ORF » Species Summary » Phialophora attae » AB675_3959 cDNA ORF clone

AB675_3959 cDNA ORF clone, Phialophora attae

The following AB675_3959 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the AB675_3959 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
OPh50595 XM_018144057.1
Latest version!		 Phialophora attae putative protein tag-76 (AB675_3959), partial mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00

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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)
    AB675_3959 ( XM_018144057.1 ) cDNA ORF clone, Phialophora attae -> XP_017997543.1 Phialophora attae putative protein tag-76 (AB675_3959), partial mRNA.
    Price & Availability↑
    CloneID OPh50595
    Clone ID Related Accession (Same CDS sequence) XM_018144057.1
    Accession Version XM_018144057.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4533bp)
    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 2017-08-27
    Organism Phialophora attae
    Product putative protein tag-76
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. This record is derived from an annotated genomic sequence (NW_017253251). COMPLETENESS: incomplete on both ends. 

    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
    ATGTCGAATG CTCCGATAGC TCCGAGAGGC CAAGGTCTAA ATGCTTCAGC AACTTCCATG 
    ACGAACGTAC CAACAGGCCC TCGAGGCGGG AACCCACGTG GCCGTAGCGG TGGACATGCC 
    GGCCGCGGTG GCGGACGTTT TCAGCCTCAT CGTCCGCCCA TCATCGATCA GCCCAACTCC 
    CATCAGCCGC GACTTGTTCA CACGCAACTC GAACCTGCGC CCGCCACCAT TAAAGGCGAC 
    GCATTCGTCT CTGCACCAGA GCGACTTACT GGCAAGACGC TGACCAATCA CTATGGAATC 
    AAGTTCCCCA ATGACGATGT CAACTCTTCG ACGACGGGAC CTACACAGCC TCACAGCCCA 
    TCAAACGCAG CGTCTACGAC TTTGACCAGA AGAACGGGTC CCGGTGCCAC TACACCTGTG 
    AGATTCAGCT CTGGCACAGG TTCACCCAAC AAAGCGTCCT CAGGCTCATC ACCCATCAAA 
    TCGCCCAACT CAAGGAAGTC GCCGCCGTCA CGAGGCGCAT CTTCTGCTCA ATCGTCAGGC 
    ACCGAGGGCT TTCAAGAGAA GATAGAGCAA GAGAAGAACG GCGAAATAAC GAACCCAGCT 
    CCAGTACAGA GCCCGAGGAA CCCATCGAAG CAGACCATAC GCCGCATCGT GTTTCTCTTG 
    ATCAAGGATC TGCACAGTCG CGGCGATATG AAAGGCACTG CTGTCGCCAG TGATTATCAC 
    AAATATCTGG TTACTTGTCA ACAATTACCG CTTGCGGCTA CCACCACGCA TCAGGTCATT 
