BC1G_05232 cDNA ORF clone, Botrytis cinerea B05.10

Gene
Clones
gRNAs

Summary

Gene Symbol	BC1G_05232
Entrez Gene ID	5437051
Full Name	hypothetical protein
Gene Type	protein-coding
Organism	Botrytis cinerea B05.10

mRNA and Protein(s)

mRNA	Protein	Name
XM_001556413.2	XP_001556463.1	Bcpex1
XM_001556413.1	XP_001556463.1	hypothetical protein

Pathways from BioSystems
Gene Ontology
Bibliography

Related articles in PubMed

A gapless genome sequence of the fungus Botrytis cinerea.
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
Molecular plant pathology18(1)75-89(2017 01)

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

Genomic analysis of the necrotrophic fungal pathogens Sclerotinia sclerotiorum and Botrytis cinerea.
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
PLoS genetics7(8)e1002230(2011 Aug)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

The following BC1G_05232 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the BC1G_05232 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)
OBc06220	XM_001556413.2 Latest version!	Botrytis cinerea B05.10 Bcpex1 (Bcpex1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
View Old Accession Versions >>
OBc06220	XM_001556413.1	Botryotinia fuckeliana B05.10 hypothetical protein (BC1G_05232) partial mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
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)

BC1G_05232 ( XM_001556413.2 ) cDNA ORF clone, Botrytis cinerea B05.10 -> XP_001556463.1 Botrytis cinerea B05.10 Bcpex1 (Bcpex1), mRNA.

Price & Availability↑

CloneID	OBc06220
Clone ID Related Accession (Same CDS sequence)	XM_001556413.2 , XM_001556413.1
Accession Version	XM_001556413.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3738bp) 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	Bcpex1
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_037310). On Apr 17, 2018 this sequence version replaced XM_001556413.1.

