COPA cDNA ORF clone, Macaca mulatta(Rhesus monkey)

The following COPA gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the COPA 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
OMb26551 XM_015113467.1
Latest version!
Macaca mulatta coatomer protein complex subunit alpha (COPA), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMb26552 XM_015113474.1
Latest version!
Macaca mulatta coatomer protein complex subunit alpha (COPA), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMb59693 XM_015113467.2
Latest version!
Macaca mulatta coatomer protein complex subunit alpha (COPA), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMb59694 XM_015113474.2
Latest version!
Macaca mulatta coatomer protein complex subunit alpha (COPA), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00

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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 OMb26551
    Clone ID Related Accession (Same CDS sequence) XM_015113467.1
    Accession Version XM_015113467.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3702bp)
    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 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    Product coatomer subunit alpha isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014804571.1) 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 Version :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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
    ATGCTAACCA AATTCGAGAC CAAGAGCGCG CGGGTCAAAG GGCTCAGCTT TCACCCCAAA 
    AGACCTTGGA TCCTGACGAG TTTACATAAT GGGGTCATCC AGTTGTGGGA CTATCGGATG
    TGCACTCTCA TTGACAAGTT TGATGAACAC GATGGTCCAG TGCGAGGCAT TGACTTCCAT
    AAGCAGCAGC CACTGTTCGT CTCTGGAGGA GATGACTATA AGATTAAGGT TTGGAATTAC
    AAGCTTCGGC GCTGTCTTTT CACATTGCTT GGGCACTTAG ATTATATTCG CACCACGTTT
    TTTCATCATG AATATCCCTG GATTCTGAGT GCCTCAGATG ATCAGACCAT CCGAGTGTGG
    AATTGGCAAT CTAGAACCTG TGTTTGTGTG TTAACAGGGC ACAACCATTA TGTGATGTGT
    GCTCAATTCC ACCCCTCAGA AGACTTGGTA GTATCAGCCA GCCTGGACCA GACTGTGCGC
    GTTTGGGATA TTTCTGGTCT AAGGAAAAAA AACCTGTCCC CTGGTGCGGT GGAATCGGAT
    GTGAGAGGAA TAACTGGGGT TGATCTATTT GGAACTACAG ATGCAGTGGT GAAGCATGTA
    CTAGAGGGTC ATGATCGTGG AGTAAACTGG GCTGCCTTCC ACCCCACTAT GCCCCTTATT
    GTATCTGGGG CAGATGATCG TCAAGTGAAG ATCTGGCGCA TGAATGAATC AAAGGCATGG
    GAGGTTGATA CCTGCCGGGG CCATTATAAC AATGTATCTT GTGCCGTCTT CCACCCTCGC
    CAAGAGTTGA TCCTCAGCAA TTCTGAGGAC AAGAGTATTC GAGTCTGGGA TATGTCTAAG
    CGGACTGGGG TTCAGACTTT CCGCAGAGAC CATGATCGTT TCTGGGTCTT AGCTGCTCAC
    CCTAACCTTA ACCTCTTTGC AGCAGGCCAT GATGGTGGTA TGATTGTGTT TAAGCTGGAA
    CGGGAACGGC CAGCCTATGC TGTTCACGGC AATATGCTAC ACTATGTCAA GGACCGATTC
    TTACGTCAGC TGGATTTCAA CAGCTCCAAA GATGTAGCTG TGATGCAGTT GCGGAGTGGT
    TCCAAGTTTC CAGTATTCAA TATGTCATAC AATCCAGCAG AAAATGCAGT CTTGCTTTGT
    ACGAGAGCTA GCAATTTAGA GAACAGTACC TATGACCTGT ACACCATCCC TAAAGATGCT
    GACTCCCAGA ATCCTGATGC GCCTGAAGGG AAACGATCCT CAGGCCTAAC AGCTGTTTGG
    GTCGCTCGAA ATCGGTTTGC TGTCCTAGAT CGGATGCATT CGCTTCTGAT CAAGAATCTG
    AAGAATGAGA TCACCAAAAA GGTACAGGTG CCCAATTGTG ATGAGATCTT CTATGCTGGC
    ACAGGCAATC TCCTGCTTCG AGATGCGGAC TCTATCACAC TCTTTGACGT ACAGCAGAAG
    CGGACTCTGG CATCTGTGAA GATTTCTAAA GTGAAATATG TTATCTGGTC AGCAGACATG
    TCACATGTAG CACTACTAGC CAAACACGAA CACTCATGCC CTTTGCCTCT TACAGCCATT
    GTGATCTGTA ACCGCAAACT GGATGCTTTA TGTAACATTC ATGAGAACAT TCGTGTCAAG
    AGTGGGGCCT GGGATGAGAG TGGGGTATTT ATCTATACCA CAAGCAACCA CATCAAATAT
    GCTGTCACCA CTGGGGACCA CGGGATCATT CGAACTCTGG ATTTACCCAT CTATGTTACA
    CGGGTGAAGG GCAACAATGT ATACTGCCTA GACAGGGAGT GTCGTCCCCG GGTACTCACC
    ATTGATCCCA CTGAGTTCAA ATTCAAGCTG GCCCTGATCA ACAGAAAATA TGATGAGGTA
    CTGCACATGG TGAGGAATGC CAAACTAGTA GGCCAGTCTA TTATTGCTTA TCTCCAGAAG
    AAGGGCTATC CTGAAGTGGC ACTGCATTTT GTCAAGGATG AGAAAACTCG CTTTAGTCTG
    GCACTGGAGT GTGGAAACAT TGAGATTGCT CTGGAAGCAG CCAAAGCACT GGATGACAAG
    AACTGCTGGG AAAAGCTGGG AGAAGTGGCC CTGCTACAGG GAAACCACCA GATTGTGGAA
    ATGTGCTATC AGCGTACCAA AAACTTTGAC AAACTTTCCT TCCTGTATCT TATCACTGGC
    AATTTAGAAA AACTTCGCAA GATGATGAAG ATTGCTGAGA TCAGAAAGGA CATGAGTGGC
    CACTATCAGA ATGCCCTATA CCTGGGTGAT GTGTCAGAGC GTGTGCGGAT CCTAAAGAAC
    TGTGGGCAGA AGTCCCTGGC CTATCTCACA GCTGCTACCC ATGGCTTAGA TGAAGAAGCT
    GAGAGCCTAA AGGAAACATT TGACCCAGAG AAGGAGACAA TCCCAGACAT TGACCCTAAT
    GCCAAGTTGC TCCAGCCACC TGCACCTATC ATGCCATTGG ATACCAATTG GCCTTTATTG
    ACCGTATCCA AAGGATTTTT TGAAGGCACC ATTGCCAGCA AAGGGAAGGG AGGAGCACTG
    GCTGCTGACA TTGACATTGA CACTGTTGGT ACAGAGGGCT GGGGAGAGGA TGCAGAGCTA
    CAATTGGATG AAGATGGGTT TGTGGAGGCT ACAGAAGGTT TGGGGGATGA TGCTCTTGGC
    AAGGGACAGG AAGAAGGAGG TGGCTGGGAT GTAGAAGAAG ATCTGGAGCT CCCTCCTGAG
    CTGGATATAT CCCCTGGGGC AGCTGGTGGG GCTGAAGATG GTTTCTTTGT GCCCCCAACC
    AAGGGAACAA GTCCAACTCA GATCTGGTGT AATAACTCTC AGCTTCCAGT TGATCACATC
    CTGGCAGGCT CTTTCGAAAC AGCCATGCGG CTCCTTCATG ACCAAGTAGG GGTAATCCAG
    TTTGGCCCCT ACAAGCAACT GTTCCTACAG ACGTATGCCC GAGGCCGCAC AACCTATCAG
    GCTCTGCCCT GCCTACCCCC CATGTATGGA TATCCTAATC GCAACTGGAA GGATGCAGGG
    CTGAAGAATG GTGTACCAGC TGTGGGCCTG AAGCTTAATG ACCTCATCCA ACGGTTGCAG
    CTGTGCTACC AGCTCACCAC AGTTGGCAAA TTTGAGGAGG CTGTGGAAAA ATTCCGTTCC
    ATCCTTCTCA GTGTGCCACT TCTTGTTGTG GACAATAAAC AAGAGATTGC AGAGGCCCAG
    CAGCTCATCA CCATTTGCCG TGAGTACATT GTGGGTTTGT CCATGGAGAT AGAAAGGAAG
    AAGCTGCCCA AAGAGACTCT AGAACAGCAG AAGCGCATAT GTGAGATGGC AGCCTATTTC
    ACCCACTCAA ACCTGCAGCC TGTGCACATG ATCCTGGTGC TGCGTACAGC CCTCAATCTC
    TTCTTCAAGC TCAAGAACTT CAAGACAGCT GCCACCTTTG CTCGGCGCCT GCTAGAACTC
    GGGCCCAAGC CTGAGGTGGC GCAACAGACC CGAAAAATCC TGTCTGCCTG TGAGAAGAAT
    CCCGCAGATG CCTATCAGCT CAATTATGAC ATGCACAACC CCTTTGACAT CTGTGCTGCA
    TCATATCGGC CCATCTACCG TGGAAAGCCA GTGGAAAAGT GTCCACTCAG TGGGGCCTGC
    TATTCCCCTG AGTTCAAAGG TCAAATCTGT AGGGTCACCA CAGTGACAGA GATTGGCAAA
    GATGTGATTG GTTTAAGGAT CAGTCCTCTG CAGTTTCGCT AA

