ORF » Species Summary » Cryptococcus neoformans var. grubii H99 » CNAG_03600 cDNA ORF clone

CNAG_03600 cDNA ORF clone, Cryptococcus neoformans var. grubii H99

The following CNAG_03600 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CNAG_03600 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
OCr134529 XM_012191941.1
Latest version!		 Cryptococcus neoformans var. grubii H99 ATP-binding cassette, subfamily B (MDR/TAP), member 1 (CNAG_03600), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00

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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)
    CNAG_03600 ( XM_012191941.1 ) cDNA ORF clone, Cryptococcus neoformans var. grubii H99 -> XP_012047331.1 Cryptococcus neoformans var. grubii H99 ATP-binding cassette, subfamily B (MDR/TAP), member 1 (CNAG_03600), mRNA.
    Price & Availability↑
    CloneID OCr134529
    Clone ID Related Accession (Same CDS sequence) XM_012191941.1
    Accession Version XM_012191941.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4632bp)
    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 2018-04-03
    Organism Cryptococcus neoformans var. grubii H99
    Product ATP-binding cassette, subfamily B (MDR/TAP), member 1
    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_026746). 

    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
    ATGGCGGAGG GAGGGGAAGA ACTGTCTGAC TATGATTATG GAAGGAGCCG CCAGAAGACA 
    ATGGCAGGCT ACAAGTTCGC CAGCCTTTCT CCCACTGGCT TAGACGGAGT ACGCGGTCAG 
    CCAGTCGCTT TTGGCCCGAT GCTGGACGAA ATCAAGCCTC CATCACAATG GAGAAGGTCA 
    TTGTACCCAG CAGATGCACC GCCCATTCCA GCTTCAACGT TTGAGCAACA CCTTGACCTC 
    GCCCCTCTTC CAACATCCCC GACAACGTCC CATCGCACCA TCCCGGTTCC TCAACCCATC 
    AAGCCCAGGT TCCGTAGGCT CTTCGTCTTC ACCACCGCCA GGGACTATAT CCTGCTCCTC 
    TGCCCAGCGG TTGTGCTTTC CATTCTCTCC GCACTCATCC AGCCCTACAT GTCCATCGTG 
    ATCGGTAACG CCTTCGCCAT CTTTTCAGCT TACCCCTTGA ATACCTCGCT CGCGACCGAT 
    GCCGACCGTG CTGCCCTTCG CAGTGGTGTC GCCAACACAT CTATACAACT TACAGTCTCC 
    GGCGTGCTCT CCTTGCTCTT TAATTACTTG AAAGGAGTCA TGTGGACGAG ATATGGCGAG 
    ACAGTGGCAG ATAGATTAAG AGACAAGGTT TATCATGGTG TGCAGGATAA GCCTATGGAG 
    TGGTATGATA TGGGCATGGG TATGAGAGAA GAAGGGCAAG GAGAGGGAAA AGAGAATGAC 
    ACTGTAGGTG CTGGTGGCTT GATGTCAAAG TTTAACAGGG AGACCGATGA CGTGAGGATG 
