LOC106891235 cDNA ORF clone, Calidris pugnax(ruff)

The following LOC106891235 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC106891235 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
OCa69192 XM_014947666.1
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Calidris pugnax retinitis pigmentosa 1-like 1 protein (LOC106891235), mRNA. pcDNA3.1-C-(k)DYK or customized vector 29-31 $1161.30
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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 OCa69192
    Clone ID Related Accession (Same CDS sequence) XM_014947666.1
    Accession Version XM_014947666.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6066bp)
    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 2015-12-08
    Organism Calidris pugnax(ruff)
    Product retinitis pigmentosa 1-like 1 protein
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_015090890.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Calidris pugnax Annotation Release 100 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## ##RefSeq-Attributes-START## ab initio :: 23% of CDS bases ##RefSeq-Attributes-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    ATGACTCAGG TGCCTGCTGA CTACCTGTCA ACCACCAGCT CCTACAACTA TGAGCAGCCC 
    CTTCCCTCCG TGGCTCGGAC AAGCACTCTC ACCAAGGTAC CCCCAGCCAA AAAAATAACT
    TTCTTCAAGA GTGGAGATCC TCAATTTGCA GGAGTCAAGA TGGCCATCAA CCAGCGAAGC
    TTCAAGAGCT TCAATGCACT CATGGATGAC CTCTCTCATA GGGTCCCACT GCCATTTGGG
    GTACGGACCA TCACCACCCC ACGAGGAATA CACTGCATCA GTGAGTTGGA CCAGCTGGAG
    GATGGGGGGT GCTACCTTTG CTCTGACAAG AAATACGTCA AACCTATTAG CATTATGTCT
    GGGGGACACA GGCCAGTCCC TCCGCGAAGT GGCCGTCCCT CCAGTACCTT GAGAAGAGCA
    GCTCAGGAGA GCAAACTTGA AGATTATTCC TCACCTTTCA CTCACCATGG CCCCAGAATA
    CCCAAGAAAA TCACTCTTGT TAAGAATGGA GAAAGTGGGT TTCGGCGCTC AATTATCTTG
    AACCGCAGAA ACGCCAGGAG TTTCAAAACG CTCCTGGATG AGATTTCTGA GATCCTACAG
    TTCCCAGTGA AGAAGCTCTA CACTGTTGAT GGGAGGAAGA TCGACAGCAT GCAGGCTCTG
    CTCCACTGCC CCAACGTGCT GGTGTGTGTC GGCCGGGAGC CATTTAAACC CGTATCAATG
    GAGAATTTGA GGAAACACTC GGTGGAGAAG CTGCCTGACC TGGCTCCCCG CTCCAACGGC
    AACAACGGCA ATGAAAACAA TGACAGTAAG GAAAACGTGA ACTTTGGACT GAAAGCCAAA
    AAAAGTGTTA TTCATCCACG GTCATCATCA AGCAACAGGT CGATGAGATT TTCGTTATCA
    TCAGAAAAGT CCTACCCTAA TGGTCTCGCT GCCTCACCGG ATAACGGCGC ACCTTTCTCC
