ORF » Species Summary » Diplodia corticola » BKCO1_2800028 cDNA ORF clone

BKCO1_2800028 cDNA ORF clone, Diplodia corticola

The following BKCO1_2800028 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the BKCO1_2800028 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
ODi92739 XM_020273675.1
Latest version!		 Diplodia corticola mg2+ transporter zinc transport protein (BKCO1_2800028), partial mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00

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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)
    BKCO1_2800028 ( XM_020273675.1 ) cDNA ORF clone, Diplodia corticola -> XP_020130007.1 Diplodia corticola mg2+ transporter zinc transport protein (BKCO1_2800028), partial mRNA.
    Price & Availability↑
    CloneID ODi92739
    Clone ID Related Accession (Same CDS sequence) XM_020273675.1
    Accession Version XM_020273675.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5049bp)
    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 Diplodia corticola
    Product mg2+ transporter zinc transport protein
    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_017971507). 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
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    ATGACATCCG AGGATCCGGG CGACAAACCA CCCCCTATCG AGTGGCAAGA TGCACCTGGC 
    GAGTCCGACC ATTACTTTCG AAAATTCATG ACTTATGACC GACTGGAATG CAAGCCCACA 
    GCTGAAGAGC TCGACACCGA AATCCCTGAG AACGATGACC AATCAGAACA CAACTCAGCA 
    TCAGAAAATC CTGTTCCCAA GATCCCTGTC AGCGATGATC GATTGCGCTA CAAAAGCATA 
    CCTGAAAGTC TTGTCACCAG CATTCCCGAG AGCTTCCCCG AGAAGGCGAG GAACAGACGG 
    AGCTATGTTT CGTTTGGCTC TGAAGGCACG ACGGCGAGCG TCAATGCCTC CGGCCATATC 
    ATGCAAATCT CCCGCTATCT CGGGTACGGT CGATCCGGTT TCTTCTCCGC TGATCAAAAA 
    GGGACTCGGA AGCCCTTCTA CGTCGATACC CGGAAACAAC ACCTTATGGA ACTTGCAAAA 
    GACCCCTTCG CGGGATTCAG ATTGGATCTG CTGCAAGCGT TTGAAGGCTT AGTGGATTAC 
    AAACAGTGCA AGCCATCCGT CAAATTCATC CATGATCGTT GGCCTTGGTT CAACATCCGG 
    GATTCACGTG GACGTAAGGA CAACCCGCAT CCCGAAGAAC AAGGCCACAG ATCAGAGAAG 
    CAAAGGGAGG AGAAGGACAA CCCGTATCCT GAAGAACAAG GAGTCCAAGA ATCAAACAAA 
    CAAAGGAAGG AGAAGAACAT CGCCTATGCT ACCACTTTTT CCGTCCAATA CTTTTGCCAC 
    AACGGCACTA TCTTCCAAAG GCACCTTGTG GAGTTTGACA AGACGGAATT TCCCAGTCCA 
