Botrytis cinerea mutants database

Gene identities of Botrytis cinerea published mutants

Results



329 mutant(s) that fit the query :


Mutant name
BcinB0510 gene id
GenBank gene id
T4-URGI gene id
B0510-BROAD gene id
T4vanKan-BROAD gene id
B0510vanKan-BROAD gene id
Gene name(s) and function(s) Publication
B161Δ
Bcin05g06280
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P134980.1
.Details (ncbi)
.Details (BotPortal)

BC1G_01745.1
.Details (ncbi)
.Details (BotPortal)

Gene under positive selection, putative oxydoreductase

Aguileta G, Lengelle J, Chiapello H, Giraud T, Viaud M, Fournier E, Rodolphe F, Marthey S, Ducasse A, Gendrault A, Poulain J, Wincker P, Gout L. Genes under positive selection in a model plant pathogenic fungus, Botrytis. Infect Genet Evol. 2012 Jul;12(5):987-96. [DOI]

B417Δ
Bcin11g05460
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P091190.1
.Details (ncbi)
.Details (BotPortal)

BcT4_4154
.Details (BotPortal)



B0510_6274
.Details (BotPortal)



Gene under positive selection

Aguileta G, Lengelle J, Chiapello H, Giraud T, Viaud M, Fournier E, Rodolphe F, Marthey S, Ducasse A, Gendrault A, Poulain J, Wincker P, Gout L. Genes under positive selection in a model plant pathogenic fungus, Botrytis. Infect Genet Evol. 2012 Jul;12(5):987-96. [DOI]

B431Δ
Bcin14g00860
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P089390.1
.Details (ncbi)
.Details (BotPortal)

BC1G_11144.1
.Details (ncbi)
.Details (BotPortal)

BcT4_6001
.Details (BotPortal)



B0510_5387
.Details (BotPortal)



Gene under positive selection, putative pectin methylesterase (PME)

Aguileta G, Lengelle J, Chiapello H, Giraud T, Viaud M, Fournier E, Rodolphe F, Marthey S, Ducasse A, Gendrault A, Poulain J, Wincker P, Gout L. Genes under positive selection in a model plant pathogenic fungus, Botrytis. Infect Genet Evol. 2012 Jul;12(5):987-96. [DOI]

BACΔ
Bcin15g02590
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AJ276473
.Details (GenBank)



BofuT4_P004620.1
.Details (ncbi)
.Details (BotPortal)

BC1G_02865.1
.Details (ncbi)
.Details (BotPortal)

BcT4_5646
.Details (BotPortal)



B0510_2578
.Details (BotPortal)



BAC,adenylate cyclase

Klimpel A, Gronover CS, Williamson B, Stewart JA, Tudzynski B. The adenylate cyclase (BAC) in Botrytis cinerea is required for full pathogenicity. Mol Plant Pathol. 2002 Nov 1;3(6):439-50. [DOI]

bap1Δ
Bcin13g03000
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


FM957543
.Details (GenBank)



BofuT4_P097790.1
.Details (ncbi)
.Details (BotPortal)

BC1G_14094.1
.Details (ncbi)
.Details (BotPortal)

Bap1, transcription factor bZIP

Temme N, Tudzynski P. Does botrytis cinerea Ignore H(2)O(2)-induced oxidative stress during infection? Characterization of botrytis activator protein 1. Mol Plant Microbe Interact. 2009 Aug;22(8):987-98. [DOI]

bap1/bcskn7Δ
Bcin13g03000
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


Bcin02g08650
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


FM957543
.Details (GenBank)



BofuT4_P097790.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P088540.1
.Details (ncbi)
.Details (BotPortal)

BC1G_14094.1
.Details (ncbi)
.Details (BotPortal)

BC1G_06857.1
.Details (ncbi)
.Details (BotPortal)






BcT4_9091
.Details (BotPortal)








B0510_6622
.Details (BotPortal)



Bap1, transcription factor bZIP

BcSKN7, response regulator

Viefhues A, Schlathoelter I, Simon A, Viaud M, Tudzynski P. Unravelling the function of the response regulator BcSkn7 in the stress signaling network of Botrytis cinerea. Eukaryot Cell. 2015 Jul;14(7):636-51 [DOI]

bc1g_01081Δ
Bcin06g01050
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P030840.1
.Details (ncbi)
.Details (BotPortal)

BC1G_01081.1
.Details (ncbi)
.Details (BotPortal)

BcT4_1380
.Details (BotPortal)



B0510_5506
.Details (BotPortal)



similar to transcription factor bZIP

Giesbert S, Schumacher J, Kupas V, Espino J, Segmuller N, Haeuser-Hahn I, Schreier PH, Tudzynski P. Identification of pathogenesis-associated genes by T-DNA-mediated insertional mutagenesis in Botrytis cinerea: a type 2A phosphoprotein phosphatase and an SPT3 transcription factor have significant impact on virulence. Mol Plant Microbe Interact. 2012 Apr;25(4):481-95. [DOI]

Bc1g_14021Δ
BofuT4_uP102320.1
.Details (ncbi)
.Details (BotPortal)

BC1G_14021.1
.Details (ncbi)
.Details (BotPortal)

hypothetical protein

Giesbert S, Schumacher J, Kupas V, Espino J, Segmuller N, Haeuser-Hahn I, Schreier PH, Tudzynski P. Identification of pathogenesis-associated genes by T-DNA-mediated insertional mutagenesis in Botrytis cinerea: a type 2A phosphoprotein phosphatase and an SPT3 transcription factor have significant impact on virulence. Mol Plant Microbe Interact. 2012 Apr;25(4):481-95. [DOI]

bcaba1Δ
Bcin08g03850
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AJ609392
.Details (GenBank)



BofuT4_P084080.1
.Details (ncbi)
.Details (BotPortal)

BC1G_07531.1
.Details (ncbi)
.Details (BotPortal)

BcT4_3324
.Details (BotPortal)



B0510_6516
.Details (BotPortal)



BcABA1, cytochrome P450 monooxygenase, in abscisic acid gene cluster

Siewers V, Smedsgaard J, Tudzynski P. The P450 monooxygenase BcABA1 is essential for abscisic acid biosynthesis in Botrytis cinerea. Appl Environ Microbiol. 2004 Jul;70(7):3868-76. [DOI]

bcaba2Δ
Bcin08g03840
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AJ851088
.Details (GenBank)



BofuT4_P084070.1
.Details (ncbi)
.Details (BotPortal)

BC1G_07530.1
.Details (ncbi)
.Details (BotPortal)

BcT4_3323
.Details (BotPortal)



B0510_6515
.Details (BotPortal)



BcABA2, cytochrome P450 monooxygenase, in abscisic acid gene cluster

Siewers V, Kokkelink L, Smedsgaard J, Tudzynski P. Identification of an abscisic acid gene cluster in the grey mold Botrytis cinerea. Appl Environ Microbiol. 2006 Jul;72(7):4619-26. [DOI]

bcaba3Δ
Bcin08g03880
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AM237449
.Details (GenBank)



BofuT4_P084110.1
.Details (ncbi)
.Details (BotPortal)

BC1G_07534.1
.Details (ncbi)
.Details (BotPortal)

BcT4_3325
.Details (BotPortal)



B0510_6517
.Details (BotPortal)



BcABA3, in abscisic acid gene cluster

Siewers V, Kokkelink L, Smedsgaard J, Tudzynski P. Identification of an abscisic acid gene cluster in the grey mold Botrytis cinerea. Appl Environ Microbiol. 2006 Jul;72(7):4619-26. [DOI]

bcaba4Δ
Bcin08g03830
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AM237450
.Details (GenBank)



BofuT4_P084060.1
.Details (ncbi)
.Details (BotPortal)

BC1G_07529.1
.Details (ncbi)
.Details (BotPortal)

BcT4_3322
.Details (BotPortal)



B0510_6514
.Details (BotPortal)



BcABA4, dehydrogenase/reductase, in abscisic acid gene cluster

Siewers V, Kokkelink L, Smedsgaard J, Tudzynski P. Identification of an abscisic acid gene cluster in the grey mold Botrytis cinerea. Appl Environ Microbiol. 2006 Jul;72(7):4619-26. [DOI]

bcacp1/bcacp3Δ
Bcin09g02930
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


Bcin01g01190
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AF121229
.Details (GenBank)



AY507155
.Details (GenBank)



BofuT4_P054370.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P145970.1
.Details (ncbi)
.Details (BotPortal)

BC1G_07068.1
.Details (ncbi)
.Details (BotPortal)

BC1G_05845.1
.Details (ncbi)
.Details (BotPortal)

BcT4_1730
.Details (BotPortal)



BcT4_6153
.Details (BotPortal)



B0510_4619
.Details (BotPortal)



B0510_7632
.Details (BotPortal)



BcAP1, aspartic proteinase

BcAP3, aspartic proteinase

ten Have A, Espino JJ, Dekkers E, Van Sluyter SC, Brito N, Kay J, Gonzalez C, van Kan JA. The Botrytis cinerea aspartic proteinase family. Fungal Genet Biol. 2010 Jan;47(1):53-65. [DOI]

bcacp1/bcacp4Δ
Bcin09g02930
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


Bcin03g02760
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AF121229
.Details (GenBank)



AY507156
.Details (GenBank)



BofuT4_P054370.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P052010.1
.Details (ncbi)
.Details (BotPortal)

BC1G_07068.1
.Details (ncbi)
.Details (BotPortal)

BC1G_06540.1
.Details (ncbi)
.Details (BotPortal)

BcT4_1730
.Details (BotPortal)



B0510_4619
.Details (BotPortal)



B0510_441
.Details (BotPortal)



BcAP1, aspartic proteinase

BcAP4, aspartic proteinase

ten Have A, Espino JJ, Dekkers E, Van Sluyter SC, Brito N, Kay J, Gonzalez C, van Kan JA. The Botrytis cinerea aspartic proteinase family. Fungal Genet Biol. 2010 Jan;47(1):53-65. [DOI]

bcacp1/bcacp5Δ
Bcin09g02930
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


Bcin05g05900
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AF121229
.Details (GenBank)



AJ617485
.Details (GenBank)



BofuT4_P054370.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P135550.1
.Details (ncbi)
.Details (BotPortal)

BC1G_07068.1
.Details (ncbi)
.Details (BotPortal)

BC1G_01794.1
.Details (ncbi)
.Details (BotPortal)

BcT4_1730
.Details (BotPortal)



BcT4_8167
.Details (BotPortal)



B0510_4619
.Details (BotPortal)



B0510_1807
.Details (BotPortal)



BcAP1, aspartic proteinase

BcAP5, aspartic proteinase

ten Have A, Espino JJ, Dekkers E, Van Sluyter SC, Brito N, Kay J, Gonzalez C, van Kan JA. The Botrytis cinerea aspartic proteinase family. Fungal Genet Biol. 2010 Jan;47(1):53-65. [DOI]

bcacp3/bcacp4Δ
Bcin01g01190
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


Bcin03g02760
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AY507155
.Details (GenBank)



AY507156
.Details (GenBank)



BofuT4_P145970.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P052010.1
.Details (ncbi)
.Details (BotPortal)

BC1G_05845.1
.Details (ncbi)
.Details (BotPortal)

BC1G_06540.1
.Details (ncbi)
.Details (BotPortal)

BcT4_6153
.Details (BotPortal)



B0510_7632
.Details (BotPortal)



B0510_441
.Details (BotPortal)



BcAP3, aspartic proteinase

BcAP4, aspartic proteinase

ten Have A, Espino JJ, Dekkers E, Van Sluyter SC, Brito N, Kay J, Gonzalez C, van Kan JA. The Botrytis cinerea aspartic proteinase family. Fungal Genet Biol. 2010 Jan;47(1):53-65. [DOI]

bcacp3/bcacp5Δ
Bcin01g01190
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


Bcin05g05900
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AY507155
.Details (GenBank)



AJ617485
.Details (GenBank)



BofuT4_P145970.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P135550.1
.Details (ncbi)
.Details (BotPortal)

BC1G_05845.1
.Details (ncbi)
.Details (BotPortal)

BC1G_01794.1
.Details (ncbi)
.Details (BotPortal)

BcT4_6153
.Details (BotPortal)



BcT4_8167
.Details (BotPortal)



B0510_7632
.Details (BotPortal)



B0510_1807
.Details (BotPortal)



BcAP3, aspartic proteinase

BcAP5, aspartic proteinase

ten Have A, Espino JJ, Dekkers E, Van Sluyter SC, Brito N, Kay J, Gonzalez C, van Kan JA. The Botrytis cinerea aspartic proteinase family. Fungal Genet Biol. 2010 Jan;47(1):53-65. [DOI]

BcactAΔ
Bcin16g02020
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AJ000335
.Details (GenBank)



BofuT4_P033890.1
.Details (ncbi)
.Details (BotPortal)

BC1G_08198.1
.Details (ncbi)
.Details (BotPortal)

BcT4_7320
.Details (BotPortal)



BcactA, Actin

Li H, Zhang Z, Qin G, He C, Li B, Tian S. Actin Is Required for Cellular Development and Virulence of Botrytis cinerea via the Mediation of Secretory Proteins. mSystems. 2020;5(1):e00732-19. Published 2020 Feb 25. [DOI]

BcaifΔ
Bcin02g01610
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P108770.1
.Details (ncbi)
.Details (BotPortal)

BC1G_02594.1
.Details (ncbi)
.Details (BotPortal)

BcT4_7714
.Details (BotPortal)



B0510_8084
.Details (BotPortal)



AIF, apoptosis-inducing factor 1 ; BcNDE3, external NADH dehydrogenase 3 (PF07992, PF00070)

An B, Li B, Li H, Zhang Z, Qin G, Tian S. Aquaporin8 regulates cellular development and reactive oxygen species production, a critical component of virulence in Botrytis cinerea. New Phytol. 2015 Nov 3. [DOI]

BcaoxΔ
Bcin06g03440
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AJ496184
.Details (GenBank)



BofuT4_P111230.1
.Details (ncbi)
.Details (BotPortal)

BC1G_05703.1
.Details (ncbi)
.Details (BotPortal)

BcT4_1165
.Details (BotPortal)



B0510_4154
.Details (BotPortal)



Bcaox, Mitochondrial alternative oxydase

Lin Z, Wu J, Jamieson PA, Zhang C. Alternative Oxidase Is Involved in the Pathogenicity, Development, and Oxygen Stress Response of Botrytis cinerea. Phytopathology. 2019;109(10):1679-1688. [DOI]

bcap1Δ
Bcin09g02930
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AF121229
.Details (GenBank)



BofuT4_P054370.1
.Details (ncbi)
.Details (BotPortal)

BC1G_07068.1
.Details (ncbi)
.Details (BotPortal)

BcT4_1730
.Details (BotPortal)



B0510_4619
.Details (BotPortal)



BcAP1, aspartic proteinase

ten Have A, Espino JJ, Dekkers E, Van Sluyter SC, Brito N, Kay J, Gonzalez C, van Kan JA. The Botrytis cinerea aspartic proteinase family. Fungal Genet Biol. 2010 Jan;47(1):53-65. [DOI]

bcap2Δ
Bcin02g08590
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AY361913
.Details (GenBank)



BofuT4_P088640.1
.Details (ncbi)
.Details (BotPortal)

BC1G_06849.1
.Details (ncbi)
.Details (BotPortal)

BcT4_9095
.Details (BotPortal)



B0510_6626
.Details (BotPortal)



BcAP2, aspartic proteinase

ten Have A, Espino JJ, Dekkers E, Van Sluyter SC, Brito N, Kay J, Gonzalez C, van Kan JA. The Botrytis cinerea aspartic proteinase family. Fungal Genet Biol. 2010 Jan;47(1):53-65. [DOI]

bcap3Δ
Bcin01g01190
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AY507155
.Details (GenBank)



BofuT4_P145970.1
.Details (ncbi)
.Details (BotPortal)

BC1G_05845.1
.Details (ncbi)
.Details (BotPortal)

BcT4_6153
.Details (BotPortal)



B0510_7632
.Details (BotPortal)



BcAP3, aspartic proteinase

ten Have A, Espino JJ, Dekkers E, Van Sluyter SC, Brito N, Kay J, Gonzalez C, van Kan JA. The Botrytis cinerea aspartic proteinase family. Fungal Genet Biol. 2010 Jan;47(1):53-65. [DOI]

bcap4Δ
Bcin03g02760
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AY507156
.Details (GenBank)



BofuT4_P052010.1
.Details (ncbi)
.Details (BotPortal)

BC1G_06540.1
.Details (ncbi)
.Details (BotPortal)

B0510_441
.Details (BotPortal)



BcAP4, aspartic proteinase

ten Have A, Espino JJ, Dekkers E, Van Sluyter SC, Brito N, Kay J, Gonzalez C, van Kan JA. The Botrytis cinerea aspartic proteinase family. Fungal Genet Biol. 2010 Jan;47(1):53-65. [DOI]

bcap5Δ
Bcin05g05900
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AJ617485
.Details (GenBank)



BofuT4_P135550.1
.Details (ncbi)
.Details (BotPortal)

BC1G_01794.1
.Details (ncbi)
.Details (BotPortal)

BcT4_8167
.Details (BotPortal)



B0510_1807
.Details (BotPortal)



BcAP5, aspartic proteinase

ten Have A, Espino JJ, Dekkers E, Van Sluyter SC, Brito N, Kay J, Gonzalez C, van Kan JA. The Botrytis cinerea aspartic proteinase family. Fungal Genet Biol. 2010 Jan;47(1):53-65. [DOI]

bcap8Δ
Bcin12g02040
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P134040.1
.Details (ncbi)
.Details (BotPortal)

BC1G_03070.1
.Details (ncbi)
.Details (BotPortal)

BcT4_9246
.Details (BotPortal)



B0510_3001
.Details (BotPortal)



BcAP8, aspartic proteinase

ten Have A, Espino JJ, Dekkers E, Van Sluyter SC, Brito N, Kay J, Gonzalez C, van Kan JA. The Botrytis cinerea aspartic proteinase family. Fungal Genet Biol. 2010 Jan;47(1):53-65. [DOI]

Bcaqp1Δ
Bcin06g06680
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P070410.1
.Details (ncbi)
.Details (BotPortal)

BC1G_06313.1
.Details (ncbi)
.Details (BotPortal)

BcT4_869
.Details (BotPortal)



B0510_8904
.Details (BotPortal)



BcAQP1, aquaporine

BcAQP1, aquaporine + an other gene ? (B0510_8904, BcT4_869)

An B, Li B, Li H, Zhang Z, Qin G, Tian S. Aquaporin8 regulates cellular development and reactive oxygen species production, a critical component of virulence in Botrytis cinerea. New Phytol. 2015 Nov 3. [DOI]

Bcaqp2Δ
Bcin01g00950
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P145580.1
.Details (ncbi)
.Details (BotPortal)

BC1G_05803.1
.Details (ncbi)
.Details (BotPortal)

BcT4_6130
.Details (BotPortal)



B0510_7609
.Details (BotPortal)



BcAQP2, aquaporine

An B, Li B, Li H, Zhang Z, Qin G, Tian S. Aquaporin8 regulates cellular development and reactive oxygen species production, a critical component of virulence in Botrytis cinerea. New Phytol. 2015 Nov 3. [DOI]

