ORF » Species Summary » Candida albicans SC5314 » KEM1 cDNA ORF clone

KEM1 cDNA ORF clone, Candida albicans SC5314

The following KEM1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the KEM1 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
OCg10138 XM_019475179.1
Latest version!		 Candida albicans SC5314 chromatin-binding exonuclease (KEM1), partial mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00

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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)
    KEM1 ( XM_019475179.1 ) cDNA ORF clone, Candida albicans SC5314 -> XP_019330724.1 Candida albicans SC5314 chromatin-binding exonuclease (KEM1), partial mRNA.
    Price & Availability↑
    CloneID OCg10138
    Clone ID Related Accession (Same CDS sequence) XM_019475179.1
    Accession Version XM_019475179.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4515bp)
    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 1522684800000
    Organism Candida albicans SC5314
    Product chromatin-binding exonuclease
    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_032089). ##Genome-Annotation-Data-START## Annotation Provider :: CGD Annotation Status :: Full annotation Annotation Version :: A22-s07-m01-r01 URL :: http://www.candidagenome.org/ ##Genome-Annotation-Data-END## 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
    ATGGGTATTC CAAAGTTTTT CCGATTCATC TCTGAGAGAT GGCCATTGAT TTCCCAATTA 
    ATTGATGAAA ATCAAATCCC CGAATTTGAT AATTTGTATC TTGATATGAA TTCTATATTG 
    CATACTTGTA CTCATTCTAA TGATAATACA ATTACCAGAC TTCTGGATGA TCAAATGTAT 
    GCTGCCATAT TCAATTATAT CGAACATTTA TTCCAAATCA TTAAACCTCA AAAAACTTTC 
    TATATGGCTA TTGATGGGGT TGCTCCTCGA GCTAAAATGA ATCAACAACG TGCCAGAAGA 
    TTTAGAACTG CTTATGAAGC AGAAATAAAT TTAAAGAAAG CCATTGAAAA TGGAGAAGAA 
    ATACCTAAAG AAGATCCATT TGATTCAAAT TCTATTACTC CAGGTACAGA GTTTATGGCT 
    AACTTGACAA ATAATTTGAA ATATTTCATT CATAAAAAAA TCACTGAAGA TTCAAGTTGG 
    GCCAATATTG AAATCATTTT GAGTGGTCAT GAAGTCCCCG GTGAAGGTGA ACATAAAATT 
    ATGGAATATA TTCGTTCAAT AAGATCTCAA GATGATTATA ATCCAAATTT AAGACATTGT 
    ATCTATGGGT TAGATGCTGA TTTGATCATG TTAGGATTGG TCACACATGA TCCTCATTTT 
    GCATTATTGA GAGAAGAAGT CACTTTTGGC CCACAACGTA AAGTTGGTCC TAAAGATTTA 