    AACAGTTGCT CACATCCAAA ACCTGGGGAC CTGGTCCATT CCTTGGTCAA TGACGACATA
    GAAAAACGGG TGCATGTGAA CAAGGATGGC AGCCTGTCTG TTGAGATGAA AGTTCGCTTC
    CGCTTGCTAA ACGATGAGAC TTTGCAATGG TCCACCCAGA TCAAGAAGTC CAATCTGATG
    AACCAGATGC CTTGTGAAGA GTCAGGTGTG GAGGACAGTG GAGTAGATCC CATGCAGAAA
    ATGAACCCAG AAGCCAGCTC AGAGGCAGAT GAGTCATTAT ATCCCTGTGA TATTGATTCT
    TACATGTCAA AACTTGAGGA ATCAGAATGT GACGAGGCTC ATTGTCATAG CTGTGGCAAG
    AAACATCAGG ACTATGACAT CTGGAAAAAT CCCATGCACA CATCCCAGAG GGAAGAGCCC
    AGCGTACGAA GCACCTGGCA CACACGGTCG TCATGCTCCA GTACATCTTC CCGGAGGAGA
    GTAGTCCACA AAAAAATGGC TTCCGTGGAT AGCCTCCACA CCACATCCAG TGAGGAATTT
    TCTGAGCACA TTGTGCAAGA GTCCTCATCC TACTCAGAAA CTATAGAGAA CAGAGTGGCA
    TATCGATCCA TTAAAAAGTG TAGGTGTCGC AGTGATTTGT CTACAGGTGC TTCCAATGGA
    GAAGACCAGC AAGAATACAC TCGGACAAGC ACAAGCAATA GTCAGAGACC TTCATCTTTG
    GGCTTAATGT CACATTCAAG CTGTGAAAAC AACCTGGATA CTCAGGATGC CCCTGAAGAC
    CATGAAGCCA GCAAAAGCAA TTCACAAAAT GAAGATGAAA ACTGTTGTGA AGTTTCCTCT
    GTGAAGTGCT TAAAGGATGA TGTAGAAGAG GTTGAGAGCA GCAGAGTGGG GAGTGTCATG
    TCAAGGTCAT CTCTGCAGTC CAGACAGAGC AAGAAGAACA TATGTGAGGA AACAAGTAGC
    GTGGGTAGGA GCATATCCTC ATCCAGCCTT CAGAAGGCAA ATCACGAAGA TAACACTAGG
    TGCTCCACCC CTGCCAACAG TGTGTACAGC AAGTCTAGTA ACTGTGCTAC ACCAAGAGCA
    AAGAGTGAAC AAGACGACCA CTCTGATGAC AATGCAGTGG TCTCTTCCTT CTCCAGTGAG
    TCCTGCCCTA AAAAAGAGGC TGAAGAGGTT GAAGCAGAAC AAGAAGAAAA TGAGATCAGT
    GAAGTCAGCT CAGTTTCAGC AAAAACAAAG CCCAGCCAGC CAATAAGAGA TGAGAGCAGT
    GAAGGCGAGC GATGCTCTAC ACAAGGAACC CCAAATTCCA GAGCTAGTGA CAGGAACAGC
    AAGAGAAGTG AGAGTGATGA AATCATTCAG TGCAATGCCT CATGCTCTTC CAGAGGATCC
    AAAAAGAGCA AACACAGCCA TATTCATATG GATGCACAGT CTGAAATGTC TGTGTCTTCA
    CTTGGGTCCA CGCCGAATAA AAAGAAGAAT TCCCTACATG CAGATGACCT GAGATCATGC
    AGCAGGGCAT CTAATTACTC CAAAAGCTCA TGTGAAATCA AGAAAAAATC TATCGAAGAC
    CCCATGTCTC ATAACTCGGG ATCTTTCCAC TCAAACATTT CATCTACTAG TGAAGCAGAG
    GTAATTGCAG GTGTTACTGA GGAGAAAAGC TTGAAAAGTG CCACCAATGG CTACAGTGAA
    TCCTCAAAAG GCTCAAAGAG AATCCATAGA GAAGAAAACA GCAGGCCATC ATCCCTCTGC
    TCAAGTGTTT CAAGCCCTAA TCAAAAAGCT GGAGAGGGTC ATTCCAAGAT GAATTCAGAG
    ATGGCTTCTT CAAGACATGG AAGTATGAGT GAGAGTGTAT GTTCAAAAGG TGACCTCTCA
    GCTGAGGCTG GGATTAGGAA TGGAAATCCT GAAAGCGTCT CTTCAAGAGT CTCTTCAAAG
