MGG_05315 cDNA ORF clone, Pyricularia oryzae 70-15

The following MGG_05315 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the MGG_05315 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
OMe01149 XM_003712828.1
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Pyricularia oryzae 70-15 uncharacterized protein (MGG_05315), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $1021.30
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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)
    CloneID OMe01149
    Clone ID Related Accession (Same CDS sequence) XM_003712828.1
    Accession Version XM_003712828.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5097bp)
    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 uncharacterized 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 (NC_017849).

    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
    ATGTCCGACG AAGTATCGAG CTTCTTGCGA GACGTGGAGC AGTTGAAGGG ACGCCGCACC 
    GAAGAGGACG AAGCTAGGTC GAGGGAACTC GAGGAGAAGA TACTACAGGA GAGGCGTGAG
    AGGCAAGCCC GCCGTGAAGA GCGAGCAAGG TCCATCTCAC CACAGAAATC CTCACCTGCA
    AACACTCCCC CGCCCTCGTC GCACCGAAAC CATAAATCAT CTCAGGCATC CCTGGATGGT
    ATGAGCCTTG AGAAACCACC AAATTTTCGA GTTCCGGATA CCGCGAATGC CTCCAATGAG
    GACAGAATGG GCTCCCCCGA GTACCACCAG TCTACATCTC CTACCAAAGA GAACAACTCG
    CCATCCGACA TCGATTCAAA ATCTGCGAGC ATGATGTCTC CCACCGACGC AACATCCCCG
    ACACGCACAC TTTCATGGCA ACGAAGACCA CCTTCGCGTG GTGCTGATCG ACCAAAGAGC
    CGCCCCCTAT CCGTGTTCGC CGCCGAAAAC GCAGTCGCTC GGTCTTCGGC TGAGCAACCC
    GATTCCACAC CGTCTCGAGA TCAGATCGCG CAGTCTCTGG CATCCAAGGA CCCTGCGTGG
    TTCCGACAGA CCGCAGACCG AGGGCAGAGC TCGCCAGCCT ACCGTCGGAG TCAAGTCGAG
    GATGATTCGG AAATAACAGA TATGTCTGCT TTCAAGGTAG AAATGCCAGG CATGTCCTCG
    CAATCCTCCC AGGCGTCGGC CGATCAAAAA CCGCAGTCGA CTTCGACTCA TGCAAGGACC
    GGCTCGGCCC TGTCCCTCGG ACCTCTTCAG AGGTTAGATC CTCCGGGGGC GGATGCCTCG
    CGAGATGGCG ATTCGCCAAC TCATGATCGA TCATCTGTCG CATCACCCAC TCTGGGAGGA
    CGTCGTTCCC CAACTAGGCC ACTTTCCCCG ACCAAAGGCA TGGGTGGCTT TGTGCAGAGC
    GCCATGATGA AAAGGACTGA TAGTGTCAAG AGGTGGAGCG TGAGTTCGCC GACTGGTTTG
    CAGCGCGCCG ACACGGTCAC GTCACACCGG AATAGCGTTT CGGACTTGAA TCGTGGCGGC
    CCCCCTCAGT CAAACTCTCG ACCGGCTAGC TTCTACCAGA GTGTCTCGAG ACCGTCATCA