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

    RefSeq XP_014968953.1
    CDS391..4092
    Translation

    Target ORF information:

    RefSeq Version XM_015113467.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta coatomer protein complex subunit alpha (COPA), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015113467.1

    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
    ATGCTAACCA AATTCGAGAC CAAGAGCGCG CGGGTCAAAG GGCTCAGCTT TCACCCCAAA 
    AGACCTTGGA TCCTGACGAG TTTACATAAT GGGGTCATCC AGTTGTGGGA CTATCGGATG
    TGCACTCTCA TTGACAAGTT TGATGAACAC GATGGTCCAG TGCGAGGCAT TGACTTCCAT
    AAGCAGCAGC CACTGTTCGT CTCTGGAGGA GATGACTATA AGATTAAGGT TTGGAATTAC
    AAGCTTCGGC GCTGTCTTTT CACATTGCTT GGGCACTTAG ATTATATTCG CACCACGTTT
    TTTCATCATG AATATCCCTG GATTCTGAGT GCCTCAGATG ATCAGACCAT CCGAGTGTGG
    AATTGGCAAT CTAGAACCTG TGTTTGTGTG TTAACAGGGC ACAACCATTA TGTGATGTGT
    GCTCAATTCC ACCCCTCAGA AGACTTGGTA GTATCAGCCA GCCTGGACCA GACTGTGCGC
    GTTTGGGATA TTTCTGGTCT AAGGAAAAAA AACCTGTCCC CTGGTGCGGT GGAATCGGAT
    GTGAGAGGAA TAACTGGGGT TGATCTATTT GGAACTACAG ATGCAGTGGT GAAGCATGTA
    CTAGAGGGTC ATGATCGTGG AGTAAACTGG GCTGCCTTCC ACCCCACTAT GCCCCTTATT
    GTATCTGGGG CAGATGATCG TCAAGTGAAG ATCTGGCGCA TGAATGAATC AAAGGCATGG
    GAGGTTGATA CCTGCCGGGG CCATTATAAC AATGTATCTT GTGCCGTCTT CCACCCTCGC
    CAAGAGTTGA TCCTCAGCAA TTCTGAGGAC AAGAGTATTC GAGTCTGGGA TATGTCTAAG
    CGGACTGGGG TTCAGACTTT CCGCAGAGAC CATGATCGTT TCTGGGTCTT AGCTGCTCAC
    CCTAACCTTA ACCTCTTTGC AGCAGGCCAT GATGGTGGTA TGATTGTGTT TAAGCTGGAA
    CGGGAACGGC CAGCCTATGC TGTTCACGGC AATATGCTAC ACTATGTCAA GGACCGATTC
    TTACGTCAGC TGGATTTCAA CAGCTCCAAA GATGTAGCTG TGATGCAGTT GCGGAGTGGT
    TCCAAGTTTC CAGTATTCAA TATGTCATAC AATCCAGCAG AAAATGCAGT CTTGCTTTGT
    ACGAGAGCTA GCAATTTAGA GAACAGTACC TATGACCTGT ACACCATCCC TAAAGATGCT
    GACTCCCAGA ATCCTGATGC GCCTGAAGGG AAACGATCCT CAGGCCTAAC AGCTGTTTGG
    GTCGCTCGAA ATCGGTTTGC TGTCCTAGAT CGGATGCATT CGCTTCTGAT CAAGAATCTG
    AAGAATGAGA TCACCAAAAA GGTACAGGTG CCCAATTGTG ATGAGATCTT CTATGCTGGC
    ACAGGCAATC TCCTGCTTCG AGATGCGGAC TCTATCACAC TCTTTGACGT ACAGCAGAAG
    CGGACTCTGG CATCTGTGAA GATTTCTAAA GTGAAATATG TTATCTGGTC AGCAGACATG
    TCACATGTAG CACTACTAGC CAAACACGAA CACTCATGCC CTTTGCCTCT TACAGCCATT
    GTGATCTGTA ACCGCAAACT GGATGCTTTA TGTAACATTC ATGAGAACAT TCGTGTCAAG
    AGTGGGGCCT GGGATGAGAG TGGGGTATTT ATCTATACCA CAAGCAACCA CATCAAATAT
    GCTGTCACCA CTGGGGACCA CGGGATCATT CGAACTCTGG ATTTACCCAT CTATGTTACA
    CGGGTGAAGG GCAACAATGT ATACTGCCTA GACAGGGAGT GTCGTCCCCG GGTACTCACC
    ATTGATCCCA CTGAGTTCAA ATTCAAGCTG GCCCTGATCA ACAGAAAATA TGATGAGGTA
    CTGCACATGG TGAGGAATGC CAAACTAGTA GGCCAGTCTA TTATTGCTTA TCTCCAGAAG
    AAGGGCTATC CTGAAGTGGC ACTGCATTTT GTCAAGGATG AGAAAACTCG CTTTAGTCTG
    GCACTGGAGT GTGGAAACAT TGAGATTGCT CTGGAAGCAG CCAAAGCACT GGATGACAAG
    AACTGCTGGG AAAAGCTGGG AGAAGTGGCC CTGCTACAGG GAAACCACCA GATTGTGGAA
    ATGTGCTATC AGCGTACCAA AAACTTTGAC AAACTTTCCT TCCTGTATCT TATCACTGGC
    AATTTAGAAA AACTTCGCAA GATGATGAAG ATTGCTGAGA TCAGAAAGGA CATGAGTGGC
    CACTATCAGA ATGCCCTATA CCTGGGTGAT GTGTCAGAGC GTGTGCGGAT CCTAAAGAAC
    TGTGGGCAGA AGTCCCTGGC CTATCTCACA GCTGCTACCC ATGGCTTAGA TGAAGAAGCT
    GAGAGCCTAA AGGAAACATT TGACCCAGAG AAGGAGACAA TCCCAGACAT TGACCCTAAT
    GCCAAGTTGC TCCAGCCACC TGCACCTATC ATGCCATTGG ATACCAATTG GCCTTTATTG
    ACCGTATCCA AAGGATTTTT TGAAGGCACC ATTGCCAGCA AAGGGAAGGG AGGAGCACTG
    GCTGCTGACA TTGACATTGA CACTGTTGGT ACAGAGGGCT GGGGAGAGGA TGCAGAGCTA
    CAATTGGATG AAGATGGGTT TGTGGAGGCT ACAGAAGGTT TGGGGGATGA TGCTCTTGGC
    AAGGGACAGG AAGAAGGAGG TGGCTGGGAT GTAGAAGAAG ATCTGGAGCT CCCTCCTGAG
    CTGGATATAT CCCCTGGGGC AGCTGGTGGG GCTGAAGATG GTTTCTTTGT GCCCCCAACC
    AAGGGAACAA GTCCAACTCA GATCTGGTGT AATAACTCTC AGCTTCCAGT TGATCACATC
    CTGGCAGGCT CTTTCGAAAC AGCCATGCGG CTCCTTCATG ACCAAGTAGG GGTAATCCAG
    TTTGGCCCCT ACAAGCAACT GTTCCTACAG ACGTATGCCC GAGGCCGCAC AACCTATCAG
    GCTCTGCCCT GCCTACCCCC CATGTATGGA TATCCTAATC GCAACTGGAA GGATGCAGGG
    CTGAAGAATG GTGTACCAGC TGTGGGCCTG AAGCTTAATG ACCTCATCCA ACGGTTGCAG
    CTGTGCTACC AGCTCACCAC AGTTGGCAAA TTTGAGGAGG CTGTGGAAAA ATTCCGTTCC
    ATCCTTCTCA GTGTGCCACT TCTTGTTGTG GACAATAAAC AAGAGATTGC AGAGGCCCAG
    CAGCTCATCA CCATTTGCCG TGAGTACATT GTGGGTTTGT CCATGGAGAT AGAAAGGAAG
    AAGCTGCCCA AAGAGACTCT AGAACAGCAG AAGCGCATAT GTGAGATGGC AGCCTATTTC
    ACCCACTCAA ACCTGCAGCC TGTGCACATG ATCCTGGTGC TGCGTACAGC CCTCAATCTC
    TTCTTCAAGC TCAAGAACTT CAAGACAGCT GCCACCTTTG CTCGGCGCCT GCTAGAACTC
    GGGCCCAAGC CTGAGGTGGC GCAACAGACC CGAAAAATCC TGTCTGCCTG TGAGAAGAAT
    CCCGCAGATG CCTATCAGCT CAATTATGAC ATGCACAACC CCTTTGACAT CTGTGCTGCA
    TCATATCGGC CCATCTACCG TGGAAAGCCA GTGGAAAAGT GTCCACTCAG TGGGGCCTGC
    TATTCCCCTG AGTTCAAAGG TCAAATCTGT AGGGTCACCA CAGTGACAGA GATTGGCAAA
    GATGTGATTG GTTTAAGGAT CAGTCCTCTG CAGTTTCGCT AA