    TCAGAAGAAA AAGATAAATG CATGTTGACA CAGATATCCC AGGAAAGTGA TGATAGGTGT
    TCACAATCAA ACATGTCTCA ATCTTCAAAA TCAAGGCAGG TAAAAACTAG ACATCTTCGT
    GTGAAGATGT CAAACTCCAG CCGAGCTTCA TTGTCTGAGA CTTTGTCAGT ATGTAGTTTG
    CATTGCCCTG CCCCACCAAA AGGGAAGCCA AACAGCAAAA AAATACGGTC AGCCATCCTG
    AAGAATTCCT CCATTAGCAG CATAGGTACT GAATCAGTTG TAGCTGCAGG AAAAGAGCAG
    AAAGAAATTA TAGATTCCTC CAAAGCAACT TCCTATGGGT CTAAATCAGC TGCAACCGAA
    GTAAATGATC AGAAGAATAA AGAGATTGAT GACTCTTGCA ACAGAAAAGT GGATGAAGAG
    TTAGAGGGCA CGGACAAGCA GGAGGAAGGG AGTGACTTAA TGCCATCTAC TCTACCAAAT
    ACATCTCCAG AAGAAGTAGT GCAAGAATGG CTAAGTAAAA TCCCTTCAGA ATCATTGCTT
    ATGAAATATG AAATGGAGGA TGGTGCAGAA GAGGAATGTA TAGAGGCAAC CACTGAGGTA
    TCATACTGTA CAAACACTGA GGAAATCTCA GAGGATGAAA AAGCTGAGAA GAAGAATGTG
    GAGGAGGCTG AAAACGAGGC AAAGGATGAA GTGGGAAAAG AGACAGAAGA AGGCACTGCA
    ATTAATGAAG AGGTTGAAGA ATGCGTAAAT CAGGAAAAAA TTTCTGAGGT TGTGCCTGAA
    GCTGCCAAGG CTGACCAGGC AGAATGCAGC CAGTCAGTTA CATCCAGCCA AAATAACAAC
    AGAAGAGACC TGCCAACATC TGTCCAGACT TCCGTCCAAA TCATGAAGGC CTTGCTCAGT
    TCAAAAAATG AAACGAAATT TGACCGATCA AACAGTTTGC CTGAAGTGTC CCCCACTATG
    GGGAGAAAAC TGAGTAACTC TGCCAACATT TTGATTACTT GTCTTGCCAG TCTCCAGTTC
    CTTGATGAAG AGTCAGAAGA TCCATCAGAT AAATCAAAAC ATTTGAACAA GCCAAGGTAT
    ATGGAGCTGC TAAATATTTT TCAAGCCCTG TGGTTTGGAT GCACAGCTGA AAAAAGTGGT
    CCAAGTTCAG GTCAAGAGGC AAGTGAGCCA GCAAAGACAG CCTCTGGCTT TAAAGTCCCA
    AAATCTACAG ATTATGACTT CACTCCCATG TCCTCCTCTG GGGTTGATGT TAGCAGTGGT
    TCTGGTGGCT CAGGAGAAGA GACTACAGCT GCTGCCAGGG ACTGCACATT AATGGCACAG
    AAAATGGTTG AATTCAAGTC AGCTGGACAA GTGGAAAATG TGGAGGCTGG CACTGAACTG
    ACTGAGGTTG AGGAACAAAG TAAAGAGGAA GTGCAGTCAT CCCGACCTTC AACAGCCTGC
    TCAAAATCAA AAGGTGAAGA AGCAGCACAG CCTACTAGAG AGGAATCTCT AACTCAGGAG
    GCAGAAGAGA ATAAGGAGGA TCAGTGCAAA CTGAAAGCTG ATTTGGAAGA GCAACCTGAA
    AAAGTGTCTG CAAATGACCC AAAGCCCAGT GTCAACATGG CCACAAGTGT GGGCCCATCC
    CTTGTCCAAC AAAACTCAGT GGATCCAGAC CCAACCTGGG TCCTGAGGCT GCTCAAGAAA
    ATCGAGAAGG AGTTCATGGC TCACTATGTC AGTGCCATGA ACGAATTAAA AGTCAGGTGG
    AACCTGGAGA ACAACCAACA GATGGATGAA ATGATACTCG AACTGAAGGA GGAAGTGAGC
    AAAAGGATAC AAAAAAGCAT AGAGAAGGAG CTGAGGAAGA TCAAAACCAG GGCAGGGAAG
    AAGACACCGA GACCTCCGGA TGAACCACTC AAGCGTGAGT CAACACTCCA AACTGAGCAG