    GATTTGAGCA GATTGAGGTT GGATGCGGCT GCTTGTATAA GAAACCTCGA TTTCGTCCAT 
    GACACAGACT TCAACGACGA CGACGAGTCT CCGTATAGGT CCGGTCCGAA TCATCGAAGC 
    CTGATTGTTG TTCACAAGAT GAACAGAAAC ATGGCTAATG ATATGGGAAT CGACAATGAT 
    GTCTATTCTA AAGGGTCAGG CCCCAAGGCA GCTGCGCTGA TAATCACCCC TTTCACCGAA 
    GGCAGAGCGC AGAAGGTCAC GCAATTGGGG GAAGCTGATT CCTCTTGGTA CATCGAACTG 
    GACAAGAAGG CCGAAGATGC AATCAAGGAA TCCGGAAAGC TCGACATCAC TCTAGCATAC 
    AGGCTACAGC TGATTGAGGA GGATCAGAAG TGGGAGAATT CGACTGTTCC CGGACATCGT 
    ATGACGTCTA TGGGAGAAGC GATATTATCG GAATCGTCGC TATTTCGGAA GATCATCTTT 
    TCGCGGAACG AACACCTGGA TTTTGTGATT CGGCGAAACC TAGAACACAC CCTCTCAGTT 
    TGCAGTGTTC CAATACTCCA GTCACCCGTC CTTGGCCACA CTGACGAAGA CCTCGACAAC 
    CTGGCGGTCG CTTTGACATG TGGAGACATA TCGGGCCATC GGGTTTCGAC AAGGGCCAGT 
    GTATCTGCCT TCATGTTCCT GCATTCTATG CTCAAGTACC TGGCTCCCGA TACGCATTCC 
    TTACGGCCGT ATTTGGCAAA CCCAACCAGA TGTTCCTGCG GAGACCAACA GAGTCCATGT 
    GATGAATGCA GCTGCGTCAA ACCATACCTG GATCACGTTT ATGGCCGTAT CCAAACTACG 
    CTCAGAGGCC ATCTTGTGTG GGTATGCACC ACATCGAAAG GCGAGGAGGG GAGCTTTGCG 
    CCTCACTACT GGCCAACAGG GAAGCACATC ACGAACCTCA GTTGGTTGCC TTCTGCAACA 
    CTTCTCGATA CACCGCTGCA GCTTCTGAAG GTTCTCTGGT TTAAAGAAAG ATCGTTGCCT 
    TCAGATCAAC AGACAGAACT TGCCGCCAAG GTTCGCCCTT GGCTTTCACA TTTGGACAAA 
    ACGAACAATC GAGGAAGCTA TGCTTTCTCC GTTGATCCTG GTAATTTGAG TGAAAAGTTC 
    AAGTTTGCAG ACCATGTCCT GATTTGCTTG GCCATTAGGT GCGTGCAGCA TCTTGAAGAA 
    CGATCAGCCA TCTTTGCGAC GCGAGAAGAA GAGTTGGGCG ATGCAGAAGA TCCTGGAGCC 
    CTTCATATCT TCAATACATA CTCATTCCAA GAGGTCAGAC GGAATGTTCT GAAGAGATTC 
    ACAGTGCAAG GGCCTATCAC AAAACAACGA ATGCTTGCGA CACGTCGAAC GCCGAGCGAA 
    AGCAGATTCC TATTGCATTC CAAAGACACG ATTTTGTTCC ATATCATGGA TCTCAAACTT 
    GACAAAGAGT GGTTTGAGGC CGAGGAGTCC CTCGAGCCAA TCCAGTTTTT CCAAAGGGAA 
    GAGAAGCTTC CACGGCAACG GAAAAAGGGT AAAGGGTCAA GCGAAGCCGA TGGATCCTGG 
    AAATACATCG ATGATAGATG GAAAGCCACT GTGGACGCAC AAGCATACCA CGATGAGTAT 
    CAAAATCTGG AATGGGGGAA GCCGCTTTGG TATGCCTTGA CGTTTATCCT TGGCTGCAAG 
    AGAAGACGAA TAAACAAGTC GTCCATAGAC GAGACTTTGA GAGTTACCTC AAGCGTCTTG 
    CTTGGCGCAA GCTCAATGAG TGGTCTTTTC GCCGGTCTGT TGGATGAGGA TCAAGAGCCG 
    ATACCGTTTG AGAACGAGAT GGACCAAGAC AGCTTTTGGC ATGCGGCATT TGAAACGCCT 
    TACGTCCTTT GGACATACGG GCGCGACTAC TTCGATGCCC AATGGGCTCG GGAAAAGGAG 
    CATCAGAGTG GGGGCGGTGC CCCCAAAAGT CCCTCTGATG TCACGGGTGA TCCAACAGGT 
