ORF » Species Summary » Corvus cornix cornix » EP300 cDNA ORF clone

EP300 cDNA ORF clone, Corvus cornix cornix

The following EP300 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the EP300 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
OCo92408 XM_010410913.2
Latest version!		 Corvus cornix cornix E1A binding protein p300 (EP300), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $1161.30
$1659.00

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** 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)
    EP300 ( XM_010410913.2 ) cDNA ORF clone, Corvus cornix cornix -> XP_010409215.2 Corvus cornix cornix E1A binding protein p300 (EP300), mRNA.
    Price & Availability↑
    CloneID OCo92408
    Clone ID Related Accession (Same CDS sequence) XM_010410913.2
    Accession Version XM_010410913.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6348bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-03-21
    Organism Corvus cornix cornix
    Product histone acetyltransferase p300
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_018113951.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 22, 2017 this sequence version replaced XM_010410913.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Corvus cornix cornix Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% 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
    6121
    6181
    6241
    6301
    ATGGGGCATT TCCTCACAGA TGAGCCCTCA GAGATTCGAG GAAAACTCGT GGCGGATTTT 
    GGATCACTCT TTGATCTGGA ACATGACTTG CCAGATGAAC TGATCAGCTC CACAGAACTT 
    GGACTCACCA ATGGTGGTGA CATTAACCAG CTGCAGACCA GCCTTGGCCT GGCACAAGAT 
    GCTGCCTCTA AACACAAGCA GCTGTCTGAA CTTTTACGGG CTGGTAGCTC CCCAAATCTC 
    AATATGGGGG TTGGTGGCCC TGGCCAAGGC ATGGCCAGTC AAACCCAACA AAATAGTCCT 
    GGAATGGGAA TGTTAAACAG CATGGTGAAA AGCCCCATGG CACAGGCTGG GTTGACTTCT 
    CCCAATATGG CGATGGGTGC AAGTGGACCA AACCAGGGTC CTTCTGCCCA ATCCACAGCA 
    GCAATGATGC CAACGGTAAA CAGCCCAGTT AACCAGCCTG GCATGGGAAT GAACACAGGG 
    ATGAATGCTG GCATGAATCC TGGGATGTTG GCAGCAGGCA ATGGACAGGG GATGATGCAG 
    GGGCAAGTCA TGAACGGTTC AATTGGAGCA GGCAGAGGGC GACCTAATAT GCCGTACCCG 