    AGAAGACGGC GATTGCAGAC TATGCATAAA AAGTCACTCT TCAGTGACAA GAATGGAACC
    CAGAGTAGGC TAGAGGACAC ATCAGACTTA TCATTTGATG TAGATGAAGA TACAGCATTC
    AGTGCAGCTT TTGAGGCCAG CATTAGTAAA CAAACTAGTG AGGAGGAATA CTGCCCATGT
    GACTCTTGTG TGAGGAAAAA ATTGGCTTCC AAGCCTTCAA GAAACCCAGT GGTGGCCGCC
    AATGCTCCAG TCACGAAAGC ATTTGATTTA CAGCAAATCC TGAGGTTGAA GAAAAATGAT
    GAGGAAGTCT GTGTCTCAGA AGCAGCTCAG GACACCAAAA CAATTCCTAG AAGTTCTGTG
    GAGGAAGCAA CAGAAAATGG CAATCCAGAT GATGAGAATA ATGAGGGTGA GGTTCAGCCA
    AGGGAAGTGG AAATGGAAGG TAATGAAGAA AAGGAGCCAG AATTAAACGA AGTTGGCAGC
    TCAGTGTTGA ACGAAGATGG AGAAGAAGCT GATGAGAAGT CCAAAGCTGA AGATGAAGCT
    GACGATGAAG CTGAAGAAGC AGAGGAGCCA GAGAATGAGG ACATTGGGGC TGATGATGAG
    GAAGAGACAT CTGAATGCAG AGGAAATGCT GGAACTGACA ACAATCCTGA AGGAGATGCT
    GCAGAAGGAA GTGAAGAAGC TGAGCAGGAT GAAGCTGTGC CAGTGGAAGA TGCAAATCTG
    GAGTCAGAAG TTGAGGCACA TTCTGCTGAG GAAGAAAACA ACAGTGAGGG AGGTGACAAA
    TATGATGAGG GTGATGAGGA ACCTACCAGT GATGACCCTG ACAAGGCACA TGAAGTCAAA
    GGCAATAATA AGGTTTCTGA GAAAGCCTCA AAGGCCAAAG GCCATAAAAA CAACAAAAGG
    CTAGACATTC TGAACAAAGC AGCCGCCTTT TCTTGTTATT CTTCCGTGGG AAACTTCTCA
    CAGCAATCCC AGAAGGGGTC TGAAGATGAA GGTGAAGAGG AATGCAAAAA TGACAACAGT
    CCCATGAACA ACCACTCCAA CGGAGAGGTT CAAAGTGGTG ATAGCAGCAA GCCCTCACAG
    ATGTATCCTG ACAGTGACGA AGAAGAAGAG GACAAAGCAT CTTCATGCAC TGATCCTTTG
    GGAGATGAAG ATCAGGCAGA TGCTGAAGGT GCAGATCCAA AGGAGGGTGA ACCTACCGAG
    GAAATTCAGG ATTCTAAAAA GAAAGAAGAC TCTGATGAGA TTGACCAGGA TGACCTGGAC
    TTCTAG

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

    RefSeq XP_014803152.1
    CDS1..6066
    Translation

    Target ORF information:

    RefSeq Version XM_014947666.1
    Organism Calidris pugnax(ruff)
    Definition Calidris pugnax retinitis pigmentosa 1-like 1 protein (LOC106891235), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_014947666.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    ATGACTCAGG TGCCTGCTGA CTACCTGTCA ACCACCAGCT CCTACAACTA TGAGCAGCCC 
    CTTCCCTCCG TGGCTCGGAC AAGCACTCTC ACCAAGGTAC CCCCAGCCAA AAAAATAACT
    TTCTTCAAGA GTGGAGATCC TCAATTTGCA GGAGTCAAGA TGGCCATCAA CCAGCGAAGC
    TTCAAGAGCT TCAATGCACT CATGGATGAC CTCTCTCATA GGGTCCCACT GCCATTTGGG
    GTACGGACCA TCACCACCCC ACGAGGAATA CACTGCATCA GTGAGTTGGA CCAGCTGGAG
    GATGGGGGGT GCTACCTTTG CTCTGACAAG AAATACGTCA AACCTATTAG CATTATGTCT
