ORF » Species Summary » Botrytis cinerea B05.10 » BC1G_02335 cDNA ORF clone

BC1G_02335 cDNA ORF clone, Botrytis cinerea B05.10

The following BC1G_02335 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the BC1G_02335 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
OBc07715 XM_001559121.1
Latest version!		 Botryotinia fuckeliana B05.10 hypothetical protein (BC1G_02335) partial mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OBc19770 XM_024693576.1
Latest version!		 Botrytis cinerea B05.10 Bcvip1 (Bcvip1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OBc19771 XM_024693577.1
Latest version!		 Botrytis cinerea B05.10 Bcvip1 (Bcvip1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00

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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)
    BC1G_02335 ( XM_001559121.1 ) cDNA ORF clone, Botrytis cinerea B05.10 -> XP_001559171.1 Botryotinia fuckeliana B05.10 hypothetical protein (BC1G_02335) partial mRNA.
    Price & Availability↑
    CloneID OBc07715
    Clone ID Related Accession (Same CDS sequence) XM_001559121.1
    Accession Version XM_001559121.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4029bp)
    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 1203868800000
    Organism Botrytis cinerea B05.10
    Product hypothetical 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 (NW_001814565). COMPLETENESS: incomplete on both ends. 

    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
    ATGGCGGACG ATAGCAAAAG TGTGCCTATA CCACTTCCTG AGCCTACTCT TCGACCCCGA 
    GCATCAGTCA CGGAGATGGA TGGAAAACGA ATGTCAGTAT CCTCCATGTA CTCTTTAGCA 
    TCAGCCAGGG CAGGTGGTGT AATAAGTTCT GCGGCATCTG CGACGGGCTC TGAGAATGGA 
    GGAAGTACAA GAACAACTAC AGCATCGGTT TCGGCGCCAG TCTCATCAGT GAAAGGGCTT 
    GGAGTATCTC CACCAGAAAC TTCGAACGTA TCTGTTACAA CTGCTTCTGG TGGGCCAAAT 
    GCACCAAATG GACATCAACT TACAGCCAGA GAACCACCAG CTCAAGCTGC AGAGCTAGCA 
    AAACGGAATT CTGTTGCGAG AGGAGAGGCC CAACCACGAC CTCAACCTCC ACAAAGATCC 
    AGGAGTCGAG CAAAAAGACG TTTCAGTGGT AGCACCGGCG CCAGCAGCCA CAGCCCTAGT 
    AGTGAGAGGG GCCTACATTT GAAAAAAGAA GATGAGAATA GGCCAGCACC TTGGGGTGTT 
    ATAGGAGTAT GTGCCCTTGA CATAAAAGCA CGAAGCAAAC CGAGTCGGAA CATTCTCAAT 
    CGCTTGATTT CAAAAGGCGA ATTTGAGGTT GTCATCTTTG GAGATAAAGT TATTTTGGAT 
    GAGGAGGTTG AGAATTGGCC AATCTGCGAT TTCTTGATTT CCTTCTACTC AGACGGATTT 
    CCACTCGACA AAGCCATTGC GTATGTGCAG GCACGAAAAC CATTTTGTGT TAATGATGTC 
    CCTATGCAAA AGATCTTATG GGATCGCAGG ATCTGTTTAC GAATTCTCGA CAAGATAAAT 
    GTGCCCACGC CCAAGCGTAT AGAAGTAAAC CGAGATGGAG GTCCAGCTGT CTTCACACCG 
    GAGATGGCAA AGCATCTGAA GGACACCACT GGTCTTGTCC TAGAAGGACC CGAAGATGGA 
    ACTGGTGGCC AGATGGTGGC TCCCAAGACT GTTGAGCTCA TCGACAATGG GGACACTTTG 
    AGTGTTGATG GTGTACTATT GTCTAAGCCA TTTGTGGAAA AGCCAGTCAG TGGTGAAGAT 
    CATAATGTCT GCATATACTA TCCCCAAAGT CAAGGCGGAG GAGGTCGAAA GCTCTTCCGT 
    AAGATTGGCA ACAAGAGTTC TGAACATGTC GAAGATCTCA CAATTCCTCG AGCTATATCT 
    GAACCAGGAA GCAGCTATTT ATATGAGAAG TTTATGCGTG TCGATAATGC TGAAGATGTG 
    AAAGCATACA CTGTTGGGCC AACCTTTTGT CACGCCGAAA CTCGCAAGTC CCCCGTTGTT 
    GATGGCTTGG TCAGACGCAA TACTCATGGC AAGGAAATCC GTTACATCAC AGCTCTTACA 
    AAAGAAGAAT CCGCTATGGC TACTCGAATT GCTAACAGTT TCGGTCAGAG AGTATGCGGT 
    TTCGACCTTC TACGTGCGCA AGGGAAAAGT TATGTCATTG ATGTCAATGG ATGGAGTTTT 
    GTTAAAGATA ATGAGGAGTA TTATGAGCAA TGTGCACGTA TATTGAAAGA TATGTTTGTT 
    CGCGAAAAGC AAAAGTATAC TGGGCAATCC CAGCCTGTTA GTGGTGTAAC TTCCCCAACC 
    GACGGAACAA TGAGCCCTAC TGCTATAAGA AAAGAGCCAG CACTCAAGGA AAATCATCGG 
    TCAGCCTTAC AAAACATCCT TTCCAAATCA CCTAGCATGT CAAACATGAT TCACGGACAT 
    CTTCCTAATC ATGGATCACA CAGACTCTCC AATTCAGGTT CTCCTCAGCC TGGTAACTCA 
    GCTGTCCCAA CTCCGAAGAC CTCACCTCCA CTTTCTGCGG AGCAGGACAC CTCTGCCATA 
    CCTTCTGCAG AGTTGTTGCC ACCACCTGCA GTGTCTGGTC CCAGCGAAGT GCCATCTGTT 
    ACGTCTACAG TCCCACCTTC ACCCACTCCT ACCCCAGGAC AAGATCAACA GACACTACCA 
    CCACCGGCAC CCAAACATAC GTGGAAGCTG AAGGCGAAGA AAGGTGGGTG GACAGGTACA 
    AAAGTACAAA TCAAGCCCAT GTTTCGAAAA AGAAAGCCAG AGGAATCCCC TAATTCCGAG 
    ATACCACCTG CACCAGAAGA TCTCGCTTCA ATTGATCCAA GTCTCGAACA CTCCGATAAA 
    GCAAAGACTG CTGCGAATCT TGAGAGAAGA TCGCCTACTC GAAATGACTC GTTATCCGGC 
    GTTACTTTAT CTCGCATAAC CGCAGCGGAG GAGAGCCTTG TATTGGATAA ACTCCAGCTC 
    ATTGTCAAAT GGGGTGGCGA GCCGACTCAC TCGGCTAGAT ATCAAGCACA AGAGCTTGGT 
    GAAACAATGC GAAACGACCT TCAATTGATG AACAAGGACA TTCTTGATGA AGTTCATGTA 
    TTCAGTAGCT CCGAGAGACG TGTGACGGCA AGTGCTCAAA TATGGGCTTC TGCCTTCACA 
    AACCAAAAGG ATCTGGCATC TGATTTCATT ACTGTGCGCA AAGATTTGCT TGATGACTCC 
    AACGCAGCTA AAGATGAGAT GGATAAAGTC AAAAAGAAGC TCAAGACTCT GTTGAGACAA 
    GGAATGGAAG CACCTCCCGA GTTTGCCTGG CCAGCGGATA TGCCAGAACC ATCGATTGTG 
    CAGAAATACG TTGTTCATTT GATGAAATTT CATAGGAGAG TTATGCGTAA CAATTTTAGC 
    AAGCTTTATG GAGGCGCCAC TACATCACTC AATGCAATTG TAAATCCTGG AGATAAGGAG 
    AGCAAAGGAG CAGGTTCGGC TTTGTCACAA GCAAACGCTA CGAGCAGTAT CCAAGCTCGT 
    TGGTGCTGTG GTGAAGATGC CGAGCTATTT AAGGAACGAT GGGAGAAGCT TTTCAACGAA 
    TTTTCCGATC CCGAGAAAGT AGATCCAAGC AAAATCTCTG AACTATACGA TACCATGAAG 
    TTTGATGCCC TTCACAATCG ACAATTCCTT GAATGGGTTT TCACTCCGAG CAAAAGCATT 
    CTCGAGGAAG AGGAAATAGA GCTTGCTTGG GAAAAAGACC GATCCAAAAA CTCGGAAAAT 
    GCTAAGGATG AGACTGTGCC AGCGGAGAAG GCTGAAAGTA GTAGGACACT GCATAGACGC 
    ATGTTTAGAA GAAAGTCGGT GTTGAATGGA AAAAATAGTG AAGAAGAATC GTATTTTCGA 
    CTTTTCACTG GCAGCAGCCA AACGAAAGCT AAAACCGACG TTCGCTTGGA GAAATTGCGA 
    GAATTGTATA AACTATCTAA AGTCTTATTT GATTTCATCT GCCCACAAGA ATATGGTATT 
    GCGGATAGCG AGAAACTTGA GATTGGTCTT TTGACATCAC TTCCCTTGCT GAAGGAAATC 
    GTCCAGGATC TCGAGGAAAT GCAAGCCTCG GATGACGCCA AAGCATTCGT ATATTTCACC 
    AAAGAGTCTC ACATTTACAC ACTTCTTAAC TGTATTCTTG AAGGAGGTAT CGAAACAAAG 
    ATTAAACGAA GTGCCATCCC CGAGCTCGAC TACCTCTCAC AAATATGCTT TGAGCTTTAC 
    GAATCTGAGA ACAAGACTCC CGTCGATGCA CAAGATGTAG CTAAATATGC GTATAGCATT 
    CGCATCACAA TCAGTCCAGG CGCTCACACG TTTGATCCGT TGGACGTACA GCTGGACAGT 
    AAACATAGTA TTAGTTGTGC TCCGAGAAGA AGTCTGACAG CTCATGCCGA TTGGAAATAT 
    GTTATTGATA CATTGAGGGC AAAGTTTCAT CAAGTCAAAC TTCCGAAGAG TTTCCTCGCC 
    GTCAATCTTG CGGAATCACA CACTTTTCAC AAGAAAGAAC TAGATAATGC GGAGGACGAT 
    TCGACTATTG CAGAGGTATT AAGTAGTGAG AATCAAGCCG CTGATGGGAA TGAGAATGAA 
    CATGGAGAGA AAAATGATTT AAAAGAAGAA GTCGTAGAAG CAGCCAATGA AGCAACTGCC 
    GGACCGGCTT TAGTTGCAGC ACCATCTGGA GATGATTCAG ATGTGAAAAG CCACAGCGAA 
    CCCGTCTGA