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

    CloneID OMb26552
    Clone ID Related Accession (Same CDS sequence) XM_015113474.1
    Accession Version XM_015113474.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3675bp)
    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 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    Product coatomer subunit alpha isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014804571.1) 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 Version :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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
    ATGCTAACCA AATTCGAGAC CAAGAGCGCG CGGGTCAAAG GGCTCAGCTT TCACCCCAAA 
    AGACCTTGGA TCCTGACGAG TTTACATAAT GGGGTCATCC AGTTGTGGGA CTATCGGATG
    TGCACTCTCA TTGACAAGTT TGATGAACAC GATGGTCCAG TGCGAGGCAT TGACTTCCAT
    AAGCAGCAGC CACTGTTCGT CTCTGGAGGA GATGACTATA AGATTAAGGT TTGGAATTAC
    AAGCTTCGGC GCTGTCTTTT CACATTGCTT GGGCACTTAG ATTATATTCG CACCACGTTT
    TTTCATCATG AATATCCCTG GATTCTGAGT GCCTCAGATG ATCAGACCAT CCGAGTGTGG
    AATTGGCAAT CTAGAACCTG TGTTTGTGTG TTAACAGGGC ACAACCATTA TGTGATGTGT
    GCTCAATTCC ACCCCTCAGA AGACTTGGTA GTATCAGCCA GCCTGGACCA GACTGTGCGC
    GTTTGGGATA TTTCTGGTCT AAGGAAAAAA AACCTGTCCC CTGGTGCGGT GGAATCGGAT
    GTGAGAGGAA TAACTGGGGT TGATCTATTT GGAACTACAG ATGCAGTGGT GAAGCATGTA
    CTAGAGGGTC ATGATCGTGG AGTAAACTGG GCTGCCTTCC ACCCCACTAT GCCCCTTATT
    GTATCTGGGG CAGATGATCG TCAAGTGAAG ATCTGGCGCA TGAATGAATC AAAGGCATGG
    GAGGTTGATA CCTGCCGGGG CCATTATAAC AATGTATCTT GTGCCGTCTT CCACCCTCGC
    CAAGAGTTGA TCCTCAGCAA TTCTGAGGAC AAGAGTATTC GAGTCTGGGA TATGTCTAAG
    CGGACTGGGG TTCAGACTTT CCGCAGAGAC CATGATCGTT TCTGGGTCTT AGCTGCTCAC
    CCTAACCTTA ACCTCTTTGC AGCAGGCCAT GATGGTGGTA TGATTGTGTT TAAGCTGGAA
    CGGGAACGGC CAGCCTATGC TGTTCACGGC AATATGCTAC ACTATGTCAA GGACCGATTC
    TTACGTCAGC TGGATTTCAA CAGCTCCAAA GATGTAGCTG TGATGCAGTT GCGGAGTGGT
    TCCAAGTTTC CAGTATTCAA TATGTCATAC AATCCAGCAG AAAATGCAGT CTTGCTTTGT
    ACGAGAGCTA GCAATTTAGA GAACAGTACC TATGACCTGT ACACCATCCC TAAAGATGCT
    GACTCCCAGA ATCCTGATGC GCCTGAAGGG AAACGATCCT CAGGCCTAAC AGCTGTTTGG
    GTCGCTCGAA ATCGGTTTGC TGTCCTAGAT CGGATGCATT CGCTTCTGAT CAAGAATCTG
    AAGAATGAGA TCACCAAAAA GGTACAGGTG CCCAATTGTG ATGAGATCTT CTATGCTGGC
    ACAGGCAATC TCCTGCTTCG AGATGCGGAC TCTATCACAC TCTTTGACGT ACAGCAGAAG
    CGGACTCTGG CATCTGTGAA GATTTCTAAA GTGAAATATG TTATCTGGTC AGCAGACATG
    TCACATGTAG CACTACTAGC CAAACACGCC ATTGTGATCT GTAACCGCAA ACTGGATGCT
    TTATGTAACA TTCATGAGAA CATTCGTGTC AAGAGTGGGG CCTGGGATGA GAGTGGGGTA
    TTTATCTATA CCACAAGCAA CCACATCAAA TATGCTGTCA CCACTGGGGA CCACGGGATC
    ATTCGAACTC TGGATTTACC CATCTATGTT ACACGGGTGA AGGGCAACAA TGTATACTGC
    CTAGACAGGG AGTGTCGTCC CCGGGTACTC ACCATTGATC CCACTGAGTT CAAATTCAAG
    CTGGCCCTGA TCAACAGAAA ATATGATGAG GTACTGCACA TGGTGAGGAA TGCCAAACTA
    GTAGGCCAGT CTATTATTGC TTATCTCCAG AAGAAGGGCT ATCCTGAAGT GGCACTGCAT
    TTTGTCAAGG ATGAGAAAAC TCGCTTTAGT CTGGCACTGG AGTGTGGAAA CATTGAGATT
    GCTCTGGAAG CAGCCAAAGC ACTGGATGAC AAGAACTGCT GGGAAAAGCT GGGAGAAGTG
    GCCCTGCTAC AGGGAAACCA CCAGATTGTG GAAATGTGCT ATCAGCGTAC CAAAAACTTT
    GACAAACTTT CCTTCCTGTA TCTTATCACT GGCAATTTAG AAAAACTTCG CAAGATGATG
    AAGATTGCTG AGATCAGAAA GGACATGAGT GGCCACTATC AGAATGCCCT ATACCTGGGT
    GATGTGTCAG AGCGTGTGCG GATCCTAAAG AACTGTGGGC AGAAGTCCCT GGCCTATCTC
    ACAGCTGCTA CCCATGGCTT AGATGAAGAA GCTGAGAGCC TAAAGGAAAC ATTTGACCCA
    GAGAAGGAGA CAATCCCAGA CATTGACCCT AATGCCAAGT TGCTCCAGCC ACCTGCACCT
    ATCATGCCAT TGGATACCAA TTGGCCTTTA TTGACCGTAT CCAAAGGATT TTTTGAAGGC
    ACCATTGCCA GCAAAGGGAA GGGAGGAGCA CTGGCTGCTG ACATTGACAT TGACACTGTT
    GGTACAGAGG GCTGGGGAGA GGATGCAGAG CTACAATTGG ATGAAGATGG GTTTGTGGAG
    GCTACAGAAG GTTTGGGGGA TGATGCTCTT GGCAAGGGAC AGGAAGAAGG AGGTGGCTGG
    GATGTAGAAG AAGATCTGGA GCTCCCTCCT GAGCTGGATA TATCCCCTGG GGCAGCTGGT
    GGGGCTGAAG ATGGTTTCTT TGTGCCCCCA ACCAAGGGAA CAAGTCCAAC TCAGATCTGG
    TGTAATAACT CTCAGCTTCC AGTTGATCAC ATCCTGGCAG GCTCTTTCGA AACAGCCATG
    CGGCTCCTTC ATGACCAAGT AGGGGTAATC CAGTTTGGCC CCTACAAGCA ACTGTTCCTA
    CAGACGTATG CCCGAGGCCG CACAACCTAT CAGGCTCTGC CCTGCCTACC CCCCATGTAT
    GGATATCCTA ATCGCAACTG GAAGGATGCA GGGCTGAAGA ATGGTGTACC AGCTGTGGGC
    CTGAAGCTTA ATGACCTCAT CCAACGGTTG CAGCTGTGCT ACCAGCTCAC CACAGTTGGC
    AAATTTGAGG AGGCTGTGGA AAAATTCCGT TCCATCCTTC TCAGTGTGCC ACTTCTTGTT
    GTGGACAATA AACAAGAGAT TGCAGAGGCC CAGCAGCTCA TCACCATTTG CCGTGAGTAC
    ATTGTGGGTT TGTCCATGGA GATAGAAAGG AAGAAGCTGC CCAAAGAGAC TCTAGAACAG
    CAGAAGCGCA TATGTGAGAT GGCAGCCTAT TTCACCCACT CAAACCTGCA GCCTGTGCAC
    ATGATCCTGG TGCTGCGTAC AGCCCTCAAT CTCTTCTTCA AGCTCAAGAA CTTCAAGACA
    GCTGCCACCT TTGCTCGGCG CCTGCTAGAA CTCGGGCCCA AGCCTGAGGT GGCGCAACAG
    ACCCGAAAAA TCCTGTCTGC CTGTGAGAAG AATCCCGCAG ATGCCTATCA GCTCAATTAT
    GACATGCACA ACCCCTTTGA CATCTGTGCT GCATCATATC GGCCCATCTA CCGTGGAAAG
    CCAGTGGAAA AGTGTCCACT CAGTGGGGCC TGCTATTCCC CTGAGTTCAA AGGTCAAATC
    TGTAGGGTCA CCACAGTGAC AGAGATTGGC AAAGATGTGA TTGGTTTAAG GATCAGTCCT
    CTGCAGTTTC GCTAA

