ORF » Species Summary » Candida dubliniensis CD36 » POL94 cDNA ORF clone

POL94 cDNA ORF clone, Candida dubliniensis CD36

The following POL94 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the POL94 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.

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OCr01917 XM_002418696.1
Latest version!		 Candida dubliniensis CD36 putative retrotransposon tca3 polyprotein (POL94), partial mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $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)
    POL94 ( XM_002418696.1 ) cDNA ORF clone, Candida dubliniensis CD36 -> XP_002418741.1 Candida dubliniensis CD36 putative retrotransposon tca3 polyprotein (POL94), partial mRNA.
    Price & Availability↑
    CloneID OCr01917
    Clone ID Related Accession (Same CDS sequence) XM_002418696.1
    Accession Version XM_002418696.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5301bp)
    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 Candida dubliniensis CD36
    Product putative retrotransposon tca3 polyprotein
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. This record is derived from an annotated genomic sequence (NC_012861). 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
    5101
    5161
    5221
    5281
    ATGCTGATGT TCAAGGTTTT AAAAGAATCA GTCGAAGTCA TGAATCAATC CGTCAATGCC 
    AAACTTGCGG CTATGAATGA CAGAATTACA ATTCTTGACA ATAATCAAAA AGCTTTCATG 
    CCAAAACAAG AAAAAGATAT CGGAAACATT CTTCATAAAC AAAAGAAAGA AGAAACTGAT 
    GTCAAGGATA TTAAAACGGT GGTTGGTGAA GAAAAAGAAG AGATCCATCA GGTTGAAGAC 
    TTTGTGTTGA AAGAACAACA AGAGTTACGT AATGTCGAGA AAACTGTCTT AAAAGAAGAG 
    GAAGACTTAC AAAAGATTCA AGAATCCATT ACCAAAGAAG CAGAGGAGGT ACAAAAAGTT 
    GAAGAATCAA CCACGAAACA AAAAGAAGAG TTACATCAAG TGGAGAATTT TATTTTAGAA 
    AGGGATCAAA AGGTAACTAA ACTTGAAGAG CAAATTAATC GCATAAGCGA TAGATTAAAT 
    GCCCAGAGAG CGAGCACTCA ATATCCCCAA ACAGAAGCAA TGGGAACCGC AGATCTGAGA 
    TCCAGATCGC AACAACCAAA TATTGGAAAT ACCCTAGCAC AGGATCTTGC ATTGATCCCC 
    AATTTAGATC CAGAAATGGC AAGATTAATC AAAGGTTACT TACCATTTGT CATATTGCAT 
    GAAATAAATG CAACAGGTGG CCCAGTCGGC AAACCACCTA ACTTTAGACC GGACCTTGTC 
    ATCCAAAATC CAAATGATCC AGACAAAATT CAAAAACTCA TGCGTCTCCA GTCTTACATG 
    CAACTTTCAT TAGCTCCTTA TCATCTTTAT CCGATGATCT TAGAACCTTA TCTTCAAGGA 
    AGATACATTG GATACATTGA GAGCGCAAAG ATGAATCCAG CAAATGGAAG GGAATACAGT 
    TACTTGGATA TTTTAATAGC ATTCGTCAAG GCTTCACAAT TAGAAGTCGG AAATGCTAAC 