    CTTTATGGCG ACCACGAGCA TCACAGGGGC GACTATCCTC TTTACACAGT CACAATCGAC 
    GTGGATCCCA AGAAATTGCC GATCAATTCC TTGTTGAGTC TGCTATCTCG CAAGGACGAT 
    TTGATGGAGA AGGAGAAGAA CCAGAAGCAC GAGACCATCA CAGCGCTTAA TGTTGTTTTC 
    ACGAATGCAG CCAGCGTGAA GACGTTCACT GACCATCTCC CGAACTCTGG AAACACCGGA 
    AGCATCCAAA CAGTTGCCCG CAGCGGAAGC AAGAAATTCT TCGATCTCAT GCCACTGTGG 
    GCTGAGGATA TAGGCCCGCA ACAGCTGAGA GGAAACGATA AATACGGGCT CGTCGGACGT 
    CTTGGATTCT TCCTGAGCAC TCGAGCATTC CTTGGTGCTA ATAAGATCTT CCTCAACATC 
    AACACCACGC GATCTGCTTT TCATCACGAA GGATCATTGA ATGATTACAT CGATTTCTTA 
    CTGAGGCCTG TGGTAAATGG CCGGACCCAA GATGACACGT TATACAACGG CCCGCCGCCT 
    CAGCCAGATG CGAACTCCCG CGAGCAACGC AATCCACCAC CGCGAAGTGA ATGGACACCT 
    GATTGGGACG ATGCAATGAG AGCTATCGGT GGGTTGAAAG TCTGCACAGC ATATCATAAC 
    GATGCAAGGA ATTCCAGTCG CTCGAATGAG ATGCTTTACA CGGTCTGTCA GCTTCAGGAA 
    CAGCCCTCAG TGGACGTTGC AACGGCGGGC GACGCGGTGA CAAGTGATCC TCTTGTCAAC 
    GTCGCCGAAT ATTTCGGCCG GGAATACTCA TGGCTGAATG TGTCCCCGGA AGACCGAATT 
    GTTGCAGTCC GCGGTGTCAC ATCTCGCAGA CGGCTTGACG CAGAGCCTCT TCTCATACCA 
    GCACGGTTGC TCACTCTTAT TCCTGGTCAA CGAGTTTCTT CAAAGGTCGA GATGATCGAC 
    TTTGCAGTGC GGCCTCCTGA TGCGAACCGT GATAAAATCC AAAAGCAGGG CAGGCAGCTT 
    TTTGAACTGG AACGGACGAA CACGAATCTT GCACCGGCTG CTGCATTTGC CTTTGGGGGT 
    CTTCGCGTCG AACCGGATAT GCACGAATTG GATATGACGA TCATGAATGG ACCGGACCTT 
    GTTTATCCAA CAGCACTGCC AACCGATAAA GGAACACTCA ATGACAAGGA AAGAGCGAGC 
    GGCAAATGGA ATCTTGAAAA CCGACAATTT AGTACTCCTG CTCAGAGTGG GTGCTGGACT 
    GTCCTCCGGA TCTTCAACCC AGGAAGCCGC CGCCCACACC TTTCCGAGTT CTTCGCATCT 
    GTTCAAACAG AGCTTCCGAA ATATGGCCTC AAGAGCGAGG CGTTCATAAA CGGCCAACCG 
    ATCAGCAACT TCCGTGGGAA TTTTGGCGAT GATAGCTTTG GCGACCTTCA TTCATTCGAC 
    CGCCGGAAAG CCGATCATAA GGACGGTGAG CAACTCCGCA CCAGGCTGAA GGAGCTTTTC 
    AATGCTCCCA CTGGTGGCAA GACCCGACTC GTCTTCGTCA TACTGCCCTT CAAGGACTCA 
    AAGATTTACC AGCAAGTCAA ACGTGCCGCA GATCTAGAAG GGATACAAAC CATCTGTAAC 
    TTCAGCTACT TCAACCAGCC GAAGAATCAG AGCTCCAAAG TCACGAACAT GCTGATGAAA 
    TTCAACTTGA AGATGGAGCG CGACACGGTC AATCAGAAGT TCCGGAGTAT CGAGCCCGGT 
    CTCCTCGGAT GCATCGACTC TCAGACGATG CTTATGGGAA TGGACGTCAC ACATCCTCCC 
    GTCGGAGCCA TGGACGAAGC GCCTAGCATC GCTGCTCTGG TGGGAAGTGT CAACAAAGAG 
