ORF » Species Summary » Botrytis cinerea B05.10 » Bcdna2 cDNA ORF clone

Bcdna2 cDNA ORF clone, Botrytis cinerea B05.10

The following Bcdna2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Bcdna2 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
OBc22038 XM_024695808.1
Latest version!		 Botrytis cinerea B05.10 Bcdna2 (Bcdna2), mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $307.30
$439.00
OBc01099 XM_001546860.1
Latest version!		 Botryotinia fuckeliana B05.10 hypothetical protein (BC1G_14724) partial mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OBc22037 XM_024695807.1
Latest version!		 Botrytis cinerea B05.10 Bcdna2 (Bcdna2), 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)
    Bcdna2 ( XM_024695808.1 ) cDNA ORF clone, Botrytis cinerea B05.10 -> XP_024551602.1 Botrytis cinerea B05.10 Bcdna2 (Bcdna2), mRNA.
    Price & Availability↑
    CloneID OBc22038
    Clone ID Related Accession (Same CDS sequence) XM_024695808.1
    Accession Version XM_024695808.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1515bp)
    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 Bcdna2
    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_037320). 

    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
    ATGCCTCTTC AAAAGTCCTT CTCCGAGACT AATCATTCAG GAAAAGAGAA TCATTCTCGA 
    CAGCCATGGC AGAGGAATAA GAATTACCAG AACCAACAAC AAAAGCCCAA AGTTCCCGCG 
    AAACCATTAG CGGAGAAACC GCCGGTACCC GTTTCTACAA CTACGAAGAA TATCCTTAGC 
    AACTTCCAAT ATCGAGAACA ATCAGGAAAA GGAGACGATT CGAAAGAGAT TATAAACTTG 
    GTGTCATCGG AGACGGATAG TAGAATTGCC ACGCCTTCGA AGATGCGGCG GCGGGGCTCA 
    TCAAAAGATG AGACAAGTTC TGTAGACGAA GATGTCTTTC TTGACGACTC TACTTCCGCA 
    GATGTACCTT CAACGCCATC AATGGGGTTC GATCCCACAC AGAACGCCGA TTTCAAACGA 
    CCATTTAAAG CAGTATCACC TGACGATCGT ATAATTTGGG ATACAAATAA GGATAGTCAA 
    CAACTACCTG AATCAGAGAG CGGCAACCTG GGCAAGAGGA AGAGGGGCGA TAATGACATT 
    GGCAGAGCAC AGAGTTCTTC ACCCATACTA GCCCATTCTT CGCAAGCAGA TTCTTTTCCT 
    AGGCCGGGGC CAGAAGTTGA GGTTTGGATG AAATTGGGTC AGACTAAGGA CATTAAACTC 
    TCGCGAATTA TGGAAAACGC ATCTCCGCAA TCATCGAAGG ACGGGAATAC GCCTAGAGGA 
    TTGACCAGAT CAAGAAGTCT TGGAAATCCA TTGAATCTTA AAAGACACCA ACCGAGTAGG 
    ATAGGAAATA GCAGAAATAT CGATACGCCG GGTTTGATGA GGCGATTGCA GGAGGACTAC 
    AAGCCAAACG AGGTTTCTAG TGGTCCTTCA AGCTCATCAC CTCTCCCTGA TAAAGTTCAA 
    TTTCAATTTG AAGGACCAAG TTCTCCATTA GGTCGAAAAG GAAGTGAGAA GAGGACATCG 
    CCCTTAAAAA GGAGACTTGA GCCGCCATCT TCACCAAGTA CGAATATCGA GTCACATGTT 
    GCTTTACCGA GTCCAAAAAG ACCTTCCACT GCCGAGTCGG ATTATGGTTC CGATGATGGT 
    CTAGACGAAA TTGGTGGAAT GATACTCACG GCTATCGAAT CACAATCGCA AGTTCCTGCA 
    GCTTCAATGT CACGACCACT ACCAAAAATT TATGAGTCGC CAATTAAGCC CAGAGCGTAC 
    TCTACACATA AACCACAGAG CTTATCTAAA AGCCCCGACC CTCCGAAAGC ATTGGAAGAC 
    GATAGTAGCG ACGAATTTGG TGAAGGTTTG GACGATGATG ATTTTGATGC CGCATTTGCA 
    GGATCAGTTC CGGCAGATGA TGTGGAGCTT CCGCCGTCAA GGCCTAGAGG TGCAGCAACT 
    AAAAAGGAGG AGTCCGATGA TGAATATGGT GACGATATAG ACGATTCAGA TTTTGCGGCT 
    GCAGAGATAG CAGCAACGCA GTCACTAAAA CAATCAACAA ATAGCTTAAT GCCTGTACGT 
    CCGAGAAATC CATAG

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

    RefSeq XP_024551602.1
    CDS73..1587
    Translation

    Target ORF information:

    RefSeq Version XM_024695808.1
    Organism Botrytis cinerea B05.10
    Definition Botrytis cinerea B05.10 Bcdna2 (Bcdna2), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024695808.1

    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
    ATGCCTCTTC AAAAGTCCTT CTCCGAGACT AATCATTCAG GAAAAGAGAA TCATTCTCGA 
    CAGCCATGGC AGAGGAATAA GAATTACCAG AACCAACAAC AAAAGCCCAA AGTTCCCGCG 
    AAACCATTAG CGGAGAAACC GCCGGTACCC GTTTCTACAA CTACGAAGAA TATCCTTAGC 
    AACTTCCAAT ATCGAGAACA ATCAGGAAAA GGAGACGATT CGAAAGAGAT TATAAACTTG 
    GTGTCATCGG AGACGGATAG TAGAATTGCC ACGCCTTCGA AGATGCGGCG GCGGGGCTCA 
    TCAAAAGATG AGACAAGTTC TGTAGACGAA GATGTCTTTC TTGACGACTC TACTTCCGCA 
    GATGTACCTT CAACGCCATC AATGGGGTTC GATCCCACAC AGAACGCCGA TTTCAAACGA 
    CCATTTAAAG CAGTATCACC TGACGATCGT ATAATTTGGG ATACAAATAA GGATAGTCAA 
    CAACTACCTG AATCAGAGAG CGGCAACCTG GGCAAGAGGA AGAGGGGCGA TAATGACATT 
    GGCAGAGCAC AGAGTTCTTC ACCCATACTA GCCCATTCTT CGCAAGCAGA TTCTTTTCCT 
    AGGCCGGGGC CAGAAGTTGA GGTTTGGATG AAATTGGGTC AGACTAAGGA CATTAAACTC 
    TCGCGAATTA TGGAAAACGC ATCTCCGCAA TCATCGAAGG ACGGGAATAC GCCTAGAGGA 
    TTGACCAGAT CAAGAAGTCT TGGAAATCCA TTGAATCTTA AAAGACACCA ACCGAGTAGG 
    ATAGGAAATA GCAGAAATAT CGATACGCCG GGTTTGATGA GGCGATTGCA GGAGGACTAC 
    AAGCCAAACG AGGTTTCTAG TGGTCCTTCA AGCTCATCAC CTCTCCCTGA TAAAGTTCAA 
    TTTCAATTTG AAGGACCAAG TTCTCCATTA GGTCGAAAAG GAAGTGAGAA GAGGACATCG 
    CCCTTAAAAA GGAGACTTGA GCCGCCATCT TCACCAAGTA CGAATATCGA GTCACATGTT 
    GCTTTACCGA GTCCAAAAAG ACCTTCCACT GCCGAGTCGG ATTATGGTTC CGATGATGGT 
    CTAGACGAAA TTGGTGGAAT GATACTCACG GCTATCGAAT CACAATCGCA AGTTCCTGCA 
    GCTTCAATGT CACGACCACT ACCAAAAATT TATGAGTCGC CAATTAAGCC CAGAGCGTAC 
    TCTACACATA AACCACAGAG CTTATCTAAA AGCCCCGACC CTCCGAAAGC ATTGGAAGAC 
    GATAGTAGCG ACGAATTTGG TGAAGGTTTG GACGATGATG ATTTTGATGC CGCATTTGCA 
    GGATCAGTTC CGGCAGATGA TGTGGAGCTT CCGCCGTCAA GGCCTAGAGG TGCAGCAACT 
    AAAAAGGAGG AGTCCGATGA TGAATATGGT GACGATATAG ACGATTCAGA TTTTGCGGCT 
    GCAGAGATAG CAGCAACGCA GTCACTAAAA CAATCAACAA ATAGCTTAAT GCCTGTACGT 
    CCGAGAAATC CATAG