    GCCACTTCCC ACGCCTTTGG ATTAGTGGTA CAGAACACAT TCACTTTCGT CTTATGCTTC 
    ATCCTTGCCG TCATTGAATC TCCGTCTTTG GCCTTTGTTA CCCTCTCCAC CATTCCCCTT 
    GTCGTCCTTA CGCAAGTCGT TACCCAGATC CTTTGCGCCC CTCTGTTGGC TACCGAAAGG 
    CGGGTACTTG CCGAGGCCTC TACCAACGTC GAGCGCGCCA CTGCTGCAAT CTCTACAGTC 
    AAAGTACACA ATGCTCAAGC AGCGGAAGAA AAAAGGTTCA TGCAGTCGGT GAGCAAGAGT 
    AAAAGTAATT TGATCAAACA AGGATTGGTA TGGGGAGTAT CCGCAGGTTT GACAGACTTC 
    TTCTTGCTGG GAACGTTTGT GCTCGGATTC TGGTATGGCG CCAAAATAAT TCGGGAAGGC 
    AAGGCCACAT CAGGAGCCGT CATGACCTGC TTCTGGGCCT GTCTCTTTGC CGCCACGTAC 
    CTCCAGCAGG TTGTCCCCCA GCTTACCATA ATGACAAAAG GCAAAAACTC GATCGCTTCG 
    CTGTTGACAG TCATTCAAGA TGATGCTTCA AGATCCGTGT CTGGCAACAA CCCATTCTCC 
    CCTACAGACT CCCCAATCGA TAGTAGCTTC TCTGCCGCCG TTGGTAAATT GAACCCCAAG 
    CGTGTCTCTC GTCCTCTTAC TCTCGGAGGA GTTCGACCTT GCCGGTGCCA TGGAGAATTC 
    AATTTCAACC ACATCTCGTT TGCCTATCCA TCTCGTCCGG AAAATCCTGT ACTTTGTGAT 
    ATCTCCCTTT TCATTCCACC AGGAGAAACA ACCTTTATCG TGGGCGGCTC TGGCTCTGGC 
    AAGTCTACCA TTGCTCAGCT ACTCCTCCGA CTGTACGACC CCACGTCTGG AGAGATTACA 
    ATGGATAACC AATCTTTCCC CTTCTTGAAC AGTCATTTTA CAAGAGAAAA TATCGCCGCT 
    GTCCAGCAAG GCTGTATTCT TTTCGATATG TCGGTGCATG ACAATGTCGC TATGGGGCTT 
    GGTGGGGCTA GTGCCGATCC CAAGACAGGA GTCAAGAGGG CACCAGAAGA CGTGACACGC 
    GAACAAGTCG TAGAGGCTTG TAAAATGGCA ATGATCCATG ATTTCGTGGT GAGCTTGCCG 
    GACGGTTATG ATACCATCTT GGGAACCGGC GGATCGAGTT TGAGCGGAGG ACAGAGGCAG 
    CGATTGGCGA TTGCGCGGGC GAGAATCAGA GACCCCACCG TCCTCATCCT TGATGAAGCG 
    ACATCGGCTT TGGATGCCAC CTCTAGGGTG CTTGTTTTCA AAAGTCTCAA GGCATGGCGC 
    AACAATCGGA CCACCATCGT CATCACGCAC GACCTTTCAC AGATCGTTTC CGATGACTTT 
    GTCTACGTCA TGAAAAACGG CGTCGTTGCC GAACAAGGAT TTCGGCTTGA TCTCATGAAG 
    AAACCGAATG GCACTTTTGC CCATATGGCG GCGGAACAAG CCATCAACCC TTTGCCGGCC 
    AAGGAGGTCG AGTCTGACGC AGAGTGGCAT GATGGGCTCG ACACAATCCT CAACATGGAG 
    GAAGATTATG AAGAGGTGCT CGACAGCAGG GTCAGATCTC ACACTCCTTC ATTTTCTGCC 
    CTTGGAATGC AAAGGAACAG TGCTGTCTAT CTCGATATCC TGGACGAGTA TTCCAGGAGT 
    CAGCGACTTT CTCAAGTCGA TCGCCGACAG TCTCATACTA GCTTGACACC CCCTCAAAAG 
    CGTCTATCAT GGACTCCTGA GCAGTTGGGC AGCCGTGCGC CTAGCAGACA GAGTATGGCC 
    GTTCCCATCA GTCGCCCTCC GTCTAGCCAA ACGAATCGAC CTGTGAGCAG GTTAAGCGTC 
    ATGGTCGATC CAAATCCAAG GCTAAGTTTG AGGACTATGA TGGCGAAGAC CCCAAGACAA 