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

    RefSeq XP_014968960.1
    CDS391..4065
    Translation

    Target ORF information:

    RefSeq Version XM_015113474.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta coatomer protein complex subunit alpha (COPA), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015113474.1

    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
    ATGCTAACCA AATTCGAGAC CAAGAGCGCG CGGGTCAAAG GGCTCAGCTT TCACCCCAAA 
    AGACCTTGGA TCCTGACGAG TTTACATAAT GGGGTCATCC AGTTGTGGGA CTATCGGATG
    TGCACTCTCA TTGACAAGTT TGATGAACAC GATGGTCCAG TGCGAGGCAT TGACTTCCAT
    AAGCAGCAGC CACTGTTCGT CTCTGGAGGA GATGACTATA AGATTAAGGT TTGGAATTAC
    AAGCTTCGGC GCTGTCTTTT CACATTGCTT GGGCACTTAG ATTATATTCG CACCACGTTT
    TTTCATCATG AATATCCCTG GATTCTGAGT GCCTCAGATG ATCAGACCAT CCGAGTGTGG
    AATTGGCAAT CTAGAACCTG TGTTTGTGTG TTAACAGGGC ACAACCATTA TGTGATGTGT
    GCTCAATTCC ACCCCTCAGA AGACTTGGTA GTATCAGCCA GCCTGGACCA GACTGTGCGC
    GTTTGGGATA TTTCTGGTCT AAGGAAAAAA AACCTGTCCC CTGGTGCGGT GGAATCGGAT
    GTGAGAGGAA TAACTGGGGT TGATCTATTT GGAACTACAG ATGCAGTGGT GAAGCATGTA
    CTAGAGGGTC ATGATCGTGG AGTAAACTGG GCTGCCTTCC ACCCCACTAT GCCCCTTATT
    GTATCTGGGG CAGATGATCG TCAAGTGAAG ATCTGGCGCA TGAATGAATC AAAGGCATGG
    GAGGTTGATA CCTGCCGGGG CCATTATAAC AATGTATCTT GTGCCGTCTT CCACCCTCGC
    CAAGAGTTGA TCCTCAGCAA TTCTGAGGAC AAGAGTATTC GAGTCTGGGA TATGTCTAAG
    CGGACTGGGG TTCAGACTTT CCGCAGAGAC CATGATCGTT TCTGGGTCTT AGCTGCTCAC
    CCTAACCTTA ACCTCTTTGC AGCAGGCCAT GATGGTGGTA TGATTGTGTT TAAGCTGGAA
    CGGGAACGGC CAGCCTATGC TGTTCACGGC AATATGCTAC ACTATGTCAA GGACCGATTC
    TTACGTCAGC TGGATTTCAA CAGCTCCAAA GATGTAGCTG TGATGCAGTT GCGGAGTGGT
    TCCAAGTTTC CAGTATTCAA TATGTCATAC AATCCAGCAG AAAATGCAGT CTTGCTTTGT
    ACGAGAGCTA GCAATTTAGA GAACAGTACC TATGACCTGT ACACCATCCC TAAAGATGCT
    GACTCCCAGA ATCCTGATGC GCCTGAAGGG AAACGATCCT CAGGCCTAAC AGCTGTTTGG
    GTCGCTCGAA ATCGGTTTGC TGTCCTAGAT CGGATGCATT CGCTTCTGAT CAAGAATCTG
    AAGAATGAGA TCACCAAAAA GGTACAGGTG CCCAATTGTG ATGAGATCTT CTATGCTGGC
    ACAGGCAATC TCCTGCTTCG AGATGCGGAC TCTATCACAC TCTTTGACGT ACAGCAGAAG
    CGGACTCTGG CATCTGTGAA GATTTCTAAA GTGAAATATG TTATCTGGTC AGCAGACATG
    TCACATGTAG CACTACTAGC CAAACACGCC ATTGTGATCT GTAACCGCAA ACTGGATGCT
    TTATGTAACA TTCATGAGAA CATTCGTGTC AAGAGTGGGG CCTGGGATGA GAGTGGGGTA
    TTTATCTATA CCACAAGCAA CCACATCAAA TATGCTGTCA CCACTGGGGA CCACGGGATC
    ATTCGAACTC TGGATTTACC CATCTATGTT ACACGGGTGA AGGGCAACAA TGTATACTGC
    CTAGACAGGG AGTGTCGTCC CCGGGTACTC ACCATTGATC CCACTGAGTT CAAATTCAAG
    CTGGCCCTGA TCAACAGAAA ATATGATGAG GTACTGCACA TGGTGAGGAA TGCCAAACTA
    GTAGGCCAGT CTATTATTGC TTATCTCCAG AAGAAGGGCT ATCCTGAAGT GGCACTGCAT
    TTTGTCAAGG ATGAGAAAAC TCGCTTTAGT CTGGCACTGG AGTGTGGAAA CATTGAGATT
    GCTCTGGAAG CAGCCAAAGC ACTGGATGAC AAGAACTGCT GGGAAAAGCT GGGAGAAGTG
    GCCCTGCTAC AGGGAAACCA CCAGATTGTG GAAATGTGCT ATCAGCGTAC CAAAAACTTT
    GACAAACTTT CCTTCCTGTA TCTTATCACT GGCAATTTAG AAAAACTTCG CAAGATGATG
    AAGATTGCTG AGATCAGAAA GGACATGAGT GGCCACTATC AGAATGCCCT ATACCTGGGT
    GATGTGTCAG AGCGTGTGCG GATCCTAAAG AACTGTGGGC AGAAGTCCCT GGCCTATCTC
    ACAGCTGCTA CCCATGGCTT AGATGAAGAA GCTGAGAGCC TAAAGGAAAC ATTTGACCCA
    GAGAAGGAGA CAATCCCAGA CATTGACCCT AATGCCAAGT TGCTCCAGCC ACCTGCACCT
    ATCATGCCAT TGGATACCAA TTGGCCTTTA TTGACCGTAT CCAAAGGATT TTTTGAAGGC
    ACCATTGCCA GCAAAGGGAA GGGAGGAGCA CTGGCTGCTG ACATTGACAT TGACACTGTT
    GGTACAGAGG GCTGGGGAGA GGATGCAGAG CTACAATTGG ATGAAGATGG GTTTGTGGAG
    GCTACAGAAG GTTTGGGGGA TGATGCTCTT GGCAAGGGAC AGGAAGAAGG AGGTGGCTGG
    GATGTAGAAG AAGATCTGGA GCTCCCTCCT GAGCTGGATA TATCCCCTGG GGCAGCTGGT
    GGGGCTGAAG ATGGTTTCTT TGTGCCCCCA ACCAAGGGAA CAAGTCCAAC TCAGATCTGG
    TGTAATAACT CTCAGCTTCC AGTTGATCAC ATCCTGGCAG GCTCTTTCGA AACAGCCATG
    CGGCTCCTTC ATGACCAAGT AGGGGTAATC CAGTTTGGCC CCTACAAGCA ACTGTTCCTA
    CAGACGTATG CCCGAGGCCG CACAACCTAT CAGGCTCTGC CCTGCCTACC CCCCATGTAT
    GGATATCCTA ATCGCAACTG GAAGGATGCA GGGCTGAAGA ATGGTGTACC AGCTGTGGGC
    CTGAAGCTTA ATGACCTCAT CCAACGGTTG CAGCTGTGCT ACCAGCTCAC CACAGTTGGC
    AAATTTGAGG AGGCTGTGGA AAAATTCCGT TCCATCCTTC TCAGTGTGCC ACTTCTTGTT
    GTGGACAATA AACAAGAGAT TGCAGAGGCC CAGCAGCTCA TCACCATTTG CCGTGAGTAC
    ATTGTGGGTT TGTCCATGGA GATAGAAAGG AAGAAGCTGC CCAAAGAGAC TCTAGAACAG
    CAGAAGCGCA TATGTGAGAT GGCAGCCTAT TTCACCCACT CAAACCTGCA GCCTGTGCAC
    ATGATCCTGG TGCTGCGTAC AGCCCTCAAT CTCTTCTTCA AGCTCAAGAA CTTCAAGACA
    GCTGCCACCT TTGCTCGGCG CCTGCTAGAA CTCGGGCCCA AGCCTGAGGT GGCGCAACAG
    ACCCGAAAAA TCCTGTCTGC CTGTGAGAAG AATCCCGCAG ATGCCTATCA GCTCAATTAT
    GACATGCACA ACCCCTTTGA CATCTGTGCT GCATCATATC GGCCCATCTA CCGTGGAAAG
    CCAGTGGAAA AGTGTCCACT CAGTGGGGCC TGCTATTCCC CTGAGTTCAA AGGTCAAATC
    TGTAGGGTCA CCACAGTGAC AGAGATTGGC AAAGATGTGA TTGGTTTAAG GATCAGTCCT
    CTGCAGTTTC GCTAA