ATGGCCTCAA ACTTAAAAGG ACGTGGCAGT CAAGCTACAC CTGCAGAGAT ATCATTAATT 
CATCTAAAGA ATTGCTTGGT GAACTTGCCT TCATCATTGT CTTCATTACT AGTTAATATC 
AACGCCCTTG CACAAAATGT GATTGTAGAA TTGAACTACC GACTTCCACC TCCGCAGAGC 
CCAAATCAAA CGAATGGCGC CCCGACTCAA CGATCTATCT TCGTGGGATG GACGGGTATG 
CAGAGCAAGC GCAAGCTTGC ACCAATTGTC GGGAGGGATG GTATAAGTGG CACTAGGGGA 
TCTGGTAGAG AGCAAGAAGT ACAGGTTGTA GAGATAGATG CAACCTTTGC GCGAACATTG 
GGGATATCAG ATGGACAGAA AATTACAGCG ACTATACACG TCGACCCTCC CGTCGCCCAT 
ACAATTAATA TCGAACCTTT GACGCCAGAA GATTGGGAGA TTATAGAATT GCATGCTAAT 
TTCCTCGAGC TCAATTTCAT CAATCAAATA CGTGCATTAC CAAATCCAAG CTTTACTTCA 
CCGAGTGGTT CATCGCACCT GCCGCATCCT CTGACGTTGC ACCTTTCACC AACCTCGACT 
GCCAATATTA TAGTCACATC CCTCCTCCCT GCTCCGCCTT CAAATATTGC GTTCACGAAA 
CTAGCACCAG ATGCAGAAGT TATTGTGGCC CCGAAAACAA GGTCAAAACC ATCACGAAGT 
TTGGGCGAAA ATGTGAGTGT ATCTTCGAGG AAGAGCGTTG GCGGACGAAG TGTTTCTAGT 
GCGGTACGTA GGAAAAGTGG ACGAAGTGAA GAGACGAAGC CGGCTATGTA TTATAGAGGA 
ATTGACAGGG CACTTTGTGG GGAGTGGTTT GAAGAAGAGA AAGATGCAGA TGATGGAGGA 
CTGAAAATCT GGGTTGATGG GGACTTCATT CTCGGGGACT CTTTGAAAGG GCTCACTTGG 
GTCACCGTCA CCGTTGTCAA GCCCGCTACT TTGCAAGAGC CAATCGACCC ACAACGACAA 
CAACAAGAAG ATGAAAATAC CGGTGTTGCC GGGAAGCCTG CATCAAAGGT AGTAGCTAGG 
CTGATGACAT GGGATGAACC GCCAGACCAA TACCATGTGG CCCTATCGAG TTCACTTTGT 
GCCTCTATGG GGTGTAAAAA TATGGTTGGA GGTGTTATAA GGGTTGCGCC TGCCCCGTCC 
CAGACTTCGA AGCCGACTTT TCAACCCACT TCTAAATCTG GTACTCCACA CATCAAGGTG 
TTTCCCTATA CATCTAGTAC AGGAAAAGCG AACGAAGGTC TCAAATTTGG CGGGGAGTCG 
AAAGCTGAGA GGGAAGAAGC TGCAAAATCA ATCATGAAAA TGTATAGCAA GAATGGTTCT 
AATAGTGGCA TTTTGGAAGG GCCATTGACT GATGGCTTAG TACTCGGCAA ACCATCAGGT 
TCTGACTTCC CATCAAGCTG GGAAGGCGGA ATGATTCGTC TAGAGCAAGG ACCACAAGAG 
TCCGGAAAGC AGCCTTGTAA TTGGTTTCTT GGTTCTGAAA AGAAATTCAA TCTTGAGGTT 
CAAGCCGCTA TTCCAAAACC CTTAACCCTG GCAGCAAATG CGATCGATGG TCTTGGCTCA 
CAACCTCCTG TTCTTGTGGG CATTGATAAT CTCATGGAAC AACTATACTC ACATCTTTCG 
CACCTGTCTT CAGTATTGCT AACTGGTGCT TTGGGGTCTG GAAAGACAGC AGTGGTTCAA 
CACTTGGCAC ATCGGTTACG GCAAGATAGC AGGTACCATA CCACATATCT TTCATGTCGA 
AAATTTGTTA CCGATGAGGC ACGTGTCTCA ACTATACGTG AAACATTTGA TCGGATTTTT 
TTGGCTGCCT CATGGGGTGC AAGAATCGGT GGAAAGTCCA TTGTGATATT GGATGATCTT 
GACAAATTGT GTCCCGCAGA AACAGAGCTT GAAGTAGGCA ATGACAACCT TCGAAGTGAT 
TTAATTAGCG AGAAGATAAT TGCAATCGCT AGAGAATATT TAATTGGGCA TCGCAGTAAC 
GTTGTTCTAC TTGCCACCGC TCAAGCGAAA GAGTCACTCC ATAAAAATAT CATCGGCTGT 
CATTGCGTGC GAGAGATTGT CGCCTTGAAA GCTCCAAACA AAGAAGGGCG AAGAAGAGTT 
ATGGAAAAGG TTGCGATGCA AAATGCAATT TCGGAGATTG CGACAAAACC AGTGGCATCG 
GGTAGCCGCC CAAGCACAGC AGATAATAGC GAGAGACAAA ATGATAATGA TTGGATGGGT 
GGTTCGAGTC TTGAAGGCAC CAAGAAATTG GAAGGTGATG GTTATGTCAT TGATCAAGAT 
CTTGATTTCT TAGACCTAGC TGGCCAAACT GATGGTTACA TGCCTGGTGA CCTCGTTCTT 
CTCGTAGCAC GAGCTAGGAG CGAAGCAATG ATTCGGACAG TTTCAAGCTC CCTGCAAAAC 
GCGGATAGTG GTTCTATTCG ACTCACCAGA GAAGATTTTG ACAGTGCTTT GAAAGGGTTT 
ACGCCAGCCT CGCTTCGAAA TGTTACCCTT CAGACTTCCA CTACAACTTT TGATTCGATT 
GGAGGATTGC AGGAGACACG AAAAATTCTA CTTGAGACCT TACAATATCC TACAACTTAT 
GCGCCAATTT TCGCACAATG TCCACTACGA TTGCGATCGG GTCTACTTTT GTATGGATTC 
CCAGGTTGTG GTAAAACGCT CCTTGCAAGT GCCGTTGCAG GAGAATGTGG TTTGAATTTC 
ATCAGTGTCA AAGGGCCCGA AATTCTCAAC AAATATATCG GTGCTTCTGA AAAGTCTGTT 
CGCGATCTTT TCGAGCGAGC CGAAGCTGCT AGACCTTGTG TGCTATTCTT CGACGAGTTC 
GATTCTATAG CTCCTAAGCG TGGTCATGAT TCTACTGGTG TAACTGATCG AGTAGTCAAT 
CAATTGTTGA CACAAATGGA TGGTGCTGAA GGTTTATCTG GAGTTTATGT ACTTGCAGCT 
ACTTCGAGAC CAGATTTGAT CGATCCGGCA TTGCTCCGTC CGGGTCGCTT GGATAAGTCT 
CTTATATGTG ATCTTCCAAA TGTGGATGAT CGTTTTGATA TTCTCAAGGC ATTGGGCAAA 
AAGCTGAAAT TATCCGAAGA AGTACGAGAT AGTCCTGAAG GTGGGCTGTT TGAGATTGCT 
CGTAGAACTG AAGGCTATTC TGGTGCAGAT CTCCAGGCCT TGATATCCAA TGCGCAGCTT 
GAAGCCATTC ACGATGTACT TGGTGATCAT GAACAAGTTG AAGTTGGAGG AAAACGTAAC 
GGCGCTAAGA CAAATGGGGC ATCCGGCGGA CCTCAAAGTT TTGTCCAGTT CCGCTATGGT 
GAAGATGAAG ATCGGACGGA AGCCGAGACG CGCGCAAAAG CTGGTAACAA TCGCTCCAAA 
CAACTTGCTG AAAAGGCTGC AATTACCGCC AAGTTGGAAG AGATCAAAAA GGCGAAGAAG 
AAGGAGAAAT TGAGAGCAAA GGGTATTGAT GTTTCGAGTG AAGACAGAGG AGAGCAGAAG 
GAAGTTAAGA GTCAACAAGA AGTCACTATT CTCTGGAAAC ATCTAGTAAA GAGTTTGGAG 
GGTACAAGAC CAAGTATCAG TGCTGACGAG CGAAGGAGGT TACAGGGAAT ATATAGGGAG 
TTTGTTGTGG GAAGAAGTGG GGATATGCCA AATGGACAAG GAGGAACGGA GGTTGGTGGG 
AGGTCGAGTT TAATGTAG