    CATGATCAGA AATTTTATCT TTTACATTTA TCATTATTAA GAGAATATTT AAGTTTAGAA 
    TTCCAAGAAA TTGAAAATCA ATTGAATTTT GAATATGATT TTGATAGAAT TTTAGATGAT 
    TTTATTTTAA TTATGTATGT CATTGGTAAT GATTTTTTGC CAAATTTACC TGATTTGTTT 
    ATCAATAAGG GAGCATTCCC ATTGTTAATT GCTGCTTTCA AACAAACATT GTTAGAAAGT 
    GACGGTTATA TCAATGAAAA TGGGAAAATT AATTTAGTCA GATTAAACAT TTATATCAAA 
    ATTTTATCTA AATTTGAATT TGAAAATTTT GAAAAACATG AAGTTGATGT TGAATGGTTT 
    AATAAAAAAT TAGATGATAT TTCAATTTCT GGTGAAAAGA AACGTCAAAG AATTGGGAAA 
    TTATTAATTT TAAAAGAGCA AAAAAAATTA GTTGGATTTA TTAAACCCTG GCTTATGGAA 
    TGGGCTAGTC AACCAATCAA TGAAATTTTG AATTTAGATC AGCAAGGTAA ATTACCAACT 
    TTACATTTAA ATAAAGATGA TGTTGAGAAA AATTTGGAGT TTATTAAAGA ATTTGCCATT 
    GAAGCTGGGT TTTTAATAAT TCATTCCCAA TCTAATGATA CTTATGAAGC CAAATTAGAT 
    ATTGATGGGA TTTCACCTAC TGAAAGTGAA GAAGAACATG AAGAACGTAT AACTGAATTA 
    AGGAAAACCA TTAAACAATA TCAATCGGCT AATTTAATTG AAAGTGAAGA AGTTTTGAAT 
    GAAACTAAAG AAGTGTATTC CGAAAAATTT CAATCTTGGA AAAATGATTA TTATCAACCA 
    AAATTACATT TCTCCATTGA TACCGAAGAA GGTAAAGGTG ACCTAATTGA AATGACCAAA 
    CATTATATTG AAGGTTTACA ATGGGTTTTG TATTATTATT ATCGTGGTTG TCCATCATGG 
    AATTGGTATT ATAGATATCA TTATGCTCCT AGAATTTCTG ATATTTCATT AGGATTAGAA 
    GAATTGATCA ATGAAAAAAC TGATTTAAAA TTTGAATTAT CTCATCCTTT TAAACCTTTT 
    GAACAATTAA TGGCTGTTTT ACCTGCTCGA TCCAAAAAAT TGATGCCAGT GGTTTATCGT 
    CCTTTAATGA CCGATGAAAA ATCACCAATT ATAAATTTCT ATCCTCATGA AGTTGACATT 
    GATATGAATG GTAAAACTGC TTCTTGGGAA GCAGTAGTAT TATTAGATTT TGTTGATGAG 
    AAAAAATTGA TTGAAGCATT AAAACCCATT GAATCTAAAT TAACCCCTGA GGAGAAACAA 
    AGAAATTCTT ATGGTCATGC TATCAAATTC ATTCATAATC CACAAATTGA TCATGTTTTT 
    TCATCACCGT TACCAGGGTT TTTCCATGAT ATTGAACATG ATCAATGTTA TGAAGAAGAA 
    TTCAAATTAC CTAAAATTGA AAATTTGAAA ATTGGATTTA TTAAAGGAGC TAAAACTGGT 
    AAAGATTTAT TAGCTGGATT CCCAACATTA TCAACCATTC CATTTACTTC TGAATTAGCA 
    TTGAATGAAG TTAAAATTTT TAATTTCCCT TCAAGATCAG AATCAATGAT TTTGAATGTT 
    GAAGATGTTT GGTCTGATTT GACCGTGGCA CAATTTGCTC AAAGTTTTGT TAATAAATTA 
    GTTTATTCCA AATGGCCATT TTTAAGAGAA TGTCGAGTGG TTAAAGTTGT AAGTGAAGAA 
    AATAAATTTG AATCAATTAA AACTAACACG GGATTGAAAA AAGTTGTTAC TAATGAGTTG 
    AGTGTTGAAG ATAAAAAATC ATTCCGTTCC GAAGTTTCTA ATCTTAAAGT TACTTGGGAT 
    AAATTTAAGG GGGTCAAATT AGGTGAAATA AATGCATTAG TTTATGTTAA ACCGGTAAAT 
