BCAN cDNA ORF clone, Rhinopithecus roxellana(golden snub-nosed monkey)

The following BCAN gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the BCAN 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
ORh159784 XM_010356409.1
Latest version!
Rhinopithecus roxellana brevican (BCAN), mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $510.30
$729.00
ORh266550 XM_030936704.1
Latest version!
Rhinopithecus roxellana brevican (BCAN), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
ORh266551 XM_010356409.2
Latest version!
Rhinopithecus roxellana brevican (BCAN), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00

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

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

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

  • Reference Sequences (Refseq)
    CloneID ORh159784
    Clone ID Related Accession (Same CDS sequence) XM_010356409.1
    Accession Version XM_010356409.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2736bp)
    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 2014-11-20
    Organism Rhinopithecus roxellana(golden snub-nosed monkey)
    Product brevican core protein
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_010830063.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rhinopithecus roxellana Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 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
    ATGGCCCAGC TACTCCTGCC CCTGCTGGCA GCCCTGGTCC TGGCCCAGGC TCCTGCAGCT 
    TTAGCAGATG TTCTGGAAGG AGACAGCTCA GAGGACCGCG CCTTTCGCGT GCGCATCTCC
    GGCCACGCGC CACTGCAGGG CGTGCTCGGT GGCGCCCTCA CCATCCCGTG CCACGTCCAC
    TACCTGCGGC CGCCGCCGAG CCGCCGGGCC GTGCTGGGAT CTCCGCGGGT CAAGTGGACT
    TTCCTGTCTG GGGGCCGGGA GGCAGAGGTG CTGGTGGCGC GGGGAGTTCG CGTCAAGGTG
    AATGAGGCCT ACCGGTTCCG CGTGGCACTG CCTGCGTACC CAGCGTCGCT CACCGATGTC
    TCCCTGGCGC TGAGCGAGCT GCGCCCCAAC GACTCAGGTA TCTATCGCTG CGAGGTCCAG
    CACGGCATCG ATGACAGCAG CGACGCTGTG GAGGTCAAGG TGAAAGGGGT CGTCTTTCTC
    TACCGAGAGG GCTCTGCCCG CTACGCTTTC TCCTTTGTTG GGGCCCAGGA AGCCTGTGCC
    CGCATTGGAG CCCACATCGC CACCCCGGAG CAGCTCTATG CCGCCTACCT TGGGGGCTAT
    GAGCAATGTG ATGCTGGCTG GCTGTCGGAT CAGACCGTGA GGTATCCCAT CCAGACCCCA
    CGAGAGGCCT GTTACGGAGA TATGGATGGC TTCCCTGGGG TCCGGAACTA TGGTGTGGTG
    GACCCGGATG ACCTCTATGA TGTCTACTGT TATGCTGAAG ACCTAAATGG AGAACTGTTC