    AACCCAGGAA TGGGTAGTGC TGGTAACTTG TTGGCTGAGA CACTGCAACA AGGCACTCCA 
    CAGATGGGAG GGCAGGCTGG ACTAAGAGGG CCACAGCCTG GAGCCATGAA CAAGATGGGA 
    ATGATGAGCA ATCCCAGCCC TTATGGCCAG CCTTATAGCC AAAATACTGG GCAACAGATT 
    GGAACCAGTG GACTTGGGCC TCAGATGCAG AATAAAGCTG GACTGCAGAA TAGCTTACCA 
    CAGTTTCCAA TGGACAAGAA GCCAGTTCCT GGGGCAGGAA TGCCTAACAT GGGCCAGCAG 
    CAGGCTCCTC AGGTTCAGCA AGCTGGGATG GGGCCAACAG CTTCTCAAGG AATGGGGTCT 
    GGAGCACCGA CAGCAGATCC AGAAAAGCGC AAACTCATTC AGCAGCAACT CGTTCTTCTC 
    TTACATGCTC ACAAGTGTCA GCGTCGAGAA CAAGCCAACG GGGAGGTGCG ACAGTGCAAC 
    CTCCCTCATT GCCGAACCAT GAAGAATGTC TTGAACCACA TGACACACTG TCAGGCTGGC 
    AAGTCTTGCC AAGTGGCACA TTGTGCATCT TCCCGACAAA TCATCTCACA CTGGAAGAAC 
    TGTACAAGAC ACGATTGTCC TGTATGTTTG CCTCTCAAAA ATGCTGGGGA CAAAAGAAAT 
    CAGCAATCGC TGCTGGGCGG AGCTGCAGTA GGACTTGCCA ATACCGGCTC TGTGGGCGTG 
    GGGCAGCAGA CAACGCCCAG CATAAACACT ACCAGTCAGA TAGACCCCAG CTCCATCGAG 
    AGAGCCTACG CAGCCCTCGG ACTGACCTAT CAAGGGAACC AGATGCAGAC ACAGCCCCAG 
    GCTCAAGTGA AGAATCAGCA ACAGGGACAG TCACCCCAGG GTTTGCGCCC TATGAATCCT 
    ATGAGTGCAA ATCCAATGGG AGTGAATGGA GGAGTAGGGG TTCAACCCCC TAATCTGCTG 
    CCTGACTCGA TGTTACATTC AACCATGAAT TCTCAAAACC CCATGATGAG TGAAAGCGCC 
    AATGTTGCCA GTTTGGGAGC CATGCCAACA GCTCAACCAC CCAATACTGG AATTCGAAAG 
    CAGTGGCATG AGGACATCAC TCAGGATCTC CGAAACCACC TTGTTCATAA ATTAGTCCAA 
    GCCATATTTC CTACTCCTGA CCCTGCAGCA TTGAAGGATC GACGGATGGA GAATCTGGTG 
    GCATATGCTC GGAAAGTGGA AGGGGATATG TATGAATCAG CAAACAGCAG GGCAGAGTAC 
    TATCACTTGC TAGCAGAGAA GATCTACAAG ATTCAGAAGG AATTGGAGGA GAAACGAAGA 
    ACCAGGCTGC AGAAGCAAAA TATGATCCCA AATGCTCCAG GCATGCCACA AGCTCCCATG 
    AATCAAGGGC CCAATATGGG ACAGCCACAG CCAGGAATGT CTGCAAATGG TCCTCTTCCT 
    GACCCAACCC TGATACGTGC CAATGTGCCA AACCAGATGA TGAATCGCAT GCAGGCACAG 
    CCAGGAATGA ATCAGTTTGG CCAGATGAAC ATGCAGCTGT CACCGATGGG ACCCCGACAA 
    ACCCCTCCTC TTCAGCACCC TGGACAGCTA AGTCAGGCTG GGGCCATGAA CCAGATGGGA 
    TTTCCTTCAC GTATGCAGCA ACCAGGAGTT GGCCAGCCTT CTGGTCAGAA TCAATTTCTA 
    CAACAGACTC AGTTCCCTGC TTCTTCCCCG GGAATGAACA CAGCGAGCAT GGCTATGACT 
    CAGCCTGGCA ATCAGACACC AGTATCTCAA GCACAAATGA CCAGCGCTTC CTGTCCTGTG 
