AAATTGGTGG AAAACAAAAA GTCTGTTGGA TGGAAGAACA
    CATCCCAAAG AAGTGAACAT TCTAAGATTT TCAGGACAAA GAAACTCTGG AATGGTTCCT
    TCCTTAGATG CCTTTAGTGA ATTTCATTTA ACAGTCTTAG CCTATAACTC TAAAGGAGCT
    GGTCCTGAAA GTGAGCCTTA TATATTTCAA ACACCAGAAG GAGTACCTGA ACAGCCAACT
    TTTCTCAAGG TCATCAAAGT TGATAAAGAC ACTGCCACTT TATCTTGGGG AGTACCTAAG
    AAATTAAATG GAAACTTAAC TGGCTATCTT TTGCAATATC AGATAATAAA TGACACCTAC
    GAGATTGGAG AATTAAATGA TATTAACATT ACAACTCCAT CAAAGCCCAG CTGGCACCTC
    TCAAACCTCA ATGCAACTAC CAAGTACAAA TTCTACTTGA GGGCTTGCAC TTCACAGGGC
    TGTGGAAAAC CGATCACAGA GGAAAGCTCC ACCTTAGGAG AAGGGAGTAA AGGTATCGGG
    AAGATATCAG AAGGAGTAAA TCTTACTCAA AAGACTCACC CAATAGAGGT ATTTGAGCCG
    GGAGCTGAAC ATATAGTTCG CCTAATGACT AAGAATTGGG GTGATAACGA TAGCATTTTT
    CAAGATGTAA TTGAGACAAG AGGGAGAGAA TATGCTGGTT TATACGATGA CATCTCCACT
    CAAGGCTGGT TTATTGGACT GATGTGTGCG ATTGCTCTTC TCACACTACT ATTATTAACT
    GTTTGCTTTG TGAAGAGGAA TAGGGGTGGA AAGTACTCAG TTAAAGAAAA GGAAGATTTG
    CATCCAGACC CAGAAATTCA GTCAGTAAAA GATGAAACCT TTGGTGAATA CAGTGACAGT
    GATGAAAAGC CTCTCAAAGG AAGCCTTCGG TCCCTTAATA GGGATATGCA GCCTACTGAA
    AGTGCTGACA GCTTAGTCGA ATACGGAGAG GGAGACCACG GTCTATTCAG TGAAGATGGA
    TCATTTATTG GTGCCTACGC TGGATCTAAG GAGAAGGGAT CTGTTGAAAG CAATGGAAGT
    TCTACAGCAA CTTTTCCCCT TCGGGCATAA

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

    RefSeq XP_001136570.1
    CDS644..4273
    Translation

    Target ORF information:

    RefSeq Version XM_001136570.4
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_001136570.4

    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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTC AAATTCCATC AAGCAAAGAA AACCCAAACT GCTGTTGCCT
    CCCACTGAGA GTGGCAGTGA GTCTTCAATT ACCATCCTCA AAGGGGAAAT CTTGCTGCTT
    GAGTGTTTTG CTGAAGGCTT GCCAACTCCA CAGGTTGATT GGAACAAAAT TGGTGGTGAC
    TTACCAAAGG GGAGAGAAAC AAAAGAAAAT TATGGCAAGA CTTTGAAGAT AGAGAATGTC
    TCCTACCAGG ACAAAGGAAA TTATCGCTGC ACAGCCAGCA ATTTCTTGGG AACAGCCACT
    CACGATTTTC ATGTTATAGT AGAAGAGCCT CCTCGCTGGA CAAAGAAGCC TCAGAGTGCT
    GTGTATAGCA CCGGAAGCAA TGGCATCTTG TTATGTGAGG CTGAAGGAGA ACCTCAACCC
    ACAATCAAGT GGAGAGTCAA TGGCTCCCCA GTTGACAATC ATCCATTTGC TGGTGATGTT
    GTCTTCCCCA GGGAAATCAG TTTTACCAAC CTTCAACCAA ATCATACTGC TGTGTACCAG
    TGTGAAGCCT CAAATGTCCA TGGAACTATC CTTGCCAATG CCAATATTGA TGTTGTGGAT
    GTCCGTCCAT TGATACAAAC CAAAGATGGA GAAAATTACG CTACAGTGGT TGGGTACAGT
    GCTTTCTTAC ATTGCGAGTT CTTTGCTTCA CCTGAGGCAG TCGTGTCCTG GCAGAAGGTG
    GAAGAAGTGA AACCCCTGGA GGGCAGGCGG TATCATATCT ATGAAAATGG CACATTGCAG
    ATCAACAGAA CCACCGAAGA AGATGCTGGG TCTTACTCAT GTTGGGTAGA AAATGCTATA
    GGAAAAACTG CAGTCACAGC CAATTTGGAT ATTAGAAATG CTACAAAACT TAGAGTTTCT
    CCTAAGAATC CTCGTATCCC CAAATTGCAT ATGCTTGAAT TACATTGTGA GAGCAAATGT
    GACTCACATT TGAAACACAG TTTGAAGTTG TCCTGGAGTA AAGATGGAGA AGCCTTTGAA
    ATTAATGGCA CAGAAGATGG CAGGATAATT ATTGATGGAG CTAATTTGAC CATTTCTAAT
    GTAACTTTAG AGGACCAAGG CATTTACTGC TGTTCCGCTC ATACTGCTCT AGACAGTGCT
    GCCGATATAA CTCAAGTAAC TGTTCTTGAT GTTCCGGATC CACCAGAAAA CCTTCACTTG
    TCTGAAAGAC AGAACAGGAG TGTTCGGCTG ACCTGGGAAG CTGGAGCTGA CCACAACAGC
    AATATTAGCG AGTATATTGT TGAATTTGAA GGAAACAAAG AAGAGCCTGG AAGGTGGGAG
    GAACTGACCA GAGTCCAAGG AAAGAAAACC ACAGTTATCT TACCTTTGGC TCCATTTGTG
    AGATACCAGT TCAGGGTCAT AGCCGTGAAC GAAGTAGGGA GAAGTCAGCC TAGCCAGCCG
    TCAGACCGTC ATGAAACACC ACCAGCAGCT CCAGATAGGA ATCCACAAAA CATAAGGGTT
    CAAGCCTCTC AACCCAAGGA AATGATTATA AAGTGGGAGC CTTTGAAATC CATGGAGCAG
    AATGGACCAG GCCTAGAGTA CAGAGTGACC TGGAAGCCAC AGGGAGCCCC AGTGGAGTGG
    GAAGAAGAAA CAGTCACAAA CCACACATTG CGGGTGATGA CGCCTGCTGT CTATGCCCCT
    TATGATGTCA AGGTCCAGGC TATCAATCAA CTAGGATCTG GGCCTGACCC TCAGTCAGTG
    ACTCTCTATT CTGGAGAAGA CTATCCTGAT ACAGCTCCAG TGATCCATGG GGTGGACGTT
    ATAAACAGTA CATTAGTTAA AGTTACCTGG TCAACAATTC CAAAGGACAG AGTACATGGA
    CGTCTGAAAG GCTATCAGAT AAATTGGTGG AAAACAAAAA GTCTGTTGGA TGGAAGAACA
    CATCCCAAAG AAGTGAACAT TCTAAGATTT TCAGGACAAA GAAACTCTGG AATGGTTCCT
    TCCTTAGATG CCTTTAGTGA ATTTCATTTA ACAGTCTTAG CCTATAACTC TAAAGGAGCT
    GGTCCTGAAA GTGAGCCTTA TATATTTCAA ACACCAGAAG GAGTACCTGA ACAGCCAACT
    TTTCTCAAGG TCATCAAAGT TGATAAAGAC ACTGCCACTT TATCTTGGGG AGTACCTAAG
    AAATTAAATG GAAACTTAAC TGGCTATCTT TTGCAATATC AGATAATAAA TGACACCTAC
    GAGATTGGAG AATTAAATGA TATTAACATT ACAACTCCAT CAAAGCCCAG CTGGCACCTC
    TCAAACCTCA ATGCAACTAC CAAGTACAAA TTCTACTTGA GGGCTTGCAC TTCACAGGGC
    TGTGGAAAAC CGATCACAGA GGAAAGCTCC ACCTTAGGAG AAGGGAGTAA AGGTATCGGG
    AAGATATCAG AAGGAGTAAA TCTTACTCAA AAGACTCACC CAATAGAGGT ATTTGAGCCG
    GGAGCTGAAC ATATAGTTCG CCTAATGACT AAGAATTGGG GTGATAACGA TAGCATTTTT
    CAAGATGTAA TTGAGACAAG AGGGAGAGAA TATGCTGGTT TATACGATGA CATCTCCACT
    CAAGGCTGGT TTATTGGACT GATGTGTGCG ATTGCTCTTC TCACACTACT ATTATTAACT
    GTTTGCTTTG TGAAGAGGAA TAGGGGTGGA AAGTACTCAG TTAAAGAAAA GGAAGATTTG
    CATCCAGACC CAGAAATTCA GTCAGTAAAA GATGAAACCT TTGGTGAATA CAGTGACAGT
    GATGAAAAGC CTCTCAAAGG AAGCCTTCGG TCCCTTAATA GGGATATGCA GCCTACTGAA
    AGTGCTGACA GCTTAGTCGA ATACGGAGAG GGAGACCACG GTCTATTCAG TGAAGATGGA
    TCATTTATTG GTGCCTACGC TGGATCTAAG GAGAAGGGAT CTGTTGAAAG CAATGGAAGT
    TCTACAGCAA CTTTTCCCCT TCGGGCATAA