    GGGGGACACA GGCCAGTCCC TCCGCGAAGT GGCCGTCCCT CCAGTACCTT GAGAAGAGCA
    GCTCAGGAGA GCAAACTTGA AGATTATTCC TCACCTTTCA CTCACCATGG CCCCAGAATA
    CCCAAGAAAA TCACTCTTGT TAAGAATGGA GAAAGTGGGT TTCGGCGCTC AATTATCTTG
    AACCGCAGAA ACGCCAGGAG TTTCAAAACG CTCCTGGATG AGATTTCTGA GATCCTACAG
    TTCCCAGTGA AGAAGCTCTA CACTGTTGAT GGGAGGAAGA TCGACAGCAT GCAGGCTCTG
    CTCCACTGCC CCAACGTGCT GGTGTGTGTC GGCCGGGAGC CATTTAAACC CGTATCAATG
    GAGAATTTGA GGAAACACTC GGTGGAGAAG CTGCCTGACC TGGCTCCCCG CTCCAACGGC
    AACAACGGCA ATGAAAACAA TGACAGTAAG GAAAACGTGA ACTTTGGACT GAAAGCCAAA
    AAAAGTGTTA TTCATCCACG GTCATCATCA AGCAACAGGT CGATGAGATT TTCGTTATCA
    TCAGAAAAGT CCTACCCTAA TGGTCTCGCT GCCTCACCGG ATAACGGCGC ACCTTTCTCC
    AACAGTTGCT CACATCCAAA ACCTGGGGAC CTGGTCCATT CCTTGGTCAA TGACGACATA
    GAAAAACGGG TGCATGTGAA CAAGGATGGC AGCCTGTCTG TTGAGATGAA AGTTCGCTTC
    CGCTTGCTAA ACGATGAGAC TTTGCAATGG TCCACCCAGA TCAAGAAGTC CAATCTGATG
    AACCAGATGC CTTGTGAAGA GTCAGGTGTG GAGGACAGTG GAGTAGATCC CATGCAGAAA
    ATGAACCCAG AAGCCAGCTC AGAGGCAGAT GAGTCATTAT ATCCCTGTGA TATTGATTCT
    TACATGTCAA AACTTGAGGA ATCAGAATGT GACGAGGCTC ATTGTCATAG CTGTGGCAAG
    AAACATCAGG ACTATGACAT CTGGAAAAAT CCCATGCACA CATCCCAGAG GGAAGAGCCC
    AGCGTACGAA GCACCTGGCA CACACGGTCG TCATGCTCCA GTACATCTTC CCGGAGGAGA
    GTAGTCCACA AAAAAATGGC TTCCGTGGAT AGCCTCCACA CCACATCCAG TGAGGAATTT
    TCTGAGCACA TTGTGCAAGA GTCCTCATCC TACTCAGAAA CTATAGAGAA CAGAGTGGCA
    TATCGATCCA TTAAAAAGTG TAGGTGTCGC AGTGATTTGT CTACAGGTGC TTCCAATGGA
    GAAGACCAGC AAGAATACAC TCGGACAAGC ACAAGCAATA GTCAGAGACC TTCATCTTTG
    GGCTTAATGT CACATTCAAG CTGTGAAAAC AACCTGGATA CTCAGGATGC CCCTGAAGAC
    CATGAAGCCA GCAAAAGCAA TTCACAAAAT GAAGATGAAA ACTGTTGTGA AGTTTCCTCT
    GTGAAGTGCT TAAAGGATGA TGTAGAAGAG GTTGAGAGCA GCAGAGTGGG GAGTGTCATG
    TCAAGGTCAT CTCTGCAGTC CAGACAGAGC AAGAAGAACA TATGTGAGGA AACAAGTAGC
    GTGGGTAGGA GCATATCCTC ATCCAGCCTT CAGAAGGCAA ATCACGAAGA TAACACTAGG
    TGCTCCACCC CTGCCAACAG TGTGTACAGC AAGTCTAGTA ACTGTGCTAC ACCAAGAGCA
    AAGAGTGAAC AAGACGACCA CTCTGATGAC AATGCAGTGG TCTCTTCCTT CTCCAGTGAG
    TCCTGCCCTA AAAAAGAGGC TGAAGAGGTT GAAGCAGAAC AAGAAGAAAA TGAGATCAGT
    GAAGTCAGCT CAGTTTCAGC AAAAACAAAG CCCAGCCAGC CAATAAGAGA TGAGAGCAGT
    GAAGGCGAGC GATGCTCTAC ACAAGGAACC CCAAATTCCA GAGCTAGTGA CAGGAACAGC