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

    Bcdna2 ( XM_001546860.1 ) cDNA ORF clone, Botrytis cinerea B05.10 -> XP_001546910.1 Botryotinia fuckeliana B05.10 hypothetical protein (BC1G_14724) partial mRNA.
    Price & Availability↑
    CloneID OBc01099
    Clone ID Related Accession (Same CDS sequence) XM_001546860.1
    Accession Version XM_001546860.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4848bp)
    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_001814425). 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
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGCCTCTTC AAAAGTCCTT CTCCGAGACT AATCATTCAG GAAAAGAGAA TCATCCATGG 
    CAGAGGAATA AGAATTACCA GAACCAACAA CAAAAGCCCA AAGTTCCCGC GAAACCATTA 
    GCGGAGAAAC CGCCGGTACC CGTTTCTACA ACTACGAAGA ATATCCTTAG CAACTTCCAA 
    TATCGAGAAC AATCAGGAAA AGGAGACGAT TCGAAAGAGA TTATAAACTT GGTGTCATCG 
    GAGACGGATA GTAGAATTGC CACGCCTTCG AAGATGCGGC GGCGGGGCTC ATCAAAAGAT 
    GAGACAAGTT CTGTAGACGA AGATGTCTTT CTTGACGACT CTACTTCCGC AGATGTACCT 
    TCAACGCCAT CAATGGGGTT CGATCCCACA CAGAACGCCG ATTTCAAACG ACCATTTAAA 
    GCAGTATCAC CTGACGATCG TATAATTTGG GATACAAATA AGGATAGTCA ACAACTACCT 
    GAATCAGAGA GCGGCAACCT GGGCAAGAGG AAGAGGGGCG ATAATGACAT TGGCAGAGCA 
    CAGAGTTCTT CACCCATACT AGCCCATTCT TCGCAAGCAG ATTCTTTTCC TAGGCCGGGG 
    CCAGAAGTTG AGGTTTGGAT GAAATTGGGT CAGACTAAGG ACATTAAACT CTCGCGAATT 
    ATGGAAAACG CATCTCCGCA ATCATCGAAG GACGGGAATA CGCCTAGAGG ATTGACCAGA 
    TCAAGAAGTC TTGGAAATCC ATTGAATCTT AAAAGACACC AACCGAGTAG GATAGGAAAT 
    AGCAGAAATA TCGATACGCC GGGTTTGATG AGGCGATTGC AGGAGGACTA CAAGCCAAAC 
    GAGGTTTCTA GTGGTCCTTC AAGCTCATCA CCTCTCCCTG ATAAAGTTCA ATTTCAATTT 
    GAAGGACCAA GTTCTCCATT AGGTCGAAAA GGAAGTGAGA AGAGGACATC GCCCTTAAAA 
    AGGAGACTTG AGCCGCCATC TTCACCAAGT ACGAATATCG AGTCACATGT TGCTTTACCG 
    AGTCCAAAAA GACCTTCCAC TGCCGAGTCG GATTATGGTT CCGATGATGG TCTAGACGAA 
    ATTGGTGGAA TGATACTCAC GGCTATCGAA TCACAATCGC AAGTTCCTGC AGCTTCAATG 
    TCACGACCAC TACCAAAAAT TTATGAGTCG CCAATTAAGC CCAGAGCGTA CTCTACACAT 
    AAACCACAGA GCTTATCTAA AAGCCCCGAC CCTCCGAAAG CATTGGAAGA CGATAGTAGC 
    GACGAATTTG GTGAAGGTTT GGACGATGAT GATTTTGATG CCGCATTTGC AGGATCAGTT 
    CCGGCAGATG ATGTGGAGCT TCCGCCGTCA AGGCCTAGAG GTGCAGCAAC TAAAAAGGAG 
    GAGTCCGATG ATGAATATGG TGACGATATA GACGATTCAG ATTTTGCGGC TGCAGAGATA 
    GCAGCAACGC AGTCACTAAA ACAATCAACA AATAGCTTAA TGCCTTCTAT GGAAAAAGCT 
    CGCGCAATTC AAAGATATCT TGTCACCATG ATAGATAATA ATCAGTATGC AGGTGTTAAT 
    GGTAAATTGC AACCAGAAAA GGCTTTTGTT CACATCATTG GCAAGTTTGA TGCACAGGGA 
    ATTTGTGTCA TAGACGATAA CTCTGGCTTG ATCATTCTTC ACCCGGACCA TCTTATCTCT 
    GCGCTCGTAG TAGCGGATTC TTTCGGGTGT ACTCGTCGTG CAGTTCTTCA AGATAGGGTC 
    AAGGCTACTG GTGAAGCATC TCCAGCTATG CTTTATGGAA CGATTCTTCA TGAGATATTT 
    CAAGCTGCAA TGCTTGTTAA TCGCTGGGAT AGGATGTTTC TTGGCGAGCT TATTGATAAG 
    CTTGCTCAAA GACATCTTGA AGACTTGTAT GTTATCAAGG TTGAAATACC CCAGGCTGTA 
    GAATATCTAC ATAGTAAAAT GGGAGAGTTA CAAGCATGGG CCGAATTGTT TGTCTCATCT 
    CAACCAAAGC CTGGAGCTCT AGTAAAAGCT GGAAATGGCG ATACTGTTGC TATGTGTGTC 
    AGTAATCTTC TCGATGTTGA GGAACACGTT TGGTCTCCAA TGTATGGCCT GAAAGGTAAC 
    ATTGATGCTA CGGTACAAAT CACAATGAGA GATGAAAAAG GGCAAAGAAC TCTCACTGCA 
    CCCTTTGAGG TCAAGACCGG CAAGAATCCC AGTGTTGCCA ACCGTGCACA AACAGCGCTT 