    GGATTAATTA GGAATCATAA GGGGGCTTAT GTGAAGACAT ATTCTAAAGA TGTTGAGGTC 
    TATCCTTTAC AATTGATTGT CAAAGAAGTT ACTAATAAAG ATCAAAGATA TTTGACTAGA 
    CCACCATTAC CAATTGATCA AGAATTCCCT ATTGATTCTC AAGTTGTATT CTTGGGAGAT 
    ATGGCTTATG GATCACCAGC AAAGATTGTT GGATATAATG AAGATAAAAC TAAATTGGGG 
    GTGAAAATTT TTAAGATTCA ACTGACAGCA GAACCAAACA TTGGTAAAAA GAGATTAACT 
    ATTGAGAAAA ATGAAATCAA ATATTATCCT TCATTTGAAG TTGCTAAAAC TTTAAGACTT 
    AATCCATTAT TGTTATCTAA AATTACTAGT CAATTCATGG TTCAAGATTC TTCCAAAGGT 
    AAAGTAAATA TTGGATTAGA ATTAAAATTT GAAAGTAAAC GTCAAAAAGT TTTAGGTTAT 
    ACTAGAAAAC TGAGTAATGG GAAATTTTGG GAATTTTCTC CATTGGCTAT TAATTTAATT 
    AATACTTATA AAACAAAATT CCCTGGGTTA TTTAAAAAAT TAGTTAATAA CGTTAGTGGA 
    TCCAATTTTC CTACTGTGGA TGAAATTCTG AGTCTTGAAG AATTGAAAGA AATTAGATCA 
    TGGTTAAAAG AAGTGAAAAG TGAATTAATC CCTGTTTCAT TAGAAAGTGA ATCATTTACC 
    AAATTTAGTT ATCAAGCCAT TGAACAATAT ATGGATAATT ATTTATCAAT GAATCAAATC 
    CCAACTATAA ATAAAGATAT TAAAGGTGTT CCTCGTGAAG CCATTTTGAA TGCTAATGAA 
    TCGTATCAAT TATTAAGTGA TCAAAGGTTT GAATTAGGTG ATAGAATAAT TTATGTTCAA 
    GATTTTGGTA AAGTATCTAT TTTATCTAAA GGTACTGTGG CTTCAATTTT AACCGTTGGA 
    TCCAAAACTT CATTAGGGGT GATTTTCGAT CAACCTTTAT TGAGTGGTAA TAATATGAAT 
    GGGAAATTGA ATTCTAATCG AGGATTAATT ATTGATTCTT CATTGGTGTT GAATTTAACT 
    AATAAACAAT TTGTTTATCA TTCTCATGCA TCAAAAAATA GAAAGAAATT GACTGATGAA 
    GAAAAAATTG CGAAATTGAA AGCAATAGAA GCTAAAAAGA ATCAGAAGCA ACAACAGCAA 
    CAAAAAGAAC AACAAACTAA GCAAAAGCAA GTTGAACAAC AAAAACAAAA AGGTGCTAAT 
    GAATTGTTGT CTTTGTTGAA GAAAAAACTG GATATGAATA GTACTACCAC TACTTCCACT 
    ACTGATGGAG ATTGTAAGAA AACAGAAGAA AAAGATTATG ACAAAAATAA TGGTAATGAA 
    GATGAAAGAG TTGATCCTAA TGCAATTAAA CAAATTTATG GCCATATTTA TTCTAATGTT 
    ATGAATCAAG GTAATGTTCG TCCTCCACCA CCGCCACCAA CAGGTCCAGG TCATCCACAA 
    CAATTTCCTT ATGGTATGCC TATTCCTCCA CCAGGTGCAC CAATGCATCC TGGTTATATT 
    CCTGTAGTTC CAGGAAATCC ATTACCTCCT AGTTTCTACC AACAATATCC ACCAAATGGA 
    CAACAGTTTG TCAATTCACA ACCACCGCCA CCACCACCAC CACCGCCATC ACAACAACAA 
    CAACCTCAAG TAGCTGAGTC AACCTCTGAC GAGAAATCAA AAAATGATAA CAAGCACAAT 
    GTAAATGGTA GAGGAAGAGG TGGTTCTAGA GGAAGAGGCG GATATAGAGG AAGAGGCGGA 
    GTTAGAGGTG GGCGAGGTGG AAATAAATCA TCTCATCAAA ATCAACCTAA AGATAAGGTA 
    AAACAAGAAT CATAA

