ORF » Species Summary » Botrytis cinerea B05.10 » BCIN_02g07000 cDNA ORF clone

BCIN_02g07000 cDNA ORF clone, Botrytis cinerea B05.10

The following BCIN_02g07000 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the BCIN_02g07000 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
OBc01359 XM_001547347.2
Latest version!		 Botrytis cinerea B05.10 hypothetical protein (BCIN_02g07000), mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
View Old Accession Versions >>
OBc01359 XM_001547347.1 Botryotinia fuckeliana B05.10 hypothetical protein (BC1G_14024) partial mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
Hide Old Accession Versions >>

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** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    BCIN_02g07000 ( XM_001547347.1 ) cDNA ORF clone, Botrytis cinerea B05.10 -> XP_001547397.1 Botryotinia fuckeliana B05.10 hypothetical protein (BC1G_14024) partial mRNA.
    Price & Availability↑
    CloneID OBc01359
    Clone ID Related Accession (Same CDS sequence) XM_001547347.1 , XM_001547347.2
    Accession Version XM_001547347.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2733bp)
    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_001814438). 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
    ATGGCCTCGA CCAACGGGAT TCTCAGTCCC CCCACTCAAC CGCATTTAGA TATTACACTA 
    TCCGCGAAAC GAAAACGCGA CGATAACATC GATCAGCCAG CTCTCATAAA TGGCACCAGC 
    AACGAATCCA AAATCGAAAT TGCAAAAGAA CCATCGACGG CAGATACACA AGGCCTTGTC 
    GAAGATCTGA TCGACGTACT CAAAAGCCAT GACCCCTCGC CCTCCATCTT AACACGAGCT 
    CTTCCTGAAT CAATCCCGTC GACCGAACCT CACGCTAAAA GACAAAAGTC GGATGGCGCG 
    ACTGATTCAC CAACTATTCT ATCACGCGCG ACAGCACATG AATATCTTAC TATCGATGAA 
    GTTCTCAAAG ATGTTGATAC TGCCGCATCC GATATCATAG AGAGGTTACA ATTGACCGTT 
    GGCTCAAATC AGAATCAGTA TATACCTGTT CCCGCTGGAC AATCGGAGCT AGCTGTCAAG 
    ATTTTGGCCT TTAAAAAGAA AGCTCACGAG CTTGTGCGCA GAGAAAAGGC TGCCACAGGG 
    CTACAAACAA ACGCAAATAG CAACCAGATA ATCAATTCCA ATAACTATTT ATCAAACAGG 
    AATTTTGGGT CCAATGCTAA TGCGCCAGTT ACTGCGACGT CGGAGGATAG CAAAGTGGTT 
    CTTACACTCT ACGGTAACGC ACCGCAACCG AAACAGCTAT TCTCTAGTTT ACAGCTTCCA 
    ACGAAGTATG ACGGAGAATC GATTTCTCAG CCTCTCCGCG AGGCCGGCCT ACCAAATGGT 
    ATTACGACAA CTCAGATTGT TCCCCTACAG CCCACGAGCT TTGATGACAA TAAGAAACGT 
    CCGCAGACTT TAGGGGAGCT CTTTCCAACC CCTCCAAACA TTCATCCCTT GAAGCCGCCT 
    AAAATTTCCA AGAGCTCGTT ACCAACTTCA ATCGATGGGT GGCACCAACC ATTTGTTGCC 