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

    CloneID OMb59693
    Clone ID Related Accession (Same CDS sequence) XM_015113467.2
    Accession Version XM_015113467.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3702bp)
    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 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    Product coatomer subunit alpha isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041754.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_015113467.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 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
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    ATGCTAACCA AATTCGAGAC CAAGAGCGCG CGGGTCAAAG GGCTCAGCTT TCACCCCAAA 
    AGACCTTGGA TCCTGACGAG TTTACATAAT GGGGTCATCC AGTTGTGGGA CTATCGGATG
    TGCACTCTCA TTGACAAGTT TGATGAACAC GATGGTCCAG TGCGAGGCAT TGACTTCCAT
    AAGCAGCAGC CACTGTTCGT CTCTGGAGGA GATGACTATA AGATTAAGGT TTGGAATTAC
    AAGCTTCGGC GCTGTCTTTT CACATTGCTT GGGCACTTAG ATTATATTCG CACCACGTTT
    TTTCATCATG AATATCCCTG GATTCTGAGT GCCTCAGATG ATCAGACCAT CCGAGTGTGG
    AATTGGCAAT CTAGAACCTG TGTTTGTGTG TTAACAGGGC ACAACCATTA TGTGATGTGT
    GCTCAATTCC ACCCCTCAGA AGACTTGGTA GTATCAGCCA GCCTGGACCA GACTGTGCGC
    GTTTGGGATA TTTCTGGTCT AAGGAAAAAA AACCTGTCCC CTGGTGCGGT GGAATCGGAT
    GTGAGAGGAA TAACTGGGGT TGATCTATTT GGAACTACAG ATGCAGTGGT GAAGCATGTA
    CTGGAGGGTC ATGATCGTGG AGTAAACTGG GCTGCCTTCC ACCCCACTAT GCCCCTTATT
    GTATCTGGGG CAGATGATCG TCAAGTGAAG ATCTGGCGCA TGAATGAATC AAAGGCATGG
    GAGGTTGATA CCTGCCGGGG CCATTATAAC AATGTATCTT GTGCCGTCTT CCACCCTCGC
    CAAGAGTTGA TCCTCAGCAA TTCTGAGGAC AAGAGTATTC GAGTCTGGGA TATGTCTAAG
    CGGACTGGGG TTCAGACTTT CCGCAGAGAC CATGATCGTT TCTGGGTCTT AGCTGCTCAC
    CCTAACCTTA ACCTCTTTGC AGCAGGCCAT GATGGTGGTA TGATTGTGTT TAAGCTGGAA
    CGGGAACGGC CAGCCTATGC TGTTCACGGC AATATGCTAC ACTATGTCAA GGACCGATTC
    TTACGTCAGC TGGATTTCAA CAGCTCCAAA GATGTAGCTG TGATGCAGTT GCGGAGTGGT
    TCCAAGTTTC CAGTATTCAA TATGTCATAC AATCCAGCAG AAAATGCAGT CTTGCTTTGT
    ACGAGAGCTA GCAATTTAGA GAATAGTACC TATGACCTGT ACACCATCCC TAAAGATGCT
    GACTCCCAGA ATCCTGATGC GCCTGAAGGG AAACGATCCT CAGGCCTAAC AGCTGTTTGG
    GTCGCTCGAA ATCGGTTTGC TGTCCTAGAT CGGATGCATT CGCTTCTGAT CAAGAATCTG
    AAGAATGAGA TCACCAAAAA GGTACAGGTG CCCAATTGTG ATGAGATCTT CTATGCTGGC
    ACAGGCAATC TCCTGCTTCG AGATGCGGAC TCTATCACAC TCTTTGACGT ACAGCAGAAG
    CGGACTCTGG CATCTGTGAA GATTTCTAAA GTGAAATATG TTATCTGGTC AGCAGACATG
    TCACATGTAG CACTACTAGC CAAACACGAA CACTCATGCC CTTTGCCTCT TACAGCCATT
    GTGATCTGTA ACCGCAAACT GGATGCTTTA TGTAACATTC ATGAGAACAT TCGTGTCAAG
    AGTGGGGCCT GGGATGAGAG TGGGGTATTT ATCTATACCA CAAGCAACCA CATCAAATAT
    GCTGTCACCA CTGGGGACCA CGGGATCATT CGAACTCTGG ATTTACCCAT CTATGTTACA
    CGGGTGAAGG GCAACAATGT ATACTGCCTA GACAGGGAGT GTCGTCCCCG GGTACTCACC
    ATTGATCCCA CTGAGTTCAA ATTCAAGCTG GCCCTGATCA ACAGAAAATA TGATGAGGTA
    CTGCACATGG TGAGGAATGC CAAACTAGTA GGCCAGTCTA TTATTGCTTA TCTCCAGAAG
    AAGGGCTATC CTGAAGTGGC ACTGCATTTT GTCAAGGATG AGAAAACTCG CTTTAGTCTG
    GCACTGGAGT GTGGAAACAT TGAGATTGCT CTGGAAGCAG CCAAAGCACT GGATGACAAG
    AACTGCTGGG AAAAGCTGGG AGAAGTGGCC CTGCTACAGG GAAACCACCA GATTGTGGAA
    ATGTGCTATC AGCGTACCAA AAACTTTGAC AAACTTTCCT TCCTGTATCT TATCACTGGC
    AATTTAGAAA AACTTCGCAA GATGATGAAG ATTGCTGAGA TCAGAAAGGA CATGAGTGGC
    CACTATCAGA ATGCCCTATA CCTGGGTGAT GTGTCAGAGC GTGTGCGGAT CCTAAAGAAC
    TGTGGGCAGA AGTCCCTGGC CTATCTCACA GCTGCTACCC ATGGCTTAGA TGAAGAAGCT
    GAGAGCCTAA AGGAAACATT TGACCCAGAG AAGGAGACAA TCCCAGACAT TGACCCTAAT
    GCCAAGTTGC TCCAGCCACC TGCACCTATC ATGCCATTGG ATACCAATTG GCCTTTATTG
    ACCGTATCCA AAGGATTTTT TGAAGGCACC ATTGCCAGCA AAGGGAAGGG AGGAGCACTG
    GCTGCTGACA TTGACATTGA CACTGTTGGT ACAGAGGGCT GGGGAGAGGA TGCAGAGCTA
    CAATTGGATG AAGATGGGTT TGTGGAGGCT ACAGAAGGTT TGGGGGATGA TGCTCTTGGC
    AAGGGACAGG AAGAAGGAGG TGGCTGGGAT GTAGAAGAAG ATCTGGAGCT CCCTCCTGAG
    CTGGATATAT CCCCTGGGGC AGCTGGTGGG GCTGAAGATG GTTTCTTTGT GCCCCCAACC
    AAGGGAACAA GTCCAACTCA GATCTGGTGT AATAACTCTC AGCTTCCAGT TGATCACATC
    CTGGCAGGCT CTTTCGAAAC AGCCATGCGG CTCCTTCATG ACCAAGTAGG GGTAATCCAG
    TTTGGCCCCT ACAAGCAACT GTTCCTACAG ACATATGCCC GAGGCCGCAC AACCTATCAG
    GCTCTGCCCT GCCTACCCCC CATGTATGGA TATCCTAATC GCAACTGGAA GGATGCAGGG
    CTGAAGAATG GTGTACCAGC TGTGGGCCTG AAGCTTAATG ACCTCATCCA ACGGTTGCAG
    CTGTGCTACC AGCTCACCAC AGTTGGCAAA TTTGAGGAGG CTGTGGAAAA ATTCCGTTCC
    ATCCTTCTCA GTGTGCCACT TCTTGTTGTG GACAATAAAC AAGAGATTGC AGAGGCCCAG
    CAGCTCATCA CCATTTGCCG TGAGTACATT GTGGGTTTGT CCATGGAGAT AGAAAGGAAG
    AAGCTGCCCA AAGAGACTCT AGAACAGCAG AAGCGCATAT GTGAGATGGC AGCCTATTTC
    ACCCACTCAA ACCTGCAGCC TGTGCACATG ATCCTGGTGC TGCGTACAGC CCTCAATCTC
    TTCTTCAAGC TCAAGAACTT CAAGACAGCT GCCACCTTTG CTCGGCGCCT GCTAGAACTC
    GGGCCCAAGC CTGAGGTGGC GCAACAGACC CGAAAAATCC TGTCTGCCTG TGAGAAGAAT
    CCCGCAGATG CCTATCAGCT CAATTATGAC ATGCACAACC CCTTTGACAT CTGTGCTGCA
    TCATATCGGC CCATCTACCG TGGAAAGCCA GTGGAAAAGT GTCCACTCAG TGGGGCCTGC
    TATTCCCCTG AGTTCAAAGG TCAAATCTGT AGGGTCACCA CAGTGACAGA GATTGGCAAA
    GATGTGATTG GTTTAAGGAT CAGTCCTCTG CAGTTTCGCT AA

