| Gene Symbol | BC1G_02954 |
| Entrez Gene ID | 5438900 |
| Full Name | hypothetical protein |
| Gene Type | protein-coding |
| Organism | Botrytis cinerea B05.10 |
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BC1G_02954 cDNA ORF clone, Botrytis cinerea B05.10
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Gene
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Clones
gRNAs
The following BC1G_02954 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the BC1G_02954 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.
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Reference Sequences (Refseq)
CloneID OBc07193 Clone ID Related Accession (Same CDS sequence) XM_001558240.2 , XM_001558240.1 Accession Version XM_001558240.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2724bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector 
User ManualClone information Clone Map MSDSTag 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 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 (NC_037324). On Apr 17, 2018 this sequence version replaced XM_001558240.1.
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
2701ATGTTCTCCC TTCTCATAGA ACTATGGCAA CAGATTGCGG CTCTCAAGCC ATCTTTTATT
TCCAAAAGTC CCCATTTCAA TTTCATCACT GTACATTACT TCTGGATCAT TGGAATGGCA
CTCCTCGGTT CTATCTGTTT ATACATTCGA GGAGACATAC CTTACATAGA TGCGCTGTTC
TTCGCAAGTG GTTGTGCAAC CCAAAGTGGA TTGAACACTA TTAACATCAA CACCCTCAAC
ACATGGCAGC AAATTGTCCT ATATCTAATA CCTATATTCA CGAACCCTAT CACGATCAAT
TCATTTGTCG TTTTCCTTCG ATTATACTGG TTCGAAAAAC GATTCCAGCA CATTGCTTCC
CAAAACAAGA GGAACCGAAG GAGCATCGCC AAATCATTCT CGAGATCGAG AACAACTGGT
GCGGATACCG TAGATGCGGA GAAAGGTGTA AATGGCAGAA ACATTGTTGT GATGCATGGC
ACAACCAGAG CAAATGTTAT GCGCGATAAT CGAGATGCCA TTGATGATAT TCAAGCGGCA
ATCGAAAAAG AAAAGGCGCT AAACAAGGCA GATGCTGTCA ATGGTTCTGG AAGTAGTAAC
ATATCAAGTA CGGAGACCGC GAACGATCCT AGTCCTACTT CGCATCACAC ACAAATTAAA
TTTGCCGATC AAGTAAAGAG GAGCAATGGA CTGGCCGATG AAGAGTTGCG ATTGCCAGTT
CGTCGTAGGG ATGAAGACCA TATTGCCTTT CTAGAACGTC AAAGAAATCC GGAGGACAGG
ACTATTCTTC GAATTCCTGG ACCAAGAGAT GCAGATGCTG GTGTTGCTCC ACAAACCGTT
GAGGAGGAGG AAGAAGATCC GGTTATAAGG ACGTTATCTC GCAGAGGTTC TATGTATTCT
CGAAGGGGAA GCATTGATCG AGGCACTTTG AATGGAGAGT CGCAATGGCA AGATCATTAT
CCCTCAAGGA AGCGTAATGT TACGATCGAA GTTCCAACAC ATCCTAAAGC TGAACGGGCG
GTGGATGATG TGAAAGCTGC AGGCGCTACC ATGAAGGGTG TTATGAGATT CCGCAACAAC
AGAAACACTG AGGGCGCCGA AGCCACAGAG GCTCAGGGTA ATGGAAATGG CGCGGTCATG