    TACAATCTTC TGATTTCTGA TCGATATGAT GTTGAGATTG CTTATGGAAT TCTGTACTAC 
    ATGGAAACCT CTGAGACCAT TAGAATTCCT GCCATTCGTC ACGAACTTCG CCATATGATC 
    ATGCAGCGGA ATGAGCTCGC GTGTTATGTC CGAGAGAAAA ATGCTCAACT TCCACCCATG 
    CTCAAAAAGG AGAACATGTG TGGAAGATGT TATGCGAAGA ATACCTGTTT CATTTATCAC 
    AAGCTAGCTG ATGATGGAAA CGGAGAGACA AGCGGTATGA AGGAGAAGTT TGACGAAGTG 
    GTCAAGCATC TTACTCCAAA GCATAAAGAG TTCTTCCTCA AATGGGATGA TCTTCTTACG 
    AAAGAAGAGA AAGACTCTTT GAAGTTTCGT CGAGAACTAT GGACCATGTT GAGCTCAGAG 
    CGGGAAAAAC TTGGTCGATG TTTCTCGAAC GTTATAATCG AGGAAGGATC TGCCTACGAA 
    GATCAGAATA ATGAGAAGAT CAATCGATAT CGATACACCA TGATTAAACC GAAAAATACC 
    GCAGCTCCAG GGTTTTCCTT CATGGACTCT CAGATTATAG TAGGAGAACC AATTGTTATC 
    TCAGATGAAA AAGGCCATTT CGCTCTCGCC AAAGGCTATG TCACGAACGT ACGCAAGAAC 
    AGGATTACAG TCGCTGTTGA TCGACGTTTG CATAATGCTC GCATCAGACA ACCCGGATTC 
    GATGAAACTA ATAACCAGGT CTTTGCTAGT ATCATGGAAG TCGCTGCAGA AGGATCTACA 
    CCAGCTGACT CTATTGGTAA AATTAGAGAG GATCCCATTC TGTACAGGCT CGATAAAGAT 
    GAATTCAGTA ACGGTCTTGC GACTGTTCGG AACAATCTCA TCCAAATTAT GACCGAAGGC 
    CCATTTGGAT CACGCGAAAT TCGAAGTCTA GTCGTTGATC TTAATCCTCC TCGTTTTAAG 
    CCACATTCCA CTCAGTACAC ACTCAAAGAT CGATCTTGTA TCAACGTGGA TCAACGCCGT 
    GCTATCGAAA AAGTCATGTC CGCACAGGAT TATGCTTTAG TACTTGGTAT GCCTGGTACT 
    GGAAAGACTA CAACTATTGC TCACATTATC CGAGCTCTTG TTTCGCAAGG GAAATCTGTT 
    CTCCTCACCT CTTACACTCA TACAGCCGTG GACAATATCC TCCTGAAACT TCGAGATGAC 
    TCAATTCCAA TCTTACGCCT AGGCACTAAA GCTAAGATCC ACCCCGACGT TCAAGAATTT 
    GCCAAACTCG CTGTCGATCC TAAAGAAACC ATGGAAGAAA TCCGAAGTGT CTGGCATGAT 
    ACACCAATCA TTGCCACTAG TTGCCTCGGT ATCAACCATC CCATTTTCAA CGAACGTACA 
    TTTGACTACT GCATAGTAGA CGAAGCTTCT CAAATTACAC TACCCGTCTG TGTTGGTCCC 
    ATTCGTCTCG CTCGCACATT CATCCTTGTC GGAGATCACA ATCAACTTCC CCCCTTAGTC 
    AAAGATGAAG AAGCCCGAAA AGGAGGTCTA GATATCTCTC TCTTCAAATA TCTCTCAGAC 
    GCCCATCCTC AAAGCGTCGT CTACCTCGAA CATCAATATC GCATGAATGC CGACGTAATG 
    GCTCTTTCCA ATACACTCAT TTACAATGGA CGTCTCAAAT GCGGTAGCAC TTCTGTCGCT 
    AATCGTAAGA TCATTATTCC CGATATGGAC GCTTTGAAAG CAAATCATCA TACACCAAGT 
    AGTGTCCTAC ACAGTACACA GAAGTCTATT TGTCTGGAAC CGAAGAAGGG AAGATGCTGG 
    TTGCGAGATC TCTTGGATCC GGATGTCACC GTAGCATTTG TAGATACTGA TAGCCTTGGC 
    GATATGGCAC GAGAAAGCGA GAAAGGGAAT CGAACTGTAA ATGATGTGGA AGCTAGAATC 
    GTAACGCAAC TCGTTACCTC TCTCATAGCA GTTGGTGTAG ATCCTACGGA AATAGGAGTC 
    ATGACACATT ACCGCTCCCA ATTAGCTTTG CTCAAAGACA GTCTCCATAA TGCTAAAGGT 
    GTGGAAATGC ATACTGCAGA TAGGTTTCAA GGGAGAGATA AGGAAGTTAT TGTACTGAGC 
    TTGGTAAGAA GTAATGAGGG TGGAAGTATT GGGGAATTAT TGAAGGATTG GAGGAGGATT 
    AATGTGGCGT TCACGAGGGC GAAGACGAAG CTGTTGGTTG TGGGGAGTAG GGGGACACTG 
    AAAGGGAAGG TAGATAACGA TGGAGACAGG AAGGAAGAAA TGGTAAGTAG ATTTGTGAGG 
    TTGATGGAGG AAAAGAAGTG GGTTTATGAG TTGAAGGAGG AACAGTTAAT GGGGCATTGG 
    TGGGAAATGG CGGGGACTGC GACTCAGGGG AGTGTTGGAT TGTCGCAGTG GGTCAAGGTG 
    GAGAAAGAAG TGGTGAAGAG GAAAAACTCT GATTTGATGG ATATCGAAGG AGACGAAGTT 
    GGAGACAAGG AAAACGTGCG AATGACACCC ACTAAGCAAG AACCGACGGC TATGAAGAGC 
    GGCAAAGGGA AACATCAACC TAAGAGGATT AAAGGAGGTT TAGCGGCGAA TAATGGGAAT 
    ATAAGGCAAG GAAGCGTTTT GATGGATTTG GTTAACGATA TGTCATGA

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

    RefSeq XP_001546910.1
    CDS1..4848
    Translation

    Target ORF information:

    RefSeq Version XM_001546860.1
    Organism Botrytis cinerea B05.10
    Definition Botryotinia fuckeliana B05.10 hypothetical protein (BC1G_14724) partial mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_001546860.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGCCTCTTC AAAAGTCCTT CTCCGAGACT AATCATTCAG GAAAAGAGAA TCATCCATGG 
    CAGAGGAATA AGAATTACCA GAACCAACAA CAAAAGCCCA AAGTTCCCGC GAAACCATTA 
    GCGGAGAAAC CGCCGGTACC CGTTTCTACA ACTACGAAGA ATATCCTTAG CAACTTCCAA 
    TATCGAGAAC AATCAGGAAA AGGAGACGAT TCGAAAGAGA TTATAAACTT GGTGTCATCG 
    GAGACGGATA GTAGAATTGC CACGCCTTCG AAGATGCGGC GGCGGGGCTC ATCAAAAGAT 
    GAGACAAGTT CTGTAGACGA AGATGTCTTT CTTGACGACT CTACTTCCGC AGATGTACCT 
    TCAACGCCAT CAATGGGGTT CGATCCCACA CAGAACGCCG ATTTCAAACG ACCATTTAAA 
    GCAGTATCAC CTGACGATCG TATAATTTGG GATACAAATA AGGATAGTCA ACAACTACCT 
    GAATCAGAGA GCGGCAACCT GGGCAAGAGG AAGAGGGGCG ATAATGACAT TGGCAGAGCA 
    CAGAGTTCTT CACCCATACT AGCCCATTCT TCGCAAGCAG ATTCTTTTCC TAGGCCGGGG 
    CCAGAAGTTG AGGTTTGGAT GAAATTGGGT CAGACTAAGG ACATTAAACT CTCGCGAATT 
    ATGGAAAACG CATCTCCGCA ATCATCGAAG GACGGGAATA CGCCTAGAGG ATTGACCAGA 
    TCAAGAAGTC TTGGAAATCC ATTGAATCTT AAAAGACACC AACCGAGTAG GATAGGAAAT 
    AGCAGAAATA TCGATACGCC GGGTTTGATG AGGCGATTGC AGGAGGACTA CAAGCCAAAC 
    GAGGTTTCTA GTGGTCCTTC AAGCTCATCA CCTCTCCCTG ATAAAGTTCA ATTTCAATTT 
    GAAGGACCAA GTTCTCCATT AGGTCGAAAA GGAAGTGAGA AGAGGACATC GCCCTTAAAA 
    AGGAGACTTG AGCCGCCATC TTCACCAAGT ACGAATATCG AGTCACATGT TGCTTTACCG 
    AGTCCAAAAA GACCTTCCAC TGCCGAGTCG GATTATGGTT CCGATGATGG TCTAGACGAA 
    ATTGGTGGAA TGATACTCAC GGCTATCGAA TCACAATCGC AAGTTCCTGC AGCTTCAATG 
    TCACGACCAC TACCAAAAAT TTATGAGTCG CCAATTAAGC CCAGAGCGTA CTCTACACAT 
    AAACCACAGA GCTTATCTAA AAGCCCCGAC CCTCCGAAAG CATTGGAAGA CGATAGTAGC 
    GACGAATTTG GTGAAGGTTT GGACGATGAT GATTTTGATG CCGCATTTGC AGGATCAGTT 
    CCGGCAGATG ATGTGGAGCT TCCGCCGTCA AGGCCTAGAG GTGCAGCAAC TAAAAAGGAG 
    GAGTCCGATG ATGAATATGG TGACGATATA GACGATTCAG ATTTTGCGGC TGCAGAGATA 
    GCAGCAACGC AGTCACTAAA ACAATCAACA AATAGCTTAA TGCCTTCTAT GGAAAAAGCT 
    CGCGCAATTC AAAGATATCT TGTCACCATG ATAGATAATA ATCAGTATGC AGGTGTTAAT 
    GGTAAATTGC AACCAGAAAA GGCTTTTGTT CACATCATTG GCAAGTTTGA TGCACAGGGA 
    ATTTGTGTCA TAGACGATAA CTCTGGCTTG ATCATTCTTC ACCCGGACCA TCTTATCTCT 
    GCGCTCGTAG TAGCGGATTC TTTCGGGTGT ACTCGTCGTG CAGTTCTTCA AGATAGGGTC 
    AAGGCTACTG GTGAAGCATC TCCAGCTATG CTTTATGGAA CGATTCTTCA TGAGATATTT 
    CAAGCTGCAA TGCTTGTTAA TCGCTGGGAT AGGATGTTTC TTGGCGAGCT TATTGATAAG 
    CTTGCTCAAA GACATCTTGA AGACTTGTAT GTTATCAAGG TTGAAATACC CCAGGCTGTA 
    GAATATCTAC ATAGTAAAAT GGGAGAGTTA CAAGCATGGG CCGAATTGTT TGTCTCATCT 
    CAACCAAAGC CTGGAGCTCT AGTAAAAGCT GGAAATGGCG ATACTGTTGC TATGTGTGTC 
    AGTAATCTTC TCGATGTTGA GGAACACGTT TGGTCTCCAA TGTATGGCCT GAAAGGTAAC 
    ATTGATGCTA CGGTACAAAT CACAATGAGA GATGAAAAAG GGCAAAGAAC TCTCACTGCA 
    CCCTTTGAGG TCAAGACCGG CAAGAATCCC AGTGTTGCCA ACCGTGCACA AACAGCGCTT 
    TACAATCTTC TGATTTCTGA TCGATATGAT GTTGAGATTG CTTATGGAAT TCTGTACTAC 
    ATGGAAACCT CTGAGACCAT TAGAATTCCT GCCATTCGTC ACGAACTTCG CCATATGATC 
    ATGCAGCGGA ATGAGCTCGC GTGTTATGTC CGAGAGAAAA ATGCTCAACT TCCACCCATG 
    CTCAAAAAGG AGAACATGTG TGGAAGATGT TATGCGAAGA ATACCTGTTT CATTTATCAC 
    AAGCTAGCTG ATGATGGAAA CGGAGAGACA AGCGGTATGA AGGAGAAGTT TGACGAAGTG 
    GTCAAGCATC TTACTCCAAA GCATAAAGAG TTCTTCCTCA AATGGGATGA TCTTCTTACG 
    AAAGAAGAGA AAGACTCTTT GAAGTTTCGT CGAGAACTAT GGACCATGTT GAGCTCAGAG 
    CGGGAAAAAC TTGGTCGATG TTTCTCGAAC GTTATAATCG AGGAAGGATC TGCCTACGAA 
    GATCAGAATA ATGAGAAGAT CAATCGATAT CGATACACCA TGATTAAACC GAAAAATACC 
    GCAGCTCCAG GGTTTTCCTT CATGGACTCT CAGATTATAG TAGGAGAACC AATTGTTATC 
    TCAGATGAAA AAGGCCATTT CGCTCTCGCC AAAGGCTATG TCACGAACGT ACGCAAGAAC 
    AGGATTACAG TCGCTGTTGA TCGACGTTTG CATAATGCTC GCATCAGACA ACCCGGATTC 
    GATGAAACTA ATAACCAGGT CTTTGCTAGT ATCATGGAAG TCGCTGCAGA AGGATCTACA 
    CCAGCTGACT CTATTGGTAA AATTAGAGAG GATCCCATTC TGTACAGGCT CGATAAAGAT 
    GAATTCAGTA ACGGTCTTGC GACTGTTCGG AACAATCTCA TCCAAATTAT GACCGAAGGC 
    CCATTTGGAT CACGCGAAAT TCGAAGTCTA GTCGTTGATC TTAATCCTCC TCGTTTTAAG 
    CCACATTCCA CTCAGTACAC ACTCAAAGAT CGATCTTGTA TCAACGTGGA TCAACGCCGT 
    GCTATCGAAA AAGTCATGTC CGCACAGGAT TATGCTTTAG TACTTGGTAT GCCTGGTACT 
    GGAAAGACTA CAACTATTGC TCACATTATC CGAGCTCTTG TTTCGCAAGG GAAATCTGTT 
    CTCCTCACCT CTTACACTCA TACAGCCGTG GACAATATCC TCCTGAAACT TCGAGATGAC 
    TCAATTCCAA TCTTACGCCT AGGCACTAAA GCTAAGATCC ACCCCGACGT TCAAGAATTT 
    GCCAAACTCG CTGTCGATCC TAAAGAAACC ATGGAAGAAA TCCGAAGTGT CTGGCATGAT 
    ACACCAATCA TTGCCACTAG TTGCCTCGGT ATCAACCATC CCATTTTCAA CGAACGTACA 
    TTTGACTACT GCATAGTAGA CGAAGCTTCT CAAATTACAC TACCCGTCTG TGTTGGTCCC 
    ATTCGTCTCG CTCGCACATT CATCCTTGTC GGAGATCACA ATCAACTTCC CCCCTTAGTC 
    AAAGATGAAG AAGCCCGAAA AGGAGGTCTA GATATCTCTC TCTTCAAATA TCTCTCAGAC 
    GCCCATCCTC AAAGCGTCGT CTACCTCGAA CATCAATATC GCATGAATGC CGACGTAATG 
    GCTCTTTCCA ATACACTCAT TTACAATGGA CGTCTCAAAT GCGGTAGCAC TTCTGTCGCT 
    AATCGTAAGA TCATTATTCC CGATATGGAC GCTTTGAAAG CAAATCATCA TACACCAAGT 
    AGTGTCCTAC ACAGTACACA GAAGTCTATT TGTCTGGAAC CGAAGAAGGG AAGATGCTGG 
    TTGCGAGATC TCTTGGATCC GGATGTCACC GTAGCATTTG TAGATACTGA TAGCCTTGGC 
    GATATGGCAC GAGAAAGCGA GAAAGGGAAT CGAACTGTAA ATGATGTGGA AGCTAGAATC 
    GTAACGCAAC TCGTTACCTC TCTCATAGCA GTTGGTGTAG ATCCTACGGA AATAGGAGTC 
    ATGACACATT ACCGCTCCCA ATTAGCTTTG CTCAAAGACA GTCTCCATAA TGCTAAAGGT 
    GTGGAAATGC ATACTGCAGA TAGGTTTCAA GGGAGAGATA AGGAAGTTAT TGTACTGAGC 
    TTGGTAAGAA GTAATGAGGG TGGAAGTATT GGGGAATTAT TGAAGGATTG GAGGAGGATT 
    AATGTGGCGT TCACGAGGGC GAAGACGAAG CTGTTGGTTG TGGGGAGTAG GGGGACACTG 
    AAAGGGAAGG TAGATAACGA TGGAGACAGG AAGGAAGAAA TGGTAAGTAG ATTTGTGAGG 
    TTGATGGAGG AAAAGAAGTG GGTTTATGAG TTGAAGGAGG AACAGTTAAT GGGGCATTGG 
    TGGGAAATGG CGGGGACTGC GACTCAGGGG AGTGTTGGAT TGTCGCAGTG GGTCAAGGTG 
    GAGAAAGAAG TGGTGAAGAG GAAAAACTCT GATTTGATGG ATATCGAAGG AGACGAAGTT 
    GGAGACAAGG AAAACGTGCG AATGACACCC ACTAAGCAAG AACCGACGGC TATGAAGAGC 
    GGCAAAGGGA AACATCAACC TAAGAGGATT AAAGGAGGTT TAGCGGCGAA TAATGGGAAT 
    ATAAGGCAAG GAAGCGTTTT GATGGATTTG GTTAACGATA TGTCATGA