Bcaqp4Δ
Bcin08g01870
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P115000.1
.Details (ncbi)
.Details (BotPortal)

BC1G_07857.1
.Details (ncbi)
.Details (BotPortal)

BcT4_2577
.Details (BotPortal)



B0510_7055
.Details (BotPortal)



BcAQP4, aquaporine

An B, Li B, Li H, Zhang Z, Qin G, Tian S. Aquaporin8 regulates cellular development and reactive oxygen species production, a critical component of virulence in Botrytis cinerea. New Phytol. 2015 Nov 3. [DOI]

Bcaqp5Δ
Bcin02g03220
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P120990.1
.Details (ncbi)
.Details (BotPortal)

BC1G_13748.1
.Details (ncbi)
.Details (BotPortal)

BcT4_4917
.Details (BotPortal)



B0510_3499
.Details (BotPortal)



BcAQP5, aquaporine

An B, Li B, Li H, Zhang Z, Qin G, Tian S. Aquaporin8 regulates cellular development and reactive oxygen species production, a critical component of virulence in Botrytis cinerea. New Phytol. 2015 Nov 3. [DOI]

Bcaqp6Δ
Bcin04g06710
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P009260.1
.Details (ncbi)
.Details (BotPortal)

BC1G_12284.1
.Details (ncbi)
.Details (BotPortal)

BcT4_2055
.Details (BotPortal)



B0510_1908
.Details (BotPortal)



BcAQP6, aquaporine

An B, Li B, Li H, Zhang Z, Qin G, Tian S. Aquaporin8 regulates cellular development and reactive oxygen species production, a critical component of virulence in Botrytis cinerea. New Phytol. 2015 Nov 3. [DOI]

Bcaqp7Δ
Bcin01g00710
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P154680.1
.Details (ncbi)
.Details (BotPortal)

BC1G_14337.1
.Details (ncbi)
.Details (BotPortal)

BcT4_6111
.Details (BotPortal)



B0510_7590
.Details (BotPortal)



BcAQP7, aquaporine

An B, Li B, Li H, Zhang Z, Qin G, Tian S. Aquaporin8 regulates cellular development and reactive oxygen species production, a critical component of virulence in Botrytis cinerea. New Phytol. 2015 Nov 3. [DOI]

Bcaqp8Δ
Bcin08g00120
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P119760.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P119750.1
.Details (ncbi)
.Details (BotPortal)

BC1G_14567.1
.Details (ncbi)
.Details (BotPortal)

BcT4_10327
.Details (BotPortal)



B0510_10323
.Details (BotPortal)



BcAQP8, aquaporine

An B, Li B, Li H, Zhang Z, Qin G, Tian S. Aquaporin8 regulates cellular development and reactive oxygen species production, a critical component of virulence in Botrytis cinerea. New Phytol. 2015 Nov 3. [DOI]

Bcaqp9Δ
Bcin09g04250
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P056420.1
.Details (ncbi)
.Details (BotPortal)

BC1G_12166.1
.Details (ncbi)
.Details (BotPortal)

BcT4_1841
.Details (BotPortal)



B0510_4983
.Details (BotPortal)



BcAQP9, aquaporine

An B, Li B, Li H, Zhang Z, Qin G, Tian S. Aquaporin8 regulates cellular development and reactive oxygen species production, a critical component of virulence in Botrytis cinerea. New Phytol. 2015 Nov 3. [DOI]

BcAra1Δ
Bcin02g07700
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P092330.1
.Details (ncbi)
.Details (BotPortal)

BC1G_10322.1
.Details (ncbi)
.Details (BotPortal)

BcT4_4511
.Details (BotPortal)



B0510_6708
.Details (BotPortal)



BcAra1, alpha-1,5-L-endo-arabinanase

Nafisi M, Stranne M, Zhang L, van Kan JA, Sakuragi Y. The Endo-Arabinanase BcAra1 Is a Novel Host-Specific Virulence Factor of the Necrotic Fungal Phytopathogen Botrytis cinerea. Mol Plant Microbe Interact. 2014 Aug;27(8):781-92. [DOI]

bcass1Δ
Bcin01g08050
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P048950.1
.Details (ncbi)
.Details (BotPortal)

BC1G_00121.1
.Details (ncbi)
.Details (BotPortal)

bcass1, argininosuccinate synthase

Patel RM, Van Kan JA, Bailey AM, Foster GD. Inadvertent gene silencing of argininosuccinate synthase (bcass1) in Botrytis cinerea by the pLOB1 vector system.Mol Plant Pathol. 2010 Sep;11(5):613-24. [DOI]

bcatf1Δ
Bcin09g00920
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P101520.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P101510.1
.Details (ncbi)
.Details (BotPortal)

BcT4_1557
.Details (BotPortal)



B0510_6765
.Details (BotPortal)



BcAtf1, transcription factor bZIP

Temme N, Oeser B, Massaroli M, Heller J, Simon A, González Collado I, Viaud M, Tudzynski P. BcAtf1, a global regulator, controls various differentiation processes and phytotoxin production in Botrytis cinerea. Mol Plant Pathol. 2012 Sep;13(7):704-18 [DOI]

BcATG1Δ
Bcin07g00720
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AJ608273
.Details (GenBank)



BofuT4_P073120.1
.Details (ncbi)
.Details (BotPortal)

BC1G_05432.1
.Details (ncbi)
.Details (BotPortal)

BcT4_3677
.Details (BotPortal)



B0510_7184
.Details (BotPortal)



BcATG1, BK3, autophagy-related gene, CLK-like serine/threonine protein kinase

Botryotinia fuckeliana bpk3 gene for putative serine/threonine

Ren W, Zhang Z, Shao W, Yang Y, Zhou M, Chen C. The autophagy-related gene BcATG1 is involved in fungal development and pathogenesis in Botrytis cinerea. Mol Plant Pathol. 2016 Mar 11. [DOI]

BcAtg3Δ
Bcin08g04530
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P076720.1
.Details (ncbi)
.Details (BotPortal)

BC1G_08793.1
.Details (ncbi)
.Details (BotPortal)

BcT4_3382
.Details (BotPortal)



B0510_8140
.Details (BotPortal)



BcAtg3, Ubiquitin-like protein-activating enzyme, in autophagy process

Ren W, Sang C, Shi D, Song X, Zhou M, Chen C. Ubiquitin-like activating enzymes BcAtg3 and BcAtg7 participate in development and pathogenesis of Botrytis cinerea. Curr Genet. 2018 Feb 7. [DOI]

BcAtg4Δ
Bcin02g06770
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P154070.1
.Details (ncbi)
.Details (BotPortal)

BC1G_11320.1
.Details (ncbi)
.Details (BotPortal)

BcT4_4595
.Details (BotPortal)



B0510_3181
.Details (BotPortal)



BcAtg4, Autophagy-related gene, cysteine protease

Liu N, Ren W, Li F, Chen C, Ma Z. Involvement of the cysteine protease BcAtg4 in development and virulence of Botrytis cinerea. Curr Genet. 2019 Feb;65(1):293-300 [DOI]

BcAtg7Δ
Bcin09g04730
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P013520.1
.Details (ncbi)
.Details (BotPortal)

BC1G_09812.1
.Details (ncbi)
.Details (BotPortal)

BC1G_09811.1
.Details (ncbi)
.Details (BotPortal)

BcT4_1890
.Details (BotPortal)



B0510_5028
.Details (BotPortal)



BcAtg7, Ubiquitin-like protein-activating enzyme, in autophagy process

Ren W, Sang C, Shi D, Song X, Zhou M, Chen C. Ubiquitin-like activating enzymes BcAtg3 and BcAtg7 participate in development and pathogenesis of Botrytis cinerea. Curr Genet. 2018 Feb 7. [DOI]

BcATG8Δ
Bcin02g02570
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P110100.1
.Details (ncbi)
.Details (BotPortal)

BC1G_02467.1
.Details (ncbi)
.Details (BotPortal)

BcT4_7629
.Details (BotPortal)



B0510_8000
.Details (BotPortal)



BcATG8, Autophagy gene

Ren W, Liu N, Sang C, Shi D, Zhou M, Chen C, Qin Q, Chen W. The Autophagy Gene BcATG8 Regulates the Vegetative Differentiation and Pathogenicity of Botrytis cinerea. Appl Environ Microbiol. 2018 May 17;84(11) [DOI]

bcatrAΔ
Bcin11g04460
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P079650.1
.Details (ncbi)
.Details (BotPortal)

BC1G_03332.1
.Details (ncbi)
.Details (BotPortal)

BcT4_4240
.Details (BotPortal)



B0510_6188
.Details (BotPortal)



BcatrA, ABC transporter

Del Sorbo G, Ruocco M, Schoonbeek HJ, Scala F, Pane C, Vinale F, De Waard MA. Cloning and functional characterization of BcatrA, a gene encoding an ABC transporter of the plant pathogenic fungus Botryotinia fuckeliana (Botrytis cinerea). Mycol Res. 2008 Jun;112(Pt 6):737-46. [DOI]

bcatrBΔ
Bcin13g00710
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AJ006217
.Details (GenBank)



BofuT4_P127030.1
.Details (ncbi)
.Details (BotPortal)

BC1G_04420.1
.Details (ncbi)
.Details (BotPortal)

BcT4_6827
.Details (BotPortal)



B0510_6083
.Details (BotPortal)



BcatrB, ABC transporter

Schoonbeek H, Del Sorbo G, De Waard MA. The ABC transporter BcatrB affects the sensitivity of Botrytis cinerea to the phytoalexin resveratrol and the fungicide fenpiclonil. Mol Plant Microbe Interact. 2001 Apr;14(4):562-71. [DOI]

bcatrB/bcmfs1Δ
Bcin13g00710
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


Bcin01g09910
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AJ006217
.Details (GenBank)



AF238225
.Details (GenBank)



BofuT4_P127030.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P015190.1
.Details (ncbi)
.Details (BotPortal)

BC1G_04420.1
.Details (ncbi)
.Details (BotPortal)

BC1G_16101.1
.Details (ncbi)
.Details (BotPortal)

BcT4_6827
.Details (BotPortal)



BcT4_8791
.Details (BotPortal)



B0510_6083
.Details (BotPortal)



B0510_743
.Details (BotPortal)



BcatrB, ABC transporter

Bcmfs1, multidrug efflux transporter

Hayashi K, Schoonbeek HJ, De Waard MA. Bcmfs1, a novel major facilitator superfamily transporter from Botrytis cinerea, provides tolerance towards the natural toxic compounds camptothecin and cercosporin and towards fungicides. Appl Environ Microbiol. 2002 Oct;68(10):4996-5004. [DOI]

bcatrDΔ
Bcin13g02720
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AJ272521
.Details (GenBank)



BofuT4_P124220.1
.Details (ncbi)
.Details (BotPortal)

BC1G_05954.1
.Details (ncbi)
.Details (BotPortal)

BcT4_6651
.Details (BotPortal)



B0510_5904
.Details (BotPortal)



BcatrD, ABC-transporter

Keisuke Hayashi, Henk-jan Schoonbeek, Maarten A. De Waard. Expression of the ABC transporter BcatrD from Botrytis cinerea reduces sensitivity to sterol demethylation inhibitor fungicides. Pesticide Biochemistry and Physiology 73 (2002) 110-120 [DOI]

bcatrD/bcmfs1Δ
Bcin13g02720
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


Bcin01g09910
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AJ272521
.Details (GenBank)



AF238225
.Details (GenBank)



BofuT4_P124220.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P015190.1
.Details (ncbi)
.Details (BotPortal)

BC1G_05954.1
.Details (ncbi)
.Details (BotPortal)

BC1G_16101.1
.Details (ncbi)
.Details (BotPortal)

BcT4_6651
.Details (BotPortal)



BcT4_8791
.Details (BotPortal)



B0510_5904
.Details (BotPortal)



B0510_743
.Details (BotPortal)



BcatrD, ABC-transporter

Bcmfs1, multidrug efflux transporter

Hayashi K, Schoonbeek HJ, De Waard MA. Bcmfs1, a novel major facilitator superfamily transporter from Botrytis cinerea, provides tolerance towards the natural toxic compounds camptothecin and cercosporin and towards fungicides. Appl Environ Microbiol. 2002 Oct;68(10):4996-5004. [DOI]

BcatrOΔ
Bcin01g01450
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AJ272521
.Details (GenBank)



AF259075
.Details (GenBank)



BofuT4_P146350.1
.Details (ncbi)
.Details (BotPortal)

BC1G_05881.1
.Details (ncbi)
.Details (BotPortal)

BcT4_6177
.Details (BotPortal)



B0510_7654
.Details (BotPortal)



BcatrO, ABC transporter

Pane, C., Rekab, D., Firrao, G., Ruocco, M., & Scala, F. (2008). A NOVEL GENE CODING FOR AN ABC TRANSPORTER IN BOTRYTIS CINEREA (BOTRYOTINIA FUCKELIANA) IS INVOLVED IN RESISTANCE TO H?O?. Journal of Plant Pathology, 90(3), 453-462. [DOI]

BcBAG1Δ
Bcin10g01250
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P130390.1
.Details (ncbi)
.Details (BotPortal)

BC1G_05107.1
.Details (ncbi)
.Details (BotPortal)

BcT4_2725
.Details (BotPortal)



B0510_5785
.Details (BotPortal)



BcBAG1, Bcl-2 associated athanogene

Zhang H1, Li Y, Dickman MB, Wang Z. Cytoprotective Co-chaperone BcBAG1 Is a Component for Fungal Development, Virulence, and Unfolded Protein Response (UPR) of Botrytis cinerea. Front Microbiol. 2019 Apr 9 [DOI]

BcBCK1Δ
Bcin02g06590
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P153830.1
.Details (ncbi)
.Details (BotPortal)

BC1G_11345.1
.Details (ncbi)
.Details (BotPortal)

BcT4_4613
.Details (BotPortal)



B0510_3198
.Details (BotPortal)



BcBCK1, Serine/threonine MAP kinase kinase kinaser involved in CW1 pathway

Yin Y, Wu S, Chui C, Ma T, Jiang H, Hahn M, Ma Z.The MAPK kinase BcMkk1 suppresses oxalic acid biosynthesis via impeding phosphorylation of BcRim15 by BcSch9 in Botrytis cinerea. PLoS Pathog. 2018 Sep 13;14(9):e1007285 [DOI]

bcbem1Δ
Bcin12g02530
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P081930.1
.Details (ncbi)
.Details (BotPortal)

BC1G_03145.1
.Details (ncbi)
.Details (BotPortal)

BcT4_9288
.Details (BotPortal)



B0510_2961
.Details (BotPortal)



BcBem1, scaffold protein

Giesbert S, Siegmund U, Schumacher J, Kokkelink L, Tudzynski P. Functional Analysis of BcBem1 and Its Interaction Partners in Botrytis cinerea: Impact on Differentiation and Virulence. PLoS One. 2014 May 5;9(5):e95172. [DOI]

bcbir1Δ
Bcin15g04140
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BC1G_14521.1
.Details (ncbi)
.Details (BotPortal)

BcT4_5781
.Details (BotPortal)



B0510_2713
.Details (BotPortal)



BcBIR1, chromosome segregation regulator, anti-apoptotic gene

Shlezinger N, Minz A, Gur Y, Hatam I, Dagdas YF, Talbot NJ, Sharon A. Anti-apoptotic machinery protects the necrotrophic fungus Botrytis cinerea from host-induced apoptotic-like cell death during plant infection. PLoS Pathog. 2011 Aug;7(8):e1002185 [DOI]

BcBoA13Δ
Bcin01g00130
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


FR718881
.Details (GenBank)



BC1G_15843.1
.Details (ncbi)
.Details (BotPortal)

BcT4_10405
.Details (BotPortal)



B0510_10398
.Details (BotPortal)



BcBoA13, putative botcinic acid (BoA) biosynthetic gene, fungal Zn(2)-Cys(6) binuclear cluster domain

Porquier A, Moraga J, Morgant G, Dalmais B, Simon A, Sghyer H, Collado IG, Viaud M. Botcinic acid biosynthesis in Botrytis cinerea relies on a subtelomeric gene cluster surrounded by relics of transposons and is regulated by the Zn2Cys6 transcription factor BcBoa13. Curr Genet. 2019 Mar 8 [DOI]

bcboa6Δ
Bcin01g00060
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AY495611
.Details (GenBank)



AM930232
.Details (GenBank)



BC1G_16087.1
.Details (ncbi)
.Details (BotPortal)

BC1G_16086.1
.Details (ncbi)
.Details (BotPortal)

BcT4_10399
.Details (BotPortal)



BcBoA6, BcPKS6, polyketide synthase, in botcinid acid biosynthesis gene cluster

Dalmais B, Schumacher J, Moraga J, Le Pecheur P, Tudzynski B, Collado IG, Viaud M. The Botrytis cinerea phytotoxin botcinic acid requires two polyketide synthases for production and has a redundant role in virulence with botrydial. Molecular Plant Pathology. 2011 Aug;12(6):564-79. [DOI]

bcboa9Δ
Bcin01g00090
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


FR718878
.Details (GenBank)



AY495614
.Details (GenBank)



BC1G_15839.1
.Details (ncbi)
.Details (BotPortal)

BC1G_15838.1
.Details (ncbi)
.Details (BotPortal)

BC1G_15837.1
.Details (ncbi)
.Details (BotPortal)

BcT4_10402
.Details (BotPortal)



B0510_10396
.Details (BotPortal)



BcBoA9, BcPKS9, polyketide synthase, in botcinid acid biosynthesis gene cluster

Dalmais B, Schumacher J, Moraga J, Le Pecheur P, Tudzynski B, Collado IG, Viaud M. The Botrytis cinerea phytotoxin botcinic acid requires two polyketide synthases for production and has a redundant role in virulence with botrydial. Molecular Plant Pathology. 2011 Aug;12(6):564-79. [DOI]

bcbot1Δ
Bcin12g06380
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AY277723
.Details (GenBank)



BC1G_16062.1
.Details (ncbi)
.Details (BotPortal)

BcT4_10457
.Details (BotPortal)



BcBot1, CND5, benzoate 4-monooxygenase cytochrome p450, in botrydial biosynthesis gene cluster

Siewers V, Viaud M, Jimenez-Teja D, Collado IG, Gronover CS, Pradier JM, Tudzynski B, Tudzynski P. Functional analysis of the cytochrome P450 monooxygenase gene bcbot1 of Botrytis cinerea indicates that botrydial is a strain-specific virulence factor. Mol Plant Microbe Interact. 2005 Jun;18(6):602-12. [DOI]

bcbot2Δ
Bcin12g06390
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AY277723
.Details (GenBank)



BC1G_16381.1
.Details (ncbi)
.Details (BotPortal)

BcBot2, CND15, BcPIO15, STC1, similar to sesquiterpen cyclase, in botrydial biosynthesis gene cluster

Pinedo C, Wang CM, Pradier JM, Dalmais B, Choquer M, Le Pecheur P, Morgant G, Collado IG, Cane DE, Viaud M. Sesquiterpene synthase from the botrydial biosynthetic gene cluster of the phytopathogen Botrytis cinerea. ACS Chem Biol 3:791-801. [DOI]

bcbot2/bcboa6Δ
Bcin01g00060
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


