ORF » Species Summary » Aspergillus niger CBS 513.88 » ANI_1_280024 cDNA ORF clone

ANI_1_280024 cDNA ORF clone, Aspergillus niger CBS 513.88

The following ANI_1_280024 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ANI_1_280024 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
OAi02016 XM_001399308.2
Latest version!		 Aspergillus niger CBS 513.88 GYF domain protein, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $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)
    ANI_1_280024 ( XM_001399308.2 ) cDNA ORF clone, Aspergillus niger CBS 513.88 -> XP_001399345.2 Aspergillus niger CBS 513.88 GYF domain protein, mRNA.
    Price & Availability↑
    CloneID OAi02016
    Clone ID Related Accession (Same CDS sequence) XM_001399308.2
    Accession Version XM_001399308.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4575bp)
    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 2011-03-02
    Organism Aspergillus niger CBS 513.88
    Product GYF domain 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 (NT_166519). On Jan 6, 2011 this sequence version replaced XM_001399308.1. Derived by automatic computational analysis using gene prediction method: Multi-Genome Gnomon. 

    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
    ATGCCCACGC CACTTCCGTC TAGTTTTGCC TCGGCCGCCG CTGGCAACAC CCACGACTCC 
    TCGAACAGGA GAGGGGATGG TTCTGCCGGT GGAGAATGGT CTCGAACTCG CATGAATGGA 
    GCAACACAGA CTTTCCGCCG TCCGTCCGTT GCGACAAACC CTTCTCATAA CCGGGATGCC 
    AGCCAACCCA CGTCGGCTAC CACTCCCACC GTGGGCACCT ACACTCCTCC GCATATGTCC 
    TCGACCTACC AGTCCAGTGC ACTCCGCAAC GGAGCAGCTA CCGACACGCG TTATTCAAAG 
    GATCAGCTAC TTAGTCTCTA CAAAACCCAA CGAGAGTCGG GCGTACTGGG GAAGAACGTT 
    GCAGATTACT TCGTAGCTGA CTGGAATCCC CACGAGACGT CACCCGTCAA CGGCGCCTGG 
    GGGAAACGGG AAGACTCGAA GGATAACCCC TCCGGCCCGG AAGTGTGCTG GGATCATGGG 
    GGCCAGGTCG AGCCGTTGGG CCTGGTAGAT ATGACGGATG ATGAGAAAGA GTTATTTACT 
    CTCTCCGTCA ACTCCCCCCT TAAGCCGCCA CCGACGAACG CTTCGAAAGA GAACGCTGGC 
    ACCGGTACTG GTGGACGCAA GCTGTCTATC TCCCAAGGCC ATATGAATAA TTTCAACACC 
    GCATCTCCCA GTGCTGGGCG CCCCGGCCCC AGACGCCGGG AGACGGGCGA CTCGACCGGA 