    AACTCTCCTG CAATGGCTCC AGGTTCTCAA GGGAGCCATA TTCACTGCCC ACCTCTTCCA 
    CAGCCTCCCA TGCACCGAAA TTCTCCTTCT CCGGTACCTA GCCGAACCCC AACACCTCAC 
    CACACGCCCC CAGGCTTGGG ATCACAGCAA CAGCAGGCGG CAGCAGCGGC TGCCACCACT 
    GCCCCCACAC CTGCTCCTCA GGCAATGCCA CCTGGACCAC AGTCCCAAAC TATGCACCCC 
    CCTCAAAGGC AGACTCCAAC ACCTCCGCAG GCACAGCTGC CTCCACAAGT CCAGCCTCCA 
    GTTCCAGTTA CCCCTTCTGC AGAGCAACAG CAGCAGCCCT TGTCACAGCA GAGCACGACT 
    GCATCTGTTC CCACACCAAC AGCACCACTG CAACCTCAGC ACCCCACAAC ACCTCTTTCA 
    CAGCCAGCTG TGAGCATTGA TGGGCAGGTA TCCAACCCCC CATCCACCAG CAGCACAGAG 
    GTGAACTCTC AGCAGACTGT TCCAGAGCAG CAGCAGCCAC CCTTGCAGGA AGTGAAAATG 
    GAGATTAAAA CAGATGAAGG GGAACCGGAA CAAACAGAGA TGCAAATGGA GGAGAAACCT 
    GAGGTGAAAG TAGAACCAGT CGTGGAGGAA TGTAAACCAG ACCCAATGGA GCAAGAAGAG 
    AAGAAACCTG AAATGAAGAC TGAAGTACCA GAGGGTGAAG AAAGACCAAC TACTCCAGCA 
    ACTCAGTCTT CTCCAGCAGC TGGGCAGTCT AAGAAAAAAA TTTTCAAGCC AGAGGAGTTG 
    CGGCAGGCAC TTATGCCAAC ACTGGAGGCA CTTTACCGTC AGGATCCGGA GTCTCTTCCA 
    TTTCGACAGC CTGTGGATCC CCAACTACTA GGAATTCCTG ATTATTTTGA CATAGTGAAG 
    AACCCCATGG ATCTTTCTAC TATCAAGAGA AAGCTGGACA CAGGACAGTA TCAGGAACCG 
    TGGCAATATG TAGATGACAT CTGGCTCATG TTCAATAATG CCTGGTTGTA TAACCGCAAA 
    ACATCCCGGG TATACAAGTA CTGTTCCAAA CTGGCAGAGG TGTTTGAGCA AGAAATTGAC 
    CCAGTTATGC AGAGCCTTGG TTACTGCTGT GGAAGAAAGT TGGAGTTCTC GCCACAGACT 
    TTGTGTTGCT ATGGCAAACA GCTATGCACG ATCCCTCGAG ATGCCACTTA CTACAGTTAC 
    CAGAACAGGT ATCATTTCTG TGAGAAGTGC TTCAACGAAA TCCAAGGGGA GAGCGTTTCT 
    CTGGGAGATG ACCCATCACA ACCTCAAACC ACGATAAACA AAGAACAATT TTCAAAAAGG 
    AAAAATGATA CACTGGATCC TGAACTATTT GTTGAATGTA TAGAGTGTGG AAGAAAAATG 
    CACCAGATTT GTGTTCTTCA TAATGAGATA ATCTGGCCTT CTGGCTTTGT CTGTGATGGC 
    TGCCTAAAGA AAACGGGACG AACCAGGAAA GAGAACAAAT TCTCTGCTAA AAGGTTACCA 
    GCTACAAGAC TTGGTACCTT CCTGGAGAAT AGAGTCAATG ATTTCCTAAG ACGACAGAAT 
    CACCCTGAGG CGGGAGAGGT CACAGTTAGG GTGGTACATG CATCTGACAA AACTGTCGAA 
    GTAAAACCAG GAATGAAAGC AAGGTTTGTA GACAGTGGAG AGATGGCAGA GTCTTTCCCT 
    TACCGAACAA AAGCGCTTTT TGCCTTTGAG GAGATTGATG GTGTAGACTT GTGCTTCTTT 
    GGGATGCATG TGCAGGAGTA TGGCTCAGAC TGCCCTCCAC CCAATCAAAG GCGAGTGTAT 