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

    CloneID OPc06190
    Clone ID Related Accession (Same CDS sequence) XM_001136570.3 , XM_016940310.2 , XM_009444755.3 , XM_001136570.4 , XM_016940310.1 , XM_009444755.2
    Accession Version XM_016940310.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3630bp)
    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 neural cell adhesion molecule L1-like protein isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_006490.4) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: 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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTC AAATTCCATC AAGCAAAGAA AACCCAAACT GCTGTTGCCT
    CCCACTGAGA GTGGCAGTGA GTCTTCAATT ACCATCCTCA AAGGGGAAAT CTTGCTGCTT
    GAGTGTTTTG CTGAAGGCTT GCCAACTCCA CAGGTTGATT GGAACAAAAT TGGTGGTGAC
    TTACCAAAGG GGAGAGAAAC AAAAGAAAAT TATGGCAAGA CTTTGAAGAT AGAGAATGTC
    TCCTACCAGG ACAAAGGAAA TTATCGCTGC ACAGCCAGCA ATTTCTTGGG AACAGCCACT
    CACGATTTTC ATGTTATAGT AGAAGAGCCT CCTCGCTGGA CAAAGAAGCC TCAGAGTGCT
    GTGTATAGCA CCGGAAGCAA TGGCATCTTG TTATGTGAGG CTGAAGGAGA ACCTCAACCC
    ACAATCAAGT GGAGAGTCAA TGGCTCCCCA GTTGACAATC ATCCATTTGC TGGTGATGTT
    GTCTTCCCCA GGGAAATCAG TTTTACCAAC CTTCAACCAA ATCATACTGC TGTGTACCAG
    TGTGAAGCCT CAAATGTCCA TGGAACTATC CTTGCCAATG CCAATATTGA TGTTGTGGAT
    GTCCGTCCAT TGATACAAAC CAAAGATGGA GAAAATTACG CTACAGTGGT TGGGTACAGT
    GCTTTCTTAC ATTGCGAGTT CTTTGCTTCA CCTGAGGCAG TCGTGTCCTG GCAGAAGGTG
    GAAGAAGTGA AACCCCTGGA GGGCAGGCGG TATCATATCT ATGAAAATGG CACATTGCAG
    ATCAACAGAA CCACCGAAGA AGATGCTGGG TCTTACTCAT GTTGGGTAGA AAATGCTATA
    GGAAAAACTG CAGTCACAGC CAATTTGGAT ATTAGAAATG CTACAAAACT TAGAGTTTCT
    CCTAAGAATC CTCGTATCCC CAAATTGCAT ATGCTTGAAT TACATTGTGA GAGCAAATGT
    GACTCACATT TGAAACACAG TTTGAAGTTG TCCTGGAGTA AAGATGGAGA AGCCTTTGAA
    ATTAATGGCA CAGAAGATGG CAGGATAATT ATTGATGGAG CTAATTTGAC CATTTCTAAT
    GTAACTTTAG AGGACCAAGG CATTTACTGC TGTTCCGCTC ATACTGCTCT AGACAGTGCT
    GCCGATATAA CTCAAGTAAC TGTTCTTGAT GTTCCGGATC CACCAGAAAA CCTTCACTTG
    TCTGAAAGAC AGAACAGGAG TGTTCGGCTG ACCTGGGAAG CTGGAGCTGA CCACAACAGC
    AATATTAGCG AGTATATTGT TGAATTTGAA GGAAACAAAG AAGAGCCTGG AAGGTGGGAG
    GAACTGACCA GAGTCCAAGG AAAGAAAACC ACAGTTATCT TACCTTTGGC TCCATTTGTG
    AGATACCAGT TCAGGGTCAT AGCCGTGAAC GAAGTAGGGA GAAGTCAGCC TAGCCAGCCG
    TCAGACCGTC ATGAAACACC ACCAGCAGCT CCAGATAGGA ATCCACAAAA CATAAGGGTT
    CAAGCCTCTC AACCCAAGGA AATGATTATA AAGTGGGAGC CTTTGAAATC CATGGAGCAG
    AATGGACCAG GCCTAGAGTA CAGAGTGACC TGGAAGCCAC AGGGAGCCCC AGTGGAGTGG
    GAAGAAGAAA CAGTCACAAA CCACACATTG CGGGTGATGA CGCCTGCTGT CTATGCCCCT
    TATGATGTCA AGGTCCAGGC TATCAATCAA CTAGGATCTG GGCCTGACCC TCAGTCAGTG
    ACTCTCTATT CTGGAGAAGA CTATCCTGAT ACAGCTCCAG TGATCCATGG GGTGGACGTT
    ATAAACAGTA CATTAGTTAA AGTTACCTGG TCAACAATTC CAAAGGACAG AGTACATGGA
    CGTCTGAAAG GCTATCAGAT AAATTGGTGG AAAACAAAAA GTCTGTTGGA TGGAAGAACA
    CATCCCAAAG AAGTGAACAT TCTAAGATTT TCAGGACAAA GAAACTCTGG AATGGTTCCT
    TCCTTAGATG CCTTTAGTGA ATTTCATTTA ACAGTCTTAG CCTATAACTC TAAAGGAGCT
    GGTCCTGAAA GTGAGCCTTA TATATTTCAA ACACCAGAAG GAGTACCTGA ACAGCCAACT
    TTTCTCAAGG TCATCAAAGT TGATAAAGAC ACTGCCACTT TATCTTGGGG AGTACCTAAG
    AAATTAAATG GAAACTTAAC TGGCTATCTT TTGCAATATC AGATAATAAA TGACACCTAC
    GAGATTGGAG AATTAAATGA TATTAACATT ACAACTCCAT CAAAGCCCAG CTGGCACCTC
    TCAAACCTCA ATGCAACTAC CAAGTACAAA TTCTACTTGA GGGCTTGCAC TTCACAGGGC
    TGTGGAAAAC CGATCACAGA GGAAAGCTCC ACCTTAGGAG AAGGGAGTAA AGGTATCGGG
    AAGATATCAG AAGGAGTAAA TCTTACTCAA AAGACTCACC CAATAGAGGT ATTTGAGCCG
    GGAGCTGAAC ATATAGTTCG CCTAATGACT AAGAATTGGG GTGATAACGA TAGCATTTTT
    CAAGATGTAA TTGAGACAAG AGGGAGAGAA TATGCTGGTT TATACGATGA CATCTCCACT
    CAAGGCTGGT TTATTGGACT GATGTGTGCG ATTGCTCTTC TCACACTACT ATTATTAACT
    GTTTGCTTTG TGAAGAGGAA TAGGGGTGGA AAGTACTCAG TTAAAGAAAA GGAAGATTTG
    CATCCAGACC CAGAAATTCA GTCAGTAAAA GATGAAACCT TTGGTGAATA CAGTGACAGT
    GATGAAAAGC CTCTCAAAGG AAGCCTTCGG TCCCTTAATA GGGATATGCA GCCTACTGAA
    AGTGCTGACA GCTTAGTCGA ATACGGAGAG GGAGACCACG GTCTATTCAG TGAAGATGGA
    TCATTTATTG GTGCCTACGC TGGATCTAAG GAGAAGGGAT CTGTTGAAAG CAATGGAAGT
    TCTACAGCAA CTTTTCCCCT TCGGGCATAA

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

    RefSeq XP_016795799.1
    CDS534..4163
    Translation

    Target ORF information:

    RefSeq Version XM_016940310.1
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_016940310.1

    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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTC AAATTCCATC AAGCAAAGAA AACCCAAACT GCTGTTGCCT
    CCCACTGAGA GTGGCAGTGA GTCTTCAATT ACCATCCTCA AAGGGGAAAT CTTGCTGCTT
    GAGTGTTTTG CTGAAGGCTT GCCAACTCCA CAGGTTGATT GGAACAAAAT TGGTGGTGAC
    TTACCAAAGG GGAGAGAAAC AAAAGAAAAT TATGGCAAGA CTTTGAAGAT AGAGAATGTC
    TCCTACCAGG ACAAAGGAAA TTATCGCTGC ACAGCCAGCA ATTTCTTGGG AACAGCCACT
    CACGATTTTC ATGTTATAGT AGAAGAGCCT CCTCGCTGGA CAAAGAAGCC TCAGAGTGCT
    GTGTATAGCA CCGGAAGCAA TGGCATCTTG TTATGTGAGG CTGAAGGAGA ACCTCAACCC
    ACAATCAAGT GGAGAGTCAA TGGCTCCCCA GTTGACAATC ATCCATTTGC TGGTGATGTT
    GTCTTCCCCA GGGAAATCAG TTTTACCAAC CTTCAACCAA ATCATACTGC TGTGTACCAG
    TGTGAAGCCT CAAATGTCCA TGGAACTATC CTTGCCAATG CCAATATTGA TGTTGTGGAT
    GTCCGTCCAT TGATACAAAC CAAAGATGGA GAAAATTACG CTACAGTGGT TGGGTACAGT
    GCTTTCTTAC ATTGCGAGTT CTTTGCTTCA CCTGAGGCAG TCGTGTCCTG GCAGAAGGTG
    GAAGAAGTGA AACCCCTGGA GGGCAGGCGG TATCATATCT ATGAAAATGG CACATTGCAG
    ATCAACAGAA CCACCGAAGA AGATGCTGGG TCTTACTCAT GTTGGGTAGA AAATGCTATA
    GGAAAAACTG CAGTCACAGC CAATTTGGAT ATTAGAAATG CTACAAAACT TAGAGTTTCT
    CCTAAGAATC CTCGTATCCC CAAATTGCAT ATGCTTGAAT TACATTGTGA GAGCAAATGT
    GACTCACATT TGAAACACAG TTTGAAGTTG TCCTGGAGTA AAGATGGAGA AGCCTTTGAA
    ATTAATGGCA CAGAAGATGG CAGGATAATT ATTGATGGAG CTAATTTGAC CATTTCTAAT
    GTAACTTTAG AGGACCAAGG CATTTACTGC TGTTCCGCTC ATACTGCTCT AGACAGTGCT
    GCCGATATAA CTCAAGTAAC TGTTCTTGAT GTTCCGGATC CACCAGAAAA CCTTCACTTG
    TCTGAAAGAC AGAACAGGAG TGTTCGGCTG ACCTGGGAAG CTGGAGCTGA CCACAACAGC
    AATATTAGCG AGTATATTGT TGAATTTGAA GGAAACAAAG AAGAGCCTGG AAGGTGGGAG
    GAACTGACCA GAGTCCAAGG AAAGAAAACC ACAGTTATCT TACCTTTGGC TCCATTTGTG
    AGATACCAGT TCAGGGTCAT AGCCGTGAAC GAAGTAGGGA GAAGTCAGCC TAGCCAGCCG
    TCAGACCGTC ATGAAACACC ACCAGCAGCT CCAGATAGGA ATCCACAAAA CATAAGGGTT
    CAAGCCTCTC AACCCAAGGA AATGATTATA AAGTGGGAGC CTTTGAAATC CATGGAGCAG
    AATGGACCAG GCCTAGAGTA CAGAGTGACC TGGAAGCCAC AGGGAGCCCC AGTGGAGTGG
    GAAGAAGAAA CAGTCACAAA CCACACATTG CGGGTGATGA CGCCTGCTGT CTATGCCCCT
    TATGATGTCA AGGTCCAGGC TATCAATCAA CTAGGATCTG GGCCTGACCC TCAGTCAGTG
    ACTCTCTATT CTGGAGAAGA CTATCCTGAT ACAGCTCCAG TGATCCATGG GGTGGACGTT
    ATAAACAGTA CATTAGTTAA AGTTACCTGG TCAACAATTC CAAAGGACAG AGTACATGGA
    CGTCTGAAAG GCTATCAGAT AAATTGGTGG AAAACAAAAA GTCTGTTGGA TGGAAGAACA
    CATCCCAAAG AAGTGAACAT TCTAAGATTT TCAGGACAAA GAAACTCTGG AATGGTTCCT
    TCCTTAGATG CCTTTAGTGA ATTTCATTTA ACAGTCTTAG CCTATAACTC TAAAGGAGCT
    GGTCCTGAAA GTGAGCCTTA TATATTTCAA ACACCAGAAG GAGTACCTGA ACAGCCAACT
    TTTCTCAAGG TCATCAAAGT TGATAAAGAC ACTGCCACTT TATCTTGGGG AGTACCTAAG
    AAATTAAATG GAAACTTAAC TGGCTATCTT TTGCAATATC AGATAATAAA TGACACCTAC
    GAGATTGGAG AATTAAATGA TATTAACATT ACAACTCCAT CAAAGCCCAG CTGGCACCTC
    TCAAACCTCA ATGCAACTAC CAAGTACAAA TTCTACTTGA GGGCTTGCAC TTCACAGGGC
    TGTGGAAAAC CGATCACAGA GGAAAGCTCC ACCTTAGGAG AAGGGAGTAA AGGTATCGGG
    AAGATATCAG AAGGAGTAAA TCTTACTCAA AAGACTCACC CAATAGAGGT ATTTGAGCCG
    GGAGCTGAAC ATATAGTTCG CCTAATGACT AAGAATTGGG GTGATAACGA TAGCATTTTT
    CAAGATGTAA TTGAGACAAG AGGGAGAGAA TATGCTGGTT TATACGATGA CATCTCCACT
    CAAGGCTGGT TTATTGGACT GATGTGTGCG ATTGCTCTTC TCACACTACT ATTATTAACT
    GTTTGCTTTG TGAAGAGGAA TAGGGGTGGA AAGTACTCAG TTAAAGAAAA GGAAGATTTG
    CATCCAGACC CAGAAATTCA GTCAGTAAAA GATGAAACCT TTGGTGAATA CAGTGACAGT
    GATGAAAAGC CTCTCAAAGG AAGCCTTCGG TCCCTTAATA GGGATATGCA GCCTACTGAA
    AGTGCTGACA GCTTAGTCGA ATACGGAGAG GGAGACCACG GTCTATTCAG TGAAGATGGA
    TCATTTATTG GTGCCTACGC TGGATCTAAG GAGAAGGGAT CTGTTGAAAG CAATGGAAGT
    TCTACAGCAA CTTTTCCCCT TCGGGCATAA