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

RefSeq	XP_001556463.1
CDS	122..3859
Translation	MASNLKGRGSQATPAEISLIHLKNCLVNLPSSLSSLLVNINALAQNVIVELNYRLPPPQSPNQTNGAPTQRSIFVGWTGMQSKRKLAPIVGRDGISGTRGSGREQEVQVVEIDATFARTLGISDGQKITATIHVDPPVAHTINIEPLTPEDWEIIELHANFLELNFINQIRALPNPSFTSPSGSSHLPHPLTLHLSPTSTANIIVTSLLPAPPSNIAFTKLAPDAEVIVAPKTRSKPSRSLGENVSVSSRKSVGGRSVSSAVRRKSGRSEETKPAMYYRGIDRALCGEWFEEEKDADDGGLKIWVDGDFILGDSLKGLTWVTVTVVKPATLQEPIDPQRQQQEDENTGVAGKPASKVVARLMTWDEPPDQYHVALSSSLCASMGCKNMVGGVIRVAPAPSQTSKPTFQPTSKSGTPHIKVFPYTSSTGKANEGLKFGGESKAEREEAAKSIMKMYSKNGSNSGILEGPLTDGLVLGKPSGSDFPSSWEGGMIRLEQGPQESGKQPCNWFLGSEKKFNLEVQAAIPKPLTLAANAIDGLGSQPPVLVGIDNLMEQLYSHLSHLSSVLLTGALGSGKTAVVQHLAHRLRQDSRYHTTYLSCRKFVTDEARVSTIRETFDRIFLAASWGARIGGKSIVILDDLDKLCPAETELEVGNDNLRSDLISEKIIAIAREYLIGHRSNVVLLATAQAKESLHKNIIGCHCVREIVALKAPNKEGRRRVMEKVAMQNAISEIATKPVASGSRPSTADNSERQNDNDWMGGSSLEGTKKLEGDGYVIDQDLDFLDLAGQTDGYMPGDLVLLVARARSEAMIRTVSSSLQNADSGSIRLTREDFDSALKGFTPASLRNVTLQTSTTTFDSIGGLQETRKILLETLQYPTTYAPIFAQCPLRLRSGLLLYGFPGCGKTLLASAVAGECGLNFISVKGPEILNKYIGASEKSVRDLFERAEAARPCVLFFDEFDSIAPKRGHDSTGVTDRVVNQLLTQMDGAEGLSGVYVLAATSRPDLIDPALLRPGRLDKSLICDLPNVDDRFDILKALGKKLKLSEEVRDSPEGGLFEIARRTEGYSGADLQALISNAQLEAIHDVLGDHEQVEVGGKRNGAKTNGASGGPQSFVQFRYGEDEDRTEAETRAKAGNNRSKQLAEKAAITAKLEEIKKAKKKEKLRAKGIDVSSEDRGEQKEVKSQQEVTILWKHLVKSLEGTRPSISADERRRLQGIYREFVVGRSGDMPNGQGGTEVGGRSSLM

Target ORF information:

RefSeq Version	XM_001556413.2
Organism	Botrytis cinerea B05.10
Definition	Botrytis cinerea B05.10 Bcpex1 (Bcpex1), mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_001556413.2

ORF Insert Sequence:

ATGGCCTCAA ACTTAAAAGG ACGTGGCAGT CAAGCTACAC CTGCAGAGAT ATCATTAATT 
CATCTAAAGA ATTGCTTGGT GAACTTGCCT TCATCATTGT CTTCATTACT AGTTAATATC 
AACGCCCTTG CACAAAATGT GATTGTAGAA TTGAACTACC GACTTCCACC TCCGCAGAGC 
CCAAATCAAA CGAATGGCGC CCCGACTCAA CGATCTATCT TCGTGGGATG GACGGGTATG 
CAGAGCAAGC GCAAGCTTGC ACCAATTGTC GGGAGGGATG GTATAAGTGG CACTAGGGGA 
TCTGGTAGAG AGCAAGAAGT ACAGGTTGTA GAGATAGATG CAACCTTTGC GCGAACATTG 
GGGATATCAG ATGGACAGAA AATTACAGCG ACTATACACG TCGACCCTCC CGTCGCCCAT 
ACAATTAATA TCGAACCTTT GACGCCAGAA GATTGGGAGA TTATAGAATT GCATGCTAAT 
TTCCTCGAGC TCAATTTCAT CAATCAAATA CGTGCATTAC CAAATCCAAG CTTTACTTCA 
CCGAGTGGTT CATCGCACCT GCCGCATCCT CTGACGTTGC ACCTTTCACC AACCTCGACT 
GCCAATATTA TAGTCACATC CCTCCTCCCT GCTCCGCCTT CAAATATTGC GTTCACGAAA 
CTAGCACCAG ATGCAGAAGT TATTGTGGCC CCGAAAACAA GGTCAAAACC ATCACGAAGT 
TTGGGCGAAA ATGTGAGTGT ATCTTCGAGG AAGAGCGTTG GCGGACGAAG TGTTTCTAGT 
GCGGTACGTA GGAAAAGTGG ACGAAGTGAA GAGACGAAGC CGGCTATGTA TTATAGAGGA 
ATTGACAGGG CACTTTGTGG GGAGTGGTTT GAAGAAGAGA AAGATGCAGA TGATGGAGGA 
CTGAAAATCT GGGTTGATGG GGACTTCATT CTCGGGGACT CTTTGAAAGG GCTCACTTGG 
GTCACCGTCA CCGTTGTCAA GCCCGCTACT TTGCAAGAGC CAATCGACCC ACAACGACAA 
CAACAAGAAG ATGAAAATAC CGGTGTTGCC GGGAAGCCTG CATCAAAGGT AGTAGCTAGG 
CTGATGACAT GGGATGAACC GCCAGACCAA TACCATGTGG CCCTATCGAG TTCACTTTGT 
GCCTCTATGG GGTGTAAAAA TATGGTTGGA GGTGTTATAA GGGTTGCGCC TGCCCCGTCC 
CAGACTTCGA AGCCGACTTT TCAACCCACT TCTAAATCTG GTACTCCACA CATCAAGGTG 
TTTCCCTATA CATCTAGTAC AGGAAAAGCG AACGAAGGTC TCAAATTTGG CGGGGAGTCG 
AAAGCTGAGA GGGAAGAAGC TGCAAAATCA ATCATGAAAA TGTATAGCAA GAATGGTTCT 
AATAGTGGCA TTTTGGAAGG GCCATTGACT GATGGCTTAG TACTCGGCAA ACCATCAGGT 
TCTGACTTCC CATCAAGCTG GGAAGGCGGA ATGATTCGTC TAGAGCAAGG ACCACAAGAG 
TCCGGAAAGC AGCCTTGTAA TTGGTTTCTT GGTTCTGAAA AGAAATTCAA TCTTGAGGTT 
CAAGCCGCTA TTCCAAAACC CTTAACCCTG GCAGCAAATG CGATCGATGG TCTTGGCTCA 
CAACCTCCTG TTCTTGTGGG CATTGATAAT CTCATGGAAC AACTATACTC ACATCTTTCG 
CACCTGTCTT CAGTATTGCT AACTGGTGCT TTGGGGTCTG GAAAGACAGC AGTGGTTCAA 
CACTTGGCAC ATCGGTTACG GCAAGATAGC AGGTACCATA CCACATATCT TTCATGTCGA 
AAATTTGTTA CCGATGAGGC ACGTGTCTCA ACTATACGTG AAACATTTGA TCGGATTTTT 
TTGGCTGCCT CATGGGGTGC AAGAATCGGT GGAAAGTCCA TTGTGATATT GGATGATCTT 
GACAAATTGT GTCCCGCAGA AACAGAGCTT GAAGTAGGCA ATGACAACCT TCGAAGTGAT 
TTAATTAGCG AGAAGATAAT TGCAATCGCT AGAGAATATT TAATTGGGCA TCGCAGTAAC 
GTTGTTCTAC TTGCCACCGC TCAAGCGAAA GAGTCACTCC ATAAAAATAT CATCGGCTGT 
CATTGCGTGC GAGAGATTGT CGCCTTGAAA GCTCCAAACA AAGAAGGGCG AAGAAGAGTT 
ATGGAAAAGG TTGCGATGCA AAATGCAATT TCGGAGATTG CGACAAAACC AGTGGCATCG 
GGTAGCCGCC CAAGCACAGC AGATAATAGC GAGAGACAAA ATGATAATGA TTGGATGGGT 
GGTTCGAGTC TTGAAGGCAC CAAGAAATTG GAAGGTGATG GTTATGTCAT TGATCAAGAT 
CTTGATTTCT TAGACCTAGC TGGCCAAACT GATGGTTACA TGCCTGGTGA CCTCGTTCTT 
CTCGTAGCAC GAGCTAGGAG CGAAGCAATG ATTCGGACAG TTTCAAGCTC CCTGCAAAAC 
GCGGATAGTG GTTCTATTCG ACTCACCAGA GAAGATTTTG ACAGTGCTTT GAAAGGGTTT 
ACGCCAGCCT CGCTTCGAAA TGTTACCCTT CAGACTTCCA CTACAACTTT TGATTCGATT 
GGAGGATTGC AGGAGACACG AAAAATTCTA CTTGAGACCT TACAATATCC TACAACTTAT 
GCGCCAATTT TCGCACAATG TCCACTACGA TTGCGATCGG GTCTACTTTT GTATGGATTC 
CCAGGTTGTG GTAAAACGCT CCTTGCAAGT GCCGTTGCAG GAGAATGTGG TTTGAATTTC 
ATCAGTGTCA AAGGGCCCGA AATTCTCAAC AAATATATCG GTGCTTCTGA AAAGTCTGTT 
CGCGATCTTT TCGAGCGAGC CGAAGCTGCT AGACCTTGTG TGCTATTCTT CGACGAGTTC 
GATTCTATAG CTCCTAAGCG TGGTCATGAT TCTACTGGTG TAACTGATCG AGTAGTCAAT 
CAATTGTTGA CACAAATGGA TGGTGCTGAA GGTTTATCTG GAGTTTATGT ACTTGCAGCT 
ACTTCGAGAC CAGATTTGAT CGATCCGGCA TTGCTCCGTC CGGGTCGCTT GGATAAGTCT 
CTTATATGTG ATCTTCCAAA TGTGGATGAT CGTTTTGATA TTCTCAAGGC ATTGGGCAAA 
AAGCTGAAAT TATCCGAAGA AGTACGAGAT AGTCCTGAAG GTGGGCTGTT TGAGATTGCT 
CGTAGAACTG AAGGCTATTC TGGTGCAGAT CTCCAGGCCT TGATATCCAA TGCGCAGCTT 
GAAGCCATTC ACGATGTACT TGGTGATCAT GAACAAGTTG AAGTTGGAGG AAAACGTAAC 
GGCGCTAAGA CAAATGGGGC ATCCGGCGGA CCTCAAAGTT TTGTCCAGTT CCGCTATGGT 
GAAGATGAAG ATCGGACGGA AGCCGAGACG CGCGCAAAAG CTGGTAACAA TCGCTCCAAA 
CAACTTGCTG AAAAGGCTGC AATTACCGCC AAGTTGGAAG AGATCAAAAA GGCGAAGAAG 
AAGGAGAAAT TGAGAGCAAA GGGTATTGAT GTTTCGAGTG AAGACAGAGG AGAGCAGAAG 
GAAGTTAAGA GTCAACAAGA AGTCACTATT CTCTGGAAAC ATCTAGTAAA GAGTTTGGAG 
GGTACAAGAC CAAGTATCAG TGCTGACGAG CGAAGGAGGT TACAGGGAAT ATATAGGGAG 
TTTGTTGTGG GAAGAAGTGG GGATATGCCA AATGGACAAG GAGGAACGGA GGTTGGTGGG 
AGGTCGAGTT TAATGTAG

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

BC1G_05232 ( XM_001556413.1 ) cDNA ORF clone, Botrytis cinerea B05.10 -> XP_001556463.1 Botryotinia fuckeliana B05.10 hypothetical protein (BC1G_05232) partial mRNA.

