MGG_06100 cDNA ORF clone, Pyricularia oryzae 70-15

The following MGG_06100 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the MGG_06100 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
OMe07646 XM_003711918.1
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Pyricularia oryzae 70-15 VPS15 protein kinase (MGG_06100), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
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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 OMe07646
    Clone ID Related Accession (Same CDS sequence) XM_003711918.1
    Accession Version XM_003711918.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4707bp)
    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 VPS15 protein kinase
    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
    ATGGGCCAGG GACTCTCTCT CACGTCGCCG CCAGCTGGCT CTGCTGGTAT CGACATACCA 
    GAACTGGGCG ATCTTGTGTA CGAAAAGTCG GTCGGCACGG CGCGATTTCT CAAGTGCATC
    CGCGCTAGAC ATCACGATGG CGTCGTTCTG GTCAAGGTTC TCACCAAGCC GTATACCCCC
    ATGCCTCTGG ACGACTATAG GCAAGAGATA ATTCGTGAAA GCAAGGCCCT GGCCGACGTA
    CCGAACGCCT TGGCCTACCA GAGGGTCATC GAGACCGACA CCAACGGATA CCTTGTGCGA
    CAGTACCTCT ATAACTCTCT CTACGATCGA TTTAGCACCC GGCCATTCTT GGAGGATATT
    GAGAAGAAAT GGCTTGCTTT CCAGCTGCTC TGCGCACTGC GCGACTGCCA CAGCAGGGAC
    ATATATCACG GCGACATCAA GACGGAGAAC ACCCTGGTGA CCTCATGGAA CTGGCTGTAT
    TTGTCGGACT TTTCCTCCTC CTTCAAGCCC GTCATCCTGC CAGATGACAA CCCGGCCGAC
    TTCTCTTACT TTTTTGATAC CTCCGGGCGG AGGACCTGCT ATATTGCGCC CGAACGCTTC
    CAACCCGCCG GGGACGCTCT GAATTCTCCC ATCAAGCTCA ACTGGGCTAT GGATATTTTC
    AGCGCCGGCT GTGTCATTGC AGAGCTGTTC ACAGAGGCGC CCATATTCAG TCTCAGTCAA
    CTGTACAACT ATCGCAGTGG GAAATACGAC CCTGCCATCT CCCACCTATC CCACATCCCC
    GACAAGGACC TGCGCGAAAT GATAATTCAC ATGATACAGT TGGATCCTCA AAAGAGATAT
    TCGGCTGAGG ATTACCTGCG TTTCTGGCGC AAGACTGTCT TCCCAGACTA CTTCTACGAC
    TTTCTCCACC AGTACATGGA GGTAATCACA GATCCGTCAT CGGGACAGTA TCCCATATCA
    GGGGCAACAC GTAACCTTGG TGAGGCTGAT GAACGGATCG ACAGAGTATT TTATGATTTC
    GACAAGATCT CCTACTCTCT GGGATATCAA CATAATGCGA GCTCAGGGAA CGGCGCCCTT