    TTCTCTCAGT TTCCGGCAGT CCTGAGAGAG AATCCTCCGC TCAAAGATAA GAGGGCCAGG 
    GAAGAGATCA TGAAACTCAA GGAGATGGTA CAGCTCAGTG TCGAGCGATG GTCCAAGAAC 
    AACTTGAACG CCATGCCCAA GCGCATCATA GCATTCCGCG ACGGTCTCTC CGAGGATCAA 
    CTTGAAATGT GCAAGGAGGC GGAGATACCT CGAATTCGGG ATGGCATCAA AGCTGTTGCC 
    GAATCACTCG GTTCCAAATC GATCCCCGAG CTCTTCGTGA TCTGCACGAT CAAACGTCAC 
    CATGTCCGAT TCTTCAAGGA TCCCAAGGTC AATTCGAAAG TGCACGATGG TAAGAAGAGC 
    AATCCGTTGC CAGGCGCCAT GGTCGACAAA GACGTTGTTC TTGAGGCAGG CCGCCACGAA 
    TTCTTTCTGG TCAGTCATGA GGCCATTCAA GGCACGGCTC GGCCTTGTCA CTACGTTCCG 
    ATATGCTTGC CGGAGACAGC GACTATCGAT ACCAAGGACT TGGCACGAAT GACTCACGCC 
    TTGTGCTTCC TCTTCGGCCG ATCCACACGT AGCGTCAGTC TAGCCACCCC GTCATACTAC 
    GCCGATCTAG CTGCTGACCG GGCACGCTGT TGGGTCCGGC ACATCTACGA ACCCGAGCTG 
    AAGGAGGGCG ACCTCCTCCA AGGCCCTCTA GTCCAGATTC TACTTGACGA GAAGCGGGAT 
    GGCTGCTTCG ACCTCATCTG CTATGATCAG CCGCTGTTCA TGCTAACATA CTTCTCCTCA 
    ACGATCCGCG AAGAGTTCCC CGCCAGCCAC CCTTTACTCC ATTCCTCGCC TCATCCACAA 
    CAAGTACCGA CAGCAGTGCG ACTGATTGGC GGCGGCGCGA ATGCCATCAA GGACCTCGTC 
    GAGTGGATGT CGACGTGCTG CCATCATAAA ACCATCGTAC CGCTTAGATC CGTCATCAAT 
    TGTCCGGCAA GGTTCGTCCT CGCTGTGGAT GGTATTCAAC GACTTAGAAT TGATCTTCTC 
    GTCGAGGAGA CTTCTCAGCT TCTCTCAAGA TTACAATATG AGCTTTTCGA AGTCAATACC 
    GTCGTCGAGA TCTTCGCTGC CGGCCATAAC CTTCCTTCCG AGGTAGCGAA TGCCATTTGC 
    CAATGTGTGG CGAGATACTT CTTTCACGGA TCCTTGCCAG AGATTGACAA GTGGTTGCAT 
    CTGGCGACAA TGAATCTCAA GTTTGACGAT GGCGTCAAAG CATGGCTAAG ACCAGGAGCA 
    TTGAATGAGG GACCTGATAT GATGGGTGCC TGGGAGCTGT GGAACTCAAG GAGTGCGTTG 
    ACTTACCCTG CAAGGTGGTA TCAACCCCCT CGTGCTGGTC CGTCCTATGA GCGACTTCGT 
    CCGAGCACAC CATACCCTCC AGTGCATCCT CCACATCAAC GTGGTCCGGG CGATGCTTAT 
    CCTTCAGCAG GATATACCTC CACGCCAGGA TGGCATGGAC CGGACGCACC GCCGTCACCA 
    CCTCCCAAGC CGGACGCCTA CCGACAGAGG CCAAATTTAG CTCACGATCA CCATGATTAT 
    TCAGACCCGC CGACAGGCAT CATAGATGTA ACACTGGCCG AGCATTCACA ATCGACAGCA 
    CACCATCGCC TCCGCATCGG AGCTACAGCC ACAGTCAGCA CGAACGAGCA AAGTATTGGT 
    ACGAGCGTCC AAGATCTCCA AGTATCGCTC GATCTCATAG CCAACGGCGG TCTTCGTATC 
    CTGGCCAAGA GTGGGATGCT TCCTATGAGC CACCACAGCC GGGCGAGCGT CTTCGTGAAA 
    GGCGTCAACT CGGGCCAGAG CATTATGTTC ACTTCTTTAC TGATCAGTAT GGTCGTGAGC 
    GAGTGGTCAC GAAAGGTGGA GATGTATCTG TAG