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

    RefSeq XP_001559171.1
    CDS1..4029
    Translation

    Target ORF information:

    RefSeq Version XM_001559121.1
    Organism Botrytis cinerea B05.10
    Definition Botryotinia fuckeliana B05.10 hypothetical protein (BC1G_02335) partial mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_001559121.1

    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
    ATGGCGGACG ATAGCAAAAG TGTGCCTATA CCACTTCCTG AGCCTACTCT TCGACCCCGA 
    GCATCAGTCA CGGAGATGGA TGGAAAACGA ATGTCAGTAT CCTCCATGTA CTCTTTAGCA 
    TCAGCCAGGG CAGGTGGTGT AATAAGTTCT GCGGCATCTG CGACGGGCTC TGAGAATGGA 
    GGAAGTACAA GAACAACTAC AGCATCGGTT TCGGCGCCAG TCTCATCAGT GAAAGGGCTT 
    GGAGTATCTC CACCAGAAAC TTCGAACGTA TCTGTTACAA CTGCTTCTGG TGGGCCAAAT 
    GCACCAAATG GACATCAACT TACAGCCAGA GAACCACCAG CTCAAGCTGC AGAGCTAGCA 
    AAACGGAATT CTGTTGCGAG AGGAGAGGCC CAACCACGAC CTCAACCTCC ACAAAGATCC 
    AGGAGTCGAG CAAAAAGACG TTTCAGTGGT AGCACCGGCG CCAGCAGCCA CAGCCCTAGT 
    AGTGAGAGGG GCCTACATTT GAAAAAAGAA GATGAGAATA GGCCAGCACC TTGGGGTGTT 
    ATAGGAGTAT GTGCCCTTGA CATAAAAGCA CGAAGCAAAC CGAGTCGGAA CATTCTCAAT 
    CGCTTGATTT CAAAAGGCGA ATTTGAGGTT GTCATCTTTG GAGATAAAGT TATTTTGGAT 
    GAGGAGGTTG AGAATTGGCC AATCTGCGAT TTCTTGATTT CCTTCTACTC AGACGGATTT 
    CCACTCGACA AAGCCATTGC GTATGTGCAG GCACGAAAAC CATTTTGTGT TAATGATGTC 
    CCTATGCAAA AGATCTTATG GGATCGCAGG ATCTGTTTAC GAATTCTCGA CAAGATAAAT 
    GTGCCCACGC CCAAGCGTAT AGAAGTAAAC CGAGATGGAG GTCCAGCTGT CTTCACACCG 
    GAGATGGCAA AGCATCTGAA GGACACCACT GGTCTTGTCC TAGAAGGACC CGAAGATGGA 
    ACTGGTGGCC AGATGGTGGC TCCCAAGACT GTTGAGCTCA TCGACAATGG GGACACTTTG 
    AGTGTTGATG GTGTACTATT GTCTAAGCCA TTTGTGGAAA AGCCAGTCAG TGGTGAAGAT 
    CATAATGTCT GCATATACTA TCCCCAAAGT CAAGGCGGAG GAGGTCGAAA GCTCTTCCGT 
    AAGATTGGCA ACAAGAGTTC TGAACATGTC GAAGATCTCA CAATTCCTCG AGCTATATCT 
    GAACCAGGAA GCAGCTATTT ATATGAGAAG TTTATGCGTG TCGATAATGC TGAAGATGTG 
    AAAGCATACA CTGTTGGGCC AACCTTTTGT CACGCCGAAA CTCGCAAGTC CCCCGTTGTT 
    GATGGCTTGG TCAGACGCAA TACTCATGGC AAGGAAATCC GTTACATCAC AGCTCTTACA 
    AAAGAAGAAT CCGCTATGGC TACTCGAATT GCTAACAGTT TCGGTCAGAG AGTATGCGGT 
    TTCGACCTTC TACGTGCGCA AGGGAAAAGT TATGTCATTG ATGTCAATGG ATGGAGTTTT 
    GTTAAAGATA ATGAGGAGTA TTATGAGCAA TGTGCACGTA TATTGAAAGA TATGTTTGTT 
    CGCGAAAAGC AAAAGTATAC TGGGCAATCC CAGCCTGTTA GTGGTGTAAC TTCCCCAACC 
    GACGGAACAA TGAGCCCTAC TGCTATAAGA AAAGAGCCAG CACTCAAGGA AAATCATCGG 
    TCAGCCTTAC AAAACATCCT TTCCAAATCA CCTAGCATGT CAAACATGAT TCACGGACAT 
    CTTCCTAATC ATGGATCACA CAGACTCTCC AATTCAGGTT CTCCTCAGCC TGGTAACTCA 
    GCTGTCCCAA CTCCGAAGAC CTCACCTCCA CTTTCTGCGG AGCAGGACAC CTCTGCCATA 
    CCTTCTGCAG AGTTGTTGCC ACCACCTGCA GTGTCTGGTC CCAGCGAAGT GCCATCTGTT 
    ACGTCTACAG TCCCACCTTC ACCCACTCCT ACCCCAGGAC AAGATCAACA GACACTACCA 
    CCACCGGCAC CCAAACATAC GTGGAAGCTG AAGGCGAAGA AAGGTGGGTG GACAGGTACA 
    AAAGTACAAA TCAAGCCCAT GTTTCGAAAA AGAAAGCCAG AGGAATCCCC TAATTCCGAG 
    ATACCACCTG CACCAGAAGA TCTCGCTTCA ATTGATCCAA GTCTCGAACA CTCCGATAAA 
    GCAAAGACTG CTGCGAATCT TGAGAGAAGA TCGCCTACTC GAAATGACTC GTTATCCGGC 
    GTTACTTTAT CTCGCATAAC CGCAGCGGAG GAGAGCCTTG TATTGGATAA ACTCCAGCTC 
    ATTGTCAAAT GGGGTGGCGA GCCGACTCAC TCGGCTAGAT ATCAAGCACA AGAGCTTGGT 
    GAAACAATGC GAAACGACCT TCAATTGATG AACAAGGACA TTCTTGATGA AGTTCATGTA 
    TTCAGTAGCT CCGAGAGACG TGTGACGGCA AGTGCTCAAA TATGGGCTTC TGCCTTCACA 
    AACCAAAAGG ATCTGGCATC TGATTTCATT ACTGTGCGCA AAGATTTGCT TGATGACTCC 
    AACGCAGCTA AAGATGAGAT GGATAAAGTC AAAAAGAAGC TCAAGACTCT GTTGAGACAA 
    GGAATGGAAG CACCTCCCGA GTTTGCCTGG CCAGCGGATA TGCCAGAACC ATCGATTGTG 
    CAGAAATACG TTGTTCATTT GATGAAATTT CATAGGAGAG TTATGCGTAA CAATTTTAGC 
    AAGCTTTATG GAGGCGCCAC TACATCACTC AATGCAATTG TAAATCCTGG AGATAAGGAG 
    AGCAAAGGAG CAGGTTCGGC TTTGTCACAA GCAAACGCTA CGAGCAGTAT CCAAGCTCGT 
    TGGTGCTGTG GTGAAGATGC CGAGCTATTT AAGGAACGAT GGGAGAAGCT TTTCAACGAA 
    TTTTCCGATC CCGAGAAAGT AGATCCAAGC AAAATCTCTG AACTATACGA TACCATGAAG 
    TTTGATGCCC TTCACAATCG ACAATTCCTT GAATGGGTTT TCACTCCGAG CAAAAGCATT 
    CTCGAGGAAG AGGAAATAGA GCTTGCTTGG GAAAAAGACC GATCCAAAAA CTCGGAAAAT 
    GCTAAGGATG AGACTGTGCC AGCGGAGAAG GCTGAAAGTA GTAGGACACT GCATAGACGC 
    ATGTTTAGAA GAAAGTCGGT GTTGAATGGA AAAAATAGTG AAGAAGAATC GTATTTTCGA 
    CTTTTCACTG GCAGCAGCCA AACGAAAGCT AAAACCGACG TTCGCTTGGA GAAATTGCGA 
    GAATTGTATA AACTATCTAA AGTCTTATTT GATTTCATCT GCCCACAAGA ATATGGTATT 
    GCGGATAGCG AGAAACTTGA GATTGGTCTT TTGACATCAC TTCCCTTGCT GAAGGAAATC 
    GTCCAGGATC TCGAGGAAAT GCAAGCCTCG GATGACGCCA AAGCATTCGT ATATTTCACC 
    AAAGAGTCTC ACATTTACAC ACTTCTTAAC TGTATTCTTG AAGGAGGTAT CGAAACAAAG 
    ATTAAACGAA GTGCCATCCC CGAGCTCGAC TACCTCTCAC AAATATGCTT TGAGCTTTAC 
    GAATCTGAGA ACAAGACTCC CGTCGATGCA CAAGATGTAG CTAAATATGC GTATAGCATT 
    CGCATCACAA TCAGTCCAGG CGCTCACACG TTTGATCCGT TGGACGTACA GCTGGACAGT 
    AAACATAGTA TTAGTTGTGC TCCGAGAAGA AGTCTGACAG CTCATGCCGA TTGGAAATAT 
    GTTATTGATA CATTGAGGGC AAAGTTTCAT CAAGTCAAAC TTCCGAAGAG TTTCCTCGCC 
    GTCAATCTTG CGGAATCACA CACTTTTCAC AAGAAAGAAC TAGATAATGC GGAGGACGAT 
    TCGACTATTG CAGAGGTATT AAGTAGTGAG AATCAAGCCG CTGATGGGAA TGAGAATGAA 
    CATGGAGAGA AAAATGATTT AAAAGAAGAA GTCGTAGAAG CAGCCAATGA AGCAACTGCC 
    GGACCGGCTT TAGTTGCAGC ACCATCTGGA GATGATTCAG ATGTGAAAAG CCACAGCGAA 
    CCCGTCTGA