    GATCCACGAA GTAGTAGCTA TTGGAAACAA CCACTCACTA CTGGACAGTG GCTTGATTAT 
    AGCAATACCT CATCACTCAG CCCAGAAAGG AAACGCACTG GAGTTGCAGG CTCCAATGAA 
    GACGCCGAAA CAGCCGTTGA CTCGAGCGAA ATTGATGCTG CTAAGTTGGA TGCTTTGTTT 
    CGGAGCGCGT ATTCGGGATT TGCACCGACC AAGGATGATT CCAAAGCTAT CGCTCCGGAA 
    AGTGTTTTGA GCAAGATCTG GTGGCAACGA GTCGGTGAAA AACGATGGGG AGATATAATT 
    AACAGGGCTG AGGGGCTAGG CGACGGCTAT CCCACGGAGC CAAGTACTAA TAATAGCTTG 
    GCTTTCAACG ATGCGGAAAT TGAGGAACTC GAGCAAGCAG CGAAAGAATT CTCTGATGTT 
    TCGATCGATC CCAGCTTGAT GTCTACCGAC TCAAATGTCG AAATGGCGGC AGAAGAAAAA 
    GATGTTGAGG AAGTACTACA GGGAATTTCG GAGTTGCTGG AGACGCTCAA CTCATATCAA 
    AGGAATCGAC ATGTCTCTCT CAATGCCACA GGTCGTCCTA TTAGCTCGTT CGGTACATCA 
    GAAACTACTT TCATGGGCAC TCCTTCAAAG CCCAGCGATT CAGAAGTGAC CACATATGAG 
    ATCCTTAAAT CGCAGCTAGC ATTGATGGTT GCCATGTTAC CGCCATATGC CGTTGCGAAG 
    TTGAACTCCG ATCAATTGGC TGAACTTAGC ATTAGTACAA AGATTGAAGT TCAATTGAGC 
    GATCAAAAAG GTGTTATGGA GGAAGACGAG ATAGCAGCTC GCGCAAAGGT CGCAGCAATG 
    AGCGCAGCCT CAAATACACG GCCCACCACT AGCTCTTCGT TGCATCGAAG CTCTTCTTCT 
    GCTGCACTTT ACGGCAATCA ATACTCGTCC TCGCGACCAG CTCCAGCCCC CACTGGACAA 
    CACTACGCTA CTGCCCAAAC ACCAATCAGA CCGCCACCAA GCAATTTGCA ACGTCCGCCT 
    GCTACGGCGC CGGTTCCTAC TTCGTATGCA CAGCGTGCTC CATCTGCTCC TTCGTATCGT 
    CCTGCAGCTT ACCCGGGACC TGCATATTCA CACCAGTTCC GAACGCCAGG TCCAACAGCA 
    CCGCAGTATG CTCAGGCAAG TAGCCAACAA CAACAGTATC ACCACAATAC CCCTACTACC 
    TCCTATACAC GCCCTCCAAC TCAACCCTAC CAAAGCATTC CTCAATCTAC ACCTCAGACA 
    GTGCGATACC CAAGTCAACC ACCATACGCT GCCCAGCAAC AGCCAGTTCA AAATGGTGCC 
    GCATATACTC AGGGTTATGG AAATGGAACG CATGTTGGCC GACAAAGCTC GCCTCAAAAG 
    CCTGTGTATA ATCAAGCAAA TCAGCATTCA CAACCTCAAG TTCGTCCTCC ATACTCAACA 
    CCCGCCCCTC CAATTTTACC ACCCAATGCC ACTAGGCACA TGCAAGGTCA GTTGGCTCAA 
    CCACCGGTCA TGAATGGCTC CTCTCAATCA CCTCAACCTC AACCTCAACC TCAACAGACT 
    CTGCCGCCAC AATCACATAA CCAAAATTCC TATAATAACA TGAGTACTTT TTTAACTTCA 
    GGCGAGCAAC AGACTATAAT TGATCGTCAG CGCGCACAGA TTGTTCAGCA GCAAGGGACC 
    CAACATCAAG CAAGAAATAC TGCTCCAGCA GGTGCCTTGG GGTCACCACA GCCACAAATC 
    AATGGCAACA GTGCCGTTGC GGCAGGGCTA TGA

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

    RefSeq XP_001547397.1
    CDS1..2733
    Translation

    Target ORF information:

    RefSeq Version XM_001547347.1
    Organism Botrytis cinerea B05.10
    Definition Botryotinia fuckeliana B05.10 hypothetical protein (BC1G_14024) partial mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_001547347.1