    AATCCCATGT CTCCCACCAC CAGCGGCTCT CGCTTTTTCC GTGACGAACC GAACACCTCC 
    ACCCCGCCCC CATCCCTTTT GCGCCGCAAG ACCGATTTCC GAGATACCTC TTCCGCCGCC 
    CGATGGGAGG AGAAAGAGAA AGAAAACGTG GCTCGAGACG CAAACGCCGA AACTGCCTCT 
    CCTTTCGGTT CTTTGAAGCG GAGTTCGACC AATCCTTTGA GCGCGGCACC GGGCGCCTCG 
    AATTCTCCTT GGGGATCTGC GTCGCAAAGT GCCAACTTCT CACCCATGGG AGCGTTTGGT 
    GCATTTTCTC TGGGCACGGC TACTACCCCG ACAACCGAAA AGAAGGCCGG GTTCGGTAGT 
    CTCCGCGGAG AGAGCCGTTT GAAGGGGCTG TTTTCGAAGG ATAGCTCTGA GGACATTTCG 
    GCCTCTATCA AGGAGAAGTC GTCCCTTAGT AGCTTGGAAC GCCTGGGCGA GACGGAGGGC 
    GAGAAGCGCG CTCAGTCGCC TTGGGGAGAG CCCGTGAAGA CGCGTACTGG CCGCAGCGAG 
    ACGAACCCCT TCTCGGAGGA GCCTCGCAGT GGAAGTGCCG CGCTTGGCGG GTCTCAGGAA 
    ATCAGCACTC CCTCTCAGCC TGCGGACCAG CTTGGGTTCT CGGCTTTCGG CATGACCTCT 
    AGCATCCCTG GATTCAGGGA ATTGATGCAG AGCCATGAGA ACTCTCGTAA CCCTACTCCG 
    AGTCTGTTGC AGGGACATGA ACCCACCAGC CCGACCAACA CGAACCCATA TCAGAGCCCT 
    CACGGCGACC GGGGTGGTGG CGACGATGAC GTGGAGACTG ATGGCTCCGA CATTCAGAAC 
    TCCACGCATC CCGGCATCAC TGGTCTTCGT GATACCTCGT CCGCGTTTGG TTCTATCCGA 
    CGGGTAGGAT CGGGCATCGA CTTGCCTTCA ATCGATCGCA GCCAGACGTC TAGTGCCGCC 
    GGCAACCGCA GCTTCTCCAG CCTGGGTGGG CTGGGAGGTC TGTCGTCGCT GGGTGGTGCG 
    GCAGGATGGC CTACCAGCGC TGCTGTGGGT ACTCCTACGC GGGAACGTTC GGCCTTTGCT 
    GGTGGATTTG GTGATCCCAT CTTCGGCACG ATGGGTGATT TGCAGTCCCC AAGCCTGTCG 
    ACCCTGGGCG GCAGCGGTTT GTTCAGCCCC CATGCCGGCA TTTCTGGCAC GGGCAGTCTG 
    GGCCGCTCCA GCAAGTTGGG TTCTCTGTTC CCGGCCGCGA TGCAGGAGCA AATGCAAGGT 
    GAGCAGGGAC GGTCGGATCT GGCCGCTCTG GACGAGGCCG CTCGCCAACC TGACGCCCAA 
    CAGGATAAGC CGGGCCAGAC GAGCCAACCC GCAACTACCT CGGCTTCGCA AACCCCCGTG 
    TCTGCGGTGG GCTCCATTCC TACGTCGATG GCACCCGATG CACCCCCAAC CAGCCAGACG 
    CCTGGCCAAG CTGGAGCTCC TGGCTCTGTG CCTCCTGCCC AACAGCGGAC CATGGTGATG 
    CCGGATCGGA TGCGTTGGAT CTACCGCGAC CCGCAAGGCA ACATCCAGGG TCCCTGGACT 
    GGACTGGAGA TGCACGACTG GTTCAAGGCA GGTTTCTTCA GTCCCGACCT GCAGATCAAG 
    AAACTCGAGG ACCCCGAATT TGAACCCCTT GCCCAGCTGG TGCGACGCAT CGGCAACTCG 
    CGCGAACCCT TCCTGGTGCC TCAGATCGGC ATTCCCCACG GTCCCGACCC CAGCCCTGGT 