    ACCCAAGTTG AATTATTCAA AATAATTCCA ATAGCAGGAC AGACTGTTGG AGATTTTATC 
    GACCAAATCC AAAAGAAATA CAGACAGTTA AAACAATACA GTAATGTATT TGTTGCTGTA 
    AGAGCCCATG TATTCTCCCA TTGTCATAAA TACTTTCCGG ATAAAATCTA TGAACCAGAA 
    TGGTTAACAA AAACAGAAGC AAAATTTTGG AATGATTTAG ATCTTATGTT AGGTCTGGCA 
    GTATTTCAGC TGTTAGATTC CTCACTGAAT AGTAATGTTA ATGCTATAAA TTTCAATCCA 
    ACTCCATATA ACATCAATCA ACAATCAACA TATGATGGGA ACCTGAAATC ATTATATGAT 
    AGAAATCTGA GAACATCATA TGAACGGAAT ACTAACTCAT TATATGACAA AAATATCAAT 
    TCATATTCAA GACCAAATTA TCCTAAAACT TTTGATAAAT CAAGATTCAA CAACACTCCA 
    TATGGAAATA GTCAGATTTA TTATCAAAAT ACTTCAAATT CTTCCATTAA ATACAACCCT 
    CGTGGATACA ACCCTTTCAA CAATAACCAA CAAAAAGGCA AACCACCATA TCGGACTTAT 
    AGACGAAGAG GATATATTTG GAATAAGGGT AGAAGATCAC CAAAGATTTA TGAATTATCA 
    ATCGATCCTC AATCCCAATT AGGACAAATT GTTAATGATG ATGATACTCT CGATCCAAAT 
    TTGTATCAGG TTGATTTAAT CGACAATGAT GAAGAAGATT ATCAACACTT TGAAGAGATT 
    ACAACGGAAG AACCTTTCGA AGAACAACAA GATCAGGAAT TCGACTTCCA AATCAATGAT 
    CTTCAATTAT ATGAAGTAAA CATTACTCAC TTTGCAACCC CTGATAAAAC CCACAACCCT 
    CGGATTTTAT TAGACAGTGG AGCTGAAGCA AATTTTATTG GTAAACAAAT CCTTCCTTGG 
    TTGGAAGATA ATGGTCTCCT TTTCAGTGTC ACTAAGTTAC GAAGAATAGC CACAGCTAGA 
    ACCGCATCAA ATTTGTCTCA CACAATTGAA TCAGTAGCAA TAGTTAAAAT TTTTGATGTA 
    TTTTTAGAAT TCTATATCTT GGATCACTTG AACAAAGTTA TTATCGGTCG TCCTACTTTA 
    CAAAAATGGA ACTATCACCT CACAAAGGAG GGTGAATTCA TTCTGATTAA CAATCAACGG 
    TTTCATATTC ACTCCCTTCA ACTCAAAAGT GAAGAGTCGT TGGAACAAAT TAGGGAACGA 
    TTAAAAAGGG AATTTGCTAT TAAATACCCT CAATTATTCC ACACAAAATT GAGACCCCCA 
    CCCCCTAGAG AGTTCCAATA CCGTATTCAA TTAACTGACC ACACACAAAT ATATTGCAAA 
    CCATATAAAT GTAATCAAGA GGAACAAGCT CTCATAAAAG AATTCATTGA TGAAAAATTG 
    GAGGCAGGTG TCTTAGTCCC AGCTCCGATA GATGCCTGGT TACACCCCAT ATTCCCAATT 
    AGGAAAACCA ATGCTAACCA ATCCTCAACC AAGATAGCTG TTGATCTAAG ACGTCTCAAT 
    AAGGTCACCG TAAGAATGTA CACTTACCCA ACTGACACAA AAGATTTATT ATCATCACTA 
    GCAAACTCCA ATTATTTCTC AGCTTTAGAC TTGAAAAACG CATTTTACCA GATCGCCATT 
    CATAAGGATA GTATCAAGTA TTTTGGCATC TCCACTGCCG AAGGAAATTT CTGTTTTACC 
    ACACTTCCTT TTGGAGCCAT TAACCTGCCG GCAATCTTTA CTAATTTCGT AAGGAAAGTT 
    TTGACAGGCA TCACTAATAC ATTCATATAT ATGGATGATA TATTGATACA TACAACCACA 
    TTACACCACC ATATCACTAT CCTCAAAACC ATAATGTGGA GGTTACATCA AAACAACCTT 
    CAATTAAATT ATAATAAATT AAAACTTATT CATACGAAAA TTGATTTTCT TGGATACTCA 