    GTCAAGCAAG GCCAACGCGC TTCGAACATC GGAGACACTG CAGCACCGTT CAAAGATGCT 
    GGAAGGATAG GCCAGATAAT CACCAAAGGT GTACCTTTTG TCAACTTCAG CACCTTAATC 
    GACCAGAAAG GCCTCGTCGA GGTATCCGAC GACTGGCTAC AGGACGGACC AGTTGCTCTG 
    GACTTCGGCT TCCGGCCCGA CTTTTCGAAA CTCAAGGACC TCCGTTGCGA CCCGTCAGAG 
    AAGGTCATTA CCGCAGGTCT CGAGGCTTAT AAACGCAGCC CAACATCTTC CTTCTTTACA 
    GAAGAAAGAG GGATAGTCAT CGATGTCATC AAACGTAGTG AAGGCGACGA AATGGGAGCA 
    GGCGGCGACG AGATAGGAGC AGGCCAACAA GAAACCAACG ATGGAATCAA GAAGTGCTTG 
    GGAAGGCGAA GGACCGTGCA ATTTGCCAAA AAAAGATTGA TATGGCTGCC GAACGGCAAC 
    AAAGAGACTG CGGTACTGTG TTATTTCGCC TCTCCAGAGC CCGAGAGGGG AAACATGGCG 
    CATTTCTTTG ACAGACATGC CTCCCATGAA AAGTACTTCT TCGACGGGGC GACTGCGGCT 
    CTAAATGAAT GGGAAACAGA GATCCACTTC TCGTTTTTCA AATTAGTACA ATGTCAGAAA 
    GAGGACGTCA AAGAAATCCT CCAGACGGCA AACAATGGAA TCTCAAGCTT GAGTTTCTTG 
    AAGCTTGGAG AACGGAGAGA AGATGGTGGA TCGAGTCAGG AAACTGTGTT TCTCCACTCT 
    ACGATGAGCT TCCGATTCGT TGGAGATTTC TTTGACCGAT TCTGGACATG TCACTTTCTG 
    GACCCTGGTC AAAAGGATCA GCAAAGCCTT CAGGCTCGGT TGTCAAATTT CCATCATACA 
    GTTCTCGAGG GTTCCAAGAA AAATCCTTGG CAACAGAGAA AGGTGTTGGA ATTGCTCCTG 
    TTCTACGAAA TGCTCGAGAG CATGCACGAA AACACGCACA AGATTCTGGA ATGGGTCAAA 
    CATCAAGTTC TTAATCCTCC AAATCTTGAA AAGATTCCAA GACCTGACTT GGGCGAAGAC 
    ATCACAACGA CTCGCCTTCT CCAGGAAAAA TCGGTTATGG AAGCTTCAAT GCCGCTCAAC 
    CCTCTTGCAT CGGCATTCCA AGACGGCTAT CAGCTGCTGA AACAAGGCAC CAGCGAAAAC 
    TACTTCTCCA TCATCGAAAG CTGGCGGCTC TTTGAGCAAA TACTCCAAGC CTTGGAGGAC 
    GATCTAAGTG GGAACATCGA GCGAATCGAC CAATGGAACA AACGAGAGGA GGATCGGAAA 
    TCAGAACGGC CACGCTGGAC CAGGAACGAC GAAAAGAGGT ACCGCACAGC AATCACAAAG 
    GTAACCGTAC TCAACGACAG GCGTGGTCGC GATATCGTGC GTCTGAGGGC AACCATAAAA 
    GCGTTTCGTG AATCACTCCC AGGCCGGTTG GAATCAATTC GATCCGACAT CTCCTTTCGG 
    GGATCCGAGA ACATCAATCT CTTCACCTAC GTTACCGTGG TGTTCCTCCC GCTTGGCTTT 
    GCCACTGGAA TTTTCAGCAT GAGCAACGCC CCGAGCCGTC AGACTCTGGT CAGTATGATT 
    GAACTGGCGC TGATGGCCAT GGCCATCACG ATATTCGCTT TGGCAAACGT CAAAACGACC 
    GGCAAAACCC TCGTCCGGCC GCTCATCTTA GCCTTCCGCG AGGTCAACGA TCTGCTACTC 
    CATCCGCCAT TGAGGATTCT TCAGTCTTTC ATCCAGAACC ACATGCCGGT AGTGGCCCTT 
    TACCTTTTCT CCCGACTTGT CTGGTTCTTC TATCGATTCG TCTGGTTCCC GTTAACCACC 
    GTTAATGGAA GAATCCCAGT GAAAACTCCG GAAACGCGCT GGTACCAGAA GACTAGGCTG 