    CCCTGGACTG GGAACACTAC CGGCACGGCT CAGCCTCCGT TCCCCGGCAG CTTCCCCAGC 
    TTTGGTACCA CCTTGACCGC TGAACAGCAG AATGCGTTGG AACGTCGGAA GCAGGAGGAG 
    CAGTATTTGA TGGCACGTCA GAAGGAACAC CTCGCTCAGC AGCAAGCGCT GATGAAGCAA 
    ATGCAGTTCC AGGGTGTCCC CCACACGATG CACCCGCACC AGCTGCAGCA TCACTCCAGT 
    GCCCACAGCC TCCACAGCCA GCCCAGTTTT GGCAGCATCG CCTCGCCAGT CGGCTTCCAG 
    CCCTCTCCCA TCCAAGCCCC GATGCAGCAA CCCCAGTCTG TTGCGGGCTT TTTCGATGCC 
    GCAGGACCGG TGAGAGCAAA CCCACTGCCC AACATTGGTC CCCAGATGCT CGGCACTGAA 
    CTGGGCACTC CCCAGGATCA GCTTCCCGCC CTCCTCGACC GCTTGAACGT GAACCGTCCG 
    GATCCTTTCG CATTCGGCAC CCCCGGCTCT TTTGCGGCTC GTCAGCCTGA TAGTCTGTTT 
    CATCAGCAGC AGGTTGCCAG CATGCTCCAG GACCGTGCTC GTTTGCAACA GGAACAAGAA 
    CAGTTTGACA GCGCCCAGGG TGACAACCTC TTCGACCAGC AGGCACGGGA AGAGCGCCTC 
    CGCCAATTCC ACGCTCTGAG AGCTCAGGAG GGTGAGTTGG GCCTCCGGAC TGCCGAGGGT 
    CTGCCCACGC ACCCGGCCAC AGTTCCCCAG CCGACTGAGC CCGAGGAAGT CGAGCCGGTG 
    GCTGAGGCTG AGGAGCCTGC CCTGACGTTG TCGCAGCAGG TGCAAAAGGC CGCGTCTGCT 
    CAGCGCAAGC AGCAGGAACA GTTGGAGCAA CAAGAACAGC TTGAGCGCGA GCAGCAGGAG 
    CAGCAAACTT CCGATGTCGG TGAGGCCGCC TGGACTGCCA AGGGAGACAG TGCCATGCCC 
    CAGCCCTTCC CTCCGCCGCC CTCTGCCTCG CCGCTCCCGG CCCCGGCTGC TCAGCGCAAC 
    CGTCAGAATG TTGCTGAGTC TCTGGCTGCC AACTCGCGTT CCCAGACCCA GACTCCCGTA 
    GAGGCGCCGA CCACTTCGAT CGCGCCTTGG GCAAAGGAAG CCAATGAGGT GCCGAAGGGT 
    CCTTCTCTGA AGGAGATCCA GGAGGCCGAG GCCCGCAGCG CTGCGCAAAA GGAAGAGTTG 
    GCGGCTGCTG CACGCCGTGC CCAGCTGCTG GCCGAGCAGG AGCGTCTCAG CCAAGTCCAG 
    GCCCAGGCAC CTGGCCTCCC GTCGACGGCT AACTGGGCCA GCGCTGGTTC TCCCGCTACA 
    CCTACATCTT CAGGCTCAGT TTGGAACAAC AAGGGTCAGG CTGCTCCCTC TGGCGCCGCT 
    AAGAAGACTC TTGCACAGAT TCAGAAGGAA GAGGAGGCCC GTAAGCAGCG TCTGGCCGCT 
    GCCGCCGCTG CTGCTCAGAG TGCGGCTGCC AGCCCCCCGA CCGCCCCCTC TTCGACTGGA 
    AAGCGGTATG CGGATCTTGC CAGCAAGGCT CCAGCGGCGT CTCCGGTCCC TGCTAGCGCC 
    AGCACGTCGG GTGCCTGGAC GACTGTCGGA GCGGGCGGCA AGCCCAAGCC CCCGCCGGCT 
    GCTCCCGCCG GGCCTCGCTC GACCACCAGC GCAACTCCGG TGGCAGTTTC TCCCGTGAAG 
    CCGAAGCCGG CGACTGTCGC GACTCCCCGG GCGGTTGCTG TCGCTACGCC TCCGGCCAAC 
    CCTAACCGCG CCGTGGAGGA GTTCACCAAG TGGGCCAAGC TTGCTTTGGG CAAGGGGCTG 