    CGCCCTTCAT CCAGACCGAC TTCCAGTCAC GCCAACGATG CTGCGTCTCC GCCGGAAGCG
    AGTGCGAGTG GCAGCGGCGA GGGACCACCG GAGAGCATCG AAGAGAAGAA CACAGACAAG
    GATGCCGAAG ACAAGACGAC GCCGCCGACA AGTCCATCCA AGACTATGGA CCCCAGGCGT
    TGGAGCCCAT CCAAGAATTC GAGTTGGCTG GAGGCAGCGC TTAACAAGCC AGACTCGCCG
    AAGCCGAAGC CGGCCCCACC AACAAGCTCA CAGCCAGCTT GGATGGTCGA GTTGAACAAG
    GCCAAGGCCC AGAAGGCTAA CAATCCCGAT GCTGAGATTG CCCGCACATC TTCAGTGAAG
    CATGAGGTAA GGGTGGGCGG CCTGATGCGT GCTCCACCCA TGGGTACAGG TGTGAAGCCA
    ACACCGCTCC CCGGTAAGCT TCACTCCCAA TCAATCTCAG TGGGAGGCGG CGAGAGGTCA
    CCTGTCCCCA GTCTACGCAA CCGCTTCTCC AACCCCGCGT TTACGTCAGA AGATGGTGGC
    CAGGCCCAGG GTGCTGAAGC CGCCGAGAGG AGGGTTGGCT CTCCTGCTTT TGGCAAGCTG
    AAACCCGAGA CACCACCAAA GAAAGATTTC AGAGGTACTC TCAAATCTTT CCAGCCTCCT
    CCGTCGGCTT CTCTTGGTGG AGATGGCAAC GAGCTCAAGA GCGTGTTCGG CAGTCTACGG
    AAGACCAAGA CGCAGAATTA CGTTGCGCCA GACACCTTCA AGGACAATAT TTTGCGTGGC
    AAGGACGCTC TCAATGTGAC GGGCGGCCCC AAACCCTCGG TACGGAAGGA CGAATTCAAG
    GATGCCATTT TGCAGAAGAA AGCCGAATTT CAAAAGGCGA AGGAGGAGGG CCGCGGCGTT
    ACTAGAGCGT CAGGCGACCC TCAAGATCAA CCGATCCCAG AGGGGCTTGC CAAGGCACTG
    GAGCAGCGAG GTCGTCCAGG CACACTAGCT GCTACTAAGA AGGAAGCAGC GCCATTCGAG
    CCCAGCCCCG AGACTACTCC CTCGAATGCA AAGCCAGAAA GGATCAGCAG CGTCCCTACC
    AGTGACCAGG AACCAGTCAG CGTTACTGCT AAACCTCACG GCAACACTGT ACCCAAGGTC
    ACAGGTGGTC GTCTTGCAGA TCGTTTCAAC CCGGGCTTGG CCAATCTCTT GGCCCGCGGG
    CCCCCTGGCG CCGGGGACCC GAATAAATCA TCGGACTCAA GCTCAGCGGC GGTACTCTCC
    GAGGAGCCTT CAGCCCCTGG GCCTCAGTTG ACCCACATGA CTAAGGGTCG GGCGCGAGGA
    CCTCGCAGGA AAGCGCCAAC TTCAGTGGCT CGGCCAGTGC AAGCGCAGCC TTCCGAGCCC
    CATAAGCCAT CTCAGTCACA ACCAAAGCCC GAGCCAGCTC GGACTAGCCA GGATGAAGGA
    AATGTGTCGC ATGTTGGCAA TCCTGCGGTT AGATCACCTA CAATTGTACA AGAGACTCAG
    AAATCCCGGC CGATATCCGG AAGTTGCCAA GCGGGTCCGA CCGATGTGGT CAGCTTGGTA
    GACTCCTCCA TACACGCCGT GGCTACGGCC CAATTACCGG CACCCGTAGG AAGTGTAATA
    TCTTTGGTTG ACTCAACGCG GCCACGATCG CCAACTCGCA AGATCCACGA ACAAGTGGCC
    GCCCTGGCAG CTCGAAGCAA GCAAAGTGAG GCTGATGCAC CTGTATCACA GCCATCTTCC
    CCGAAGAAGT TGGACGTCAA ACGCATGTCA AAGTTTTTCG ATGAGCCAAC CGAGGGCGAA
    GCACAGCGCC CACTTTCACC ACAAAAGACC GGAGGGGCCC CGAGACCTCT CTCTCCACAA