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

    Bcdna2 ( XM_024695807.1 ) cDNA ORF clone, Botrytis cinerea B05.10 -> XP_024551601.1 Botrytis cinerea B05.10 Bcdna2 (Bcdna2), mRNA.
    Price & Availability↑
    CloneID OBc22037
    Clone ID Related Accession (Same CDS sequence) XM_024695807.1
    Accession Version XM_024695807.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4944bp)
    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 Bcdna2
    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_037320). 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGCCTCTTC AAAAGTCCTT CTCCGAGACT AATCATTCAG GAAAAGAGAA TCATTCTCGA 
    CAGCCATGGC AGAGGAATAA GAATTACCAG AACCAACAAC AAAAGCCCAA AGTTCCCGCG 
    AAACCATTAG CGGAGAAACC GCCGGTACCC GTTTCTACAA CTACGAAGAA TATCCTTAGC 
    AACTTCCAAT ATCGAGAACA ATCAGGAAAA GGAGACGATT CGAAAGAGAT TATAAACTTG 
    GTGTCATCGG AGACGGATAG TAGAATTGCC ACGCCTTCGA AGATGCGGCG GCGGGGCTCA 
    TCAAAAGATG AGACAAGTTC TGTAGACGAA GATGTCTTTC TTGACGACTC TACTTCCGCA 
    GATGTACCTT CAACGCCATC AATGGGGTTC GATCCCACAC AGAACGCCGA TTTCAAACGA 
    CCATTTAAAG CAGTATCACC TGACGATCGT ATAATTTGGG ATACAAATAA GGATAGTCAA 
    CAACTACCTG AATCAGAGAG CGGCAACCTG GGCAAGAGGA AGAGGGGCGA TAATGACATT 
    GGCAGAGCAC AGAGTTCTTC ACCCATACTA GCCCATTCTT CGCAAGCAGA TTCTTTTCCT 
    AGGCCGGGGC CAGAAGTTGA GGTTTGGATG AAATTGGGTC AGACTAAGGA CATTAAACTC 
    TCGCGAATTA TGGAAAACGC ATCTCCGCAA TCATCGAAGG ACGGGAATAC GCCTAGAGGA 
    TTGACCAGAT CAAGAAGTCT TGGAAATCCA TTGAATCTTA AAAGACACCA ACCGAGTAGG 
    ATAGGAAATA GCAGAAATAT CGATACGCCG GGTTTGATGA GGCGATTGCA GGAGGACTAC 
    AAGCCAAACG AGGTTTCTAG TGGTCCTTCA AGCTCATCAC CTCTCCCTGA TAAAGTTCAA 
    TTTCAATTTG AAGGACCAAG TTCTCCATTA GGTCGAAAAG GAAGTGAGAA GAGGACATCG 
    CCCTTAAAAA GGAGACTTGA GCCGCCATCT TCACCAAGTA CGAATATCGA GTCACATGTT 
    GCTTTACCGA GTCCAAAAAG ACCTTCCACT GCCGAGTCGG ATTATGGTTC CGATGATGGT 
    CTAGACGAAA TTGGTGGAAT GATACTCACG GCTATCGAAT CACAATCGCA AGTTCCTGCA 
    GCTTCAATGT CACGACCACT ACCAAAAATT TATGAGTCGC CAATTAAGCC CAGAGCGTAC 
    TCTACACATA AACCACAGAG CTTATCTAAA AGCCCCGACC CTCCGAAAGC ATTGGAAGAC 
    GATAGTAGCG ACGAATTTGG TGAAGGTTTG GACGATGATG ATTTTGATGC CGCATTTGCA 
    GGATCAGTTC CGGCAGATGA TGTGGAGCTT CCGCCGTCAA GGCCTAGAGG TGCAGCAACT 
    AAAAAGGAGG AGTCCGATGA TGAATATGGT GACGATATAG ACGATTCAGA TTTTGCGGCT 
    GCAGAGATAG CAGCAACGCA GTCACTAAAA CAATCAACAA ATAGCTTAAT GCCTTCTATG 
    GAAAAAGCTC GCGCAATTCA AAGATATCTT GTCACCATGA TAGATAATAA TCAGTATGCA 
    GGTGTTAATG GTAAATTGCA ACCAGAAAAG ATACTCTATC TTCAACCTGA ACGCTCAAAA 
    ATCAAAAGAA TGGTGTATCT TAGAGGCACC TGGATTGATA CTCCTGTCAC CACAAAGGCT 
    TTTGTTCACA TCATTGGCAA GTTTGATGCA CAGGGAATTT GTGTCATAGA CGATAACTCT 
    GGCTTGATCA TTCTTCACCC GGACCATCTT ATCTCTGCGC TCGTAGTAGC GGATTCTTTC 
    GGGTGTACTC GTCGTGCAGT TCTTCAAGAT AGGGTCAAGG CTACTGGTGA AGCATCTCCA 
    GCTATGCTTT ATGGAACGAT TCTTCATGAG ATATTTCAAG CTGCAATGCT TGTTAATCGC 
    TGGGATAGGA TGTTTCTTGG CGAGCTTATT GATAAGCTTG CTCAAAGACA TCTTGAAGAC 
    TTGTATGTTA TCAAGGTTGA AATACCCCAG GCTGTAGAAT ATCTACATAG TAAAATGGGA 
    GAGTTACAAG CATGGGCCGA ATTGTTTGTC TCATCTCAAC CAAAGCCTGG AGCTCTAGTA 
    AAAGCTGGAA ATGGCGATAC TGTTGCTATG TGTGTCAGTA ATCTTCTCGA TGTTGAGGAA 
    CACGTTTGGT CTCCAATGTA TGGCCTGAAA GGTAACATTG ATGCTACGGT ACAAATCACA 