    ATTCAACCTG GCAAAATCTC ACCACAACCA GCAAAGATCC AGGCAATTCA AAATTGGCAG 
    ATCCCCACTA CCACAACACA AATCCGTGCA TTTGTCAACT TTACAAACCA CTTCAGGAAT 
    TTTATTCCAA ATATAGCCAT TTATACAAAT CCGTTAAATG AGTTATTGAA ACACAACAAT 
    GGCAAGAACA TAAAAATTCA ACACACTCCA GCATCAATCA AAGGTTTCAA CGAGTTAAAA 
    AATGCAATCA TTGGTCTCCC CACCTTACAC CTCTATGATC CCACGTTACC GACTATAATC 
    TTCACAGATG CCAGCAACAT GGTAGTCGGA GGTTATTTGT GTCAACCAAC ATTCCAAAAT 
    GACAAACAAG TACTTGTCCC AATTGCCTTT TCATCCCATA AATTAAATGA AACACAAGGT 
    CGCTACTCGG TTATGGAGAA GGAGCTCTTA GCCATTATCG TCATATTGGA AAAATTTAGA 
    TATCACTGCA ACAACACAGT CGAGATCTAC ACAGATCACC AGAGCTTAGC ATCACTTTTG 
    GACAAGAAAA CCACTCCACC ACCAAGAATA GCTCGTTTTC TCGATCTCAT AGGTTCCTTT 
    TCTCCTCACG TATATTATTT GAGAGGTAAA CAAAACTTTG TTGCTGATAT CATCACAAGG 
    TATCAAACAC AAAATATTAC AGAAATGGTA GATGAAGACA AAATATTACA AAACACCTTT 
    ACAATGGATA AACCAATACA ACAACCACCC CAAACACAAT TAGATGCCAT TGAATTAGAC 
    AACCTTAATG AATCACACAT CCACACTATT CAAAACTTAT TGGAACAACA ACAACATCAT 
    GCACCTGACT ACAACAATGA AGAATTGCCA CTCCAACTGT TTAAATTAAT TAACGATGAC 
    CTATACGTAA TCATTAACAA CCAACTTTTA CAATATCTTC CACGACATGA GTACACTAAA 
    GCTTGTCAAA CAATTCATGA CAAACACCAC CCATCAACCA GAGTAACAGA TTATTTATGT 
    ACGCTTGCAT ATTGGCATCC TGATCATCTA TTAATTGCTA CAACAATTAT AAGCAAGTGT 
    CGCTATTGTC AGATGAACAC TTCAATTCGT GAAGCCATCC GGCCATACAG ACCACTCGAA 
    CCAATTAAAC CGTTTAGCAG ATGGGGAATG GACTATACGG GTCCCTATTT CAATACAGAA 
    CAAAACAGAT ACATATTAGT AGCCGTGGAA TACGTCACCG GTTTAACGAT TGCTGTACCA 
    ACAATGCACA AAGACACCAA CCAAGCCATG AATCTTGTGC AAACGATTAT CCTGATTATG 
    TCAGCACCTA CTGAGATTGT CACTGACCAG GGTGCCGAAT TTTCTTCCGA TGCATTTAAA 
    GCTTTATGTG AACACAATCA CATCAAACAT CATATTACTT CAGCACACCA TCCCCAAGGA 
    AATGGAAGAG TAGAAAAAGT AAATCACTTA TTGAAAAAGA TTTTGAAGGC ATTAACAAAT 
    GATACCATGC ATGAATGGGA TTTGAAATTA TATAACGCTT TAAGAATTTA TAATGCTACT 
    CCTACAATAT TCAACTACAC TCCACTTTAT CTAGCACTTG GAATTGAACC ACACCATAAC 
    TTAAATCAAT TACAAAAAGA TTTAATTGAA AATTTGCAAA GAGATTTACC CCCAGAGGTC 
    CAATCTACAG AAGAACATGA AGACAACCCA AATAATGAAC AGCAAGAAGA GGGCAGAGAA 
    CAACAACTTT CAAGGGAAGA ACAGGAAGAT GGCAGAGATC TTGTACATTT AAGAATTTAC 
    GAATTGGAAG CAATAAAGAG AGCTCGCAAG GTACACACAA ATTTGAAAAC ACGAAGAAAT 
    GCAGTTCAAA ATATGTTAAA GGAACCATAT GGAATTCCAG CACCTTTTAC AAAAGGACAA 
    TGGGTATACA GAATTAGAAC TAAAGCACGT AAATATGAAT CAAATTTTGA TGGCCCATAC 
    CAAGTTCAAG AAGTATTAGG TAAAGGTGCA TATAAATTGA GAGACATCAC TGGAAGAGAA 