TCGAGATTGA AGTCAAGAGC TCCAACATTT CAAAGCATCA AAACAGCTCT TACTGGCGAA
AAGGAGGACC CCACTCCTTA TTTGAGTTGG GCCCCAACCA TCGGTCGTAA CTCAGCCTTC
GTTGATCTCA CTGAGCAACA AAGAGAAGAA CTCGGTGGAA TCGAATACAG ATCACTGAAA
TCTTTGGCTT TAATTTTGAC TTGTTATTTC GTAGGGTTTA GTATATTCGC GGTTGTTTGT
CTATTGCCTT GGATTCTTAA TAGCCGAACC TATGGCTCAA TAGTCGAGCA AGATGGTCAG
GGCAGAGTCT GGTGGAGTAT ATTCACAGCT AGTTCTGCTT TTACGGATCT GGGATTTACC
CTCACCCCTG ACAGCATGAT CTCTTTTAAT ACTGCTATTT GGCCACTTTT GCTGATGTCA
TTTCTGATCA TCATTGGCAA CACGGGATTT CCAATCATGC TCAGATTCAT CATTTGGGTT
ACAACATTGT GGGTGCCCAG AAACAGTGCG GTTTGGGAGG AATTGAGATT TTTGTTAGAC
CATCCTCGTC GATGTTTTAC GCTACTTTTT CCAAGTAAGG CAACTTGGTG GCTCTTCTGG
ATTCTTGTTA TATTGAACGG GGTTGACTTA CTGTTCTTCA TTATTCTTGA TCTCGGCAAT
TCAGTTGTGA CTAATCTGCC AGTGAACATT CGCGTTCTCG ATGGTTGGTT CCAAGCTGCT
TCCACAAGAA CAGCTGGGTT TGGAGTTGTC AATCTTGCAG AACTTCATCC CGCCATCCAA
GTTTCTTATC TAATTATGAT GTATATTTCG GTTCTCCCTA TTGCCATTTC TGTTCGTCGT
ACGAACGTTT ATGAGGAAAA GTCATTGGGT ATTTACGGAT CGCCAACAGA GGAAAACGAG
GACGAGGGCG AGCCTTCTTA CGTCGGTGCA CATCTTCGAA GACAATTGTC TTTCGATTTA
TGGTACATTT TCTTGGGTCT TTTTATCATT TCAATCGCTG AAGGCGGCCG CCTTCAAGGT
ACTGATCCGT CTATTAACAT GTTTTCTGTC TTGTTTGAGA TTGTCAGTGC CTATGGCACA
GTTGGTCTGA GTCTAGGATA TCCGGGAATC GATGCCTCTT TATCTGCCGA ATTCAATGTT
GTCTCGAAAC TTGTCATTAT TGCGATGCAA ATTCGTGGGC GTCATCGTGG TCTTCCGTAC
GAACTCGATC GAGCCATCTT GTTGCCAAGC GAGCATTTAG CAGAGAAAGA AGCTCTGGAT
GCAGCACAAC GAGTTTACCG TCGTAATTCC AATGCGACAG CTGTCAGCAA TGGAGCAGAT
CTCGCAACTG TCAACACTGG CGTTCAAAGA GCCAATACGG AGCGTCAAGG CCCACCAACG
AACTTCCTTA GCAGTCTTCT TCACCCAGGC CCAACTATTC CAAACAGCCA TCGGAATCAA
GGTACGACTC ATGTTAGGCG GCACAGCATA GCAACACCGG AACGAGGACG AAGTGTCAGT
CCAAAAGCTA GTGGTGGCAT CTTCTCCAAA TGGAACAGTT CCGACAAACA TCAGAATAAT
GTGGATAAGA AAATATCCGA ATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_001558290.1 CDS 1165..3888 Translation 
Target ORF information:
RefSeq Version XM_001558240.2 Organism Botrytis cinerea B05.10 Definition Botrytis cinerea B05.10 hypothetical protein (BCIN_15g03240), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_001558240.2
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701ATGTTCTCCC TTCTCATAGA ACTATGGCAA CAGATTGCGG CTCTCAAGCC ATCTTTTATT
TCCAAAAGTC CCCATTTCAA TTTCATCACT GTACATTACT TCTGGATCAT TGGAATGGCA
CTCCTCGGTT CTATCTGTTT ATACATTCGA GGAGACATAC CTTACATAGA TGCGCTGTTC
TTCGCAAGTG GTTGTGCAAC CCAAAGTGGA TTGAACACTA TTAACATCAA CACCCTCAAC