Bcin12g06390
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AY495611
.Details (GenBank)



AM930232
.Details (GenBank)



AY277723
.Details (GenBank)



BC1G_16087.1
.Details (ncbi)
.Details (BotPortal)

BC1G_16086.1
.Details (ncbi)
.Details (BotPortal)

BC1G_16381.1
.Details (ncbi)
.Details (BotPortal)

BcT4_10399
.Details (BotPortal)



BcBoA6, BcPKS6, polyketide synthase, in botcinid acid biosynthesis gene cluster

BcBot2, CND15, BcPIO15, STC1, similar to sesquiterpen cyclase, in botrydial biosynthesis gene cluster

Dalmais B, Schumacher J, Moraga J, Le Pecheur P, Tudzynski B, Collado IG, Viaud M. The Botrytis cinerea phytotoxin botcinic acid requires two polyketide synthases for production and has a redundant role in virulence with botrydial. Molecular Plant Pathology. 2011 Aug;12(6):564-79. [DOI]

bcbot3Δ
Bcin12g06400
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AAQ16574
.Details (GenBank)



BC1G_16147.1
.Details (ncbi)
.Details (BotPortal)

BcBot3,CND11,BcPIO14, cytochrome P450 monooxygenase, in botrydial biosynthesis gene cluster, CalciNeurine-Dependant (CND) gene (Viaud et al., 2003), gene with a peak of expression during the Outset of colonization (Gioti et al., 2006)

Moraga J, Dalmais B, Izquierdo-Bueno I, Aleu J, Hanson JR, Hernandez-Galan R, Viaud M, Collado IG. (2016). Genetic and molecular basis of botrydial biosynthesis. Connecting cytochrome P450-encoding genes to biosynthetic intermediates. ACS Chem Biol. 2016 Aug 16. [DOI]

bcbot4Δ
Bcin12g06370
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


ACD65513
.Details (GenBank)



BC1G_16061.1
.Details (ncbi)
.Details (BotPortal)

BcT4_10456
.Details (BotPortal)



BcBot4, cytochrome P450 monooxygenase, in botrydial biosynthesis gene cluster

Moraga J, Dalmais B, Izquierdo-Bueno I, Aleu J, Hanson JR, Hernandez-Galan R, Viaud M, Collado IG. (2016). Genetic and molecular basis of botrydial biosynthesis. Connecting cytochrome P450-encoding genes to biosynthetic intermediates. ACS Chem Biol. 2016 Aug 16. [DOI]

BcBot6Δ
Bcin12g06420
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_uP065710.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P065700.1
.Details (ncbi)
.Details (BotPortal)

BC1G_13836.1
.Details (ncbi)
.Details (BotPortal)

BcT4_10324
.Details (BotPortal)



B0510_10204
.Details (BotPortal)



BcBot6, transcription_factor_Cys6

Porquier A, Morgant G, Moraga J, Dalmais B, Luyten I, Simon A, Pradier JM, Amselem J, Collado IG, Viaud M. (2016). The botrydial biosynthetic gene cluster of Botrytis cinerea displays a bipartite genomic structure and is positively regulated by the putative Zn(II)2Cys6 transcription factor BcBot6. Fungal Genet Biol. 2016 Oct 6. pii: S1087-1845(16)30111-6. [DOI]

Bcbrn1/2Δ
Bcin04g04800
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


Bcin03g08100
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P094390.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P077290.1
.Details (ncbi)
.Details (BotPortal)

BC1G_04230.1
.Details (ncbi)
.Details (BotPortal)






BcT4_117
.Details (BotPortal)








B0510_7821
.Details (BotPortal)



BcBRN1, tetrahydroxynaphtalene (THN) reductase, involved in DHN melanin biosynthesis

BcBRN2, tetrahydroxynaphtalene (THN) reductase, involved in DHN melanin biosynthesis

Schumacher J. DHN melanin biosynthesis in the plant pathogenic fungus Botrytis?cinerea is based on two developmentally regulated key enzyme (PKS)-encoding genes. Mol Microbiol. 2015 Oct 30. [DOI]

Bcbrn1Δ
Bcin04g04800
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P094390.1
.Details (ncbi)
.Details (BotPortal)

BC1G_04230.1
.Details (ncbi)
.Details (BotPortal)

BcBRN1, tetrahydroxynaphtalene (THN) reductase, involved in DHN melanin biosynthesis

Zhang C, He Y, Zhu P, Chen L, Wang Y, Ni B, Xu L. Loss of bcbrn1 and bcpks13 in Botrytis cinerea Not Only Blocks Melanization But Also Increases Vegetative Growth and Virulence. Mol Plant Microbe Interact. 2015 Oct;28(10):1091-101. [DOI]

Bcbrn1Δ
Bcin04g04800
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P094390.1
.Details (ncbi)
.Details (BotPortal)

BC1G_04230.1
.Details (ncbi)
.Details (BotPortal)

BcBRN1, tetrahydroxynaphtalene (THN) reductase, involved in DHN melanin biosynthesis

Schumacher J. DHN melanin biosynthesis in the plant pathogenic fungus Botrytis?cinerea is based on two developmentally regulated key enzyme (PKS)-encoding genes. Mol Microbiol. 2015 Oct 30. [DOI]

Bcbrn2Δ
Bcin03g08100
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P077290.1
.Details (ncbi)
.Details (BotPortal)

BcT4_117
.Details (BotPortal)



B0510_7821
.Details (BotPortal)



BcBRN2, tetrahydroxynaphtalene (THN) reductase, involved in DHN melanin biosynthesis

Schumacher J. DHN melanin biosynthesis in the plant pathogenic fungus Botrytis?cinerea is based on two developmentally regulated key enzyme (PKS)-encoding genes. Mol Microbiol. 2015 Oct 30. [DOI]

bccat2Δ
Bcin11g06450
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AF243853
.Details (GenBank)



BofuT4_P089740.1
.Details (ncbi)
.Details (BotPortal)

BC1G_12856.1
.Details (ncbi)
.Details (BotPortal)

BcT4_4066
.Details (BotPortal)



B0510_6364
.Details (BotPortal)



BcCAT2, extracellular catalase

Schouten A, Tenberge KB, Vermeer J, Stewart J, Wagemakers L, Williamson B, van Kan JA. Functional analysis of an extracellular catalase of Botrytis cinerea. Mol Plant Pathol. 2002 Jul 1;3(4):227-38. [DOI]

bcccc2Δ
Bcin05g00240
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P147550.1
.Details (ncbi)
.Details (BotPortal)

BC1G_10836.1
.Details (ncbi)
.Details (BotPortal)

BcT4_4482
.Details (BotPortal)



B0510_1293
.Details (BotPortal)



BcCcc2, copper-transporting ATPase

Saitoh Y, Izumitsu K, Morita A, Tanaka C. A copper-transporting ATPase BcCCC2 is necessary for pathogenicity of Botrytis cinerea. Mol Genet Genomics. 2010 Jul;284(1):33-43. [DOI]

bccdc24Δ
Bcin05g00760
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P148340.1
.Details (ncbi)
.Details (BotPortal)

BC1G_09394.1
.Details (ncbi)
.Details (BotPortal)

BcCDC24, GEF (guanine nucleotide exchange factor)

Giesbert S, Siegmund U, Schumacher J, Kokkelink L, Tudzynski P. Functional Analysis of BcBem1 and Its Interaction Partners in Botrytis cinerea: Impact on Differentiation and Virulence. PLoS One. 2014 May 5;9(5):e95172. [DOI]

bccdc42Δ
Bcin13g00090
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BC1G_15519.1
.Details (ncbi)
.Details (BotPortal)

BcT4_10446
.Details (BotPortal)



B0510_10382
.Details (BotPortal)



BcCdc42, cell division control protein 42

Kokkelink L, Minz A, Al-Masri M, Giesbert S, Barakat R, Sharon A, Tudzynski P. The small GTPase BcCdc42 affects nuclear division, germination and virulence of the gray mold fungus Botrytis cinerea. Fungal Genet Biol. 2011 Nov;48(11):1012-9. [DOI]

BcCFEM1Δ
Bcin10g02180
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P129080.1
.Details (ncbi)
.Details (BotPortal)

BC1G_15201.1
.Details (ncbi)
.Details (BotPortal)

BcT4_2809
.Details (BotPortal)



B0510_8802
.Details (BotPortal)



BcCFEM1, CFEM (Common in several Fungal Extracellular Membrane protein) domain-containing protein with putative GPI-anchored site

Zhu W, Wei W, Wu Y, Zhou Y, Peng F, Zhang S, Chen P, Xu X. BcCFEM1, a CFEM Domain-Containing Protein with Putative GPI-Anchored Site, Is Involved in Pathogenicity, Conidial Production, and Stress Tolerance in Botrytis cinerea. Front Microbiol. 2017 Sep 20;8:1807. [DOI]

BcCFEMΔ
Bcin07g03260
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P119450.1
.Details (ncbi)
.Details (BotPortal)

BC1G_02660.1
.Details (ncbi)
.Details (BotPortal)

BcT4_3915
.Details (BotPortal)



B0510_3951
.Details (BotPortal)



BcCFEM, non-GPCR membrane-bound CFEM protein

Arya GC, Srivastava DA, Pandaranayaka EPJ, et al. Characterization of the Role of a Non-GPCR Membrane-Bound CFEM Protein in the Pathogenicity and Germination of Botrytis cinerea. Microorganisms. 2020;8(7):E1043. Published 2020 Jul 14. [DOI]

Bccgf1Δ
Bcin16g01820
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P034210.1
.Details (ncbi)
.Details (BotPortal)

BC1G_08228.1
.Details (ncbi)
.Details (BotPortal)

BcT4_7300
.Details (BotPortal)



B0510_6875
.Details (BotPortal)



Bccgf1, Conidial germination protein

Zhang MZ, Sun CH, Liu Y, et al. Transcriptome analysis and functional validation reveal a novel gene, BcCGF1, that enhances fungal virulence by promoting infection-related development and host penetration. Mol Plant Pathol. 2020;21(6):834-853. [DOI]

bcchs1Δ
Bcin09g01210
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


X77937
.Details (GenBank)



AY515145
.Details (GenBank)



BcCHSI, class I chitin synthase

Soulié MC, Piffeteau A, Choquer M, Boccara M, Vidal-Cros A. Disruption of Botrytis cinerea class I chitin synthase gene Bcchs1 results in cell wall weakening and reduced virulence. Fungal Genet Biol. 2003 Oct;40(1):38-46. [DOI]

bcchs3aΔ
Bcin04g03120
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AF494188
.Details (GenBank)



BofuT4_P143620.1
.Details (ncbi)
.Details (BotPortal)

BC1G_04441.1
.Details (ncbi)
.Details (BotPortal)

BcT4_2387
.Details (BotPortal)



B0510_2231
.Details (BotPortal)



BcCHSIIIa, class III chitin synthase

Soulié MC, Perino C, Piffeteau A, Choquer M, Malfatti P, Cimerman A, Kunz C, Boccara M, Vidal-Cros A. Botrytis cinerea virulence is drastically reduced after disruption of chitin synthase class III gene (Bcchs3a). Cell Microbiol. 2006 Aug;8(8):1310-21. [DOI]

bcchs4Δ
Bcin01g03790
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AF215732
.Details (GenBank)



BofuT4_P162590.1
.Details (ncbi)
.Details (BotPortal)

BC1G_15275.1
.Details (ncbi)
.Details (BotPortal)

BcT4_10249
.Details (BotPortal)



B0510_7550
.Details (BotPortal)



BcCHSIV, class IV chitin synthase

Morcx S, Kunz C, Choquer M, Assie S, Blondet E, Simond-Côte E, Gajek K, Chapeland-Leclerc F, Expert D, Soulie MC. Disruption of Bcchs4, Bcchs6 or Bcchs7 chitin synthase genes in Botrytis cinerea and the essential role of class VI chitin synthase (Bcchs6). Fungal Genet Biol. 2012 Dec 22. pii: S1087-1845(12)00223-X. [DOI]

bcchs5Δ
Bcin12g05370
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AF515142
.Details (GenBank)



BC1G_15938.1
.Details (ncbi)
.Details (BotPortal)

BcT4_7114
.Details (BotPortal)



B0510_9124
.Details (BotPortal)



BcCHSV, class V chitin synthase

Cui Z, Ding Z, Yang X, Wang K, Zhu T. Gene disruption and characterization of a class V chitin synthase in Botrytis cinerea. Can J Microbiol. 2009 Nov;55(11):1267-74. [DOI]

bcchs6Δ
Bcin12g05360
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AY515144
.Details (GenBank)



BC1G_15936.1
.Details (ncbi)
.Details (BotPortal)

BcT4_7113
.Details (BotPortal)



B0510_9125
.Details (BotPortal)



BcCHSVI, class VI chitin synthase

Morcx S, Kunz C, Choquer M, Assie S, Blondet E, Simond-Côte E, Gajek K, Chapeland-Leclerc F, Expert D, Soulie MC. Disruption of Bcchs4, Bcchs6 or Bcchs7 chitin synthase genes in Botrytis cinerea and the essential role of class VI chitin synthase (Bcchs6). Fungal Genet Biol. 2012 Dec 22. pii: S1087-1845(12)00223-X. [DOI]

Cui Z, Wang Y, Lei N, Wang K, Zhu T. Botrytis cinerea chitin synthase BcChsVI is required for normal growth and pathogenicity. Curr Genet. 2013 May 31. [DOI]

bcchs7Δ
Bcin07g01300
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AY515143
.Details (GenBank)



BofuT4_P116630.1
.Details (ncbi)
.Details (BotPortal)

BC1G_09768.1
.Details (ncbi)
.Details (BotPortal)

BcT4_3727
.Details (BotPortal)



B0510_7131
.Details (BotPortal)



BcCHSVII, class VII chitin synthase

Morcx S, Kunz C, Choquer M, Assie S, Blondet E, Simond-Côte E, Gajek K, Chapeland-Leclerc F, Expert D, Soulie MC. Disruption of Bcchs4, Bcchs6 or Bcchs7 chitin synthase genes in Botrytis cinerea and the essential role of class VI chitin synthase (Bcchs6). Fungal Genet Biol. 2012 Dec 22. pii: S1087-1845(12)00223-X. [DOI]

BcCla4Δ
Bcin03g02930
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P051820.1
.Details (ncbi)
.Details (BotPortal)

BC1G_06518.1
.Details (ncbi)
.Details (BotPortal)

BC1G_06517.1
.Details (ncbi)
.Details (BotPortal)

BcT4_588
.Details (BotPortal)



B0510_428
.Details (BotPortal)



BcCla4, Mitogen-activated protein kinase (MAPK) : p21-activated kinase (PAK)

Minz-Dub A, Sharon A. The Botrytis cinerea PAK kinase BcCla4 mediates morphogenesis, growth and cell cycle regulating processes downstream of BcRac. Mol Microbiol. 2017 Feb 6. [DOI]

BcCnAΔ
Bcin02g01540
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


ABN58724
.Details (GenBank)



BofuT4_P108670.1
.Details (ncbi)
.Details (BotPortal)

BC1G_02606.1
.Details (ncbi)
.Details (BotPortal)

BcT4_7721
.Details (BotPortal)



B0510_8091
.Details (BotPortal)



BcCnA, catalytic subunit of calcineurin

Harren K, Schumacher J, Tudzynski B. The Ca(2+)/Calcineurin-Dependent Signaling Pathway in the Gray Mold Botrytis cinerea: The Role of Calcipressin in Modulating Calcineurin Activity. PLoS One. 2012;7(7):e41761. [DOI]

BcCPA1, Bccap1Δ
Bcin13g05610
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P062690.1
.Details (ncbi)
.Details (BotPortal)

BC1G_06387.1
.Details (ncbi)
.Details (BotPortal)

BcCPA1, Bccap1, F-actin capping protein

González-Rodríguez VE, Garrido C, Cantoral JM, Schumacher J. The F-actin capping protein is required for hyphal growth and full virulence but is dispensable for septum formation in Botrytis cinerea. Fungal Biol. 2016 Oct;120(10):1225-35. [DOI]

BcCPB1, Bccap2Δ
Bcin07g04620
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P138010.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P138000.1
.Details (ncbi)
.Details (BotPortal)

BC1G_07244.1
.Details (ncbi)
.Details (BotPortal)

BcT4_4028
.Details (BotPortal)



B0510_4066
.Details (BotPortal)



BcCPB1, Bccap2, F-actin capping protein

González-Rodríguez VE, Garrido C, Cantoral JM, Schumacher J. The F-actin capping protein is required for hyphal growth and full virulence but is dispensable for septum formation in Botrytis cinerea. Fungal Biol. 2016 Oct;120(10):1225-35. [DOI]

bccpr1Δ
Bcin12g03180
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AJ609393
.Details (GenBank)



BofuT4_P082770.1
.Details (ncbi)
.Details (BotPortal)

BC1G_03226.1
.Details (ncbi)
.Details (BotPortal)

BcT4_6928
.Details (BotPortal)



B0510_2904
.Details (BotPortal)



Bccpr1, NADPH cytochrome P450 oxidoreductase

Siewers V, Smedsgaard J, Tudzynski P. The P450 monooxygenase BcABA1 is essential for abscisic acid biosynthesis in Botrytis cinerea. Appl Environ Microbiol. 2004 Jul;70(7):3868-76. [DOI]

Bccrh1Δ
Bcin01g06010
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P045990.1
.Details (ncbi)
.Details (BotPortal)

BC1G_00409.1
.Details (ncbi)
.Details (BotPortal)

BcT4_5144
.Details (BotPortal)



B0510_1084
.Details (BotPortal)



Bccrh1, Chitin transglycosylase

Bi K, Scalschi L, Jaiswal N, Mengiste T, Fried R, Sanz AB, Arroyo J, Zhu W, Masrati G, Sharon A. The Botrytis cinerea Crh1 transglycosylase is a cytoplasmic effector triggering plant cell death and defense response. Nat Commun. 2021 Apr 12;12(1):2166. [DOI]

BcCRY1Δ
Bcin05g08060
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P103490.1
.Details (ncbi)
.Details (BotPortal)

BC1G_13162.1
.Details (ncbi)
.Details (BotPortal)

BcT4_8993
.Details (BotPortal)



B0510_9004
.Details (BotPortal)



BcCRY1, cyclobutane pyrimidine dimer (CPD) photolyase, major enzyme of light-driven DNA repair

Cohrs KC, Schumacher J. The Two Cryptochrome/Photolyase Family Proteins Fulfill Distinct Roles in DNA Photorepair and Regulation of Conidiation in the Gray Mold Fungus Botrytis cinerea. Appl Environ Microbiol. 2017 Aug 17;83(17). [DOI]

BcCRY2Δ
Bcin09g01620
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P159590.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P159580.1
.Details (ncbi)
.Details (BotPortal)

BC1G_08145.1
.Details (ncbi)
.Details (BotPortal)

BcT4_1617
.Details (BotPortal)



B0510_6824
.Details (BotPortal)