    ATGAGAGATG AAAAAGGGCA AAGAACTCTC ACTGCACCCT TTGAGGTCAA GACCGGCAAG 
    AATCCCAGTG TTGCCAACCG TGCACAAACA GCGCTTTACA ATCTTCTGAT TTCTGATCGA 
    TATGATGTTG AGATTGCTTA TGGAATTCTG TACTACATGG AAACCTCTGA GACCATTAGA 
    ATTCCTGCCA TTCGTCACGA ACTTCGCCAT ATGATCATGC AGCGGAATGA GCTCGCGTGT 
    TATGTCCGAG AGAAAAATGC TCAACTTCCA CCCATGCTCA AAAAGGAGAA CATGTGTGGA 
    AGATGTTATG CGAAGAATAC CTGTTTCATT TATCACAAGC TAGCTGATGA TGGAAACGGA 
    GAGACAAGCG GTATGAAGGA GAAGTTTGAC GAAGTGGTCA AGCATCTTAC TCCAAAGCAT 
    AAAGAGTTCT TCCTCAAATG GGATGATCTT CTTACGAAAG AAGAGAAAGA CTCTTTGAAG 
    TTTCGTCGAG AACTATGGAC CATGTTGAGC TCAGAGCGGG AAAAACTTGG TCGATGTTTC 
    TCGAACGTTA TAATCGAGGA AGGATCTGCC TACGAAGATC AGAATAATGA GAAGATCAAT 
    CGATATCGAT ACACCATGAT TAAACCGAAA AATACCGCAG CTCCAGGGTT TTCCTTCATG 
    GACTCTCAGA TTATAGTAGG AGAACCAATT GTTATCTCAG ATGAAAAAGG CCATTTCGCT 
    CTCGCCAAAG GCTATGTCAC GAACGTACGC AAGAACAGGA TTACAGTCGC TGTTGATCGA 
    CGTTTGCATA ATGCTCGCAT CAGACAACCC GGATTCGATG AAACTAATAA CCAGGTCTTT 
    GCTAGTATCA TGGAAGTCGC TGCAGAAGGA TCTACACCAG CTGACTCTAT TGGTAAAATT 
    AGAGAGGATC CCATTCTGTA CAGGCTCGAT AAAGATGAAT TCAGTAACGG TCTTGCGACT 
    GTTCGGAACA ATCTCATCCA AATTATGACC GAAGGCCCAT TTGGATCACG CGAAATTCGA 
    AGTCTAGTCG TTGATCTTAA TCCTCCTCGT TTTAAGCCAC ATTCCACTCA GTACACACTC 
    AAAGATCGAT CTTGTATCAA CGTGGATCAA CGCCGTGCTA TCGAAAAAGT CATGTCCGCA 
    CAGGATTATG CTTTAGTACT TGGTATGCCT GGTACTGGAA AGACTACAAC TATTGCTCAC 
    ATTATCCGAG CTCTTGTTTC GCAAGGGAAA TCTGTTCTCC TCACCTCTTA CACTCATACA 
    GCCGTGGACA ATATCCTCCT GAAACTTCGA GATGACTCAA TTCCAATCTT ACGCCTAGGC 
    ACTAAAGCTA AGATCCACCC CGACGTTCAA GAATTTGCCA AACTCGCTGT CGATCCTAAA 
    GAAACCATGG AAGAAATCCG AAGTGTCTGG CATGATACAC CAATCATTGC CACTAGTTGC 
    CTCGGTATCA ACCATCCCAT TTTCAACGAA CGTACATTTG ACTACTGCAT AGTAGACGAA 
    GCTTCTCAAA TTACACTACC CGTCTGTGTT GGTCCCATTC GTCTCGCTCG CACATTCATC 
    CTTGTCGGAG ATCACAATCA ACTTCCCCCC TTAGTCAAAG ATGAAGAAGC CCGAAAAGGA 
    GGTCTAGATA TCTCTCTCTT CAAATATCTC TCAGACGCCC ATCCTCAAAG CGTCGTCTAC 
    CTCGAACATC AATATCGCAT GAATGCCGAC GTAATGGCTC TTTCCAATAC ACTCATTTAC 
    AATGGACGTC TCAAATGCGG TAGCACTTCT GTCGCTAATC GTAAGATCAT TATTCCCGAT 
    ATGGACGCTT TGAAAGCAAA TCATCATACA CCAAGTAGTG TCCTACACAG TACACAGAAG 
    TCTATTTGTC TGGAACCGAA GAAGGGAAGA TGCTGGTTGC GAGATCTCTT GGATCCGGAT 
    GTCACCGTAG CATTTGTAGA TACTGATAGC CTTGGCGATA TGGCACGAGA AAGCGAGAAA 
    GGGAATCGAA CTGTAAATGA TGTGGAAGCT AGAATCGTAA CGCAACTCGT TACCTCTCTC 
    ATAGCAGTTG GTGTAGATCC TACGGAAATA GGAGTCATGA CACATTACCG CTCCCAATTA 
    GCTTTGCTCA AAGACAGTCT CCATAATGCT AAAGGTGTGG AAATGCATAC TGCAGATAGG 
    TTTCAAGGGA GAGATAAGGA AGTTATTGTA CTGAGCTTGG TAAGAAGTAA TGAGGGTGGA 
    AGTATTGGGG AATTATTGAA GGATTGGAGG AGGATTAATG TGGCGTTCAC GAGGGCGAAG 
    ACGAAGCTGT TGGTTGTGGG GAGTAGGGGG ACACTGAAAG GGAAGGTAGA TAACGATGGA 
    GACAGGAAGG AAGAAATGGT AAGTAGATTT GTGAGGTTGA TGGAGGAAAA GAAGTGGGTT 
    TATGAGTTGA AGGAGGAACA GTTAATGGGG CATTGGTGGG AAATGGCGGG GACTGCGACT 
    CAGGGGAGTG TTGGATTGTC GCAGTGGGTC AAGGTGGAGA AAGAAGTGGT GAAGAGGAAA 
    AACTCTGATT TGATGGATAT CGAAGGAGAC GAAGTTGGAG ACAAGGAAAA CGTGCGAATG 
    ACACCCACTA AGCAAGAACC GACGGCTATG AAGAGCGGCA AAGGGAAACA TCAACCTAAG 
    AGGATTAAAG GAGGTTTAGC GGCGAATAAT GGGAATATAA GGCAAGGAAG CGTTTTGATG 
    GATTTGGTTA ACGATATGTC ATGA