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

    RefSeq XP_017997543.1
    CDS1..4533
    Translation

    Target ORF information:

    RefSeq Version XM_018144057.1
    Organism Phialophora attae
    Definition Phialophora attae putative protein tag-76 (AB675_3959), partial mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_018144057.1

    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
    ATGTCGAATG CTCCGATAGC TCCGAGAGGC CAAGGTCTAA ATGCTTCAGC AACTTCCATG 
    ACGAACGTAC CAACAGGCCC TCGAGGCGGG AACCCACGTG GCCGTAGCGG TGGACATGCC 
    GGCCGCGGTG GCGGACGTTT TCAGCCTCAT CGTCCGCCCA TCATCGATCA GCCCAACTCC 
    CATCAGCCGC GACTTGTTCA CACGCAACTC GAACCTGCGC CCGCCACCAT TAAAGGCGAC 
    GCATTCGTCT CTGCACCAGA GCGACTTACT GGCAAGACGC TGACCAATCA CTATGGAATC 
    AAGTTCCCCA ATGACGATGT CAACTCTTCG ACGACGGGAC CTACACAGCC TCACAGCCCA 
    TCAAACGCAG CGTCTACGAC TTTGACCAGA AGAACGGGTC CCGGTGCCAC TACACCTGTG 
    AGATTCAGCT CTGGCACAGG TTCACCCAAC AAAGCGTCCT CAGGCTCATC ACCCATCAAA 
    TCGCCCAACT CAAGGAAGTC GCCGCCGTCA CGAGGCGCAT CTTCTGCTCA ATCGTCAGGC 
    ACCGAGGGCT TTCAAGAGAA GATAGAGCAA GAGAAGAACG GCGAAATAAC GAACCCAGCT 
    CCAGTACAGA GCCCGAGGAA CCCATCGAAG CAGACCATAC GCCGCATCGT GTTTCTCTTG 
    ATCAAGGATC TGCACAGTCG CGGCGATATG AAAGGCACTG CTGTCGCCAG TGATTATCAC 
    AAATATCTGG TTACTTGTCA ACAATTACCG CTTGCGGCTA CCACCACGCA TCAGGTCATT 
    CTTTATGGCG ACCACGAGCA TCACAGGGGC GACTATCCTC TTTACACAGT CACAATCGAC 
    GTGGATCCCA AGAAATTGCC GATCAATTCC TTGTTGAGTC TGCTATCTCG CAAGGACGAT 
    TTGATGGAGA AGGAGAAGAA CCAGAAGCAC GAGACCATCA CAGCGCTTAA TGTTGTTTTC 
    ACGAATGCAG CCAGCGTGAA GACGTTCACT GACCATCTCC CGAACTCTGG AAACACCGGA 
    AGCATCCAAA CAGTTGCCCG CAGCGGAAGC AAGAAATTCT TCGATCTCAT GCCACTGTGG 
    GCTGAGGATA TAGGCCCGCA ACAGCTGAGA GGAAACGATA AATACGGGCT CGTCGGACGT 
    CTTGGATTCT TCCTGAGCAC TCGAGCATTC CTTGGTGCTA ATAAGATCTT CCTCAACATC 
    AACACCACGC GATCTGCTTT TCATCACGAA GGATCATTGA ATGATTACAT CGATTTCTTA 
    CTGAGGCCTG TGGTAAATGG CCGGACCCAA GATGACACGT TATACAACGG CCCGCCGCCT 
    CAGCCAGATG CGAACTCCCG CGAGCAACGC AATCCACCAC CGCGAAGTGA ATGGACACCT 
    GATTGGGACG ATGCAATGAG AGCTATCGGT GGGTTGAAAG TCTGCACAGC ATATCATAAC 
    GATGCAAGGA ATTCCAGTCG CTCGAATGAG ATGCTTTACA CGGTCTGTCA GCTTCAGGAA 
    CAGCCCTCAG TGGACGTTGC AACGGCGGGC GACGCGGTGA CAAGTGATCC TCTTGTCAAC 
    GTCGCCGAAT ATTTCGGCCG GGAATACTCA TGGCTGAATG TGTCCCCGGA AGACCGAATT 
    GTTGCAGTCC GCGGTGTCAC ATCTCGCAGA CGGCTTGACG CAGAGCCTCT TCTCATACCA 
    GCACGGTTGC TCACTCTTAT TCCTGGTCAA CGAGTTTCTT CAAAGGTCGA GATGATCGAC 
    TTTGCAGTGC GGCCTCCTGA TGCGAACCGT GATAAAATCC AAAAGCAGGG CAGGCAGCTT 
    TTTGAACTGG AACGGACGAA CACGAATCTT GCACCGGCTG CTGCATTTGC CTTTGGGGGT 
    CTTCGCGTCG AACCGGATAT GCACGAATTG GATATGACGA TCATGAATGG ACCGGACCTT 
    GTTTATCCAA CAGCACTGCC AACCGATAAA GGAACACTCA ATGACAAGGA AAGAGCGAGC 
    GGCAAATGGA ATCTTGAAAA CCGACAATTT AGTACTCCTG CTCAGAGTGG GTGCTGGACT 
    GTCCTCCGGA TCTTCAACCC AGGAAGCCGC CGCCCACACC TTTCCGAGTT CTTCGCATCT 
    GTTCAAACAG AGCTTCCGAA ATATGGCCTC AAGAGCGAGG CGTTCATAAA CGGCCAACCG 