ACATGGCAGC AAATTGTCCT ATATCTAATA CCTATATTCA CGAACCCTAT CACGATCAAT
TCATTTGTCG TTTTCCTTCG ATTATACTGG TTCGAAAAAC GATTCCAGCA CATTGCTTCC
CAAAACAAGA GGAACCGAAG GAGCATCGCC AAATCATTCT CGAGATCGAG AACAACTGGT
GCGGATACCG TAGATGCGGA GAAAGGTGTA AATGGCAGAA ACATTGTTGT GATGCATGGC
ACAACCAGAG CAAATGTTAT GCGCGATAAT CGAGATGCCA TTGATGATAT TCAAGCGGCA
ATCGAAAAAG AAAAGGCGCT AAACAAGGCA GATGCTGTCA ATGGTTCTGG AAGTAGTAAC
ATATCAAGTA CGGAGACCGC GAACGATCCT AGTCCTACTT CGCATCACAC ACAAATTAAA
TTTGCCGATC AAGTAAAGAG GAGCAATGGA CTGGCCGATG AAGAGTTGCG ATTGCCAGTT
CGTCGTAGGG ATGAAGACCA TATTGCCTTT CTAGAACGTC AAAGAAATCC GGAGGACAGG
ACTATTCTTC GAATTCCTGG ACCAAGAGAT GCAGATGCTG GTGTTGCTCC ACAAACCGTT
GAGGAGGAGG AAGAAGATCC GGTTATAAGG ACGTTATCTC GCAGAGGTTC TATGTATTCT
CGAAGGGGAA GCATTGATCG AGGCACTTTG AATGGAGAGT CGCAATGGCA AGATCATTAT
CCCTCAAGGA AGCGTAATGT TACGATCGAA GTTCCAACAC ATCCTAAAGC TGAACGGGCG
GTGGATGATG TGAAAGCTGC AGGCGCTACC ATGAAGGGTG TTATGAGATT CCGCAACAAC
AGAAACACTG AGGGCGCCGA AGCCACAGAG GCTCAGGGTA ATGGAAATGG CGCGGTCATG
TCGAGATTGA AGTCAAGAGC TCCAACATTT CAAAGCATCA AAACAGCTCT TACTGGCGAA
AAGGAGGACC CCACTCCTTA TTTGAGTTGG GCCCCAACCA TCGGTCGTAA CTCAGCCTTC
GTTGATCTCA CTGAGCAACA AAGAGAAGAA CTCGGTGGAA TCGAATACAG ATCACTGAAA
TCTTTGGCTT TAATTTTGAC TTGTTATTTC GTAGGGTTTA GTATATTCGC GGTTGTTTGT
CTATTGCCTT GGATTCTTAA TAGCCGAACC TATGGCTCAA TAGTCGAGCA AGATGGTCAG
GGCAGAGTCT GGTGGAGTAT ATTCACAGCT AGTTCTGCTT TTACGGATCT GGGATTTACC
CTCACCCCTG ACAGCATGAT CTCTTTTAAT ACTGCTATTT GGCCACTTTT GCTGATGTCA
TTTCTGATCA TCATTGGCAA CACGGGATTT CCAATCATGC TCAGATTCAT CATTTGGGTT
ACAACATTGT GGGTGCCCAG AAACAGTGCG GTTTGGGAGG AATTGAGATT TTTGTTAGAC
CATCCTCGTC GATGTTTTAC GCTACTTTTT CCAAGTAAGG CAACTTGGTG GCTCTTCTGG
ATTCTTGTTA TATTGAACGG GGTTGACTTA CTGTTCTTCA TTATTCTTGA TCTCGGCAAT
TCAGTTGTGA CTAATCTGCC AGTGAACATT CGCGTTCTCG ATGGTTGGTT CCAAGCTGCT
TCCACAAGAA CAGCTGGGTT TGGAGTTGTC AATCTTGCAG AACTTCATCC CGCCATCCAA
GTTTCTTATC TAATTATGAT GTATATTTCG GTTCTCCCTA TTGCCATTTC TGTTCGTCGT
ACGAACGTTT ATGAGGAAAA GTCATTGGGT ATTTACGGAT CGCCAACAGA GGAAAACGAG
GACGAGGGCG AGCCTTCTTA CGTCGGTGCA CATCTTCGAA GACAATTGTC TTTCGATTTA
TGGTACATTT TCTTGGGTCT TTTTATCATT TCAATCGCTG AAGGCGGCCG CCTTCAAGGT
ACTGATCCGT CTATTAACAT GTTTTCTGTC TTGTTTGAGA TTGTCAGTGC CTATGGCACA
GTTGGTCTGA GTCTAGGATA TCCGGGAATC GATGCCTCTT TATCTGCCGA ATTCAATGTT
GTCTCGAAAC TTGTCATTAT TGCGATGCAA ATTCGTGGGC GTCATCGTGG TCTTCCGTAC
GAACTCGATC GAGCCATCTT GTTGCCAAGC GAGCATTTAG CAGAGAAAGA AGCTCTGGAT
GCAGCACAAC GAGTTTACCG TCGTAATTCC AATGCGACAG CTGTCAGCAA TGGAGCAGAT