    GTGCCGAAGC CTCCTCGTCT GGGCCTGGGG CACTTCCCCA TAAGGCTTAA TATACCAAAC
    CACGAGCACT ATGTATCGAG CCAGGGGCAA CCGCCATCAG ACGATGGTTC TCTGATTTTT
    CTGGCTTTGA TATGCTCGTC CATACGTAAT ACTGCAAGGG CAGCATCAAA GATTCGAGCT
    TGTGATATTC TTCTTGCCTT CTCGGAGAGA ATAACGGATG AGGCAAAGCT GGACCGGGTT
    GTGCCGTACC TCATGACACT GCTAAACGAC AAAGCCGACA TGGTTGTGAT CACCGCAATT
    AGGACAATCA CGCAGGTTCT AGCCCTCGTC AAGGTTGTAA CACCTGTGAA CTCGCCCATC
    TTCCTCGAGT ACATTCTGCC ACGGATGCAG GTAGCCCTGA CTAGCGCGCA GGCGAATCCC
    AGCCCGCTCG TGAGAATGAC GTACGCATCT TGTCTCGGCA CACTGGCCAC TACTGCTGGC
    CGATATCTGG ACATAGCAGG TGCTCTGAGG GCTGAGGGGG CAATCACAGT TGCCGACCCT
    GAGGTCGAGC CAGGGAGCAC CACTGCTTTT GATGGCATGT TCGAGCATAC ACGACATGAG
    CTGGTAATCC AATTCGAGTT ACATGTCAAG CTGTTGATCG AAGACCCGGA TCCCTTTGTC
    CGGAGAGCTT TCCTCAGCTC AGTCCCAGAG CTCTGCATGT TCTTTGGAAC AGCAGATTCA
    AACGACATCA TACTTGCACA CCTCAATACA TATCTCAACG ACCGTGACTG GACCCTCAAG
    TGTGCTCTTT TCGACACTAT CGTTGGCATC GCTGCCTTCA TCGGGAGTAC AAGTCTAGAC
    GAGTTCATAC TACCACTCAT GGTGCAGGCT CTAATGGACA CGGAAGAAAA CGTGGTGCAA
    GGTGCACTTC ACTCGCTAGC CGAGCTGGCC GAGCTTGGGT TATTGTCCAA GTCGAGGGTG
    TGCGAGCTCG TTGAAGTTGT AGCGCGCTTT ACCATGCACC CGAATATCTG GATTCGCGAG
    TCCGCGACCG AGTTCATCGC GATGGCCACC AAATATCTAA CCGCGGCCGA CATCAGGTGC
    ATGGTATATC CAATAGTAAC CCCGTACCTG AAGCCTGGCA TCACCCCGAA TTTCTCCGAG
    CTGGCGTTAC TTGGCACGCT CAGGAGACCG CTCACAAGAC CAGTGTTTGA CCAGGCACTG
    TTGTGGGCTC TCAAATCAGA CCGAGGGTTG TTTTGGAAAC CTCTTCAAAA AGCACGGGCG
    CTGATGCTCG GAAATTCTCC TGCTGCAACG GGAAATGGCC GTGGCTCGAG TGAGCACAAC
    CCAGGCACTC TGGGCAAGGT CGCACGCAAC GAAGAGGATG AGCAGTGGTT ATCAAGACTG
    CGCAATCTGG GCTTGTCGCA GGAAGATGAA CACAAGCTTC TGAGCTTGAG AGAGTTTATC
    TGGAGATTGA GTCAGATGAA GACGCGGGAC TCGGCATCTG CCAGGGACGA GGACAAAACC
    TCGAAGCAGC TCAACAACAT CATCCTCCTT CGCACTCTTG GAGTGACGCC ACAAATGGTA
    TTTTTCGACG AGGAGCCGAA GGGCTTGTCT CAGGGAGGCG GCGAGCTGGA CGGCGCTCCA
    CGCACCATCA CGGATGCACT GCGGGACGCG TCCATGAGTA TTGACGACCC GGTGGCGAGG
    CGCCGGCGTG CAGCACTCAA CAGCCACAGA ACCCGTCTGA ACAGCCGGAA TAGCTTGTCA