    GGTGGGGGAA AGCTTCATCG GGGCTGGATG GAAAAAAATT CACCCTCAAG GATAAGCGCA 
    ATTAGGCAAA GGCAGCAAAG AACCCTCTCT GAGAATCTAG AAGATGATTT GAAAGGCCAG 
    CCTTCCGATG TCAATCTTTC CCATAGCGTT CTTGTTGAAC AAGTCTCCAC ACGCTCAGCT 
    ACTACGCCGG TCCCAGGCTT ATTTTCTCTC TTCAAACTCT ATTTCCCTTC ACTTCCAGCT 
    AAGCCACTTC TCCTGCTTGG CTGTATAGGC TCTATTGGTC ACGGAGCGAC AACTCCCATC 
    TGGTCATTCT TCCTTTCCAA GCTGATGACT ATCGTCGGGG CTGGCGGCGC TGATACCACT 
    TCTCTCACCA AATACGGTCT CATAGTCCTG GGGCTGTGTG CCGCTCAAGG GCTGTCGAAC 
    TGTGTTCAAG AATATTTTCT TGTTGGACTA TCTGCTAGAT GGACCCATAT GGTACGCGGG 
    GTCGCCATGC ATAAGCTCAT CACGCAAGAC AAGGCATTCT TTGATCATTC ATCTAATTCT 
    CCCTCTCGAC TGGTCCAGAC CCTCATAAAA GACGCCGACG ACGCGAGAAC CATTATGAGT 
    CAAGTAATCG GTAGGGCGGT GACCGTGGTG ACCATGATCG GTTTGGGTTT GATTTGGGCA 
    ATGGCTGTGG AGTGGAGATT GACTTTGATA GGCTTGGCCT TGGGTCCAAT TTTCGGCGGT 
    TTCATGGCGG TTAACTCTTG GTTCATTGGT AACGTTGAAC TGGCTTGTAA AGTTGCTAGG 
    GAGGAGGTGG GAAGGGTGTT TTACGAAAGT GTTGCCAACG TCAGGGGGAT CCGAGCGATG 
    GCGCTCGACA CTGCTTTTGA AAAAAGATTT CAGAAGGATG CTAGTAATGC TAAGAAGACG 
    GGTACACGTT CGGCATGGGC TATGGCTATG GGTGGAGCGA TTGGAGGAGG GTTGCCTTTG 
    TTTGCTCAAG CTCTCATGAA CTTTGCTGGT TCAGCTTTTA TGCTTCAAGG ACACATGAAC 
    TACGAGCAAA TGCTACAAGT ATATAATCTT GTGCTATTCA GTCTAACTTT TGGCAGTGGT 
    ATGCTTGATT TTATCCCTAC TATGGCCAAA GCTCGAGCAG CTGCTCGGGA CTTCAACCGC 
    ATATATCAGC TATGCGAATC CACCACGGAA TCAATCGGTT CACTTCGCTT TCCCATCACA 
    GGTCACGTCG AGTTCTCCCA TGTCGAGTTC TCATACCCCT CGAGACCTGA TGTTTCTATT 
    CTCAAAGATG TGTCATTTAC ATTCAAACCC GGAGAATGCG TTGCAGTCGT CGGTCCTTCC 
    GGTTCCGGTA AATCCACTAT CGCAGCTCTT CTGCAAAGAT TATATATGCC GGACGGGGGC 
    GACATTCGCT TGGGGGCTCA TAGTTTGAGG GAAGCGGATG TTGTCTGGCT GCGGAATCAT 
    GTTGCTGTTG TATCCCAATC GGCCAACCTC TTTGACGCCA CTATCGCCGA AAACATCGCC 
    TACGGGTCGT CCAATCTGCC CCTTTCCGAG ATCTACAGGG CCGCCGAAGC TGCCAATATC 
    CATGACTTCA TTCAGAGTTT ACCGCAGGGC TATGAAACCA ACCTCGGAGA AAACGCCAGT 
    TTGATCTCCG GCGGACAAGC TCAAAGATTG CAAATCGCGC GGGCGCTATG TAGAACAAGT 
    AGGATCCTCA TCTTGGACGA ATGTACCAGC GCATTGGATC CCGACAACGC TAGGGCTGTG 
    TTGGACACAA TTGTCAAGAT CAAACAGCAC CGTACAACAA TCTTCATCAC CCATTCAATC 
    GAGGCCATGC AACGCTGCGA TAGAATCATT TGTCTCGGAG AAGGTAGAGT ACAGGAGGTG 
    GGGTCATTTG AAGAGCTGGT CAGGAAGGGA GGCGTATTTG CTCAGCTGAT GAAGACGGGA 
    GAATGGGAGT AA