    AAGGAGCTTT GGAAGAGCTT CAAAGTCCCG ATGCGAGCAA TTCCTGAGCC ATGGACGTTG 
    GATCCTGTCA AAGAGGCGAG CGAGGACTAC GCCCAGATGA TTAGAGACAA AAGAGCAGAT 
    GACTTGTTGA GAAAGCTCCG CAAGTCGGGG TTGAAACGAC ACCCAAATGC TACGAACGGA 
    GGTACAGACT TTGAGGAGCA GGGGTCCGAA AGGAGACAGG TGGACGAAGA GCTGGGACAT 
    ATGCCGCGAG CAGCCCCGGC GACTCCTTCC TCAGCAGCTT CTTCTATTCA CATGAGGAGA 
    AGCATTTGA

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

    RefSeq XP_020130007.1
    CDS1..5049
    Translation

    Target ORF information:

    RefSeq Version XM_020273675.1
    Organism Diplodia corticola
    Definition Diplodia corticola mg2+ transporter zinc transport protein (BKCO1_2800028), partial mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_020273675.1

    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
    ATGACATCCG AGGATCCGGG CGACAAACCA CCCCCTATCG AGTGGCAAGA TGCACCTGGC 
    GAGTCCGACC ATTACTTTCG AAAATTCATG ACTTATGACC GACTGGAATG CAAGCCCACA 
    GCTGAAGAGC TCGACACCGA AATCCCTGAG AACGATGACC AATCAGAACA CAACTCAGCA 
    TCAGAAAATC CTGTTCCCAA GATCCCTGTC AGCGATGATC GATTGCGCTA CAAAAGCATA 
    CCTGAAAGTC TTGTCACCAG CATTCCCGAG AGCTTCCCCG AGAAGGCGAG GAACAGACGG 
    AGCTATGTTT CGTTTGGCTC TGAAGGCACG ACGGCGAGCG TCAATGCCTC CGGCCATATC 
    ATGCAAATCT CCCGCTATCT CGGGTACGGT CGATCCGGTT TCTTCTCCGC TGATCAAAAA 
    GGGACTCGGA AGCCCTTCTA CGTCGATACC CGGAAACAAC ACCTTATGGA ACTTGCAAAA 
    GACCCCTTCG CGGGATTCAG ATTGGATCTG CTGCAAGCGT TTGAAGGCTT AGTGGATTAC 
    AAACAGTGCA AGCCATCCGT CAAATTCATC CATGATCGTT GGCCTTGGTT CAACATCCGG 
    GATTCACGTG GACGTAAGGA CAACCCGCAT CCCGAAGAAC AAGGCCACAG ATCAGAGAAG 
    CAAAGGGAGG AGAAGGACAA CCCGTATCCT GAAGAACAAG GAGTCCAAGA ATCAAACAAA 
    CAAAGGAAGG AGAAGAACAT CGCCTATGCT ACCACTTTTT CCGTCCAATA CTTTTGCCAC 
    AACGGCACTA TCTTCCAAAG GCACCTTGTG GAGTTTGACA AGACGGAATT TCCCAGTCCA 
    GATTTGAGCA GATTGAGGTT GGATGCGGCT GCTTGTATAA GAAACCTCGA TTTCGTCCAT 
    GACACAGACT TCAACGACGA CGACGAGTCT CCGTATAGGT CCGGTCCGAA TCATCGAAGC 
    CTGATTGTTG TTCACAAGAT GAACAGAAAC ATGGCTAATG ATATGGGAAT CGACAATGAT 
    GTCTATTCTA AAGGGTCAGG CCCCAAGGCA GCTGCGCTGA TAATCACCCC TTTCACCGAA 
    GGCAGAGCGC AGAAGGTCAC GCAATTGGGG GAAGCTGATT CCTCTTGGTA CATCGAACTG 
    GACAAGAAGG CCGAAGATGC AATCAAGGAA TCCGGAAAGC TCGACATCAC TCTAGCATAC 
    AGGCTACAGC TGATTGAGGA GGATCAGAAG TGGGAGAATT CGACTGTTCC CGGACATCGT 