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

    RefSeq XP_019330724.1
    CDS1..4515
    Translation

    Target ORF information:

    RefSeq Version XM_019475179.1
    Organism Candida albicans SC5314
    Definition Candida albicans SC5314 chromatin-binding exonuclease (KEM1), partial mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019475179.1

    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
    ATGGGTATTC CAAAGTTTTT CCGATTCATC TCTGAGAGAT GGCCATTGAT TTCCCAATTA 
    ATTGATGAAA ATCAAATCCC CGAATTTGAT AATTTGTATC TTGATATGAA TTCTATATTG 
    CATACTTGTA CTCATTCTAA TGATAATACA ATTACCAGAC TTCTGGATGA TCAAATGTAT 
    GCTGCCATAT TCAATTATAT CGAACATTTA TTCCAAATCA TTAAACCTCA AAAAACTTTC 
    TATATGGCTA TTGATGGGGT TGCTCCTCGA GCTAAAATGA ATCAACAACG TGCCAGAAGA 
    TTTAGAACTG CTTATGAAGC AGAAATAAAT TTAAAGAAAG CCATTGAAAA TGGAGAAGAA 
    ATACCTAAAG AAGATCCATT TGATTCAAAT TCTATTACTC CAGGTACAGA GTTTATGGCT 
    AACTTGACAA ATAATTTGAA ATATTTCATT CATAAAAAAA TCACTGAAGA TTCAAGTTGG 
    GCCAATATTG AAATCATTTT GAGTGGTCAT GAAGTCCCCG GTGAAGGTGA ACATAAAATT 
    ATGGAATATA TTCGTTCAAT AAGATCTCAA GATGATTATA ATCCAAATTT AAGACATTGT 
    ATCTATGGGT TAGATGCTGA TTTGATCATG TTAGGATTGG TCACACATGA TCCTCATTTT 
    GCATTATTGA GAGAAGAAGT CACTTTTGGC CCACAACGTA AAGTTGGTCC TAAAGATTTA 
    CATGATCAGA AATTTTATCT TTTACATTTA TCATTATTAA GAGAATATTT AAGTTTAGAA 
    TTCCAAGAAA TTGAAAATCA ATTGAATTTT GAATATGATT TTGATAGAAT TTTAGATGAT 
    TTTATTTTAA TTATGTATGT CATTGGTAAT GATTTTTTGC CAAATTTACC TGATTTGTTT 
    ATCAATAAGG GAGCATTCCC ATTGTTAATT GCTGCTTTCA AACAAACATT GTTAGAAAGT 
    GACGGTTATA TCAATGAAAA TGGGAAAATT AATTTAGTCA GATTAAACAT TTATATCAAA 
    ATTTTATCTA AATTTGAATT TGAAAATTTT GAAAAACATG AAGTTGATGT TGAATGGTTT 
    AATAAAAAAT TAGATGATAT TTCAATTTCT GGTGAAAAGA AACGTCAAAG AATTGGGAAA 
    TTATTAATTT TAAAAGAGCA AAAAAAATTA GTTGGATTTA TTAAACCCTG GCTTATGGAA 
    TGGGCTAGTC AACCAATCAA TGAAATTTTG AATTTAGATC AGCAAGGTAA ATTACCAACT 
    TTACATTTAA ATAAAGATGA TGTTGAGAAA AATTTGGAGT TTATTAAAGA ATTTGCCATT 
    GAAGCTGGGT TTTTAATAAT TCATTCCCAA TCTAATGATA CTTATGAAGC CAAATTAGAT 
    ATTGATGGGA TTTCACCTAC TGAAAGTGAA GAAGAACATG AAGAACGTAT AACTGAATTA 
    AGGAAAACCA TTAAACAATA TCAATCGGCT AATTTAATTG AAAGTGAAGA AGTTTTGAAT 
    GAAACTAAAG AAGTGTATTC CGAAAAATTT CAATCTTGGA AAAATGATTA TTATCAACCA 
    AAATTACATT TCTCCATTGA TACCGAAGAA GGTAAAGGTG ACCTAATTGA AATGACCAAA 
    CATTATATTG AAGGTTTACA ATGGGTTTTG TATTATTATT ATCGTGGTTG TCCATCATGG 
    AATTGGTATT ATAGATATCA TTATGCTCCT AGAATTTCTG ATATTTCATT AGGATTAGAA 
    GAATTGATCA ATGAAAAAAC TGATTTAAAA TTTGAATTAT CTCATCCTTT TAAACCTTTT 
    GAACAATTAA TGGCTGTTTT ACCTGCTCGA TCCAAAAAAT TGATGCCAGT GGTTTATCGT 
    CCTTTAATGA CCGATGAAAA ATCACCAATT ATAAATTTCT ATCCTCATGA AGTTGACATT 
    GATATGAATG GTAAAACTGC TTCTTGGGAA GCAGTAGTAT TATTAGATTT TGTTGATGAG 
    AAAAAATTGA TTGAAGCATT AAAACCCATT GAATCTAAAT TAACCCCTGA GGAGAAACAA 
    AGAAATTCTT ATGGTCATGC TATCAAATTC ATTCATAATC CACAAATTGA TCATGTTTTT 