    ATATCTTACC TTGACAGTGT TCATTTCTTC CGCCCTAAAT GCTTGAGGAC TGCTGTCTAT 
    CATGAAATAC TAATTGGATA TCTAGAATAT GTTAAGAAAC TAGGGTATAC TACTGGACAT 
    ATCTGGGCGT GCCCGCCCAG TGAAGGAGAT GACTACATCT TCCACTGCCA TCCTCCTGAC 
    CAAAAGATAC CCAAACCCAA GCGACTACAA GAGTGGTACA AAAAGATGCT GGACAAGTCT 
    GTGTCAGAGC GCATCGTCCA TGATTACAAG GATATATTTA AGCAGGCAAC AGAAGATCGT 
    CTAACAAGTG CAAAGGAGCT CCCTTACTTT GAAGGGGACT TCTGGCCTAA TGTTCTAGAG 
    GAGAGCATTA AGGAGCTTGA GCAAGAGGAA GAAGAACGAA AGAGAGAAGA AAACACTAGT 
    AATGAGAGCA CAGATGTGAG CAAGGGAGAC AGCAAAAATG CCAAAAAGAA GAACAACAAG 
    AAGACAAGTA AAAACAAGAG CAGCTTGAGT CGTGGCAATA AGAAGAAGCC TGGCATGCCC 
    AATGTGTCCA ATGACCTCTC CCAGAAGCTG TATGCCACTA TGGAGAAGCA CAAGGAGGTC 
    TTCTTTGTCA TCCGTCTCAT TGCTGGCCCT GCAGCCAACT CCCTGCCCCC CATCATTGAG 
    CCTGACCCAC TCATTCCGTG TGACCTGATG GATGGGCGTG ATGCTTTCCT AACCCTTGCT 
    AGAGACAAGC ACCTGGAGTT CTCCTCACTA CGAAGGGCTC AGTGGTCAAC TATGTGCATG 
    CTGGTGGAAC TGCATACCCA GAGCCAAGAT CGCTTTGTTT ACACCTGCAA TGAGTGCAAG 
    CATCATGTGG AGACCAGATG GCATTGCACT GTCTGTGAGG ATTATGACCT GTGCATCACC 
    TGCTATAACA CTAAAAACCA TGACCACAAG ATGGAGAAAT TAGGCCTTGG TCTAGATGAT 
    GAGAGCAACA ACCAGCAGAC CACCACCACG CAGAGCCCCG GCGATTCCCG CCGCCTGAGC 
    ATCCAGCGCT GTATCCAGTC TCTGGTCCAC GCCTGCCAGT GTCGCAATGC CAACTGCTCG 
    CTGCCGTCCT GTCAGAAGAT GAAACGGGTT GTCCAACACA CCAAAGGCTG CAAACGCAAG 
    ACCAATGGAG GGTGCCCCAT CTGCAAGCAA CTCATTGCTC TCTGCTGCTA CCACGCAAAG 
    CACTGCCAGG AGAACAAGTG CCCCGTGCCC TTCTGCCTCA ACATCAAACA CAAGCTCCGT 
    CAGCAACAGC TCCAGCACCG CCTGCAGCAG GCGCAGATGC TCCGAAGGAG GATGGCGAGC 
    ATGCAGCGCA CGGGTGTGGC GGGGCGGCAG GAAGCCATGG CTGGGATGAA TCCTCAGGCG 
    CAGCAGATGA ATATGAATCA CTCGGGGATG GCTCCCCAGT TCCGAGATCT CCTGATGAGA 
    CGGCACCAGA TGATGGAGCA GCAGCGCCAC CAGCAGCAGC AGCAGGGAGC GGGACCGGCA 
    CTGGGGCCAG GGATGGCCAA CCACAACCAG TTTCAGCAGC CCCAGGGTGT CGGGTATCCC 
    CAGCAGCAGC AGCAGCGAAT GCAGCATCAC ATGCAGCAGA TGCAGCAAGG AAACATGGGA 
    CAAATAAGCC AGCTTCCACA GGCCATGAGT GCAGAGACAG GAGCCAGTTT GCAACAGGCT 
    TTCCAGCAAA GGCTGCTTCA GCAGCAGATG GGGTCCCCAG CTCAGCCCAA TCCTATGAGC 
    CCCCAACAGC ACATGCTCCC CAATCAGGCC CAGTCCCCGC ACCTCCAGGG CCAGCAGCTC 