    CTGGGTGACC CTCCAGAAAA GCTGACATTG GAGGAAGCAC GGGCGTACTG CCAGGAGCGG
    GGTGCAGAGA TTGCCACCAC GGGCCAGCTG TATGCCGCCT GGGATGGTGG CCTGGACCGC
    TGCAGCCCAG GGTGGCTGGC TGATGGCAGT GTGCGCTACC CCATTGTCAC ACCCAGCCAG
    CGCTGTGGTG GGGGCTTGCC TGGTGTCAAG ACTCTCTTCC TCTTCCCCAA CCAGACTGGC
    TTCCCCAATA AGCACAGCCG CTTCAACGTC TACTGCTTCC GAGACTCGGC CCAGCCTTCT
    GCCATTCCTG AGGCCTCCAA CACAGCCTCC GACCCAGCCT CTGATGGACT AGAGGCCATC
    ATCACAGTGA CAGAGACCCT GGAGGAACTG CAGCTGCCTC AGGAAGCCAT GGAGAGCGAA
    TCCCGTGGGG CCATCTACTC CATCCCCATC ATGGAAGATG GAGGAGGTGG AAGCTCCACT
    CCAGAAGACC CAGCAGAGGC CCCTAGGACA GTCCTAGAAT TTGAAACGCA ATCCATGGTA
    CCACCCACGG TGTTCTCAGA AGAGGAAGGC AAGGCACTGG AGAAAGAAGA GAAATATGAA
    GATGAAGAAG AGAAAGAGGA AGAAGAAGAG GAGGAAGAGG TGGAGGATGA GGCTCTGTGG
    TCATGGCCCA GCGAGTTCAA CAGCCCGGGC CCTGAGGTCT CTCTCCCCAC TGAGCCAGCA
    GCCCAGGAGG AGTCACTCTC CCAGGCGCCA GCAAGGGCAG TCCTGCAGCC TGGTGTATCA
    CCACTTCCTG ATGGAGAGTC AGAAACTCCC AGGCCTCCAA GGGTCCATGG ACCACCTACT
    GAGACTCTGC CCACTCCCAG GGAGAGGAAC CTAGCATCCC CATCACCTTC CACTCTGGCT
    GGGGCAAGAG AGGTGGGGGA GGAAACCGGT GGTCCTGAGC TATCTGGGGT CCCTCGAGGA
    GAGAGTGAGG AGACAGGAAG CTCTGAGGGT GCCCCTTCCC TGCTTCCAGC CACACGGGCC
    CCTGAGGGTA CCAGGGAACT GGAGGCCCCC TCTGAAGATA ATTCTGGAAG AACTGCCCCG
    GCAGGGACCT CAGTGCAGGC CCAGCCAGTG CTGCCCACTG ACAGCGCCAG CCGAGGTGGA
    GTGGCCGTGG TCCCCGCATC AGGTGACTGT GTCCCCACCC CCTGCCACAA TGGTGGGACA
    TGCTTGGAAG AGGAGGAAGG GATCCGCTGC CTATGTCTGC CTGGCTATGG GGGAGACCTG
    TGCGATGTTG GCCTTAGCTT CTGCAACCCG GGCTGGGACG CCTTCCAGGG CGCCTGCTAC
    AAACACTTTT CCACACGAAG GAGCTGGGAG GAGGCAGAGA CCCAGTGCCG GATGTACGGC
    GCGCATCTGG CCAGCATCAG CACGCCCGAG GAACAGGACT TCATCAACAA CCGGTACCGG
    GAGTACCAGT GGATCGGGCT CAACGATAGG ACCATTGAAG GCGACTTCTT GTGGTCGGAT
    GGCGTCCCCC TGCTCTATGA GAACTGGAAC CCTGGGCAGC CTGACAGCTA CTTCCTGTCT
    GGAGAGAACT GCGTGGTCAT GGTGTGGCAT GATCAGGGAC AATGGAGTGA TGTGCCCTGC
    AACTACCACC TGTCCTACAC CTGCAAGATG GGGCTGGTGT CCTGTGGGCC GCCACCGGAG
    CTGCCCCTGG CTCAAGTGTT TGGCCGCCCA CGGCTGCGCT ATGAGGTGGA CACAGTGCTT
    CGCTACCGGT GCCGGGAAGG ACTGGCCCAG CGCAATCTGC CGCTGATCCG ATGCCAAGAG
    AACGGCCGTT GGGAGGCCCC CCAGATCTCC TGTGTGCCCA GAAGACCTGC CCGAGCTCTG
    CACCCAGGGA AGGACCCAGA AGGACGTCAG GGGAGGCTGC TGGGACGCTG GAAGGCGCTG
    CTGATCCCCC CTTCCAGCCC CACGCCAGGT CCCTAG

