MGG_02491 cDNA ORF clone, Pyricularia oryzae 70-15

The following MGG_02491 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the MGG_02491 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
OMe05762 XM_003709240.1
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Pyricularia oryzae 70-15 DNA replication ATP-dependent helicase dna2 (MGG_02491), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $1021.30
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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)
    CloneID OMe05762
    Clone ID Related Accession (Same CDS sequence) XM_003709240.1
    Accession Version XM_003709240.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5070bp)
    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 2019-11-28
    Organism Pyricularia oryzae 70-15
    Product DNA replication ATP-dependent helicase dna2
    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_017844).

    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
    ATGCCTCTCC AAAAATCGTA CTCTGAGCAA AGAACATCGT TTAATAATCG CAAACAAACG 
    TGGCAACGCT CCAAAAGTCA CTCTGCCGTT CCACAACAAC CTCCGAAGCC ACTCCCTCGC
    GTGTCTGAAG TCACCAAGGA CAAGTTAACA AAGTTTCGGT TCCAAGAACA CCCTGGAGAT
    GCTCCCCAGC CCGCCGAGGC CACGGCGACT ACCAAGGGCG CAGAAGCCCC TGCCAGACAG
    AGTTCCCGAA ATGCGTCCAC CGTCATAACC ATTGACAGTG ATTCCGACAG GGAGGACGGT
    GCACCTAAAG CTGCAGAAAC GACGAATCCG CTAGCACTTC CTTCGTACCC ACCAGATACC
    GTAACGACTC CGGTGGCCAG GTTGGCATGG CAGGATCTGA TCCAGATGGG GGAGGGTGCC
    AGCGCCAGGG AAAACCAGCG AGAGGTCTCG CCCAGCGACA GGATTCTCTG GGACAAACCA
    ATCGACCCCG AAGACACATT TATAACTCCA GCTCATCCAG GGAGAGGGAG GAAAAGAGCC
    CGGAGCTCTT CGCCTGTATC TTCACCGGCT CATGCCAGGT TCGATAGCCC TGTTGTCGAC
    GTCAAGCAGC TCACTAATGC GTTAAAGTCG CCCCATGCGG ATCCTGCATT CGATCTCTGG
    GACAGATTTT CAGTATGCAG TGCCGTCAAG AAGACCACAC CCAATGCCGC GAATCCTGCG
    CTCGCGCATT TGATAGTCTC CTCGTCGCCT CGTCCCATCA AAGGTGGGGC GGGCTTGCAG
    ACCGAAAGCA GTCTGCGGAG GGCGATAAGC TGTGGAAACG GCGTCAACTG GCCAAAGCGA
    CGGAAAGTTC ATACTTCAAG TATTGAGTCT CCAACTAGCA AGCTTAAAAG CGGCCGTCGA
    CCGGACTCGA AGCTGTCCAT GGTGTCAGCT TTGCTAGAGA CAGTGACTGG CGAAATCGAA
    AAGTCGAACG CAAGTCAGGA TTACGAGACC ATGCCGCAGT CTCCCTCTCC TAGCAAACCT
    CGTGGGTCTC CACGAAGATC ACGAACACAA GGTCCCGAGT CTCCCATGAC AAGGTCACCA
    ATAAGCTCAG GCCTTGCCGA TTCGAAAGAC CGAAATTCTC ACAAGCCGGC TGATAGTACG