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

    CloneID OPc06190
    Clone ID Related Accession (Same CDS sequence) XM_001136570.3 , XM_016940310.2 , XM_009444755.3 , XM_001136570.4 , XM_016940310.1 , XM_009444755.2
    Accession Version XM_009444755.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3630bp)
    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 neural cell adhesion molecule L1-like protein isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_006490.4) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 2, 2016 this sequence version replaced XM_009444755.1. ##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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTC AAATTCCATC AAGCAAAGAA AACCCAAACT GCTGTTGCCT
    CCCACTGAGA GTGGCAGTGA GTCTTCAATT ACCATCCTCA AAGGGGAAAT CTTGCTGCTT
    GAGTGTTTTG CTGAAGGCTT GCCAACTCCA CAGGTTGATT GGAACAAAAT TGGTGGTGAC
    TTACCAAAGG GGAGAGAAAC AAAAGAAAAT TATGGCAAGA CTTTGAAGAT AGAGAATGTC
    TCCTACCAGG ACAAAGGAAA TTATCGCTGC ACAGCCAGCA ATTTCTTGGG AACAGCCACT
    CACGATTTTC ATGTTATAGT AGAAGAGCCT CCTCGCTGGA CAAAGAAGCC TCAGAGTGCT
    GTGTATAGCA CCGGAAGCAA TGGCATCTTG TTATGTGAGG CTGAAGGAGA ACCTCAACCC
    ACAATCAAGT GGAGAGTCAA TGGCTCCCCA GTTGACAATC ATCCATTTGC TGGTGATGTT
    GTCTTCCCCA GGGAAATCAG TTTTACCAAC CTTCAACCAA ATCATACTGC TGTGTACCAG
    TGTGAAGCCT CAAATGTCCA TGGAACTATC CTTGCCAATG CCAATATTGA TGTTGTGGAT
    GTCCGTCCAT TGATACAAAC CAAAGATGGA GAAAATTACG CTACAGTGGT TGGGTACAGT
    GCTTTCTTAC ATTGCGAGTT CTTTGCTTCA CCTGAGGCAG TCGTGTCCTG GCAGAAGGTG
    GAAGAAGTGA AACCCCTGGA GGGCAGGCGG TATCATATCT ATGAAAATGG CACATTGCAG
    ATCAACAGAA CCACCGAAGA AGATGCTGGG TCTTACTCAT GTTGGGTAGA AAATGCTATA
    GGAAAAACTG CAGTCACAGC CAATTTGGAT ATTAGAAATG CTACAAAACT TAGAGTTTCT
    CCTAAGAATC CTCGTATCCC CAAATTGCAT ATGCTTGAAT TACATTGTGA GAGCAAATGT
    GACTCACATT TGAAACACAG TTTGAAGTTG TCCTGGAGTA AAGATGGAGA AGCCTTTGAA
    ATTAATGGCA CAGAAGATGG CAGGATAATT ATTGATGGAG CTAATTTGAC CATTTCTAAT
    GTAACTTTAG AGGACCAAGG CATTTACTGC TGTTCCGCTC ATACTGCTCT AGACAGTGCT
    GCCGATATAA CTCAAGTAAC TGTTCTTGAT GTTCCGGATC CACCAGAAAA CCTTCACTTG
    TCTGAAAGAC AGAACAGGAG TGTTCGGCTG ACCTGGGAAG CTGGAGCTGA CCACAACAGC
    AATATTAGCG AGTATATTGT TGAATTTGAA GGAAACAAAG AAGAGCCTGG AAGGTGGGAG
    GAACTGACCA GAGTCCAAGG AAAGAAAACC ACAGTTATCT TACCTTTGGC TCCATTTGTG
    AGATACCAGT TCAGGGTCAT AGCCGTGAAC GAAGTAGGGA GAAGTCAGCC TAGCCAGCCG
    TCAGACCGTC ATGAAACACC ACCAGCAGCT CCAGATAGGA ATCCACAAAA CATAAGGGTT
    CAAGCCTCTC AACCCAAGGA AATGATTATA AAGTGGGAGC CTTTGAAATC CATGGAGCAG
    AATGGACCAG GCCTAGAGTA CAGAGTGACC TGGAAGCCAC AGGGAGCCCC AGTGGAGTGG
    GAAGAAGAAA CAGTCACAAA CCACACATTG CGGGTGATGA CGCCTGCTGT CTATGCCCCT
    TATGATGTCA AGGTCCAGGC TATCAATCAA CTAGGATCTG GGCCTGACCC TCAGTCAGTG
    ACTCTCTATT CTGGAGAAGA CTATCCTGAT ACAGCTCCAG TGATCCATGG GGTGGACGTT
    ATAAACAGTA CATTAGTTAA AGTTACCTGG TCAACAATTC CAAAGGACAG AGTACATGGA
    CGTCTGAAAG GCTATCAGAT AAATTGGTGG AAAACAAAAA GTCTGTTGGA TGGAAGAACA
    CATCCCAAAG AAGTGAACAT TCTAAGATTT TCAGGACAAA GAAACTCTGG AATGGTTCCT
    TCCTTAGATG CCTTTAGTGA ATTTCATTTA ACAGTCTTAG CCTATAACTC TAAAGGAGCT
    GGTCCTGAAA GTGAGCCTTA TATATTTCAA ACACCAGAAG GAGTACCTGA ACAGCCAACT
    TTTCTCAAGG TCATCAAAGT TGATAAAGAC ACTGCCACTT TATCTTGGGG AGTACCTAAG
    AAATTAAATG GAAACTTAAC TGGCTATCTT TTGCAATATC AGATAATAAA TGACACCTAC
    GAGATTGGAG AATTAAATGA TATTAACATT ACAACTCCAT CAAAGCCCAG CTGGCACCTC
    TCAAACCTCA ATGCAACTAC CAAGTACAAA TTCTACTTGA GGGCTTGCAC TTCACAGGGC
    TGTGGAAAAC CGATCACAGA GGAAAGCTCC ACCTTAGGAG AAGGGAGTAA AGGTATCGGG
    AAGATATCAG AAGGAGTAAA TCTTACTCAA AAGACTCACC CAATAGAGGT ATTTGAGCCG
    GGAGCTGAAC ATATAGTTCG CCTAATGACT AAGAATTGGG GTGATAACGA TAGCATTTTT
    CAAGATGTAA TTGAGACAAG AGGGAGAGAA TATGCTGGTT TATACGATGA CATCTCCACT
    CAAGGCTGGT TTATTGGACT GATGTGTGCG ATTGCTCTTC TCACACTACT ATTATTAACT
    GTTTGCTTTG TGAAGAGGAA TAGGGGTGGA AAGTACTCAG TTAAAGAAAA GGAAGATTTG
    CATCCAGACC CAGAAATTCA GTCAGTAAAA GATGAAACCT TTGGTGAATA CAGTGACAGT
    GATGAAAAGC CTCTCAAAGG AAGCCTTCGG TCCCTTAATA GGGATATGCA GCCTACTGAA
    AGTGCTGACA GCTTAGTCGA ATACGGAGAG GGAGACCACG GTCTATTCAG TGAAGATGGA
    TCATTTATTG GTGCCTACGC TGGATCTAAG GAGAAGGGAT CTGTTGAAAG CAATGGAAGT
    TCTACAGCAA CTTTTCCCCT TCGGGCATAA

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

    RefSeq XP_009443030.1
    CDS629..4258
    Translation

    Target ORF information:

    RefSeq Version XM_009444755.2
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009444755.2

    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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTC AAATTCCATC AAGCAAAGAA AACCCAAACT GCTGTTGCCT
    CCCACTGAGA GTGGCAGTGA GTCTTCAATT ACCATCCTCA AAGGGGAAAT CTTGCTGCTT
    GAGTGTTTTG CTGAAGGCTT GCCAACTCCA CAGGTTGATT GGAACAAAAT TGGTGGTGAC
    TTACCAAAGG GGAGAGAAAC AAAAGAAAAT TATGGCAAGA CTTTGAAGAT AGAGAATGTC
    TCCTACCAGG ACAAAGGAAA TTATCGCTGC ACAGCCAGCA ATTTCTTGGG AACAGCCACT
    CACGATTTTC ATGTTATAGT AGAAGAGCCT CCTCGCTGGA CAAAGAAGCC TCAGAGTGCT
    GTGTATAGCA CCGGAAGCAA TGGCATCTTG TTATGTGAGG CTGAAGGAGA ACCTCAACCC
    ACAATCAAGT GGAGAGTCAA TGGCTCCCCA GTTGACAATC ATCCATTTGC TGGTGATGTT
    GTCTTCCCCA GGGAAATCAG TTTTACCAAC CTTCAACCAA ATCATACTGC TGTGTACCAG
    TGTGAAGCCT CAAATGTCCA TGGAACTATC CTTGCCAATG CCAATATTGA TGTTGTGGAT
    GTCCGTCCAT TGATACAAAC CAAAGATGGA GAAAATTACG CTACAGTGGT TGGGTACAGT
    GCTTTCTTAC ATTGCGAGTT CTTTGCTTCA CCTGAGGCAG TCGTGTCCTG GCAGAAGGTG
    GAAGAAGTGA AACCCCTGGA GGGCAGGCGG TATCATATCT ATGAAAATGG CACATTGCAG
    ATCAACAGAA CCACCGAAGA AGATGCTGGG TCTTACTCAT GTTGGGTAGA AAATGCTATA
    GGAAAAACTG CAGTCACAGC CAATTTGGAT ATTAGAAATG CTACAAAACT TAGAGTTTCT
    CCTAAGAATC CTCGTATCCC CAAATTGCAT ATGCTTGAAT TACATTGTGA GAGCAAATGT
    GACTCACATT TGAAACACAG TTTGAAGTTG TCCTGGAGTA AAGATGGAGA AGCCTTTGAA
    ATTAATGGCA CAGAAGATGG CAGGATAATT ATTGATGGAG CTAATTTGAC CATTTCTAAT
    GTAACTTTAG AGGACCAAGG CATTTACTGC TGTTCCGCTC ATACTGCTCT AGACAGTGCT
    GCCGATATAA CTCAAGTAAC TGTTCTTGAT GTTCCGGATC CACCAGAAAA CCTTCACTTG
    TCTGAAAGAC AGAACAGGAG TGTTCGGCTG ACCTGGGAAG CTGGAGCTGA CCACAACAGC
    AATATTAGCG AGTATATTGT TGAATTTGAA GGAAACAAAG AAGAGCCTGG AAGGTGGGAG
    GAACTGACCA GAGTCCAAGG AAAGAAAACC ACAGTTATCT TACCTTTGGC TCCATTTGTG
    AGATACCAGT TCAGGGTCAT AGCCGTGAAC GAAGTAGGGA GAAGTCAGCC TAGCCAGCCG
    TCAGACCGTC ATGAAACACC ACCAGCAGCT CCAGATAGGA ATCCACAAAA CATAAGGGTT
    CAAGCCTCTC AACCCAAGGA AATGATTATA AAGTGGGAGC CTTTGAAATC CATGGAGCAG
    AATGGACCAG GCCTAGAGTA CAGAGTGACC TGGAAGCCAC AGGGAGCCCC AGTGGAGTGG
    GAAGAAGAAA CAGTCACAAA CCACACATTG CGGGTGATGA CGCCTGCTGT CTATGCCCCT
    TATGATGTCA AGGTCCAGGC TATCAATCAA CTAGGATCTG GGCCTGACCC TCAGTCAGTG
    ACTCTCTATT CTGGAGAAGA CTATCCTGAT ACAGCTCCAG TGATCCATGG GGTGGACGTT
    ATAAACAGTA CATTAGTTAA AGTTACCTGG TCAACAATTC CAAAGGACAG AGTACATGGA
    CGTCTGAAAG GCTATCAGAT AAATTGGTGG AAAACAAAAA GTCTGTTGGA TGGAAGAACA
    CATCCCAAAG AAGTGAACAT TCTAAGATTT TCAGGACAAA GAAACTCTGG AATGGTTCCT
    TCCTTAGATG CCTTTAGTGA ATTTCATTTA ACAGTCTTAG CCTATAACTC TAAAGGAGCT
    GGTCCTGAAA GTGAGCCTTA TATATTTCAA ACACCAGAAG GAGTACCTGA ACAGCCAACT
    TTTCTCAAGG TCATCAAAGT TGATAAAGAC ACTGCCACTT TATCTTGGGG AGTACCTAAG
    AAATTAAATG GAAACTTAAC TGGCTATCTT TTGCAATATC AGATAATAAA TGACACCTAC
    GAGATTGGAG AATTAAATGA TATTAACATT ACAACTCCAT CAAAGCCCAG CTGGCACCTC
    TCAAACCTCA ATGCAACTAC CAAGTACAAA TTCTACTTGA GGGCTTGCAC TTCACAGGGC
    TGTGGAAAAC CGATCACAGA GGAAAGCTCC ACCTTAGGAG AAGGGAGTAA AGGTATCGGG
    AAGATATCAG AAGGAGTAAA TCTTACTCAA AAGACTCACC CAATAGAGGT ATTTGAGCCG
    GGAGCTGAAC ATATAGTTCG CCTAATGACT AAGAATTGGG GTGATAACGA TAGCATTTTT
    CAAGATGTAA TTGAGACAAG AGGGAGAGAA TATGCTGGTT TATACGATGA CATCTCCACT
    CAAGGCTGGT TTATTGGACT GATGTGTGCG ATTGCTCTTC TCACACTACT ATTATTAACT
    GTTTGCTTTG TGAAGAGGAA TAGGGGTGGA AAGTACTCAG TTAAAGAAAA GGAAGATTTG
    CATCCAGACC CAGAAATTCA GTCAGTAAAA GATGAAACCT TTGGTGAATA CAGTGACAGT
    GATGAAAAGC CTCTCAAAGG AAGCCTTCGG TCCCTTAATA GGGATATGCA GCCTACTGAA
    AGTGCTGACA GCTTAGTCGA ATACGGAGAG GGAGACCACG GTCTATTCAG TGAAGATGGA
    TCATTTATTG GTGCCTACGC TGGATCTAAG GAGAAGGGAT CTGTTGAAAG CAATGGAAGT
    TCTACAGCAA CTTTTCCCCT TCGGGCATAA