    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
    ATGGCCTCGA CCAACGGGAT TCTCAGTCCC CCCACTCAAC CGCATTTAGA TATTACACTA 
    TCCGCGAAAC GAAAACGCGA CGATAACATC GATCAGCCAG CTCTCATAAA TGGCACCAGC 
    AACGAATCCA AAATCGAAAT TGCAAAAGAA CCATCGACGG CAGATACACA AGGCCTTGTC 
    GAAGATCTGA TCGACGTACT CAAAAGCCAT GACCCCTCGC CCTCCATCTT AACACGAGCT 
    CTTCCTGAAT CAATCCCGTC GACCGAACCT CACGCTAAAA GACAAAAGTC GGATGGCGCG 
    ACTGATTCAC CAACTATTCT ATCACGCGCG ACAGCACATG AATATCTTAC TATCGATGAA 
    GTTCTCAAAG ATGTTGATAC TGCCGCATCC GATATCATAG AGAGGTTACA ATTGACCGTT 
    GGCTCAAATC AGAATCAGTA TATACCTGTT CCCGCTGGAC AATCGGAGCT AGCTGTCAAG 
    ATTTTGGCCT TTAAAAAGAA AGCTCACGAG CTTGTGCGCA GAGAAAAGGC TGCCACAGGG 
    CTACAAACAA ACGCAAATAG CAACCAGATA ATCAATTCCA ATAACTATTT ATCAAACAGG 
    AATTTTGGGT CCAATGCTAA TGCGCCAGTT ACTGCGACGT CGGAGGATAG CAAAGTGGTT 
    CTTACACTCT ACGGTAACGC ACCGCAACCG AAACAGCTAT TCTCTAGTTT ACAGCTTCCA 
    ACGAAGTATG ACGGAGAATC GATTTCTCAG CCTCTCCGCG AGGCCGGCCT ACCAAATGGT 
    ATTACGACAA CTCAGATTGT TCCCCTACAG CCCACGAGCT TTGATGACAA TAAGAAACGT 
    CCGCAGACTT TAGGGGAGCT CTTTCCAACC CCTCCAAACA TTCATCCCTT GAAGCCGCCT 
    AAAATTTCCA AGAGCTCGTT ACCAACTTCA ATCGATGGGT GGCACCAACC ATTTGTTGCC 
    GATCCACGAA GTAGTAGCTA TTGGAAACAA CCACTCACTA CTGGACAGTG GCTTGATTAT 
    AGCAATACCT CATCACTCAG CCCAGAAAGG AAACGCACTG GAGTTGCAGG CTCCAATGAA 
    GACGCCGAAA CAGCCGTTGA CTCGAGCGAA ATTGATGCTG CTAAGTTGGA TGCTTTGTTT 
    CGGAGCGCGT ATTCGGGATT TGCACCGACC AAGGATGATT CCAAAGCTAT CGCTCCGGAA 
    AGTGTTTTGA GCAAGATCTG GTGGCAACGA GTCGGTGAAA AACGATGGGG AGATATAATT 
    AACAGGGCTG AGGGGCTAGG CGACGGCTAT CCCACGGAGC CAAGTACTAA TAATAGCTTG 
    GCTTTCAACG ATGCGGAAAT TGAGGAACTC GAGCAAGCAG CGAAAGAATT CTCTGATGTT 
    TCGATCGATC CCAGCTTGAT GTCTACCGAC TCAAATGTCG AAATGGCGGC AGAAGAAAAA 
    GATGTTGAGG AAGTACTACA GGGAATTTCG GAGTTGCTGG AGACGCTCAA CTCATATCAA 
    AGGAATCGAC ATGTCTCTCT CAATGCCACA GGTCGTCCTA TTAGCTCGTT CGGTACATCA 
    GAAACTACTT TCATGGGCAC TCCTTCAAAG CCCAGCGATT CAGAAGTGAC CACATATGAG 
    ATCCTTAAAT CGCAGCTAGC ATTGATGGTT GCCATGTTAC CGCCATATGC CGTTGCGAAG 
    TTGAACTCCG ATCAATTGGC TGAACTTAGC ATTAGTACAA AGATTGAAGT TCAATTGAGC 
    GATCAAAAAG GTGTTATGGA GGAAGACGAG ATAGCAGCTC GCGCAAAGGT CGCAGCAATG 
    AGCGCAGCCT CAAATACACG GCCCACCACT AGCTCTTCGT TGCATCGAAG CTCTTCTTCT 
    GCTGCACTTT ACGGCAATCA ATACTCGTCC TCGCGACCAG CTCCAGCCCC CACTGGACAA 
    CACTACGCTA CTGCCCAAAC ACCAATCAGA CCGCCACCAA GCAATTTGCA ACGTCCGCCT 
    GCTACGGCGC CGGTTCCTAC TTCGTATGCA CAGCGTGCTC CATCTGCTCC TTCGTATCGT 
    CCTGCAGCTT ACCCGGGACC TGCATATTCA CACCAGTTCC GAACGCCAGG TCCAACAGCA 
    CCGCAGTATG CTCAGGCAAG TAGCCAACAA CAACAGTATC ACCACAATAC CCCTACTACC 
    TCCTATACAC GCCCTCCAAC TCAACCCTAC CAAAGCATTC CTCAATCTAC ACCTCAGACA 
    GTGCGATACC CAAGTCAACC ACCATACGCT GCCCAGCAAC AGCCAGTTCA AAATGGTGCC 
    GCATATACTC AGGGTTATGG AAATGGAACG CATGTTGGCC GACAAAGCTC GCCTCAAAAG 
    CCTGTGTATA ATCAAGCAAA TCAGCATTCA CAACCTCAAG TTCGTCCTCC ATACTCAACA 
    CCCGCCCCTC CAATTTTACC ACCCAATGCC ACTAGGCACA TGCAAGGTCA GTTGGCTCAA 
    CCACCGGTCA TGAATGGCTC CTCTCAATCA CCTCAACCTC AACCTCAACC TCAACAGACT 
    CTGCCGCCAC AATCACATAA CCAAAATTCC TATAATAACA TGAGTACTTT TTTAACTTCA 
    GGCGAGCAAC AGACTATAAT TGATCGTCAG CGCGCACAGA TTGTTCAGCA GCAAGGGACC 
    CAACATCAAG CAAGAAATAC TGCTCCAGCA GGTGCCTTGG GGTCACCACA GCCACAAATC 
    AATGGCAACA GTGCCGTTGC GGCAGGGCTA TGA