    TCAGATTATG GCGACGATGA CTTTGACGAC GATACTCTAA TGGAGCTCGA TGCTACGTTA
    GTCGCACCCG AAACTCCAAA TGACCCGAAC CCGGTTCTGG CGCAGCCCAT TCAGCCCCCT
    GAAAAAGGGA AACAAACGCT TATTGAGGTT GACGATGAGT TTGATGACAT GGACGATGAC
    TTGTTCGAGG CAGCGGAGGG GCTTTTAACC CAGCTAGAGT CCAGATCAAC ATCGCAGCAC
    CAAGTTCAAC ACCAATATAA CGAAGCTGCG TCATTACCGC AACAGTCCGA CCCGGAAGCA
    AAGCAACACA GTGCCGGTGT TCAGTTCGGG GATACTGGCT CTGATGACGT TTTCGGTGAT
    GATTTTGGGG GCGATTTTGA TTTTGAAGCA GCCGAGTTGG CAGCTACGCA GTCGGCCCAA
    CAAGGGGCGG CACATAACCA AACCACACGG TCTACGAGGG CTTCTGCTTC TGCTTGTGCT
    TCTGCTTTGA CACATCCCAG CCCAAAAGCC CGAGTTATTC AAAGATACAA GGTCACCCGT
    GTGGATGATG CCGTGTACAC CACCGACACA GGACGAGGCT GTCCGGAAAA GATCCTCCTC
    TTGGTGGAGG ACACCACCAA AGCGAATGTT ACAGTTCATC TTCGTGGAGA CTGGATCGAA
    ACTCCTGTCA GCACCAAGGC ATTTGTTCAC ATTATAGGCG ATTTTGAGCA TTCAGGGAGA
    TGCATCATCG ATAATTCACA GAACATGCTC ATCTTGCATC CGGACCAGCT CATATCATCT
    ACCGTTGTTG CAGACTCATT CAGCTGCACT CGGCGCGCTG TCTTGCAGGA TCGGGTCAAG
    GCCACCAGTG AAGCCTCGCC CCCTCTCGTT TACGGCACGA TGCTCCATGA GATCTTTCAA
    GAAGCACTCA TGGCCAACAA GTGGAGTTCT GAATTTCTGA CTGCGTTGGT GGACAAGAAT
    ATCGGTCGTC ACATAGAAGA CCTTTACACA ATCAAGGTTA GCCTTGGAGA GGCTCGCGAG
    CATTTGTTAT CCAAGATGCG GGAGATGAGG TCATGGGCCG AAGCCTTTGT TTCGAACTTT
    CCAAAGTCCG ATGCGATTGT TCACGGCCGC AACGGCGAGA AGGCAAACAT GTGTGTGAGC
    AAACTCCTGG ACGTAGAGGA GCATGTCTGG TCACCTATGT ACGGTTTGAA GGGCAACATT
    GATGCCACTG TGCAAGTTAC CATGAAGGAC GGCAACAACC GCCGCAATCT GACGGTTCCT
    TTCGAAGTCA AGACTGGTAA AAACGTAAAC AGCAACCACC AGGCTCAGAC GGCATTGTAC
    AACTTGCTAC TATCCGACCG ATACGATATC GAGATAGCCT ACGGAATCCT TTACTACATG
    GAGACTTCGC AGACCATCAG GATACCGGCA GTTCGCCACG AGCTCCGGCA CATGGTTATG
    CAGCGCAACA CGTTGGCATG TTATATCCGC GAGAGAAGCG TCCAGCTTCC GCCGATGAAA
    AAAGCCAAGA ATGCTTGTGG TAGATGCTAT GCGCAAACTT CGTGCTTCAT CTACCACAAG
    CTTGCTGACG ATGGAGATGG CGAAACAAGC GGGATGCAGG GGAAGTTTGA CGAAGTTGTC
    CAACACCTGA CGCCGACGCA CAAAGAGTTC TTTCTGAAGT GGGAGGATCT CCTTACCAAG
    GAAGAGAAGG AAAGTCAAAA GCTCCGTCGG GAGCTCTGGA CGATGCTCAG TACAGAGCGT
    GAGAAGGTCG GCCGGTGCTT CTCGAACGTC GTCCTCGAGG AAGGATCAGC AGTCGAAGAC
    AAAAACAGCC CCAAGATCAA CCGGTTTCAG TACACCTTTC TCAAGGATGA TGTCACGAGC
    AACTTCTCTT TCATGGAGTC GCAACTTGCT GTGGGTGAGC CTATCGTCGT TTCAGATGAG