    CCCATGTCCA TCGAAGGGCG CATGTCGCTG GATGATGAGA TGGCAGGTGC CCCTTCGAGT
    ACCTCGCCAG GCCTCCTCTC ACCGCCTGGT GACGGTGAAA AGCACAGATC CAATGGCCAA
    GGTCCAAAGC GGACTTTGCG TCACCAATCG AGTGCGCTTA GCCTCCTTAA CCGCAAGGAC
    AACGCCAAGT CTGGAGCAGA GACCGGAATG ACTGAAGCAA ACGCTTTTGG TCAGGTCGGA
    GGTCCATCCT CGCAGGCTTC CAAGAACAAG CCTCTGGCGG CCGATGCTGC TGAGGATCCT
    CTGGCGAAGA ACAGGCCGAG AGCTAACCAC AGTTATGAGG GTAACGACCC CAACATCCTT
    CGGATGCTAG ACTCGATGTA CGTGGATAAC TACCCACACG ATGTCGCTGA GTTCGGACCA
    CTGGTGGCGC CAATCGCTCG ACGAAGAGTC AGCAGACCTG CTACGGCTGA TGGTTCCGAG
    CAAGGATGGA GGCCGGCAGG CAAGCTGGTG GCCACCTTCT CAGAACATAC TGGAGCCATC
    AACAGAGTAG TGCCATCGCC GGATCACGTC TTCTTCATCA CGGGTGGTGA TGACGGGACC
    GTCAGAGTTT GGGATACCGC ACGGCTGGAG CGCAACATTG CGCATCGTTC AAGAGCAGTC
    TACTCTCACG CACCAGGTGT CAGAGTGCTA TCGTTGTGTT TTATCCAGGA CACCCACTGC
    TTCGTCAGTT GCGGAAGTGA TGGAAGTGTA CATATAGTCA AGGTTGAGTG TTCCATGTCT
    GGAGATGTGA CACGGTACAA CAAACAGCCG CGAATGATAC GTCGGTATCA ACTAAACCGG
    CCTGGTGAAT TTGCTGTGTG GTGCGAGCAC TACAAGCAGC AAGGGAACGG CTCGCCAGGT
    AGCACCGAGG GTGGCTCGAC AGGATTCAAC TCAACGACCT CGACGCTGAT CCTGGCAACC
    AACATGTCAC GAGTCGAAGC CATTGATCTG CGCAACACAA CGCTCATCTG GGCGCTCGAG
    AACCCTGTGC ACCATGGAAC GCCAACGTGT TTCTGCCTGG ACCGCAAGCG CAACTGGCTA
    TGTCTCGGAA CCTCGCATGG CGTGCTCGAC CTCTGGGATC TGCGCTTCAA AGTCCGCCTC
    AAGGCGTGGG GTGTTCCTGG AAAGGGCGCC GTCTACCGTC TCGCAGTGCA CCCTACCAAG
    GGCCGCGGGA GATGGGTGTG TGTCGCTGGG GGCACCGGGC AGGGCGAGGT GACCGTTTGG
    GACTTGGAGA AGACAACGTG CCGCGAGGTC TATCGAGTAG GCGGGAACAA GGAGGCCCCA
    CGTGACTACA GCGCCTGGGA GGTGGATGAG GACAAACCCG AGGGCATGCT GGGCCGGTTC
    GCGACCGACA TTGAGACTGG GGAGGCGCCC CATGTCACGG GCGGCTCAGA CCGCGGGGTG
    CGCGCCATGG TAGTCGGAAG CAGCAGTGCT AGCGTCGAGG TCGACAATGG CGGCGGCGGC
    GGCGGCCGTG ACATACGATA TGCCTACATC CTCACGGCCG GCTCCGACAA GAAACTCCGG
    TTCTGGGACT TGTCGCGCAT CGAGAACAGC ACTGTGTTCA GCGGCATTGG GCCCGAGGAG
    CCACGGCCGA GCTTCACGGC CAGCCATCCG ACTACGGCGT TGACGCTCAA CACCGAGCGG
    CTGCCACGGC AAAGCGTCGG TGCTGCCGGC GACGATGGCA AGGGCAAGGG TCGGGCCAAG