    CCTTCATCGC TCACCAATCA AGTGCGTTCT CCGCAGCCTG TACCCTCACC GCGGCCCCAG 
    TCCCAGCCCC CTCATTCAAG CCCATCCCCT CGGATGCAGC CTCAGCCTTC TCCACACCAC 
    GTCTCCCCGC AGACCAGCTC CCCACATCCA GGACTGGTAG CTGCCCAGGC TAACCCCATG 
    GATCAAGGGC ACTTTGCCAG CCCGGACCAG AGTGCAATGC TTTCCCAGCT TGCTAGCAAT 
    CCCGGCATGG CAGGCCTCCA TGGTACAAGC GCCACGGAAC TGGGGCTCAG CTCTGAGAAC 
    TCAGACTTGA ATTCAAACCT TTCACAGAGT ACACTAGACA TACACTAG

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

    RefSeq XP_010409215.2
    CDS1..6348
    Translation

    Target ORF information:

    RefSeq Version XM_010410913.2
    Organism Corvus cornix cornix
    Definition Corvus cornix cornix E1A binding protein p300 (EP300), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_010410913.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    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
    6121
    6181
    6241
    6301
    ATGGGGCATT TCCTCACAGA TGAGCCCTCA GAGATTCGAG GAAAACTCGT GGCGGATTTT 
    GGATCACTCT TTGATCTGGA ACATGACTTG CCAGATGAAC TGATCAGCTC CACAGAACTT 
    GGACTCACCA ATGGTGGTGA CATTAACCAG CTGCAGACCA GCCTTGGCCT GGCACAAGAT 
    GCTGCCTCTA AACACAAGCA GCTGTCTGAA CTTTTACGGG CTGGTAGCTC CCCAAATCTC 
    AATATGGGGG TTGGTGGCCC TGGCCAAGGC ATGGCCAGTC AAACCCAACA AAATAGTCCT 
    GGAATGGGAA TGTTAAACAG CATGGTGAAA AGCCCCATGG CACAGGCTGG GTTGACTTCT 
    CCCAATATGG CGATGGGTGC AAGTGGACCA AACCAGGGTC CTTCTGCCCA ATCCACAGCA 
    GCAATGATGC CAACGGTAAA CAGCCCAGTT AACCAGCCTG GCATGGGAAT GAACACAGGG 
    ATGAATGCTG GCATGAATCC TGGGATGTTG GCAGCAGGCA ATGGACAGGG GATGATGCAG 
    GGGCAAGTCA TGAACGGTTC AATTGGAGCA GGCAGAGGGC GACCTAATAT GCCGTACCCG 
    AACCCAGGAA TGGGTAGTGC TGGTAACTTG TTGGCTGAGA CACTGCAACA AGGCACTCCA 
    CAGATGGGAG GGCAGGCTGG ACTAAGAGGG CCACAGCCTG GAGCCATGAA CAAGATGGGA 
    ATGATGAGCA ATCCCAGCCC TTATGGCCAG CCTTATAGCC AAAATACTGG GCAACAGATT 
    GGAACCAGTG GACTTGGGCC TCAGATGCAG AATAAAGCTG GACTGCAGAA TAGCTTACCA 
    CAGTTTCCAA TGGACAAGAA GCCAGTTCCT GGGGCAGGAA TGCCTAACAT GGGCCAGCAG 
    CAGGCTCCTC AGGTTCAGCA AGCTGGGATG GGGCCAACAG CTTCTCAAGG AATGGGGTCT 
    GGAGCACCGA CAGCAGATCC AGAAAAGCGC AAACTCATTC AGCAGCAACT CGTTCTTCTC 