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

    CloneID OPc06191
    Clone ID Related Accession (Same CDS sequence) XM_016940308.1 , XM_009444749.2 , XM_009444754.3 , XM_009444754.2 , XM_009444753.2 , XM_009444751.2 , XM_016940309.1 , XM_009444753.3 , XM_009444750.2 , XM_016940309.2 , XM_001136954.3 , XM_009444750.3 , XM_001136954.4 , XM_009444751.3 , XM_009444749.3
    Accession Version XM_016940308.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3678bp)
    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 neural cell adhesion molecule L1-like protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_006490.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAGTAAAG GTATCGGGAA GATATCAGAA
    GGAGTAAATC TTACTCAAAA GACTCACCCA ATAGAGGTAT TTGAGCCGGG AGCTGAACAT
    ATAGTTCGCC TAATGACTAA GAATTGGGGT GATAACGATA GCATTTTTCA AGATGTAATT
    GAGACAAGAG GGAGAGAATA TGCTGGTTTA TACGATGACA TCTCCACTCA AGGCTGGTTT
    ATTGGACTGA TGTGTGCGAT TGCTCTTCTC ACACTACTAT TATTAACTGT TTGCTTTGTG
    AAGAGGAATA GGGGTGGAAA GTACTCAGTT AAAGAAAAGG AAGATTTGCA TCCAGACCCA
    GAAATTCAGT CAGTAAAAGA TGAAACCTTT GGTGAATACA GTGACAGTGA TGAAAAGCCT
    CTCAAAGGAA GCCTTCGGTC CCTTAATAGG GATATGCAGC CTACTGAAAG TGCTGACAGC
    TTAGTCGAAT ACGGAGAGGG AGACCACGGT CTATTCAGTG AAGATGGATC ATTTATTGGT
    GCCTACGCTG GATCTAAGGA GAAGGGATCT GTTGAAAGCA ATGGAAGTTC TACAGCAACT
    TTTCCCCTTC GGGCATAA

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

    RefSeq XP_016795797.1
    CDS2712..6389
    Translation

    Target ORF information:

    RefSeq Version XM_016940308.1
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_016940308.1

    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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAGTAAAG GTATCGGGAA GATATCAGAA
    GGAGTAAATC TTACTCAAAA GACTCACCCA ATAGAGGTAT TTGAGCCGGG AGCTGAACAT
    ATAGTTCGCC TAATGACTAA GAATTGGGGT GATAACGATA GCATTTTTCA AGATGTAATT
    GAGACAAGAG GGAGAGAATA TGCTGGTTTA TACGATGACA TCTCCACTCA AGGCTGGTTT
    ATTGGACTGA TGTGTGCGAT TGCTCTTCTC ACACTACTAT TATTAACTGT TTGCTTTGTG
    AAGAGGAATA GGGGTGGAAA GTACTCAGTT AAAGAAAAGG AAGATTTGCA TCCAGACCCA
    GAAATTCAGT CAGTAAAAGA TGAAACCTTT GGTGAATACA GTGACAGTGA TGAAAAGCCT
    CTCAAAGGAA GCCTTCGGTC CCTTAATAGG GATATGCAGC CTACTGAAAG TGCTGACAGC
    TTAGTCGAAT ACGGAGAGGG AGACCACGGT CTATTCAGTG AAGATGGATC ATTTATTGGT
    GCCTACGCTG GATCTAAGGA GAAGGGATCT GTTGAAAGCA ATGGAAGTTC TACAGCAACT
    TTTCCCCTTC GGGCATAA

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

    CloneID OPc06191
    Clone ID Related Accession (Same CDS sequence) XM_016940308.1 , XM_009444749.2 , XM_009444754.3 , XM_009444754.2 , XM_009444753.2 , XM_009444751.2 , XM_016940309.1 , XM_009444753.3 , XM_009444750.2 , XM_016940309.2 , XM_001136954.3 , XM_009444750.3 , XM_001136954.4 , XM_009444751.3 , XM_009444749.3
    Accession Version XM_009444749.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3678bp)
    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 neural cell adhesion molecule L1-like protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_006490.4) 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_009444749.1. ##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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAGTAAAG GTATCGGGAA GATATCAGAA
    GGAGTAAATC TTACTCAAAA GACTCACCCA ATAGAGGTAT TTGAGCCGGG AGCTGAACAT
    ATAGTTCGCC TAATGACTAA GAATTGGGGT GATAACGATA GCATTTTTCA AGATGTAATT
    GAGACAAGAG GGAGAGAATA TGCTGGTTTA TACGATGACA TCTCCACTCA AGGCTGGTTT
    ATTGGACTGA TGTGTGCGAT TGCTCTTCTC ACACTACTAT TATTAACTGT TTGCTTTGTG
    AAGAGGAATA GGGGTGGAAA GTACTCAGTT AAAGAAAAGG AAGATTTGCA TCCAGACCCA
    GAAATTCAGT CAGTAAAAGA TGAAACCTTT GGTGAATACA GTGACAGTGA TGAAAAGCCT
    CTCAAAGGAA GCCTTCGGTC CCTTAATAGG GATATGCAGC CTACTGAAAG TGCTGACAGC
    TTAGTCGAAT ACGGAGAGGG AGACCACGGT CTATTCAGTG AAGATGGATC ATTTATTGGT
    GCCTACGCTG GATCTAAGGA GAAGGGATCT GTTGAAAGCA ATGGAAGTTC TACAGCAACT
    TTTCCCCTTC GGGCATAA

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

    RefSeq XP_009443024.1
    CDS289..3966
    Translation

    Target ORF information:

    RefSeq Version XM_009444749.2
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009444749.2

    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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAGTAAAG GTATCGGGAA GATATCAGAA
    GGAGTAAATC TTACTCAAAA GACTCACCCA ATAGAGGTAT TTGAGCCGGG AGCTGAACAT
    ATAGTTCGCC TAATGACTAA GAATTGGGGT GATAACGATA GCATTTTTCA AGATGTAATT
    GAGACAAGAG GGAGAGAATA TGCTGGTTTA TACGATGACA TCTCCACTCA AGGCTGGTTT
    ATTGGACTGA TGTGTGCGAT TGCTCTTCTC ACACTACTAT TATTAACTGT TTGCTTTGTG
    AAGAGGAATA GGGGTGGAAA GTACTCAGTT AAAGAAAAGG AAGATTTGCA TCCAGACCCA
    GAAATTCAGT CAGTAAAAGA TGAAACCTTT GGTGAATACA GTGACAGTGA TGAAAAGCCT
    CTCAAAGGAA GCCTTCGGTC CCTTAATAGG GATATGCAGC CTACTGAAAG TGCTGACAGC
    TTAGTCGAAT ACGGAGAGGG AGACCACGGT CTATTCAGTG AAGATGGATC ATTTATTGGT
    GCCTACGCTG GATCTAAGGA GAAGGGATCT GTTGAAAGCA ATGGAAGTTC TACAGCAACT
    TTTCCCCTTC GGGCATAA

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

    CloneID OPc06191
    Clone ID Related Accession (Same CDS sequence) XM_016940308.1 , XM_009444749.2 , XM_009444754.3 , XM_009444754.2 , XM_009444753.2 , XM_009444751.2 , XM_016940309.1 , XM_009444753.3 , XM_009444750.2 , XM_016940309.2 , XM_001136954.3 , XM_009444750.3 , XM_001136954.4 , XM_009444751.3 , XM_009444749.3
    Accession Version XM_009444754.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3678bp)
    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 neural cell adhesion molecule L1-like protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036882.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 20, 2018 this sequence version replaced XM_009444754.2. ##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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAGTAAAG GTATCGGGAA GATATCAGAA
    GGAGTAAATC TTACTCAAAA GACTCACCCA ATAGAGGTAT TTGAGCCGGG AGCTGAACAT
    ATAGTTCGCC TAATGACTAA GAATTGGGGT GATAACGATA GCATTTTTCA AGATGTAATT
    GAGACAAGAG GGAGAGAATA TGCTGGTTTA TACGATGACA TCTCCACTCA AGGCTGGTTT
    ATTGGACTGA TGTGTGCGAT TGCTCTTCTC ACACTACTAT TATTAACTGT TTGCTTTGTG
    AAGAGGAATA GGGGTGGAAA GTACTCAGTT AAAGAAAAGG AAGATTTGCA TCCAGACCCA
    GAAATTCAGT CAGTAAAAGA TGAAACCTTT GGTGAATACA GTGACAGTGA TGAAAAGCCT
    CTCAAAGGAA GCCTTCGGTC CCTTAATAGG GATATGCAGC CTACTGAAAG TGCTGACAGC
    TTAGTCGAAT ACGGAGAGGG AGACCACGGT CTATTCAGTG AAGATGGATC ATTTATTGGT
    GCCTACGCTG GATCTAAGGA GAAGGGATCT GTTGAAAGCA ATGGAAGTTC TACAGCAACT
    TTTCCCCTTC GGGCATAA

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

    RefSeq XP_009443029.1
    CDS415..4092
    Translation

    Target ORF information:

    RefSeq Version XM_009444754.3
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009444754.3

    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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAGTAAAG GTATCGGGAA GATATCAGAA
    GGAGTAAATC TTACTCAAAA GACTCACCCA ATAGAGGTAT TTGAGCCGGG AGCTGAACAT
    ATAGTTCGCC TAATGACTAA GAATTGGGGT GATAACGATA GCATTTTTCA AGATGTAATT
    GAGACAAGAG GGAGAGAATA TGCTGGTTTA TACGATGACA TCTCCACTCA AGGCTGGTTT
    ATTGGACTGA TGTGTGCGAT TGCTCTTCTC ACACTACTAT TATTAACTGT TTGCTTTGTG
    AAGAGGAATA GGGGTGGAAA GTACTCAGTT AAAGAAAAGG AAGATTTGCA TCCAGACCCA
    GAAATTCAGT CAGTAAAAGA TGAAACCTTT GGTGAATACA GTGACAGTGA TGAAAAGCCT
    CTCAAAGGAA GCCTTCGGTC CCTTAATAGG GATATGCAGC CTACTGAAAG TGCTGACAGC
    TTAGTCGAAT ACGGAGAGGG AGACCACGGT CTATTCAGTG AAGATGGATC ATTTATTGGT
    GCCTACGCTG GATCTAAGGA GAAGGGATCT GTTGAAAGCA ATGGAAGTTC TACAGCAACT
    TTTCCCCTTC GGGCATAA

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

    CloneID OPc06191
    Clone ID Related Accession (Same CDS sequence) XM_016940308.1 , XM_009444749.2 , XM_009444754.3 , XM_009444754.2 , XM_009444753.2 , XM_009444751.2 , XM_016940309.1 , XM_009444753.3 , XM_009444750.2 , XM_016940309.2 , XM_001136954.3 , XM_009444750.3 , XM_001136954.4 , XM_009444751.3 , XM_009444749.3
    Accession Version XM_009444754.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3678bp)
    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 neural cell adhesion molecule L1-like protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_006490.4) 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_009444754.1. ##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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAGTAAAG GTATCGGGAA GATATCAGAA
    GGAGTAAATC TTACTCAAAA GACTCACCCA ATAGAGGTAT TTGAGCCGGG AGCTGAACAT
    ATAGTTCGCC TAATGACTAA GAATTGGGGT GATAACGATA GCATTTTTCA AGATGTAATT
    GAGACAAGAG GGAGAGAATA TGCTGGTTTA TACGATGACA TCTCCACTCA AGGCTGGTTT
    ATTGGACTGA TGTGTGCGAT TGCTCTTCTC ACACTACTAT TATTAACTGT TTGCTTTGTG
    AAGAGGAATA GGGGTGGAAA GTACTCAGTT AAAGAAAAGG AAGATTTGCA TCCAGACCCA
    GAAATTCAGT CAGTAAAAGA TGAAACCTTT GGTGAATACA GTGACAGTGA TGAAAAGCCT
    CTCAAAGGAA GCCTTCGGTC CCTTAATAGG GATATGCAGC CTACTGAAAG TGCTGACAGC
    TTAGTCGAAT ACGGAGAGGG AGACCACGGT CTATTCAGTG AAGATGGATC ATTTATTGGT
    GCCTACGCTG GATCTAAGGA GAAGGGATCT GTTGAAAGCA ATGGAAGTTC TACAGCAACT
    TTTCCCCTTC GGGCATAA

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

    RefSeq XP_009443029.1
    CDS456..4133
    Translation

    Target ORF information:

    RefSeq Version XM_009444754.2
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009444754.2