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

    BC1G_02335 ( XM_024693576.1 ) cDNA ORF clone, Botrytis cinerea B05.10 -> XP_024549362.1 Botrytis cinerea B05.10 Bcvip1 (Bcvip1), mRNA.
    Price & Availability↑
    CloneID OBc19770
    Clone ID Related Accession (Same CDS sequence) XM_024693576.1
    Accession Version XM_024693576.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4641bp)
    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 1523808000000
    Organism Botrytis cinerea B05.10
    Product Bcvip1
    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_037315). 

    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
    ATGGCACAAG AAGGGGAGAG CGCAGTGATG GAAACTAATG ATCCTAGTCC CGATAAACAG 
    GCGGTCGGAT TTTCAACATT CAACAAATCC AAATCATCAA GCCACGAAGC ACAACCAACA 
    AAGGACTTGA GCCCCAAATC TAAACTGAGA AGGACTTCGC TCAGCTTATC TTCCGGCAGT 
    GGCATTCTTG CGTCATTGAG CAGGAAAGGA AAGCACGCGG ATCCACTGAT ACACACAGAA 
    CTCAATTCTG AACGAGCAAG TATTTCTATG CCACCACCTC CTACCAGAGC ATTGCCAAAG 
    TCTAGAACAT CTTCAACATA CAGCCAACGA TCGCCCGCCG CATTGGCAGT TTTGGAGGAG 
    AGCTTAAATT TAGAGGGAAC AGGAACTAGC CATCAAGATT TTGCTGTTGA GGAATCCGAG 
    CCCTCAAAGG CGAATCTACC AATGGCAGAT GATAAAACCC CTCCAACAAA TTTAACAATG 
    GCGGACGATA GCAAAAGTGT GCCTATACCA CTTCCTGAGC CTACTCTTCG ACCCCGAGCA 
    TCAGTCACGG AGATGGATGG AAAACGAATG TCAGTATCCT CCATGTACTC TTTAGCATCA 
    GCCAGGGCAG GTGGTGTAAT AAGTTCTGCG GCATCTGCGA CGGGCTCTGA GAATGGAGGA 
    AGTACAAGAA CAACTACAGC ATCGGTTTCG GCGCCAGTCT CATCAGTGAA AGGGCTTGGA 
    GTATCTCCAC CAGAAACTTC GAACGTATCT GTTACAACTG CTTCTGGTGG GCCAAATGCA 
    CCAAATGGAC ATCAACTTAC AGCCAGAGAA CCACCAGCTC AAGCTGCAGA GCTAGCAAAA 
    CGGAATTCTG TTGCGAGAGG AGAGGCCCAA CCACGACCTC AACCTCCACA AAGATCCAGG 
    AGTCGAGCAA AAAGACGTTT CAGTGGTAGC ACCGGCGCCA GCAGCCACAG CCCTAGTAGT 
    GAGAGGGGCC TACATTTGAA AAAAGAAGAT GAGAATAGGC CAGCACCTTG GGGTGTTATA 
    GGAGTATGTG CCCTTGACAT AAAAGCACGA AGCAAACCGA GTCGGAACAT TCTCAATCGC 
    TTGATTTCAA AAGGCGAATT TGAGGTTGTC ATCTTTGGAG ATAAAGTTAT TTTGGATGAG 
    GAGGTTGAGA ATTGGCCAAT CTGCGATTTC TTGATTTCCT TCTACTCAGA CGGATTTCCA 
    CTCGACAAAG CCATTGCGTA TGTGCAGGCA CGAAAACCAT TTTGTGTTAA TGATGTCCCT 
    ATGCAAAAGA TCTTATGGGA TCGCAGGATC TGTTTACGAA TTCTCGACAA GATAAATGTG 
    CCCACGCCCA AGCGTATAGA AGTAAACCGA GATGGAGGTC CAGCTGTCTT CACACCGGAG 
    ATGGCAAAGC ATCTGAAGGA CACCACTGGT CTTGTCCTAG AAGGACCCGA AGATGGAACT 
    GGTGGCCAGA TGGTGGCTCC CAAGACTGTT GAGCTCATCG ACAATGGGGA CACTTTGAGT 
    GTTGATGGTG TACTATTGTC TAAGCCATTT GTGGAAAAGC CAGTCAGTGG TGAAGATCAT 
    AATGTCTGCA TATACTATCC CCAAAGTCAA GGCGGAGGAG GTCGAAAGCT CTTCCGTAAG 
    ATTGGCAACA AGAGTTCTGA ACATGTCGAA GATCTCACAA TTCCTCGAGC TATATCTGAA 
    CCAGGAAGCA GCTATTTATA TGAGAAGTTT ATGCGTGTCG ATAATGCTGA AGATGTGAAA 
    GCATACACTG TTGGGCCAAC CTTTTGTCAC GCCGAAACTC GCAAGTCCCC CGTTGTTGAT 
    GGCTTGGTCA GACGCAATAC TCATGGCAAG GAAATCCGTT ACATCACAGC TCTTACAAAA 
    GAAGAATCCG CTATGGCTAC TCGAATTGCT AACAGTTTCG GTCAGAGAGT ATGCGGTTTC 
    GACCTTCTAC GTGCGCAAGG GAAAAGTTAT GTCATTGATG TCAATGGATG GAGTTTTGTT 
    AAAGATAATG AGGAGTATTA TGAGCAATGT GCACGTATAT TGAAAGATAT GTTTGTTCGC 
    GAAAAGCAAA AGTATACTGG GCAATCCCAG CCTGTTAGTG GTGTAACTTC CCCAACCGAC 
    GGAACAATGA GCCCTACTGC TATAAGAAAA GAGCCAGCAC TCAAGGAAAA TCATCGACTC 