    TTACATGCTC ACAAGTGTCA GCGTCGAGAA CAAGCCAACG GGGAGGTGCG ACAGTGCAAC 
    CTCCCTCATT GCCGAACCAT GAAGAATGTC TTGAACCACA TGACACACTG TCAGGCTGGC 
    AAGTCTTGCC AAGTGGCACA TTGTGCATCT TCCCGACAAA TCATCTCACA CTGGAAGAAC 
    TGTACAAGAC ACGATTGTCC TGTATGTTTG CCTCTCAAAA ATGCTGGGGA CAAAAGAAAT 
    CAGCAATCGC TGCTGGGCGG AGCTGCAGTA GGACTTGCCA ATACCGGCTC TGTGGGCGTG 
    GGGCAGCAGA CAACGCCCAG CATAAACACT ACCAGTCAGA TAGACCCCAG CTCCATCGAG 
    AGAGCCTACG CAGCCCTCGG ACTGACCTAT CAAGGGAACC AGATGCAGAC ACAGCCCCAG 
    GCTCAAGTGA AGAATCAGCA ACAGGGACAG TCACCCCAGG GTTTGCGCCC TATGAATCCT 
    ATGAGTGCAA ATCCAATGGG AGTGAATGGA GGAGTAGGGG TTCAACCCCC TAATCTGCTG 
    CCTGACTCGA TGTTACATTC AACCATGAAT TCTCAAAACC CCATGATGAG TGAAAGCGCC 
    AATGTTGCCA GTTTGGGAGC CATGCCAACA GCTCAACCAC CCAATACTGG AATTCGAAAG 
    CAGTGGCATG AGGACATCAC TCAGGATCTC CGAAACCACC TTGTTCATAA ATTAGTCCAA 
    GCCATATTTC CTACTCCTGA CCCTGCAGCA TTGAAGGATC GACGGATGGA GAATCTGGTG 
    GCATATGCTC GGAAAGTGGA AGGGGATATG TATGAATCAG CAAACAGCAG GGCAGAGTAC 
    TATCACTTGC TAGCAGAGAA GATCTACAAG ATTCAGAAGG AATTGGAGGA GAAACGAAGA 
    ACCAGGCTGC AGAAGCAAAA TATGATCCCA AATGCTCCAG GCATGCCACA AGCTCCCATG 
    AATCAAGGGC CCAATATGGG ACAGCCACAG CCAGGAATGT CTGCAAATGG TCCTCTTCCT 
    GACCCAACCC TGATACGTGC CAATGTGCCA AACCAGATGA TGAATCGCAT GCAGGCACAG 
    CCAGGAATGA ATCAGTTTGG CCAGATGAAC ATGCAGCTGT CACCGATGGG ACCCCGACAA 
    ACCCCTCCTC TTCAGCACCC TGGACAGCTA AGTCAGGCTG GGGCCATGAA CCAGATGGGA 
    TTTCCTTCAC GTATGCAGCA ACCAGGAGTT GGCCAGCCTT CTGGTCAGAA TCAATTTCTA 
    CAACAGACTC AGTTCCCTGC TTCTTCCCCG GGAATGAACA CAGCGAGCAT GGCTATGACT 
    CAGCCTGGCA ATCAGACACC AGTATCTCAA GCACAAATGA CCAGCGCTTC CTGTCCTGTG 
    AACTCTCCTG CAATGGCTCC AGGTTCTCAA GGGAGCCATA TTCACTGCCC ACCTCTTCCA 
    CAGCCTCCCA TGCACCGAAA TTCTCCTTCT CCGGTACCTA GCCGAACCCC AACACCTCAC 
    CACACGCCCC CAGGCTTGGG ATCACAGCAA CAGCAGGCGG CAGCAGCGGC TGCCACCACT 
    GCCCCCACAC CTGCTCCTCA GGCAATGCCA CCTGGACCAC AGTCCCAAAC TATGCACCCC 
    CCTCAAAGGC AGACTCCAAC ACCTCCGCAG GCACAGCTGC CTCCACAAGT CCAGCCTCCA 
    GTTCCAGTTA CCCCTTCTGC AGAGCAACAG CAGCAGCCCT TGTCACAGCA GAGCACGACT 
    GCATCTGTTC CCACACCAAC AGCACCACTG CAACCTCAGC ACCCCACAAC ACCTCTTTCA 