    ACTGCGCGGT CGACCGTCGT TTCCATTCAG CAACAACAAC TACTGAGAAG CCATCTGGAT
    GCCGTTCTCG ACGTTGCTGT CATCGAGAGT CCGTACACAA TGACTGTGTC CGTGGACCGG
    ATGGGAGTTG TTTTTGTATT CCAGTAA

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

    RefSeq XP_003711966.1
    CDS291..4997
    Translation

    Target ORF information:

    RefSeq Version XM_003711918.1
    Organism Pyricularia oryzae 70-15
    Definition Pyricularia oryzae 70-15 VPS15 protein kinase (MGG_06100), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_003711918.1

    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
    ATGGGCCAGG GACTCTCTCT CACGTCGCCG CCAGCTGGCT CTGCTGGTAT CGACATACCA 
    GAACTGGGCG ATCTTGTGTA CGAAAAGTCG GTCGGCACGG CGCGATTTCT CAAGTGCATC
    CGCGCTAGAC ATCACGATGG CGTCGTTCTG GTCAAGGTTC TCACCAAGCC GTATACCCCC
    ATGCCTCTGG ACGACTATAG GCAAGAGATA ATTCGTGAAA GCAAGGCCCT GGCCGACGTA
    CCGAACGCCT TGGCCTACCA GAGGGTCATC GAGACCGACA CCAACGGATA CCTTGTGCGA
    CAGTACCTCT ATAACTCTCT CTACGATCGA TTTAGCACCC GGCCATTCTT GGAGGATATT
    GAGAAGAAAT GGCTTGCTTT CCAGCTGCTC TGCGCACTGC GCGACTGCCA CAGCAGGGAC
    ATATATCACG GCGACATCAA GACGGAGAAC ACCCTGGTGA CCTCATGGAA CTGGCTGTAT
    TTGTCGGACT TTTCCTCCTC CTTCAAGCCC GTCATCCTGC CAGATGACAA CCCGGCCGAC
    TTCTCTTACT TTTTTGATAC CTCCGGGCGG AGGACCTGCT ATATTGCGCC CGAACGCTTC
    CAACCCGCCG GGGACGCTCT GAATTCTCCC ATCAAGCTCA ACTGGGCTAT GGATATTTTC
    AGCGCCGGCT GTGTCATTGC AGAGCTGTTC ACAGAGGCGC CCATATTCAG TCTCAGTCAA
    CTGTACAACT ATCGCAGTGG GAAATACGAC CCTGCCATCT CCCACCTATC CCACATCCCC
    GACAAGGACC TGCGCGAAAT GATAATTCAC ATGATACAGT TGGATCCTCA AAAGAGATAT
    TCGGCTGAGG ATTACCTGCG TTTCTGGCGC AAGACTGTCT TCCCAGACTA CTTCTACGAC
    TTTCTCCACC AGTACATGGA GGTAATCACA GATCCGTCAT CGGGACAGTA TCCCATATCA
    GGGGCAACAC GTAACCTTGG TGAGGCTGAT GAACGGATCG ACAGAGTATT TTATGATTTC
    GACAAGATCT CCTACTCTCT GGGATATCAA CATAATGCGA GCTCAGGGAA CGGCGCCCTT
    GTGCCGAAGC CTCCTCGTCT GGGCCTGGGG CACTTCCCCA TAAGGCTTAA TATACCAAAC
    CACGAGCACT ATGTATCGAG CCAGGGGCAA CCGCCATCAG ACGATGGTTC TCTGATTTTT
    CTGGCTTTGA TATGCTCGTC CATACGTAAT ACTGCAAGGG CAGCATCAAA GATTCGAGCT