    AATGGCCACT TTGCACTGGC TCTTGGTTTC GTGGTGGCAG TCACAAAACG GAGGATTACC
    GTCGCCGTGG ACAGAAGACT TCACAATGCC AGGATCCGCC AACCGGGCTT TGACGAGGTC
    AACAACCAGG TCTTCGCTAG TATCATGGAA GTTGGGCCTG ATCGGGTCGG GACCCAACCG
    CCTCTCGGAA CCAAAGAGCC TCGAATCCGG TATCGTTTGG ACAAGGATGA GTTCAGCAAC
    GGCATGGCTA CAGTACGGAA CAACCTTGTT CAAGTCATGG CGAATGGTCC TTCGGGTTCT
    CTTGATCTTC GACGGCTTGT TGTTGACCTG GAGCCTCCAA CCTTCAAGAC CGTGGCAACT
    CAGTACGAAA TCTCGGACGG CGAGAGTCTG AACGTGGACC AAAAGAAGGC CGTCGAGAAG
    GTCATGAGCG CCAAAGACTA CGCCTTGGTG CTTGGAATGC CGGGAACTGG AAAGACCACT
    ACCATCGCTC ATATAATTCG CGCTTTGATT CGTCAGGGCA AGAGCGTCTT GCTCACATCC
    TATACTCACA GTGCCGTCGA CAACATCCTC TTGAAGTTGA AAGGCGATAG CATTCCGGTA
    TTGAGACTTG GTGCTCCTGC CAAGGTACAC CCTGAAGTTC AGGAGTTTGC CACCCTGGCA
    GCGCAGCCGA TGAACTCTTT TGAGGAAATC AGGACTGCAT GGCACGATTT ACCAGTGGTT
    GCTACAACAT GCCTGGGCAT CAGTCACCCT TTATTCAACG AGCGCACTTT TGATTACTGC
    ATCGTGGATG AAGCCTCGCA GATTACGCTG CCCATTTGCC TGGGCCCGAT CAGAATGGCA
    CGTACGTTTG TTTTGGTTGG CGACCATAAC CAGTTGCCGC CCCTTGTGCA AAACGAAGAG
    GCCCGGAAGG GCGGACTCGA TGTCAGCCTT TTCAAGCTGC TTTCCGACAC TCATCCCGAC
    TCGGTCGTCA ATCTCGAACA CCAATATCGC ATGTGCGAAG ATGTCATGGC GTTAAGCAAC
    GAACTCATCT ACGAGGGTCA CCTCAAGTGC GGCACAGAGG AATTACGCCT CCGCAAGCTC
    GACATACCAT TCCCAGAGGC TCTGTCAAGG CATCACTACG ACGCATCATC ATTCATGTCT
    CTGAGCAGAT CGCAACCCGT GTTTTCTTTG CCAAAGTCGT TCTGCACAGA TGGCAATTCT
    TGTTGGCTGC GTCATTTGGT TGATCCCGAT ACTCGGGTTG CCTTCGTCAA CACAGACGCG
    TTACCCGACA GCCGCGAGGA GGCAAAGGGC AACAGGATCG TCAATCCTGT AGAAGCGCAG
    CTTGTGGTGC AGCTTGTTGA GTCGCTAATG ACACTTGGTG TTCCAGCAAA CGAGATTGGC
    GTCATGACGC ACTACCGCTC GCAGCTTGCT CTCTTGAAAC ACAAGCTCCT GAGAGGCAAG
    AACACGGGTG ATGCCACTGC CGTGGAGATG CACACGGCTG ACCGCTTCCA GGGTCGTGAC
    AAGGAGGTTG TGGTGTTGAG CCTGGTGCGC AGCAACGAGG CGTGCCACAT CGGAGACCTC
    TTGCGTGACT GGCGACGCAT CAATGTCGCC TTTACGCGCG CAAAGACCAA GCTTCTTGTG
    ATTGGCAGCC GTGAGACTCT TCGCGGATGT GGAGCCGACG AGATGCTATC CAAGTTTGTG
    AGACTGATGG AAGACCGCAA CTGGGTTTGC GATCTCCCTG CAGACGCCCT GGAGTCGCAC
    TTGTTCGAGG ACGGTGGGAT TGCGGCAACA GGAACAACGA TTGCACCGAC ACAGGCATCT
    CCCCGAAGAA AGCCCCCAAA TAAGACGGCC GGCGCAAATG CTTTGCCAAA GCTATCATCG
    GCTGGTGTGT CAAAGGCCGG TGGGAAGGAG AATGTCCCGC CTGGTAGACG GCAGCCGACC
    AAGCAAGCTA AGATTGGCGC GAAGATGCTT ACGAAGGGTA AGCCTATTCT TCGGGATATC