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

    RefSeq XP_024551601.1
    CDS73..5016
    Translation

    Target ORF information:

    RefSeq Version XM_024695807.1
    Organism Botrytis cinerea B05.10
    Definition Botrytis cinerea B05.10 Bcdna2 (Bcdna2), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024695807.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGCCTCTTC AAAAGTCCTT CTCCGAGACT AATCATTCAG GAAAAGAGAA TCATTCTCGA 
    CAGCCATGGC AGAGGAATAA GAATTACCAG AACCAACAAC AAAAGCCCAA AGTTCCCGCG 
    AAACCATTAG CGGAGAAACC GCCGGTACCC GTTTCTACAA CTACGAAGAA TATCCTTAGC 
    AACTTCCAAT ATCGAGAACA ATCAGGAAAA GGAGACGATT CGAAAGAGAT TATAAACTTG 
    GTGTCATCGG AGACGGATAG TAGAATTGCC ACGCCTTCGA AGATGCGGCG GCGGGGCTCA 
    TCAAAAGATG AGACAAGTTC TGTAGACGAA GATGTCTTTC TTGACGACTC TACTTCCGCA 
    GATGTACCTT CAACGCCATC AATGGGGTTC GATCCCACAC AGAACGCCGA TTTCAAACGA 
    CCATTTAAAG CAGTATCACC TGACGATCGT ATAATTTGGG ATACAAATAA GGATAGTCAA 
    CAACTACCTG AATCAGAGAG CGGCAACCTG GGCAAGAGGA AGAGGGGCGA TAATGACATT 
    GGCAGAGCAC AGAGTTCTTC ACCCATACTA GCCCATTCTT CGCAAGCAGA TTCTTTTCCT 
    AGGCCGGGGC CAGAAGTTGA GGTTTGGATG AAATTGGGTC AGACTAAGGA CATTAAACTC 
    TCGCGAATTA TGGAAAACGC ATCTCCGCAA TCATCGAAGG ACGGGAATAC GCCTAGAGGA 
    TTGACCAGAT CAAGAAGTCT TGGAAATCCA TTGAATCTTA AAAGACACCA ACCGAGTAGG 
    ATAGGAAATA GCAGAAATAT CGATACGCCG GGTTTGATGA GGCGATTGCA GGAGGACTAC 
    AAGCCAAACG AGGTTTCTAG TGGTCCTTCA AGCTCATCAC CTCTCCCTGA TAAAGTTCAA 
    TTTCAATTTG AAGGACCAAG TTCTCCATTA GGTCGAAAAG GAAGTGAGAA GAGGACATCG 
    CCCTTAAAAA GGAGACTTGA GCCGCCATCT TCACCAAGTA CGAATATCGA GTCACATGTT 
    GCTTTACCGA GTCCAAAAAG ACCTTCCACT GCCGAGTCGG ATTATGGTTC CGATGATGGT 
    CTAGACGAAA TTGGTGGAAT GATACTCACG GCTATCGAAT CACAATCGCA AGTTCCTGCA 
    GCTTCAATGT CACGACCACT ACCAAAAATT TATGAGTCGC CAATTAAGCC CAGAGCGTAC 
    TCTACACATA AACCACAGAG CTTATCTAAA AGCCCCGACC CTCCGAAAGC ATTGGAAGAC 
    GATAGTAGCG ACGAATTTGG TGAAGGTTTG GACGATGATG ATTTTGATGC CGCATTTGCA 
    GGATCAGTTC CGGCAGATGA TGTGGAGCTT CCGCCGTCAA GGCCTAGAGG TGCAGCAACT 
    AAAAAGGAGG AGTCCGATGA TGAATATGGT GACGATATAG ACGATTCAGA TTTTGCGGCT 
    GCAGAGATAG CAGCAACGCA GTCACTAAAA CAATCAACAA ATAGCTTAAT GCCTTCTATG 
    GAAAAAGCTC GCGCAATTCA AAGATATCTT GTCACCATGA TAGATAATAA TCAGTATGCA 
    GGTGTTAATG GTAAATTGCA ACCAGAAAAG ATACTCTATC TTCAACCTGA ACGCTCAAAA 
    ATCAAAAGAA TGGTGTATCT TAGAGGCACC TGGATTGATA CTCCTGTCAC CACAAAGGCT 
    TTTGTTCACA TCATTGGCAA GTTTGATGCA CAGGGAATTT GTGTCATAGA CGATAACTCT 
    GGCTTGATCA TTCTTCACCC GGACCATCTT ATCTCTGCGC TCGTAGTAGC GGATTCTTTC 
    GGGTGTACTC GTCGTGCAGT TCTTCAAGAT AGGGTCAAGG CTACTGGTGA AGCATCTCCA 
    GCTATGCTTT ATGGAACGAT TCTTCATGAG ATATTTCAAG CTGCAATGCT TGTTAATCGC 
    TGGGATAGGA TGTTTCTTGG CGAGCTTATT GATAAGCTTG CTCAAAGACA TCTTGAAGAC 
    TTGTATGTTA TCAAGGTTGA AATACCCCAG GCTGTAGAAT ATCTACATAG TAAAATGGGA 
    GAGTTACAAG CATGGGCCGA ATTGTTTGTC TCATCTCAAC CAAAGCCTGG AGCTCTAGTA 
    AAAGCTGGAA ATGGCGATAC TGTTGCTATG TGTGTCAGTA ATCTTCTCGA TGTTGAGGAA 
    CACGTTTGGT CTCCAATGTA TGGCCTGAAA GGTAACATTG ATGCTACGGT ACAAATCACA 
    ATGAGAGATG AAAAAGGGCA AAGAACTCTC ACTGCACCCT TTGAGGTCAA GACCGGCAAG 
    AATCCCAGTG TTGCCAACCG TGCACAAACA GCGCTTTACA ATCTTCTGAT TTCTGATCGA 