BcCRY2, cryptochrome with a signaling function in regulating photomorphogenesis

Cohrs KC, Schumacher J. The Two Cryptochrome/Photolyase Family Proteins Fulfill Distinct Roles in DNA Photorepair and Regulation of Conidiation in the Gray Mold Fungus Botrytis cinerea. Appl Environ Microbiol. 2017 Aug 17;83(17). [DOI]

bccrz1Δ
Bcin01g08230
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P049220.1
.Details (ncbi)
.Details (BotPortal)

BC1G_00093.1
.Details (ncbi)
.Details (BotPortal)

BcT4_5340
.Details (BotPortal)



B0510_890
.Details (BotPortal)



BcCRZ1, transcription factor Zn, C2H2

Schumacher J, de Larrinoa IF, Tudzynski B. Calcineurin-responsive zinc finger transcription factor CRZ1 of Botrytis cinerea is required for growth, development, and full virulence on bean plants. Eukaryot Cell. 2008 Apr;7(4):584-601. [DOI]

BcCyp2Δ
Bcin05g03080
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P042140.1
.Details (ncbi)
.Details (BotPortal)

BC1G_01528.1
.Details (ncbi)
.Details (BotPortal)

BcT4_7971
.Details (BotPortal)



B0510_1546
.Details (BotPortal)



BcCyp2, Cyclophilin 2

Sun J, Sun CH, Chang HW, Yang S, Liu Y, Zhang MZ, Hou J, Zhang H, Li GH, Qin QM. Cyclophilin BcCyp2 Regulates Infection-Related Development to Facilitate Virulence of the Gray Mold Fungus Botrytis cinerea. Int J Mol Sci. 2021 Feb 8;22(4):1694. [DOI]

BcDamtΔ
Bcin02g05970
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BC1G_16157.1
.Details (ncbi)
.Details (BotPortal)

BcDamt, N6-adenine methyltransferase

Miao Z, Wang G, Shen H, Wang X, Gabriel DW, Liang W. BcMettl4-Mediated DNA Adenine N6-Methylation Is Critical for Virulence of Botrytis cinerea. Front Microbiol. 2022 Jun 30;13:925868. [DOI]

BcDGAT2Δ
Bcin01g02790
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P161260.1
.Details (ncbi)
.Details (BotPortal)

BC1G_11851.1
.Details (ncbi)
.Details (BotPortal)

BcT4_6298
.Details (BotPortal)



B0510_7464
.Details (BotPortal)



BcDGAT2, Diacylglycerol O-acyl transferase 2

Sharma E, Tayal P, Anand G, Mathur P, Kapoor R. Functional analysis of diacylglycerol O-acyl transferase 2 gene to decipher its role in virulence of Botrytis cinerea. Curr Genet. 2017 Sep 22. [DOI]

bcdhΔ
Bcin03g03060
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


JF740058
.Details (GenBank)



BofuT4_P051650.1
.Details (ncbi)
.Details (BotPortal)

BC1G_06494.1
.Details (ncbi)
.Details (BotPortal)

BcT4_577
.Details (BotPortal)



B0510_417
.Details (BotPortal)



bcdh, UDP-glucose-4,6-dehydratase

Ma L, Salas O, Bowler K, Oren-Young L, Bar-Peled M, Sharon A. Genetic alteration of UDP-rhamnose metabolism in Botrytis cinerea leads to accumulation of UDP-KDG that adversely affects development and pathogenicity. Mol Plant Pathol. 2016 Mar 17. [DOI]

bcdh/bcerΔ
Bcin03g03060
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


Bcin06g02380
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


JF740058
.Details (GenBank)



JF740059
.Details (GenBank)



BofuT4_P051650.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P028970.1
.Details (ncbi)
.Details (BotPortal)

BC1G_06494.1
.Details (ncbi)
.Details (BotPortal)

BC1G_01271.1
.Details (ncbi)
.Details (BotPortal)

BcT4_577
.Details (BotPortal)



BcT4_1263
.Details (BotPortal)



B0510_417
.Details (BotPortal)



B0510_5627
.Details (BotPortal)



bcdh, UDP-glucose-4,6-dehydratase

bcer, UDP-4-keto-6-deoxyglucose-3,5-epimerase/-4-reductase

Ma L, Salas O, Bowler K, Oren-Young L, Bar-Peled M, Sharon A. Genetic alteration of UDP-rhamnose metabolism in Botrytis cinerea leads to accumulation of UDP-KDG that adversely affects development and pathogenicity. Mol Plant Pathol. 2016 Mar 17. [DOI]

BcDIM2Δ
Bcin15g00450
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P024380.1
.Details (ncbi)
.Details (BotPortal)

BC1G_12419.1
.Details (ncbi)
.Details (BotPortal)

BcT4_5458
.Details (BotPortal)



B0510_2388
.Details (BotPortal)



BcDIM2, Deficient in Methylation

Zhang Z, He C, Chen Y, Li B, Tian S. DNA Methyltransferases Regulate Pathogenicity of Botrytis cinerea to Horticultural Crops. J Fungi (Basel). 2021 Aug 14;7(8):659. [DOI]

BcDIM2Δ
Bcin15g00450
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P024380.1
.Details (ncbi)
.Details (BotPortal)

BC1G_12419.1
.Details (ncbi)
.Details (BotPortal)

BcT4_5458
.Details (BotPortal)



B0510_2388
.Details (BotPortal)



BcDIM2, Deficient in Methylation

Zhang X, Liu X, Zhao Y, Cheng J, Xie J, Fu Y, Jiang D, Chen T. Histone H3 Lysine 9 Methyltransferase DIM5 Is Required for the Development and Virulence of Botrytis cinerea. Front Microbiol. 2016 Aug 22;7:1289. [DOI]

Bcdim2/Bcrid1Δ
Bcin15g00450
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


Bcin03g04600
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P024380.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P019990.1
.Details (ncbi)
.Details (BotPortal)

BC1G_12419.1
.Details (ncbi)
.Details (BotPortal)

BC1G_00725.1
.Details (ncbi)
.Details (BotPortal)

BcT4_5458
.Details (BotPortal)



BcT4_430
.Details (BotPortal)



B0510_2388
.Details (BotPortal)



B0510_272
.Details (BotPortal)



BcDIM2, Deficient in Methylation

Bcrid1, DNA methyltransferase

Zhang Z, He C, Chen Y, Li B, Tian S. DNA Methyltransferases Regulate Pathogenicity of Botrytis cinerea to Horticultural Crops. J Fungi (Basel). 2021 Aug 14;7(8):659. [DOI]

Bcdim2/Bcrid2Δ
Bcin15g00450
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


Bcin09g05050
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P024380.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P013050.1
.Details (ncbi)
.Details (BotPortal)

BC1G_12419.1
.Details (ncbi)
.Details (BotPortal)

BC1G_09864.1
.Details (ncbi)
.Details (BotPortal)

BcT4_5458
.Details (BotPortal)



BcT4_1918
.Details (BotPortal)



B0510_2388
.Details (BotPortal)



B0510_5055
.Details (BotPortal)



BcDIM2, Deficient in Methylation

Bcrid2, DNA methyltransferase

Zhang Z, He C, Chen Y, Li B, Tian S. DNA Methyltransferases Regulate Pathogenicity of Botrytis cinerea to Horticultural Crops. J Fungi (Basel). 2021 Aug 14;7(8):659. [DOI]

BcDIM5Δ
Bcin11g02360
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P037260.1
.Details (ncbi)
.Details (BotPortal)

BC1G_11188.1
.Details (ncbi)
.Details (BotPortal)

BcT4_8529
.Details (BotPortal)



B0510_4500
.Details (BotPortal)



BcDIM5, Deficient in Methylation

Zhang X, Liu X, Zhao Y, Cheng J, Xie J, Fu Y, Jiang D, Chen T. Histone H3 Lysine 9 Methyltransferase DIM5 Is Required for the Development and Virulence of Botrytis cinerea. Front Microbiol. 2016 Aug 22;7:1289. [DOI]

BcElp4Δ
Bcin12g02750
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P082200.1
.Details (ncbi)
.Details (BotPortal)

BC1G_03169.1
.Details (ncbi)
.Details (BotPortal)

BcT4_6888
.Details (BotPortal)



B0510_2943
.Details (BotPortal)



BcElp4, Elongator complex protein 4

Shao W, Lv C, Zhang Y, Wang J, Chen C. Involvement of BcElp4 in vegetative development, various environmental stress response and virulence of Botrytis cinerea. Microb Biotechnol. 2017 Jul;10(4):886-895 [DOI]

bcentΔ
Bcin07g05490
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P158360.1
.Details (ncbi)
.Details (BotPortal)

BC1G_09291.1
.Details (ncbi)
.Details (BotPortal)

BcT4_8577
.Details (BotPortal)



B0510_9449
.Details (BotPortal)



BcENT, equilibrative nucleoside transporter

Daumann M, Golfier P, Knuppel N, Hahn M, Mohlmann T. Botrytis cinerea can import and utilize nucleosides in salvage and catabolism and BcENT functions as high affinity nucleoside transporter. Fungal Biol. 2016 Aug;120(8):904-16. [DOI]

bcerΔ
Bcin06g02380
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


JF740059
.Details (GenBank)



BofuT4_P028970.1
.Details (ncbi)
.Details (BotPortal)

BC1G_01271.1
.Details (ncbi)
.Details (BotPortal)

BcT4_1263
.Details (BotPortal)



B0510_5627
.Details (BotPortal)



bcer, UDP-4-keto-6-deoxyglucose-3,5-epimerase/-4-reductase

Ma L, Salas O, Bowler K, Oren-Young L, Bar-Peled M, Sharon A. Genetic alteration of UDP-rhamnose metabolism in Botrytis cinerea leads to accumulation of UDP-KDG that adversely affects development and pathogenicity. Mol Plant Pathol. 2016 Mar 17. [DOI]

Bcexo70Δ
Bcin03g07900
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BC1G_14518.1
.Details (ncbi)
.Details (BotPortal)

BcT4_136
.Details (BotPortal)



B0510_7840
.Details (BotPortal)



Bcexo70, Exocyst subunit

Guan W, Feng J, Wang R, Ma Z, Wang W, Wang K, Zhu T. Functional analysis of the exocyst subunit BcExo70 in Botrytis cinerea. Curr Genet. 2019 Jun 10 [DOI]

bcfar1Δ
Bcin16g01780
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P034310.1
.Details (ncbi)
.Details (BotPortal)

BC1G_08236.1
.Details (ncbi)
.Details (BotPortal)

BcT4_7296
.Details (BotPortal)



B0510_6879
.Details (BotPortal)



BcFar1, scaffold protein

Giesbert S, Siegmund U, Schumacher J, Kokkelink L, Tudzynski P. Functional Analysis of BcBem1 and Its Interaction Partners in Botrytis cinerea: Impact on Differentiation and Virulence. PLoS One. 2014 May 5;9(5):e95172. [DOI]

BcFdhΔ
Bcin01g09720
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P014870.1
.Details (ncbi)
.Details (BotPortal)

BC1G_15423.1
.Details (ncbi)
.Details (BotPortal)

BC1G_15422.1
.Details (ncbi)
.Details (BotPortal)

BcT4_8776
.Details (BotPortal)



B0510_759
.Details (BotPortal)



BcFdh, FAD/FMN-containing dehydrogenase

Miao Z, Wang G, Shen H, Wang X, Gabriel DW, Liang W. BcMettl4-Mediated DNA Adenine N6-Methylation Is Critical for Virulence of Botrytis cinerea. Front Microbiol. 2022 Jun 30;13:925868. [DOI]

BcFET1Δ
Bcin02g02780
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BC1G_02441.1
.Details (ncbi)
.Details (BotPortal)

BcT4_4957
.Details (BotPortal)



B0510_3538
.Details (BotPortal)



BcFET1, ferroxidase

Vasquez-Montaño E, Hoppe G, Vega A, Olivares-Yañez C, Canessa P. Defects in the Ferroxidase That Participates in the Reductive Iron Assimilation System Results in Hypervirulence in Botrytis Cinerea. mBio. 2020;11(4):e01379-20. Published 2020 Aug 4. [DOI]

BcFKBP12Δ
Bcin12g01360
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


EU914953
.Details (GenBank)



DQ140393
.Details (GenBank)



BofuT4_P133320.1
.Details (ncbi)
.Details (BotPortal)

BC1G_03430.1
.Details (ncbi)
.Details (BotPortal)

BcT4_9183
.Details (BotPortal)



B0510_3064
.Details (BotPortal)



BcPIC5, BcFKBP12, similar to FK506-binding protein/peptidyl-prolyl cis-trans isomerase

Melendez HG, Billon-Grand G, Fevre M, Mey G. Role of the Botrytis cinerea FKBP12 ortholog in pathogenic development and in sulfur regulation. Fungal Genet. Biol. 46 (4), 308-320 (2009) [DOI]

Bcflp1Δ
Bcin04g05020
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P094060.1
.Details (ncbi)
.Details (BotPortal)

BC1G_04256.1
.Details (ncbi)
.Details (BotPortal)

BcT4_2215
.Details (BotPortal)



B0510_2064
.Details (BotPortal)



Bcflp1, Fasciclin-like protein

Choquer M, Rascle C, Gonçalves IR, de Vallée A, Ribot C, Loisel E, Smilevski P, Ferria J, Savadogo M, Souibgui E, Gagey MJ, Dupuy JW, Rollins JA, Marcato R, Noûs C, Bruel C, Poussereau N. The infection cushion of Botrytis cinerea: a fungal weapon of plant-biomass destruction. Environ Microbiol. 2021 Apr;23(4):2293-2314. [DOI]

Bcflp1/Bcflp2Δ
Bcin04g05020
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


Bcin09g05010
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P094060.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P013090.1
.Details (ncbi)
.Details (BotPortal)

BC1G_04256.1
.Details (ncbi)
.Details (BotPortal)

BC1G_09860.1
.Details (ncbi)
.Details (BotPortal)

BcT4_2215
.Details (BotPortal)



BcT4_1914
.Details (BotPortal)



B0510_2064
.Details (BotPortal)



B0510_5051
.Details (BotPortal)



Bcflp1, Fasciclin-like protein

Bcflp2, Fasciclin-like protein

Choquer M, Rascle C, Gonçalves IR, de Vallée A, Ribot C, Loisel E, Smilevski P, Ferria J, Savadogo M, Souibgui E, Gagey MJ, Dupuy JW, Rollins JA, Marcato R, Noûs C, Bruel C, Poussereau N. The infection cushion of Botrytis cinerea: a fungal weapon of plant-biomass destruction. Environ Microbiol. 2021 Apr;23(4):2293-2314. [DOI]

Bcflp2Δ
Bcin09g05010
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P013090.1
.Details (ncbi)
.Details (BotPortal)

BC1G_09860.1
.Details (ncbi)
.Details (BotPortal)

BcT4_1914
.Details (BotPortal)



B0510_5051
.Details (BotPortal)



Bcflp2, Fasciclin-like protein

Choquer M, Rascle C, Gonçalves IR, de Vallée A, Ribot C, Loisel E, Smilevski P, Ferria J, Savadogo M, Souibgui E, Gagey MJ, Dupuy JW, Rollins JA, Marcato R, Noûs C, Bruel C, Poussereau N. The infection cushion of Botrytis cinerea: a fungal weapon of plant-biomass destruction. Environ Microbiol. 2021 Apr;23(4):2293-2314. [DOI]

Bcfrq1Δ
Bcin02g08360
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P067640.1
.Details (ncbi)
.Details (BotPortal)

BC1G_13940.1
.Details (ncbi)
.Details (BotPortal)

BcT4_9116
.Details (BotPortal)



B0510_6647
.Details (BotPortal)



BcFRQ1, Frequency-like, protein implicated in the circadian clock

Hevia MA, Canessa P, Muller-Esparza H, Larrondo LF. A circadian oscillator in the fungus Botrytis cinerea regulates virulence when infecting Arabidopsis thaliana. Proc Natl Acad Sci U S A. 2015 Jul 14;112(28):8744-9. [DOI]

BcFTR1Δ
Bcin02g02790
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BC1G_02439.1
.Details (ncbi)
.Details (BotPortal)

BcT4_4956
.Details (BotPortal)



B0510_3537
.Details (BotPortal)



BcFTR1, membrane-bound iron permease

Vasquez-Montaño E, Hoppe G, Vega A, Olivares-Yañez C, Canessa P. Defects in the Ferroxidase That Participates in the Reductive Iron Assimilation System Results in Hypervirulence in Botrytis Cinerea. mBio. 2020;11(4):e01379-20. Published 2020 Aug 4. [DOI]

bcg1Δ
Bcin05g06770
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


Y18436
.Details (GenBank)



BofuT4_P134310.1
.Details (ncbi)
.Details (BotPortal)

BC1G_01681.1
.Details (ncbi)
.Details (BotPortal)

BCG1, heterotrimeric Galpha subunit

Gronover CS, Kasulke D, Tudzynski P, Tudzynski B. The role of G protein alpha subunits in the infection process of the gray mold fungus Botrytis cinerea. Mol Plant Microbe Interact. 2001 Nov;14(11):1293-302. [DOI]

bcg2Δ
Bcin14g01730
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


Y18437
.Details (GenBank)



BofuT4_P059220.1
.Details (ncbi)
.Details (BotPortal)

BC1G_08985.1
.Details (ncbi)
.Details (BotPortal)

BcT4_5921
.Details (BotPortal)



B0510_5308
.Details (BotPortal)



BCG2, Galpha subunit

Gronover CS, Kasulke D, Tudzynski P, Tudzynski B. The role of G protein alpha subunits in the infection process of the gray mold fungus Botrytis cinerea. Mol Plant Microbe Interact. 2001 Nov;14(11):1293-302. [DOI]

bcg3Δ
Bcin15g03610
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AB188196
.Details (GenBank)



BofuT4_P003150.1
.Details (ncbi)
.Details (BotPortal)

BC1G_03006.1
.Details (ncbi)
.Details (BotPortal)

BcT4_5737
.Details (BotPortal)



B0510_2668
.Details (BotPortal)



BCG3, G protein alpha 3 subunit

Doehlemann G, Berndt P, Hahn M. Different signalling pathways involving a Galpha protein, cAMP and a MAP kinase control germination of Botrytis cinerea conidia. Mol Microbiol. 2006 Feb;59(3):821-35. [DOI]

BcGaaRΔ
Bcin09g00170
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P100290.1
.Details (ncbi)
.Details (BotPortal)

BC1G_09074.1
.Details (ncbi)
.Details (BotPortal)

BcT4_1494
.Details (BotPortal)



B0510_9554
.Details (BotPortal)



BcGaaR, transcription factor, B. cinerea GalA Regulator

Zhang L, Lubbers RJ, Simon A, Stassen JH, Vargas Ribera PR, Viaud M, van Kan JA. A novel Zn2 Cys6 transcription factor BcGaaR regulates D-galacturonic acid utilization in Botrytis cinerea . Mol Microbiol. 2016 Apr;100(2):247-62. [DOI]

bcgar1Δ
Bcin06g04660
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P140850.1
.Details (ncbi)
.Details (BotPortal)

BC1G_02386.1
.Details (ncbi)
.Details (BotPortal)

BcT4_1052
.Details (BotPortal)



B0510_4268
.Details (BotPortal)