Price & Availability↑

CloneID	OBc06220
Clone ID Related Accession (Same CDS sequence)	XM_001556413.2 , XM_001556413.1
Accession Version	XM_001556413.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3738bp) 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_001814550). COMPLETENESS: incomplete on both ends.

ATGGCCTCAA ACTTAAAAGG ACGTGGCAGT CAAGCTACAC CTGCAGAGAT ATCATTAATT 
CATCTAAAGA ATTGCTTGGT GAACTTGCCT TCATCATTGT CTTCATTACT AGTTAATATC 
AACGCCCTTG CACAAAATGT GATTGTAGAA TTGAACTACC GACTTCCACC TCCGCAGAGC 
CCAAATCAAA CGAATGGCGC CCCGACTCAA CGATCTATCT TCGTGGGATG GACGGGTATG 
CAGAGCAAGC GCAAGCTTGC ACCAATTGTC GGGAGGGATG GTATAAGTGG CACTAGGGGA 
TCTGGTAGAG AGCAAGAAGT ACAGGTTGTA GAGATAGATG CAACCTTTGC GCGAACATTG 
GGGATATCAG ATGGACAGAA AATTACAGCG ACTATACACG TCGACCCTCC CGTCGCCCAT 
ACAATTAATA TCGAACCTTT GACGCCAGAA GATTGGGAGA TTATAGAATT GCATGCTAAT 
TTCCTCGAGC TCAATTTCAT CAATCAAATA CGTGCATTAC CAAATCCAAG CTTTACTTCA 
CCGAGTGGTT CATCGCACCT GCCGCATCCT CTGACGTTGC ACCTTTCACC AACCTCGACT 
GCCAATATTA TAGTCACATC CCTCCTCCCT GCTCCGCCTT CAAATATTGC GTTCACGAAA 
CTAGCACCAG ATGCAGAAGT TATTGTGGCC CCGAAAACAA GGTCAAAACC ATCACGAAGT 
TTGGGCGAAA ATGTGAGTGT ATCTTCGAGG AAGAGCGTTG GCGGACGAAG TGTTTCTAGT 
GCGGTACGTA GGAAAAGTGG ACGAAGTGAA GAGACGAAGC CGGCTATGTA TTATAGAGGA 
ATTGACAGGG CACTTTGTGG GGAGTGGTTT GAAGAAGAGA AAGATGCAGA TGATGGAGGA 
CTGAAAATCT GGGTTGATGG GGACTTCATT CTCGGGGACT CTTTGAAAGG GCTCACTTGG 
GTCACCGTCA CCGTTGTCAA GCCCGCTACT TTGCAAGAGC CAATCGACCC ACAACGACAA 
CAACAAGAAG ATGAAAATAC CGGTGTTGCC GGGAAGCCTG CATCAAAGGT AGTAGCTAGG 
CTGATGACAT GGGATGAACC GCCAGACCAA TACCATGTGG CCCTATCGAG TTCACTTTGT 
GCCTCTATGG GGTGTAAAAA TATGGTTGGA GGTGTTATAA GGGTTGCGCC TGCCCCGTCC 
CAGACTTCGA AGCCGACTTT TCAACCCACT TCTAAATCTG GTACTCCACA CATCAAGGTG 
TTTCCCTATA CATCTAGTAC AGGAAAAGCG AACGAAGGTC TCAAATTTGG CGGGGAGTCG 
AAAGCTGAGA GGGAAGAAGC TGCAAAATCA ATCATGAAAA TGTATAGCAA GAATGGTTCT 
AATAGTGGCA TTTTGGAAGG GCCATTGACT GATGGCTTAG TACTCGGCAA ACCATCAGGT 
TCTGACTTCC CATCAAGCTG GGAAGGCGGA ATGATTCGTC TAGAGCAAGG ACCACAAGAG 
TCCGGAAAGC AGCCTTGTAA TTGGTTTCTT GGTTCTGAAA AGAAATTCAA TCTTGAGGTT 
CAAGCCGCTA TTCCAAAACC CTTAACCCTG GCAGCAAATG CGATCGATGG TCTTGGCTCA 
CAACCTCCTG TTCTTGTGGG CATTGATAAT CTCATGGAAC AACTATACTC ACATCTTTCG 
CACCTGTCTT CAGTATTGCT AACTGGTGCT TTGGGGTCTG GAAAGACAGC AGTGGTTCAA 