    ATGACGTCTA TGGGAGAAGC GATATTATCG GAATCGTCGC TATTTCGGAA GATCATCTTT 
    TCGCGGAACG AACACCTGGA TTTTGTGATT CGGCGAAACC TAGAACACAC CCTCTCAGTT 
    TGCAGTGTTC CAATACTCCA GTCACCCGTC CTTGGCCACA CTGACGAAGA CCTCGACAAC 
    CTGGCGGTCG CTTTGACATG TGGAGACATA TCGGGCCATC GGGTTTCGAC AAGGGCCAGT 
    GTATCTGCCT TCATGTTCCT GCATTCTATG CTCAAGTACC TGGCTCCCGA TACGCATTCC 
    TTACGGCCGT ATTTGGCAAA CCCAACCAGA TGTTCCTGCG GAGACCAACA GAGTCCATGT 
    GATGAATGCA GCTGCGTCAA ACCATACCTG GATCACGTTT ATGGCCGTAT CCAAACTACG 
    CTCAGAGGCC ATCTTGTGTG GGTATGCACC ACATCGAAAG GCGAGGAGGG GAGCTTTGCG 
    CCTCACTACT GGCCAACAGG GAAGCACATC ACGAACCTCA GTTGGTTGCC TTCTGCAACA 
    CTTCTCGATA CACCGCTGCA GCTTCTGAAG GTTCTCTGGT TTAAAGAAAG ATCGTTGCCT 
    TCAGATCAAC AGACAGAACT TGCCGCCAAG GTTCGCCCTT GGCTTTCACA TTTGGACAAA 
    ACGAACAATC GAGGAAGCTA TGCTTTCTCC GTTGATCCTG GTAATTTGAG TGAAAAGTTC 
    AAGTTTGCAG ACCATGTCCT GATTTGCTTG GCCATTAGGT GCGTGCAGCA TCTTGAAGAA 
    CGATCAGCCA TCTTTGCGAC GCGAGAAGAA GAGTTGGGCG ATGCAGAAGA TCCTGGAGCC 
    CTTCATATCT TCAATACATA CTCATTCCAA GAGGTCAGAC GGAATGTTCT GAAGAGATTC 
    ACAGTGCAAG GGCCTATCAC AAAACAACGA ATGCTTGCGA CACGTCGAAC GCCGAGCGAA 
    AGCAGATTCC TATTGCATTC CAAAGACACG ATTTTGTTCC ATATCATGGA TCTCAAACTT 
    GACAAAGAGT GGTTTGAGGC CGAGGAGTCC CTCGAGCCAA TCCAGTTTTT CCAAAGGGAA 
    GAGAAGCTTC CACGGCAACG GAAAAAGGGT AAAGGGTCAA GCGAAGCCGA TGGATCCTGG 
    AAATACATCG ATGATAGATG GAAAGCCACT GTGGACGCAC AAGCATACCA CGATGAGTAT 
    CAAAATCTGG AATGGGGGAA GCCGCTTTGG TATGCCTTGA CGTTTATCCT TGGCTGCAAG 
    AGAAGACGAA TAAACAAGTC GTCCATAGAC GAGACTTTGA GAGTTACCTC AAGCGTCTTG 
    CTTGGCGCAA GCTCAATGAG TGGTCTTTTC GCCGGTCTGT TGGATGAGGA TCAAGAGCCG 
    ATACCGTTTG AGAACGAGAT GGACCAAGAC AGCTTTTGGC ATGCGGCATT TGAAACGCCT 
    TACGTCCTTT GGACATACGG GCGCGACTAC TTCGATGCCC AATGGGCTCG GGAAAAGGAG 
    CATCAGAGTG GGGGCGGTGC CCCCAAAAGT CCCTCTGATG TCACGGGTGA TCCAACAGGT 
    GTCAAGCAAG GCCAACGCGC TTCGAACATC GGAGACACTG CAGCACCGTT CAAAGATGCT 
    GGAAGGATAG GCCAGATAAT CACCAAAGGT GTACCTTTTG TCAACTTCAG CACCTTAATC 
    GACCAGAAAG GCCTCGTCGA GGTATCCGAC GACTGGCTAC AGGACGGACC AGTTGCTCTG 
    GACTTCGGCT TCCGGCCCGA CTTTTCGAAA CTCAAGGACC TCCGTTGCGA CCCGTCAGAG 
    AAGGTCATTA CCGCAGGTCT CGAGGCTTAT AAACGCAGCC CAACATCTTC CTTCTTTACA 
    GAAGAAAGAG GGATAGTCAT CGATGTCATC AAACGTAGTG AAGGCGACGA AATGGGAGCA 