BcGAR1, D-galacturonate reductase ; BcPIO12, gene with a peak of expression during the Outset of colonization (Gioti el al., 2006)

Zhang L, Thiewes H, van Kan JA. The D-galacturonic acid catabolic pathway in Botrytis cinerea. Fungal Genet Biol. 2011 Oct;48(10):990-7. [DOI]

bcgar2Δ
Bcin03g01500
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P061610.1
.Details (ncbi)
.Details (BotPortal)

BC1G_02027.1
.Details (ncbi)
.Details (BotPortal)

BcT4_710
.Details (BotPortal)



B0510_551
.Details (BotPortal)



BcGAR2, D-galacturonate reductase

Zhang L, Thiewes H, van Kan JA. The D-galacturonic acid catabolic pathway in Botrytis cinerea. Fungal Genet Biol. 2011 Oct;48(10):990-7. [DOI]

Bcgb1Δ
Bcin08g01420
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AB188197
.Details (GenBank)



BofuT4_P043580.1
.Details (ncbi)
.Details (BotPortal)

BcT4_10350
.Details (BotPortal)



B0510_7019
.Details (BotPortal)



Bcgb1, Heterotrimeric G beta subunit

Tang J, Wu M, Zhang J, Li G, Yang L. Botrytis cinerea G Protein ß Subunit Bcgb1 Controls Growth, Development and Virulence by Regulating cAMP Signaling and MAPK Signaling. J Fungi (Basel). 2021 May 29;7(6):431. [DOI]

Bcglr1Δ
Bcin04g05300
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P093670.1
.Details (ncbi)
.Details (BotPortal)

BC1G_15101.1
.Details (ncbi)
.Details (BotPortal)

BcT4_2188
.Details (BotPortal)



B0510_2036
.Details (BotPortal)



BcGLR1, glutathione reductase

Viefhues A, Heller J, Temme N, Tudzynski P. Redox Systems in Botrytis cinerea: Impact on Development and Virulence. Mol Plant Microbe Interact. 2014 Aug;27(8):858-74. [DOI]

Bcglr2Δ
Bcin05g01430
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P063890.1
.Details (ncbi)
.Details (BotPortal)

BC1G_12446.1
.Details (ncbi)
.Details (BotPortal)

BcT4_9973
.Details (BotPortal)



B0510_1402
.Details (BotPortal)



BcGLR2, glutathione reductase

Viefhues A, Heller J, Temme N, Tudzynski P. Redox Systems in Botrytis cinerea: Impact on Development and Virulence. Mol Plant Microbe Interact. 2014 Aug;27(8):858-74. [DOI]

bcgod1Δ
Bcin14g05500
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AJ555871
.Details (GenBank)



BofuT4_uP064420.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P064410.1
.Details (ncbi)
.Details (BotPortal)

BC1G_10788.1
.Details (ncbi)
.Details (BotPortal)

BcT4_9949
.Details (BotPortal)



B0510_9807
.Details (BotPortal)



BcGOD1, glucose oxidase

Rolke Y, Liu S, Quidde T, Williamson B, Schouten A, Weltring KM, Siewers V, Tenberge KB, Tudzynski B, Tudzynski P. Functional analysis of H(2)O(2)-generating systems in Botrytis cinerea: the major Cu-Zn-superoxide dismutase (BCSOD1) contributes to virulence on French bean, whereas a glucose oxidase (BCGOD1) is dispensable. Mol Plant Pathol. 2004 Jan 1;5(1):17-27. [DOI]

Bcgst1Δ
Bcin10g00740
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P103600.1
.Details (ncbi)
.Details (BotPortal)

BC1G_07391.1
.Details (ncbi)
.Details (BotPortal)

BcT4_2680
.Details (BotPortal)



B0510_5742
.Details (BotPortal)



Bcgst1, glutathione-S-transferase

Prins TW, Wagemakers L, Schouten A, van Kan JA. Cloning and characterization of a glutathione S-transferase homologue from the plant pathogenic fungus Botrytis cinerea. Mol Plant Pathol. 2000 May 1;1(3):169-78. [DOI]

BcHBF1Δ
Bcin06g00240
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P032080.1
.Details (ncbi)
.Details (BotPortal)

BC1G_00966.1
.Details (ncbi)
.Details (BotPortal)

BcT4_1453
.Details (BotPortal)



B0510_5431
.Details (BotPortal)



BcHBF1, Hyphal branching-related factor 1

Liu Y, Liu JK, Li GH, Zhang MZ, Zhang YY, Wang YY, Hou J, Yang S, Sun J, Qin QM. A novel Botrytis cinerea-specific gene BcHBF1 enhances virulence of the grey mould fungus via promoting host penetration and invasive hyphal development. Mol Plant Pathol. 2019 May;20(5):731-747. [DOI]

bchexΔ
Bcin08g01110
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


JF502255
.Details (GenBank)



BofuT4_P010080.1
.Details (ncbi)
.Details (BotPortal)

BC1G_12729.1
.Details (ncbi)
.Details (BotPortal)

BcT4_9602
.Details (BotPortal)



B0510_6989
.Details (BotPortal)



Bchex, protein of the Woronin body

C. Aguayo, J. Riquelme, P. D. T. Valenzuela, M. Hahn and E. Silva Moreno. Bchex virulence gene of Botrytis cinerea: characterization and functional analysis. Journal of General Plant Pathology, 2011, Volume 77, Number 4, Pages 230-238. [DOI]

BcHnm1Δ
Bcin11g02890
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P149060.1
.Details (ncbi)
.Details (BotPortal)

BC1G_04809.1
.Details (ncbi)
.Details (BotPortal)

BcT4_4387
.Details (BotPortal)



B0510_7902
.Details (BotPortal)



BcHnm1, choline transporter

Chand Arya G, Aditya Srivastava D, Manasherova E, Prusky DB, Elad Y, Frenkel O, Harel A. BcHnm1, a predicted choline transporter, modulates conidial germination and virulence in Botrytis cinerea. Fungal Genet Biol. 2022 Jan;158:103653 [DOI]

bchox8Δ(Arabesque)
Bcin08g06620
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P155900.1
.Details (ncbi)
.Details (BotPortal)

BC1G_10953.1
.Details (ncbi)
.Details (BotPortal)

BcT4_3571
.Details (BotPortal)



B0510_8651
.Details (BotPortal)



BcHOX8, BcPIE1, transcription factor homeobox, gene induced in Early infection stage

Antal Z, Rascle C, Cimerman A, Viaud M, Billon-Grand G, Choquer M, Bruel C (2012). The Homeobox BcHOX8 Gene in Botrytis Cinerea Regulates Vegetative Growth and Morphology. PLoS One 2012;7(10): e48134. [DOI]

BcHP1Δ
Bcin13g05340
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P063240.1
.Details (ncbi)
.Details (BotPortal)

BC1G_06432.1
.Details (ncbi)
.Details (BotPortal)

BcT4_6567
.Details (BotPortal)



B0510_9372
.Details (BotPortal)



BcHP1, Heterochromatin protein 1

Zhang X, Liu X, Zhao Y, Cheng J, Xie J, Fu Y, Jiang D, Chen T. Histone H3 Lysine 9 Methyltransferase DIM5 Is Required for the Development and Virulence of Botrytis cinerea. Front Microbiol. 2016 Aug 22;7:1289. [DOI]

bchxt15Δ
Bcin07g03780
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P139320.1
.Details (ncbi)
.Details (BotPortal)

BC1G_12561.1
.Details (ncbi)
.Details (BotPortal)

BcT4_3959
.Details (BotPortal)



B0510_3996
.Details (BotPortal)



BcHXT15, hexose transporter 15

Zhang L, Hua C, Stassen JHM,Chatterjee S,Cornelissen M, van Kan JA. Genome-wide analysis of pectate-induced gene expression in Botrytis cinerea: Identification and functional analysis of putative d-galacturonate transporters. Fungal Genet Biol. 2013 [DOI]

bchxt19Δ
Bcin01g07270
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P047770.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P047760.1
.Details (ncbi)
.Details (BotPortal)

BC1G_00238.1
.Details (ncbi)
.Details (BotPortal)

BcT4_5252
.Details (BotPortal)



B0510_978
.Details (BotPortal)



BcHXT19, putative sugar:H+ symporter

Zhang L, Hua C, Stassen JHM,Chatterjee S,Cornelissen M, van Kan JA. Genome-wide analysis of pectate-induced gene expression in Botrytis cinerea: Identification and functional analysis of putative d-galacturonate transporters. Fungal Genet Biol. 2013 [DOI]

bcieb1Δ
Bcin15g00100
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P023950.1
.Details (ncbi)
.Details (BotPortal)

BC1G_12374.1
.Details (ncbi)
.Details (BotPortal)

BcT4_5431
.Details (BotPortal)



B0510_2361
.Details (BotPortal)



BcIEB1, small secreted glycoprotein similar to IgE Binding proteins

Frias M, Gonzalez M, Gonzalez C, Brito N. BcIEB1, a Botrytis cinerea secreted protein, elicits a defense response in plants. Plant Sci. 2016 Sep;250:115-24. [DOI]

Bcin04g03490Δ
Bcin04g03490
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P096400.1
.Details (ncbi)
.Details (BotPortal)

BcT4_2354
.Details (BotPortal)



B0510_2199
.Details (BotPortal)



Bcin04g03490, Zn2Cys6 transcription factor

Acosta Morel W, Anta Fernández F, Baroncelli R, Becerra S, Thon MR, van Kan JAL, Díaz-Mínguez JM, Benito EP. A Major Effect Gene Controlling Development and Pathogenicity in Botrytis cinerea Identified Through Genetic Analysis of Natural Mycelial Non-pathogenic Isolates. Front Plant Sci. 2021 Apr 14;12:663870 [DOI]

bciqg1Δ
Bcin05g08290
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P103170.1
.Details (ncbi)
.Details (BotPortal)

BC1G_13130.1
.Details (ncbi)
.Details (BotPortal)

BcT4_9016
.Details (BotPortal)



B0510_9027
.Details (BotPortal)



BcIqg1, fungal IQGAP homolog

Marschall R, Tudzynski P. BcIqg1, a fungal IQGAP homolog, interacts with NADPH oxidase, MAP kinase and Calcium signaling proteins and regulates virulence and development in Botrytis cinerea. Mol Microbiol. 2016 Apr 7. [DOI]

BcJar1Δ
Bcin02g00190
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P106710.1
.Details (ncbi)
.Details (BotPortal)

BC1G_05510.1
.Details (ncbi)
.Details (BotPortal)

BcT4_7840
.Details (BotPortal)



B0510_9147
.Details (BotPortal)



BcJar1, Histone 3 Lysine 4 (H3K4) demethylase

Hou J, Feng HQ, Chang HW, et al. The H3K4 demethylase Jar1 orchestrates ROS production and expression of pathogenesis-related genes to facilitate Botrytis cinerea virulence. New Phytol. 2020;225(2):930-947. [DOI]

BcKDCΔ
Bcin09g02320
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P053470.1
.Details (ncbi)
.Details (BotPortal)

BC1G_07152.1
.Details (ncbi)
.Details (BotPortal)

BcT4_1676
.Details (BotPortal)



B0510_4564
.Details (BotPortal)



BcKDC, Kelch domain-containing protein

Li H, Zhang Z, He C, Qin G, Tian S. Comparative Proteomics Reveals the Potential Targets of BcNoxR, a Putative Regulatory Subunit of NADPH Oxidase of Botrytis cinerea. Mol Plant Microbe Interact. 2016 Dec;29(12):990-1003. [DOI]

BcKDM1Δ
Bcin07g03050
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P119200.1
.Details (ncbi)
.Details (BotPortal)

BC1G_02686.1
.Details (ncbi)
.Details (BotPortal)

BcT4_3895
.Details (BotPortal)



B0510_3931
.Details (BotPortal)



BcKDM1, putative H3K36 demethylase

Schumacher J, Studt L, Tudzynski P. The putative H3K36 demethylase BcKDM1 affects virulence, stress responses and photomorphogenesis in Botrytis cinerea. Fungal Genet Biol. 2018 Nov 13;123:14-24. [DOI]

Bcklp-7Δ
Bcin03g05410
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P018800.1
.Details (ncbi)
.Details (BotPortal)

BC1G_00851.1
.Details (ncbi)
.Details (BotPortal)

BC1G_00850.1
.Details (ncbi)
.Details (BotPortal)

BcT4_359
.Details (BotPortal)



B0510_201
.Details (BotPortal)



Bcklp-7, Kinesin

Tayal P, Raj S, Sharma E, Kumar M, Dayaman V, Verma N, Jogawat A, Dua M, Kapoor R, Johri AK. A Botrytis cinerea KLP-7 Kinesin acts as a Virulence Determinant during Plant Infection. Sci Rep. 2017 Sep 6;7(1):10664. [DOI]

BcKMOΔ
Bcin12g04900
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P002100.1
.Details (ncbi)
.Details (BotPortal)

BC1G_07455.1
.Details (ncbi)
.Details (BotPortal)

BcT4_7073
.Details (BotPortal)



B0510_8336
.Details (BotPortal)



BcKMO, kynurenine 3-monooxygenase

Zhang K, Yuan X, Zang J, Wang M, Zhao F, Li P, Cao H, Han J, Xing J, Dong J. The Kynurenine 3-Monooxygenase Encoding Gene, BcKMO, Is Involved in the Growth, Development, and Pathogenicity of Botrytis cinerea. Front Microbiol. 2018 May 18;9:1039 [DOI]

bcku70Δ
Bcin06g03990
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P111990.1
.Details (ncbi)
.Details (BotPortal)

BC1G_16015.1
.Details (ncbi)
.Details (BotPortal)

BcT4_1113
.Details (BotPortal)



B0510_4206
.Details (BotPortal)



BcKU70, protein involved in DNA reparation

Choquer M, Robin G, Le Pêcheur P, Giraud C, Levis C, Viaud M. Ku70 or Ku80 deficiencies in the fungus Botrytis cinerea facilitate targeting of genes that are hard to knock out in a wild-type context. FEMS Microbiol Lett. 2008 Dec;289(2):225-32. [DOI]

bcku80Δ
Bcin10g05490
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P086890.1
.Details (ncbi)
.Details (BotPortal)

BC1G_10199.1
.Details (ncbi)
.Details (BotPortal)

BcT4_3113
.Details (BotPortal)



B0510_4881
.Details (BotPortal)



BcKU80, protein involved in DNA reparation

Choquer M, Robin G, Le Pêcheur P, Giraud C, Levis C, Viaud M. Ku70 or Ku80 deficiencies in the fungus Botrytis cinerea facilitate targeting of genes that are hard to knock out in a wild-type context. FEMS Microbiol Lett. 2008 Dec;289(2):225-32. [DOI]

BcLAE1Δ
Bcin05g01210
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


KP099423
.Details (GenBank)



BofuT4_P148930.1
.Details (ncbi)
.Details (BotPortal)

BC1G_15169.1
.Details (ncbi)
.Details (BotPortal)

BC1G_15168.1
.Details (ncbi)
.Details (BotPortal)

BcT4_4394
.Details (BotPortal)



B0510_1382
.Details (BotPortal)



BcLAE1, regulator of secondary metabolism laeA, component of the Velvet protein complex

Schumacher J, Simon A, Cohrs KC, Traeger S, Porquier A, Dalmais B, Viaud M, Tudzynski B. The VELVET complex in the gray mold fungus Botrytis cinerea: impact of BcLAE1 on differentiation, secondary metabolism and virulence. Mol Plant Microbe Interact. 2015 Jun;28(6):659-74 [DOI]

bclcc1Δ
Bcin01g07950
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AF243854
.Details (GenBank)



BofuT4_P048790.1
.Details (ncbi)
.Details (BotPortal)

BC1G_00138.1
.Details (ncbi)
.Details (BotPortal)

BcT4_5315
.Details (BotPortal)



B0510_915
.Details (BotPortal)



BcLCC1, laccase

Schouten A, Wagemakers L, Stefanato FL, van der Kaaij RM, van Kan JA. Resveratrol acts as a natural profungicide and induces self-intoxication by a specific laccase. Mol Microbiol. 2002 Feb;43(4):883-94. [DOI]

bclcc2Δ
Bcin14g02510
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AF243855
.Details (GenBank)



BofuT4_P058130.1
.Details (ncbi)
.Details (BotPortal)

BC1G_08553.1
.Details (ncbi)
.Details (BotPortal)

BcT4_5851
.Details (BotPortal)



B0510_5238
.Details (BotPortal)



BcLCC2, laccase

Schouten A, Wagemakers L, Stefanato FL, van der Kaaij RM, van Kan JA. Resveratrol acts as a natural profungicide and induces self-intoxication by a specific laccase. Mol Microbiol. 2002 Feb;43(4):883-94. [DOI]

bclga1Δ
Bcin03g01490
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P061600.1
.Details (ncbi)
.Details (BotPortal)

BC1G_02028.1
.Details (ncbi)
.Details (BotPortal)

BcT4_711
.Details (BotPortal)



B0510_552
.Details (BotPortal)



BcLGA1, 2-keto-3-deoxy-L-galactonate aldolase

Zhang L, Thiewes H, van Kan JA. The D-galacturonic acid catabolic pathway in Botrytis cinerea. Fungal Genet Biol. 2011 Oct;48(10):990-7. [DOI]

bclgd1Δ
Bcin01g09450
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P014390.1
.Details (ncbi)
.Details (BotPortal)

BC1G_08318.1
.Details (ncbi)
.Details (BotPortal)

BcT4_8758
.Details (BotPortal)



B0510_780
.Details (BotPortal)



BcLGD1, L-galactonate dehydratase

Zhang L, Thiewes H, van Kan JA. The D-galacturonic acid catabolic pathway in Botrytis cinerea. Fungal Genet Biol. 2011 Oct;48(10):990-7. [DOI]

bcltf1Δ
Bcin14g03930
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


KX009404
.Details (GenBank)



BofuT4_P093440.1
.Details (ncbi)
.Details (BotPortal)

BC1G_10441.1
.Details (ncbi)
.Details (BotPortal)

BcT4_9306
.Details (BotPortal)



B0510_3555
.Details (BotPortal)



BcLTF1, light-responsive GATA-type transcription factor

Schumacher J, Simon A, Cohrs KC, Viaud M, Tudzynski P (2014). The Transcription Factor BcLTF1 Regulates Virulence and Light Responses in the Necrotrophic Plant Pathogen Botrytis cinerea. PLoS Genet 10(1): e1004040. [DOI]

bcltf2Δ
Bcin16g02090
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


KX009405
.Details (GenBank)



BofuT4_P033780.1
.Details (ncbi)
.Details (BotPortal)

BC1G_08188.1
.Details (ncbi)
.Details (BotPortal)

BcT4_7325
.Details (BotPortal)



B0510_6852
.Details (BotPortal)



BcLTF2, light-responsive C2H2-type transcription factor

Cohrs KC, Simon A, Viaud M, Schumacher J. Light governs asexual differentiation in the grey mould fungus Botrytis cinerea via the putative transcription factor BcLTF2. Environ Microbiol. 2016 Jun 27. [DOI]

BcLTF3Δ
Bcin11g01720
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P036360.1
.Details (ncbi)
.Details (BotPortal)