CACTTGGCAC ATCGGTTACG GCAAGATAGC AGGTACCATA CCACATATCT TTCATGTCGA 
AAATTTGTTA CCGATGAGGC ACGTGTCTCA ACTATACGTG AAACATTTGA TCGGATTTTT 
TTGGCTGCCT CATGGGGTGC AAGAATCGGT GGAAAGTCCA TTGTGATATT GGATGATCTT 
GACAAATTGT GTCCCGCAGA AACAGAGCTT GAAGTAGGCA ATGACAACCT TCGAAGTGAT 
TTAATTAGCG AGAAGATAAT TGCAATCGCT AGAGAATATT TAATTGGGCA TCGCAGTAAC 
GTTGTTCTAC TTGCCACCGC TCAAGCGAAA GAGTCACTCC ATAAAAATAT CATCGGCTGT 
CATTGCGTGC GAGAGATTGT CGCCTTGAAA GCTCCAAACA AAGAAGGGCG AAGAAGAGTT 
ATGGAAAAGG TTGCGATGCA AAATGCAATT TCGGAGATTG CGACAAAACC AGTGGCATCG 
GGTAGCCGCC CAAGCACAGC AGATAATAGC GAGAGACAAA ATGATAATGA TTGGATGGGT 
GGTTCGAGTC TTGAAGGCAC CAAGAAATTG GAAGGTGATG GTTATGTCAT TGATCAAGAT 
CTTGATTTCT TAGACCTAGC TGGCCAAACT GATGGTTACA TGCCTGGTGA CCTCGTTCTT 
CTCGTAGCAC GAGCTAGGAG CGAAGCAATG ATTCGGACAG TTTCAAGCTC CCTGCAAAAC 
GCGGATAGTG GTTCTATTCG ACTCACCAGA GAAGATTTTG ACAGTGCTTT GAAAGGGTTT 
ACGCCAGCCT CGCTTCGAAA TGTTACCCTT CAGACTTCCA CTACAACTTT TGATTCGATT 
GGAGGATTGC AGGAGACACG AAAAATTCTA CTTGAGACCT TACAATATCC TACAACTTAT 
GCGCCAATTT TCGCACAATG TCCACTACGA TTGCGATCGG GTCTACTTTT GTATGGATTC 
CCAGGTTGTG GTAAAACGCT CCTTGCAAGT GCCGTTGCAG GAGAATGTGG TTTGAATTTC 
ATCAGTGTCA AAGGGCCCGA AATTCTCAAC AAATATATCG GTGCTTCTGA AAAGTCTGTT 
CGCGATCTTT TCGAGCGAGC CGAAGCTGCT AGACCTTGTG TGCTATTCTT CGACGAGTTC 
GATTCTATAG CTCCTAAGCG TGGTCATGAT TCTACTGGTG TAACTGATCG AGTAGTCAAT 
CAATTGTTGA CACAAATGGA TGGTGCTGAA GGTTTATCTG GAGTTTATGT ACTTGCAGCT 
ACTTCGAGAC CAGATTTGAT CGATCCGGCA TTGCTCCGTC CGGGTCGCTT GGATAAGTCT 
CTTATATGTG ATCTTCCAAA TGTGGATGAT CGTTTTGATA TTCTCAAGGC ATTGGGCAAA 
AAGCTGAAAT TATCCGAAGA AGTACGAGAT AGTCCTGAAG GTGGGCTGTT TGAGATTGCT 
CGTAGAACTG AAGGCTATTC TGGTGCAGAT CTCCAGGCCT TGATATCCAA TGCGCAGCTT 
GAAGCCATTC ACGATGTACT TGGTGATCAT GAACAAGTTG AAGTTGGAGG AAAACGTAAC 
GGCGCTAAGA CAAATGGGGC ATCCGGCGGA CCTCAAAGTT TTGTCCAGTT CCGCTATGGT 
GAAGATGAAG ATCGGACGGA AGCCGAGACG CGCGCAAAAG CTGGTAACAA TCGCTCCAAA 
CAACTTGCTG AAAAGGCTGC AATTACCGCC AAGTTGGAAG AGATCAAAAA GGCGAAGAAG 
AAGGAGAAAT TGAGAGCAAA GGGTATTGAT GTTTCGAGTG AAGACAGAGG AGAGCAGAAG 
GAAGTTAAGA GTCAACAAGA AGTCACTATT CTCTGGAAAC ATCTAGTAAA GAGTTTGGAG 
GGTACAAGAC CAAGTATCAG TGCTGACGAG CGAAGGAGGT TACAGGGAAT ATATAGGGAG 
TTTGTTGTGG GAAGAAGTGG GGATATGCCA AATGGACAAG GAGGAACGGA GGTTGGTGGG 
AGGTCGAGTT TAATGTAG