    AAGACTGGTG GTAGACAATT TCCAGAGGTA GAGGCGCCCC GAGCTCTGTC GCCGCAAAAG
    ACGGGTGGTA GACAATTTCC CGAAACAGAT GCGCCTCGGG CTCTGTCGCC ACAAAAGACA
    GGCGGAAGAC AATTCCCCGA GGGCGAGGCA CCACGTCCAC TTTCACCGCA GAAGACTGGA
    GGGGCGCCCA GACCTCTTTC TCCGCAAAAG ACGGGCGGCA GACAGCTCCC TGAGATCCAA
    GCACCTCGAG CTTTATCGCC ACAAAAGACG GGTGGCAGAA CATTCCCTGA GATCGAGGCA
    CCGCGGGCTT TGTCGCCGCA AAAGACAGGT GGCAGTCGGT TCCAAGAAGG CGAACCTCCA
    CGAGCTTTGT CGCCTCAAAA GACAGGTGGC AATCGATTCC AAGAAAGTGA ACCTCCACGG
    GCCTTATCAC CGCAAAAGAC GGTGGGTGGT CGATTCGCCG AGGCCGAGAC TCCTCGCCCA
    CTCTCTGTGC ATAAGACAGG CCCATGGCAG CAACCTGTTG CCGAGATGCC ACGCCCGCTC
    TCCCCTCAGA AGACCGGAGG GCGTATGATT TCGGACCAGG CAGCGGTGCG TCCTCTATCG
    CCTCAAAAGA CAGGCGGGCG TCGACTGCCC GAGGCACCTG TGTCGCCCTC AAAGGACGCT
    CAAGCTAGGA AGCCAAACTC TCCTTTTGAA GGTGCTTCTG CCACAAATGA AAACCCAGTC
    ATTGAGAATA TTCCACCATC AGCACCCGAA CTACAAAGGA GTGGCATGCA CTCGCGATCC
    TGGTCTCAGA ATAAGATTCG TCCGCTGCCC CTCCAGCCCC GGGAGGGCCC AAGTTCTCCT
    CAGCCAACGT CTCCTGTCCG CTCGCCAACC AAATACGCCT CAGAGATTGC GACGGAGCTC
    AACGAATTCT TTGGCCGTAG CCGACCGAAA CGTGATTACA GCGTGGATGC GGCCGAACTG
    TTGATGCACC GCCCACCCGA GCCTGCAAAG GTCAAGACAC AATCGGTGCA GCTGTTCCGC
    ATCGACTCCG ATGGCAAGAA GCAGGCCGTT CCCGCTCACC AGGAAAGGAT GCTGTTCGAG
    CGCGAGATGT ACCTGTGCGG CCACACGTTC CTCGACGGGT CCGGACGCAA GACTTCTGAG
    GTCTACTTTT GGGCCGGCGA CCAAGTTCCC CCATCCGCCA TTGAAGACGC TCAGCTCTTC
    GTGGGTCGCG AGACGCGTGC TCTGGGCGGG AAGCTGATTG GCTTCCCGCA AGGCAAAGAG
    ACGCCTGAGT TTCTCCAGGC CTTGGGTGGG ATCGTAATCG TTCGCCGCGG TTCCAGCAAC
    AAGTACGACT CACTTGCTCC GAGCATGCTT TGCGGTCGGC GATTCCAGGG TCAGGTTACC
    TTTGACGAGG TTGACTTCTC CCCTCACAGC CTTTGCTCCG GTTTTCCTTA CCTGATCACA
    CAGAACGGAA AATGCTTCTT GTGGAAGGGG AAGGGAAGCG ATGTGGACGA GCTCTCGTGC
    GCCAGGCTGA TAGGTATGGA CCTGGCCCTG ATGGGTGAGC TTGTCGAGGT CGACGATGGT
    AACGAGCCCC CCGAGTTTTG GAACATATTT GATGGCCAGA TGCGGGCTGG GTCTGCTGAT
    CATTGGCGAC TGAAGCCAAA CTATCAAAAA TACTGCGGTA GACTGTTCCG CTCCGATGCT
    GGTGATCAGC AACAGATTGC AGAGATTTCC CCCTTCAGCC AGGTGGATCT TGATCCTGCA
    GGCATATACA TCATTGACTG CTTCTTCGAG ATGTATATAG TTGTTGGGTA TGGTGCTCAA
    CCCCAGTACG CCTCATTCCG CAACGCACTC GACTTTGCGC AAGAATACGC CATACTTGCA
    TCCTCCATGG AAGACCGCCC GTTTGTGCCC ATATCGACCG TCGTGCTCGA GGGCATCCCG