    TCCAATTCAG GTTCTCCTCA GCCTGGTAAC TCAGCTGTCC CAACTCCGAA GACCTCACCT 
    CCACTTTCTG CGGAGCAGGA CACCTCTGCC ATACCTTCTG CAGAGTTGTT GCCACCACCT 
    GCAGTGTCTG GTCCCAGCGA AGTGCCATCT GTTACGTCTA CAGTCCCACC TTCACCCACT 
    CCTACCCCAG GACAAGATCA ACAGACACTA CCACCACCGG CACCCAAACA TACGTGGAAG 
    CTGAAGGGTA TGGTATCTGT CATTCGACAT GCTGATCGTA CACCCAAGCA GAAATACAAA 
    TATACGTTTC ACACCAAACC TTTTATCGAT CTTCTAAAGG GGCACCAAGA AGAAGTCCTC 
    TTGATAGGCG AAGCTGCGTT GGATAGTGTT ATGCTTGCAG TTGATGCTGC AGCCTATGAG 
    GGAATCGAGG ACAAAGAAAA GTTGAAATCA CTAAGGAACG TTCTAGCGAA GAAAGGGGGG 
    TGGACAGGTA CAAAAGTACA AATCAAGCCC ATGTTTCGAA AAAGAAAGCC AGAGGAATCC 
    CCTAATTCCG AGATACCACC TGCACCAGAA GATCTCGCTT CAATTGATCC AAGTCTCGAA 
    CACTCCGATA AAGCAAAGAC TGCTGCGAAT CTTGAGAGAA GATCGCCTAC TCGAAATGAC 
    TCGTTATCCG GCGTTACTTT ATCTCGCATA ACCGCAGCGG AGGAGAGCCT TGTATTGGAT 
    AAACTCCAGC TCATTGTCAA ATGGGGTGGC GAGCCGACTC ACTCGGCTAG ATATCAAGCA 
    CAAGAGCTTG GTGAAACAAT GCGAAACGAC CTTCAATTGA TGAACAAGGA CATTCTTGAT 
    GAAGTTCATG TATTCAGTAG CTCCGAGAGA CGTGTGACGG CAAGTGCTCA AATATGGGCT 
    TCTGCCTTCA CAAACCAAAA GGATCTGGCA TCTGATTTCA TTACTGTGCG CAAAGATTTG 
    CTTGATGACT CCAACGCAGC TAAAGATGAG ATGGATAAAG TCAAAAAGAA GCTCAAGACT 
    CTGTTGAGAC AAGGAATGGA AGCACCTCCC GAGTTTGCCT GGCCAGCGGA TATGCCAGAA 
    CCATCGATTG TGCAGAAATA CGTTGTTCAT TTGATGAAAT TTCATAGGAG AGTTATGCGT 
    AACAATTTTA GCAAGCTTTA TGGAGGCGCC ACTACATCAC TCAATGCAAT TGTAAATCCT 
    GGAGATAAGG AGAGCAAAGG AGCAGGTTCG GCTTTGTCAC AAGCAAACGC TACGAGCAGT 
    ATCCAAGCTC GTTGGTGCTG TGGTGAAGAT GCCGAGCTAT TTAAGGAACG ATGGGAGAAG 
    CTTTTCAACG AATTTTCCGA TCCCGAGAAA GTAGATCCAA GCAAAATCTC TGAACTATAC 
    GATACCATGA AGTTTGATGC CCTTCACAAT CGACAATTCC TTGAATGGGT TTTCACTCCG 
    AGCAAAAGCA TTCTCGAGGA AGAGGAAATA GAGCTTGCTT GGGAAAAAGA CCGATCCAAA 
    AACTCGGAAA ATGCTAAGGA TGAGACTGTG CCAGCGGAGA AGGCTGAAAG TAGTAGGACA 
    CTGCATAGAC GCATGTTTAG AAGAAAGTCG GTGTTGAATG GAAAAAATAG TGAAGAAGAA 
    TCGTATTTTC GACTTTTCAC TGGCAGCAGC CAAACGAAAG CTAAAACCGA CGTTCGCTTG 
    GAGAAATTGC GAGAATTGTA TAAACTATCT AAAGTCTTAT TTGATTTCAT CTGCCCACAA 
    GAATATGGTA TTGCGGATAG CGAGAAACTT GAGATTGGTC TTTTGACATC ACTTCCCTTG 
    CTGAAGGAAA TCGTCCAGGA TCTCGAGGAA ATGCAAGCCT CGGATGACGC CAAAGCATTC 
    GTATATTTCA CCAAAGAGTC TCACATTTAC ACACTTCTTA ACTGTATTCT TGAAGGAGGT 
    ATCGAAACAA AGATTAAACG AAGTGCCATC CCCGAGCTCG ACTACCTCTC ACAAATATGC 
    TTTGAGCTTT ACGAATCTGA GAACAAGACT CCCGTCGATG CACAAGATGT AGCTAAATAT 
    GCGTATAGCA TTCGCATCAC AATCAGTCCA GGCGCTCACA CGTTTGATCC GTTGGACGTA 
    CAGCTGGACA GTAAACATAG TATTAGTTGT GCTCCGAGAA GAAGTCTGAC AGCTCATGCC 
    GATTGGAAAT ATGTTATTGA TACATTGAGG GCAAAGTTTC ATCAAGTCAA ACTTCCGAAG 
    AGTTTCCTCG CCGTCAATCT TGCGGAATCA CACACTTTTC ACAAGAAAGA ACTAGATAAT 
    GCGGAGGACG ATTCGACTAT TGCAGAGGTA TTAAGTAGTG AGAATCAAGC CGCTGATGGG 
    AATGAGAATG AACATGGAGA GAAAAATGAT TTAAAAGAAG AAGTCGTAGA AGCAGCCAAT 
    GAAGCAACTG CCGGACCGGC TTTAGTTGCA GCACCATCTG GAGATGATTC AGATGTGAAA 
    AGCCACAGCG AACCCGTCTG A

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

    RefSeq XP_024549362.1
    CDS589..5229
    Translation

    Target ORF information:

    RefSeq Version XM_024693576.1
    Organism Botrytis cinerea B05.10
    Definition Botrytis cinerea B05.10 Bcvip1 (Bcvip1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024693576.1