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

    RefSeq XP_010354711.1
    CDS162..2897
    Translation

    Target ORF information:

    RefSeq Version XM_010356409.1
    Organism Rhinopithecus roxellana(golden snub-nosed monkey)
    Definition Rhinopithecus roxellana brevican (BCAN), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_010356409.1

    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
    ATGGCCCAGC TACTCCTGCC CCTGCTGGCA GCCCTGGTCC TGGCCCAGGC TCCTGCAGCT 
    TTAGCAGATG TTCTGGAAGG AGACAGCTCA GAGGACCGCG CCTTTCGCGT GCGCATCTCC
    GGCCACGCGC CACTGCAGGG CGTGCTCGGT GGCGCCCTCA CCATCCCGTG CCACGTCCAC
    TACCTGCGGC CGCCGCCGAG CCGCCGGGCC GTGCTGGGAT CTCCGCGGGT CAAGTGGACT
    TTCCTGTCTG GGGGCCGGGA GGCAGAGGTG CTGGTGGCGC GGGGAGTTCG CGTCAAGGTG
    AATGAGGCCT ACCGGTTCCG CGTGGCACTG CCTGCGTACC CAGCGTCGCT CACCGATGTC
    TCCCTGGCGC TGAGCGAGCT GCGCCCCAAC GACTCAGGTA TCTATCGCTG CGAGGTCCAG
    CACGGCATCG ATGACAGCAG CGACGCTGTG GAGGTCAAGG TGAAAGGGGT CGTCTTTCTC
    TACCGAGAGG GCTCTGCCCG CTACGCTTTC TCCTTTGTTG GGGCCCAGGA AGCCTGTGCC
    CGCATTGGAG CCCACATCGC CACCCCGGAG CAGCTCTATG CCGCCTACCT TGGGGGCTAT
    GAGCAATGTG ATGCTGGCTG GCTGTCGGAT CAGACCGTGA GGTATCCCAT CCAGACCCCA
    CGAGAGGCCT GTTACGGAGA TATGGATGGC TTCCCTGGGG TCCGGAACTA TGGTGTGGTG
    GACCCGGATG ACCTCTATGA TGTCTACTGT TATGCTGAAG ACCTAAATGG AGAACTGTTC
    CTGGGTGACC CTCCAGAAAA GCTGACATTG GAGGAAGCAC GGGCGTACTG CCAGGAGCGG
    GGTGCAGAGA TTGCCACCAC GGGCCAGCTG TATGCCGCCT GGGATGGTGG CCTGGACCGC
    TGCAGCCCAG GGTGGCTGGC TGATGGCAGT GTGCGCTACC CCATTGTCAC ACCCAGCCAG
    CGCTGTGGTG GGGGCTTGCC TGGTGTCAAG ACTCTCTTCC TCTTCCCCAA CCAGACTGGC
    TTCCCCAATA AGCACAGCCG CTTCAACGTC TACTGCTTCC GAGACTCGGC CCAGCCTTCT
    GCCATTCCTG AGGCCTCCAA CACAGCCTCC GACCCAGCCT CTGATGGACT AGAGGCCATC
    ATCACAGTGA CAGAGACCCT GGAGGAACTG CAGCTGCCTC AGGAAGCCAT GGAGAGCGAA
    TCCCGTGGGG CCATCTACTC CATCCCCATC ATGGAAGATG GAGGAGGTGG AAGCTCCACT
    CCAGAAGACC CAGCAGAGGC CCCTAGGACA GTCCTAGAAT TTGAAACGCA ATCCATGGTA
    CCACCCACGG TGTTCTCAGA AGAGGAAGGC AAGGCACTGG AGAAAGAAGA GAAATATGAA
    GATGAAGAAG AGAAAGAGGA AGAAGAAGAG GAGGAAGAGG TGGAGGATGA GGCTCTGTGG
    TCATGGCCCA GCGAGTTCAA CAGCCCGGGC CCTGAGGTCT CTCTCCCCAC TGAGCCAGCA
    GCCCAGGAGG AGTCACTCTC CCAGGCGCCA GCAAGGGCAG TCCTGCAGCC TGGTGTATCA
    CCACTTCCTG ATGGAGAGTC AGAAACTCCC AGGCCTCCAA GGGTCCATGG ACCACCTACT
    GAGACTCTGC CCACTCCCAG GGAGAGGAAC CTAGCATCCC CATCACCTTC CACTCTGGCT
    GGGGCAAGAG AGGTGGGGGA GGAAACCGGT GGTCCTGAGC TATCTGGGGT CCCTCGAGGA
    GAGAGTGAGG AGACAGGAAG CTCTGAGGGT GCCCCTTCCC TGCTTCCAGC CACACGGGCC
    CCTGAGGGTA CCAGGGAACT GGAGGCCCCC TCTGAAGATA ATTCTGGAAG AACTGCCCCG
    GCAGGGACCT CAGTGCAGGC CCAGCCAGTG CTGCCCACTG ACAGCGCCAG CCGAGGTGGA
    GTGGCCGTGG TCCCCGCATC AGGTGACTGT GTCCCCACCC CCTGCCACAA TGGTGGGACA
    TGCTTGGAAG AGGAGGAAGG GATCCGCTGC CTATGTCTGC CTGGCTATGG GGGAGACCTG
    TGCGATGTTG GCCTTAGCTT CTGCAACCCG GGCTGGGACG CCTTCCAGGG CGCCTGCTAC
    AAACACTTTT CCACACGAAG GAGCTGGGAG GAGGCAGAGA CCCAGTGCCG GATGTACGGC
    GCGCATCTGG CCAGCATCAG CACGCCCGAG GAACAGGACT TCATCAACAA CCGGTACCGG
    GAGTACCAGT GGATCGGGCT CAACGATAGG ACCATTGAAG GCGACTTCTT GTGGTCGGAT
    GGCGTCCCCC TGCTCTATGA GAACTGGAAC CCTGGGCAGC CTGACAGCTA CTTCCTGTCT
    GGAGAGAACT GCGTGGTCAT GGTGTGGCAT GATCAGGGAC AATGGAGTGA TGTGCCCTGC
    AACTACCACC TGTCCTACAC CTGCAAGATG GGGCTGGTGT CCTGTGGGCC GCCACCGGAG
    CTGCCCCTGG CTCAAGTGTT TGGCCGCCCA CGGCTGCGCT ATGAGGTGGA CACAGTGCTT
    CGCTACCGGT GCCGGGAAGG ACTGGCCCAG CGCAATCTGC CGCTGATCCG ATGCCAAGAG
    AACGGCCGTT GGGAGGCCCC CCAGATCTCC TGTGTGCCCA GAAGACCTGC CCGAGCTCTG
    CACCCAGGGA AGGACCCAGA AGGACGTCAG GGGAGGCTGC TGGGACGCTG GAAGGCGCTG
    CTGATCCCCC CTTCCAGCCC CACGCCAGGT CCCTAG