    AAAGGAATCT ATAATCAAGA CCAGTTGAAG TTAGCATATT CAGCAGACAA CGATCCAATA 
    CAAGTTTTCA GTTCGTTTAA TAAAGAATAT GATAGAGTCC AACAAAAATT GTTAGATAAA 
    ATGCAAGCGG AAAGAGACTA TGAATTAAGC TGCTTGTCAT TGCAACAATT GTTAGATGAA 
    ATGCCAGCGG AAAAGGATTA TGAATTAAAT TGTTTAACAT TACAACAATT ACACAGGCAA 
    AGAAGATTAC TTGATATATC CAGCTGTCTC GACTCCAAAT CTGAAAACAA TTCGCTAATC 
    ATTGGAGGAA AGGGTAGATG A

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

    RefSeq XP_002418741.1
    CDS1..5301
    Translation

    Target ORF information:

    RefSeq Version XM_002418696.1
    Organism Candida dubliniensis CD36
    Definition Candida dubliniensis CD36 putative retrotransposon tca3 polyprotein (POL94), partial mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_002418696.1

    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
    ATGCTGATGT TCAAGGTTTT AAAAGAATCA GTCGAAGTCA TGAATCAATC CGTCAATGCC 
    AAACTTGCGG CTATGAATGA CAGAATTACA ATTCTTGACA ATAATCAAAA AGCTTTCATG 
    CCAAAACAAG AAAAAGATAT CGGAAACATT CTTCATAAAC AAAAGAAAGA AGAAACTGAT 
    GTCAAGGATA TTAAAACGGT GGTTGGTGAA GAAAAAGAAG AGATCCATCA GGTTGAAGAC 
    TTTGTGTTGA AAGAACAACA AGAGTTACGT AATGTCGAGA AAACTGTCTT AAAAGAAGAG 
    GAAGACTTAC AAAAGATTCA AGAATCCATT ACCAAAGAAG CAGAGGAGGT ACAAAAAGTT 
    GAAGAATCAA CCACGAAACA AAAAGAAGAG TTACATCAAG TGGAGAATTT TATTTTAGAA 
    AGGGATCAAA AGGTAACTAA ACTTGAAGAG CAAATTAATC GCATAAGCGA TAGATTAAAT 
    GCCCAGAGAG CGAGCACTCA ATATCCCCAA ACAGAAGCAA TGGGAACCGC AGATCTGAGA 
    TCCAGATCGC AACAACCAAA TATTGGAAAT ACCCTAGCAC AGGATCTTGC ATTGATCCCC 
    AATTTAGATC CAGAAATGGC AAGATTAATC AAAGGTTACT TACCATTTGT CATATTGCAT 
    GAAATAAATG CAACAGGTGG CCCAGTCGGC AAACCACCTA ACTTTAGACC GGACCTTGTC 
    ATCCAAAATC CAAATGATCC AGACAAAATT CAAAAACTCA TGCGTCTCCA GTCTTACATG 
    CAACTTTCAT TAGCTCCTTA TCATCTTTAT CCGATGATCT TAGAACCTTA TCTTCAAGGA 
    AGATACATTG GATACATTGA GAGCGCAAAG ATGAATCCAG CAAATGGAAG GGAATACAGT 
    TACTTGGATA TTTTAATAGC ATTCGTCAAG GCTTCACAAT TAGAAGTCGG AAATGCTAAC 
    ACCCAAGTTG AATTATTCAA AATAATTCCA ATAGCAGGAC AGACTGTTGG AGATTTTATC 
    GACCAAATCC AAAAGAAATA CAGACAGTTA AAACAATACA GTAATGTATT TGTTGCTGTA 
    AGAGCCCATG TATTCTCCCA TTGTCATAAA TACTTTCCGG ATAAAATCTA TGAACCAGAA 
    TGGTTAACAA AAACAGAAGC AAAATTTTGG AATGATTTAG ATCTTATGTT AGGTCTGGCA 
    GTATTTCAGC TGTTAGATTC CTCACTGAAT AGTAATGTTA ATGCTATAAA TTTCAATCCA 
    ACTCCATATA ACATCAATCA ACAATCAACA TATGATGGGA ACCTGAAATC ATTATATGAT 