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

    RefSeq XP_012047331.1
    CDS357..4988
    Translation

    Target ORF information:

    RefSeq Version XM_012191941.1
    Organism Cryptococcus neoformans var. grubii H99
    Definition Cryptococcus neoformans var. grubii H99 ATP-binding cassette, subfamily B (MDR/TAP), member 1 (CNAG_03600), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012191941.1

    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
    ATGGCGGAGG GAGGGGAAGA ACTGTCTGAC TATGATTATG GAAGGAGCCG CCAGAAGACA 
    ATGGCAGGCT ACAAGTTCGC CAGCCTTTCT CCCACTGGCT TAGACGGAGT ACGCGGTCAG 
    CCAGTCGCTT TTGGCCCGAT GCTGGACGAA ATCAAGCCTC CATCACAATG GAGAAGGTCA 
    TTGTACCCAG CAGATGCACC GCCCATTCCA GCTTCAACGT TTGAGCAACA CCTTGACCTC 
    GCCCCTCTTC CAACATCCCC GACAACGTCC CATCGCACCA TCCCGGTTCC TCAACCCATC 
    AAGCCCAGGT TCCGTAGGCT CTTCGTCTTC ACCACCGCCA GGGACTATAT CCTGCTCCTC 
    TGCCCAGCGG TTGTGCTTTC CATTCTCTCC GCACTCATCC AGCCCTACAT GTCCATCGTG 
    ATCGGTAACG CCTTCGCCAT CTTTTCAGCT TACCCCTTGA ATACCTCGCT CGCGACCGAT 
    GCCGACCGTG CTGCCCTTCG CAGTGGTGTC GCCAACACAT CTATACAACT TACAGTCTCC 
    GGCGTGCTCT CCTTGCTCTT TAATTACTTG AAAGGAGTCA TGTGGACGAG ATATGGCGAG 
    ACAGTGGCAG ATAGATTAAG AGACAAGGTT TATCATGGTG TGCAGGATAA GCCTATGGAG 
    TGGTATGATA TGGGCATGGG TATGAGAGAA GAAGGGCAAG GAGAGGGAAA AGAGAATGAC 
    ACTGTAGGTG CTGGTGGCTT GATGTCAAAG TTTAACAGGG AGACCGATGA CGTGAGGATG 
    GCCACTTCCC ACGCCTTTGG ATTAGTGGTA CAGAACACAT TCACTTTCGT CTTATGCTTC 
    ATCCTTGCCG TCATTGAATC TCCGTCTTTG GCCTTTGTTA CCCTCTCCAC CATTCCCCTT 
    GTCGTCCTTA CGCAAGTCGT TACCCAGATC CTTTGCGCCC CTCTGTTGGC TACCGAAAGG 
    CGGGTACTTG CCGAGGCCTC TACCAACGTC GAGCGCGCCA CTGCTGCAAT CTCTACAGTC 
    AAAGTACACA ATGCTCAAGC AGCGGAAGAA AAAAGGTTCA TGCAGTCGGT GAGCAAGAGT 
    AAAAGTAATT TGATCAAACA AGGATTGGTA TGGGGAGTAT CCGCAGGTTT GACAGACTTC 
    TTCTTGCTGG GAACGTTTGT GCTCGGATTC TGGTATGGCG CCAAAATAAT TCGGGAAGGC 
    AAGGCCACAT CAGGAGCCGT CATGACCTGC TTCTGGGCCT GTCTCTTTGC CGCCACGTAC 
    CTCCAGCAGG TTGTCCCCCA GCTTACCATA ATGACAAAAG GCAAAAACTC GATCGCTTCG 