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

    RefSeq XP_014968953.1
    CDS391..4092
    Translation

    Target ORF information:

    RefSeq Version XM_015113467.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta coatomer protein complex subunit alpha (COPA), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015113467.2

    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
    ATGCTAACCA AATTCGAGAC CAAGAGCGCG CGGGTCAAAG GGCTCAGCTT TCACCCCAAA 
    AGACCTTGGA TCCTGACGAG TTTACATAAT GGGGTCATCC AGTTGTGGGA CTATCGGATG
    TGCACTCTCA TTGACAAGTT TGATGAACAC GATGGTCCAG TGCGAGGCAT TGACTTCCAT
    AAGCAGCAGC CACTGTTCGT CTCTGGAGGA GATGACTATA AGATTAAGGT TTGGAATTAC
    AAGCTTCGGC GCTGTCTTTT CACATTGCTT GGGCACTTAG ATTATATTCG CACCACGTTT
    TTTCATCATG AATATCCCTG GATTCTGAGT GCCTCAGATG ATCAGACCAT CCGAGTGTGG
    AATTGGCAAT CTAGAACCTG TGTTTGTGTG TTAACAGGGC ACAACCATTA TGTGATGTGT
    GCTCAATTCC ACCCCTCAGA AGACTTGGTA GTATCAGCCA GCCTGGACCA GACTGTGCGC
    GTTTGGGATA TTTCTGGTCT AAGGAAAAAA AACCTGTCCC CTGGTGCGGT GGAATCGGAT
    GTGAGAGGAA TAACTGGGGT TGATCTATTT GGAACTACAG ATGCAGTGGT GAAGCATGTA
    CTGGAGGGTC ATGATCGTGG AGTAAACTGG GCTGCCTTCC ACCCCACTAT GCCCCTTATT
    GTATCTGGGG CAGATGATCG TCAAGTGAAG ATCTGGCGCA TGAATGAATC AAAGGCATGG
    GAGGTTGATA CCTGCCGGGG CCATTATAAC AATGTATCTT GTGCCGTCTT CCACCCTCGC
    CAAGAGTTGA TCCTCAGCAA TTCTGAGGAC AAGAGTATTC GAGTCTGGGA TATGTCTAAG
    CGGACTGGGG TTCAGACTTT CCGCAGAGAC CATGATCGTT TCTGGGTCTT AGCTGCTCAC
    CCTAACCTTA ACCTCTTTGC AGCAGGCCAT GATGGTGGTA TGATTGTGTT TAAGCTGGAA
    CGGGAACGGC CAGCCTATGC TGTTCACGGC AATATGCTAC ACTATGTCAA GGACCGATTC
    TTACGTCAGC TGGATTTCAA CAGCTCCAAA GATGTAGCTG TGATGCAGTT GCGGAGTGGT
    TCCAAGTTTC CAGTATTCAA TATGTCATAC AATCCAGCAG AAAATGCAGT CTTGCTTTGT
    ACGAGAGCTA GCAATTTAGA GAATAGTACC TATGACCTGT ACACCATCCC TAAAGATGCT
    GACTCCCAGA ATCCTGATGC GCCTGAAGGG AAACGATCCT CAGGCCTAAC AGCTGTTTGG
    GTCGCTCGAA ATCGGTTTGC TGTCCTAGAT CGGATGCATT CGCTTCTGAT CAAGAATCTG
    AAGAATGAGA TCACCAAAAA GGTACAGGTG CCCAATTGTG ATGAGATCTT CTATGCTGGC
    ACAGGCAATC TCCTGCTTCG AGATGCGGAC TCTATCACAC TCTTTGACGT ACAGCAGAAG
    CGGACTCTGG CATCTGTGAA GATTTCTAAA GTGAAATATG TTATCTGGTC AGCAGACATG
    TCACATGTAG CACTACTAGC CAAACACGAA CACTCATGCC CTTTGCCTCT TACAGCCATT
    GTGATCTGTA ACCGCAAACT GGATGCTTTA TGTAACATTC ATGAGAACAT TCGTGTCAAG
    AGTGGGGCCT GGGATGAGAG TGGGGTATTT ATCTATACCA CAAGCAACCA CATCAAATAT
    GCTGTCACCA CTGGGGACCA CGGGATCATT CGAACTCTGG ATTTACCCAT CTATGTTACA
    CGGGTGAAGG GCAACAATGT ATACTGCCTA GACAGGGAGT GTCGTCCCCG GGTACTCACC
    ATTGATCCCA CTGAGTTCAA ATTCAAGCTG GCCCTGATCA ACAGAAAATA TGATGAGGTA
    CTGCACATGG TGAGGAATGC CAAACTAGTA GGCCAGTCTA TTATTGCTTA TCTCCAGAAG
    AAGGGCTATC CTGAAGTGGC ACTGCATTTT GTCAAGGATG AGAAAACTCG CTTTAGTCTG
    GCACTGGAGT GTGGAAACAT TGAGATTGCT CTGGAAGCAG CCAAAGCACT GGATGACAAG
    AACTGCTGGG AAAAGCTGGG AGAAGTGGCC CTGCTACAGG GAAACCACCA GATTGTGGAA
    ATGTGCTATC AGCGTACCAA AAACTTTGAC AAACTTTCCT TCCTGTATCT TATCACTGGC
    AATTTAGAAA AACTTCGCAA GATGATGAAG ATTGCTGAGA TCAGAAAGGA CATGAGTGGC
    CACTATCAGA ATGCCCTATA CCTGGGTGAT GTGTCAGAGC GTGTGCGGAT CCTAAAGAAC
    TGTGGGCAGA AGTCCCTGGC CTATCTCACA GCTGCTACCC ATGGCTTAGA TGAAGAAGCT
    GAGAGCCTAA AGGAAACATT TGACCCAGAG AAGGAGACAA TCCCAGACAT TGACCCTAAT
    GCCAAGTTGC TCCAGCCACC TGCACCTATC ATGCCATTGG ATACCAATTG GCCTTTATTG
    ACCGTATCCA AAGGATTTTT TGAAGGCACC ATTGCCAGCA AAGGGAAGGG AGGAGCACTG
    GCTGCTGACA TTGACATTGA CACTGTTGGT ACAGAGGGCT GGGGAGAGGA TGCAGAGCTA
    CAATTGGATG AAGATGGGTT TGTGGAGGCT ACAGAAGGTT TGGGGGATGA TGCTCTTGGC
    AAGGGACAGG AAGAAGGAGG TGGCTGGGAT GTAGAAGAAG ATCTGGAGCT CCCTCCTGAG
    CTGGATATAT CCCCTGGGGC AGCTGGTGGG GCTGAAGATG GTTTCTTTGT GCCCCCAACC
    AAGGGAACAA GTCCAACTCA GATCTGGTGT AATAACTCTC AGCTTCCAGT TGATCACATC
    CTGGCAGGCT CTTTCGAAAC AGCCATGCGG CTCCTTCATG ACCAAGTAGG GGTAATCCAG
    TTTGGCCCCT ACAAGCAACT GTTCCTACAG ACATATGCCC GAGGCCGCAC AACCTATCAG
    GCTCTGCCCT GCCTACCCCC CATGTATGGA TATCCTAATC GCAACTGGAA GGATGCAGGG
    CTGAAGAATG GTGTACCAGC TGTGGGCCTG AAGCTTAATG ACCTCATCCA ACGGTTGCAG
    CTGTGCTACC AGCTCACCAC AGTTGGCAAA TTTGAGGAGG CTGTGGAAAA ATTCCGTTCC
    ATCCTTCTCA GTGTGCCACT TCTTGTTGTG GACAATAAAC AAGAGATTGC AGAGGCCCAG
    CAGCTCATCA CCATTTGCCG TGAGTACATT GTGGGTTTGT CCATGGAGAT AGAAAGGAAG
    AAGCTGCCCA AAGAGACTCT AGAACAGCAG AAGCGCATAT GTGAGATGGC AGCCTATTTC
    ACCCACTCAA ACCTGCAGCC TGTGCACATG ATCCTGGTGC TGCGTACAGC CCTCAATCTC
    TTCTTCAAGC TCAAGAACTT CAAGACAGCT GCCACCTTTG CTCGGCGCCT GCTAGAACTC
    GGGCCCAAGC CTGAGGTGGC GCAACAGACC CGAAAAATCC TGTCTGCCTG TGAGAAGAAT
    CCCGCAGATG CCTATCAGCT CAATTATGAC ATGCACAACC CCTTTGACAT CTGTGCTGCA
    TCATATCGGC CCATCTACCG TGGAAAGCCA GTGGAAAAGT GTCCACTCAG TGGGGCCTGC
    TATTCCCCTG AGTTCAAAGG TCAAATCTGT AGGGTCACCA CAGTGACAGA GATTGGCAAA
    GATGTGATTG GTTTAAGGAT CAGTCCTCTG CAGTTTCGCT AA