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

    BCIN_02g07000 ( XM_001547347.2 ) cDNA ORF clone, Botrytis cinerea B05.10 -> XP_001547397.1 Botrytis cinerea B05.10 hypothetical protein (BCIN_02g07000), mRNA.
    Price & Availability↑
    CloneID OBc01359
    Clone ID Related Accession (Same CDS sequence) XM_001547347.1 , XM_001547347.2
    Accession Version XM_001547347.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2733bp)
    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 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_037311). On Apr 17, 2018 this sequence version replaced XM_001547347.1. 

    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
    2701
    ATGGCCTCGA CCAACGGGAT TCTCAGTCCC CCCACTCAAC CGCATTTAGA TATTACACTA 
    TCCGCGAAAC GAAAACGCGA CGATAACATC GATCAGCCAG CTCTCATAAA TGGCACCAGC 
    AACGAATCCA AAATCGAAAT TGCAAAAGAA CCATCGACGG CAGATACACA AGGCCTTGTC 
    GAAGATCTGA TCGACGTACT CAAAAGCCAT GACCCCTCGC CCTCCATCTT AACACGAGCT 
    CTTCCTGAAT CAATCCCGTC GACCGAACCT CACGCTAAAA GACAAAAGTC GGATGGCGCG 
    ACTGATTCAC CAACTATTCT ATCACGCGCG ACAGCACATG AATATCTTAC TATCGATGAA 
    GTTCTCAAAG ATGTTGATAC TGCCGCATCC GATATCATAG AGAGGTTACA ATTGACCGTT 
    GGCTCAAATC AGAATCAGTA TATACCTGTT CCCGCTGGAC AATCGGAGCT AGCTGTCAAG 
    ATTTTGGCCT TTAAAAAGAA AGCTCACGAG CTTGTGCGCA GAGAAAAGGC TGCCACAGGG 
    CTACAAACAA ACGCAAATAG CAACCAGATA ATCAATTCCA ATAACTATTT ATCAAACAGG 
    AATTTTGGGT CCAATGCTAA TGCGCCAGTT ACTGCGACGT CGGAGGATAG CAAAGTGGTT 
    CTTACACTCT ACGGTAACGC ACCGCAACCG AAACAGCTAT TCTCTAGTTT ACAGCTTCCA 
    ACGAAGTATG ACGGAGAATC GATTTCTCAG CCTCTCCGCG AGGCCGGCCT ACCAAATGGT 
    ATTACGACAA CTCAGATTGT TCCCCTACAG CCCACGAGCT TTGATGACAA TAAGAAACGT 
    CCGCAGACTT TAGGGGAGCT CTTTCCAACC CCTCCAAACA TTCATCCCTT GAAGCCGCCT 
    AAAATTTCCA AGAGCTCGTT ACCAACTTCA ATCGATGGGT GGCACCAACC ATTTGTTGCC 
    GATCCACGAA GTAGTAGCTA TTGGAAACAA CCACTCACTA CTGGACAGTG GCTTGATTAT 
    AGCAATACCT CATCACTCAG CCCAGAAAGG AAACGCACTG GAGTTGCAGG CTCCAATGAA 