    AACAGCAACA TCAATGTGGA CGACTTTGTA CAGCAGCTGC TTTTCCTGCC TGCGGAGGCG 
    GAGATCATCT CGGACTCGGT GTACGCCAAC TCGCAGACGC TGGACGGCCG GCGATTCGCG 
    GAGGAGTTCA TCCGCCGGCG TAAGCTTGCC GACAAGGGCA TCGTGGACCC CGTGGCGGCG 
    AGTGCTTTTG CAGAGAAGAA CGCGGGCGGA TGGAGTGAAG TGGCCAAGAA GGGATCTTCG 
    AACGCGCATC GTGAGGAGGA CAACGGAAAC GCAGCGTTCA AGGTGGTTGC GCCCCGCAAG 
    AAGGGCAAGC GGTAG

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

    RefSeq XP_001399345.2
    CDS1..4575
    Translation

    Target ORF information:

    RefSeq Version XM_001399308.2
    Organism Aspergillus niger CBS 513.88
    Definition Aspergillus niger CBS 513.88 GYF domain protein, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_001399308.2

    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
    ATGCCCACGC CACTTCCGTC TAGTTTTGCC TCGGCCGCCG CTGGCAACAC CCACGACTCC 
    TCGAACAGGA GAGGGGATGG TTCTGCCGGT GGAGAATGGT CTCGAACTCG CATGAATGGA 
    GCAACACAGA CTTTCCGCCG TCCGTCCGTT GCGACAAACC CTTCTCATAA CCGGGATGCC 
    AGCCAACCCA CGTCGGCTAC CACTCCCACC GTGGGCACCT ACACTCCTCC GCATATGTCC 
    TCGACCTACC AGTCCAGTGC ACTCCGCAAC GGAGCAGCTA CCGACACGCG TTATTCAAAG 
    GATCAGCTAC TTAGTCTCTA CAAAACCCAA CGAGAGTCGG GCGTACTGGG GAAGAACGTT 
    GCAGATTACT TCGTAGCTGA CTGGAATCCC CACGAGACGT CACCCGTCAA CGGCGCCTGG 
    GGGAAACGGG AAGACTCGAA GGATAACCCC TCCGGCCCGG AAGTGTGCTG GGATCATGGG 
    GGCCAGGTCG AGCCGTTGGG CCTGGTAGAT ATGACGGATG ATGAGAAAGA GTTATTTACT 
    CTCTCCGTCA ACTCCCCCCT TAAGCCGCCA CCGACGAACG CTTCGAAAGA GAACGCTGGC 
    ACCGGTACTG GTGGACGCAA GCTGTCTATC TCCCAAGGCC ATATGAATAA TTTCAACACC 
    GCATCTCCCA GTGCTGGGCG CCCCGGCCCC AGACGCCGGG AGACGGGCGA CTCGACCGGA 
    AATCCCATGT CTCCCACCAC CAGCGGCTCT CGCTTTTTCC GTGACGAACC GAACACCTCC 
    ACCCCGCCCC CATCCCTTTT GCGCCGCAAG ACCGATTTCC GAGATACCTC TTCCGCCGCC 
    CGATGGGAGG AGAAAGAGAA AGAAAACGTG GCTCGAGACG CAAACGCCGA AACTGCCTCT 
    CCTTTCGGTT CTTTGAAGCG GAGTTCGACC AATCCTTTGA GCGCGGCACC GGGCGCCTCG 
    AATTCTCCTT GGGGATCTGC GTCGCAAAGT GCCAACTTCT CACCCATGGG AGCGTTTGGT 
    GCATTTTCTC TGGGCACGGC TACTACCCCG ACAACCGAAA AGAAGGCCGG GTTCGGTAGT 
    CTCCGCGGAG AGAGCCGTTT GAAGGGGCTG TTTTCGAAGG ATAGCTCTGA GGACATTTCG 