    CTGTTGACAG TCATTCAAGA TGATGCTTCA AGATCCGTGT CTGGCAACAA CCCATTCTCC 
    CCTACAGACT CCCCAATCGA TAGTAGCTTC TCTGCCGCCG TTGGTAAATT GAACCCCAAG 
    CGTGTCTCTC GTCCTCTTAC TCTCGGAGGA GTTCGACCTT GCCGGTGCCA TGGAGAATTC 
    AATTTCAACC ACATCTCGTT TGCCTATCCA TCTCGTCCGG AAAATCCTGT ACTTTGTGAT 
    ATCTCCCTTT TCATTCCACC AGGAGAAACA ACCTTTATCG TGGGCGGCTC TGGCTCTGGC 
    AAGTCTACCA TTGCTCAGCT ACTCCTCCGA CTGTACGACC CCACGTCTGG AGAGATTACA 
    ATGGATAACC AATCTTTCCC CTTCTTGAAC AGTCATTTTA CAAGAGAAAA TATCGCCGCT 
    GTCCAGCAAG GCTGTATTCT TTTCGATATG TCGGTGCATG ACAATGTCGC TATGGGGCTT 
    GGTGGGGCTA GTGCCGATCC CAAGACAGGA GTCAAGAGGG CACCAGAAGA CGTGACACGC 
    GAACAAGTCG TAGAGGCTTG TAAAATGGCA ATGATCCATG ATTTCGTGGT GAGCTTGCCG 
    GACGGTTATG ATACCATCTT GGGAACCGGC GGATCGAGTT TGAGCGGAGG ACAGAGGCAG 
    CGATTGGCGA TTGCGCGGGC GAGAATCAGA GACCCCACCG TCCTCATCCT TGATGAAGCG 
    ACATCGGCTT TGGATGCCAC CTCTAGGGTG CTTGTTTTCA AAAGTCTCAA GGCATGGCGC 
    AACAATCGGA CCACCATCGT CATCACGCAC GACCTTTCAC AGATCGTTTC CGATGACTTT 
    GTCTACGTCA TGAAAAACGG CGTCGTTGCC GAACAAGGAT TTCGGCTTGA TCTCATGAAG 
    AAACCGAATG GCACTTTTGC CCATATGGCG GCGGAACAAG CCATCAACCC TTTGCCGGCC 
    AAGGAGGTCG AGTCTGACGC AGAGTGGCAT GATGGGCTCG ACACAATCCT CAACATGGAG 
    GAAGATTATG AAGAGGTGCT CGACAGCAGG GTCAGATCTC ACACTCCTTC ATTTTCTGCC 
    CTTGGAATGC AAAGGAACAG TGCTGTCTAT CTCGATATCC TGGACGAGTA TTCCAGGAGT 
    CAGCGACTTT CTCAAGTCGA TCGCCGACAG TCTCATACTA GCTTGACACC CCCTCAAAAG 
    CGTCTATCAT GGACTCCTGA GCAGTTGGGC AGCCGTGCGC CTAGCAGACA GAGTATGGCC 
    GTTCCCATCA GTCGCCCTCC GTCTAGCCAA ACGAATCGAC CTGTGAGCAG GTTAAGCGTC 
    ATGGTCGATC CAAATCCAAG GCTAAGTTTG AGGACTATGA TGGCGAAGAC CCCAAGACAA 
    GGTGGGGGAA AGCTTCATCG GGGCTGGATG GAAAAAAATT CACCCTCAAG GATAAGCGCA 
    ATTAGGCAAA GGCAGCAAAG AACCCTCTCT GAGAATCTAG AAGATGATTT GAAAGGCCAG 
    CCTTCCGATG TCAATCTTTC CCATAGCGTT CTTGTTGAAC AAGTCTCCAC ACGCTCAGCT 
    ACTACGCCGG TCCCAGGCTT ATTTTCTCTC TTCAAACTCT ATTTCCCTTC ACTTCCAGCT 
    AAGCCACTTC TCCTGCTTGG CTGTATAGGC TCTATTGGTC ACGGAGCGAC AACTCCCATC 