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

    CloneID OMb59694
    Clone ID Related Accession (Same CDS sequence) XM_015113474.2
    Accession Version XM_015113474.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3675bp)
    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 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    Product coatomer subunit alpha isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041754.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_015113474.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 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
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    ATGCTAACCA AATTCGAGAC CAAGAGCGCG CGGGTCAAAG GGCTCAGCTT TCACCCCAAA 
    AGACCTTGGA TCCTGACGAG TTTACATAAT GGGGTCATCC AGTTGTGGGA CTATCGGATG
    TGCACTCTCA TTGACAAGTT TGATGAACAC GATGGTCCAG TGCGAGGCAT TGACTTCCAT
    AAGCAGCAGC CACTGTTCGT CTCTGGAGGA GATGACTATA AGATTAAGGT TTGGAATTAC
    AAGCTTCGGC GCTGTCTTTT CACATTGCTT GGGCACTTAG ATTATATTCG CACCACGTTT
    TTTCATCATG AATATCCCTG GATTCTGAGT GCCTCAGATG ATCAGACCAT CCGAGTGTGG
    AATTGGCAAT CTAGAACCTG TGTTTGTGTG TTAACAGGGC ACAACCATTA TGTGATGTGT
    GCTCAATTCC ACCCCTCAGA AGACTTGGTA GTATCAGCCA GCCTGGACCA GACTGTGCGC
    GTTTGGGATA TTTCTGGTCT AAGGAAAAAA AACCTGTCCC CTGGTGCGGT GGAATCGGAT
    GTGAGAGGAA TAACTGGGGT TGATCTATTT GGAACTACAG ATGCAGTGGT GAAGCATGTA
    CTGGAGGGTC ATGATCGTGG AGTAAACTGG GCTGCCTTCC ACCCCACTAT GCCCCTTATT
    GTATCTGGGG CAGATGATCG TCAAGTGAAG ATCTGGCGCA TGAATGAATC AAAGGCATGG
    GAGGTTGATA CCTGCCGGGG CCATTATAAC AATGTATCTT GTGCCGTCTT CCACCCTCGC
    CAAGAGTTGA TCCTCAGCAA TTCTGAGGAC AAGAGTATTC GAGTCTGGGA TATGTCTAAG
    CGGACTGGGG TTCAGACTTT CCGCAGAGAC CATGATCGTT TCTGGGTCTT AGCTGCTCAC
    CCTAACCTTA ACCTCTTTGC AGCAGGCCAT GATGGTGGTA TGATTGTGTT TAAGCTGGAA
    CGGGAACGGC CAGCCTATGC TGTTCACGGC AATATGCTAC ACTATGTCAA GGACCGATTC
    TTACGTCAGC TGGATTTCAA CAGCTCCAAA GATGTAGCTG TGATGCAGTT GCGGAGTGGT
    TCCAAGTTTC CAGTATTCAA TATGTCATAC AATCCAGCAG AAAATGCAGT CTTGCTTTGT
    ACGAGAGCTA GCAATTTAGA GAATAGTACC TATGACCTGT ACACCATCCC TAAAGATGCT
    GACTCCCAGA ATCCTGATGC GCCTGAAGGG AAACGATCCT CAGGCCTAAC AGCTGTTTGG
    GTCGCTCGAA ATCGGTTTGC TGTCCTAGAT CGGATGCATT CGCTTCTGAT CAAGAATCTG
    AAGAATGAGA TCACCAAAAA GGTACAGGTG CCCAATTGTG ATGAGATCTT CTATGCTGGC
    ACAGGCAATC TCCTGCTTCG AGATGCGGAC TCTATCACAC TCTTTGACGT ACAGCAGAAG
    CGGACTCTGG CATCTGTGAA GATTTCTAAA GTGAAATATG TTATCTGGTC AGCAGACATG
    TCACATGTAG CACTACTAGC CAAACACGCC ATTGTGATCT GTAACCGCAA ACTGGATGCT
    TTATGTAACA TTCATGAGAA CATTCGTGTC AAGAGTGGGG CCTGGGATGA GAGTGGGGTA
    TTTATCTATA CCACAAGCAA CCACATCAAA TATGCTGTCA CCACTGGGGA CCACGGGATC
    ATTCGAACTC TGGATTTACC CATCTATGTT ACACGGGTGA AGGGCAACAA TGTATACTGC
    CTAGACAGGG AGTGTCGTCC CCGGGTACTC ACCATTGATC CCACTGAGTT CAAATTCAAG
    CTGGCCCTGA TCAACAGAAA ATATGATGAG GTACTGCACA TGGTGAGGAA TGCCAAACTA
    GTAGGCCAGT CTATTATTGC TTATCTCCAG AAGAAGGGCT ATCCTGAAGT GGCACTGCAT
    TTTGTCAAGG ATGAGAAAAC TCGCTTTAGT CTGGCACTGG AGTGTGGAAA CATTGAGATT
    GCTCTGGAAG CAGCCAAAGC ACTGGATGAC AAGAACTGCT GGGAAAAGCT GGGAGAAGTG
    GCCCTGCTAC AGGGAAACCA CCAGATTGTG GAAATGTGCT ATCAGCGTAC CAAAAACTTT
    GACAAACTTT CCTTCCTGTA TCTTATCACT GGCAATTTAG AAAAACTTCG CAAGATGATG
    AAGATTGCTG AGATCAGAAA GGACATGAGT GGCCACTATC AGAATGCCCT ATACCTGGGT
    GATGTGTCAG AGCGTGTGCG GATCCTAAAG AACTGTGGGC AGAAGTCCCT GGCCTATCTC
    ACAGCTGCTA CCCATGGCTT AGATGAAGAA GCTGAGAGCC TAAAGGAAAC ATTTGACCCA
    GAGAAGGAGA CAATCCCAGA CATTGACCCT AATGCCAAGT TGCTCCAGCC ACCTGCACCT
    ATCATGCCAT TGGATACCAA TTGGCCTTTA TTGACCGTAT CCAAAGGATT TTTTGAAGGC
    ACCATTGCCA GCAAAGGGAA GGGAGGAGCA CTGGCTGCTG ACATTGACAT TGACACTGTT
    GGTACAGAGG GCTGGGGAGA GGATGCAGAG CTACAATTGG ATGAAGATGG GTTTGTGGAG
    GCTACAGAAG GTTTGGGGGA TGATGCTCTT GGCAAGGGAC AGGAAGAAGG AGGTGGCTGG
    GATGTAGAAG AAGATCTGGA GCTCCCTCCT GAGCTGGATA TATCCCCTGG GGCAGCTGGT
    GGGGCTGAAG ATGGTTTCTT TGTGCCCCCA ACCAAGGGAA CAAGTCCAAC TCAGATCTGG
    TGTAATAACT CTCAGCTTCC AGTTGATCAC ATCCTGGCAG GCTCTTTCGA AACAGCCATG
    CGGCTCCTTC ATGACCAAGT AGGGGTAATC CAGTTTGGCC CCTACAAGCA ACTGTTCCTA
    CAGACATATG CCCGAGGCCG CACAACCTAT CAGGCTCTGC CCTGCCTACC CCCCATGTAT
    GGATATCCTA ATCGCAACTG GAAGGATGCA GGGCTGAAGA ATGGTGTACC AGCTGTGGGC
    CTGAAGCTTA ATGACCTCAT CCAACGGTTG CAGCTGTGCT ACCAGCTCAC CACAGTTGGC
    AAATTTGAGG AGGCTGTGGA AAAATTCCGT TCCATCCTTC TCAGTGTGCC ACTTCTTGTT
    GTGGACAATA AACAAGAGAT TGCAGAGGCC CAGCAGCTCA TCACCATTTG CCGTGAGTAC
    ATTGTGGGTT TGTCCATGGA GATAGAAAGG AAGAAGCTGC CCAAAGAGAC TCTAGAACAG
    CAGAAGCGCA TATGTGAGAT GGCAGCCTAT TTCACCCACT CAAACCTGCA GCCTGTGCAC
    ATGATCCTGG TGCTGCGTAC AGCCCTCAAT CTCTTCTTCA AGCTCAAGAA CTTCAAGACA
    GCTGCCACCT TTGCTCGGCG CCTGCTAGAA CTCGGGCCCA AGCCTGAGGT GGCGCAACAG
    ACCCGAAAAA TCCTGTCTGC CTGTGAGAAG AATCCCGCAG ATGCCTATCA GCTCAATTAT
    GACATGCACA ACCCCTTTGA CATCTGTGCT GCATCATATC GGCCCATCTA CCGTGGAAAG
    CCAGTGGAAA AGTGTCCACT CAGTGGGGCC TGCTATTCCC CTGAGTTCAA AGGTCAAATC
    TGTAGGGTCA CCACAGTGAC AGAGATTGGC AAAGATGTGA TTGGTTTAAG GATCAGTCCT
    CTGCAGTTTC GCTAA