    GCCTCTATCA AGGAGAAGTC GTCCCTTAGT AGCTTGGAAC GCCTGGGCGA GACGGAGGGC 
    GAGAAGCGCG CTCAGTCGCC TTGGGGAGAG CCCGTGAAGA CGCGTACTGG CCGCAGCGAG 
    ACGAACCCCT TCTCGGAGGA GCCTCGCAGT GGAAGTGCCG CGCTTGGCGG GTCTCAGGAA 
    ATCAGCACTC CCTCTCAGCC TGCGGACCAG CTTGGGTTCT CGGCTTTCGG CATGACCTCT 
    AGCATCCCTG GATTCAGGGA ATTGATGCAG AGCCATGAGA ACTCTCGTAA CCCTACTCCG 
    AGTCTGTTGC AGGGACATGA ACCCACCAGC CCGACCAACA CGAACCCATA TCAGAGCCCT 
    CACGGCGACC GGGGTGGTGG CGACGATGAC GTGGAGACTG ATGGCTCCGA CATTCAGAAC 
    TCCACGCATC CCGGCATCAC TGGTCTTCGT GATACCTCGT CCGCGTTTGG TTCTATCCGA 
    CGGGTAGGAT CGGGCATCGA CTTGCCTTCA ATCGATCGCA GCCAGACGTC TAGTGCCGCC 
    GGCAACCGCA GCTTCTCCAG CCTGGGTGGG CTGGGAGGTC TGTCGTCGCT GGGTGGTGCG 
    GCAGGATGGC CTACCAGCGC TGCTGTGGGT ACTCCTACGC GGGAACGTTC GGCCTTTGCT 
    GGTGGATTTG GTGATCCCAT CTTCGGCACG ATGGGTGATT TGCAGTCCCC AAGCCTGTCG 
    ACCCTGGGCG GCAGCGGTTT GTTCAGCCCC CATGCCGGCA TTTCTGGCAC GGGCAGTCTG 
    GGCCGCTCCA GCAAGTTGGG TTCTCTGTTC CCGGCCGCGA TGCAGGAGCA AATGCAAGGT 
    GAGCAGGGAC GGTCGGATCT GGCCGCTCTG GACGAGGCCG CTCGCCAACC TGACGCCCAA 
    CAGGATAAGC CGGGCCAGAC GAGCCAACCC GCAACTACCT CGGCTTCGCA AACCCCCGTG 
    TCTGCGGTGG GCTCCATTCC TACGTCGATG GCACCCGATG CACCCCCAAC CAGCCAGACG 
    CCTGGCCAAG CTGGAGCTCC TGGCTCTGTG CCTCCTGCCC AACAGCGGAC CATGGTGATG 
    CCGGATCGGA TGCGTTGGAT CTACCGCGAC CCGCAAGGCA ACATCCAGGG TCCCTGGACT 
    GGACTGGAGA TGCACGACTG GTTCAAGGCA GGTTTCTTCA GTCCCGACCT GCAGATCAAG 
    AAACTCGAGG ACCCCGAATT TGAACCCCTT GCCCAGCTGG TGCGACGCAT CGGCAACTCG 
    CGCGAACCCT TCCTGGTGCC TCAGATCGGC ATTCCCCACG GTCCCGACCC CAGCCCTGGT 
    CCCTGGACTG GGAACACTAC CGGCACGGCT CAGCCTCCGT TCCCCGGCAG CTTCCCCAGC 
    TTTGGTACCA CCTTGACCGC TGAACAGCAG AATGCGTTGG AACGTCGGAA GCAGGAGGAG 
    CAGTATTTGA TGGCACGTCA GAAGGAACAC CTCGCTCAGC AGCAAGCGCT GATGAAGCAA 
    ATGCAGTTCC AGGGTGTCCC CCACACGATG CACCCGCACC AGCTGCAGCA TCACTCCAGT 
    GCCCACAGCC TCCACAGCCA GCCCAGTTTT GGCAGCATCG CCTCGCCAGT CGGCTTCCAG 
    CCCTCTCCCA TCCAAGCCCC GATGCAGCAA CCCCAGTCTG TTGCGGGCTT TTTCGATGCC 
    GCAGGACCGG TGAGAGCAAA CCCACTGCCC AACATTGGTC CCCAGATGCT CGGCACTGAA 