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

    CloneID ORh266550
    Clone ID Related Accession (Same CDS sequence) XM_030936704.1
    Accession Version XM_030936704.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2820bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-09-24
    Organism Rhinopithecus roxellana(golden snub-nosed monkey)
    Product brevican core protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044556.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Rhinopithecus roxellana Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    ATGAGTGTAG TAGGGAGCCG GGGGAAGTCC ATCTTGAAGT CTAACCCCAT CTTTCCTTCT 
    CGTGTCCTTC TGTCAGCCTG CAGCATGGCC CAGCTACTCC TGCCCCTGCT GGCAGCCCTG
    GTCCTGGCCC AGGCTCCTGC AGCTTTAGCA GATGTTCTGG AAGGAGACAG CTCAGAGGAC
    CGCGCCTTTC GCGTGCGCAT CTCCGGCCAC GCGCCACTGC AGGGCGTGCT CGGTGGCGCC
    CTCACCATCC CGTGCCACGT CCACTACCTG CGGCCGCCGC CGAGCCGCCG GGCCGTGCTG
    GGATCTCCGC GGGTCAAGTG GACTTTCCTG TCTGGGGGCC GGGAGGCAGA GGTGCTGGTG
    GCGCGGGGAG TTCGCGTCAA GGTGAATGAG GCCTACCGGT TCCGCGTGGC ACTGCCTGCG
    TACCCAGCGT CGCTCACCGA TGTCTCCCTG GCGCTGAGCG AGCTGCGCCC CAACGACTCA
    GGCATCTATC GCTGCGAGGT CCAGCACGGC ATCGATGACA GCAGCGACGC TGTGGAGGTC
    AAGGTGAAAG GGGTCGTCTT TCTCTACCGA GAGGGCTCTG CCCGCTACGC TTTCTCCTTT
    GTTGGGGCCC AGGAAGCCTG TGCCCGCATT GGAGCCCACA TCGCCACCCC GGAGCAGCTC
    TATGCCGCCT ACCTTGGGGG CTATGAGCAA TGTGATGCTG GCTGGCTGTC GGATCAGACC
    GTGAGGTATC CCATCCAGAC CCCACGAGAG GCCTGTTACG GAGATATGGA TGGCTTCCCT
    GGGGTCCGGA ACTATGGTGT GGTGGACCCG GATGACCTCT ATGATGTCTA CTGTTATGCT
    GAAGACCTAA ATGGAGAACT GTTCCTGGGT GACCCTCCAG AAAAGCTGAC ATTGGAGGAA
    GCACGGGCGT ACTGCCAGGA GCGGGGTGCA GAGATTGCCA CCACGGGCCA GCTGTATGCC
    GCCTGGGATG GTGGCCTGGA CCGCTGCAGC CCAGGGTGGC TGGCTGATGG CAGTGTGCGC
    TACCCCATTG TCACACCCAG CCAGCGCTGT GGTGGGGGCT TGCCTGGTGT CAAGACTCTC
    TTCCTCTTCC CCAACCAGAC TGGCTTCCCC AATAAGCACA GCCGCTTCAA CGTCTACTGC
    TTCCGAGACT CGGCCCAGCC TTCTGCCATT CCTGAGGCCT CCAACACAGC CTCCGACCCA
    GCCTCTGATG GACTAGAGGC CATCATCACA GTGACAGAGA CCCTGGAGGA ACTGCAGCTG
    CCTCAGGAAG CCATGGAGAG CGAATCCCGT GGGGCCATCT ACTCCATCCC CATCATGGAA
    GATGGAGGAG GTGGAAGCTC CACTCCAGAA GACCCAGCAG AGGCCCCTAG GACAGTCCTA
    GAATTTGAAA CGCAATCCAT GGTACCACCC ACGGTGTTCT CAGAAGAGGA AGGCAAGGCA
    CTGGAGAAAG AAGAGAAATA TGAAGATGAA GAAGAGAAAG AGGAAGAAGA AGAGGAGGAA
    GAGGTGGAGG ATGAGGCTCT GTGGTCATGG CCCAGCGAGT TCAACAGCCC GGGCCCTGAG
    GTCTCTCTCC CCACTGAGCC AGCAGCCCAG GAGGAGTCAC TCTCCCAGGC GCCAGCAAGG
    GCAGTCCTGC AGCCTGGTGT ATCACCACTT CCTGATGGAG AGTCAGAAAC TCCCAGGCCT
    CCAAGGGTCC ATGGACCACC TACTGAGACT CTGCCCACTC CCAGGGAGAG GAACCTAGCA
    TCCCCATCAC CTTCCACTCT GGCTGGGGCA AGAGAGGTGG GGGAGGAAAC CGGTGGTCCT
    GAGCTATCTG GGGTCCCTCG AGGAGAGAGT GAGGAGACAG GAAGCTCTGA GGGTGCCCCT
    TCCCTGCTTC CAGCCACACG GGCCCCTGAG GGTACCAGGG AACTGGAGGC CCCCTCTGAA
    GATAATTCTG GAAGAACTGC CCCGGCAGGG ACCTCAGTGC AGGCCCAGCC AGTGCTGCCC
    ACTGACAGCG CCAGCCGAGG TGGAGTGGCC GTGGTCCCCG CATCAGGTGA CTGTGTCCCC
    ACCCCCTGCC ACAATGGTGG GACATGCTTG GAAGAGGAGG AAGGGATCCG CTGCCTATGT
    CTGCCTGGCT ATGGGGGAGA CCTGTGCGAT GTTGGCCTTA GCTTCTGCAA CCCGGGCTGG
    GACGCCTTCC AGGGCGCCTG CTACAAACAC TTTTCCACAC GAAGGAGCTG GGAGGAGGCA
    GAGACCCAGT GCCGGATGTA CGGCGCGCAT CTGGCCAGCA TCAGCACGCC CGAGGAACAG
    GACTTCATCA ACAACCGGTA CCGGGAGTAC CAGTGGATCG GGCTCAACGA TAGGACCATT
    GAAGGCGACT TCTTGTGGTC GGATGGCGTC CCCCTGCTCT ATGAGAACTG GAACCCTGGG
    CAGCCTGACA GCTACTTCCT GTCTGGAGAG AACTGCGTGG TCATGGTGTG GCATGATCAG
    GGACAATGGA GTGATGTGCC CTGCAACTAC CACCTGTCCT ACACCTGCAA GATGGGGCTG
    GTGTCCTGTG GGCCGCCACC GGAGCTGCCC CTGGCTCAAG TGTTTGGCCG CCCACGGCTG
    CGCTATGAGG TGGACACAGT GCTTCGCTAC CGGTGCCGGG AAGGACTGGC CCAGCGCAAT
    CTGCCGCTGA TCCGATGCCA AGAGAACGGC CGTTGGGAGG CCCCCCAGAT CTCCTGTGTG
    CCCAGAAGAC CTGCCCGAGC TCTGCACCCA GGGAAGGACC CAGAAGGACG TCAGGGGAGG
    CTGCTGGGAC GCTGGAAGGC GCTGCTGATC CCCCCTTCCA GCCCCACGCC AGGTCCCTAG