    AAGAGAAGTG AGAGTGATGA AATCATTCAG TGCAATGCCT CATGCTCTTC CAGAGGATCC
    AAAAAGAGCA AACACAGCCA TATTCATATG GATGCACAGT CTGAAATGTC TGTGTCTTCA
    CTTGGGTCCA CGCCGAATAA AAAGAAGAAT TCCCTACATG CAGATGACCT GAGATCATGC
    AGCAGGGCAT CTAATTACTC CAAAAGCTCA TGTGAAATCA AGAAAAAATC TATCGAAGAC
    CCCATGTCTC ATAACTCGGG ATCTTTCCAC TCAAACATTT CATCTACTAG TGAAGCAGAG
    GTAATTGCAG GTGTTACTGA GGAGAAAAGC TTGAAAAGTG CCACCAATGG CTACAGTGAA
    TCCTCAAAAG GCTCAAAGAG AATCCATAGA GAAGAAAACA GCAGGCCATC ATCCCTCTGC
    TCAAGTGTTT CAAGCCCTAA TCAAAAAGCT GGAGAGGGTC ATTCCAAGAT GAATTCAGAG
    ATGGCTTCTT CAAGACATGG AAGTATGAGT GAGAGTGTAT GTTCAAAAGG TGACCTCTCA
    GCTGAGGCTG GGATTAGGAA TGGAAATCCT GAAAGCGTCT CTTCAAGAGT CTCTTCAAAG
    TCAGAAGAAA AAGATAAATG CATGTTGACA CAGATATCCC AGGAAAGTGA TGATAGGTGT
    TCACAATCAA ACATGTCTCA ATCTTCAAAA TCAAGGCAGG TAAAAACTAG ACATCTTCGT
    GTGAAGATGT CAAACTCCAG CCGAGCTTCA TTGTCTGAGA CTTTGTCAGT ATGTAGTTTG
    CATTGCCCTG CCCCACCAAA AGGGAAGCCA AACAGCAAAA AAATACGGTC AGCCATCCTG
    AAGAATTCCT CCATTAGCAG CATAGGTACT GAATCAGTTG TAGCTGCAGG AAAAGAGCAG
    AAAGAAATTA TAGATTCCTC CAAAGCAACT TCCTATGGGT CTAAATCAGC TGCAACCGAA
    GTAAATGATC AGAAGAATAA AGAGATTGAT GACTCTTGCA ACAGAAAAGT GGATGAAGAG
    TTAGAGGGCA CGGACAAGCA GGAGGAAGGG AGTGACTTAA TGCCATCTAC TCTACCAAAT
    ACATCTCCAG AAGAAGTAGT GCAAGAATGG CTAAGTAAAA TCCCTTCAGA ATCATTGCTT
    ATGAAATATG AAATGGAGGA TGGTGCAGAA GAGGAATGTA TAGAGGCAAC CACTGAGGTA
    TCATACTGTA CAAACACTGA GGAAATCTCA GAGGATGAAA AAGCTGAGAA GAAGAATGTG
    GAGGAGGCTG AAAACGAGGC AAAGGATGAA GTGGGAAAAG AGACAGAAGA AGGCACTGCA
    ATTAATGAAG AGGTTGAAGA ATGCGTAAAT CAGGAAAAAA TTTCTGAGGT TGTGCCTGAA
    GCTGCCAAGG CTGACCAGGC AGAATGCAGC CAGTCAGTTA CATCCAGCCA AAATAACAAC
    AGAAGAGACC TGCCAACATC TGTCCAGACT TCCGTCCAAA TCATGAAGGC CTTGCTCAGT
    TCAAAAAATG AAACGAAATT TGACCGATCA AACAGTTTGC CTGAAGTGTC CCCCACTATG
    GGGAGAAAAC TGAGTAACTC TGCCAACATT TTGATTACTT GTCTTGCCAG TCTCCAGTTC
    CTTGATGAAG AGTCAGAAGA TCCATCAGAT AAATCAAAAC ATTTGAACAA GCCAAGGTAT
    ATGGAGCTGC TAAATATTTT TCAAGCCCTG TGGTTTGGAT GCACAGCTGA AAAAAGTGGT
    CCAAGTTCAG GTCAAGAGGC AAGTGAGCCA GCAAAGACAG CCTCTGGCTT TAAAGTCCCA
    AAATCTACAG ATTATGACTT CACTCCCATG TCCTCCTCTG GGGTTGATGT TAGCAGTGGT
    TCTGGTGGCT CAGGAGAAGA GACTACAGCT GCTGCCAGGG ACTGCACATT AATGGCACAG