BC1G_04022.1
.Details (ncbi)
.Details (BotPortal)

BcT4_8472
.Details (BotPortal)



B0510_4441
.Details (BotPortal)



BcLTF3, light-responsive C2H2-type transcription factor

Brandhoff B, Simon A, Dornieden A, Schumacher J. Regulation of conidiation in Botrytis cinerea involves the light-responsive transcriptional regulators BcLTF3 and BcREG1. Curr Genet. 2017 Apr 5. [DOI]

BcLTF4Δ
Bcin14g05370
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P064580.1
.Details (ncbi)
.Details (BotPortal)

BC1G_10773.1
.Details (ncbi)
.Details (BotPortal)

BcT4_9938
.Details (BotPortal)



B0510_9797
.Details (BotPortal)



BcLTF4, light-responsive Cys6-type transcription factor

Brandhoff B, Simon A, Dornieden A, Schumacher J. Regulation of conidiation in Botrytis cinerea involves the light-responsive transcriptional regulators BcLTF3 and BcREG1. Curr Genet. 2017 Apr 5. [DOI]

BcLTF5Δ
Bcin08g01690
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P043920.1
.Details (ncbi)
.Details (BotPortal)

BC1G_07886.1
.Details (ncbi)
.Details (BotPortal)

BcT4_10370
.Details (BotPortal)



B0510_7040
.Details (BotPortal)



BcLTF5, light-responsive Cys6-type transcription factor

Brandhoff B, Simon A, Dornieden A, Schumacher J. Regulation of conidiation in Botrytis cinerea involves the light-responsive transcriptional regulators BcLTF3 and BcREG1. Curr Genet. 2017 Apr 5. [DOI]

BcLTF6Δ
Bcin02g08310
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P067570.1
.Details (ncbi)
.Details (BotPortal)

BC1G_13948.1
.Details (ncbi)
.Details (BotPortal)

BcT4_9120
.Details (BotPortal)



B0510_6651
.Details (BotPortal)



BcLTF6, light-responsive Cys6-type transcription factor

Brandhoff B, Simon A, Dornieden A, Schumacher J. Regulation of conidiation in Botrytis cinerea involves the light-responsive transcriptional regulators BcLTF3 and BcREG1. Curr Genet. 2017 Apr 5. [DOI]

Bcmads1Δ
Bcin05g04030
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P040740.1
.Details (ncbi)
.Details (BotPortal)

BC1G_01388.1
.Details (ncbi)
.Details (BotPortal)

BcT4_7882
.Details (BotPortal)



B0510_1635
.Details (BotPortal)



Bcmads1, MADS-box_transcription_factor

Zhang Z, Li H, Qin G, He C, Li B, Tian S. The MADS-Box transcription factor Bcmads1 is required for growth, sclerotia production and pathogenicity of Botrytis cinerea. Sci Rep. 2016 Sep 23;6:33901. [DOI]

BcmclΔ
Bcin09g00660
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


U68714
.Details (GenBank)



BofuT4_P101090.1
.Details (ncbi)
.Details (BotPortal)

BC1G_09152.1
.Details (ncbi)
.Details (BotPortal)

BcT4_1534
.Details (BotPortal)



B0510_9510
.Details (BotPortal)



Bcmcl, Methyl isocitrate lyase

Oren-Young L, Llorens E, Bi K, Zhang M, Sharon A. Botrytis cinerea methyl isocitrate lyase mediates oxidative stress tolerance and programmed cell death by modulating cellular succinate levels. Fungal Genet Biol. 2021 Jan;146:103484. [DOI]

BcmctAΔ
Bcin11g05350
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P091390.1
.Details (ncbi)
.Details (BotPortal)

BC1G_15016.1
.Details (ncbi)
.Details (BotPortal)

BcT4_4162
.Details (BotPortal)



B0510_6265
.Details (BotPortal)



BcMctA, monocarboxylate transcporter A

Cui Z, Gao N, Wang Q, Ren Y, Wang K, Zhu T. BcMctA, a putative monocarboxylate transporter, is required for pathogenicity in Botrytis cinerea. Curr Genet. 2015 Jan 30. [DOI]

bcmfs1Δ
Bcin01g09910
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AF238225
.Details (GenBank)



BofuT4_P015190.1
.Details (ncbi)
.Details (BotPortal)

BC1G_16101.1
.Details (ncbi)
.Details (BotPortal)

BcT4_8791
.Details (BotPortal)



B0510_743
.Details (BotPortal)



Bcmfs1, multidrug efflux transporter

Hayashi K, Schoonbeek HJ, De Waard MA. Bcmfs1, a novel major facilitator superfamily transporter from Botrytis cinerea, provides tolerance towards the natural toxic compounds camptothecin and cercosporin and towards fungicides. Appl Environ Microbiol. 2002 Oct;68(10):4996-5004. [DOI]

BcMfs2Δ
Bcin05g07600
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P060260.1
.Details (ncbi)
.Details (BotPortal)

BC1G_11072.1
.Details (ncbi)
.Details (BotPortal)

BcT4_8958
.Details (BotPortal)



B0510_8968
.Details (BotPortal)



BcMfs2, Major facilitator superfamily transporter

Miao Z, Wang G, Shen H, Wang X, Gabriel DW, Liang W. BcMettl4-Mediated DNA Adenine N6-Methylation Is Critical for Virulence of Botrytis cinerea. Front Microbiol. 2022 Jun 30;13:925868. [DOI]

bcmimp1Δ
Bcin05g00830
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P148430.1
.Details (ncbi)
.Details (BotPortal)

BC1G_09402.1
.Details (ncbi)
.Details (BotPortal)

BcT4_4429
.Details (BotPortal)



B0510_1346
.Details (BotPortal)



BcMIMP1, mitochondrial protein transiently expressed in planta

Benito-Pescador D, Santander D, Arranz M, Diaz-Minguez JM, Eslava AP, van Kan JA, Benito EP. Bcmimp1, a Botrytis cinerea Gene Transiently Expressed in planta, Encodes a Mitochondrial Protein. Front Microbiol. 2016 Feb 26;7:213. [DOI]

BcMKK1Δ
Bcin03g07190
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P016030.1
.Details (ncbi)
.Details (BotPortal)

BC1G_11713.1
.Details (ncbi)
.Details (BotPortal)

BcT4_198
.Details (BotPortal)



B0510_42
.Details (BotPortal)



BcMKK1, mitogen-activated protein kinase

Yin Y, Wu S, Chui C, Ma T, Jiang H, Hahn M, Ma Z.The MAPK kinase BcMkk1 suppresses oxalic acid biosynthesis via impeding phosphorylation of BcRim15 by BcSch9 in Botrytis cinerea. PLoS Pathog. 2018 Sep 13;14(9):e1007285 [DOI]

BcMKK1/BcOAHΔ
Bcin03g07190
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


Bcin12g01020
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P016030.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P132860.1
.Details (ncbi)
.Details (BotPortal)

BC1G_11713.1
.Details (ncbi)
.Details (BotPortal)

BC1G_03473.1
.Details (ncbi)
.Details (BotPortal)

BcT4_198
.Details (BotPortal)



BcT4_9555
.Details (BotPortal)



B0510_42
.Details (BotPortal)



B0510_3095
.Details (BotPortal)



BcMKK1, mitogen-activated protein kinase

BcOAH, oxaloacetate acetylhydrolase

Yin Y, Wu S, Chui C, Ma T, Jiang H, Hahn M, Ma Z.The MAPK kinase BcMkk1 suppresses oxalic acid biosynthesis via impeding phosphorylation of BcRim15 by BcSch9 in Botrytis cinerea. PLoS Pathog. 2018 Sep 13;14(9):e1007285 [DOI]

BcMKK1/BcSCH9Δ
Bcin03g07190
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


Bcin11g06110
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AJ290951
.Details (GenBank)



BofuT4_P016030.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P090340.1
.Details (ncbi)
.Details (BotPortal)

BC1G_11713.1
.Details (ncbi)
.Details (BotPortal)

BC1G_14873.1
.Details (ncbi)
.Details (BotPortal)

BcT4_198
.Details (BotPortal)



BcT4_4097
.Details (BotPortal)



B0510_42
.Details (BotPortal)



B0510_6331
.Details (BotPortal)



BcMKK1, mitogen-activated protein kinase

BcSCH9, Sch9-like cAMP-dependent protein kinase catalytic subunit

Yin Y, Wu S, Chui C, Ma T, Jiang H, Hahn M, Ma Z.The MAPK kinase BcMkk1 suppresses oxalic acid biosynthesis via impeding phosphorylation of BcRim15 by BcSch9 in Botrytis cinerea. PLoS Pathog. 2018 Sep 13;14(9):e1007285 [DOI]

BcMPDΔ
Bcin15g05600
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P066160.1
.Details (ncbi)
.Details (BotPortal)

BC1G_11550.1
.Details (ncbi)
.Details (BotPortal)

BcT4_10268
.Details (BotPortal)



B0510_9816
.Details (BotPortal)



BcMPD, mannitol-1-phosphate dehydrogenase

Dulermo T, Rascle C, Billon-Grand G, Gout E, Bligny R, Cotton P. Novel insights into mannitol metabolism in the fungal plant pathogen Botrytis cinerea. Biochem J. 2010 Mar 29;427(2):323-32 [DOI]

BcMPD/BcMTDHΔ
Bcin15g05600
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


Bcin16g03380
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P066160.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P113370.1
.Details (ncbi)
.Details (BotPortal)

BC1G_11550.1
.Details (ncbi)
.Details (BotPortal)

BC1G_09259.1
.Details (ncbi)
.Details (BotPortal)

BcT4_10268
.Details (BotPortal)



B0510_9816
.Details (BotPortal)



BcMPD, mannitol-1-phosphate dehydrogenase

BcMTDH, mannitol dehydrogenase

Dulermo T, Rascle C, Billon-Grand G, Gout E, Bligny R, Cotton P. Novel insights into mannitol metabolism in the fungal plant pathogen Botrytis cinerea. Biochem J. 2010 Mar 29;427(2):323-32 [DOI]

BcMTDHΔ
Bcin16g03380
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P113370.1
.Details (ncbi)
.Details (BotPortal)

BC1G_09259.1
.Details (ncbi)
.Details (BotPortal)

BcMTDH, mannitol dehydrogenase

Dulermo T, Rascle C, Billon-Grand G, Gout E, Bligny R, Cotton P. Novel insights into mannitol metabolism in the fungal plant pathogen Botrytis cinerea. Biochem J. 2010 Mar 29;427(2):323-32 [DOI]

BcMtg2Δ
Bcin06g07300
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BC1G_14222.1
.Details (ncbi)
.Details (BotPortal)

BcT4_10032
.Details (BotPortal)



B0510_9983
.Details (BotPortal)



BcMtg2, Obg GTPase

Shao W, Zhang Y, Wang J, Lv C, Chen C. BcMtg2 is required for multiple stress tolerance, vegetative development and virulence in Botrytis cinerea. Sci Rep. 2016 Jun 27;6:28673. [DOI]

Bcnep1Δ
Bcin06g06720
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P070460.1
.Details (ncbi)
.Details (BotPortal)

BC1G_06310.1
.Details (ncbi)
.Details (BotPortal)

BcT4_866
.Details (BotPortal)



B0510_8907
.Details (BotPortal)



Bcnep1, Similar to necrosis- and ethylene-inducing protein 1 precursor

Yaite Cuesta Arenas, Eric R.I.C. Kalkman, Alexander Schouten, Mirjam Dieho, Peter Vredenbregt, Beatrice Uwumukiza, Miriam Osés Ruiz, Jan A.L. van Kan,Functional analysis and mode of action of phytotoxic Nep1-like proteins of Botrytis cinerea,Physiological and Molecular Plant Pathology,Volume 74, Issues 5–6,2010,Pages 376-386 [DOI]

Bcnep2Δ
Bcin02g07770
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P066710.1
.Details (ncbi)
.Details (BotPortal)

BC1G_10306.1
.Details (ncbi)
.Details (BotPortal)

BcT4_9170
.Details (BotPortal)



B0510_6701
.Details (BotPortal)



Bcnep2, Necrosis- and ethylene-inducing protein 2 precursor

Yaite Cuesta Arenas, Eric R.I.C. Kalkman, Alexander Schouten, Mirjam Dieho, Peter Vredenbregt, Beatrice Uwumukiza, Miriam Osés Ruiz, Jan A.L. van Kan,Functional analysis and mode of action of phytotoxic Nep1-like proteins of Botrytis cinerea,Physiological and Molecular Plant Pathology,Volume 74, Issues 5–6,2010,Pages 376-386 [DOI]

bcniaDΔ
Bcin07g01270
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


U43783
.Details (GenBank)



BofuT4_P116590.1
.Details (ncbi)
.Details (BotPortal)

BC1G_09772.1
.Details (ncbi)
.Details (BotPortal)

BcT4_3724
.Details (BotPortal)



B0510_7134
.Details (BotPortal)



NiaD, nitrate reductase

Schumacher J. Tools for Botrytis cinerea: New expression vectors make the gray mold fungus more accessible to cell biology approaches. Fungal Genet Biol. 2012 Jun;49(6):483-97. [DOI]

bcniiAΔ
Bcin01g05790
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P045590.1
.Details (ncbi)
.Details (BotPortal)

BC1G_00437.1
.Details (ncbi)
.Details (BotPortal)

BcT4_5123
.Details (BotPortal)



B0510_1106
.Details (BotPortal)



bcniiA, nitrite reductase

Schumacher J. Tools for Botrytis cinerea: New expression vectors make the gray mold fungus more accessible to cell biology approaches. Fungal Genet Biol. 2012 Jun;49(6):483-97. [DOI]

Bcnop53Δ
Bcin12g03770
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P000700.1
.Details (ncbi)
.Details (BotPortal)

BC1G_08709.1
.Details (ncbi)
.Details (BotPortal)

BcT4_6984
.Details (BotPortal)



B0510_2848
.Details (BotPortal)



Bcnop53, Pre-rRNA processing factor

Cao SN, Yuan Y, Qin YH, Zhang MZ, de Figueiredo P, Li GH, Qin QM. The pre-rRNA processing factor Nop53 regulates fungal development and pathogenesis via mediating production of reactive oxygen species. Environ Microbiol. 2018 Apr;20(4):1531-1549. [DOI]

bcnoxAΔ
Bcin05g00350
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AM900412
.Details (GenBank)



BofuT4_P147670.1
.Details (ncbi)
.Details (BotPortal)

BC1G_10823.1
.Details (ncbi)
.Details (BotPortal)

BcT4_4471
.Details (BotPortal)



B0510_1304
.Details (BotPortal)



BcNoxA, NADPH oxydase

Segmuller N, Kokkelink L, Giesbert S, Odinius D, van Kan J, Tudzynski P. NADPH oxidases are involved in differentiation and pathogenicity in Botrytis cinerea. Mol Plant Microbe Interact. 2008 Jun;21(6):808-19. [DOI]

bcnoxA/BΔ
Bcin05g00350
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


Bcin02g04930
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AM900412
.Details (GenBank)



AM900413
.Details (GenBank)



BofuT4_P147670.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P123550.1
.Details (ncbi)
.Details (BotPortal)

BC1G_10823.1
.Details (ncbi)
.Details (BotPortal)

BC1G_14597.1
.Details (ncbi)
.Details (BotPortal)

BcT4_4471
.Details (BotPortal)



BcT4_4756
.Details (BotPortal)



B0510_1304
.Details (BotPortal)



B0510_3341
.Details (BotPortal)



BcNoxA, NADPH oxydase

BcNoxB, NADPH oxydase

Segmuller N, Kokkelink L, Giesbert S, Odinius D, van Kan J, Tudzynski P. NADPH oxidases are involved in differentiation and pathogenicity in Botrytis cinerea. Mol Plant Microbe Interact. 2008 Jun;21(6):808-19. [DOI]

bcnoxBΔ
Bcin02g04930
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AM900413
.Details (GenBank)



BofuT4_P123550.1
.Details (ncbi)
.Details (BotPortal)

BC1G_14597.1
.Details (ncbi)
.Details (BotPortal)

BcT4_4756
.Details (BotPortal)



B0510_3341
.Details (BotPortal)



BcNoxB, NADPH oxydase

Segmuller N, Kokkelink L, Giesbert S, Odinius D, van Kan J, Tudzynski P. NADPH oxidases are involved in differentiation and pathogenicity in Botrytis cinerea. Mol Plant Microbe Interact. 2008 Jun;21(6):808-19. [DOI]

BcNoxDΔ
Bcin01g08690
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P049860.1
.Details (ncbi)
.Details (BotPortal)

BC1G_00043.1
.Details (ncbi)
.Details (BotPortal)

BcT4_5385
.Details (BotPortal)



B0510_848
.Details (BotPortal)



BcNoxD, NADPH oxidase

Siegmund U, Marschall R, Tudzynski P. BcNoxD, a putative ER protein, is a new component of the NADPH oxidase complex in Botrytis cinerea. Mol Microbiol. 2015 Mar;95(6):988-1005. [DOI]

bcnoxRΔ
Bcin03g06840
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AM899997
.Details (GenBank)



BofuT4_P016530.1
.Details (ncbi)
.Details (BotPortal)

BC1G_06200.1
.Details (ncbi)
.Details (BotPortal)

BcnoxR, NADPH oxidase regulator

Segmuller N, Kokkelink L, Giesbert S, Odinius D, van Kan J, Tudzynski P. NADPH oxidases are involved in differentiation and pathogenicity in Botrytis cinerea. Mol Plant Microbe Interact. 2008 Jun;21(6):808-19. [DOI]

Bcnqo1Δ
Bcin06g06350
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P143450.1
.Details (ncbi)
.Details (BotPortal)

BC1G_12671.1
.Details (ncbi)
.Details (BotPortal)

B0510_8871
.Details (BotPortal)



BcNQO1, quinone oxidoreductase

An B, Li B, Li H, Zhang Z, Qin G, Tian S. Aquaporin8 regulates cellular development and reactive oxygen species production, a critical component of virulence in Botrytis cinerea. New Phytol. 2015 Nov 3. [DOI]

Bcnrps1Δ
Bcin12g04980
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P002220.1
.Details (ncbi)
.Details (BotPortal)

BC1G_07442.1
.Details (ncbi)
.Details (BotPortal)

BC1G_07441.1
.Details (ncbi)
.Details (BotPortal)

BcT4_7081
.Details (BotPortal)



B0510_8344
.Details (BotPortal)



Bcnrps1, Nonribosomal peptide synthetase

Fernández-Morales A, Carbú M, González-Rodríguez VE, Papaspyrou S, Garrido C, Cantoral JM. Deletion of the Bcnrps1 Gene Increases the Pathogenicity of Botrytis cinerea and Reduces Its Tolerance to the Exogenous Toxic Substances Spermidine and Pyrimethanil. J Fungi (Basel). 2021 Sep 3;7(9):721. [DOI]

BcOAHΔ
Bcin12g01020
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P132860.1
.Details (ncbi)
.Details (BotPortal)

BC1G_03473.1
.Details (ncbi)
.Details (BotPortal)

BcT4_9555
.Details (BotPortal)



B0510_3095
.Details (BotPortal)