    GACGCCGAAA CAGCCGTTGA CTCGAGCGAA ATTGATGCTG CTAAGTTGGA TGCTTTGTTT 
    CGGAGCGCGT ATTCGGGATT TGCACCGACC AAGGATGATT CCAAAGCTAT CGCTCCGGAA 
    AGTGTTTTGA GCAAGATCTG GTGGCAACGA GTCGGTGAAA AACGATGGGG AGATATAATT 
    AACAGGGCTG AGGGGCTAGG CGACGGCTAT CCCACGGAGC CAAGTACTAA TAATAGCTTG 
    GCTTTCAACG ATGCGGAAAT TGAGGAACTC GAGCAAGCAG CGAAAGAATT CTCTGATGTT 
    TCGATCGATC CCAGCTTGAT GTCTACCGAC TCAAATGTCG AAATGGCGGC AGAAGAAAAA 
    GATGTTGAGG AAGTACTACA GGGAATTTCG GAGTTGCTGG AGACGCTCAA CTCATATCAA 
    AGGAATCGAC ATGTCTCTCT CAATGCCACA GGTCGTCCTA TTAGCTCGTT CGGTACATCA 
    GAAACTACTT TCATGGGCAC TCCTTCAAAG CCCAGCGATT CAGAAGTGAC CACATATGAG 
    ATCCTTAAAT CGCAGCTAGC ATTGATGGTT GCCATGTTAC CGCCATATGC CGTTGCGAAG 
    TTGAACTCCG ATCAATTGGC TGAACTTAGC ATTAGTACAA AGATTGAAGT TCAATTGAGC 
    GATCAAAAAG GTGTTATGGA GGAAGACGAG ATAGCAGCTC GCGCAAAGGT CGCAGCAATG 
    AGCGCAGCCT CAAATACACG GCCCACCACT AGCTCTTCGT TGCATCGAAG CTCTTCTTCT 
    GCTGCACTTT ACGGCAATCA ATACTCGTCC TCGCGACCAG CTCCAGCCCC CACTGGACAA 
    CACTACGCTA CTGCCCAAAC ACCAATCAGA CCGCCACCAA GCAATTTGCA ACGTCCGCCT 
    GCTACGGCGC CGGTTCCTAC TTCGTATGCA CAGCGTGCTC CATCTGCTCC TTCGTATCGT 
    CCTGCAGCTT ACCCGGGACC TGCATATTCA CACCAGTTCC GAACGCCAGG TCCAACAGCA 
    CCGCAGTATG CTCAGGCAAG TAGCCAACAA CAACAGTATC ACCACAATAC CCCTACTACC 
    TCCTATACAC GCCCTCCAAC TCAACCCTAC CAAAGCATTC CTCAATCTAC ACCTCAGACA 
    GTGCGATACC CAAGTCAACC ACCATACGCT GCCCAGCAAC AGCCAGTTCA AAATGGTGCC 
    GCATATACTC AGGGTTATGG AAATGGAACG CATGTTGGCC GACAAAGCTC GCCTCAAAAG 
    CCTGTGTATA ATCAAGCAAA TCAGCATTCA CAACCTCAAG TTCGTCCTCC ATACTCAACA 
    CCCGCCCCTC CAATTTTACC ACCCAATGCC ACTAGGCACA TGCAAGGTCA GTTGGCTCAA 
    CCACCGGTCA TGAATGGCTC CTCTCAATCA CCTCAACCTC AACCTCAACC TCAACAGACT 
    CTGCCGCCAC AATCACATAA CCAAAATTCC TATAATAACA TGAGTACTTT TTTAACTTCA 
    GGCGAGCAAC AGACTATAAT TGATCGTCAG CGCGCACAGA TTGTTCAGCA GCAAGGGACC 
    CAACATCAAG CAAGAAATAC TGCTCCAGCA GGTGCCTTGG GGTCACCACA GCCACAAATC 
    AATGGCAACA GTGCCGTTGC GGCAGGGCTA TGA