    CTGAACGATA TGTCTGGCGG CGGATTTTGA

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

    RefSeq XP_003709288.1
    CDS192..5261
    Translation

    Target ORF information:

    RefSeq Version XM_003709240.1
    Organism Pyricularia oryzae 70-15
    Definition Pyricularia oryzae 70-15 DNA replication ATP-dependent helicase dna2 (MGG_02491), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_003709240.1

    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
    ATGCCTCTCC AAAAATCGTA CTCTGAGCAA AGAACATCGT TTAATAATCG CAAACAAACG 
    TGGCAACGCT CCAAAAGTCA CTCTGCCGTT CCACAACAAC CTCCGAAGCC ACTCCCTCGC
    GTGTCTGAAG TCACCAAGGA CAAGTTAACA AAGTTTCGGT TCCAAGAACA CCCTGGAGAT
    GCTCCCCAGC CCGCCGAGGC CACGGCGACT ACCAAGGGCG CAGAAGCCCC TGCCAGACAG
    AGTTCCCGAA ATGCGTCCAC CGTCATAACC ATTGACAGTG ATTCCGACAG GGAGGACGGT
    GCACCTAAAG CTGCAGAAAC GACGAATCCG CTAGCACTTC CTTCGTACCC ACCAGATACC
    GTAACGACTC CGGTGGCCAG GTTGGCATGG CAGGATCTGA TCCAGATGGG GGAGGGTGCC
    AGCGCCAGGG AAAACCAGCG AGAGGTCTCG CCCAGCGACA GGATTCTCTG GGACAAACCA
    ATCGACCCCG AAGACACATT TATAACTCCA GCTCATCCAG GGAGAGGGAG GAAAAGAGCC
    CGGAGCTCTT CGCCTGTATC TTCACCGGCT CATGCCAGGT TCGATAGCCC TGTTGTCGAC
    GTCAAGCAGC TCACTAATGC GTTAAAGTCG CCCCATGCGG ATCCTGCATT CGATCTCTGG
    GACAGATTTT CAGTATGCAG TGCCGTCAAG AAGACCACAC CCAATGCCGC GAATCCTGCG
    CTCGCGCATT TGATAGTCTC CTCGTCGCCT CGTCCCATCA AAGGTGGGGC GGGCTTGCAG
    ACCGAAAGCA GTCTGCGGAG GGCGATAAGC TGTGGAAACG GCGTCAACTG GCCAAAGCGA
    CGGAAAGTTC ATACTTCAAG TATTGAGTCT CCAACTAGCA AGCTTAAAAG CGGCCGTCGA
    CCGGACTCGA AGCTGTCCAT GGTGTCAGCT TTGCTAGAGA CAGTGACTGG CGAAATCGAA
    AAGTCGAACG CAAGTCAGGA TTACGAGACC ATGCCGCAGT CTCCCTCTCC TAGCAAACCT
    CGTGGGTCTC CACGAAGATC ACGAACACAA GGTCCCGAGT CTCCCATGAC AAGGTCACCA
    ATAAGCTCAG GCCTTGCCGA TTCGAAAGAC CGAAATTCTC ACAAGCCGGC TGATAGTACG
    TCAGATTATG GCGACGATGA CTTTGACGAC GATACTCTAA TGGAGCTCGA TGCTACGTTA
    GTCGCACCCG AAACTCCAAA TGACCCGAAC CCGGTTCTGG CGCAGCCCAT TCAGCCCCCT
    GAAAAAGGGA AACAAACGCT TATTGAGGTT GACGATGAGT TTGATGACAT GGACGATGAC
    TTGTTCGAGG CAGCGGAGGG GCTTTTAACC CAGCTAGAGT CCAGATCAAC ATCGCAGCAC
    CAAGTTCAAC ACCAATATAA CGAAGCTGCG TCATTACCGC AACAGTCCGA CCCGGAAGCA
    AAGCAACACA GTGCCGGTGT TCAGTTCGGG GATACTGGCT CTGATGACGT TTTCGGTGAT
    GATTTTGGGG GCGATTTTGA TTTTGAAGCA GCCGAGTTGG CAGCTACGCA GTCGGCCCAA