CTCGCAACTG TCAACACTGG CGTTCAAAGA GCCAATACGG AGCGTCAAGG CCCACCAACG
AACTTCCTTA GCAGTCTTCT TCACCCAGGC CCAACTATTC CAAACAGCCA TCGGAATCAA
GGTACGACTC ATGTTAGGCG GCACAGCATA GCAACACCGG AACGAGGACG AAGTGTCAGT
CCAAAAGCTA GTGGTGGCAT CTTCTCCAAA TGGAACAGTT CCGACAAACA TCAGAATAAT
GTGGATAAGA AAATATCCGA ATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OBc07193 Clone ID Related Accession (Same CDS sequence) XM_001558240.2 , XM_001558240.1 Accession Version XM_001558240.1 Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2724bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag 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_001814561). 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
2701ATGTTCTCCC TTCTCATAGA ACTATGGCAA CAGATTGCGG CTCTCAAGCC ATCTTTTATT
TCCAAAAGTC CCCATTTCAA TTTCATCACT GTACATTACT TCTGGATCAT TGGAATGGCA
CTCCTCGGTT CTATCTGTTT ATACATTCGA GGAGACATAC CTTACATAGA TGCGCTGTTC
TTCGCAAGTG GTTGTGCAAC CCAAAGTGGA TTGAACACTA TTAACATCAA CACCCTCAAC
ACATGGCAGC AAATTGTCCT ATATCTAATA CCTATATTCA CGAACCCTAT CACGATCAAT
TCATTTGTCG TTTTCCTTCG ATTATACTGG TTCGAAAAAC GATTCCAGCA CATTGCTTCC
CAAAACAAGA GGAACCGAAG GAGCATCGCC AAATCATTCT CGAGATCGAG AACAACTGGT
GCGGATACCG TAGATGCGGA GAAAGGTGTA AATGGCAGAA ACATTGTTGT GATGCATGGC
ACAACCAGAG CAAATGTTAT GCGCGATAAT CGAGATGCCA TTGATGATAT TCAAGCGGCA
ATCGAAAAAG AAAAGGCGCT AAACAAGGCA GATGCTGTCA ATGGTTCTGG AAGTAGTAAC
ATATCAAGTA CGGAGACCGC GAACGATCCT AGTCCTACTT CGCATCACAC ACAAATTAAA
TTTGCCGATC AAGTAAAGAG GAGCAATGGA CTGGCCGATG AAGAGTTGCG ATTGCCAGTT
CGTCGTAGGG ATGAAGACCA TATTGCCTTT CTAGAACGTC AAAGAAATCC GGAGGACAGG
ACTATTCTTC GAATTCCTGG ACCAAGAGAT GCAGATGCTG GTGTTGCTCC ACAAACCGTT
GAGGAGGAGG AAGAAGATCC GGTTATAAGG ACGTTATCTC GCAGAGGTTC TATGTATTCT
CGAAGGGGAA GCATTGATCG AGGCACTTTG AATGGAGAGT CGCAATGGCA AGATCATTAT
CCCTCAAGGA AGCGTAATGT TACGATCGAA GTTCCAACAC ATCCTAAAGC TGAACGGGCG
GTGGATGATG TGAAAGCTGC AGGCGCTACC ATGAAGGGTG TTATGAGATT CCGCAACAAC
AGAAACACTG AGGGCGCCGA AGCCACAGAG GCTCAGGGTA ATGGAAATGG CGCGGTCATG
TCGAGATTGA AGTCAAGAGC TCCAACATTT CAAAGCATCA AAACAGCTCT TACTGGCGAA
AAGGAGGACC CCACTCCTTA TTTGAGTTGG GCCCCAACCA TCGGTCGTAA CTCAGCCTTC
GTTGATCTCA CTGAGCAACA AAGAGAAGAA CTCGGTGGAA TCGAATACAG ATCACTGAAA
TCTTTGGCTT TAATTTTGAC TTGTTATTTC GTAGGGTTTA GTATATTCGC GGTTGTTTGT
CTATTGCCTT GGATTCTTAA TAGCCGAACC TATGGCTCAA TAGTCGAGCA AGATGGTCAG
GGCAGAGTCT GGTGGAGTAT ATTCACAGCT AGTTCTGCTT TTACGGATCT GGGATTTACC