    AGGGATCTCA AGAGCGTTTT CCGCAAGTGG AGGGATGCCG CAAGTCCGAC AAAGATGAAT
    GCAGGTAGCA GCGGTTCAAG CAACGGCAAC ACACCTCTTG GAAGCCCTGG GTTGCAGAGG
    GGTCGGAGCC TGCGCATCGT CCCGCTCAAC CAAGCGCTTT TGGCGTTGGC CGAATAG

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

    RefSeq XP_003712876.1
    CDS518..5614
    Translation

    Target ORF information:

    RefSeq Version XM_003712828.1
    Organism Pyricularia oryzae 70-15
    Definition Pyricularia oryzae 70-15 uncharacterized protein (MGG_05315), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_003712828.1

    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
    ATGTCCGACG AAGTATCGAG CTTCTTGCGA GACGTGGAGC AGTTGAAGGG ACGCCGCACC 
    GAAGAGGACG AAGCTAGGTC GAGGGAACTC GAGGAGAAGA TACTACAGGA GAGGCGTGAG
    AGGCAAGCCC GCCGTGAAGA GCGAGCAAGG TCCATCTCAC CACAGAAATC CTCACCTGCA
    AACACTCCCC CGCCCTCGTC GCACCGAAAC CATAAATCAT CTCAGGCATC CCTGGATGGT
    ATGAGCCTTG AGAAACCACC AAATTTTCGA GTTCCGGATA CCGCGAATGC CTCCAATGAG
    GACAGAATGG GCTCCCCCGA GTACCACCAG TCTACATCTC CTACCAAAGA GAACAACTCG
    CCATCCGACA TCGATTCAAA ATCTGCGAGC ATGATGTCTC CCACCGACGC AACATCCCCG
    ACACGCACAC TTTCATGGCA ACGAAGACCA CCTTCGCGTG GTGCTGATCG ACCAAAGAGC
    CGCCCCCTAT CCGTGTTCGC CGCCGAAAAC GCAGTCGCTC GGTCTTCGGC TGAGCAACCC
    GATTCCACAC CGTCTCGAGA TCAGATCGCG CAGTCTCTGG CATCCAAGGA CCCTGCGTGG
    TTCCGACAGA CCGCAGACCG AGGGCAGAGC TCGCCAGCCT ACCGTCGGAG TCAAGTCGAG
    GATGATTCGG AAATAACAGA TATGTCTGCT TTCAAGGTAG AAATGCCAGG CATGTCCTCG
    CAATCCTCCC AGGCGTCGGC CGATCAAAAA CCGCAGTCGA CTTCGACTCA TGCAAGGACC
    GGCTCGGCCC TGTCCCTCGG ACCTCTTCAG AGGTTAGATC CTCCGGGGGC GGATGCCTCG
    CGAGATGGCG ATTCGCCAAC TCATGATCGA TCATCTGTCG CATCACCCAC TCTGGGAGGA
    CGTCGTTCCC CAACTAGGCC ACTTTCCCCG ACCAAAGGCA TGGGTGGCTT TGTGCAGAGC
    GCCATGATGA AAAGGACTGA TAGTGTCAAG AGGTGGAGCG TGAGTTCGCC GACTGGTTTG
    CAGCGCGCCG ACACGGTCAC GTCACACCGG AATAGCGTTT CGGACTTGAA TCGTGGCGGC
    CCCCCTCAGT CAAACTCTCG ACCGGCTAGC TTCTACCAGA GTGTCTCGAG ACCGTCATCA
    CGCCCTTCAT CCAGACCGAC TTCCAGTCAC GCCAACGATG CTGCGTCTCC GCCGGAAGCG
    AGTGCGAGTG GCAGCGGCGA GGGACCACCG GAGAGCATCG AAGAGAAGAA CACAGACAAG
    GATGCCGAAG ACAAGACGAC GCCGCCGACA AGTCCATCCA AGACTATGGA CCCCAGGCGT
    TGGAGCCCAT CCAAGAATTC GAGTTGGCTG GAGGCAGCGC TTAACAAGCC AGACTCGCCG