    TATGATGTTG AGATTGCTTA TGGAATTCTG TACTACATGG AAACCTCTGA GACCATTAGA 
    ATTCCTGCCA TTCGTCACGA ACTTCGCCAT ATGATCATGC AGCGGAATGA GCTCGCGTGT 
    TATGTCCGAG AGAAAAATGC TCAACTTCCA CCCATGCTCA AAAAGGAGAA CATGTGTGGA 
    AGATGTTATG CGAAGAATAC CTGTTTCATT TATCACAAGC TAGCTGATGA TGGAAACGGA 
    GAGACAAGCG GTATGAAGGA GAAGTTTGAC GAAGTGGTCA AGCATCTTAC TCCAAAGCAT 
    AAAGAGTTCT TCCTCAAATG GGATGATCTT CTTACGAAAG AAGAGAAAGA CTCTTTGAAG 
    TTTCGTCGAG AACTATGGAC CATGTTGAGC TCAGAGCGGG AAAAACTTGG TCGATGTTTC 
    TCGAACGTTA TAATCGAGGA AGGATCTGCC TACGAAGATC AGAATAATGA GAAGATCAAT 
    CGATATCGAT ACACCATGAT TAAACCGAAA AATACCGCAG CTCCAGGGTT TTCCTTCATG 
    GACTCTCAGA TTATAGTAGG AGAACCAATT GTTATCTCAG ATGAAAAAGG CCATTTCGCT 
    CTCGCCAAAG GCTATGTCAC GAACGTACGC AAGAACAGGA TTACAGTCGC TGTTGATCGA 
    CGTTTGCATA ATGCTCGCAT CAGACAACCC GGATTCGATG AAACTAATAA CCAGGTCTTT 
    GCTAGTATCA TGGAAGTCGC TGCAGAAGGA TCTACACCAG CTGACTCTAT TGGTAAAATT 
    AGAGAGGATC CCATTCTGTA CAGGCTCGAT AAAGATGAAT TCAGTAACGG TCTTGCGACT 
    GTTCGGAACA ATCTCATCCA AATTATGACC GAAGGCCCAT TTGGATCACG CGAAATTCGA 
    AGTCTAGTCG TTGATCTTAA TCCTCCTCGT TTTAAGCCAC ATTCCACTCA GTACACACTC 
    AAAGATCGAT CTTGTATCAA CGTGGATCAA CGCCGTGCTA TCGAAAAAGT CATGTCCGCA 
    CAGGATTATG CTTTAGTACT TGGTATGCCT GGTACTGGAA AGACTACAAC TATTGCTCAC 
    ATTATCCGAG CTCTTGTTTC GCAAGGGAAA TCTGTTCTCC TCACCTCTTA CACTCATACA 
    GCCGTGGACA ATATCCTCCT GAAACTTCGA GATGACTCAA TTCCAATCTT ACGCCTAGGC 
    ACTAAAGCTA AGATCCACCC CGACGTTCAA GAATTTGCCA AACTCGCTGT CGATCCTAAA 
    GAAACCATGG AAGAAATCCG AAGTGTCTGG CATGATACAC CAATCATTGC CACTAGTTGC 
    CTCGGTATCA ACCATCCCAT TTTCAACGAA CGTACATTTG ACTACTGCAT AGTAGACGAA 
    GCTTCTCAAA TTACACTACC CGTCTGTGTT GGTCCCATTC GTCTCGCTCG CACATTCATC 
    CTTGTCGGAG ATCACAATCA ACTTCCCCCC TTAGTCAAAG ATGAAGAAGC CCGAAAAGGA 
    GGTCTAGATA TCTCTCTCTT CAAATATCTC TCAGACGCCC ATCCTCAAAG CGTCGTCTAC 
    CTCGAACATC AATATCGCAT GAATGCCGAC GTAATGGCTC TTTCCAATAC ACTCATTTAC 
    AATGGACGTC TCAAATGCGG TAGCACTTCT GTCGCTAATC GTAAGATCAT TATTCCCGAT 
    ATGGACGCTT TGAAAGCAAA TCATCATACA CCAAGTAGTG TCCTACACAG TACACAGAAG 
    TCTATTTGTC TGGAACCGAA GAAGGGAAGA TGCTGGTTGC GAGATCTCTT GGATCCGGAT 
    GTCACCGTAG CATTTGTAGA TACTGATAGC CTTGGCGATA TGGCACGAGA AAGCGAGAAA 
    GGGAATCGAA CTGTAAATGA TGTGGAAGCT AGAATCGTAA CGCAACTCGT TACCTCTCTC 
    ATAGCAGTTG GTGTAGATCC TACGGAAATA GGAGTCATGA CACATTACCG CTCCCAATTA 
    GCTTTGCTCA AAGACAGTCT CCATAATGCT AAAGGTGTGG AAATGCATAC TGCAGATAGG 
    TTTCAAGGGA GAGATAAGGA AGTTATTGTA CTGAGCTTGG TAAGAAGTAA TGAGGGTGGA 
    AGTATTGGGG AATTATTGAA GGATTGGAGG AGGATTAATG TGGCGTTCAC GAGGGCGAAG 
    ACGAAGCTGT TGGTTGTGGG GAGTAGGGGG ACACTGAAAG GGAAGGTAGA TAACGATGGA 
    GACAGGAAGG AAGAAATGGT AAGTAGATTT GTGAGGTTGA TGGAGGAAAA GAAGTGGGTT 
    TATGAGTTGA AGGAGGAACA GTTAATGGGG CATTGGTGGG AAATGGCGGG GACTGCGACT 
    CAGGGGAGTG TTGGATTGTC GCAGTGGGTC AAGGTGGAGA AAGAAGTGGT GAAGAGGAAA 
    AACTCTGATT TGATGGATAT CGAAGGAGAC GAAGTTGGAG ACAAGGAAAA CGTGCGAATG 
    ACACCCACTA AGCAAGAACC GACGGCTATG AAGAGCGGCA AAGGGAAACA TCAACCTAAG 
    AGGATTAAAG GAGGTTTAGC GGCGAATAAT GGGAATATAA GGCAAGGAAG CGTTTTGATG 
    GATTTGGTTA ACGATATGTC ATGA

    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.
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