    CAGCCAGCTG TGAGCATTGA TGGGCAGGTA TCCAACCCCC CATCCACCAG CAGCACAGAG 
    GTGAACTCTC AGCAGACTGT TCCAGAGCAG CAGCAGCCAC CCTTGCAGGA AGTGAAAATG 
    GAGATTAAAA CAGATGAAGG GGAACCGGAA CAAACAGAGA TGCAAATGGA GGAGAAACCT 
    GAGGTGAAAG TAGAACCAGT CGTGGAGGAA TGTAAACCAG ACCCAATGGA GCAAGAAGAG 
    AAGAAACCTG AAATGAAGAC TGAAGTACCA GAGGGTGAAG AAAGACCAAC TACTCCAGCA 
    ACTCAGTCTT CTCCAGCAGC TGGGCAGTCT AAGAAAAAAA TTTTCAAGCC AGAGGAGTTG 
    CGGCAGGCAC TTATGCCAAC ACTGGAGGCA CTTTACCGTC AGGATCCGGA GTCTCTTCCA 
    TTTCGACAGC CTGTGGATCC CCAACTACTA GGAATTCCTG ATTATTTTGA CATAGTGAAG 
    AACCCCATGG ATCTTTCTAC TATCAAGAGA AAGCTGGACA CAGGACAGTA TCAGGAACCG 
    TGGCAATATG TAGATGACAT CTGGCTCATG TTCAATAATG CCTGGTTGTA TAACCGCAAA 
    ACATCCCGGG TATACAAGTA CTGTTCCAAA CTGGCAGAGG TGTTTGAGCA AGAAATTGAC 
    CCAGTTATGC AGAGCCTTGG TTACTGCTGT GGAAGAAAGT TGGAGTTCTC GCCACAGACT 
    TTGTGTTGCT ATGGCAAACA GCTATGCACG ATCCCTCGAG ATGCCACTTA CTACAGTTAC 
    CAGAACAGGT ATCATTTCTG TGAGAAGTGC TTCAACGAAA TCCAAGGGGA GAGCGTTTCT 
    CTGGGAGATG ACCCATCACA ACCTCAAACC ACGATAAACA AAGAACAATT TTCAAAAAGG 
    AAAAATGATA CACTGGATCC TGAACTATTT GTTGAATGTA TAGAGTGTGG AAGAAAAATG 
    CACCAGATTT GTGTTCTTCA TAATGAGATA ATCTGGCCTT CTGGCTTTGT CTGTGATGGC 
    TGCCTAAAGA AAACGGGACG AACCAGGAAA GAGAACAAAT TCTCTGCTAA AAGGTTACCA 
    GCTACAAGAC TTGGTACCTT CCTGGAGAAT AGAGTCAATG ATTTCCTAAG ACGACAGAAT 
    CACCCTGAGG CGGGAGAGGT CACAGTTAGG GTGGTACATG CATCTGACAA AACTGTCGAA 
    GTAAAACCAG GAATGAAAGC AAGGTTTGTA GACAGTGGAG AGATGGCAGA GTCTTTCCCT 
    TACCGAACAA AAGCGCTTTT TGCCTTTGAG GAGATTGATG GTGTAGACTT GTGCTTCTTT 
    GGGATGCATG TGCAGGAGTA TGGCTCAGAC TGCCCTCCAC CCAATCAAAG GCGAGTGTAT 
    ATATCTTACC TTGACAGTGT TCATTTCTTC CGCCCTAAAT GCTTGAGGAC TGCTGTCTAT 
    CATGAAATAC TAATTGGATA TCTAGAATAT GTTAAGAAAC TAGGGTATAC TACTGGACAT 
    ATCTGGGCGT GCCCGCCCAG TGAAGGAGAT GACTACATCT TCCACTGCCA TCCTCCTGAC 
    CAAAAGATAC CCAAACCCAA GCGACTACAA GAGTGGTACA AAAAGATGCT GGACAAGTCT 
    GTGTCAGAGC GCATCGTCCA TGATTACAAG GATATATTTA AGCAGGCAAC AGAAGATCGT 
    CTAACAAGTG CAAAGGAGCT CCCTTACTTT GAAGGGGACT TCTGGCCTAA TGTTCTAGAG 
    GAGAGCATTA AGGAGCTTGA GCAAGAGGAA GAAGAACGAA AGAGAGAAGA AAACACTAGT 