    AGAAATCTGA GAACATCATA TGAACGGAAT ACTAACTCAT TATATGACAA AAATATCAAT 
    TCATATTCAA GACCAAATTA TCCTAAAACT TTTGATAAAT CAAGATTCAA CAACACTCCA 
    TATGGAAATA GTCAGATTTA TTATCAAAAT ACTTCAAATT CTTCCATTAA ATACAACCCT 
    CGTGGATACA ACCCTTTCAA CAATAACCAA CAAAAAGGCA AACCACCATA TCGGACTTAT 
    AGACGAAGAG GATATATTTG GAATAAGGGT AGAAGATCAC CAAAGATTTA TGAATTATCA 
    ATCGATCCTC AATCCCAATT AGGACAAATT GTTAATGATG ATGATACTCT CGATCCAAAT 
    TTGTATCAGG TTGATTTAAT CGACAATGAT GAAGAAGATT ATCAACACTT TGAAGAGATT 
    ACAACGGAAG AACCTTTCGA AGAACAACAA GATCAGGAAT TCGACTTCCA AATCAATGAT 
    CTTCAATTAT ATGAAGTAAA CATTACTCAC TTTGCAACCC CTGATAAAAC CCACAACCCT 
    CGGATTTTAT TAGACAGTGG AGCTGAAGCA AATTTTATTG GTAAACAAAT CCTTCCTTGG 
    TTGGAAGATA ATGGTCTCCT TTTCAGTGTC ACTAAGTTAC GAAGAATAGC CACAGCTAGA 
    ACCGCATCAA ATTTGTCTCA CACAATTGAA TCAGTAGCAA TAGTTAAAAT TTTTGATGTA 
    TTTTTAGAAT TCTATATCTT GGATCACTTG AACAAAGTTA TTATCGGTCG TCCTACTTTA 
    CAAAAATGGA ACTATCACCT CACAAAGGAG GGTGAATTCA TTCTGATTAA CAATCAACGG 
    TTTCATATTC ACTCCCTTCA ACTCAAAAGT GAAGAGTCGT TGGAACAAAT TAGGGAACGA 
    TTAAAAAGGG AATTTGCTAT TAAATACCCT CAATTATTCC ACACAAAATT GAGACCCCCA 
    CCCCCTAGAG AGTTCCAATA CCGTATTCAA TTAACTGACC ACACACAAAT ATATTGCAAA 
    CCATATAAAT GTAATCAAGA GGAACAAGCT CTCATAAAAG AATTCATTGA TGAAAAATTG 
    GAGGCAGGTG TCTTAGTCCC AGCTCCGATA GATGCCTGGT TACACCCCAT ATTCCCAATT 
    AGGAAAACCA ATGCTAACCA ATCCTCAACC AAGATAGCTG TTGATCTAAG ACGTCTCAAT 
    AAGGTCACCG TAAGAATGTA CACTTACCCA ACTGACACAA AAGATTTATT ATCATCACTA 
    GCAAACTCCA ATTATTTCTC AGCTTTAGAC TTGAAAAACG CATTTTACCA GATCGCCATT 
    CATAAGGATA GTATCAAGTA TTTTGGCATC TCCACTGCCG AAGGAAATTT CTGTTTTACC 
    ACACTTCCTT TTGGAGCCAT TAACCTGCCG GCAATCTTTA CTAATTTCGT AAGGAAAGTT 
    TTGACAGGCA TCACTAATAC ATTCATATAT ATGGATGATA TATTGATACA TACAACCACA 
    TTACACCACC ATATCACTAT CCTCAAAACC ATAATGTGGA GGTTACATCA AAACAACCTT 
    CAATTAAATT ATAATAAATT AAAACTTATT CATACGAAAA TTGATTTTCT TGGATACTCA 
    ATTCAACCTG GCAAAATCTC ACCACAACCA GCAAAGATCC AGGCAATTCA AAATTGGCAG 
    ATCCCCACTA CCACAACACA AATCCGTGCA TTTGTCAACT TTACAAACCA CTTCAGGAAT 
    TTTATTCCAA ATATAGCCAT TTATACAAAT CCGTTAAATG AGTTATTGAA ACACAACAAT 
    GGCAAGAACA TAAAAATTCA ACACACTCCA GCATCAATCA AAGGTTTCAA CGAGTTAAAA 
    AATGCAATCA TTGGTCTCCC CACCTTACAC CTCTATGATC CCACGTTACC GACTATAATC 
    TTCACAGATG CCAGCAACAT GGTAGTCGGA GGTTATTTGT GTCAACCAAC ATTCCAAAAT 
    GACAAACAAG TACTTGTCCC AATTGCCTTT TCATCCCATA AATTAAATGA AACACAAGGT 