    TCATCACCGT TACCAGGGTT TTTCCATGAT ATTGAACATG ATCAATGTTA TGAAGAAGAA 
    TTCAAATTAC CTAAAATTGA AAATTTGAAA ATTGGATTTA TTAAAGGAGC TAAAACTGGT 
    AAAGATTTAT TAGCTGGATT CCCAACATTA TCAACCATTC CATTTACTTC TGAATTAGCA 
    TTGAATGAAG TTAAAATTTT TAATTTCCCT TCAAGATCAG AATCAATGAT TTTGAATGTT 
    GAAGATGTTT GGTCTGATTT GACCGTGGCA CAATTTGCTC AAAGTTTTGT TAATAAATTA 
    GTTTATTCCA AATGGCCATT TTTAAGAGAA TGTCGAGTGG TTAAAGTTGT AAGTGAAGAA 
    AATAAATTTG AATCAATTAA AACTAACACG GGATTGAAAA AAGTTGTTAC TAATGAGTTG 
    AGTGTTGAAG ATAAAAAATC ATTCCGTTCC GAAGTTTCTA ATCTTAAAGT TACTTGGGAT 
    AAATTTAAGG GGGTCAAATT AGGTGAAATA AATGCATTAG TTTATGTTAA ACCGGTAAAT 
    GGATTAATTA GGAATCATAA GGGGGCTTAT GTGAAGACAT ATTCTAAAGA TGTTGAGGTC 
    TATCCTTTAC AATTGATTGT CAAAGAAGTT ACTAATAAAG ATCAAAGATA TTTGACTAGA 
    CCACCATTAC CAATTGATCA AGAATTCCCT ATTGATTCTC AAGTTGTATT CTTGGGAGAT 
    ATGGCTTATG GATCACCAGC AAAGATTGTT GGATATAATG AAGATAAAAC TAAATTGGGG 
    GTGAAAATTT TTAAGATTCA ACTGACAGCA GAACCAAACA TTGGTAAAAA GAGATTAACT 
    ATTGAGAAAA ATGAAATCAA ATATTATCCT TCATTTGAAG TTGCTAAAAC TTTAAGACTT 
    AATCCATTAT TGTTATCTAA AATTACTAGT CAATTCATGG TTCAAGATTC TTCCAAAGGT 
    AAAGTAAATA TTGGATTAGA ATTAAAATTT GAAAGTAAAC GTCAAAAAGT TTTAGGTTAT 
    ACTAGAAAAC TGAGTAATGG GAAATTTTGG GAATTTTCTC CATTGGCTAT TAATTTAATT 
    AATACTTATA AAACAAAATT CCCTGGGTTA TTTAAAAAAT TAGTTAATAA CGTTAGTGGA 
    TCCAATTTTC CTACTGTGGA TGAAATTCTG AGTCTTGAAG AATTGAAAGA AATTAGATCA 
    TGGTTAAAAG AAGTGAAAAG TGAATTAATC CCTGTTTCAT TAGAAAGTGA ATCATTTACC 
    AAATTTAGTT ATCAAGCCAT TGAACAATAT ATGGATAATT ATTTATCAAT GAATCAAATC 
    CCAACTATAA ATAAAGATAT TAAAGGTGTT CCTCGTGAAG CCATTTTGAA TGCTAATGAA 
    TCGTATCAAT TATTAAGTGA TCAAAGGTTT GAATTAGGTG ATAGAATAAT TTATGTTCAA 
    GATTTTGGTA AAGTATCTAT TTTATCTAAA GGTACTGTGG CTTCAATTTT AACCGTTGGA 
    TCCAAAACTT CATTAGGGGT GATTTTCGAT CAACCTTTAT TGAGTGGTAA TAATATGAAT 
    GGGAAATTGA ATTCTAATCG AGGATTAATT ATTGATTCTT CATTGGTGTT GAATTTAACT 
    AATAAACAAT TTGTTTATCA TTCTCATGCA TCAAAAAATA GAAAGAAATT GACTGATGAA 
    GAAAAAATTG CGAAATTGAA AGCAATAGAA GCTAAAAAGA ATCAGAAGCA ACAACAGCAA 
    CAAAAAGAAC AACAAACTAA GCAAAAGCAA GTTGAACAAC AAAAACAAAA AGGTGCTAAT 
    GAATTGTTGT CTTTGTTGAA GAAAAAACTG GATATGAATA GTACTACCAC TACTTCCACT 
    ACTGATGGAG ATTGTAAGAA AACAGAAGAA AAAGATTATG ACAAAAATAA TGGTAATGAA 
    GATGAAAGAG TTGATCCTAA TGCAATTAAA CAAATTTATG GCCATATTTA TTCTAATGTT 
    ATGAATCAAG GTAATGTTCG TCCTCCACCA CCGCCACCAA CAGGTCCAGG TCATCCACAA 
    CAATTTCCTT ATGGTATGCC TATTCCTCCA CCAGGTGCAC CAATGCATCC TGGTTATATT 
    CCTGTAGTTC CAGGAAATCC ATTACCTCCT AGTTTCTACC AACAATATCC ACCAAATGGA 
    CAACAGTTTG TCAATTCACA ACCACCGCCA CCACCACCAC CACCGCCATC ACAACAACAA 
    CAACCTCAAG TAGCTGAGTC AACCTCTGAC GAGAAATCAA AAAATGATAA CAAGCACAAT 
    GTAAATGGTA GAGGAAGAGG TGGTTCTAGA GGAAGAGGCG GATATAGAGG AAGAGGCGGA 
    GTTAGAGGTG GGCGAGGTGG AAATAAATCA TCTCATCAAA ATCAACCTAA AGATAAGGTA 
    AAACAAGAAT CATAA

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

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