    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
    ATGGCACAAG AAGGGGAGAG CGCAGTGATG GAAACTAATG ATCCTAGTCC CGATAAACAG 
    GCGGTCGGAT TTTCAACATT CAACAAATCC AAATCATCAA GCCACGAAGC ACAACCAACA 
    AAGGACTTGA GCCCCAAATC TAAACTGAGA AGGACTTCGC TCAGCTTATC TTCCGGCAGT 
    GGCATTCTTG CGTCATTGAG CAGGAAAGGA AAGCACGCGG ATCCACTGAT ACACACAGAA 
    CTCAATTCTG AACGAGCAAG TATTTCTATG CCACCACCTC CTACCAGAGC ATTGCCAAAG 
    TCTAGAACAT CTTCAACATA CAGCCAACGA TCGCCCGCCG CATTGGCAGT TTTGGAGGAG 
    AGCTTAAATT TAGAGGGAAC AGGAACTAGC CATCAAGATT TTGCTGTTGA GGAATCCGAG 
    CCCTCAAAGG CGAATCTACC AATGGCAGAT GATAAAACCC CTCCAACAAA TTTAACAATG 
    GCGGACGATA GCAAAAGTGT GCCTATACCA CTTCCTGAGC CTACTCTTCG ACCCCGAGCA 
    TCAGTCACGG AGATGGATGG AAAACGAATG TCAGTATCCT CCATGTACTC TTTAGCATCA 
    GCCAGGGCAG GTGGTGTAAT AAGTTCTGCG GCATCTGCGA CGGGCTCTGA GAATGGAGGA 
    AGTACAAGAA CAACTACAGC ATCGGTTTCG GCGCCAGTCT CATCAGTGAA AGGGCTTGGA 
    GTATCTCCAC CAGAAACTTC GAACGTATCT GTTACAACTG CTTCTGGTGG GCCAAATGCA 
    CCAAATGGAC ATCAACTTAC AGCCAGAGAA CCACCAGCTC AAGCTGCAGA GCTAGCAAAA 
    CGGAATTCTG TTGCGAGAGG AGAGGCCCAA CCACGACCTC AACCTCCACA AAGATCCAGG 
    AGTCGAGCAA AAAGACGTTT CAGTGGTAGC ACCGGCGCCA GCAGCCACAG CCCTAGTAGT 
    GAGAGGGGCC TACATTTGAA AAAAGAAGAT GAGAATAGGC CAGCACCTTG GGGTGTTATA 
    GGAGTATGTG CCCTTGACAT AAAAGCACGA AGCAAACCGA GTCGGAACAT TCTCAATCGC 
    TTGATTTCAA AAGGCGAATT TGAGGTTGTC ATCTTTGGAG ATAAAGTTAT TTTGGATGAG 
    GAGGTTGAGA ATTGGCCAAT CTGCGATTTC TTGATTTCCT TCTACTCAGA CGGATTTCCA 
    CTCGACAAAG CCATTGCGTA TGTGCAGGCA CGAAAACCAT TTTGTGTTAA TGATGTCCCT 
    ATGCAAAAGA TCTTATGGGA TCGCAGGATC TGTTTACGAA TTCTCGACAA GATAAATGTG 
    CCCACGCCCA AGCGTATAGA AGTAAACCGA GATGGAGGTC CAGCTGTCTT CACACCGGAG 
    ATGGCAAAGC ATCTGAAGGA CACCACTGGT CTTGTCCTAG AAGGACCCGA AGATGGAACT 
    GGTGGCCAGA TGGTGGCTCC CAAGACTGTT GAGCTCATCG ACAATGGGGA CACTTTGAGT 
    GTTGATGGTG TACTATTGTC TAAGCCATTT GTGGAAAAGC CAGTCAGTGG TGAAGATCAT 
    AATGTCTGCA TATACTATCC CCAAAGTCAA GGCGGAGGAG GTCGAAAGCT CTTCCGTAAG 
    ATTGGCAACA AGAGTTCTGA ACATGTCGAA GATCTCACAA TTCCTCGAGC TATATCTGAA 
    CCAGGAAGCA GCTATTTATA TGAGAAGTTT ATGCGTGTCG ATAATGCTGA AGATGTGAAA 
    GCATACACTG TTGGGCCAAC CTTTTGTCAC GCCGAAACTC GCAAGTCCCC CGTTGTTGAT 
    GGCTTGGTCA GACGCAATAC TCATGGCAAG GAAATCCGTT ACATCACAGC TCTTACAAAA 
    GAAGAATCCG CTATGGCTAC TCGAATTGCT AACAGTTTCG GTCAGAGAGT ATGCGGTTTC 
    GACCTTCTAC GTGCGCAAGG GAAAAGTTAT GTCATTGATG TCAATGGATG GAGTTTTGTT 
    AAAGATAATG AGGAGTATTA TGAGCAATGT GCACGTATAT TGAAAGATAT GTTTGTTCGC 
    GAAAAGCAAA AGTATACTGG GCAATCCCAG CCTGTTAGTG GTGTAACTTC CCCAACCGAC 
    GGAACAATGA GCCCTACTGC TATAAGAAAA GAGCCAGCAC TCAAGGAAAA TCATCGACTC 
    TCCAATTCAG GTTCTCCTCA GCCTGGTAAC TCAGCTGTCC CAACTCCGAA GACCTCACCT 
    CCACTTTCTG CGGAGCAGGA CACCTCTGCC ATACCTTCTG CAGAGTTGTT GCCACCACCT 
    GCAGTGTCTG GTCCCAGCGA AGTGCCATCT GTTACGTCTA CAGTCCCACC TTCACCCACT 
    CCTACCCCAG GACAAGATCA ACAGACACTA CCACCACCGG CACCCAAACA TACGTGGAAG 
    CTGAAGGGTA TGGTATCTGT CATTCGACAT GCTGATCGTA CACCCAAGCA GAAATACAAA 
    TATACGTTTC ACACCAAACC TTTTATCGAT CTTCTAAAGG GGCACCAAGA AGAAGTCCTC 
    TTGATAGGCG AAGCTGCGTT GGATAGTGTT ATGCTTGCAG TTGATGCTGC AGCCTATGAG 
    GGAATCGAGG ACAAAGAAAA GTTGAAATCA CTAAGGAACG TTCTAGCGAA GAAAGGGGGG 
    TGGACAGGTA CAAAAGTACA AATCAAGCCC ATGTTTCGAA AAAGAAAGCC AGAGGAATCC 
    CCTAATTCCG AGATACCACC TGCACCAGAA GATCTCGCTT CAATTGATCC AAGTCTCGAA 
    CACTCCGATA AAGCAAAGAC TGCTGCGAAT CTTGAGAGAA GATCGCCTAC TCGAAATGAC 
    TCGTTATCCG GCGTTACTTT ATCTCGCATA ACCGCAGCGG AGGAGAGCCT TGTATTGGAT 
    AAACTCCAGC TCATTGTCAA ATGGGGTGGC GAGCCGACTC ACTCGGCTAG ATATCAAGCA 
    CAAGAGCTTG GTGAAACAAT GCGAAACGAC CTTCAATTGA TGAACAAGGA CATTCTTGAT 
    GAAGTTCATG TATTCAGTAG CTCCGAGAGA CGTGTGACGG CAAGTGCTCA AATATGGGCT 
    TCTGCCTTCA CAAACCAAAA GGATCTGGCA TCTGATTTCA TTACTGTGCG CAAAGATTTG 
    CTTGATGACT CCAACGCAGC TAAAGATGAG ATGGATAAAG TCAAAAAGAA GCTCAAGACT 
    CTGTTGAGAC AAGGAATGGA AGCACCTCCC GAGTTTGCCT GGCCAGCGGA TATGCCAGAA 
    CCATCGATTG TGCAGAAATA CGTTGTTCAT TTGATGAAAT TTCATAGGAG AGTTATGCGT 
    AACAATTTTA GCAAGCTTTA TGGAGGCGCC ACTACATCAC TCAATGCAAT TGTAAATCCT 
    GGAGATAAGG AGAGCAAAGG AGCAGGTTCG GCTTTGTCAC AAGCAAACGC TACGAGCAGT 
    ATCCAAGCTC GTTGGTGCTG TGGTGAAGAT GCCGAGCTAT TTAAGGAACG ATGGGAGAAG 
    CTTTTCAACG AATTTTCCGA TCCCGAGAAA GTAGATCCAA GCAAAATCTC TGAACTATAC 
    GATACCATGA AGTTTGATGC CCTTCACAAT CGACAATTCC TTGAATGGGT TTTCACTCCG 
    AGCAAAAGCA TTCTCGAGGA AGAGGAAATA GAGCTTGCTT GGGAAAAAGA CCGATCCAAA 
    AACTCGGAAA ATGCTAAGGA TGAGACTGTG CCAGCGGAGA AGGCTGAAAG TAGTAGGACA 
    CTGCATAGAC GCATGTTTAG AAGAAAGTCG GTGTTGAATG GAAAAAATAG TGAAGAAGAA 
    TCGTATTTTC GACTTTTCAC TGGCAGCAGC CAAACGAAAG CTAAAACCGA CGTTCGCTTG 
    GAGAAATTGC GAGAATTGTA TAAACTATCT AAAGTCTTAT TTGATTTCAT CTGCCCACAA 
    GAATATGGTA TTGCGGATAG CGAGAAACTT GAGATTGGTC TTTTGACATC ACTTCCCTTG 
    CTGAAGGAAA TCGTCCAGGA TCTCGAGGAA ATGCAAGCCT CGGATGACGC CAAAGCATTC 
    GTATATTTCA CCAAAGAGTC TCACATTTAC ACACTTCTTA ACTGTATTCT TGAAGGAGGT 
    ATCGAAACAA AGATTAAACG AAGTGCCATC CCCGAGCTCG ACTACCTCTC ACAAATATGC 
    TTTGAGCTTT ACGAATCTGA GAACAAGACT CCCGTCGATG CACAAGATGT AGCTAAATAT 
    GCGTATAGCA TTCGCATCAC AATCAGTCCA GGCGCTCACA CGTTTGATCC GTTGGACGTA 
    CAGCTGGACA GTAAACATAG TATTAGTTGT GCTCCGAGAA GAAGTCTGAC AGCTCATGCC 
    GATTGGAAAT ATGTTATTGA TACATTGAGG GCAAAGTTTC ATCAAGTCAA ACTTCCGAAG 
    AGTTTCCTCG CCGTCAATCT TGCGGAATCA CACACTTTTC ACAAGAAAGA ACTAGATAAT 
    GCGGAGGACG ATTCGACTAT TGCAGAGGTA TTAAGTAGTG AGAATCAAGC CGCTGATGGG 
    AATGAGAATG AACATGGAGA GAAAAATGAT TTAAAAGAAG AAGTCGTAGA AGCAGCCAAT 
    GAAGCAACTG CCGGACCGGC TTTAGTTGCA GCACCATCTG GAGATGATTC AGATGTGAAA 
    AGCCACAGCG AACCCGTCTG A

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

    BC1G_02335 ( XM_024693577.1 ) cDNA ORF clone, Botrytis cinerea B05.10 -> XP_024549363.1 Botrytis cinerea B05.10 Bcvip1 (Bcvip1), mRNA.
    Price & Availability↑
    CloneID OBc19771
    Clone ID Related Accession (Same CDS sequence) XM_024693577.1
    Accession Version XM_024693577.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4725bp)
    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 1523808000000
    Organism Botrytis cinerea B05.10
    Product Bcvip1
    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_037315). 