    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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAGTAAAG GTATCGGGAA GATATCAGAA
    GGAGTAAATC TTACTCAAAA GACTCACCCA ATAGAGGTAT TTGAGCCGGG AGCTGAACAT
    ATAGTTCGCC TAATGACTAA GAATTGGGGT GATAACGATA GCATTTTTCA AGATGTAATT
    GAGACAAGAG GGAGAGAATA TGCTGGTTTA TACGATGACA TCTCCACTCA AGGCTGGTTT
    ATTGGACTGA TGTGTGCGAT TGCTCTTCTC ACACTACTAT TATTAACTGT TTGCTTTGTG
    AAGAGGAATA GGGGTGGAAA GTACTCAGTT AAAGAAAAGG AAGATTTGCA TCCAGACCCA
    GAAATTCAGT CAGTAAAAGA TGAAACCTTT GGTGAATACA GTGACAGTGA TGAAAAGCCT
    CTCAAAGGAA GCCTTCGGTC CCTTAATAGG GATATGCAGC CTACTGAAAG TGCTGACAGC
    TTAGTCGAAT ACGGAGAGGG AGACCACGGT CTATTCAGTG AAGATGGATC ATTTATTGGT
    GCCTACGCTG GATCTAAGGA GAAGGGATCT GTTGAAAGCA ATGGAAGTTC TACAGCAACT
    TTTCCCCTTC GGGCATAA

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

    CloneID OPc06191
    Clone ID Related Accession (Same CDS sequence) XM_016940308.1 , XM_009444749.2 , XM_009444754.3 , XM_009444754.2 , XM_009444753.2 , XM_009444751.2 , XM_016940309.1 , XM_009444753.3 , XM_009444750.2 , XM_016940309.2 , XM_001136954.3 , XM_009444750.3 , XM_001136954.4 , XM_009444751.3 , XM_009444749.3
    Accession Version XM_009444753.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3678bp)
    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 neural cell adhesion molecule L1-like protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_006490.4) 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_009444753.1. ##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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAGTAAAG GTATCGGGAA GATATCAGAA
    GGAGTAAATC TTACTCAAAA GACTCACCCA ATAGAGGTAT TTGAGCCGGG AGCTGAACAT
    ATAGTTCGCC TAATGACTAA GAATTGGGGT GATAACGATA GCATTTTTCA AGATGTAATT
    GAGACAAGAG GGAGAGAATA TGCTGGTTTA TACGATGACA TCTCCACTCA AGGCTGGTTT
    ATTGGACTGA TGTGTGCGAT TGCTCTTCTC ACACTACTAT TATTAACTGT TTGCTTTGTG
    AAGAGGAATA GGGGTGGAAA GTACTCAGTT AAAGAAAAGG AAGATTTGCA TCCAGACCCA
    GAAATTCAGT CAGTAAAAGA TGAAACCTTT GGTGAATACA GTGACAGTGA TGAAAAGCCT
    CTCAAAGGAA GCCTTCGGTC CCTTAATAGG GATATGCAGC CTACTGAAAG TGCTGACAGC
    TTAGTCGAAT ACGGAGAGGG AGACCACGGT CTATTCAGTG AAGATGGATC ATTTATTGGT
    GCCTACGCTG GATCTAAGGA GAAGGGATCT GTTGAAAGCA ATGGAAGTTC TACAGCAACT
    TTTCCCCTTC GGGCATAA

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

    RefSeq XP_009443028.1
    CDS278..3955
    Translation

    Target ORF information:

    RefSeq Version XM_009444753.2
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009444753.2

    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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAGTAAAG GTATCGGGAA GATATCAGAA
    GGAGTAAATC TTACTCAAAA GACTCACCCA ATAGAGGTAT TTGAGCCGGG AGCTGAACAT
    ATAGTTCGCC TAATGACTAA GAATTGGGGT GATAACGATA GCATTTTTCA AGATGTAATT
    GAGACAAGAG GGAGAGAATA TGCTGGTTTA TACGATGACA TCTCCACTCA AGGCTGGTTT
    ATTGGACTGA TGTGTGCGAT TGCTCTTCTC ACACTACTAT TATTAACTGT TTGCTTTGTG
    AAGAGGAATA GGGGTGGAAA GTACTCAGTT AAAGAAAAGG AAGATTTGCA TCCAGACCCA
    GAAATTCAGT CAGTAAAAGA TGAAACCTTT GGTGAATACA GTGACAGTGA TGAAAAGCCT
    CTCAAAGGAA GCCTTCGGTC CCTTAATAGG GATATGCAGC CTACTGAAAG TGCTGACAGC
    TTAGTCGAAT ACGGAGAGGG AGACCACGGT CTATTCAGTG AAGATGGATC ATTTATTGGT
    GCCTACGCTG GATCTAAGGA GAAGGGATCT GTTGAAAGCA ATGGAAGTTC TACAGCAACT
    TTTCCCCTTC GGGCATAA

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

    CloneID OPc06191
    Clone ID Related Accession (Same CDS sequence) XM_016940308.1 , XM_009444749.2 , XM_009444754.3 , XM_009444754.2 , XM_009444753.2 , XM_009444751.2 , XM_016940309.1 , XM_009444753.3 , XM_009444750.2 , XM_016940309.2 , XM_001136954.3 , XM_009444750.3 , XM_001136954.4 , XM_009444751.3 , XM_009444749.3
    Accession Version XM_009444751.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3678bp)
    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 neural cell adhesion molecule L1-like protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_006490.4) 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_009444751.1. ##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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAGTAAAG GTATCGGGAA GATATCAGAA
    GGAGTAAATC TTACTCAAAA GACTCACCCA ATAGAGGTAT TTGAGCCGGG AGCTGAACAT
    ATAGTTCGCC TAATGACTAA GAATTGGGGT GATAACGATA GCATTTTTCA AGATGTAATT
    GAGACAAGAG GGAGAGAATA TGCTGGTTTA TACGATGACA TCTCCACTCA AGGCTGGTTT
    ATTGGACTGA TGTGTGCGAT TGCTCTTCTC ACACTACTAT TATTAACTGT TTGCTTTGTG
    AAGAGGAATA GGGGTGGAAA GTACTCAGTT AAAGAAAAGG AAGATTTGCA TCCAGACCCA
    GAAATTCAGT CAGTAAAAGA TGAAACCTTT GGTGAATACA GTGACAGTGA TGAAAAGCCT
    CTCAAAGGAA GCCTTCGGTC CCTTAATAGG GATATGCAGC CTACTGAAAG TGCTGACAGC
    TTAGTCGAAT ACGGAGAGGG AGACCACGGT CTATTCAGTG AAGATGGATC ATTTATTGGT
    GCCTACGCTG GATCTAAGGA GAAGGGATCT GTTGAAAGCA ATGGAAGTTC TACAGCAACT
    TTTCCCCTTC GGGCATAA

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

    RefSeq XP_009443026.1
    CDS629..4306
    Translation

    Target ORF information:

    RefSeq Version XM_009444751.2
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009444751.2

    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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAGTAAAG GTATCGGGAA GATATCAGAA
    GGAGTAAATC TTACTCAAAA GACTCACCCA ATAGAGGTAT TTGAGCCGGG AGCTGAACAT
    ATAGTTCGCC TAATGACTAA GAATTGGGGT GATAACGATA GCATTTTTCA AGATGTAATT
    GAGACAAGAG GGAGAGAATA TGCTGGTTTA TACGATGACA TCTCCACTCA AGGCTGGTTT
    ATTGGACTGA TGTGTGCGAT TGCTCTTCTC ACACTACTAT TATTAACTGT TTGCTTTGTG
    AAGAGGAATA GGGGTGGAAA GTACTCAGTT AAAGAAAAGG AAGATTTGCA TCCAGACCCA
    GAAATTCAGT CAGTAAAAGA TGAAACCTTT GGTGAATACA GTGACAGTGA TGAAAAGCCT
    CTCAAAGGAA GCCTTCGGTC CCTTAATAGG GATATGCAGC CTACTGAAAG TGCTGACAGC
    TTAGTCGAAT ACGGAGAGGG AGACCACGGT CTATTCAGTG AAGATGGATC ATTTATTGGT
    GCCTACGCTG GATCTAAGGA GAAGGGATCT GTTGAAAGCA ATGGAAGTTC TACAGCAACT
    TTTCCCCTTC GGGCATAA

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

    CloneID OPc06191
    Clone ID Related Accession (Same CDS sequence) XM_016940308.1 , XM_009444749.2 , XM_009444754.3 , XM_009444754.2 , XM_009444753.2 , XM_009444751.2 , XM_016940309.1 , XM_009444753.3 , XM_009444750.2 , XM_016940309.2 , XM_001136954.3 , XM_009444750.3 , XM_001136954.4 , XM_009444751.3 , XM_009444749.3
    Accession Version XM_016940309.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3678bp)
    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 neural cell adhesion molecule L1-like protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_006490.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAGTAAAG GTATCGGGAA GATATCAGAA
    GGAGTAAATC TTACTCAAAA GACTCACCCA ATAGAGGTAT TTGAGCCGGG AGCTGAACAT
    ATAGTTCGCC TAATGACTAA GAATTGGGGT GATAACGATA GCATTTTTCA AGATGTAATT
    GAGACAAGAG GGAGAGAATA TGCTGGTTTA TACGATGACA TCTCCACTCA AGGCTGGTTT
    ATTGGACTGA TGTGTGCGAT TGCTCTTCTC ACACTACTAT TATTAACTGT TTGCTTTGTG
    AAGAGGAATA GGGGTGGAAA GTACTCAGTT AAAGAAAAGG AAGATTTGCA TCCAGACCCA
    GAAATTCAGT CAGTAAAAGA TGAAACCTTT GGTGAATACA GTGACAGTGA TGAAAAGCCT
    CTCAAAGGAA GCCTTCGGTC CCTTAATAGG GATATGCAGC CTACTGAAAG TGCTGACAGC
    TTAGTCGAAT ACGGAGAGGG AGACCACGGT CTATTCAGTG AAGATGGATC ATTTATTGGT
    GCCTACGCTG GATCTAAGGA GAAGGGATCT GTTGAAAGCA ATGGAAGTTC TACAGCAACT
    TTTCCCCTTC GGGCATAA

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

    RefSeq XP_016795798.1
    CDS157..3834
    Translation

    Target ORF information:

    RefSeq Version XM_016940309.1
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_016940309.1

    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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAGTAAAG GTATCGGGAA GATATCAGAA
    GGAGTAAATC TTACTCAAAA GACTCACCCA ATAGAGGTAT TTGAGCCGGG AGCTGAACAT
    ATAGTTCGCC TAATGACTAA GAATTGGGGT GATAACGATA GCATTTTTCA AGATGTAATT
    GAGACAAGAG GGAGAGAATA TGCTGGTTTA TACGATGACA TCTCCACTCA AGGCTGGTTT
    ATTGGACTGA TGTGTGCGAT TGCTCTTCTC ACACTACTAT TATTAACTGT TTGCTTTGTG
    AAGAGGAATA GGGGTGGAAA GTACTCAGTT AAAGAAAAGG AAGATTTGCA TCCAGACCCA
    GAAATTCAGT CAGTAAAAGA TGAAACCTTT GGTGAATACA GTGACAGTGA TGAAAAGCCT
    CTCAAAGGAA GCCTTCGGTC CCTTAATAGG GATATGCAGC CTACTGAAAG TGCTGACAGC
    TTAGTCGAAT ACGGAGAGGG AGACCACGGT CTATTCAGTG AAGATGGATC ATTTATTGGT
    GCCTACGCTG GATCTAAGGA GAAGGGATCT GTTGAAAGCA ATGGAAGTTC TACAGCAACT
    TTTCCCCTTC GGGCATAA

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

    CloneID OPc06191
    Clone ID Related Accession (Same CDS sequence) XM_016940308.1 , XM_009444749.2 , XM_009444754.3 , XM_009444754.2 , XM_009444753.2 , XM_009444751.2 , XM_016940309.1 , XM_009444753.3 , XM_009444750.2 , XM_016940309.2 , XM_001136954.3 , XM_009444750.3 , XM_001136954.4 , XM_009444751.3 , XM_009444749.3
    Accession Version XM_009444753.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3678bp)
    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 neural cell adhesion molecule L1-like protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036882.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 20, 2018 this sequence version replaced XM_009444753.2. ##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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAGTAAAG GTATCGGGAA GATATCAGAA
    GGAGTAAATC TTACTCAAAA GACTCACCCA ATAGAGGTAT TTGAGCCGGG AGCTGAACAT
    ATAGTTCGCC TAATGACTAA GAATTGGGGT GATAACGATA GCATTTTTCA AGATGTAATT
    GAGACAAGAG GGAGAGAATA TGCTGGTTTA TACGATGACA TCTCCACTCA AGGCTGGTTT
    ATTGGACTGA TGTGTGCGAT TGCTCTTCTC ACACTACTAT TATTAACTGT TTGCTTTGTG
    AAGAGGAATA GGGGTGGAAA GTACTCAGTT AAAGAAAAGG AAGATTTGCA TCCAGACCCA
    GAAATTCAGT CAGTAAAAGA TGAAACCTTT GGTGAATACA GTGACAGTGA TGAAAAGCCT
    CTCAAAGGAA GCCTTCGGTC CCTTAATAGG GATATGCAGC CTACTGAAAG TGCTGACAGC
    TTAGTCGAAT ACGGAGAGGG AGACCACGGT CTATTCAGTG AAGATGGATC ATTTATTGGT
    GCCTACGCTG GATCTAAGGA GAAGGGATCT GTTGAAAGCA ATGGAAGTTC TACAGCAACT
    TTTCCCCTTC GGGCATAA