    GGCGGCGACG AGATAGGAGC AGGCCAACAA GAAACCAACG ATGGAATCAA GAAGTGCTTG 
    GGAAGGCGAA GGACCGTGCA ATTTGCCAAA AAAAGATTGA TATGGCTGCC GAACGGCAAC 
    AAAGAGACTG CGGTACTGTG TTATTTCGCC TCTCCAGAGC CCGAGAGGGG AAACATGGCG 
    CATTTCTTTG ACAGACATGC CTCCCATGAA AAGTACTTCT TCGACGGGGC GACTGCGGCT 
    CTAAATGAAT GGGAAACAGA GATCCACTTC TCGTTTTTCA AATTAGTACA ATGTCAGAAA 
    GAGGACGTCA AAGAAATCCT CCAGACGGCA AACAATGGAA TCTCAAGCTT GAGTTTCTTG 
    AAGCTTGGAG AACGGAGAGA AGATGGTGGA TCGAGTCAGG AAACTGTGTT TCTCCACTCT 
    ACGATGAGCT TCCGATTCGT TGGAGATTTC TTTGACCGAT TCTGGACATG TCACTTTCTG 
    GACCCTGGTC AAAAGGATCA GCAAAGCCTT CAGGCTCGGT TGTCAAATTT CCATCATACA 
    GTTCTCGAGG GTTCCAAGAA AAATCCTTGG CAACAGAGAA AGGTGTTGGA ATTGCTCCTG 
    TTCTACGAAA TGCTCGAGAG CATGCACGAA AACACGCACA AGATTCTGGA ATGGGTCAAA 
    CATCAAGTTC TTAATCCTCC AAATCTTGAA AAGATTCCAA GACCTGACTT GGGCGAAGAC 
    ATCACAACGA CTCGCCTTCT CCAGGAAAAA TCGGTTATGG AAGCTTCAAT GCCGCTCAAC 
    CCTCTTGCAT CGGCATTCCA AGACGGCTAT CAGCTGCTGA AACAAGGCAC CAGCGAAAAC 
    TACTTCTCCA TCATCGAAAG CTGGCGGCTC TTTGAGCAAA TACTCCAAGC CTTGGAGGAC 
    GATCTAAGTG GGAACATCGA GCGAATCGAC CAATGGAACA AACGAGAGGA GGATCGGAAA 
    TCAGAACGGC CACGCTGGAC CAGGAACGAC GAAAAGAGGT ACCGCACAGC AATCACAAAG 
    GTAACCGTAC TCAACGACAG GCGTGGTCGC GATATCGTGC GTCTGAGGGC AACCATAAAA 
    GCGTTTCGTG AATCACTCCC AGGCCGGTTG GAATCAATTC GATCCGACAT CTCCTTTCGG 
    GGATCCGAGA ACATCAATCT CTTCACCTAC GTTACCGTGG TGTTCCTCCC GCTTGGCTTT 
    GCCACTGGAA TTTTCAGCAT GAGCAACGCC CCGAGCCGTC AGACTCTGGT CAGTATGATT 
    GAACTGGCGC TGATGGCCAT GGCCATCACG ATATTCGCTT TGGCAAACGT CAAAACGACC 
    GGCAAAACCC TCGTCCGGCC GCTCATCTTA GCCTTCCGCG AGGTCAACGA TCTGCTACTC 
    CATCCGCCAT TGAGGATTCT TCAGTCTTTC ATCCAGAACC ACATGCCGGT AGTGGCCCTT 
    TACCTTTTCT CCCGACTTGT CTGGTTCTTC TATCGATTCG TCTGGTTCCC GTTAACCACC 
    GTTAATGGAA GAATCCCAGT GAAAACTCCG GAAACGCGCT GGTACCAGAA GACTAGGCTG 
    AAGGAGCTTT GGAAGAGCTT CAAAGTCCCG ATGCGAGCAA TTCCTGAGCC ATGGACGTTG 
    GATCCTGTCA AAGAGGCGAG CGAGGACTAC GCCCAGATGA TTAGAGACAA AAGAGCAGAT 
    GACTTGTTGA GAAAGCTCCG CAAGTCGGGG TTGAAACGAC ACCCAAATGC TACGAACGGA 
    GGTACAGACT TTGAGGAGCA GGGGTCCGAA AGGAGACAGG TGGACGAAGA GCTGGGACAT 
    ATGCCGCGAG CAGCCCCGGC GACTCCTTCC TCAGCAGCTT CTTCTATTCA CATGAGGAGA 
    AGCATTTGA

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

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