    TGTGATATTC TTCTTGCCTT CTCGGAGAGA ATAACGGATG AGGCAAAGCT GGACCGGGTT
    GTGCCGTACC TCATGACACT GCTAAACGAC AAAGCCGACA TGGTTGTGAT CACCGCAATT
    AGGACAATCA CGCAGGTTCT AGCCCTCGTC AAGGTTGTAA CACCTGTGAA CTCGCCCATC
    TTCCTCGAGT ACATTCTGCC ACGGATGCAG GTAGCCCTGA CTAGCGCGCA GGCGAATCCC
    AGCCCGCTCG TGAGAATGAC GTACGCATCT TGTCTCGGCA CACTGGCCAC TACTGCTGGC
    CGATATCTGG ACATAGCAGG TGCTCTGAGG GCTGAGGGGG CAATCACAGT TGCCGACCCT
    GAGGTCGAGC CAGGGAGCAC CACTGCTTTT GATGGCATGT TCGAGCATAC ACGACATGAG
    CTGGTAATCC AATTCGAGTT ACATGTCAAG CTGTTGATCG AAGACCCGGA TCCCTTTGTC
    CGGAGAGCTT TCCTCAGCTC AGTCCCAGAG CTCTGCATGT TCTTTGGAAC AGCAGATTCA
    AACGACATCA TACTTGCACA CCTCAATACA TATCTCAACG ACCGTGACTG GACCCTCAAG
    TGTGCTCTTT TCGACACTAT CGTTGGCATC GCTGCCTTCA TCGGGAGTAC AAGTCTAGAC
    GAGTTCATAC TACCACTCAT GGTGCAGGCT CTAATGGACA CGGAAGAAAA CGTGGTGCAA
    GGTGCACTTC ACTCGCTAGC CGAGCTGGCC GAGCTTGGGT TATTGTCCAA GTCGAGGGTG
    TGCGAGCTCG TTGAAGTTGT AGCGCGCTTT ACCATGCACC CGAATATCTG GATTCGCGAG
    TCCGCGACCG AGTTCATCGC GATGGCCACC AAATATCTAA CCGCGGCCGA CATCAGGTGC
    ATGGTATATC CAATAGTAAC CCCGTACCTG AAGCCTGGCA TCACCCCGAA TTTCTCCGAG
    CTGGCGTTAC TTGGCACGCT CAGGAGACCG CTCACAAGAC CAGTGTTTGA CCAGGCACTG
    TTGTGGGCTC TCAAATCAGA CCGAGGGTTG TTTTGGAAAC CTCTTCAAAA AGCACGGGCG
    CTGATGCTCG GAAATTCTCC TGCTGCAACG GGAAATGGCC GTGGCTCGAG TGAGCACAAC
    CCAGGCACTC TGGGCAAGGT CGCACGCAAC GAAGAGGATG AGCAGTGGTT ATCAAGACTG
    CGCAATCTGG GCTTGTCGCA GGAAGATGAA CACAAGCTTC TGAGCTTGAG AGAGTTTATC
    TGGAGATTGA GTCAGATGAA GACGCGGGAC TCGGCATCTG CCAGGGACGA GGACAAAACC
    TCGAAGCAGC TCAACAACAT CATCCTCCTT CGCACTCTTG GAGTGACGCC ACAAATGGTA
    TTTTTCGACG AGGAGCCGAA GGGCTTGTCT CAGGGAGGCG GCGAGCTGGA CGGCGCTCCA
    CGCACCATCA CGGATGCACT GCGGGACGCG TCCATGAGTA TTGACGACCC GGTGGCGAGG
    CGCCGGCGTG CAGCACTCAA CAGCCACAGA ACCCGTCTGA ACAGCCGGAA TAGCTTGTCA
    CCCATGTCCA TCGAAGGGCG CATGTCGCTG GATGATGAGA TGGCAGGTGC CCCTTCGAGT
    ACCTCGCCAG GCCTCCTCTC ACCGCCTGGT GACGGTGAAA AGCACAGATC CAATGGCCAA
    GGTCCAAAGC GGACTTTGCG TCACCAATCG AGTGCGCTTA GCCTCCTTAA CCGCAAGGAC