    CAAGGGGCGG CACATAACCA AACCACACGG TCTACGAGGG CTTCTGCTTC TGCTTGTGCT
    TCTGCTTTGA CACATCCCAG CCCAAAAGCC CGAGTTATTC AAAGATACAA GGTCACCCGT
    GTGGATGATG CCGTGTACAC CACCGACACA GGACGAGGCT GTCCGGAAAA GATCCTCCTC
    TTGGTGGAGG ACACCACCAA AGCGAATGTT ACAGTTCATC TTCGTGGAGA CTGGATCGAA
    ACTCCTGTCA GCACCAAGGC ATTTGTTCAC ATTATAGGCG ATTTTGAGCA TTCAGGGAGA
    TGCATCATCG ATAATTCACA GAACATGCTC ATCTTGCATC CGGACCAGCT CATATCATCT
    ACCGTTGTTG CAGACTCATT CAGCTGCACT CGGCGCGCTG TCTTGCAGGA TCGGGTCAAG
    GCCACCAGTG AAGCCTCGCC CCCTCTCGTT TACGGCACGA TGCTCCATGA GATCTTTCAA
    GAAGCACTCA TGGCCAACAA GTGGAGTTCT GAATTTCTGA CTGCGTTGGT GGACAAGAAT
    ATCGGTCGTC ACATAGAAGA CCTTTACACA ATCAAGGTTA GCCTTGGAGA GGCTCGCGAG
    CATTTGTTAT CCAAGATGCG GGAGATGAGG TCATGGGCCG AAGCCTTTGT TTCGAACTTT
    CCAAAGTCCG ATGCGATTGT TCACGGCCGC AACGGCGAGA AGGCAAACAT GTGTGTGAGC
    AAACTCCTGG ACGTAGAGGA GCATGTCTGG TCACCTATGT ACGGTTTGAA GGGCAACATT
    GATGCCACTG TGCAAGTTAC CATGAAGGAC GGCAACAACC GCCGCAATCT GACGGTTCCT
    TTCGAAGTCA AGACTGGTAA AAACGTAAAC AGCAACCACC AGGCTCAGAC GGCATTGTAC
    AACTTGCTAC TATCCGACCG ATACGATATC GAGATAGCCT ACGGAATCCT TTACTACATG
    GAGACTTCGC AGACCATCAG GATACCGGCA GTTCGCCACG AGCTCCGGCA CATGGTTATG
    CAGCGCAACA CGTTGGCATG TTATATCCGC GAGAGAAGCG TCCAGCTTCC GCCGATGAAA
    AAAGCCAAGA ATGCTTGTGG TAGATGCTAT GCGCAAACTT CGTGCTTCAT CTACCACAAG
    CTTGCTGACG ATGGAGATGG CGAAACAAGC GGGATGCAGG GGAAGTTTGA CGAAGTTGTC
    CAACACCTGA CGCCGACGCA CAAAGAGTTC TTTCTGAAGT GGGAGGATCT CCTTACCAAG
    GAAGAGAAGG AAAGTCAAAA GCTCCGTCGG GAGCTCTGGA CGATGCTCAG TACAGAGCGT
    GAGAAGGTCG GCCGGTGCTT CTCGAACGTC GTCCTCGAGG AAGGATCAGC AGTCGAAGAC
    AAAAACAGCC CCAAGATCAA CCGGTTTCAG TACACCTTTC TCAAGGATGA TGTCACGAGC
    AACTTCTCTT TCATGGAGTC GCAACTTGCT GTGGGTGAGC CTATCGTCGT TTCAGATGAG
    AATGGCCACT TTGCACTGGC TCTTGGTTTC GTGGTGGCAG TCACAAAACG GAGGATTACC
    GTCGCCGTGG ACAGAAGACT TCACAATGCC AGGATCCGCC AACCGGGCTT TGACGAGGTC
    AACAACCAGG TCTTCGCTAG TATCATGGAA GTTGGGCCTG ATCGGGTCGG GACCCAACCG
    CCTCTCGGAA CCAAAGAGCC TCGAATCCGG TATCGTTTGG ACAAGGATGA GTTCAGCAAC
    GGCATGGCTA CAGTACGGAA CAACCTTGTT CAAGTCATGG CGAATGGTCC TTCGGGTTCT
    CTTGATCTTC GACGGCTTGT TGTTGACCTG GAGCCTCCAA CCTTCAAGAC CGTGGCAACT
    CAGTACGAAA TCTCGGACGG CGAGAGTCTG AACGTGGACC AAAAGAAGGC CGTCGAGAAG
    GTCATGAGCG CCAAAGACTA CGCCTTGGTG CTTGGAATGC CGGGAACTGG AAAGACCACT