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

    RefSeq XP_030792564.1
    CDS9..2828
    Translation

    Target ORF information:

    RefSeq Version XM_030936704.1
    Organism Rhinopithecus roxellana(golden snub-nosed monkey)
    Definition Rhinopithecus roxellana brevican (BCAN), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_030936704.1

    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
    ATGAGTGTAG TAGGGAGCCG GGGGAAGTCC ATCTTGAAGT CTAACCCCAT CTTTCCTTCT 
    CGTGTCCTTC TGTCAGCCTG CAGCATGGCC CAGCTACTCC TGCCCCTGCT GGCAGCCCTG
    GTCCTGGCCC AGGCTCCTGC AGCTTTAGCA GATGTTCTGG AAGGAGACAG CTCAGAGGAC
    CGCGCCTTTC GCGTGCGCAT CTCCGGCCAC GCGCCACTGC AGGGCGTGCT CGGTGGCGCC
    CTCACCATCC CGTGCCACGT CCACTACCTG CGGCCGCCGC CGAGCCGCCG GGCCGTGCTG
    GGATCTCCGC GGGTCAAGTG GACTTTCCTG TCTGGGGGCC GGGAGGCAGA GGTGCTGGTG
    GCGCGGGGAG TTCGCGTCAA GGTGAATGAG GCCTACCGGT TCCGCGTGGC ACTGCCTGCG
    TACCCAGCGT CGCTCACCGA TGTCTCCCTG GCGCTGAGCG AGCTGCGCCC CAACGACTCA
    GGCATCTATC GCTGCGAGGT CCAGCACGGC ATCGATGACA GCAGCGACGC TGTGGAGGTC
    AAGGTGAAAG GGGTCGTCTT TCTCTACCGA GAGGGCTCTG CCCGCTACGC TTTCTCCTTT
    GTTGGGGCCC AGGAAGCCTG TGCCCGCATT GGAGCCCACA TCGCCACCCC GGAGCAGCTC
    TATGCCGCCT ACCTTGGGGG CTATGAGCAA TGTGATGCTG GCTGGCTGTC GGATCAGACC
    GTGAGGTATC CCATCCAGAC CCCACGAGAG GCCTGTTACG GAGATATGGA TGGCTTCCCT
    GGGGTCCGGA ACTATGGTGT GGTGGACCCG GATGACCTCT ATGATGTCTA CTGTTATGCT
    GAAGACCTAA ATGGAGAACT GTTCCTGGGT GACCCTCCAG AAAAGCTGAC ATTGGAGGAA
    GCACGGGCGT ACTGCCAGGA GCGGGGTGCA GAGATTGCCA CCACGGGCCA GCTGTATGCC
    GCCTGGGATG GTGGCCTGGA CCGCTGCAGC CCAGGGTGGC TGGCTGATGG CAGTGTGCGC
    TACCCCATTG TCACACCCAG CCAGCGCTGT GGTGGGGGCT TGCCTGGTGT CAAGACTCTC
    TTCCTCTTCC CCAACCAGAC TGGCTTCCCC AATAAGCACA GCCGCTTCAA CGTCTACTGC
    TTCCGAGACT CGGCCCAGCC TTCTGCCATT CCTGAGGCCT CCAACACAGC CTCCGACCCA
    GCCTCTGATG GACTAGAGGC CATCATCACA GTGACAGAGA CCCTGGAGGA ACTGCAGCTG
    CCTCAGGAAG CCATGGAGAG CGAATCCCGT GGGGCCATCT ACTCCATCCC CATCATGGAA
    GATGGAGGAG GTGGAAGCTC CACTCCAGAA GACCCAGCAG AGGCCCCTAG GACAGTCCTA
    GAATTTGAAA CGCAATCCAT GGTACCACCC ACGGTGTTCT CAGAAGAGGA AGGCAAGGCA
    CTGGAGAAAG AAGAGAAATA TGAAGATGAA GAAGAGAAAG AGGAAGAAGA AGAGGAGGAA
    GAGGTGGAGG ATGAGGCTCT GTGGTCATGG CCCAGCGAGT TCAACAGCCC GGGCCCTGAG
    GTCTCTCTCC CCACTGAGCC AGCAGCCCAG GAGGAGTCAC TCTCCCAGGC GCCAGCAAGG
    GCAGTCCTGC AGCCTGGTGT ATCACCACTT CCTGATGGAG AGTCAGAAAC TCCCAGGCCT
    CCAAGGGTCC ATGGACCACC TACTGAGACT CTGCCCACTC CCAGGGAGAG GAACCTAGCA
    TCCCCATCAC CTTCCACTCT GGCTGGGGCA AGAGAGGTGG GGGAGGAAAC CGGTGGTCCT
    GAGCTATCTG GGGTCCCTCG AGGAGAGAGT GAGGAGACAG GAAGCTCTGA GGGTGCCCCT
    TCCCTGCTTC CAGCCACACG GGCCCCTGAG GGTACCAGGG AACTGGAGGC CCCCTCTGAA
    GATAATTCTG GAAGAACTGC CCCGGCAGGG ACCTCAGTGC AGGCCCAGCC AGTGCTGCCC
    ACTGACAGCG CCAGCCGAGG TGGAGTGGCC GTGGTCCCCG CATCAGGTGA CTGTGTCCCC
    ACCCCCTGCC ACAATGGTGG GACATGCTTG GAAGAGGAGG AAGGGATCCG CTGCCTATGT
    CTGCCTGGCT ATGGGGGAGA CCTGTGCGAT GTTGGCCTTA GCTTCTGCAA CCCGGGCTGG
    GACGCCTTCC AGGGCGCCTG CTACAAACAC TTTTCCACAC GAAGGAGCTG GGAGGAGGCA
    GAGACCCAGT GCCGGATGTA CGGCGCGCAT CTGGCCAGCA TCAGCACGCC CGAGGAACAG
    GACTTCATCA ACAACCGGTA CCGGGAGTAC CAGTGGATCG GGCTCAACGA TAGGACCATT
    GAAGGCGACT TCTTGTGGTC GGATGGCGTC CCCCTGCTCT ATGAGAACTG GAACCCTGGG
    CAGCCTGACA GCTACTTCCT GTCTGGAGAG AACTGCGTGG TCATGGTGTG GCATGATCAG
    GGACAATGGA GTGATGTGCC CTGCAACTAC CACCTGTCCT ACACCTGCAA GATGGGGCTG
    GTGTCCTGTG GGCCGCCACC GGAGCTGCCC CTGGCTCAAG TGTTTGGCCG CCCACGGCTG
    CGCTATGAGG TGGACACAGT GCTTCGCTAC CGGTGCCGGG AAGGACTGGC CCAGCGCAAT
    CTGCCGCTGA TCCGATGCCA AGAGAACGGC CGTTGGGAGG CCCCCCAGAT CTCCTGTGTG
    CCCAGAAGAC CTGCCCGAGC TCTGCACCCA GGGAAGGACC CAGAAGGACG TCAGGGGAGG
    CTGCTGGGAC GCTGGAAGGC GCTGCTGATC CCCCCTTCCA GCCCCACGCC AGGTCCCTAG