BcOAH, oxaloacetate acetylhydrolase

Yin Y, Wu S, Chui C, Ma T, Jiang H, Hahn M, Ma Z.The MAPK kinase BcMkk1 suppresses oxalic acid biosynthesis via impeding phosphorylation of BcRim15 by BcSch9 in Botrytis cinerea. PLoS Pathog. 2018 Sep 13;14(9):e1007285 [DOI]

bcos4Δ
Bcin11g03560
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


JQ669455
.Details (GenBank)



BofuT4_P080980.1
.Details (ncbi)
.Details (BotPortal)

BC1G_04606.1
.Details (ncbi)
.Details (BotPortal)

BcT4_4325
.Details (BotPortal)



B0510_7960
.Details (BotPortal)



BOS4, BcOS4, mitogen-activated protein kinase

Yang Q, Yan L, Gu Q, Ma Z. The mitogen-activated protein kinase kinase kinase BcOs4 is required for vegetative differentiation and pathogenicity in Botrytis cinerea. Appl Microbiol Biotechnol. 2012 Oct;96(2):481-92. [DOI]

bcp1Δ
Bcin05g06320
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P134920.1
.Details (ncbi)
.Details (BotPortal)

BC1G_01740.1
.Details (ncbi)
.Details (BotPortal)

BCP1, peptidyl-prolylisomerase, cyclophilin A

Viaud M, Brunet-Simon A, Brygoo Y, Pradier JM, Levis C. Cyclophilin A and calcineurin functions investigated by gene inactivation, cyclosporin A inhibition and cDNA arrays approaches in the phytopathogenic fungus Botrytis cinerea. Mol Microbiol. 2003 Dec;50(5):1451-65. [DOI]

BcpacCΔ
Bcin10g05950
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AY647218
.Details (GenBank)



BC1G_15891.1
.Details (ncbi)
.Details (BotPortal)

BcT4_10120
.Details (BotPortal)



B0510_9870
.Details (BotPortal)



BcpacC, C2H2 transcription factor, pH regulator

Rascle C, Dieryckx C, Dupuy JW, Muszkieta L, Souibgui E, Droux M, Bruel C, Girard V, Poussereau N. The pH regulator PacC: a host-dependent virulence factor in Botrytis cinerea.Environ Microbiol Rep. 2018 Oct;10(5):555-568 [DOI]

BcPCK1Δ
Bcin16g00630
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P027410.1
.Details (ncbi)
.Details (BotPortal)

BC1G_14651.1
.Details (ncbi)
.Details (BotPortal)

BcT4_7193
.Details (BotPortal)



B0510_8551
.Details (BotPortal)



BcPCK1, phosphoenolpyruvate carboxykinase

Liu JK, Chang HW, Liu Y, Qin YH, Ding YH, Wang L, Zhao Y, Zhang MZ, Cao SN, Li LT, Liu W, Li GH, Qin QM. The key gluconeogenic gene PCK1 is crucial for virulence of Botrytis cinerea via initiating its conidial germination and host penetration. Environ Microbiol. 2018 May;20(5):1794-1814 [DOI]

bcpde1/2Δ
Bcin10g00450
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


Bcin08g00550
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P071720.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P010960.1
.Details (ncbi)
.Details (BotPortal)

BC1G_07334.1
.Details (ncbi)
.Details (BotPortal)

BC1G_08417.1
.Details (ncbi)
.Details (BotPortal)

BcT4_2651
.Details (BotPortal)



BcT4_9656
.Details (BotPortal)



B0510_5711
.Details (BotPortal)



B0510_6935
.Details (BotPortal)



BcPDE1, cAMP phosphodiesterase

BcPDE2, cAMP phosphodiesterase

Harren K, Brandhoff B, Knodler M, Tudzynski B. The High-Affinity Phosphodiesterase BcPde2 Has Impact on Growth, Differentiation and Virulence of the Phytopathogenic Ascomycete Botrytis cinerea. PLoS One. 2013 Nov 12;8(11):e78525. [DOI]

bcpde1Δ
Bcin10g00450
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P071720.1
.Details (ncbi)
.Details (BotPortal)

BC1G_07334.1
.Details (ncbi)
.Details (BotPortal)

BcT4_2651
.Details (BotPortal)



B0510_5711
.Details (BotPortal)



BcPDE1, cAMP phosphodiesterase

Harren K, Brandhoff B, Knodler M, Tudzynski B. The High-Affinity Phosphodiesterase BcPde2 Has Impact on Growth, Differentiation and Virulence of the Phytopathogenic Ascomycete Botrytis cinerea. PLoS One. 2013 Nov 12;8(11):e78525. [DOI]

bcpde2Δ
Bcin08g00550
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P010960.1
.Details (ncbi)
.Details (BotPortal)

BC1G_08417.1
.Details (ncbi)
.Details (BotPortal)

BcT4_9656
.Details (BotPortal)



B0510_6935
.Details (BotPortal)



BcPDE2, cAMP phosphodiesterase

Harren K, Brandhoff B, Knodler M, Tudzynski B. The High-Affinity Phosphodiesterase BcPde2 Has Impact on Growth, Differentiation and Virulence of the Phytopathogenic Ascomycete Botrytis cinerea. PLoS One. 2013 Nov 12;8(11):e78525. [DOI]

BcPDI1Δ
Bcin06g05730
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P142440.1
.Details (ncbi)
.Details (BotPortal)

BC1G_02225.1
.Details (ncbi)
.Details (BotPortal)

BC1G_02223.1
.Details (ncbi)
.Details (BotPortal)

B0510_4360
.Details (BotPortal)



BcPDI1, protein disulfide-isomerase 1

Marschall R, Tudzynski P. The Protein Disulfide Isomerase of Botrytis cinerea: An ER Protein Involved in Protein Folding and Redox Homeostasis Influences NADPH Oxidase Signaling Processes. Front Microbiol. 2017 May 29;8:960. [DOI]

bcpg1Δ
Bcin14g00850
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


U68715
.Details (GenBank)



AY665552
.Details (GenBank)



BofuT4_P089370.1
.Details (ncbi)
.Details (BotPortal)

BC1G_11143.1
.Details (ncbi)
.Details (BotPortal)

BcT4_6002
.Details (BotPortal)



B0510_5388
.Details (BotPortal)



BcPG1, endopolygalacturonase 1

ten Have A, Mulder W, Visser J, van Kan JA The endopolygalacturonase gene Bcpg1 is required for full virulence of Botrytis cinerea. Mol Plant Microbe Interact. 1998 Oct;11(10):1009-16. [DOI]

bcpg1/bcpme1Δ
Bcin14g00850
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


Bcin08g02970
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


U68715
.Details (GenBank)



AY665552
.Details (GenBank)



AJ309701
.Details (GenBank)



BofuT4_P089370.1
.Details (ncbi)
.Details (BotPortal)






BofuT4_P131540.1
.Details (ncbi)
.Details (BotPortal)

BC1G_11143.1
.Details (ncbi)
.Details (BotPortal)






BC1G_06840.1
.Details (ncbi)
.Details (BotPortal)

BcT4_6002
.Details (BotPortal)



B0510_5388
.Details (BotPortal)



BcPG1, endopolygalacturonase 1

BcPME1, pectin methyl esterase 1

Kars I, McCalman M, Wagemakers L, VAN Kan JA. Functional analysis of Botrytis cinerea pectin methylesterase genes by PCR-based targeted mutagenesis: Bcpme1 and Bcpme2 are dispensable for virulence of strain B05.10. Mol Plant Pathol. 2005 Nov 1;6(6):641-52. [DOI]

bcpg2Δ
Bcin14g00610
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


U68716
.Details (GenBank)



AY665553
.Details (GenBank)



BofuT4_P089000.1
.Details (ncbi)
.Details (BotPortal)

BC1G_13367.1
.Details (ncbi)
.Details (BotPortal)

BcPG2, BcPGA2, endopolygalacturonase enzyme

Kars I, Krooshof GH, Wagemakers L, Joosten R, Benen JA, van Kan JA. Necrotizing activity of five Botrytis cinerea endopolygalacturonases produced in Pichia pastoris. Plant J. 2005 Jul;43(2):213-25. [DOI]

BcPGDΔ
Bcin07g02610
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P118600.1
.Details (ncbi)
.Details (BotPortal)

BC1G_02744.1
.Details (ncbi)
.Details (BotPortal)

BcT4_3853
.Details (BotPortal)



B0510_3889
.Details (BotPortal)



BcPGD, 6-phosphogluconate dehydrogenase

Li H, Zhang Z, He C, Qin G, Tian S. Comparative Proteomics Reveals the Potential Targets of BcNoxR, a Putative Regulatory Subunit of NADPH Oxidase of Botrytis cinerea. Mol Plant Microbe Interact. 2016 Dec;29(12):990-1003. [DOI]

bcpic5Δ
Bcin12g01360
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


EU914953
.Details (GenBank)



DQ140393
.Details (GenBank)



BofuT4_P133320.1
.Details (ncbi)
.Details (BotPortal)

BC1G_03430.1
.Details (ncbi)
.Details (BotPortal)

BcT4_9183
.Details (BotPortal)



B0510_3064
.Details (BotPortal)



BcPIC5, BcFKBP12, similar to FK506-binding protein/peptidyl-prolyl cis-trans isomerase

Gioti A, Simon A, Le Pêcheur P, Giraud C, Pradier JM, Viaud M, Levis C. Expression profiling of Botrytis cinerea genes identifies three patterns of up-regulation in planta and an FKBP12 protein affecting pathogenicity. J Mol Biol. 2006 Apr 28;358(2):372-86. Erratum in: J Mol Biol. 2006 Dec 1;364(3):550. [DOI]

bcpie3Δ
Bcin15g01490
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


DQ140394
.Details (GenBank)



BofuT4_P006120.1
.Details (ncbi)
.Details (BotPortal)

BC1G_13631.1
.Details (ncbi)
.Details (BotPortal)

BcT4_5550
.Details (BotPortal)



B0510_2480
.Details (BotPortal)



EBDP1, BcPIE3, emopamil-binding protein

Gioti A, Pradier JM, Fournier E, Le Pêcheur P, Giraud C, Debieu D, Bach J, Leroux P, Levis C. A Botrytis cinerea emopamil binding domain protein, required for full virulence, belongs to a eukaryotic superfamily which has expanded in euascomycetes. Eukaryot Cell. 2008 Feb;7(2):368-78. [DOI]

bcpio8Δ
Bcin03g07390
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P015740.1
.Details (ncbi)
.Details (BotPortal)

BC1G_11685.1
.Details (ncbi)
.Details (BotPortal)

BcT4_180
.Details (BotPortal)



B0510_24
.Details (BotPortal)



BcPIO8, glucose-repressible gene protein

Choquer M, Robin G, Le Pêcheur P, Giraud C, Levis C, Viaud M. Ku70 or Ku80 deficiencies in the fungus Botrytis cinerea facilitate targeting of genes that are hard to knock out in a wild-type context. FEMS Microbiol Lett. 2008 Dec;289(2):225-32. [DOI]

bcpka1Δ
Bcin16g01130
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AM948966
.Details (GenBank)



BofuT4_P083080.1
.Details (ncbi)
.Details (BotPortal)

BC1G_10410.1
.Details (ncbi)
.Details (BotPortal)

BcT4_7237
.Details (BotPortal)



B0510_8506
.Details (BotPortal)



BcPKA1, PKA catalytic subunit

Schumacher J, Kokkelink L, Huesmann C, Jimenez-Teja D, Collado IG, Barakat R, Tudzynski P, Tudzynski B. The cAMP-dependent signaling pathway and its role in conidial germination, growth, and virulence of the gray mold Botrytis cinerea. Mol Plant Microbe Interact. 2008 Nov;21(11):1443-59. [DOI]

bcpka2Δ
Bcin08g03910
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AM948967
.Details (GenBank)



BofuT4_P084160.1
.Details (ncbi)
.Details (BotPortal)

BC1G_07542.1
.Details (ncbi)
.Details (BotPortal)

BcT4_3329
.Details (BotPortal)



B0510_6521
.Details (BotPortal)



BcPKA2, PKA catalytic subunit

Schumacher J, Kokkelink L, Huesmann C, Jimenez-Teja D, Collado IG, Barakat R, Tudzynski P, Tudzynski B. The cAMP-dependent signaling pathway and its role in conidial germination, growth, and virulence of the gray mold Botrytis cinerea. Mol Plant Microbe Interact. 2008 Nov;21(11):1443-59. [DOI]

bcpkarΔ
Bcin04g01630
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AM948968
.Details (GenBank)



BofuT4_P115900.1
.Details (ncbi)
.Details (BotPortal)

BC1G_10590.1
.Details (ncbi)
.Details (BotPortal)

BcT4_2517
.Details (BotPortal)



B0510_7255
.Details (BotPortal)



BcPKAR, component of the cAMP cascade : PKA regulatory subunit

Schumacher J, Kokkelink L, Huesmann C, Jimenez-Teja D, Collado IG, Barakat R, Tudzynski P, Tudzynski B. The cAMP-dependent signaling pathway and its role in conidial germination, growth, and virulence of the gray mold Botrytis cinerea. Mol Plant Microbe Interact. 2008 Nov;21(11):1443-59. [DOI]

Bcpks12/13Δ
Bcin02g08770
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


Bcin03g08050
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AY495617
.Details (GenBank)



AY495618
.Details (GenBank)



BofuT4_P088370.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P077210.1
.Details (ncbi)
.Details (BotPortal)

BC1G_06876.1
.Details (ncbi)
.Details (BotPortal)

BC1G_14497.1
.Details (ncbi)
.Details (BotPortal)

BcT4_9080
.Details (BotPortal)



BcT4_122
.Details (BotPortal)



B0510_6611
.Details (BotPortal)



B0510_7826
.Details (BotPortal)



BcPKS12, polyketide synthase, involved in DHN melanin biosynthesis

BcPKS13, polyketide synthase, involved in DHN melanin biosynthesis

Schumacher J. DHN melanin biosynthesis in the plant pathogenic fungus Botrytis?cinerea is based on two developmentally regulated key enzyme (PKS)-encoding genes. Mol Microbiol. 2015 Oct 30. [DOI]

Bcpks12Δ
Bcin02g08770
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AY495617
.Details (GenBank)



BofuT4_P088370.1
.Details (ncbi)
.Details (BotPortal)

BC1G_06876.1
.Details (ncbi)
.Details (BotPortal)

BcT4_9080
.Details (BotPortal)



B0510_6611
.Details (BotPortal)



BcPKS12, polyketide synthase, involved in DHN melanin biosynthesis

Schumacher J. DHN melanin biosynthesis in the plant pathogenic fungus Botrytis?cinerea is based on two developmentally regulated key enzyme (PKS)-encoding genes. Mol Microbiol. 2015 Oct 30. [DOI]

Bcpks13Δ
Bcin03g08050
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AY495618
.Details (GenBank)



BofuT4_P077210.1
.Details (ncbi)
.Details (BotPortal)

BC1G_14497.1
.Details (ncbi)
.Details (BotPortal)

BcT4_122
.Details (BotPortal)



B0510_7826
.Details (BotPortal)



BcPKS13, polyketide synthase, involved in DHN melanin biosynthesis

Zhang C, He Y, Zhu P, Chen L, Wang Y, Ni B, Xu L. Loss of bcbrn1 and bcpks13 in Botrytis cinerea Not Only Blocks Melanization But Also Increases Vegetative Growth and Virulence. Mol Plant Microbe Interact. 2015 Oct;28(10):1091-101. [DOI]

Bcpks13Δ
Bcin03g08050
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AY495618
.Details (GenBank)



BofuT4_P077210.1
.Details (ncbi)
.Details (BotPortal)

BC1G_14497.1
.Details (ncbi)
.Details (BotPortal)

BcT4_122
.Details (BotPortal)



B0510_7826
.Details (BotPortal)



BcPKS13, polyketide synthase, involved in DHN melanin biosynthesis

Schumacher J. DHN melanin biosynthesis in the plant pathogenic fungus Botrytis?cinerea is based on two developmentally regulated key enzyme (PKS)-encoding genes. Mol Microbiol. 2015 Oct 30. [DOI]

Bcpks8Δ
Bcin07g02920
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AY495613
.Details (GenBank)



BofuT4_P119030.1
.Details (ncbi)
.Details (BotPortal)

BC1G_02704.1
.Details (ncbi)
.Details (BotPortal)

BcT4_3884
.Details (BotPortal)



B0510_3920
.Details (BotPortal)



BcPKS8, polyketide synthase

Kelloniemi J, Trouvelot S, Hloir MC, Simon A, Dalmais B, Frettinger P, Cimerman A, Fermaud M, Roudet J, Baulande S, Bruel C, Choquer M, Couvelard L, Duthieuw M, Ferrarini A, Flors V, Le Pcheur P, Loisel E, Morgant G, Poussereau N, Pradier JM, Rascle C, Tdra L, Poinssot B, Viaud M. Analysis of the molecular dialogue between gray mold (Botrytis cinerea) and grapevine (Vitis vinifera) reveals a clear shift in defense mechanisms during berry ripening. Mol Plant Microbe Interact. 2015 Aug 12. [DOI]

bcplc1Δ
Bcin05g02840
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


U65685
.Details (GenBank)



BofuT4_P042430.1
.Details (ncbi)
.Details (BotPortal)

BC1G_01559.1
.Details (ncbi)
.Details (BotPortal)

BcT4_7992
.Details (BotPortal)



B0510_1524
.Details (BotPortal)



BcPLC1, phosphoinositide-specific phospholipase C

Schumacher J, Viaud M, Simon A, Tudzynski B. The Galpha subunit BCG1, the phospholipase C (BcPLC1) and the calcineurin phosphatase co-ordinately regulate gene expression in the grey mould fungus Botrytis cinerea. Mol Microbiol. 2008 Mar;67(5):1027-50. [DOI]

bcpls1Δ(B0510)
Bcin09g06130
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AJ504994
.Details (GenBank)



BofuT4_P114010.1
.Details (ncbi)
.Details (BotPortal)

BC1G_09439.1
.Details (ncbi)
.Details (BotPortal)

BcT4_2014
.Details (BotPortal)



B0510_5155
.Details (BotPortal)



BcPLS1, tetraspanin

Siegmund U, Heller J, van Kan JA, Tudzynski P. The NADPH Oxidase Complexes in Botrytis cinerea: Evidence for a Close Association with the ER and the Tetraspanin Pls1. PLoS One. 2013;8(2):e55879. [DOI]

bcpls1Δ(T4)
Bcin09g06130
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AJ504994
.Details (GenBank)



BofuT4_P114010.1
.Details (ncbi)
.Details (BotPortal)

BC1G_09439.1
.Details (ncbi)
.Details (BotPortal)

BcT4_2014
.Details (BotPortal)



B0510_5155
.Details (BotPortal)



BcPLS1, tetraspanin

Gourgues M, Brunet-Simon A, Lebrun MH, Levis C. The tetraspanin BcPls1 is required for appressorium-mediated penetration of Botrytis cinerea into host plant leaves. Mol Microbiol. 2004 Feb;51(3):619-29. [DOI]

bcpme1Δ
Bcin08g02970
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AJ309701
.Details (GenBank)



BofuT4_P131540.1
.Details (ncbi)
.Details (BotPortal)