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

    RefSeq XP_009443028.1
    CDS276..3953
    Translation

    Target ORF information:

    RefSeq Version XM_009444753.3
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009444753.3

    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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAGTAAAG GTATCGGGAA GATATCAGAA
    GGAGTAAATC TTACTCAAAA GACTCACCCA ATAGAGGTAT TTGAGCCGGG AGCTGAACAT
    ATAGTTCGCC TAATGACTAA GAATTGGGGT GATAACGATA GCATTTTTCA AGATGTAATT
    GAGACAAGAG GGAGAGAATA TGCTGGTTTA TACGATGACA TCTCCACTCA AGGCTGGTTT
    ATTGGACTGA TGTGTGCGAT TGCTCTTCTC ACACTACTAT TATTAACTGT TTGCTTTGTG
    AAGAGGAATA GGGGTGGAAA GTACTCAGTT AAAGAAAAGG AAGATTTGCA TCCAGACCCA
    GAAATTCAGT CAGTAAAAGA TGAAACCTTT GGTGAATACA GTGACAGTGA TGAAAAGCCT
    CTCAAAGGAA GCCTTCGGTC CCTTAATAGG GATATGCAGC CTACTGAAAG TGCTGACAGC
    TTAGTCGAAT ACGGAGAGGG AGACCACGGT CTATTCAGTG AAGATGGATC ATTTATTGGT
    GCCTACGCTG GATCTAAGGA GAAGGGATCT GTTGAAAGCA ATGGAAGTTC TACAGCAACT
    TTTCCCCTTC GGGCATAA

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

    CloneID OPc06191
    Clone ID Related Accession (Same CDS sequence) XM_016940308.1 , XM_009444749.2 , XM_009444754.3 , XM_009444754.2 , XM_009444753.2 , XM_009444751.2 , XM_016940309.1 , XM_009444753.3 , XM_009444750.2 , XM_016940309.2 , XM_001136954.3 , XM_009444750.3 , XM_001136954.4 , XM_009444751.3 , XM_009444749.3
    Accession Version XM_009444750.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3678bp)
    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 neural cell adhesion molecule L1-like protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_006490.4) 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_009444750.1. ##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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAGTAAAG GTATCGGGAA GATATCAGAA
    GGAGTAAATC TTACTCAAAA GACTCACCCA ATAGAGGTAT TTGAGCCGGG AGCTGAACAT
    ATAGTTCGCC TAATGACTAA GAATTGGGGT GATAACGATA GCATTTTTCA AGATGTAATT
    GAGACAAGAG GGAGAGAATA TGCTGGTTTA TACGATGACA TCTCCACTCA AGGCTGGTTT
    ATTGGACTGA TGTGTGCGAT TGCTCTTCTC ACACTACTAT TATTAACTGT TTGCTTTGTG
    AAGAGGAATA GGGGTGGAAA GTACTCAGTT AAAGAAAAGG AAGATTTGCA TCCAGACCCA
    GAAATTCAGT CAGTAAAAGA TGAAACCTTT GGTGAATACA GTGACAGTGA TGAAAAGCCT
    CTCAAAGGAA GCCTTCGGTC CCTTAATAGG GATATGCAGC CTACTGAAAG TGCTGACAGC
    TTAGTCGAAT ACGGAGAGGG AGACCACGGT CTATTCAGTG AAGATGGATC ATTTATTGGT
    GCCTACGCTG GATCTAAGGA GAAGGGATCT GTTGAAAGCA ATGGAAGTTC TACAGCAACT
    TTTCCCCTTC GGGCATAA

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

    RefSeq XP_009443025.1
    CDS536..4213
    Translation

    Target ORF information:

    RefSeq Version XM_009444750.2
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009444750.2

    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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAGTAAAG GTATCGGGAA GATATCAGAA
    GGAGTAAATC TTACTCAAAA GACTCACCCA ATAGAGGTAT TTGAGCCGGG AGCTGAACAT
    ATAGTTCGCC TAATGACTAA GAATTGGGGT GATAACGATA GCATTTTTCA AGATGTAATT
    GAGACAAGAG GGAGAGAATA TGCTGGTTTA TACGATGACA TCTCCACTCA AGGCTGGTTT
    ATTGGACTGA TGTGTGCGAT TGCTCTTCTC ACACTACTAT TATTAACTGT TTGCTTTGTG
    AAGAGGAATA GGGGTGGAAA GTACTCAGTT AAAGAAAAGG AAGATTTGCA TCCAGACCCA
    GAAATTCAGT CAGTAAAAGA TGAAACCTTT GGTGAATACA GTGACAGTGA TGAAAAGCCT
    CTCAAAGGAA GCCTTCGGTC CCTTAATAGG GATATGCAGC CTACTGAAAG TGCTGACAGC
    TTAGTCGAAT ACGGAGAGGG AGACCACGGT CTATTCAGTG AAGATGGATC ATTTATTGGT
    GCCTACGCTG GATCTAAGGA GAAGGGATCT GTTGAAAGCA ATGGAAGTTC TACAGCAACT
    TTTCCCCTTC GGGCATAA

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

    CloneID OPc06191
    Clone ID Related Accession (Same CDS sequence) XM_016940308.1 , XM_009444749.2 , XM_009444754.3 , XM_009444754.2 , XM_009444753.2 , XM_009444751.2 , XM_016940309.1 , XM_009444753.3 , XM_009444750.2 , XM_016940309.2 , XM_001136954.3 , XM_009444750.3 , XM_001136954.4 , XM_009444751.3 , XM_009444749.3
    Accession Version XM_016940309.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3678bp)
    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 neural cell adhesion molecule L1-like protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036882.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 20, 2018 this sequence version replaced XM_016940309.1. ##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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAGTAAAG GTATCGGGAA GATATCAGAA
    GGAGTAAATC TTACTCAAAA GACTCACCCA ATAGAGGTAT TTGAGCCGGG AGCTGAACAT
    ATAGTTCGCC TAATGACTAA GAATTGGGGT GATAACGATA GCATTTTTCA AGATGTAATT
    GAGACAAGAG GGAGAGAATA TGCTGGTTTA TACGATGACA TCTCCACTCA AGGCTGGTTT
    ATTGGACTGA TGTGTGCGAT TGCTCTTCTC ACACTACTAT TATTAACTGT TTGCTTTGTG
    AAGAGGAATA GGGGTGGAAA GTACTCAGTT AAAGAAAAGG AAGATTTGCA TCCAGACCCA
    GAAATTCAGT CAGTAAAAGA TGAAACCTTT GGTGAATACA GTGACAGTGA TGAAAAGCCT
    CTCAAAGGAA GCCTTCGGTC CCTTAATAGG GATATGCAGC CTACTGAAAG TGCTGACAGC
    TTAGTCGAAT ACGGAGAGGG AGACCACGGT CTATTCAGTG AAGATGGATC ATTTATTGGT
    GCCTACGCTG GATCTAAGGA GAAGGGATCT GTTGAAAGCA ATGGAAGTTC TACAGCAACT
    TTTCCCCTTC GGGCATAA

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

    RefSeq XP_016795798.1
    CDS153..3830
    Translation

    Target ORF information:

    RefSeq Version XM_016940309.2
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_016940309.2

    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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAGTAAAG GTATCGGGAA GATATCAGAA
    GGAGTAAATC TTACTCAAAA GACTCACCCA ATAGAGGTAT TTGAGCCGGG AGCTGAACAT
    ATAGTTCGCC TAATGACTAA GAATTGGGGT GATAACGATA GCATTTTTCA AGATGTAATT
    GAGACAAGAG GGAGAGAATA TGCTGGTTTA TACGATGACA TCTCCACTCA AGGCTGGTTT
    ATTGGACTGA TGTGTGCGAT TGCTCTTCTC ACACTACTAT TATTAACTGT TTGCTTTGTG
    AAGAGGAATA GGGGTGGAAA GTACTCAGTT AAAGAAAAGG AAGATTTGCA TCCAGACCCA
    GAAATTCAGT CAGTAAAAGA TGAAACCTTT GGTGAATACA GTGACAGTGA TGAAAAGCCT
    CTCAAAGGAA GCCTTCGGTC CCTTAATAGG GATATGCAGC CTACTGAAAG TGCTGACAGC
    TTAGTCGAAT ACGGAGAGGG AGACCACGGT CTATTCAGTG AAGATGGATC ATTTATTGGT
    GCCTACGCTG GATCTAAGGA GAAGGGATCT GTTGAAAGCA ATGGAAGTTC TACAGCAACT
    TTTCCCCTTC GGGCATAA

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

    CloneID OPc06191
    Clone ID Related Accession (Same CDS sequence) XM_016940308.1 , XM_009444749.2 , XM_009444754.3 , XM_009444754.2 , XM_009444753.2 , XM_009444751.2 , XM_016940309.1 , XM_009444753.3 , XM_009444750.2 , XM_016940309.2 , XM_001136954.3 , XM_009444750.3 , XM_001136954.4 , XM_009444751.3 , XM_009444749.3
    Accession Version XM_001136954.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3678bp)
    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 neural cell adhesion molecule L1-like protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_006490.4) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Oct 7, 2014 this sequence version replaced XM_001136954.2. ##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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAGTAAAG GTATCGGGAA GATATCAGAA
    GGAGTAAATC TTACTCAAAA GACTCACCCA ATAGAGGTAT TTGAGCCGGG AGCTGAACAT
    ATAGTTCGCC TAATGACTAA GAATTGGGGT GATAACGATA GCATTTTTCA AGATGTAATT
    GAGACAAGAG GGAGAGAATA TGCTGGTTTA TACGATGACA TCTCCACTCA AGGCTGGTTT
    ATTGGACTGA TGTGTGCGAT TGCTCTTCTC ACACTACTAT TATTAACTGT TTGCTTTGTG
    AAGAGGAATA GGGGTGGAAA GTACTCAGTT AAAGAAAAGG AAGATTTGCA TCCAGACCCA
    GAAATTCAGT CAGTAAAAGA TGAAACCTTT GGTGAATACA GTGACAGTGA TGAAAAGCCT
    CTCAAAGGAA GCCTTCGGTC CCTTAATAGG GATATGCAGC CTACTGAAAG TGCTGACAGC
    TTAGTCGAAT ACGGAGAGGG AGACCACGGT CTATTCAGTG AAGATGGATC ATTTATTGGT
    GCCTACGCTG GATCTAAGGA GAAGGGATCT GTTGAAAGCA ATGGAAGTTC TACAGCAACT
    TTTCCCCTTC GGGCATAA

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

    RefSeq XP_001136954.1
    CDS646..4323
    Translation

    Target ORF information:

    RefSeq Version XM_001136954.3
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_001136954.3

    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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAGTAAAG GTATCGGGAA GATATCAGAA
    GGAGTAAATC TTACTCAAAA GACTCACCCA ATAGAGGTAT TTGAGCCGGG AGCTGAACAT
    ATAGTTCGCC TAATGACTAA GAATTGGGGT GATAACGATA GCATTTTTCA AGATGTAATT
    GAGACAAGAG GGAGAGAATA TGCTGGTTTA TACGATGACA TCTCCACTCA AGGCTGGTTT
    ATTGGACTGA TGTGTGCGAT TGCTCTTCTC ACACTACTAT TATTAACTGT TTGCTTTGTG
    AAGAGGAATA GGGGTGGAAA GTACTCAGTT AAAGAAAAGG AAGATTTGCA TCCAGACCCA
    GAAATTCAGT CAGTAAAAGA TGAAACCTTT GGTGAATACA GTGACAGTGA TGAAAAGCCT
    CTCAAAGGAA GCCTTCGGTC CCTTAATAGG GATATGCAGC CTACTGAAAG TGCTGACAGC
    TTAGTCGAAT ACGGAGAGGG AGACCACGGT CTATTCAGTG AAGATGGATC ATTTATTGGT
    GCCTACGCTG GATCTAAGGA GAAGGGATCT GTTGAAAGCA ATGGAAGTTC TACAGCAACT
    TTTCCCCTTC GGGCATAA