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

    RefSeq XP_001547397.1
    CDS474..3206
    Translation

    Target ORF information:

    RefSeq Version XM_001547347.2
    Organism Botrytis cinerea B05.10
    Definition Botrytis cinerea B05.10 hypothetical protein (BCIN_02g07000), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_001547347.2

    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
    2701
    ATGGCCTCGA CCAACGGGAT TCTCAGTCCC CCCACTCAAC CGCATTTAGA TATTACACTA 
    TCCGCGAAAC GAAAACGCGA CGATAACATC GATCAGCCAG CTCTCATAAA TGGCACCAGC 
    AACGAATCCA AAATCGAAAT TGCAAAAGAA CCATCGACGG CAGATACACA AGGCCTTGTC 
    GAAGATCTGA TCGACGTACT CAAAAGCCAT GACCCCTCGC CCTCCATCTT AACACGAGCT 
    CTTCCTGAAT CAATCCCGTC GACCGAACCT CACGCTAAAA GACAAAAGTC GGATGGCGCG 
    ACTGATTCAC CAACTATTCT ATCACGCGCG ACAGCACATG AATATCTTAC TATCGATGAA 
    GTTCTCAAAG ATGTTGATAC TGCCGCATCC GATATCATAG AGAGGTTACA ATTGACCGTT 
    GGCTCAAATC AGAATCAGTA TATACCTGTT CCCGCTGGAC AATCGGAGCT AGCTGTCAAG 
    ATTTTGGCCT TTAAAAAGAA AGCTCACGAG CTTGTGCGCA GAGAAAAGGC TGCCACAGGG 
    CTACAAACAA ACGCAAATAG CAACCAGATA ATCAATTCCA ATAACTATTT ATCAAACAGG 
    AATTTTGGGT CCAATGCTAA TGCGCCAGTT ACTGCGACGT CGGAGGATAG CAAAGTGGTT 
    CTTACACTCT ACGGTAACGC ACCGCAACCG AAACAGCTAT TCTCTAGTTT ACAGCTTCCA 
    ACGAAGTATG ACGGAGAATC GATTTCTCAG CCTCTCCGCG AGGCCGGCCT ACCAAATGGT 
    ATTACGACAA CTCAGATTGT TCCCCTACAG CCCACGAGCT TTGATGACAA TAAGAAACGT 
    CCGCAGACTT TAGGGGAGCT CTTTCCAACC CCTCCAAACA TTCATCCCTT GAAGCCGCCT 
    AAAATTTCCA AGAGCTCGTT ACCAACTTCA ATCGATGGGT GGCACCAACC ATTTGTTGCC 
    GATCCACGAA GTAGTAGCTA TTGGAAACAA CCACTCACTA CTGGACAGTG GCTTGATTAT 
    AGCAATACCT CATCACTCAG CCCAGAAAGG AAACGCACTG GAGTTGCAGG CTCCAATGAA 
    GACGCCGAAA CAGCCGTTGA CTCGAGCGAA ATTGATGCTG CTAAGTTGGA TGCTTTGTTT 
    CGGAGCGCGT ATTCGGGATT TGCACCGACC AAGGATGATT CCAAAGCTAT CGCTCCGGAA 
    AGTGTTTTGA GCAAGATCTG GTGGCAACGA GTCGGTGAAA AACGATGGGG AGATATAATT 