CTCACCCCTG ACAGCATGAT CTCTTTTAAT ACTGCTATTT GGCCACTTTT GCTGATGTCA
TTTCTGATCA TCATTGGCAA CACGGGATTT CCAATCATGC TCAGATTCAT CATTTGGGTT
ACAACATTGT GGGTGCCCAG AAACAGTGCG GTTTGGGAGG AATTGAGATT TTTGTTAGAC
CATCCTCGTC GATGTTTTAC GCTACTTTTT CCAAGTAAGG CAACTTGGTG GCTCTTCTGG
ATTCTTGTTA TATTGAACGG GGTTGACTTA CTGTTCTTCA TTATTCTTGA TCTCGGCAAT
TCAGTTGTGA CTAATCTGCC AGTGAACATT CGCGTTCTCG ATGGTTGGTT CCAAGCTGCT
TCCACAAGAA CAGCTGGGTT TGGAGTTGTC AATCTTGCAG AACTTCATCC CGCCATCCAA
GTTTCTTATC TAATTATGAT GTATATTTCG GTTCTCCCTA TTGCCATTTC TGTTCGTCGT
ACGAACGTTT ATGAGGAAAA GTCATTGGGT ATTTACGGAT CGCCAACAGA GGAAAACGAG
GACGAGGGCG AGCCTTCTTA CGTCGGTGCA CATCTTCGAA GACAATTGTC TTTCGATTTA
TGGTACATTT TCTTGGGTCT TTTTATCATT TCAATCGCTG AAGGCGGCCG CCTTCAAGGT
ACTGATCCGT CTATTAACAT GTTTTCTGTC TTGTTTGAGA TTGTCAGTGC CTATGGCACA
GTTGGTCTGA GTCTAGGATA TCCGGGAATC GATGCCTCTT TATCTGCCGA ATTCAATGTT
GTCTCGAAAC TTGTCATTAT TGCGATGCAA ATTCGTGGGC GTCATCGTGG TCTTCCGTAC
GAACTCGATC GAGCCATCTT GTTGCCAAGC GAGCATTTAG CAGAGAAAGA AGCTCTGGAT
GCAGCACAAC GAGTTTACCG TCGTAATTCC AATGCGACAG CTGTCAGCAA TGGAGCAGAT
CTCGCAACTG TCAACACTGG CGTTCAAAGA GCCAATACGG AGCGTCAAGG CCCACCAACG
AACTTCCTTA GCAGTCTTCT TCACCCAGGC CCAACTATTC CAAACAGCCA TCGGAATCAA
GGTACGACTC ATGTTAGGCG GCACAGCATA GCAACACCGG AACGAGGACG AAGTGTCAGT
CCAAAAGCTA GTGGTGGCAT CTTCTCCAAA TGGAACAGTT CCGACAAACA TCAGAATAAT
GTGGATAAGA AAATATCCGA ATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_001558290.1 CDS 1..2724 Translation
Target ORF information:
RefSeq Version XM_001558240.1 Organism Botrytis cinerea B05.10 Definition Botryotinia fuckeliana B05.10 hypothetical protein (BC1G_02954) partial mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_001558240.1
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
2701ATGTTCTCCC TTCTCATAGA ACTATGGCAA CAGATTGCGG CTCTCAAGCC ATCTTTTATT
TCCAAAAGTC CCCATTTCAA TTTCATCACT GTACATTACT TCTGGATCAT TGGAATGGCA
CTCCTCGGTT CTATCTGTTT ATACATTCGA GGAGACATAC CTTACATAGA TGCGCTGTTC
TTCGCAAGTG GTTGTGCAAC CCAAAGTGGA TTGAACACTA TTAACATCAA CACCCTCAAC
ACATGGCAGC AAATTGTCCT ATATCTAATA CCTATATTCA CGAACCCTAT CACGATCAAT
TCATTTGTCG TTTTCCTTCG ATTATACTGG TTCGAAAAAC GATTCCAGCA CATTGCTTCC
CAAAACAAGA GGAACCGAAG GAGCATCGCC AAATCATTCT CGAGATCGAG AACAACTGGT
GCGGATACCG TAGATGCGGA GAAAGGTGTA AATGGCAGAA ACATTGTTGT GATGCATGGC
ACAACCAGAG CAAATGTTAT GCGCGATAAT CGAGATGCCA TTGATGATAT TCAAGCGGCA
ATCGAAAAAG AAAAGGCGCT AAACAAGGCA GATGCTGTCA ATGGTTCTGG AAGTAGTAAC
ATATCAAGTA CGGAGACCGC GAACGATCCT AGTCCTACTT CGCATCACAC ACAAATTAAA