    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
    ATGGCACAAG AAGGGGAGAG CGCAGTGATG GAAACTAATG ATCCTAGTCC CGATAAACAG 
    GCGGTCGGAT TTTCAACATT CAACAAATCC AAATCATCAA GCCACGAAGC ACAACCAACA 
    AAGGACTTGA GCCCCAAATC TAAACTGAGA AGGACTTCGC TCAGCTTATC TTCCGGCAGT 
    GGCATTCTTG CGTCATTGAG CAGGAAAGGA AAGCACGCGG ATCCACTGAT ACACACAGAA 
    CTCAATTCTG AACGAGCAAG TATTTCTATG CCACCACCTC CTACCAGAGC ATTGCCAAAG 
    TCTAGAACAT CTTCAACATA CAGCCAACGA TCGCCCGCCG CATTGGCAGT TTTGGAGGAG 
    AGCTTAAATT TAGAGGGAAC AGGAACTAGC CATCAAGATT TTGCTGTTGA GGAATCCGAG 
    CCCTCAAAGG CGAATCTACC AATGGCAGAT GATAAAACCC CTCCAACAAA TTTAACAATG 
    GCGGACGATA GCAAAAGTGT GCCTATACCA CTTCCTGAGC CTACTCTTCG ACCCCGAGCA 
    TCAGTCACGG AGATGGATGG AAAACGAATG TCAGTATCCT CCATGTACTC TTTAGCATCA 
    GCCAGGGCAG GTGGTGTAAT AAGTTCTGCG GCATCTGCGA CGGGCTCTGA GAATGGAGGA 
    AGTACAAGAA CAACTACAGC ATCGGTTTCG GCGCCAGTCT CATCAGTGAA AGGGCTTGGA 
    GTATCTCCAC CAGAAACTTC GAACGTATCT GTTACAACTG CTTCTGGTGG GCCAAATGCA 
    CCAAATGGAC ATCAACTTAC AGCCAGAGAA CCACCAGCTC AAGCTGCAGA GCTAGCAAAA 
    CGGAATTCTG TTGCGAGAGG AGAGGCCCAA CCACGACCTC AACCTCCACA AAGATCCAGG 
    AGTCGAGCAA AAAGACGTTT CAGTGGTAGC ACCGGCGCCA GCAGCCACAG CCCTAGTAGT 
    GAGAGGGGCC TACATTTGAA AAAAGAAGAT GAGAATAGGC CAGCACCTTG GGGTGTTATA 
    GGAGTATGTG CCCTTGACAT AAAAGCACGA AGCAAACCGA GTCGGAACAT TCTCAATCGC 
    TTGATTTCAA AAGGCGAATT TGAGGTTGTC ATCTTTGGAG ATAAAGTTAT TTTGGATGAG 
    GAGGTTGAGA ATTGGCCAAT CTGCGATTTC TTGATTTCCT TCTACTCAGA CGGATTTCCA 
    CTCGACAAAG CCATTGCGTA TGTGCAGGCA CGAAAACCAT TTTGTGTTAA TGATGTCCCT 
    ATGCAAAAGA TCTTATGGGA TCGCAGGATC TGTTTACGAA TTCTCGACAA GATAAATGTG 
    CCCACGCCCA AGCGTATAGA AGTAAACCGA GATGGAGGTC CAGCTGTCTT CACACCGGAG 
    ATGGCAAAGC ATCTGAAGGA CACCACTGGT CTTGTCCTAG AAGGACCCGA AGATGGAACT 
    GGTGGCCAGA TGGTGGCTCC CAAGACTGTT GAGCTCATCG ACAATGGGGA CACTTTGAGT 
    GTTGATGGTG TACTATTGTC TAAGCCATTT GTGGAAAAGC CAGTCAGTGG TGAAGATCAT 
    AATGTCTGCA TATACTATCC CCAAAGTCAA GGCGGAGGAG GTCGAAAGCT CTTCCGTAAG 
    ATTGGCAACA AGAGTTCTGA ACATGTCGAA GATCTCACAA TTCCTCGAGC TATATCTGAA 
    CCAGGAAGCA GCTATTTATA TGAGAAGTTT ATGCGTGTCG ATAATGCTGA AGATGTGAAA 
    GCATACACTG TTGGGCCAAC CTTTTGTCAC GCCGAAACTC GCAAGTCCCC CGTTGTTGAT 
    GGCTTGGTCA GACGCAATAC TCATGGCAAG GAAATCCGTT ACATCACAGC TCTTACAAAA 
    GAAGAATCCG CTATGGCTAC TCGAATTGCT AACAGTTTCG GTCAGAGAGT ATGCGGTTTC 
    GACCTTCTAC GTGCGCAAGG GAAAAGTTAT GTCATTGATG TCAATGGATG GAGTTTTGTT 
    AAAGATAATG AGGAGTATTA TGAGCAATGT GCACGTATAT TGAAAGATAT GTTTGTTCGC 
    GAAAAGCAAA AGTATACTGG GCAATCCCAG CCTGTTAGTG GTGTAACTTC CCCAACCGAC 
    GGAACAATGA GCCCTACTGC TATAAGAAAA GAGCCAGCAC TCAAGGAAAA TCATCGGTCA 
    GCCTTACAAA ACATCCTTTC CAAATCACCT AGCATGTCAA ACATGATTCA CGGACATCTT 
    CCTAATCATG GATCACACAG ACTCTCCAAT TCAGGTTCTC CTCAGCCTGG TAACTCAGCT 
    GTCCCAACTC CGAAGACCTC ACCTCCACTT TCTGCGGAGC AGGACACCTC TGCCATACCT 
    TCTGCAGAGT TGTTGCCACC ACCTGCAGTG TCTGGTCCCA GCGAAGTGCC ATCTGTTACG 
    TCTACAGTCC CACCTTCACC CACTCCTACC CCAGGACAAG ATCAACAGAC ACTACCACCA 
    CCGGCACCCA AACATACGTG GAAGCTGAAG GGTATGGTAT CTGTCATTCG ACATGCTGAT 
    CGTACACCCA AGCAGAAATA CAAATATACG TTTCACACCA AACCTTTTAT CGATCTTCTA 
    AAGGGGCACC AAGAAGAAGT CCTCTTGATA GGCGAAGCTG CGTTGGATAG TGTTATGCTT 
    GCAGTTGATG CTGCAGCCTA TGAGGGAATC GAGGACAAAG AAAAGTTGAA ATCACTAAGG 
    AACGTTCTAG CGAAGAAAGG GGGGTGGACA GGTACAAAAG TACAAATCAA GCCCATGTTT 
    CGAAAAAGAA AGCCAGAGGA ATCCCCTAAT TCCGAGATAC CACCTGCACC AGAAGATCTC 
    GCTTCAATTG ATCCAAGTCT CGAACACTCC GATAAAGCAA AGACTGCTGC GAATCTTGAG 
    AGAAGATCGC CTACTCGAAA TGACTCGTTA TCCGGCGTTA CTTTATCTCG CATAACCGCA 
    GCGGAGGAGA GCCTTGTATT GGATAAACTC CAGCTCATTG TCAAATGGGG TGGCGAGCCG 
    ACTCACTCGG CTAGATATCA AGCACAAGAG CTTGGTGAAA CAATGCGAAA CGACCTTCAA 
    TTGATGAACA AGGACATTCT TGATGAAGTT CATGTATTCA GTAGCTCCGA GAGACGTGTG 
    ACGGCAAGTG CTCAAATATG GGCTTCTGCC TTCACAAACC AAAAGGATCT GGCATCTGAT 
    TTCATTACTG TGCGCAAAGA TTTGCTTGAT GACTCCAACG CAGCTAAAGA TGAGATGGAT 
    AAAGTCAAAA AGAAGCTCAA GACTCTGTTG AGACAAGGAA TGGAAGCACC TCCCGAGTTT 
    GCCTGGCCAG CGGATATGCC AGAACCATCG ATTGTGCAGA AATACGTTGT TCATTTGATG 
    AAATTTCATA GGAGAGTTAT GCGTAACAAT TTTAGCAAGC TTTATGGAGG CGCCACTACA 
    TCACTCAATG CAATTGTAAA TCCTGGAGAT AAGGAGAGCA AAGGAGCAGG TTCGGCTTTG 
    TCACAAGCAA ACGCTACGAG CAGTATCCAA GCTCGTTGGT GCTGTGGTGA AGATGCCGAG 
    CTATTTAAGG AACGATGGGA GAAGCTTTTC AACGAATTTT CCGATCCCGA GAAAGTAGAT 
    CCAAGCAAAA TCTCTGAACT ATACGATACC ATGAAGTTTG ATGCCCTTCA CAATCGACAA 
    TTCCTTGAAT GGGTTTTCAC TCCGAGCAAA AGCATTCTCG AGGAAGAGGA AATAGAGCTT 
    GCTTGGGAAA AAGACCGATC CAAAAACTCG GAAAATGCTA AGGATGAGAC TGTGCCAGCG 
    GAGAAGGCTG AAAGTAGTAG GACACTGCAT AGACGCATGT TTAGAAGAAA GTCGGTGTTG 
    AATGGAAAAA ATAGTGAAGA AGAATCGTAT TTTCGACTTT TCACTGGCAG CAGCCAAACG 
    AAAGCTAAAA CCGACGTTCG CTTGGAGAAA TTGCGAGAAT TGTATAAACT ATCTAAAGTC 
    TTATTTGATT TCATCTGCCC ACAAGAATAT GGTATTGCGG ATAGCGAGAA ACTTGAGATT 
    GGTCTTTTGA CATCACTTCC CTTGCTGAAG GAAATCGTCC AGGATCTCGA GGAAATGCAA 
    GCCTCGGATG ACGCCAAAGC ATTCGTATAT TTCACCAAAG AGTCTCACAT TTACACACTT 
    CTTAACTGTA TTCTTGAAGG AGGTATCGAA ACAAAGATTA AACGAAGTGC CATCCCCGAG 
    CTCGACTACC TCTCACAAAT ATGCTTTGAG CTTTACGAAT CTGAGAACAA GACTCCCGTC 
    GATGCACAAG ATGTAGCTAA ATATGCGTAT AGCATTCGCA TCACAATCAG TCCAGGCGCT 
    CACACGTTTG ATCCGTTGGA CGTACAGCTG GACAGTAAAC ATAGTATTAG TTGTGCTCCG 
    AGAAGAAGTC TGACAGCTCA TGCCGATTGG AAATATGTTA TTGATACATT GAGGGCAAAG 
    TTTCATCAAG TCAAACTTCC GAAGAGTTTC CTCGCCGTCA ATCTTGCGGA ATCACACACT 
    TTTCACAAGA AAGAACTAGA TAATGCGGAG GACGATTCGA CTATTGCAGA GGTATTAAGT 
    AGTGAGAATC AAGCCGCTGA TGGGAATGAG AATGAACATG GAGAGAAAAA TGATTTAAAA 
    GAAGAAGTCG TAGAAGCAGC CAATGAAGCA ACTGCCGGAC CGGCTTTAGT TGCAGCACCA 
    TCTGGAGATG ATTCAGATGT GAAAAGCCAC AGCGAACCCG TCTGA