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

    CloneID ORh266551
    Clone ID Related Accession (Same CDS sequence) XM_010356409.2
    Accession Version XM_010356409.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2736bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-09-24
    Organism Rhinopithecus roxellana(golden snub-nosed monkey)
    Product brevican core protein isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044556.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Sep 25, 2019 this sequence version replaced XM_010356409.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Rhinopithecus roxellana Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    ATGGCCCAGC TACTCCTGCC CCTGCTGGCA GCCCTGGTCC TGGCCCAGGC TCCTGCAGCT 
    TTAGCAGATG TTCTGGAAGG AGACAGCTCA GAGGACCGCG CCTTTCGCGT GCGCATCTCC
    GGCCACGCGC CACTGCAGGG CGTGCTCGGT GGCGCCCTCA CCATCCCGTG CCACGTCCAC
    TACCTGCGGC CGCCGCCGAG CCGCCGGGCC GTGCTGGGAT CTCCGCGGGT CAAGTGGACT
    TTCCTGTCTG GGGGCCGGGA GGCAGAGGTG CTGGTGGCGC GGGGAGTTCG CGTCAAGGTG
    AATGAGGCCT ACCGGTTCCG CGTGGCACTG CCTGCGTACC CAGCGTCGCT CACCGATGTC
    TCCCTGGCGC TGAGCGAGCT GCGCCCCAAC GACTCAGGCA TCTATCGCTG CGAGGTCCAG
    CACGGCATCG ATGACAGCAG CGACGCTGTG GAGGTCAAGG TGAAAGGGGT CGTCTTTCTC
    TACCGAGAGG GCTCTGCCCG CTACGCTTTC TCCTTTGTTG GGGCCCAGGA AGCCTGTGCC
    CGCATTGGAG CCCACATCGC CACCCCGGAG CAGCTCTATG CCGCCTACCT TGGGGGCTAT
    GAGCAATGTG ATGCTGGCTG GCTGTCGGAT CAGACCGTGA GGTATCCCAT CCAGACCCCA
    CGAGAGGCCT GTTACGGAGA TATGGATGGC TTCCCTGGGG TCCGGAACTA TGGTGTGGTG
    GACCCGGATG ACCTCTATGA TGTCTACTGT TATGCTGAAG ACCTAAATGG AGAACTGTTC
    CTGGGTGACC CTCCAGAAAA GCTGACATTG GAGGAAGCAC GGGCGTACTG CCAGGAGCGG
    GGTGCAGAGA TTGCCACCAC GGGCCAGCTG TATGCCGCCT GGGATGGTGG CCTGGACCGC
    TGCAGCCCAG GGTGGCTGGC TGATGGCAGT GTGCGCTACC CCATTGTCAC ACCCAGCCAG
    CGCTGTGGTG GGGGCTTGCC TGGTGTCAAG ACTCTCTTCC TCTTCCCCAA CCAGACTGGC
    TTCCCCAATA AGCACAGCCG CTTCAACGTC TACTGCTTCC GAGACTCGGC CCAGCCTTCT
    GCCATTCCTG AGGCCTCCAA CACAGCCTCC GACCCAGCCT CTGATGGACT AGAGGCCATC
    ATCACAGTGA CAGAGACCCT GGAGGAACTG CAGCTGCCTC AGGAAGCCAT GGAGAGCGAA