    AATGAGAGCA CAGATGTGAG CAAGGGAGAC AGCAAAAATG CCAAAAAGAA GAACAACAAG 
    AAGACAAGTA AAAACAAGAG CAGCTTGAGT CGTGGCAATA AGAAGAAGCC TGGCATGCCC 
    AATGTGTCCA ATGACCTCTC CCAGAAGCTG TATGCCACTA TGGAGAAGCA CAAGGAGGTC 
    TTCTTTGTCA TCCGTCTCAT TGCTGGCCCT GCAGCCAACT CCCTGCCCCC CATCATTGAG 
    CCTGACCCAC TCATTCCGTG TGACCTGATG GATGGGCGTG ATGCTTTCCT AACCCTTGCT 
    AGAGACAAGC ACCTGGAGTT CTCCTCACTA CGAAGGGCTC AGTGGTCAAC TATGTGCATG 
    CTGGTGGAAC TGCATACCCA GAGCCAAGAT CGCTTTGTTT ACACCTGCAA TGAGTGCAAG 
    CATCATGTGG AGACCAGATG GCATTGCACT GTCTGTGAGG ATTATGACCT GTGCATCACC 
    TGCTATAACA CTAAAAACCA TGACCACAAG ATGGAGAAAT TAGGCCTTGG TCTAGATGAT 
    GAGAGCAACA ACCAGCAGAC CACCACCACG CAGAGCCCCG GCGATTCCCG CCGCCTGAGC 
    ATCCAGCGCT GTATCCAGTC TCTGGTCCAC GCCTGCCAGT GTCGCAATGC CAACTGCTCG 
    CTGCCGTCCT GTCAGAAGAT GAAACGGGTT GTCCAACACA CCAAAGGCTG CAAACGCAAG 
    ACCAATGGAG GGTGCCCCAT CTGCAAGCAA CTCATTGCTC TCTGCTGCTA CCACGCAAAG 
    CACTGCCAGG AGAACAAGTG CCCCGTGCCC TTCTGCCTCA ACATCAAACA CAAGCTCCGT 
    CAGCAACAGC TCCAGCACCG CCTGCAGCAG GCGCAGATGC TCCGAAGGAG GATGGCGAGC 
    ATGCAGCGCA CGGGTGTGGC GGGGCGGCAG GAAGCCATGG CTGGGATGAA TCCTCAGGCG 
    CAGCAGATGA ATATGAATCA CTCGGGGATG GCTCCCCAGT TCCGAGATCT CCTGATGAGA 
    CGGCACCAGA TGATGGAGCA GCAGCGCCAC CAGCAGCAGC AGCAGGGAGC GGGACCGGCA 
    CTGGGGCCAG GGATGGCCAA CCACAACCAG TTTCAGCAGC CCCAGGGTGT CGGGTATCCC 
    CAGCAGCAGC AGCAGCGAAT GCAGCATCAC ATGCAGCAGA TGCAGCAAGG AAACATGGGA 
    CAAATAAGCC AGCTTCCACA GGCCATGAGT GCAGAGACAG GAGCCAGTTT GCAACAGGCT 
    TTCCAGCAAA GGCTGCTTCA GCAGCAGATG GGGTCCCCAG CTCAGCCCAA TCCTATGAGC 
    CCCCAACAGC ACATGCTCCC CAATCAGGCC CAGTCCCCGC ACCTCCAGGG CCAGCAGCTC 
    CCTTCATCGC TCACCAATCA AGTGCGTTCT CCGCAGCCTG TACCCTCACC GCGGCCCCAG 
    TCCCAGCCCC CTCATTCAAG CCCATCCCCT CGGATGCAGC CTCAGCCTTC TCCACACCAC 
    GTCTCCCCGC AGACCAGCTC CCCACATCCA GGACTGGTAG CTGCCCAGGC TAACCCCATG 
    GATCAAGGGC ACTTTGCCAG CCCGGACCAG AGTGCAATGC TTTCCCAGCT TGCTAGCAAT 
    CCCGGCATGG CAGGCCTCCA TGGTACAAGC GCCACGGAAC TGGGGCTCAG CTCTGAGAAC 
    TCAGACTTGA ATTCAAACCT TTCACAGAGT ACACTAGACA TACACTAG

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

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