    AAGCCGAAGC CGGCCCCACC AACAAGCTCA CAGCCAGCTT GGATGGTCGA GTTGAACAAG
    GCCAAGGCCC AGAAGGCTAA CAATCCCGAT GCTGAGATTG CCCGCACATC TTCAGTGAAG
    CATGAGGTAA GGGTGGGCGG CCTGATGCGT GCTCCACCCA TGGGTACAGG TGTGAAGCCA
    ACACCGCTCC CCGGTAAGCT TCACTCCCAA TCAATCTCAG TGGGAGGCGG CGAGAGGTCA
    CCTGTCCCCA GTCTACGCAA CCGCTTCTCC AACCCCGCGT TTACGTCAGA AGATGGTGGC
    CAGGCCCAGG GTGCTGAAGC CGCCGAGAGG AGGGTTGGCT CTCCTGCTTT TGGCAAGCTG
    AAACCCGAGA CACCACCAAA GAAAGATTTC AGAGGTACTC TCAAATCTTT CCAGCCTCCT
    CCGTCGGCTT CTCTTGGTGG AGATGGCAAC GAGCTCAAGA GCGTGTTCGG CAGTCTACGG
    AAGACCAAGA CGCAGAATTA CGTTGCGCCA GACACCTTCA AGGACAATAT TTTGCGTGGC
    AAGGACGCTC TCAATGTGAC GGGCGGCCCC AAACCCTCGG TACGGAAGGA CGAATTCAAG
    GATGCCATTT TGCAGAAGAA AGCCGAATTT CAAAAGGCGA AGGAGGAGGG CCGCGGCGTT
    ACTAGAGCGT CAGGCGACCC TCAAGATCAA CCGATCCCAG AGGGGCTTGC CAAGGCACTG
    GAGCAGCGAG GTCGTCCAGG CACACTAGCT GCTACTAAGA AGGAAGCAGC GCCATTCGAG
    CCCAGCCCCG AGACTACTCC CTCGAATGCA AAGCCAGAAA GGATCAGCAG CGTCCCTACC
    AGTGACCAGG AACCAGTCAG CGTTACTGCT AAACCTCACG GCAACACTGT ACCCAAGGTC
    ACAGGTGGTC GTCTTGCAGA TCGTTTCAAC CCGGGCTTGG CCAATCTCTT GGCCCGCGGG
    CCCCCTGGCG CCGGGGACCC GAATAAATCA TCGGACTCAA GCTCAGCGGC GGTACTCTCC
    GAGGAGCCTT CAGCCCCTGG GCCTCAGTTG ACCCACATGA CTAAGGGTCG GGCGCGAGGA
    CCTCGCAGGA AAGCGCCAAC TTCAGTGGCT CGGCCAGTGC AAGCGCAGCC TTCCGAGCCC
    CATAAGCCAT CTCAGTCACA ACCAAAGCCC GAGCCAGCTC GGACTAGCCA GGATGAAGGA
    AATGTGTCGC ATGTTGGCAA TCCTGCGGTT AGATCACCTA CAATTGTACA AGAGACTCAG
    AAATCCCGGC CGATATCCGG AAGTTGCCAA GCGGGTCCGA CCGATGTGGT CAGCTTGGTA
    GACTCCTCCA TACACGCCGT GGCTACGGCC CAATTACCGG CACCCGTAGG AAGTGTAATA
    TCTTTGGTTG ACTCAACGCG GCCACGATCG CCAACTCGCA AGATCCACGA ACAAGTGGCC
    GCCCTGGCAG CTCGAAGCAA GCAAAGTGAG GCTGATGCAC CTGTATCACA GCCATCTTCC
    CCGAAGAAGT TGGACGTCAA ACGCATGTCA AAGTTTTTCG ATGAGCCAAC CGAGGGCGAA
    GCACAGCGCC CACTTTCACC ACAAAAGACC GGAGGGGCCC CGAGACCTCT CTCTCCACAA
    AAGACTGGTG GTAGACAATT TCCAGAGGTA GAGGCGCCCC GAGCTCTGTC GCCGCAAAAG
    ACGGGTGGTA GACAATTTCC CGAAACAGAT GCGCCTCGGG CTCTGTCGCC ACAAAAGACA
    GGCGGAAGAC AATTCCCCGA GGGCGAGGCA CCACGTCCAC TTTCACCGCA GAAGACTGGA
    GGGGCGCCCA GACCTCTTTC TCCGCAAAAG ACGGGCGGCA GACAGCTCCC TGAGATCCAA