    ATCAGCAACT TCCGTGGGAA TTTTGGCGAT GATAGCTTTG GCGACCTTCA TTCATTCGAC 
    CGCCGGAAAG CCGATCATAA GGACGGTGAG CAACTCCGCA CCAGGCTGAA GGAGCTTTTC 
    AATGCTCCCA CTGGTGGCAA GACCCGACTC GTCTTCGTCA TACTGCCCTT CAAGGACTCA 
    AAGATTTACC AGCAAGTCAA ACGTGCCGCA GATCTAGAAG GGATACAAAC CATCTGTAAC 
    TTCAGCTACT TCAACCAGCC GAAGAATCAG AGCTCCAAAG TCACGAACAT GCTGATGAAA 
    TTCAACTTGA AGATGGAGCG CGACACGGTC AATCAGAAGT TCCGGAGTAT CGAGCCCGGT 
    CTCCTCGGAT GCATCGACTC TCAGACGATG CTTATGGGAA TGGACGTCAC ACATCCTCCC 
    GTCGGAGCCA TGGACGAAGC GCCTAGCATC GCTGCTCTGG TGGGAAGTGT CAACAAAGAG 
    TTCTCTCAGT TTCCGGCAGT CCTGAGAGAG AATCCTCCGC TCAAAGATAA GAGGGCCAGG 
    GAAGAGATCA TGAAACTCAA GGAGATGGTA CAGCTCAGTG TCGAGCGATG GTCCAAGAAC 
    AACTTGAACG CCATGCCCAA GCGCATCATA GCATTCCGCG ACGGTCTCTC CGAGGATCAA 
    CTTGAAATGT GCAAGGAGGC GGAGATACCT CGAATTCGGG ATGGCATCAA AGCTGTTGCC 
    GAATCACTCG GTTCCAAATC GATCCCCGAG CTCTTCGTGA TCTGCACGAT CAAACGTCAC 
    CATGTCCGAT TCTTCAAGGA TCCCAAGGTC AATTCGAAAG TGCACGATGG TAAGAAGAGC 
    AATCCGTTGC CAGGCGCCAT GGTCGACAAA GACGTTGTTC TTGAGGCAGG CCGCCACGAA 
    TTCTTTCTGG TCAGTCATGA GGCCATTCAA GGCACGGCTC GGCCTTGTCA CTACGTTCCG 
    ATATGCTTGC CGGAGACAGC GACTATCGAT ACCAAGGACT TGGCACGAAT GACTCACGCC 
    TTGTGCTTCC TCTTCGGCCG ATCCACACGT AGCGTCAGTC TAGCCACCCC GTCATACTAC 
    GCCGATCTAG CTGCTGACCG GGCACGCTGT TGGGTCCGGC ACATCTACGA ACCCGAGCTG 
    AAGGAGGGCG ACCTCCTCCA AGGCCCTCTA GTCCAGATTC TACTTGACGA GAAGCGGGAT 
    GGCTGCTTCG ACCTCATCTG CTATGATCAG CCGCTGTTCA TGCTAACATA CTTCTCCTCA 
    ACGATCCGCG AAGAGTTCCC CGCCAGCCAC CCTTTACTCC ATTCCTCGCC TCATCCACAA 
    CAAGTACCGA CAGCAGTGCG ACTGATTGGC GGCGGCGCGA ATGCCATCAA GGACCTCGTC 
    GAGTGGATGT CGACGTGCTG CCATCATAAA ACCATCGTAC CGCTTAGATC CGTCATCAAT 
    TGTCCGGCAA GGTTCGTCCT CGCTGTGGAT GGTATTCAAC GACTTAGAAT TGATCTTCTC 
    GTCGAGGAGA CTTCTCAGCT TCTCTCAAGA TTACAATATG AGCTTTTCGA AGTCAATACC 
    GTCGTCGAGA TCTTCGCTGC CGGCCATAAC CTTCCTTCCG AGGTAGCGAA TGCCATTTGC 
    CAATGTGTGG CGAGATACTT CTTTCACGGA TCCTTGCCAG AGATTGACAA GTGGTTGCAT 
    CTGGCGACAA TGAATCTCAA GTTTGACGAT GGCGTCAAAG CATGGCTAAG ACCAGGAGCA 
    TTGAATGAGG GACCTGATAT GATGGGTGCC TGGGAGCTGT GGAACTCAAG GAGTGCGTTG 
    ACTTACCCTG CAAGGTGGTA TCAACCCCCT CGTGCTGGTC CGTCCTATGA GCGACTTCGT 
    CCGAGCACAC CATACCCTCC AGTGCATCCT CCACATCAAC GTGGTCCGGG CGATGCTTAT 
    CCTTCAGCAG GATATACCTC CACGCCAGGA TGGCATGGAC CGGACGCACC GCCGTCACCA 
    CCTCCCAAGC CGGACGCCTA CCGACAGAGG CCAAATTTAG CTCACGATCA CCATGATTAT 
    TCAGACCCGC CGACAGGCAT CATAGATGTA ACACTGGCCG AGCATTCACA ATCGACAGCA 
    CACCATCGCC TCCGCATCGG AGCTACAGCC ACAGTCAGCA CGAACGAGCA AAGTATTGGT 
    ACGAGCGTCC AAGATCTCCA AGTATCGCTC GATCTCATAG CCAACGGCGG TCTTCGTATC 
    CTGGCCAAGA GTGGGATGCT TCCTATGAGC CACCACAGCC GGGCGAGCGT CTTCGTGAAA 
    GGCGTCAACT CGGGCCAGAG CATTATGTTC ACTTCTTTAC TGATCAGTAT GGTCGTGAGC 
    GAGTGGTCAC GAAAGGTGGA GATGTATCTG TAG

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

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