    ACCATCGCTC ATATAATTCG CGCTTTGATT CGTCAGGGCA AGAGCGTCTT GCTCACATCC
    TATACTCACA GTGCCGTCGA CAACATCCTC TTGAAGTTGA AAGGCGATAG CATTCCGGTA
    TTGAGACTTG GTGCTCCTGC CAAGGTACAC CCTGAAGTTC AGGAGTTTGC CACCCTGGCA
    GCGCAGCCGA TGAACTCTTT TGAGGAAATC AGGACTGCAT GGCACGATTT ACCAGTGGTT
    GCTACAACAT GCCTGGGCAT CAGTCACCCT TTATTCAACG AGCGCACTTT TGATTACTGC
    ATCGTGGATG AAGCCTCGCA GATTACGCTG CCCATTTGCC TGGGCCCGAT CAGAATGGCA
    CGTACGTTTG TTTTGGTTGG CGACCATAAC CAGTTGCCGC CCCTTGTGCA AAACGAAGAG
    GCCCGGAAGG GCGGACTCGA TGTCAGCCTT TTCAAGCTGC TTTCCGACAC TCATCCCGAC
    TCGGTCGTCA ATCTCGAACA CCAATATCGC ATGTGCGAAG ATGTCATGGC GTTAAGCAAC
    GAACTCATCT ACGAGGGTCA CCTCAAGTGC GGCACAGAGG AATTACGCCT CCGCAAGCTC
    GACATACCAT TCCCAGAGGC TCTGTCAAGG CATCACTACG ACGCATCATC ATTCATGTCT
    CTGAGCAGAT CGCAACCCGT GTTTTCTTTG CCAAAGTCGT TCTGCACAGA TGGCAATTCT
    TGTTGGCTGC GTCATTTGGT TGATCCCGAT ACTCGGGTTG CCTTCGTCAA CACAGACGCG
    TTACCCGACA GCCGCGAGGA GGCAAAGGGC AACAGGATCG TCAATCCTGT AGAAGCGCAG
    CTTGTGGTGC AGCTTGTTGA GTCGCTAATG ACACTTGGTG TTCCAGCAAA CGAGATTGGC
    GTCATGACGC ACTACCGCTC GCAGCTTGCT CTCTTGAAAC ACAAGCTCCT GAGAGGCAAG
    AACACGGGTG ATGCCACTGC CGTGGAGATG CACACGGCTG ACCGCTTCCA GGGTCGTGAC
    AAGGAGGTTG TGGTGTTGAG CCTGGTGCGC AGCAACGAGG CGTGCCACAT CGGAGACCTC
    TTGCGTGACT GGCGACGCAT CAATGTCGCC TTTACGCGCG CAAAGACCAA GCTTCTTGTG
    ATTGGCAGCC GTGAGACTCT TCGCGGATGT GGAGCCGACG AGATGCTATC CAAGTTTGTG
    AGACTGATGG AAGACCGCAA CTGGGTTTGC GATCTCCCTG CAGACGCCCT GGAGTCGCAC
    TTGTTCGAGG ACGGTGGGAT TGCGGCAACA GGAACAACGA TTGCACCGAC ACAGGCATCT
    CCCCGAAGAA AGCCCCCAAA TAAGACGGCC GGCGCAAATG CTTTGCCAAA GCTATCATCG
    GCTGGTGTGT CAAAGGCCGG TGGGAAGGAG AATGTCCCGC CTGGTAGACG GCAGCCGACC
    AAGCAAGCTA AGATTGGCGC GAAGATGCTT ACGAAGGGTA AGCCTATTCT TCGGGATATC
    CTGAACGATA TGTCTGGCGG CGGATTTTGA

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

  • PubMed

    The genome sequence of the rice blast fungus Magnaporthe grisea.
    Nature434(7036)980-6(2005 Apr)
    Dean RA,Talbot NJ,Ebbole DJ,Farman ML,Mitchell TK,Orbach MJ,Thon M,Kulkarni R,Xu JR,Pan H,Read ND,Lee YH,Carbone I,Brown D,Oh YY,Donofrio N,Jeong JS,Soanes DM,Djonovic S,Kolomiets E,Rehmeyer C,Li W,Harding M,Kim S,Lebrun MH,Bohnert H,Coughlan S,Butler J,Calvo S,Ma LJ,Nicol R,Purcell S,Nusbaum C,Galagan JE,Birren BW