    CTGGGCACTC CCCAGGATCA GCTTCCCGCC CTCCTCGACC GCTTGAACGT GAACCGTCCG 
    GATCCTTTCG CATTCGGCAC CCCCGGCTCT TTTGCGGCTC GTCAGCCTGA TAGTCTGTTT 
    CATCAGCAGC AGGTTGCCAG CATGCTCCAG GACCGTGCTC GTTTGCAACA GGAACAAGAA 
    CAGTTTGACA GCGCCCAGGG TGACAACCTC TTCGACCAGC AGGCACGGGA AGAGCGCCTC 
    CGCCAATTCC ACGCTCTGAG AGCTCAGGAG GGTGAGTTGG GCCTCCGGAC TGCCGAGGGT 
    CTGCCCACGC ACCCGGCCAC AGTTCCCCAG CCGACTGAGC CCGAGGAAGT CGAGCCGGTG 
    GCTGAGGCTG AGGAGCCTGC CCTGACGTTG TCGCAGCAGG TGCAAAAGGC CGCGTCTGCT 
    CAGCGCAAGC AGCAGGAACA GTTGGAGCAA CAAGAACAGC TTGAGCGCGA GCAGCAGGAG 
    CAGCAAACTT CCGATGTCGG TGAGGCCGCC TGGACTGCCA AGGGAGACAG TGCCATGCCC 
    CAGCCCTTCC CTCCGCCGCC CTCTGCCTCG CCGCTCCCGG CCCCGGCTGC TCAGCGCAAC 
    CGTCAGAATG TTGCTGAGTC TCTGGCTGCC AACTCGCGTT CCCAGACCCA GACTCCCGTA 
    GAGGCGCCGA CCACTTCGAT CGCGCCTTGG GCAAAGGAAG CCAATGAGGT GCCGAAGGGT 
    CCTTCTCTGA AGGAGATCCA GGAGGCCGAG GCCCGCAGCG CTGCGCAAAA GGAAGAGTTG 
    GCGGCTGCTG CACGCCGTGC CCAGCTGCTG GCCGAGCAGG AGCGTCTCAG CCAAGTCCAG 
    GCCCAGGCAC CTGGCCTCCC GTCGACGGCT AACTGGGCCA GCGCTGGTTC TCCCGCTACA 
    CCTACATCTT CAGGCTCAGT TTGGAACAAC AAGGGTCAGG CTGCTCCCTC TGGCGCCGCT 
    AAGAAGACTC TTGCACAGAT TCAGAAGGAA GAGGAGGCCC GTAAGCAGCG TCTGGCCGCT 
    GCCGCCGCTG CTGCTCAGAG TGCGGCTGCC AGCCCCCCGA CCGCCCCCTC TTCGACTGGA 
    AAGCGGTATG CGGATCTTGC CAGCAAGGCT CCAGCGGCGT CTCCGGTCCC TGCTAGCGCC 
    AGCACGTCGG GTGCCTGGAC GACTGTCGGA GCGGGCGGCA AGCCCAAGCC CCCGCCGGCT 
    GCTCCCGCCG GGCCTCGCTC GACCACCAGC GCAACTCCGG TGGCAGTTTC TCCCGTGAAG 
    CCGAAGCCGG CGACTGTCGC GACTCCCCGG GCGGTTGCTG TCGCTACGCC TCCGGCCAAC 
    CCTAACCGCG CCGTGGAGGA GTTCACCAAG TGGGCCAAGC TTGCTTTGGG CAAGGGGCTG 
    AACAGCAACA TCAATGTGGA CGACTTTGTA CAGCAGCTGC TTTTCCTGCC TGCGGAGGCG 
    GAGATCATCT CGGACTCGGT GTACGCCAAC TCGCAGACGC TGGACGGCCG GCGATTCGCG 
    GAGGAGTTCA TCCGCCGGCG TAAGCTTGCC GACAAGGGCA TCGTGGACCC CGTGGCGGCG 
    AGTGCTTTTG CAGAGAAGAA CGCGGGCGGA TGGAGTGAAG TGGCCAAGAA GGGATCTTCG 
    AACGCGCATC GTGAGGAGGA CAACGGAAAC GCAGCGTTCA AGGTGGTTGC GCCCCGCAAG 
    AAGGGCAAGC GGTAG

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

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