    TCCCGTGGGG CCATCTACTC CATCCCCATC ATGGAAGATG GAGGAGGTGG AAGCTCCACT
    CCAGAAGACC CAGCAGAGGC CCCTAGGACA GTCCTAGAAT TTGAAACGCA ATCCATGGTA
    CCACCCACGG TGTTCTCAGA AGAGGAAGGC AAGGCACTGG AGAAAGAAGA GAAATATGAA
    GATGAAGAAG AGAAAGAGGA AGAAGAAGAG GAGGAAGAGG TGGAGGATGA GGCTCTGTGG
    TCATGGCCCA GCGAGTTCAA CAGCCCGGGC CCTGAGGTCT CTCTCCCCAC TGAGCCAGCA
    GCCCAGGAGG AGTCACTCTC CCAGGCGCCA GCAAGGGCAG TCCTGCAGCC TGGTGTATCA
    CCACTTCCTG ATGGAGAGTC AGAAACTCCC AGGCCTCCAA GGGTCCATGG ACCACCTACT
    GAGACTCTGC CCACTCCCAG GGAGAGGAAC CTAGCATCCC CATCACCTTC CACTCTGGCT
    GGGGCAAGAG AGGTGGGGGA GGAAACCGGT GGTCCTGAGC TATCTGGGGT CCCTCGAGGA
    GAGAGTGAGG AGACAGGAAG CTCTGAGGGT GCCCCTTCCC TGCTTCCAGC CACACGGGCC
    CCTGAGGGTA CCAGGGAACT GGAGGCCCCC TCTGAAGATA ATTCTGGAAG AACTGCCCCG
    GCAGGGACCT CAGTGCAGGC CCAGCCAGTG CTGCCCACTG ACAGCGCCAG CCGAGGTGGA
    GTGGCCGTGG TCCCCGCATC AGGTGACTGT GTCCCCACCC CCTGCCACAA TGGTGGGACA
    TGCTTGGAAG AGGAGGAAGG GATCCGCTGC CTATGTCTGC CTGGCTATGG GGGAGACCTG
    TGCGATGTTG GCCTTAGCTT CTGCAACCCG GGCTGGGACG CCTTCCAGGG CGCCTGCTAC
    AAACACTTTT CCACACGAAG GAGCTGGGAG GAGGCAGAGA CCCAGTGCCG GATGTACGGC
    GCGCATCTGG CCAGCATCAG CACGCCCGAG GAACAGGACT TCATCAACAA CCGGTACCGG
    GAGTACCAGT GGATCGGGCT CAACGATAGG ACCATTGAAG GCGACTTCTT GTGGTCGGAT
    GGCGTCCCCC TGCTCTATGA GAACTGGAAC CCTGGGCAGC CTGACAGCTA CTTCCTGTCT
    GGAGAGAACT GCGTGGTCAT GGTGTGGCAT GATCAGGGAC AATGGAGTGA TGTGCCCTGC
    AACTACCACC TGTCCTACAC CTGCAAGATG GGGCTGGTGT CCTGTGGGCC GCCACCGGAG
    CTGCCCCTGG CTCAAGTGTT TGGCCGCCCA CGGCTGCGCT ATGAGGTGGA CACAGTGCTT
    CGCTACCGGT GCCGGGAAGG ACTGGCCCAG CGCAATCTGC CGCTGATCCG ATGCCAAGAG
    AACGGCCGTT GGGAGGCCCC CCAGATCTCC TGTGTGCCCA GAAGACCTGC CCGAGCTCTG
    CACCCAGGGA AGGACCCAGA AGGACGTCAG GGGAGGCTGC TGGGACGCTG GAAGGCGCTG
    CTGATCCCCC CTTCCAGCCC CACGCCAGGT CCCTAG

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

    RefSeq XP_010354711.1
    CDS332..3067
    Translation

    Target ORF information:

    RefSeq Version XM_010356409.2
    Organism Rhinopithecus roxellana(golden snub-nosed monkey)
    Definition Rhinopithecus roxellana brevican (BCAN), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_010356409.2