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

RefSeq	XP_001556463.1
CDS	1..3738
Translation	MASNLKGRGSQATPAEISLIHLKNCLVNLPSSLSSLLVNINALAQNVIVELNYRLPPPQSPNQTNGAPTQRSIFVGWTGMQSKRKLAPIVGRDGISGTRGSGREQEVQVVEIDATFARTLGISDGQKITATIHVDPPVAHTINIEPLTPEDWEIIELHANFLELNFINQIRALPNPSFTSPSGSSHLPHPLTLHLSPTSTANIIVTSLLPAPPSNIAFTKLAPDAEVIVAPKTRSKPSRSLGENVSVSSRKSVGGRSVSSAVRRKSGRSEETKPAMYYRGIDRALCGEWFEEEKDADDGGLKIWVDGDFILGDSLKGLTWVTVTVVKPATLQEPIDPQRQQQEDENTGVAGKPASKVVARLMTWDEPPDQYHVALSSSLCASMGCKNMVGGVIRVAPAPSQTSKPTFQPTSKSGTPHIKVFPYTSSTGKANEGLKFGGESKAEREEAAKSIMKMYSKNGSNSGILEGPLTDGLVLGKPSGSDFPSSWEGGMIRLEQGPQESGKQPCNWFLGSEKKFNLEVQAAIPKPLTLAANAIDGLGSQPPVLVGIDNLMEQLYSHLSHLSSVLLTGALGSGKTAVVQHLAHRLRQDSRYHTTYLSCRKFVTDEARVSTIRETFDRIFLAASWGARIGGKSIVILDDLDKLCPAETELEVGNDNLRSDLISEKIIAIAREYLIGHRSNVVLLATAQAKESLHKNIIGCHCVREIVALKAPNKEGRRRVMEKVAMQNAISEIATKPVASGSRPSTADNSERQNDNDWMGGSSLEGTKKLEGDGYVIDQDLDFLDLAGQTDGYMPGDLVLLVARARSEAMIRTVSSSLQNADSGSIRLTREDFDSALKGFTPASLRNVTLQTSTTTFDSIGGLQETRKILLETLQYPTTYAPIFAQCPLRLRSGLLLYGFPGCGKTLLASAVAGECGLNFISVKGPEILNKYIGASEKSVRDLFERAEAARPCVLFFDEFDSIAPKRGHDSTGVTDRVVNQLLTQMDGAEGLSGVYVLAATSRPDLIDPALLRPGRLDKSLICDLPNVDDRFDILKALGKKLKLSEEVRDSPEGGLFEIARRTEGYSGADLQALISNAQLEAIHDVLGDHEQVEVGGKRNGAKTNGASGGPQSFVQFRYGEDEDRTEAETRAKAGNNRSKQLAEKAAITAKLEEIKKAKKKEKLRAKGIDVSSEDRGEQKEVKSQQEVTILWKHLVKSLEGTRPSISADERRRLQGIYREFVVGRSGDMPNGQGGTEVGGRSSLM

Target ORF information:

RefSeq Version	XM_001556413.1
Organism	Botrytis cinerea B05.10
Definition	Botryotinia fuckeliana B05.10 hypothetical protein (BC1G_05232) partial mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_001556413.1

ORF Insert Sequence:

ATGGCCTCAA ACTTAAAAGG ACGTGGCAGT CAAGCTACAC CTGCAGAGAT ATCATTAATT 
CATCTAAAGA ATTGCTTGGT GAACTTGCCT TCATCATTGT CTTCATTACT AGTTAATATC 
AACGCCCTTG CACAAAATGT GATTGTAGAA TTGAACTACC GACTTCCACC TCCGCAGAGC 
CCAAATCAAA CGAATGGCGC CCCGACTCAA CGATCTATCT TCGTGGGATG GACGGGTATG 
CAGAGCAAGC GCAAGCTTGC ACCAATTGTC GGGAGGGATG GTATAAGTGG CACTAGGGGA 
TCTGGTAGAG AGCAAGAAGT ACAGGTTGTA GAGATAGATG CAACCTTTGC GCGAACATTG 
GGGATATCAG ATGGACAGAA AATTACAGCG ACTATACACG TCGACCCTCC CGTCGCCCAT 
ACAATTAATA TCGAACCTTT GACGCCAGAA GATTGGGAGA TTATAGAATT GCATGCTAAT 
TTCCTCGAGC TCAATTTCAT CAATCAAATA CGTGCATTAC CAAATCCAAG CTTTACTTCA 
CCGAGTGGTT CATCGCACCT GCCGCATCCT CTGACGTTGC ACCTTTCACC AACCTCGACT 
GCCAATATTA TAGTCACATC CCTCCTCCCT GCTCCGCCTT CAAATATTGC GTTCACGAAA 
CTAGCACCAG ATGCAGAAGT TATTGTGGCC CCGAAAACAA GGTCAAAACC ATCACGAAGT 
TTGGGCGAAA ATGTGAGTGT ATCTTCGAGG AAGAGCGTTG GCGGACGAAG TGTTTCTAGT 
GCGGTACGTA GGAAAAGTGG ACGAAGTGAA GAGACGAAGC CGGCTATGTA TTATAGAGGA 
ATTGACAGGG CACTTTGTGG GGAGTGGTTT GAAGAAGAGA AAGATGCAGA TGATGGAGGA 
CTGAAAATCT GGGTTGATGG GGACTTCATT CTCGGGGACT CTTTGAAAGG GCTCACTTGG 
GTCACCGTCA CCGTTGTCAA GCCCGCTACT TTGCAAGAGC CAATCGACCC ACAACGACAA 
CAACAAGAAG ATGAAAATAC CGGTGTTGCC GGGAAGCCTG CATCAAAGGT AGTAGCTAGG 
CTGATGACAT GGGATGAACC GCCAGACCAA TACCATGTGG CCCTATCGAG TTCACTTTGT 
GCCTCTATGG GGTGTAAAAA TATGGTTGGA GGTGTTATAA GGGTTGCGCC TGCCCCGTCC 
CAGACTTCGA AGCCGACTTT TCAACCCACT TCTAAATCTG GTACTCCACA CATCAAGGTG 
TTTCCCTATA CATCTAGTAC AGGAAAAGCG AACGAAGGTC TCAAATTTGG CGGGGAGTCG 
AAAGCTGAGA GGGAAGAAGC TGCAAAATCA ATCATGAAAA TGTATAGCAA GAATGGTTCT 
AATAGTGGCA TTTTGGAAGG GCCATTGACT GATGGCTTAG TACTCGGCAA ACCATCAGGT 
TCTGACTTCC CATCAAGCTG GGAAGGCGGA ATGATTCGTC TAGAGCAAGG ACCACAAGAG 
TCCGGAAAGC AGCCTTGTAA TTGGTTTCTT GGTTCTGAAA AGAAATTCAA TCTTGAGGTT 
CAAGCCGCTA TTCCAAAACC CTTAACCCTG GCAGCAAATG CGATCGATGG TCTTGGCTCA 
CAACCTCCTG TTCTTGTGGG CATTGATAAT CTCATGGAAC AACTATACTC ACATCTTTCG 
CACCTGTCTT CAGTATTGCT AACTGGTGCT TTGGGGTCTG GAAAGACAGC AGTGGTTCAA 
CACTTGGCAC ATCGGTTACG GCAAGATAGC AGGTACCATA CCACATATCT TTCATGTCGA 
AAATTTGTTA CCGATGAGGC ACGTGTCTCA ACTATACGTG AAACATTTGA TCGGATTTTT 
TTGGCTGCCT CATGGGGTGC AAGAATCGGT GGAAAGTCCA TTGTGATATT GGATGATCTT 
GACAAATTGT GTCCCGCAGA AACAGAGCTT GAAGTAGGCA ATGACAACCT TCGAAGTGAT 
TTAATTAGCG AGAAGATAAT TGCAATCGCT AGAGAATATT TAATTGGGCA TCGCAGTAAC 
GTTGTTCTAC TTGCCACCGC TCAAGCGAAA GAGTCACTCC ATAAAAATAT CATCGGCTGT 
CATTGCGTGC GAGAGATTGT CGCCTTGAAA GCTCCAAACA AAGAAGGGCG AAGAAGAGTT 
ATGGAAAAGG TTGCGATGCA AAATGCAATT TCGGAGATTG CGACAAAACC AGTGGCATCG 
GGTAGCCGCC CAAGCACAGC AGATAATAGC GAGAGACAAA ATGATAATGA TTGGATGGGT 
GGTTCGAGTC TTGAAGGCAC CAAGAAATTG GAAGGTGATG GTTATGTCAT TGATCAAGAT 
CTTGATTTCT TAGACCTAGC TGGCCAAACT GATGGTTACA TGCCTGGTGA CCTCGTTCTT 
CTCGTAGCAC GAGCTAGGAG CGAAGCAATG ATTCGGACAG TTTCAAGCTC CCTGCAAAAC 
GCGGATAGTG GTTCTATTCG ACTCACCAGA GAAGATTTTG ACAGTGCTTT GAAAGGGTTT 
ACGCCAGCCT CGCTTCGAAA TGTTACCCTT CAGACTTCCA CTACAACTTT TGATTCGATT 
GGAGGATTGC AGGAGACACG AAAAATTCTA CTTGAGACCT TACAATATCC TACAACTTAT 
GCGCCAATTT TCGCACAATG TCCACTACGA TTGCGATCGG GTCTACTTTT GTATGGATTC 
CCAGGTTGTG GTAAAACGCT CCTTGCAAGT GCCGTTGCAG GAGAATGTGG TTTGAATTTC 
ATCAGTGTCA AAGGGCCCGA AATTCTCAAC AAATATATCG GTGCTTCTGA AAAGTCTGTT 
CGCGATCTTT TCGAGCGAGC CGAAGCTGCT AGACCTTGTG TGCTATTCTT CGACGAGTTC 
GATTCTATAG CTCCTAAGCG TGGTCATGAT TCTACTGGTG TAACTGATCG AGTAGTCAAT 
CAATTGTTGA CACAAATGGA TGGTGCTGAA GGTTTATCTG GAGTTTATGT ACTTGCAGCT 
ACTTCGAGAC CAGATTTGAT CGATCCGGCA TTGCTCCGTC CGGGTCGCTT GGATAAGTCT 
CTTATATGTG ATCTTCCAAA TGTGGATGAT CGTTTTGATA TTCTCAAGGC ATTGGGCAAA 
AAGCTGAAAT TATCCGAAGA AGTACGAGAT AGTCCTGAAG GTGGGCTGTT TGAGATTGCT 
CGTAGAACTG AAGGCTATTC TGGTGCAGAT CTCCAGGCCT TGATATCCAA TGCGCAGCTT 
GAAGCCATTC ACGATGTACT TGGTGATCAT GAACAAGTTG AAGTTGGAGG AAAACGTAAC 
GGCGCTAAGA CAAATGGGGC ATCCGGCGGA CCTCAAAGTT TTGTCCAGTT CCGCTATGGT 
GAAGATGAAG ATCGGACGGA AGCCGAGACG CGCGCAAAAG CTGGTAACAA TCGCTCCAAA 
CAACTTGCTG AAAAGGCTGC AATTACCGCC AAGTTGGAAG AGATCAAAAA GGCGAAGAAG 
AAGGAGAAAT TGAGAGCAAA GGGTATTGAT GTTTCGAGTG AAGACAGAGG AGAGCAGAAG 
GAAGTTAAGA GTCAACAAGA AGTCACTATT CTCTGGAAAC ATCTAGTAAA GAGTTTGGAG 
GGTACAAGAC CAAGTATCAG TGCTGACGAG CGAAGGAGGT TACAGGGAAT ATATAGGGAG 
TTTGTTGTGG GAAGAAGTGG GGATATGCCA AATGGACAAG GAGGAACGGA GGTTGGTGGG 
AGGTCGAGTT TAATGTAG

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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BC1G_05232 cDNA ORF clone, Botrytis cinerea B05.10

Gene

Clones

gRNAs

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Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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