    AACGCCAAGT CTGGAGCAGA GACCGGAATG ACTGAAGCAA ACGCTTTTGG TCAGGTCGGA
    GGTCCATCCT CGCAGGCTTC CAAGAACAAG CCTCTGGCGG CCGATGCTGC TGAGGATCCT
    CTGGCGAAGA ACAGGCCGAG AGCTAACCAC AGTTATGAGG GTAACGACCC CAACATCCTT
    CGGATGCTAG ACTCGATGTA CGTGGATAAC TACCCACACG ATGTCGCTGA GTTCGGACCA
    CTGGTGGCGC CAATCGCTCG ACGAAGAGTC AGCAGACCTG CTACGGCTGA TGGTTCCGAG
    CAAGGATGGA GGCCGGCAGG CAAGCTGGTG GCCACCTTCT CAGAACATAC TGGAGCCATC
    AACAGAGTAG TGCCATCGCC GGATCACGTC TTCTTCATCA CGGGTGGTGA TGACGGGACC
    GTCAGAGTTT GGGATACCGC ACGGCTGGAG CGCAACATTG CGCATCGTTC AAGAGCAGTC
    TACTCTCACG CACCAGGTGT CAGAGTGCTA TCGTTGTGTT TTATCCAGGA CACCCACTGC
    TTCGTCAGTT GCGGAAGTGA TGGAAGTGTA CATATAGTCA AGGTTGAGTG TTCCATGTCT
    GGAGATGTGA CACGGTACAA CAAACAGCCG CGAATGATAC GTCGGTATCA ACTAAACCGG
    CCTGGTGAAT TTGCTGTGTG GTGCGAGCAC TACAAGCAGC AAGGGAACGG CTCGCCAGGT
    AGCACCGAGG GTGGCTCGAC AGGATTCAAC TCAACGACCT CGACGCTGAT CCTGGCAACC
    AACATGTCAC GAGTCGAAGC CATTGATCTG CGCAACACAA CGCTCATCTG GGCGCTCGAG
    AACCCTGTGC ACCATGGAAC GCCAACGTGT TTCTGCCTGG ACCGCAAGCG CAACTGGCTA
    TGTCTCGGAA CCTCGCATGG CGTGCTCGAC CTCTGGGATC TGCGCTTCAA AGTCCGCCTC
    AAGGCGTGGG GTGTTCCTGG AAAGGGCGCC GTCTACCGTC TCGCAGTGCA CCCTACCAAG
    GGCCGCGGGA GATGGGTGTG TGTCGCTGGG GGCACCGGGC AGGGCGAGGT GACCGTTTGG
    GACTTGGAGA AGACAACGTG CCGCGAGGTC TATCGAGTAG GCGGGAACAA GGAGGCCCCA
    CGTGACTACA GCGCCTGGGA GGTGGATGAG GACAAACCCG AGGGCATGCT GGGCCGGTTC
    GCGACCGACA TTGAGACTGG GGAGGCGCCC CATGTCACGG GCGGCTCAGA CCGCGGGGTG
    CGCGCCATGG TAGTCGGAAG CAGCAGTGCT AGCGTCGAGG TCGACAATGG CGGCGGCGGC
    GGCGGCCGTG ACATACGATA TGCCTACATC CTCACGGCCG GCTCCGACAA GAAACTCCGG
    TTCTGGGACT TGTCGCGCAT CGAGAACAGC ACTGTGTTCA GCGGCATTGG GCCCGAGGAG
    CCACGGCCGA GCTTCACGGC CAGCCATCCG ACTACGGCGT TGACGCTCAA CACCGAGCGG
    CTGCCACGGC AAAGCGTCGG TGCTGCCGGC GACGATGGCA AGGGCAAGGG TCGGGCCAAG
    ACTGCGCGGT CGACCGTCGT TTCCATTCAG CAACAACAAC TACTGAGAAG CCATCTGGAT
    GCCGTTCTCG ACGTTGCTGT CATCGAGAGT CCGTACACAA TGACTGTGTC CGTGGACCGG
    ATGGGAGTTG TTTTTGTATT CCAGTAA

    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