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

    RefSeq XP_024549363.1
    CDS589..5313
    Translation

    Target ORF information:

    RefSeq Version XM_024693577.1
    Organism Botrytis cinerea B05.10
    Definition Botrytis cinerea B05.10 Bcvip1 (Bcvip1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024693577.1

    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
    ATGGCACAAG AAGGGGAGAG CGCAGTGATG GAAACTAATG ATCCTAGTCC CGATAAACAG 
    GCGGTCGGAT TTTCAACATT CAACAAATCC AAATCATCAA GCCACGAAGC ACAACCAACA 
    AAGGACTTGA GCCCCAAATC TAAACTGAGA AGGACTTCGC TCAGCTTATC TTCCGGCAGT 
    GGCATTCTTG CGTCATTGAG CAGGAAAGGA AAGCACGCGG ATCCACTGAT ACACACAGAA 
    CTCAATTCTG AACGAGCAAG TATTTCTATG CCACCACCTC CTACCAGAGC ATTGCCAAAG 
    TCTAGAACAT CTTCAACATA CAGCCAACGA TCGCCCGCCG CATTGGCAGT TTTGGAGGAG 
    AGCTTAAATT TAGAGGGAAC AGGAACTAGC CATCAAGATT TTGCTGTTGA GGAATCCGAG 
    CCCTCAAAGG CGAATCTACC AATGGCAGAT GATAAAACCC CTCCAACAAA TTTAACAATG 
    GCGGACGATA GCAAAAGTGT GCCTATACCA CTTCCTGAGC CTACTCTTCG ACCCCGAGCA 
    TCAGTCACGG AGATGGATGG AAAACGAATG TCAGTATCCT CCATGTACTC TTTAGCATCA 
    GCCAGGGCAG GTGGTGTAAT AAGTTCTGCG GCATCTGCGA CGGGCTCTGA GAATGGAGGA 
    AGTACAAGAA CAACTACAGC ATCGGTTTCG GCGCCAGTCT CATCAGTGAA AGGGCTTGGA 
    GTATCTCCAC CAGAAACTTC GAACGTATCT GTTACAACTG CTTCTGGTGG GCCAAATGCA 
    CCAAATGGAC ATCAACTTAC AGCCAGAGAA CCACCAGCTC AAGCTGCAGA GCTAGCAAAA 
    CGGAATTCTG TTGCGAGAGG AGAGGCCCAA CCACGACCTC AACCTCCACA AAGATCCAGG 
    AGTCGAGCAA AAAGACGTTT CAGTGGTAGC ACCGGCGCCA GCAGCCACAG CCCTAGTAGT 
    GAGAGGGGCC TACATTTGAA AAAAGAAGAT GAGAATAGGC CAGCACCTTG GGGTGTTATA 
    GGAGTATGTG CCCTTGACAT AAAAGCACGA AGCAAACCGA GTCGGAACAT TCTCAATCGC 
    TTGATTTCAA AAGGCGAATT TGAGGTTGTC ATCTTTGGAG ATAAAGTTAT TTTGGATGAG 
    GAGGTTGAGA ATTGGCCAAT CTGCGATTTC TTGATTTCCT TCTACTCAGA CGGATTTCCA 
    CTCGACAAAG CCATTGCGTA TGTGCAGGCA CGAAAACCAT TTTGTGTTAA TGATGTCCCT 
    ATGCAAAAGA TCTTATGGGA TCGCAGGATC TGTTTACGAA TTCTCGACAA GATAAATGTG 
    CCCACGCCCA AGCGTATAGA AGTAAACCGA GATGGAGGTC CAGCTGTCTT CACACCGGAG 
    ATGGCAAAGC ATCTGAAGGA CACCACTGGT CTTGTCCTAG AAGGACCCGA AGATGGAACT 
    GGTGGCCAGA TGGTGGCTCC CAAGACTGTT GAGCTCATCG ACAATGGGGA CACTTTGAGT 
    GTTGATGGTG TACTATTGTC TAAGCCATTT GTGGAAAAGC CAGTCAGTGG TGAAGATCAT 
    AATGTCTGCA TATACTATCC CCAAAGTCAA GGCGGAGGAG GTCGAAAGCT CTTCCGTAAG 
    ATTGGCAACA AGAGTTCTGA ACATGTCGAA GATCTCACAA TTCCTCGAGC TATATCTGAA 
    CCAGGAAGCA GCTATTTATA TGAGAAGTTT ATGCGTGTCG ATAATGCTGA AGATGTGAAA 
    GCATACACTG TTGGGCCAAC CTTTTGTCAC GCCGAAACTC GCAAGTCCCC CGTTGTTGAT 
    GGCTTGGTCA GACGCAATAC TCATGGCAAG GAAATCCGTT ACATCACAGC TCTTACAAAA 
    GAAGAATCCG CTATGGCTAC TCGAATTGCT AACAGTTTCG GTCAGAGAGT ATGCGGTTTC 
    GACCTTCTAC GTGCGCAAGG GAAAAGTTAT GTCATTGATG TCAATGGATG GAGTTTTGTT 
    AAAGATAATG AGGAGTATTA TGAGCAATGT GCACGTATAT TGAAAGATAT GTTTGTTCGC 
    GAAAAGCAAA AGTATACTGG GCAATCCCAG CCTGTTAGTG GTGTAACTTC CCCAACCGAC 
    GGAACAATGA GCCCTACTGC TATAAGAAAA GAGCCAGCAC TCAAGGAAAA TCATCGGTCA 
    GCCTTACAAA ACATCCTTTC CAAATCACCT AGCATGTCAA ACATGATTCA CGGACATCTT 
    CCTAATCATG GATCACACAG ACTCTCCAAT TCAGGTTCTC CTCAGCCTGG TAACTCAGCT 
    GTCCCAACTC CGAAGACCTC ACCTCCACTT TCTGCGGAGC AGGACACCTC TGCCATACCT 
    TCTGCAGAGT TGTTGCCACC ACCTGCAGTG TCTGGTCCCA GCGAAGTGCC ATCTGTTACG 
    TCTACAGTCC CACCTTCACC CACTCCTACC CCAGGACAAG ATCAACAGAC ACTACCACCA 
    CCGGCACCCA AACATACGTG GAAGCTGAAG GGTATGGTAT CTGTCATTCG ACATGCTGAT 
    CGTACACCCA AGCAGAAATA CAAATATACG TTTCACACCA AACCTTTTAT CGATCTTCTA 
    AAGGGGCACC AAGAAGAAGT CCTCTTGATA GGCGAAGCTG CGTTGGATAG TGTTATGCTT 
    GCAGTTGATG CTGCAGCCTA TGAGGGAATC GAGGACAAAG AAAAGTTGAA ATCACTAAGG 
    AACGTTCTAG CGAAGAAAGG GGGGTGGACA GGTACAAAAG TACAAATCAA GCCCATGTTT 
    CGAAAAAGAA AGCCAGAGGA ATCCCCTAAT TCCGAGATAC CACCTGCACC AGAAGATCTC 