    CGCTACTCGG TTATGGAGAA GGAGCTCTTA GCCATTATCG TCATATTGGA AAAATTTAGA 
    TATCACTGCA ACAACACAGT CGAGATCTAC ACAGATCACC AGAGCTTAGC ATCACTTTTG 
    GACAAGAAAA CCACTCCACC ACCAAGAATA GCTCGTTTTC TCGATCTCAT AGGTTCCTTT 
    TCTCCTCACG TATATTATTT GAGAGGTAAA CAAAACTTTG TTGCTGATAT CATCACAAGG 
    TATCAAACAC AAAATATTAC AGAAATGGTA GATGAAGACA AAATATTACA AAACACCTTT 
    ACAATGGATA AACCAATACA ACAACCACCC CAAACACAAT TAGATGCCAT TGAATTAGAC 
    AACCTTAATG AATCACACAT CCACACTATT CAAAACTTAT TGGAACAACA ACAACATCAT 
    GCACCTGACT ACAACAATGA AGAATTGCCA CTCCAACTGT TTAAATTAAT TAACGATGAC 
    CTATACGTAA TCATTAACAA CCAACTTTTA CAATATCTTC CACGACATGA GTACACTAAA 
    GCTTGTCAAA CAATTCATGA CAAACACCAC CCATCAACCA GAGTAACAGA TTATTTATGT 
    ACGCTTGCAT ATTGGCATCC TGATCATCTA TTAATTGCTA CAACAATTAT AAGCAAGTGT 
    CGCTATTGTC AGATGAACAC TTCAATTCGT GAAGCCATCC GGCCATACAG ACCACTCGAA 
    CCAATTAAAC CGTTTAGCAG ATGGGGAATG GACTATACGG GTCCCTATTT CAATACAGAA 
    CAAAACAGAT ACATATTAGT AGCCGTGGAA TACGTCACCG GTTTAACGAT TGCTGTACCA 
    ACAATGCACA AAGACACCAA CCAAGCCATG AATCTTGTGC AAACGATTAT CCTGATTATG 
    TCAGCACCTA CTGAGATTGT CACTGACCAG GGTGCCGAAT TTTCTTCCGA TGCATTTAAA 
    GCTTTATGTG AACACAATCA CATCAAACAT CATATTACTT CAGCACACCA TCCCCAAGGA 
    AATGGAAGAG TAGAAAAAGT AAATCACTTA TTGAAAAAGA TTTTGAAGGC ATTAACAAAT 
    GATACCATGC ATGAATGGGA TTTGAAATTA TATAACGCTT TAAGAATTTA TAATGCTACT 
    CCTACAATAT TCAACTACAC TCCACTTTAT CTAGCACTTG GAATTGAACC ACACCATAAC 
    TTAAATCAAT TACAAAAAGA TTTAATTGAA AATTTGCAAA GAGATTTACC CCCAGAGGTC 
    CAATCTACAG AAGAACATGA AGACAACCCA AATAATGAAC AGCAAGAAGA GGGCAGAGAA 
    CAACAACTTT CAAGGGAAGA ACAGGAAGAT GGCAGAGATC TTGTACATTT AAGAATTTAC 
    GAATTGGAAG CAATAAAGAG AGCTCGCAAG GTACACACAA ATTTGAAAAC ACGAAGAAAT 
    GCAGTTCAAA ATATGTTAAA GGAACCATAT GGAATTCCAG CACCTTTTAC AAAAGGACAA 
    TGGGTATACA GAATTAGAAC TAAAGCACGT AAATATGAAT CAAATTTTGA TGGCCCATAC 
    CAAGTTCAAG AAGTATTAGG TAAAGGTGCA TATAAATTGA GAGACATCAC TGGAAGAGAA 
    AAAGGAATCT ATAATCAAGA CCAGTTGAAG TTAGCATATT CAGCAGACAA CGATCCAATA 
    CAAGTTTTCA GTTCGTTTAA TAAAGAATAT GATAGAGTCC AACAAAAATT GTTAGATAAA 
    ATGCAAGCGG AAAGAGACTA TGAATTAAGC TGCTTGTCAT TGCAACAATT GTTAGATGAA 
    ATGCCAGCGG AAAAGGATTA TGAATTAAAT TGTTTAACAT TACAACAATT ACACAGGCAA 
    AGAAGATTAC TTGATATATC CAGCTGTCTC GACTCCAAAT CTGAAAACAA TTCGCTAATC 
    ATTGGAGGAA AGGGTAGATG A

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

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