    AACAGGGCTG AGGGGCTAGG CGACGGCTAT CCCACGGAGC CAAGTACTAA TAATAGCTTG 
    GCTTTCAACG ATGCGGAAAT TGAGGAACTC GAGCAAGCAG CGAAAGAATT CTCTGATGTT 
    TCGATCGATC CCAGCTTGAT GTCTACCGAC TCAAATGTCG AAATGGCGGC AGAAGAAAAA 
    GATGTTGAGG AAGTACTACA GGGAATTTCG GAGTTGCTGG AGACGCTCAA CTCATATCAA 
    AGGAATCGAC ATGTCTCTCT CAATGCCACA GGTCGTCCTA TTAGCTCGTT CGGTACATCA 
    GAAACTACTT TCATGGGCAC TCCTTCAAAG CCCAGCGATT CAGAAGTGAC CACATATGAG 
    ATCCTTAAAT CGCAGCTAGC ATTGATGGTT GCCATGTTAC CGCCATATGC CGTTGCGAAG 
    TTGAACTCCG ATCAATTGGC TGAACTTAGC ATTAGTACAA AGATTGAAGT TCAATTGAGC 
    GATCAAAAAG GTGTTATGGA GGAAGACGAG ATAGCAGCTC GCGCAAAGGT CGCAGCAATG 
    AGCGCAGCCT CAAATACACG GCCCACCACT AGCTCTTCGT TGCATCGAAG CTCTTCTTCT 
    GCTGCACTTT ACGGCAATCA ATACTCGTCC TCGCGACCAG CTCCAGCCCC CACTGGACAA 
    CACTACGCTA CTGCCCAAAC ACCAATCAGA CCGCCACCAA GCAATTTGCA ACGTCCGCCT 
    GCTACGGCGC CGGTTCCTAC TTCGTATGCA CAGCGTGCTC CATCTGCTCC TTCGTATCGT 
    CCTGCAGCTT ACCCGGGACC TGCATATTCA CACCAGTTCC GAACGCCAGG TCCAACAGCA 
    CCGCAGTATG CTCAGGCAAG TAGCCAACAA CAACAGTATC ACCACAATAC CCCTACTACC 
    TCCTATACAC GCCCTCCAAC TCAACCCTAC CAAAGCATTC CTCAATCTAC ACCTCAGACA 
    GTGCGATACC CAAGTCAACC ACCATACGCT GCCCAGCAAC AGCCAGTTCA AAATGGTGCC 
    GCATATACTC AGGGTTATGG AAATGGAACG CATGTTGGCC GACAAAGCTC GCCTCAAAAG 
    CCTGTGTATA ATCAAGCAAA TCAGCATTCA CAACCTCAAG TTCGTCCTCC ATACTCAACA 
    CCCGCCCCTC CAATTTTACC ACCCAATGCC ACTAGGCACA TGCAAGGTCA GTTGGCTCAA 
    CCACCGGTCA TGAATGGCTC CTCTCAATCA CCTCAACCTC AACCTCAACC TCAACAGACT 
    CTGCCGCCAC AATCACATAA CCAAAATTCC TATAATAACA TGAGTACTTT TTTAACTTCA 
    GGCGAGCAAC AGACTATAAT TGATCGTCAG CGCGCACAGA TTGTTCAGCA GCAAGGGACC 
    CAACATCAAG CAAGAAATAC TGCTCCAGCA GGTGCCTTGG GGTCACCACA GCCACAAATC 
    AATGGCAACA GTGCCGTTGC GGCAGGGCTA TGA

    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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