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

    CloneID OPc06191
    Clone ID Related Accession (Same CDS sequence) XM_016940308.1 , XM_009444749.2 , XM_009444754.3 , XM_009444754.2 , XM_009444753.2 , XM_009444751.2 , XM_016940309.1 , XM_009444753.3 , XM_009444750.2 , XM_016940309.2 , XM_001136954.3 , XM_009444750.3 , XM_001136954.4 , XM_009444751.3 , XM_009444749.3
    Accession Version XM_009444750.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3678bp)
    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 neural cell adhesion molecule L1-like protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036882.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 20, 2018 this sequence version replaced XM_009444750.2. ##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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAGTAAAG GTATCGGGAA GATATCAGAA
    GGAGTAAATC TTACTCAAAA GACTCACCCA ATAGAGGTAT TTGAGCCGGG AGCTGAACAT
    ATAGTTCGCC TAATGACTAA GAATTGGGGT GATAACGATA GCATTTTTCA AGATGTAATT
    GAGACAAGAG GGAGAGAATA TGCTGGTTTA TACGATGACA TCTCCACTCA AGGCTGGTTT
    ATTGGACTGA TGTGTGCGAT TGCTCTTCTC ACACTACTAT TATTAACTGT TTGCTTTGTG
    AAGAGGAATA GGGGTGGAAA GTACTCAGTT AAAGAAAAGG AAGATTTGCA TCCAGACCCA
    GAAATTCAGT CAGTAAAAGA TGAAACCTTT GGTGAATACA GTGACAGTGA TGAAAAGCCT
    CTCAAAGGAA GCCTTCGGTC CCTTAATAGG GATATGCAGC CTACTGAAAG TGCTGACAGC
    TTAGTCGAAT ACGGAGAGGG AGACCACGGT CTATTCAGTG AAGATGGATC ATTTATTGGT
    GCCTACGCTG GATCTAAGGA GAAGGGATCT GTTGAAAGCA ATGGAAGTTC TACAGCAACT
    TTTCCCCTTC GGGCATAA

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

    RefSeq XP_009443025.1
    CDS495..4172
    Translation

    Target ORF information:

    RefSeq Version XM_009444750.3
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009444750.3

    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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAGTAAAG GTATCGGGAA GATATCAGAA
    GGAGTAAATC TTACTCAAAA GACTCACCCA ATAGAGGTAT TTGAGCCGGG AGCTGAACAT
    ATAGTTCGCC TAATGACTAA GAATTGGGGT GATAACGATA GCATTTTTCA AGATGTAATT
    GAGACAAGAG GGAGAGAATA TGCTGGTTTA TACGATGACA TCTCCACTCA AGGCTGGTTT
    ATTGGACTGA TGTGTGCGAT TGCTCTTCTC ACACTACTAT TATTAACTGT TTGCTTTGTG
    AAGAGGAATA GGGGTGGAAA GTACTCAGTT AAAGAAAAGG AAGATTTGCA TCCAGACCCA
    GAAATTCAGT CAGTAAAAGA TGAAACCTTT GGTGAATACA GTGACAGTGA TGAAAAGCCT
    CTCAAAGGAA GCCTTCGGTC CCTTAATAGG GATATGCAGC CTACTGAAAG TGCTGACAGC
    TTAGTCGAAT ACGGAGAGGG AGACCACGGT CTATTCAGTG AAGATGGATC ATTTATTGGT
    GCCTACGCTG GATCTAAGGA GAAGGGATCT GTTGAAAGCA ATGGAAGTTC TACAGCAACT
    TTTCCCCTTC GGGCATAA

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

    CloneID OPc06191
    Clone ID Related Accession (Same CDS sequence) XM_016940308.1 , XM_009444749.2 , XM_009444754.3 , XM_009444754.2 , XM_009444753.2 , XM_009444751.2 , XM_016940309.1 , XM_009444753.3 , XM_009444750.2 , XM_016940309.2 , XM_001136954.3 , XM_009444750.3 , XM_001136954.4 , XM_009444751.3 , XM_009444749.3
    Accession Version XM_001136954.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3678bp)
    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 neural cell adhesion molecule L1-like protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036882.1) 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_001136954.3. ##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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAGTAAAG GTATCGGGAA GATATCAGAA
    GGAGTAAATC TTACTCAAAA GACTCACCCA ATAGAGGTAT TTGAGCCGGG AGCTGAACAT
    ATAGTTCGCC TAATGACTAA GAATTGGGGT GATAACGATA GCATTTTTCA AGATGTAATT
    GAGACAAGAG GGAGAGAATA TGCTGGTTTA TACGATGACA TCTCCACTCA AGGCTGGTTT
    ATTGGACTGA TGTGTGCGAT TGCTCTTCTC ACACTACTAT TATTAACTGT TTGCTTTGTG
    AAGAGGAATA GGGGTGGAAA GTACTCAGTT AAAGAAAAGG AAGATTTGCA TCCAGACCCA
    GAAATTCAGT CAGTAAAAGA TGAAACCTTT GGTGAATACA GTGACAGTGA TGAAAAGCCT
    CTCAAAGGAA GCCTTCGGTC CCTTAATAGG GATATGCAGC CTACTGAAAG TGCTGACAGC
    TTAGTCGAAT ACGGAGAGGG AGACCACGGT CTATTCAGTG AAGATGGATC ATTTATTGGT
    GCCTACGCTG GATCTAAGGA GAAGGGATCT GTTGAAAGCA ATGGAAGTTC TACAGCAACT
    TTTCCCCTTC GGGCATAA

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

    RefSeq XP_001136954.1
    CDS644..4321
    Translation

    Target ORF information:

    RefSeq Version XM_001136954.4
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_001136954.4

    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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAGTAAAG GTATCGGGAA GATATCAGAA
    GGAGTAAATC TTACTCAAAA GACTCACCCA ATAGAGGTAT TTGAGCCGGG AGCTGAACAT
    ATAGTTCGCC TAATGACTAA GAATTGGGGT GATAACGATA GCATTTTTCA AGATGTAATT
    GAGACAAGAG GGAGAGAATA TGCTGGTTTA TACGATGACA TCTCCACTCA AGGCTGGTTT
    ATTGGACTGA TGTGTGCGAT TGCTCTTCTC ACACTACTAT TATTAACTGT TTGCTTTGTG
    AAGAGGAATA GGGGTGGAAA GTACTCAGTT AAAGAAAAGG AAGATTTGCA TCCAGACCCA
    GAAATTCAGT CAGTAAAAGA TGAAACCTTT GGTGAATACA GTGACAGTGA TGAAAAGCCT
    CTCAAAGGAA GCCTTCGGTC CCTTAATAGG GATATGCAGC CTACTGAAAG TGCTGACAGC
    TTAGTCGAAT ACGGAGAGGG AGACCACGGT CTATTCAGTG AAGATGGATC ATTTATTGGT
    GCCTACGCTG GATCTAAGGA GAAGGGATCT GTTGAAAGCA ATGGAAGTTC TACAGCAACT
    TTTCCCCTTC GGGCATAA

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

    CloneID OPc06191
    Clone ID Related Accession (Same CDS sequence) XM_016940308.1 , XM_009444749.2 , XM_009444754.3 , XM_009444754.2 , XM_009444753.2 , XM_009444751.2 , XM_016940309.1 , XM_009444753.3 , XM_009444750.2 , XM_016940309.2 , XM_001136954.3 , XM_009444750.3 , XM_001136954.4 , XM_009444751.3 , XM_009444749.3
    Accession Version XM_009444751.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3678bp)
    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 neural cell adhesion molecule L1-like protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036882.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 20, 2018 this sequence version replaced XM_009444751.2. ##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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAGTAAAG GTATCGGGAA GATATCAGAA
    GGAGTAAATC TTACTCAAAA GACTCACCCA ATAGAGGTAT TTGAGCCGGG AGCTGAACAT
    ATAGTTCGCC TAATGACTAA GAATTGGGGT GATAACGATA GCATTTTTCA AGATGTAATT
    GAGACAAGAG GGAGAGAATA TGCTGGTTTA TACGATGACA TCTCCACTCA AGGCTGGTTT
    ATTGGACTGA TGTGTGCGAT TGCTCTTCTC ACACTACTAT TATTAACTGT TTGCTTTGTG
    AAGAGGAATA GGGGTGGAAA GTACTCAGTT AAAGAAAAGG AAGATTTGCA TCCAGACCCA
    GAAATTCAGT CAGTAAAAGA TGAAACCTTT GGTGAATACA GTGACAGTGA TGAAAAGCCT
    CTCAAAGGAA GCCTTCGGTC CCTTAATAGG GATATGCAGC CTACTGAAAG TGCTGACAGC
    TTAGTCGAAT ACGGAGAGGG AGACCACGGT CTATTCAGTG AAGATGGATC ATTTATTGGT
    GCCTACGCTG GATCTAAGGA GAAGGGATCT GTTGAAAGCA ATGGAAGTTC TACAGCAACT
    TTTCCCCTTC GGGCATAA

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

    RefSeq XP_009443026.1
    CDS631..4308
    Translation

    Target ORF information:

    RefSeq Version XM_009444751.3
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009444751.3

    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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAGTAAAG GTATCGGGAA GATATCAGAA
    GGAGTAAATC TTACTCAAAA GACTCACCCA ATAGAGGTAT TTGAGCCGGG AGCTGAACAT
    ATAGTTCGCC TAATGACTAA GAATTGGGGT GATAACGATA GCATTTTTCA AGATGTAATT
    GAGACAAGAG GGAGAGAATA TGCTGGTTTA TACGATGACA TCTCCACTCA AGGCTGGTTT
    ATTGGACTGA TGTGTGCGAT TGCTCTTCTC ACACTACTAT TATTAACTGT TTGCTTTGTG
    AAGAGGAATA GGGGTGGAAA GTACTCAGTT AAAGAAAAGG AAGATTTGCA TCCAGACCCA
    GAAATTCAGT CAGTAAAAGA TGAAACCTTT GGTGAATACA GTGACAGTGA TGAAAAGCCT
    CTCAAAGGAA GCCTTCGGTC CCTTAATAGG GATATGCAGC CTACTGAAAG TGCTGACAGC
    TTAGTCGAAT ACGGAGAGGG AGACCACGGT CTATTCAGTG AAGATGGATC ATTTATTGGT
    GCCTACGCTG GATCTAAGGA GAAGGGATCT GTTGAAAGCA ATGGAAGTTC TACAGCAACT
    TTTCCCCTTC GGGCATAA

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

    CloneID OPc06191
    Clone ID Related Accession (Same CDS sequence) XM_016940308.1 , XM_009444749.2 , XM_009444754.3 , XM_009444754.2 , XM_009444753.2 , XM_009444751.2 , XM_016940309.1 , XM_009444753.3 , XM_009444750.2 , XM_016940309.2 , XM_001136954.3 , XM_009444750.3 , XM_001136954.4 , XM_009444751.3 , XM_009444749.3
    Accession Version XM_009444749.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3678bp)
    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 neural cell adhesion molecule L1-like protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036882.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 20, 2018 this sequence version replaced XM_009444749.2. ##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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAGTAAAG GTATCGGGAA GATATCAGAA
    GGAGTAAATC TTACTCAAAA GACTCACCCA ATAGAGGTAT TTGAGCCGGG AGCTGAACAT
    ATAGTTCGCC TAATGACTAA GAATTGGGGT GATAACGATA GCATTTTTCA AGATGTAATT
    GAGACAAGAG GGAGAGAATA TGCTGGTTTA TACGATGACA TCTCCACTCA AGGCTGGTTT
    ATTGGACTGA TGTGTGCGAT TGCTCTTCTC ACACTACTAT TATTAACTGT TTGCTTTGTG
    AAGAGGAATA GGGGTGGAAA GTACTCAGTT AAAGAAAAGG AAGATTTGCA TCCAGACCCA
    GAAATTCAGT CAGTAAAAGA TGAAACCTTT GGTGAATACA GTGACAGTGA TGAAAAGCCT
    CTCAAAGGAA GCCTTCGGTC CCTTAATAGG GATATGCAGC CTACTGAAAG TGCTGACAGC
    TTAGTCGAAT ACGGAGAGGG AGACCACGGT CTATTCAGTG AAGATGGATC ATTTATTGGT
    GCCTACGCTG GATCTAAGGA GAAGGGATCT GTTGAAAGCA ATGGAAGTTC TACAGCAACT
    TTTCCCCTTC GGGCATAA

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

    RefSeq XP_009443024.1
    CDS168..3845
    Translation

    Target ORF information:

    RefSeq Version XM_009444749.3
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009444749.3