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

    RefSeq XP_014968960.1
    CDS396..4070
    Translation

    Target ORF information:

    RefSeq Version XM_015113474.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta coatomer protein complex subunit alpha (COPA), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015113474.2

    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
    ATGCTAACCA AATTCGAGAC CAAGAGCGCG CGGGTCAAAG GGCTCAGCTT TCACCCCAAA 
    AGACCTTGGA TCCTGACGAG TTTACATAAT GGGGTCATCC AGTTGTGGGA CTATCGGATG
    TGCACTCTCA TTGACAAGTT TGATGAACAC GATGGTCCAG TGCGAGGCAT TGACTTCCAT
    AAGCAGCAGC CACTGTTCGT CTCTGGAGGA GATGACTATA AGATTAAGGT TTGGAATTAC
    AAGCTTCGGC GCTGTCTTTT CACATTGCTT GGGCACTTAG ATTATATTCG CACCACGTTT
    TTTCATCATG AATATCCCTG GATTCTGAGT GCCTCAGATG ATCAGACCAT CCGAGTGTGG
    AATTGGCAAT CTAGAACCTG TGTTTGTGTG TTAACAGGGC ACAACCATTA TGTGATGTGT
    GCTCAATTCC ACCCCTCAGA AGACTTGGTA GTATCAGCCA GCCTGGACCA GACTGTGCGC
    GTTTGGGATA TTTCTGGTCT AAGGAAAAAA AACCTGTCCC CTGGTGCGGT GGAATCGGAT
    GTGAGAGGAA TAACTGGGGT TGATCTATTT GGAACTACAG ATGCAGTGGT GAAGCATGTA
    CTGGAGGGTC ATGATCGTGG AGTAAACTGG GCTGCCTTCC ACCCCACTAT GCCCCTTATT
    GTATCTGGGG CAGATGATCG TCAAGTGAAG ATCTGGCGCA TGAATGAATC AAAGGCATGG
    GAGGTTGATA CCTGCCGGGG CCATTATAAC AATGTATCTT GTGCCGTCTT CCACCCTCGC
    CAAGAGTTGA TCCTCAGCAA TTCTGAGGAC AAGAGTATTC GAGTCTGGGA TATGTCTAAG
    CGGACTGGGG TTCAGACTTT CCGCAGAGAC CATGATCGTT TCTGGGTCTT AGCTGCTCAC
    CCTAACCTTA ACCTCTTTGC AGCAGGCCAT GATGGTGGTA TGATTGTGTT TAAGCTGGAA
    CGGGAACGGC CAGCCTATGC TGTTCACGGC AATATGCTAC ACTATGTCAA GGACCGATTC
    TTACGTCAGC TGGATTTCAA CAGCTCCAAA GATGTAGCTG TGATGCAGTT GCGGAGTGGT
    TCCAAGTTTC CAGTATTCAA TATGTCATAC AATCCAGCAG AAAATGCAGT CTTGCTTTGT
    ACGAGAGCTA GCAATTTAGA GAATAGTACC TATGACCTGT ACACCATCCC TAAAGATGCT
    GACTCCCAGA ATCCTGATGC GCCTGAAGGG AAACGATCCT CAGGCCTAAC AGCTGTTTGG
    GTCGCTCGAA ATCGGTTTGC TGTCCTAGAT CGGATGCATT CGCTTCTGAT CAAGAATCTG
    AAGAATGAGA TCACCAAAAA GGTACAGGTG CCCAATTGTG ATGAGATCTT CTATGCTGGC
    ACAGGCAATC TCCTGCTTCG AGATGCGGAC TCTATCACAC TCTTTGACGT ACAGCAGAAG
    CGGACTCTGG CATCTGTGAA GATTTCTAAA GTGAAATATG TTATCTGGTC AGCAGACATG
    TCACATGTAG CACTACTAGC CAAACACGCC ATTGTGATCT GTAACCGCAA ACTGGATGCT
    TTATGTAACA TTCATGAGAA CATTCGTGTC AAGAGTGGGG CCTGGGATGA GAGTGGGGTA
    TTTATCTATA CCACAAGCAA CCACATCAAA TATGCTGTCA CCACTGGGGA CCACGGGATC
    ATTCGAACTC TGGATTTACC CATCTATGTT ACACGGGTGA AGGGCAACAA TGTATACTGC
    CTAGACAGGG AGTGTCGTCC CCGGGTACTC ACCATTGATC CCACTGAGTT CAAATTCAAG
    CTGGCCCTGA TCAACAGAAA ATATGATGAG GTACTGCACA TGGTGAGGAA TGCCAAACTA
    GTAGGCCAGT CTATTATTGC TTATCTCCAG AAGAAGGGCT ATCCTGAAGT GGCACTGCAT
    TTTGTCAAGG ATGAGAAAAC TCGCTTTAGT CTGGCACTGG AGTGTGGAAA CATTGAGATT
    GCTCTGGAAG CAGCCAAAGC ACTGGATGAC AAGAACTGCT GGGAAAAGCT GGGAGAAGTG
    GCCCTGCTAC AGGGAAACCA CCAGATTGTG GAAATGTGCT ATCAGCGTAC CAAAAACTTT
    GACAAACTTT CCTTCCTGTA TCTTATCACT GGCAATTTAG AAAAACTTCG CAAGATGATG
    AAGATTGCTG AGATCAGAAA GGACATGAGT GGCCACTATC AGAATGCCCT ATACCTGGGT
    GATGTGTCAG AGCGTGTGCG GATCCTAAAG AACTGTGGGC AGAAGTCCCT GGCCTATCTC
    ACAGCTGCTA CCCATGGCTT AGATGAAGAA GCTGAGAGCC TAAAGGAAAC ATTTGACCCA
    GAGAAGGAGA CAATCCCAGA CATTGACCCT AATGCCAAGT TGCTCCAGCC ACCTGCACCT
    ATCATGCCAT TGGATACCAA TTGGCCTTTA TTGACCGTAT CCAAAGGATT TTTTGAAGGC
    ACCATTGCCA GCAAAGGGAA GGGAGGAGCA CTGGCTGCTG ACATTGACAT TGACACTGTT
    GGTACAGAGG GCTGGGGAGA GGATGCAGAG CTACAATTGG ATGAAGATGG GTTTGTGGAG
    GCTACAGAAG GTTTGGGGGA TGATGCTCTT GGCAAGGGAC AGGAAGAAGG AGGTGGCTGG
    GATGTAGAAG AAGATCTGGA GCTCCCTCCT GAGCTGGATA TATCCCCTGG GGCAGCTGGT
    GGGGCTGAAG ATGGTTTCTT TGTGCCCCCA ACCAAGGGAA CAAGTCCAAC TCAGATCTGG
    TGTAATAACT CTCAGCTTCC AGTTGATCAC ATCCTGGCAG GCTCTTTCGA AACAGCCATG
    CGGCTCCTTC ATGACCAAGT AGGGGTAATC CAGTTTGGCC CCTACAAGCA ACTGTTCCTA
    CAGACATATG CCCGAGGCCG CACAACCTAT CAGGCTCTGC CCTGCCTACC CCCCATGTAT
    GGATATCCTA ATCGCAACTG GAAGGATGCA GGGCTGAAGA ATGGTGTACC AGCTGTGGGC
    CTGAAGCTTA ATGACCTCAT CCAACGGTTG CAGCTGTGCT ACCAGCTCAC CACAGTTGGC
    AAATTTGAGG AGGCTGTGGA AAAATTCCGT TCCATCCTTC TCAGTGTGCC ACTTCTTGTT
    GTGGACAATA AACAAGAGAT TGCAGAGGCC CAGCAGCTCA TCACCATTTG CCGTGAGTAC
    ATTGTGGGTT TGTCCATGGA GATAGAAAGG AAGAAGCTGC CCAAAGAGAC TCTAGAACAG
    CAGAAGCGCA TATGTGAGAT GGCAGCCTAT TTCACCCACT CAAACCTGCA GCCTGTGCAC
    ATGATCCTGG TGCTGCGTAC AGCCCTCAAT CTCTTCTTCA AGCTCAAGAA CTTCAAGACA
    GCTGCCACCT TTGCTCGGCG CCTGCTAGAA CTCGGGCCCA AGCCTGAGGT GGCGCAACAG
    ACCCGAAAAA TCCTGTCTGC CTGTGAGAAG AATCCCGCAG ATGCCTATCA GCTCAATTAT
    GACATGCACA ACCCCTTTGA CATCTGTGCT GCATCATATC GGCCCATCTA CCGTGGAAAG
    CCAGTGGAAA AGTGTCCACT CAGTGGGGCC TGCTATTCCC CTGAGTTCAA AGGTCAAATC
    TGTAGGGTCA CCACAGTGAC AGAGATTGGC AAAGATGTGA TTGGTTTAAG GATCAGTCCT
    CTGCAGTTTC GCTAA

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