    AAAATGGTTG AATTCAAGTC AGCTGGACAA GTGGAAAATG TGGAGGCTGG CACTGAACTG
    ACTGAGGTTG AGGAACAAAG TAAAGAGGAA GTGCAGTCAT CCCGACCTTC AACAGCCTGC
    TCAAAATCAA AAGGTGAAGA AGCAGCACAG CCTACTAGAG AGGAATCTCT AACTCAGGAG
    GCAGAAGAGA ATAAGGAGGA TCAGTGCAAA CTGAAAGCTG ATTTGGAAGA GCAACCTGAA
    AAAGTGTCTG CAAATGACCC AAAGCCCAGT GTCAACATGG CCACAAGTGT GGGCCCATCC
    CTTGTCCAAC AAAACTCAGT GGATCCAGAC CCAACCTGGG TCCTGAGGCT GCTCAAGAAA
    ATCGAGAAGG AGTTCATGGC TCACTATGTC AGTGCCATGA ACGAATTAAA AGTCAGGTGG
    AACCTGGAGA ACAACCAACA GATGGATGAA ATGATACTCG AACTGAAGGA GGAAGTGAGC
    AAAAGGATAC AAAAAAGCAT AGAGAAGGAG CTGAGGAAGA TCAAAACCAG GGCAGGGAAG
    AAGACACCGA GACCTCCGGA TGAACCACTC AAGCGTGAGT CAACACTCCA AACTGAGCAG
    AGAAGACGGC GATTGCAGAC TATGCATAAA AAGTCACTCT TCAGTGACAA GAATGGAACC
    CAGAGTAGGC TAGAGGACAC ATCAGACTTA TCATTTGATG TAGATGAAGA TACAGCATTC
    AGTGCAGCTT TTGAGGCCAG CATTAGTAAA CAAACTAGTG AGGAGGAATA CTGCCCATGT
    GACTCTTGTG TGAGGAAAAA ATTGGCTTCC AAGCCTTCAA GAAACCCAGT GGTGGCCGCC
    AATGCTCCAG TCACGAAAGC ATTTGATTTA CAGCAAATCC TGAGGTTGAA GAAAAATGAT
    GAGGAAGTCT GTGTCTCAGA AGCAGCTCAG GACACCAAAA CAATTCCTAG AAGTTCTGTG
    GAGGAAGCAA CAGAAAATGG CAATCCAGAT GATGAGAATA ATGAGGGTGA GGTTCAGCCA
    AGGGAAGTGG AAATGGAAGG TAATGAAGAA AAGGAGCCAG AATTAAACGA AGTTGGCAGC
    TCAGTGTTGA ACGAAGATGG AGAAGAAGCT GATGAGAAGT CCAAAGCTGA AGATGAAGCT
    GACGATGAAG CTGAAGAAGC AGAGGAGCCA GAGAATGAGG ACATTGGGGC TGATGATGAG
    GAAGAGACAT CTGAATGCAG AGGAAATGCT GGAACTGACA ACAATCCTGA AGGAGATGCT
    GCAGAAGGAA GTGAAGAAGC TGAGCAGGAT GAAGCTGTGC CAGTGGAAGA TGCAAATCTG
    GAGTCAGAAG TTGAGGCACA TTCTGCTGAG GAAGAAAACA ACAGTGAGGG AGGTGACAAA
    TATGATGAGG GTGATGAGGA ACCTACCAGT GATGACCCTG ACAAGGCACA TGAAGTCAAA
    GGCAATAATA AGGTTTCTGA GAAAGCCTCA AAGGCCAAAG GCCATAAAAA CAACAAAAGG
    CTAGACATTC TGAACAAAGC AGCCGCCTTT TCTTGTTATT CTTCCGTGGG AAACTTCTCA
    CAGCAATCCC AGAAGGGGTC TGAAGATGAA GGTGAAGAGG AATGCAAAAA TGACAACAGT
    CCCATGAACA ACCACTCCAA CGGAGAGGTT CAAAGTGGTG ATAGCAGCAA GCCCTCACAG
    ATGTATCCTG ACAGTGACGA AGAAGAAGAG GACAAAGCAT CTTCATGCAC TGATCCTTTG
    GGAGATGAAG ATCAGGCAGA TGCTGAAGGT GCAGATCCAA AGGAGGGTGA ACCTACCGAG
    GAAATTCAGG ATTCTAAAAA GAAAGAAGAC TCTGATGAGA TTGACCAGGA TGACCTGGAC
    TTCTAG

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

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