    TGGTCATTCT TCCTTTCCAA GCTGATGACT ATCGTCGGGG CTGGCGGCGC TGATACCACT 
    TCTCTCACCA AATACGGTCT CATAGTCCTG GGGCTGTGTG CCGCTCAAGG GCTGTCGAAC 
    TGTGTTCAAG AATATTTTCT TGTTGGACTA TCTGCTAGAT GGACCCATAT GGTACGCGGG 
    GTCGCCATGC ATAAGCTCAT CACGCAAGAC AAGGCATTCT TTGATCATTC ATCTAATTCT 
    CCCTCTCGAC TGGTCCAGAC CCTCATAAAA GACGCCGACG ACGCGAGAAC CATTATGAGT 
    CAAGTAATCG GTAGGGCGGT GACCGTGGTG ACCATGATCG GTTTGGGTTT GATTTGGGCA 
    ATGGCTGTGG AGTGGAGATT GACTTTGATA GGCTTGGCCT TGGGTCCAAT TTTCGGCGGT 
    TTCATGGCGG TTAACTCTTG GTTCATTGGT AACGTTGAAC TGGCTTGTAA AGTTGCTAGG 
    GAGGAGGTGG GAAGGGTGTT TTACGAAAGT GTTGCCAACG TCAGGGGGAT CCGAGCGATG 
    GCGCTCGACA CTGCTTTTGA AAAAAGATTT CAGAAGGATG CTAGTAATGC TAAGAAGACG 
    GGTACACGTT CGGCATGGGC TATGGCTATG GGTGGAGCGA TTGGAGGAGG GTTGCCTTTG 
    TTTGCTCAAG CTCTCATGAA CTTTGCTGGT TCAGCTTTTA TGCTTCAAGG ACACATGAAC 
    TACGAGCAAA TGCTACAAGT ATATAATCTT GTGCTATTCA GTCTAACTTT TGGCAGTGGT 
    ATGCTTGATT TTATCCCTAC TATGGCCAAA GCTCGAGCAG CTGCTCGGGA CTTCAACCGC 
    ATATATCAGC TATGCGAATC CACCACGGAA TCAATCGGTT CACTTCGCTT TCCCATCACA 
    GGTCACGTCG AGTTCTCCCA TGTCGAGTTC TCATACCCCT CGAGACCTGA TGTTTCTATT 
    CTCAAAGATG TGTCATTTAC ATTCAAACCC GGAGAATGCG TTGCAGTCGT CGGTCCTTCC 
    GGTTCCGGTA AATCCACTAT CGCAGCTCTT CTGCAAAGAT TATATATGCC GGACGGGGGC 
    GACATTCGCT TGGGGGCTCA TAGTTTGAGG GAAGCGGATG TTGTCTGGCT GCGGAATCAT 
    GTTGCTGTTG TATCCCAATC GGCCAACCTC TTTGACGCCA CTATCGCCGA AAACATCGCC 
    TACGGGTCGT CCAATCTGCC CCTTTCCGAG ATCTACAGGG CCGCCGAAGC TGCCAATATC 
    CATGACTTCA TTCAGAGTTT ACCGCAGGGC TATGAAACCA ACCTCGGAGA AAACGCCAGT 
    TTGATCTCCG GCGGACAAGC TCAAAGATTG CAAATCGCGC GGGCGCTATG TAGAACAAGT 
    AGGATCCTCA TCTTGGACGA ATGTACCAGC GCATTGGATC CCGACAACGC TAGGGCTGTG 
    TTGGACACAA TTGTCAAGAT CAAACAGCAC CGTACAACAA TCTTCATCAC CCATTCAATC 
    GAGGCCATGC AACGCTGCGA TAGAATCATT TGTCTCGGAG AAGGTAGAGT ACAGGAGGTG 
    GGGTCATTTG AAGAGCTGGT CAGGAAGGGA GGCGTATTTG CTCAGCTGAT GAAGACGGGA 
    GAATGGGAGT AA

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

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