    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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAGTAAAG GTATCGGGAA GATATCAGAA
    GGAGTAAATC TTACTCAAAA GACTCACCCA ATAGAGGTAT TTGAGCCGGG AGCTGAACAT
    ATAGTTCGCC TAATGACTAA GAATTGGGGT GATAACGATA GCATTTTTCA AGATGTAATT
    GAGACAAGAG GGAGAGAATA TGCTGGTTTA TACGATGACA TCTCCACTCA AGGCTGGTTT
    ATTGGACTGA TGTGTGCGAT TGCTCTTCTC ACACTACTAT TATTAACTGT TTGCTTTGTG
    AAGAGGAATA GGGGTGGAAA GTACTCAGTT AAAGAAAAGG AAGATTTGCA TCCAGACCCA
    GAAATTCAGT CAGTAAAAGA TGAAACCTTT GGTGAATACA GTGACAGTGA TGAAAAGCCT
    CTCAAAGGAA GCCTTCGGTC CCTTAATAGG GATATGCAGC CTACTGAAAG TGCTGACAGC
    TTAGTCGAAT ACGGAGAGGG AGACCACGGT CTATTCAGTG AAGATGGATC ATTTATTGGT
    GCCTACGCTG GATCTAAGGA GAAGGGATCT GTTGAAAGCA ATGGAAGTTC TACAGCAACT
    TTTCCCCTTC GGGCATAA

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

    CloneID OPc37676
    Clone ID Related Accession (Same CDS sequence) XM_016940312.2 , XM_016940312.1
    Accession Version XM_016940312.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3516bp)
    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 neural cell adhesion molecule L1-like protein isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036882.1) 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_016940312.1. ##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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAAATATG CTGGTTTATA CGATGACATC
    TCCACTCAAG GCTGGTTTAT TGGACTGATG TGTGCGATTG CTCTTCTCAC ACTACTATTA
    TTAACTGTTT GCTTTGTGAA GAGGAATAGG GGTGGAAAGT ACTCAGTTAA AGAAAAGGAA
    GATTTGCATC CAGACCCAGA AATTCAGTCA GTAAAAGATG AAACCTTTGG TGAATACAGT
    GACAGTGATG AAAAGCCTCT CAAAGGAAGC CTTCGGTCCC TTAATAGGGA TATGCAGCCT
    ACTGAAAGTG CTGACAGCTT AGTCGAATAC GGAGAGGGAG ACCACGGTCT ATTCAGTGAA
    GATGGATCAT TTATTGGTGC CTACGCTGGA TCTAAGGAGA AGGGATCTGT TGAAAGCAAT
    GGAAGTTCTA CAGCAACTTT TCCCCTTCGG GCATAA

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

    RefSeq XP_016795801.1
    CDS498..4013
    Translation

    Target ORF information:

    RefSeq Version XM_016940312.2
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_016940312.2

    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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAAATATG CTGGTTTATA CGATGACATC
    TCCACTCAAG GCTGGTTTAT TGGACTGATG TGTGCGATTG CTCTTCTCAC ACTACTATTA
    TTAACTGTTT GCTTTGTGAA GAGGAATAGG GGTGGAAAGT ACTCAGTTAA AGAAAAGGAA
    GATTTGCATC CAGACCCAGA AATTCAGTCA GTAAAAGATG AAACCTTTGG TGAATACAGT
    GACAGTGATG AAAAGCCTCT CAAAGGAAGC CTTCGGTCCC TTAATAGGGA TATGCAGCCT
    ACTGAAAGTG CTGACAGCTT AGTCGAATAC GGAGAGGGAG ACCACGGTCT ATTCAGTGAA
    GATGGATCAT TTATTGGTGC CTACGCTGGA TCTAAGGAGA AGGGATCTGT TGAAAGCAAT
    GGAAGTTCTA CAGCAACTTT TCCCCTTCGG GCATAA

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

    CloneID OPc37676
    Clone ID Related Accession (Same CDS sequence) XM_016940312.2 , XM_016940312.1
    Accession Version XM_016940312.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3516bp)
    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 neural cell adhesion molecule L1-like protein isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_006490.4) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: 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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAAATATG CTGGTTTATA CGATGACATC
    TCCACTCAAG GCTGGTTTAT TGGACTGATG TGTGCGATTG CTCTTCTCAC ACTACTATTA
    TTAACTGTTT GCTTTGTGAA GAGGAATAGG GGTGGAAAGT ACTCAGTTAA AGAAAAGGAA
    GATTTGCATC CAGACCCAGA AATTCAGTCA GTAAAAGATG AAACCTTTGG TGAATACAGT
    GACAGTGATG AAAAGCCTCT CAAAGGAAGC CTTCGGTCCC TTAATAGGGA TATGCAGCCT
    ACTGAAAGTG CTGACAGCTT AGTCGAATAC GGAGAGGGAG ACCACGGTCT ATTCAGTGAA
    GATGGATCAT TTATTGGTGC CTACGCTGGA TCTAAGGAGA AGGGATCTGT TGAAAGCAAT
    GGAAGTTCTA CAGCAACTTT TCCCCTTCGG GCATAA

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

    RefSeq XP_016795801.1
    CDS538..4053
    Translation

    Target ORF information:

    RefSeq Version XM_016940312.1
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes cell adhesion molecule L1 like (CHL1), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_016940312.1

    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
    ATGGAGCCGC TTTTACTTGG AAGAGGACTA ATCGTATCTC TAATTTTCTT CCTGTTAAAA 
    TTCTCAAAAG CAATTGAAAT ACCATCTTCA GTTCAACAGG TTCCAACAAT CATAAAACAG
    TCAAAAGTCC AAGTTGCCTT TCCCTTTGAT GAGTATTTTC AGATTGAATG TGAAGCTAAA
    GGAAATCCAG AACCAATATT TTCGTGGACT AAGGATGGCA ACCCTTTTTA TTTCACTGAC
    CATCGGATAA TGACATCGAA CAATTCAGGA ACGTTCAGAA TCCCAAATGA GGGGCACATA
    TCTCACTTTC AAGGGAAATA CCGCTGCTTT GCTTCAAATA AACTGGGAAT CGCTATGTCA
    GAAGAAATAG AATTTATAGT TCCAAGTGTT CCAAAATTTC CAAAAGAAAA AATTGACCCT
    CTTGAAGTGG AGGAGGGAGA TCCAATTGTC CTCCCATGCA ATCCTCCAAA AGGCCTCCCA
    CCTTTACACA TTTATTGGAT GAATATTGAA TTAGAACACA TCGAACAAGA TGAAAGAGTA
    TACATGAGCC AAAAGGGAGA TCTATACTTC GCAAACGTGG AAGAAAAGGA CAGTCGCAAT
    GACTACTGCT GCTTTGCTGC ATTTCCAAGA TTAAGGACTA TTGTACAGAA AATGCCAATG
    AAACTAACAG TTAACAGTTT AAAGCATGCT AATGACTCAA GTTCATCCAC AGAAATTGGT
    TCCAAGGCAA ATTCCATCAA GCAAAGAAAA CCCAAACTGC TGTTGCCTCC CACTGAGAGT
    GGCAGTGAGT CTTCAATTAC CATCCTCAAA GGGGAAATCT TGCTGCTTGA GTGTTTTGCT
    GAAGGCTTGC CAACTCCACA GGTTGATTGG AACAAAATTG GTGGTGACTT ACCAAAGGGG
    AGAGAAACAA AAGAAAATTA TGGCAAGACT TTGAAGATAG AGAATGTCTC CTACCAGGAC
    AAAGGAAATT ATCGCTGCAC AGCCAGCAAT TTCTTGGGAA CAGCCACTCA CGATTTTCAT
    GTTATAGTAG AAGAGCCTCC TCGCTGGACA AAGAAGCCTC AGAGTGCTGT GTATAGCACC
    GGAAGCAATG GCATCTTGTT ATGTGAGGCT GAAGGAGAAC CTCAACCCAC AATCAAGTGG
    AGAGTCAATG GCTCCCCAGT TGACAATCAT CCATTTGCTG GTGATGTTGT CTTCCCCAGG
    GAAATCAGTT TTACCAACCT TCAACCAAAT CATACTGCTG TGTACCAGTG TGAAGCCTCA
    AATGTCCATG GAACTATCCT TGCCAATGCC AATATTGATG TTGTGGATGT CCGTCCATTG
    ATACAAACCA AAGATGGAGA AAATTACGCT ACAGTGGTTG GGTACAGTGC TTTCTTACAT
    TGCGAGTTCT TTGCTTCACC TGAGGCAGTC GTGTCCTGGC AGAAGGTGGA AGAAGTGAAA
    CCCCTGGAGG GCAGGCGGTA TCATATCTAT GAAAATGGCA CATTGCAGAT CAACAGAACC
    ACCGAAGAAG ATGCTGGGTC TTACTCATGT TGGGTAGAAA ATGCTATAGG AAAAACTGCA
    GTCACAGCCA ATTTGGATAT TAGAAATGCT ACAAAACTTA GAGTTTCTCC TAAGAATCCT
    CGTATCCCCA AATTGCATAT GCTTGAATTA CATTGTGAGA GCAAATGTGA CTCACATTTG
    AAACACAGTT TGAAGTTGTC CTGGAGTAAA GATGGAGAAG CCTTTGAAAT TAATGGCACA
    GAAGATGGCA GGATAATTAT TGATGGAGCT AATTTGACCA TTTCTAATGT AACTTTAGAG
    GACCAAGGCA TTTACTGCTG TTCCGCTCAT ACTGCTCTAG ACAGTGCTGC CGATATAACT
    CAAGTAACTG TTCTTGATGT TCCGGATCCA CCAGAAAACC TTCACTTGTC TGAAAGACAG
    AACAGGAGTG TTCGGCTGAC CTGGGAAGCT GGAGCTGACC ACAACAGCAA TATTAGCGAG
    TATATTGTTG AATTTGAAGG AAACAAAGAA GAGCCTGGAA GGTGGGAGGA ACTGACCAGA
    GTCCAAGGAA AGAAAACCAC AGTTATCTTA CCTTTGGCTC CATTTGTGAG ATACCAGTTC
    AGGGTCATAG CCGTGAACGA AGTAGGGAGA AGTCAGCCTA GCCAGCCGTC AGACCGTCAT
    GAAACACCAC CAGCAGCTCC AGATAGGAAT CCACAAAACA TAAGGGTTCA AGCCTCTCAA
    CCCAAGGAAA TGATTATAAA GTGGGAGCCT TTGAAATCCA TGGAGCAGAA TGGACCAGGC
    CTAGAGTACA GAGTGACCTG GAAGCCACAG GGAGCCCCAG TGGAGTGGGA AGAAGAAACA
    GTCACAAACC ACACATTGCG GGTGATGACG CCTGCTGTCT ATGCCCCTTA TGATGTCAAG
    GTCCAGGCTA TCAATCAACT AGGATCTGGG CCTGACCCTC AGTCAGTGAC TCTCTATTCT
    GGAGAAGACT ATCCTGATAC AGCTCCAGTG ATCCATGGGG TGGACGTTAT AAACAGTACA
    TTAGTTAAAG TTACCTGGTC AACAATTCCA AAGGACAGAG TACATGGACG TCTGAAAGGC
    TATCAGATAA ATTGGTGGAA AACAAAAAGT CTGTTGGATG GAAGAACACA TCCCAAAGAA
    GTGAACATTC TAAGATTTTC AGGACAAAGA AACTCTGGAA TGGTTCCTTC CTTAGATGCC
    TTTAGTGAAT TTCATTTAAC AGTCTTAGCC TATAACTCTA AAGGAGCTGG TCCTGAAAGT
    GAGCCTTATA TATTTCAAAC ACCAGAAGGA GTACCTGAAC AGCCAACTTT TCTCAAGGTC
    ATCAAAGTTG ATAAAGACAC TGCCACTTTA TCTTGGGGAG TACCTAAGAA ATTAAATGGA
    AACTTAACTG GCTATCTTTT GCAATATCAG ATAATAAATG ACACCTACGA GATTGGAGAA
    TTAAATGATA TTAACATTAC AACTCCATCA AAGCCCAGCT GGCACCTCTC AAACCTCAAT
    GCAACTACCA AGTACAAATT CTACTTGAGG GCTTGCACTT CACAGGGCTG TGGAAAACCG
    ATCACAGAGG AAAGCTCCAC CTTAGGAGAA GGGAAATATG CTGGTTTATA CGATGACATC
    TCCACTCAAG GCTGGTTTAT TGGACTGATG TGTGCGATTG CTCTTCTCAC ACTACTATTA
    TTAACTGTTT GCTTTGTGAA GAGGAATAGG GGTGGAAAGT ACTCAGTTAA AGAAAAGGAA
    GATTTGCATC CAGACCCAGA AATTCAGTCA GTAAAAGATG AAACCTTTGG TGAATACAGT
    GACAGTGATG AAAAGCCTCT CAAAGGAAGC CTTCGGTCCC TTAATAGGGA TATGCAGCCT
    ACTGAAAGTG CTGACAGCTT AGTCGAATAC GGAGAGGGAG ACCACGGTCT ATTCAGTGAA
    GATGGATCAT TTATTGGTGC CTACGCTGGA TCTAAGGAGA AGGGATCTGT TGAAAGCAAT
    GGAAGTTCTA CAGCAACTTT TCCCCTTCGG GCATAA

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