    GCACCTCGAG CTTTATCGCC ACAAAAGACG GGTGGCAGAA CATTCCCTGA GATCGAGGCA
    CCGCGGGCTT TGTCGCCGCA AAAGACAGGT GGCAGTCGGT TCCAAGAAGG CGAACCTCCA
    CGAGCTTTGT CGCCTCAAAA GACAGGTGGC AATCGATTCC AAGAAAGTGA ACCTCCACGG
    GCCTTATCAC CGCAAAAGAC GGTGGGTGGT CGATTCGCCG AGGCCGAGAC TCCTCGCCCA
    CTCTCTGTGC ATAAGACAGG CCCATGGCAG CAACCTGTTG CCGAGATGCC ACGCCCGCTC
    TCCCCTCAGA AGACCGGAGG GCGTATGATT TCGGACCAGG CAGCGGTGCG TCCTCTATCG
    CCTCAAAAGA CAGGCGGGCG TCGACTGCCC GAGGCACCTG TGTCGCCCTC AAAGGACGCT
    CAAGCTAGGA AGCCAAACTC TCCTTTTGAA GGTGCTTCTG CCACAAATGA AAACCCAGTC
    ATTGAGAATA TTCCACCATC AGCACCCGAA CTACAAAGGA GTGGCATGCA CTCGCGATCC
    TGGTCTCAGA ATAAGATTCG TCCGCTGCCC CTCCAGCCCC GGGAGGGCCC AAGTTCTCCT
    CAGCCAACGT CTCCTGTCCG CTCGCCAACC AAATACGCCT CAGAGATTGC GACGGAGCTC
    AACGAATTCT TTGGCCGTAG CCGACCGAAA CGTGATTACA GCGTGGATGC GGCCGAACTG
    TTGATGCACC GCCCACCCGA GCCTGCAAAG GTCAAGACAC AATCGGTGCA GCTGTTCCGC
    ATCGACTCCG ATGGCAAGAA GCAGGCCGTT CCCGCTCACC AGGAAAGGAT GCTGTTCGAG
    CGCGAGATGT ACCTGTGCGG CCACACGTTC CTCGACGGGT CCGGACGCAA GACTTCTGAG
    GTCTACTTTT GGGCCGGCGA CCAAGTTCCC CCATCCGCCA TTGAAGACGC TCAGCTCTTC
    GTGGGTCGCG AGACGCGTGC TCTGGGCGGG AAGCTGATTG GCTTCCCGCA AGGCAAAGAG
    ACGCCTGAGT TTCTCCAGGC CTTGGGTGGG ATCGTAATCG TTCGCCGCGG TTCCAGCAAC
    AAGTACGACT CACTTGCTCC GAGCATGCTT TGCGGTCGGC GATTCCAGGG TCAGGTTACC
    TTTGACGAGG TTGACTTCTC CCCTCACAGC CTTTGCTCCG GTTTTCCTTA CCTGATCACA
    CAGAACGGAA AATGCTTCTT GTGGAAGGGG AAGGGAAGCG ATGTGGACGA GCTCTCGTGC
    GCCAGGCTGA TAGGTATGGA CCTGGCCCTG ATGGGTGAGC TTGTCGAGGT CGACGATGGT
    AACGAGCCCC CCGAGTTTTG GAACATATTT GATGGCCAGA TGCGGGCTGG GTCTGCTGAT
    CATTGGCGAC TGAAGCCAAA CTATCAAAAA TACTGCGGTA GACTGTTCCG CTCCGATGCT
    GGTGATCAGC AACAGATTGC AGAGATTTCC CCCTTCAGCC AGGTGGATCT TGATCCTGCA
    GGCATATACA TCATTGACTG CTTCTTCGAG ATGTATATAG TTGTTGGGTA TGGTGCTCAA
    CCCCAGTACG CCTCATTCCG CAACGCACTC GACTTTGCGC AAGAATACGC CATACTTGCA
    TCCTCCATGG AAGACCGCCC GTTTGTGCCC ATATCGACCG TCGTGCTCGA GGGCATCCCG
    AGGGATCTCA AGAGCGTTTT CCGCAAGTGG AGGGATGCCG CAAGTCCGAC AAAGATGAAT
    GCAGGTAGCA GCGGTTCAAG CAACGGCAAC ACACCTCTTG GAAGCCCTGG GTTGCAGAGG
    GGTCGGAGCC TGCGCATCGT CCCGCTCAAC CAAGCGCTTT TGGCGTTGGC CGAATAG

    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