    GCTTCAATTG ATCCAAGTCT CGAACACTCC GATAAAGCAA AGACTGCTGC GAATCTTGAG 
    AGAAGATCGC CTACTCGAAA TGACTCGTTA TCCGGCGTTA CTTTATCTCG CATAACCGCA 
    GCGGAGGAGA GCCTTGTATT GGATAAACTC CAGCTCATTG TCAAATGGGG TGGCGAGCCG 
    ACTCACTCGG CTAGATATCA AGCACAAGAG CTTGGTGAAA CAATGCGAAA CGACCTTCAA 
    TTGATGAACA AGGACATTCT TGATGAAGTT CATGTATTCA GTAGCTCCGA GAGACGTGTG 
    ACGGCAAGTG CTCAAATATG GGCTTCTGCC TTCACAAACC AAAAGGATCT GGCATCTGAT 
    TTCATTACTG TGCGCAAAGA TTTGCTTGAT GACTCCAACG CAGCTAAAGA TGAGATGGAT 
    AAAGTCAAAA AGAAGCTCAA GACTCTGTTG AGACAAGGAA TGGAAGCACC TCCCGAGTTT 
    GCCTGGCCAG CGGATATGCC AGAACCATCG ATTGTGCAGA AATACGTTGT TCATTTGATG 
    AAATTTCATA GGAGAGTTAT GCGTAACAAT TTTAGCAAGC TTTATGGAGG CGCCACTACA 
    TCACTCAATG CAATTGTAAA TCCTGGAGAT AAGGAGAGCA AAGGAGCAGG TTCGGCTTTG 
    TCACAAGCAA ACGCTACGAG CAGTATCCAA GCTCGTTGGT GCTGTGGTGA AGATGCCGAG 
    CTATTTAAGG AACGATGGGA GAAGCTTTTC AACGAATTTT CCGATCCCGA GAAAGTAGAT 
    CCAAGCAAAA TCTCTGAACT ATACGATACC ATGAAGTTTG ATGCCCTTCA CAATCGACAA 
    TTCCTTGAAT GGGTTTTCAC TCCGAGCAAA AGCATTCTCG AGGAAGAGGA AATAGAGCTT 
    GCTTGGGAAA AAGACCGATC CAAAAACTCG GAAAATGCTA AGGATGAGAC TGTGCCAGCG 
    GAGAAGGCTG AAAGTAGTAG GACACTGCAT AGACGCATGT TTAGAAGAAA GTCGGTGTTG 
    AATGGAAAAA ATAGTGAAGA AGAATCGTAT TTTCGACTTT TCACTGGCAG CAGCCAAACG 
    AAAGCTAAAA CCGACGTTCG CTTGGAGAAA TTGCGAGAAT TGTATAAACT ATCTAAAGTC 
    TTATTTGATT TCATCTGCCC ACAAGAATAT GGTATTGCGG ATAGCGAGAA ACTTGAGATT 
    GGTCTTTTGA CATCACTTCC CTTGCTGAAG GAAATCGTCC AGGATCTCGA GGAAATGCAA 
    GCCTCGGATG ACGCCAAAGC ATTCGTATAT TTCACCAAAG AGTCTCACAT TTACACACTT 
    CTTAACTGTA TTCTTGAAGG AGGTATCGAA ACAAAGATTA AACGAAGTGC CATCCCCGAG 
    CTCGACTACC TCTCACAAAT ATGCTTTGAG CTTTACGAAT CTGAGAACAA GACTCCCGTC 
    GATGCACAAG ATGTAGCTAA ATATGCGTAT AGCATTCGCA TCACAATCAG TCCAGGCGCT 
    CACACGTTTG ATCCGTTGGA CGTACAGCTG GACAGTAAAC ATAGTATTAG TTGTGCTCCG 
    AGAAGAAGTC TGACAGCTCA TGCCGATTGG AAATATGTTA TTGATACATT GAGGGCAAAG 
    TTTCATCAAG TCAAACTTCC GAAGAGTTTC CTCGCCGTCA ATCTTGCGGA ATCACACACT 
    TTTCACAAGA AAGAACTAGA TAATGCGGAG GACGATTCGA CTATTGCAGA GGTATTAAGT 
    AGTGAGAATC AAGCCGCTGA TGGGAATGAG AATGAACATG GAGAGAAAAA TGATTTAAAA 
    GAAGAAGTCG TAGAAGCAGC CAATGAAGCA ACTGCCGGAC CGGCTTTAGT TGCAGCACCA 
    TCTGGAGATG ATTCAGATGT GAAAAGCCAC AGCGAACCCG TCTGA

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

  • PubMed

    A gapless genome sequence of the fungus Botrytis cinerea.
    Molecular plant pathology18(1)75-89(2017 01)
    Van Kan JA,Stassen JH,Mosbach A,Van Der Lee TA,Faino L,Farmer AD,Papasotiriou DG,Zhou S,Seidl MF,Cottam E,Edel D,Hahn M,Schwartz DC,Dietrich RA,Widdison S,Scalliet G


    Genome update of Botrytis cinerea strains B05.10 and T4.
    Eukaryotic cell11(11)1413-4(2012 Nov)
    Staats M,van Kan JA


    Genomic analysis of the necrotrophic fungal pathogens Sclerotinia sclerotiorum and Botrytis cinerea.
    PLoS genetics7(8)e1002230(2011 Aug)
    Amselem J,Cuomo CA,van Kan JA,Viaud M,Benito EP,Couloux A,Coutinho PM,de Vries RP,Dyer PS,Fillinger S,Fournier E,Gout L,Hahn M,Kohn L,Lapalu N,Plummer KM,Pradier JM,Quévillon E,Sharon A,Simon A,ten Have A,Tudzynski B,Tudzynski P,Wincker P,Andrew M,Anthouard V,Beever RE,Beffa R,Benoit I,Bouzid O,Brault B,Chen Z,Choquer M,Collémare J,Cotton P,Danchin EG,Da Silva C,Gautier A,Giraud C,Giraud T,Gonzalez C,Grossetete S,Güldener U,Henrissat B,Howlett BJ,Kodira C,Kretschmer M,Lappartient A,Leroch M,Levis C,Mauceli E,Neuvéglise C,Oeser B,Pearson M,Poulain J,Poussereau N,Quesneville H,Rascle C,Schumacher J,Ségurens B,Sexton A,Silva E,Sirven C,Soanes DM,Talbot NJ,Templeton M,Yandava C,Yarden O,Zeng Q,Rollins JA,Lebrun MH,Dickman M


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