TTTGCCGATC AAGTAAAGAG GAGCAATGGA CTGGCCGATG AAGAGTTGCG ATTGCCAGTT
CGTCGTAGGG ATGAAGACCA TATTGCCTTT CTAGAACGTC AAAGAAATCC GGAGGACAGG
ACTATTCTTC GAATTCCTGG ACCAAGAGAT GCAGATGCTG GTGTTGCTCC ACAAACCGTT
GAGGAGGAGG AAGAAGATCC GGTTATAAGG ACGTTATCTC GCAGAGGTTC TATGTATTCT
CGAAGGGGAA GCATTGATCG AGGCACTTTG AATGGAGAGT CGCAATGGCA AGATCATTAT
CCCTCAAGGA AGCGTAATGT TACGATCGAA GTTCCAACAC ATCCTAAAGC TGAACGGGCG
GTGGATGATG TGAAAGCTGC AGGCGCTACC ATGAAGGGTG TTATGAGATT CCGCAACAAC
AGAAACACTG AGGGCGCCGA AGCCACAGAG GCTCAGGGTA ATGGAAATGG CGCGGTCATG
TCGAGATTGA AGTCAAGAGC TCCAACATTT CAAAGCATCA AAACAGCTCT TACTGGCGAA
AAGGAGGACC CCACTCCTTA TTTGAGTTGG GCCCCAACCA TCGGTCGTAA CTCAGCCTTC
GTTGATCTCA CTGAGCAACA AAGAGAAGAA CTCGGTGGAA TCGAATACAG ATCACTGAAA
TCTTTGGCTT TAATTTTGAC TTGTTATTTC GTAGGGTTTA GTATATTCGC GGTTGTTTGT
CTATTGCCTT GGATTCTTAA TAGCCGAACC TATGGCTCAA TAGTCGAGCA AGATGGTCAG
GGCAGAGTCT GGTGGAGTAT ATTCACAGCT AGTTCTGCTT TTACGGATCT GGGATTTACC
CTCACCCCTG ACAGCATGAT CTCTTTTAAT ACTGCTATTT GGCCACTTTT GCTGATGTCA
TTTCTGATCA TCATTGGCAA CACGGGATTT CCAATCATGC TCAGATTCAT CATTTGGGTT
ACAACATTGT GGGTGCCCAG AAACAGTGCG GTTTGGGAGG AATTGAGATT TTTGTTAGAC
CATCCTCGTC GATGTTTTAC GCTACTTTTT CCAAGTAAGG CAACTTGGTG GCTCTTCTGG
ATTCTTGTTA TATTGAACGG GGTTGACTTA CTGTTCTTCA TTATTCTTGA TCTCGGCAAT
TCAGTTGTGA CTAATCTGCC AGTGAACATT CGCGTTCTCG ATGGTTGGTT CCAAGCTGCT
TCCACAAGAA CAGCTGGGTT TGGAGTTGTC AATCTTGCAG AACTTCATCC CGCCATCCAA
GTTTCTTATC TAATTATGAT GTATATTTCG GTTCTCCCTA TTGCCATTTC TGTTCGTCGT
ACGAACGTTT ATGAGGAAAA GTCATTGGGT ATTTACGGAT CGCCAACAGA GGAAAACGAG
GACGAGGGCG AGCCTTCTTA CGTCGGTGCA CATCTTCGAA GACAATTGTC TTTCGATTTA
TGGTACATTT TCTTGGGTCT TTTTATCATT TCAATCGCTG AAGGCGGCCG CCTTCAAGGT
ACTGATCCGT CTATTAACAT GTTTTCTGTC TTGTTTGAGA TTGTCAGTGC CTATGGCACA
GTTGGTCTGA GTCTAGGATA TCCGGGAATC GATGCCTCTT TATCTGCCGA ATTCAATGTT
GTCTCGAAAC TTGTCATTAT TGCGATGCAA ATTCGTGGGC GTCATCGTGG TCTTCCGTAC
GAACTCGATC GAGCCATCTT GTTGCCAAGC GAGCATTTAG CAGAGAAAGA AGCTCTGGAT
GCAGCACAAC GAGTTTACCG TCGTAATTCC AATGCGACAG CTGTCAGCAA TGGAGCAGAT
CTCGCAACTG TCAACACTGG CGTTCAAAGA GCCAATACGG AGCGTCAAGG CCCACCAACG
AACTTCCTTA GCAGTCTTCT TCACCCAGGC CCAACTATTC CAAACAGCCA TCGGAATCAA
GGTACGACTC ATGTTAGGCG GCACAGCATA GCAACACCGG AACGAGGACG AAGTGTCAGT
CCAAAAGCTA GTGGTGGCAT CTTCTCCAAA TGGAACAGTT CCGACAAACA TCAGAATAAT
GTGGATAAGA AAATATCCGA ATAAThe 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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