    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
    ATGGCCCAGC TACTCCTGCC CCTGCTGGCA GCCCTGGTCC TGGCCCAGGC TCCTGCAGCT 
    TTAGCAGATG TTCTGGAAGG AGACAGCTCA GAGGACCGCG CCTTTCGCGT GCGCATCTCC
    GGCCACGCGC CACTGCAGGG CGTGCTCGGT GGCGCCCTCA CCATCCCGTG CCACGTCCAC
    TACCTGCGGC CGCCGCCGAG CCGCCGGGCC GTGCTGGGAT CTCCGCGGGT CAAGTGGACT
    TTCCTGTCTG GGGGCCGGGA GGCAGAGGTG CTGGTGGCGC GGGGAGTTCG CGTCAAGGTG
    AATGAGGCCT ACCGGTTCCG CGTGGCACTG CCTGCGTACC CAGCGTCGCT CACCGATGTC
    TCCCTGGCGC TGAGCGAGCT GCGCCCCAAC GACTCAGGCA TCTATCGCTG CGAGGTCCAG
    CACGGCATCG ATGACAGCAG CGACGCTGTG GAGGTCAAGG TGAAAGGGGT CGTCTTTCTC
    TACCGAGAGG GCTCTGCCCG CTACGCTTTC TCCTTTGTTG GGGCCCAGGA AGCCTGTGCC
    CGCATTGGAG CCCACATCGC CACCCCGGAG CAGCTCTATG CCGCCTACCT TGGGGGCTAT
    GAGCAATGTG ATGCTGGCTG GCTGTCGGAT CAGACCGTGA GGTATCCCAT CCAGACCCCA
    CGAGAGGCCT GTTACGGAGA TATGGATGGC TTCCCTGGGG TCCGGAACTA TGGTGTGGTG
    GACCCGGATG ACCTCTATGA TGTCTACTGT TATGCTGAAG ACCTAAATGG AGAACTGTTC
    CTGGGTGACC CTCCAGAAAA GCTGACATTG GAGGAAGCAC GGGCGTACTG CCAGGAGCGG
    GGTGCAGAGA TTGCCACCAC GGGCCAGCTG TATGCCGCCT GGGATGGTGG CCTGGACCGC
    TGCAGCCCAG GGTGGCTGGC TGATGGCAGT GTGCGCTACC CCATTGTCAC ACCCAGCCAG
    CGCTGTGGTG GGGGCTTGCC TGGTGTCAAG ACTCTCTTCC TCTTCCCCAA CCAGACTGGC
    TTCCCCAATA AGCACAGCCG CTTCAACGTC TACTGCTTCC GAGACTCGGC CCAGCCTTCT
    GCCATTCCTG AGGCCTCCAA CACAGCCTCC GACCCAGCCT CTGATGGACT AGAGGCCATC
    ATCACAGTGA CAGAGACCCT GGAGGAACTG CAGCTGCCTC AGGAAGCCAT GGAGAGCGAA
    TCCCGTGGGG CCATCTACTC CATCCCCATC ATGGAAGATG GAGGAGGTGG AAGCTCCACT
    CCAGAAGACC CAGCAGAGGC CCCTAGGACA GTCCTAGAAT TTGAAACGCA ATCCATGGTA
    CCACCCACGG TGTTCTCAGA AGAGGAAGGC AAGGCACTGG AGAAAGAAGA GAAATATGAA
    GATGAAGAAG AGAAAGAGGA AGAAGAAGAG GAGGAAGAGG TGGAGGATGA GGCTCTGTGG
    TCATGGCCCA GCGAGTTCAA CAGCCCGGGC CCTGAGGTCT CTCTCCCCAC TGAGCCAGCA
    GCCCAGGAGG AGTCACTCTC CCAGGCGCCA GCAAGGGCAG TCCTGCAGCC TGGTGTATCA
    CCACTTCCTG ATGGAGAGTC AGAAACTCCC AGGCCTCCAA GGGTCCATGG ACCACCTACT
    GAGACTCTGC CCACTCCCAG GGAGAGGAAC CTAGCATCCC CATCACCTTC CACTCTGGCT
    GGGGCAAGAG AGGTGGGGGA GGAAACCGGT GGTCCTGAGC TATCTGGGGT CCCTCGAGGA
    GAGAGTGAGG AGACAGGAAG CTCTGAGGGT GCCCCTTCCC TGCTTCCAGC CACACGGGCC
    CCTGAGGGTA CCAGGGAACT GGAGGCCCCC TCTGAAGATA ATTCTGGAAG AACTGCCCCG
    GCAGGGACCT CAGTGCAGGC CCAGCCAGTG CTGCCCACTG ACAGCGCCAG CCGAGGTGGA
    GTGGCCGTGG TCCCCGCATC AGGTGACTGT GTCCCCACCC CCTGCCACAA TGGTGGGACA
    TGCTTGGAAG AGGAGGAAGG GATCCGCTGC CTATGTCTGC CTGGCTATGG GGGAGACCTG
    TGCGATGTTG GCCTTAGCTT CTGCAACCCG GGCTGGGACG CCTTCCAGGG CGCCTGCTAC
    AAACACTTTT CCACACGAAG GAGCTGGGAG GAGGCAGAGA CCCAGTGCCG GATGTACGGC
    GCGCATCTGG CCAGCATCAG CACGCCCGAG GAACAGGACT TCATCAACAA CCGGTACCGG
    GAGTACCAGT GGATCGGGCT CAACGATAGG ACCATTGAAG GCGACTTCTT GTGGTCGGAT
    GGCGTCCCCC TGCTCTATGA GAACTGGAAC CCTGGGCAGC CTGACAGCTA CTTCCTGTCT
    GGAGAGAACT GCGTGGTCAT GGTGTGGCAT GATCAGGGAC AATGGAGTGA TGTGCCCTGC
    AACTACCACC TGTCCTACAC CTGCAAGATG GGGCTGGTGT CCTGTGGGCC GCCACCGGAG
    CTGCCCCTGG CTCAAGTGTT TGGCCGCCCA CGGCTGCGCT ATGAGGTGGA CACAGTGCTT
    CGCTACCGGT GCCGGGAAGG ACTGGCCCAG CGCAATCTGC CGCTGATCCG ATGCCAAGAG
    AACGGCCGTT GGGAGGCCCC CCAGATCTCC TGTGTGCCCA GAAGACCTGC CCGAGCTCTG
    CACCCAGGGA AGGACCCAGA AGGACGTCAG GGGAGGCTGC TGGGACGCTG GAAGGCGCTG
    CTGATCCCCC CTTCCAGCCC CACGCCAGGT CCCTAG

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