BC1G_06840.1
.Details (ncbi)
.Details (BotPortal)

BcPME1, pectin methyl esterase 1

Kars I, McCalman M, Wagemakers L, VAN Kan JA. Functional analysis of Botrytis cinerea pectin methylesterase genes by PCR-based targeted mutagenesis: Bcpme1 and Bcpme2 are dispensable for virulence of strain B05.10. Mol Plant Pathol. 2005 Nov 1;6(6):641-52. [DOI]

Valette-Collet O., Cimerman A., Reignault P., Levis C. and Boccara M. Disruption of Botrytis cinerea pectin methylesterase gene bcpme1 reduces virulence on several host plants. Mol Plant Microbe Interact. 2003 Apr;16(4):360-7. [DOI]

bcpme1/bcpme2Δ
Bcin08g02970
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


Bcin03g03830
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AJ309701
.Details (GenBank)



AJ428403
.Details (GenBank)



BofuT4_P131540.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P021040.1
.Details (ncbi)
.Details (BotPortal)

BC1G_06840.1
.Details (ncbi)
.Details (BotPortal)

BC1G_00617.1
.Details (ncbi)
.Details (BotPortal)






BcT4_509
.Details (BotPortal)








B0510_344
.Details (BotPortal)



BcPME1, pectin methyl esterase 1

BcPME2, pectin methyl esterase 2

Kars I, McCalman M, Wagemakers L, VAN Kan JA. Functional analysis of Botrytis cinerea pectin methylesterase genes by PCR-based targeted mutagenesis: Bcpme1 and Bcpme2 are dispensable for virulence of strain B05.10. Mol Plant Pathol. 2005 Nov 1;6(6):641-52. [DOI]

bcpme2Δ
Bcin03g03830
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AJ428403
.Details (GenBank)



BofuT4_P021040.1
.Details (ncbi)
.Details (BotPortal)

BC1G_00617.1
.Details (ncbi)
.Details (BotPortal)

BcT4_509
.Details (BotPortal)



B0510_344
.Details (BotPortal)



BcPME2, pectin methyl esterase 2

Kars I, McCalman M, Wagemakers L, VAN Kan JA. Functional analysis of Botrytis cinerea pectin methylesterase genes by PCR-based targeted mutagenesis: Bcpme1 and Bcpme2 are dispensable for virulence of strain B05.10. Mol Plant Pathol. 2005 Nov 1;6(6):641-52. [DOI]

Bcpmr1Δ
Bcin07g02480
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P118380.1
.Details (ncbi)
.Details (BotPortal)

BC1G_02758.1
.Details (ncbi)
.Details (BotPortal)

BcT4_3839
.Details (BotPortal)



B0510_3875
.Details (BotPortal)



BcPmr1, P-type Ca2+/Mn2+ -ATPase

Plaza V, Lagues Y, Carvajal M, Perez-Garcia LA, Mora-Montes HM, Canessa P, Larrondo LF, Castillo L. bcpmr1 encodes a P-type Ca2+/Mn2+-ATPase mediating cell-wall integrity and virulence in the phytopathogen Botrytis cinerea. Fungal Genet Biol. 2015 Feb 9;76:36-46 [DOI]

bcpmt1Δ
Bcin01g02310
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P160540.1
.Details (ncbi)
.Details (BotPortal)

BC1G_12913.1
.Details (ncbi)
.Details (BotPortal)

BcT4_6258
.Details (BotPortal)



B0510_7424
.Details (BotPortal)



BcPMT1, protein o-mannosyltransferase, subfamily PMT1

Gonzalez M, Brito N, Frias M, Gonzalez C. Botrytis cinerea protein O-mannosyltransferases play critical roles in morphogenesis, growth, and virulence. PLoS One. 2013 Jun 6;8(6):e65924. [DOI]

bcpmt2Δ
Bcin15g03420
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P003410.1
.Details (ncbi)
.Details (BotPortal)

BC1G_02981.1
.Details (ncbi)
.Details (BotPortal)

BcPMT2, protein o-mannosyltransferase, subfamily PMT2

Gonzalez M, Brito N, Frias M, Gonzalez C. Botrytis cinerea protein O-mannosyltransferases play critical roles in morphogenesis, growth, and virulence. PLoS One. 2013 Jun 6;8(6):e65924. [DOI]

bcpmt4Δ
Bcin02g01980
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P109250.1
.Details (ncbi)
.Details (BotPortal)

BC1G_02548.1
.Details (ncbi)
.Details (BotPortal)

BcT4_7684
.Details (BotPortal)



B0510_8054
.Details (BotPortal)



BcPMT4, protein o-mannosyltransferase, subfamily PMT4

Gonzalez M, Brito N, Frias M, Gonzalez C. Botrytis cinerea protein O-mannosyltransferases play critical roles in morphogenesis, growth, and virulence. PLoS One. 2013 Jun 6;8(6):e65924. [DOI]

bcpp2acΔ
Bcin12g03880
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P000880.1
.Details (ncbi)
.Details (BotPortal)

BC1G_08696.1
.Details (ncbi)
.Details (BotPortal)

BcT4_6993
.Details (BotPortal)



B0510_2838
.Details (BotPortal)



BcPP2Ac, similar to serine/threonine protein phosphatase 2A catalytic subunit

Giesbert S, Schumacher J, Kupas V, Espino J, Segmuller N, Haeuser-Hahn I, Schreier PH, Tudzynski P. Identification of pathogenesis-associated genes by T-DNA-mediated insertional mutagenesis in Botrytis cinerea: a type 2A phosphoprotein phosphatase and an SPT3 transcription factor have significant impact on virulence. Mol Plant Microbe Interact. 2012 Apr;25(4):481-95. [DOI]

BcPRO40Δ
Bcin01g06080
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P046110.1
.Details (ncbi)
.Details (BotPortal)

BC1G_00398.1
.Details (ncbi)
.Details (BotPortal)

BcT4_5151
.Details (BotPortal)



B0510_1077
.Details (BotPortal)



BcPRO40, Presumable scaffold protein for the CW1 pathway in filamentous fungi

Yin Y, Wu S, Chui C, Ma T, Jiang H, Hahn M, Ma Z.The MAPK kinase BcMkk1 suppresses oxalic acid biosynthesis via impeding phosphorylation of BcRim15 by BcSch9 in Botrytis cinerea. PLoS Pathog. 2018 Sep 13;14(9):e1007285 [DOI]

BcpsdΔ
Bcin01g10150
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P068910.1
.Details (ncbi)
.Details (BotPortal)

BC1G_05297.1
.Details (ncbi)
.Details (BotPortal)

BcT4_8815
.Details (BotPortal)



BcPSD, phosphatidylserine decarboxylase

An B, Li B, Li H, Zhang Z, Qin G, Tian S. Aquaporin8 regulates cellular development and reactive oxygen species production, a critical component of virulence in Botrytis cinerea. New Phytol. 2015 Nov 3. [DOI]

BcPTC1Δ
Bcin03g01720
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P061930.1
.Details (ncbi)
.Details (BotPortal)

BC1G_01996.1
.Details (ncbi)
.Details (BotPortal)

BcT4_691
.Details (BotPortal)



B0510_532
.Details (BotPortal)



BcPTC1, Type 2C Ser/Thr phosphatase (PP2C)

Yang Q, Jiang J, Mayr C, Hahn M, Ma Z. Involvement of two type 2C protein phosphatases BcPtc1 and BcPtc3 in the regulation of multiple stress tolerance and virulence of Botrytis cinerea. Environ Microbiol. 2013 Mar 28. [DOI]

BcPTC3Δ
Bcin04g00340
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


CCD51132
.Details (GenBank)



BofuT4_P084940.1
.Details (ncbi)
.Details (BotPortal)

BC1G_16333.1
.Details (ncbi)
.Details (BotPortal)

BcPTC3, Type 2C Ser/Thr phosphatase (PP2C)

Yang Q, Jiang J, Mayr C, Hahn M, Ma Z. Involvement of two type 2C protein phosphatases BcPtc1 and BcPtc3 in the regulation of multiple stress tolerance and virulence of Botrytis cinerea. Environ Microbiol. 2013 Mar 28. [DOI]

BcPTC5Δ
Bcin04g06290
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P008590.1
.Details (ncbi)
.Details (BotPortal)

BC1G_03897.1
.Details (ncbi)
.Details (BotPortal)

BcT4_2095
.Details (BotPortal)



B0510_1945
.Details (BotPortal)



BcPTC5, Type 2C Ser/Thr phosphatase (PP2C)

Yang Q, Jiang J, Mayr C, Hahn M, Ma Z. Involvement of two type 2C protein phosphatases BcPtc1 and BcPtc3 in the regulation of multiple stress tolerance and virulence of Botrytis cinerea. Environ Microbiol. 2013 Mar 28. [DOI]

BcPTC6Δ
Bcin02g02840
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BC1G_02433.1
.Details (ncbi)
.Details (BotPortal)

BcT4_4952
.Details (BotPortal)



B0510_3533
.Details (BotPortal)



BcPTC6, Type 2C Ser/Thr phosphatase (PP2C)

Yang Q, Jiang J, Mayr C, Hahn M, Ma Z. Involvement of two type 2C protein phosphatases BcPtc1 and BcPtc3 in the regulation of multiple stress tolerance and virulence of Botrytis cinerea. Environ Microbiol. 2013 Mar 28. [DOI]

BcPtpAΔ
Bcin15g01330
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P006330.1
.Details (ncbi)
.Details (BotPortal)

BC1G_07812.1
.Details (ncbi)
.Details (BotPortal)

BcT4_5536
.Details (BotPortal)



B0510_2466
.Details (BotPortal)



BcPtpA, Protein Tyrosine Phosphatase

Yang Q, Yu F, Yin Y, Ma Z. Involvement of protein tyrosine phosphatases BcPtpA and BcPtpB in regulation of vegetative development, virulence and multi-stress tolerance in Botrytis cinerea. PLoS One. 2013 Apr 9;8(4):e61307. [DOI]

BcPtpBΔ
Bcin08g00850
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P010530.1
.Details (ncbi)
.Details (BotPortal)

BC1G_08376.1
.Details (ncbi)
.Details (BotPortal)

BcT4_9628
.Details (BotPortal)



B0510_6964
.Details (BotPortal)



BcPtpB, Protein Tyrosine Phosphatase

Yang Q, Yu F, Yin Y, Ma Z. Involvement of protein tyrosine phosphatases BcPtpA and BcPtpB in regulation of vegetative development, virulence and multi-stress tolerance in Botrytis cinerea. PLoS One. 2013 Apr 9;8(4):e61307. [DOI]

bcracΔ
Bcin01g02000
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BcT4_6229
.Details (BotPortal)



B0510_7705
.Details (BotPortal)



BcRAC, Rac-like GTPase

Minz Dub A, Kokkelink L, Tudzynski , Tudzynski P, Sharon A. Involvement of Botrytis cinerea Small GTPases BcRAS1 and BcRAC in Differentiation, Virulence, and the Cell Cycle. Eukaryot Cell. 2013 Dec;12(12):1609-1618 [DOI]

bcras1Δ
Bcin12g05760
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BC1G_10176.1
.Details (ncbi)
.Details (BotPortal)

BcRAS1, Ras-like GTPase

Minz Dub A, Kokkelink L, Tudzynski , Tudzynski P, Sharon A. Involvement of Botrytis cinerea Small GTPases BcRAS1 and BcRAC in Differentiation, Virulence, and the Cell Cycle. Eukaryot Cell. 2013 Dec;12(12):1609-1618 [DOI]

bcras2Δ
Bcin04g03140
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P143580.1
.Details (ncbi)
.Details (BotPortal)

BC1G_04437.1
.Details (ncbi)
.Details (BotPortal)

BcT4_2385
.Details (BotPortal)



B0510_2229
.Details (BotPortal)



BcRAS2, Ras-like GTPase

Schumacher J, Kokkelink L, Huesmann C, Jimenez-Teja D, Collado IG, Barakat R, Tudzynski P, Tudzynski B. The cAMP-dependent signaling pathway and its role in conidial germination, growth, and virulence of the gray mold Botrytis cinerea. Mol Plant Microbe Interact. 2008 Nov;21(11):1443-59. [DOI]

bcrcn1Δ
Bcin09g02820
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P054220.1
.Details (ncbi)
.Details (BotPortal)

BC1G_07084.1
.Details (ncbi)
.Details (BotPortal)

BcT4_1720
.Details (BotPortal)



B0510_4609
.Details (BotPortal)



BcRCN1, regulator of calcineurin

Harren K, Schumacher J, Tudzynski B. The Ca(2+)/Calcineurin-Dependent Signaling Pathway in the Gray Mold Botrytis cinerea: The Role of Calcipressin in Modulating Calcineurin Activity. PLoS One. 2012;7(7):e41761. [DOI]

bcreg1Δ
Bcin03g07420
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P015630.1
.Details (ncbi)
.Details (BotPortal)

BC1G_11680.1
.Details (ncbi)
.Details (BotPortal)

BcT4_177
.Details (BotPortal)



B0510_21
.Details (BotPortal)



BcReg1, putative transcriptional regulator

Michielse CB, Becker M, Heller J, Moraga J, Collado IG, Tudzynski P. The Botrytis cinerea Reg1 protein, a putative transcriptional regulator, is required for pathogenicity, conidiogenesis, and the production of secondary metabolites. Mol Plant Microbe Interact. 2011 Sep;24(9):1074-85. [DOI]

Bcrid1Δ
Bcin03g04600
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P019990.1
.Details (ncbi)
.Details (BotPortal)

BC1G_00725.1
.Details (ncbi)
.Details (BotPortal)

BcT4_430
.Details (BotPortal)



B0510_272
.Details (BotPortal)



Bcrid1, DNA methyltransferase

Zhang Z, He C, Chen Y, Li B, Tian S. DNA Methyltransferases Regulate Pathogenicity of Botrytis cinerea to Horticultural Crops. J Fungi (Basel). 2021 Aug 14;7(8):659. [DOI]

Bcrid1/Bcrid2Δ
Bcin03g04600
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


Bcin09g05050
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P019990.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P013050.1
.Details (ncbi)
.Details (BotPortal)

BC1G_00725.1
.Details (ncbi)
.Details (BotPortal)

BC1G_09864.1
.Details (ncbi)
.Details (BotPortal)

BcT4_430
.Details (BotPortal)



BcT4_1918
.Details (BotPortal)



B0510_272
.Details (BotPortal)



B0510_5055
.Details (BotPortal)



Bcrid1, DNA methyltransferase

Bcrid2, DNA methyltransferase

Zhang Z, He C, Chen Y, Li B, Tian S. DNA Methyltransferases Regulate Pathogenicity of Botrytis cinerea to Horticultural Crops. J Fungi (Basel). 2021 Aug 14;7(8):659. [DOI]

Bcrid2Δ
Bcin09g05050
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P013050.1
.Details (ncbi)
.Details (BotPortal)

BC1G_09864.1
.Details (ncbi)
.Details (BotPortal)

BcT4_1918
.Details (BotPortal)



B0510_5055
.Details (BotPortal)



Bcrid2, DNA methyltransferase

Zhang Z, He C, Chen Y, Li B, Tian S. DNA Methyltransferases Regulate Pathogenicity of Botrytis cinerea to Horticultural Crops. J Fungi (Basel). 2021 Aug 14;7(8):659. [DOI]

BcRIM15Δ
Bcin15g00280
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P024120.1
.Details (ncbi)
.Details (BotPortal)

BC1G_12394.1
.Details (ncbi)
.Details (BotPortal)

BcT4_5443
.Details (BotPortal)



B0510_2373
.Details (BotPortal)



BcRIM15, Protein kinase involved in cell proliferation in response to nutrients

Yin Y, Wu S, Chui C, Ma T, Jiang H, Hahn M, Ma Z.The MAPK kinase BcMkk1 suppresses oxalic acid biosynthesis via impeding phosphorylation of BcRim15 by BcSch9 in Botrytis cinerea. PLoS Pathog. 2018 Sep 13;14(9):e1007285 [DOI]

bcsak1Δ
Bcin15g03580
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AM236311
.Details (GenBank)



BofuT4_P003200.1
.Details (ncbi)
.Details (BotPortal)

BC1G_03001.1
.Details (ncbi)
.Details (BotPortal)

BcT4_5734
.Details (BotPortal)



B0510_2665
.Details (BotPortal)



BcSAK1, mitogen-activated protein kinase

Segmuller N, Ellendorf U, Tudzynski B, Tudzynski P. BcSAK1, a stress-activated mitogen-activated protein kinase, is involved in vegetative differentiation and pathogenicity in Botrytis cinerea. Eukaryot Cell. 2007 Feb;6(2):211-21. [DOI]

Bcsas1Δ
Bcin01g00550
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P154500.1
.Details (ncbi)
.Details (BotPortal)

BC1G_14039.1
.Details (ncbi)
.Details (BotPortal)

BcT4_6098
.Details (BotPortal)



B0510_7577
.Details (BotPortal)



Bcsas1, Rab GTPase

Zhang Z, Qin G, Li B, Tian S. Knocking out Bcsas1 in Botrytis cinerea impacts growth, development, and secretion of extracellular proteins which decreases virulence. Mol Plant Microbe Interact. 2014 Jun;27(6):590-600. [DOI]

BcSas2Δ
Bcin07g00450
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P073490.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P073480.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P073470.1
.Details (ncbi)
.Details (BotPortal)

BC1G_05395.1
.Details (ncbi)
.Details (BotPortal)

BcT4_3655
.Details (BotPortal)



B0510_7205
.Details (BotPortal)



BcSas2, histone acetyltransferase

Wang G, Song L, Bai T, Liang W. BcSas2-mediated histone H4K16 acetylation is critical for virulence and oxidative stress response of Botrytis cinerea [published online ahead of print, 2020 Jul 16]. Mol Plant Microbe Interact. 2020;10.1094/MPMI-06-20-0149-R. [DOI]

Bcscd1Δ
Bcin03g08110
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P077300.1
.Details (ncbi)
.Details (BotPortal)

BC1G_14488.1
.Details (ncbi)
.Details (BotPortal)

BcT4_116
.Details (BotPortal)



B0510_7820
.Details (BotPortal)



BcSCD1, scytalone dehydratase, involved in DHN melanin biosynthesis

Schumacher J. DHN melanin biosynthesis in the plant pathogenic fungus Botrytis?cinerea is based on two developmentally regulated key enzyme (PKS)-encoding genes. Mol Microbiol. 2015 Oct 30. [DOI]

BcSCH9Δ
Bcin11g06110
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


AJ290951
.Details (GenBank)



BofuT4_P090340.1
.Details (ncbi)
.Details (BotPortal)

BC1G_14873.1
.Details (ncbi)
.Details (BotPortal)

BcT4_4097
.Details (BotPortal)



B0510_6331
.Details (BotPortal)



BcSCH9, Sch9-like cAMP-dependent protein kinase catalytic subunit

Yin Y, Wu S, Chui C, Ma T, Jiang H, Hahn M, Ma Z.The MAPK kinase BcMkk1 suppresses oxalic acid biosynthesis via impeding phosphorylation of BcRim15 by BcSch9 in Botrytis cinerea. PLoS Pathog. 2018 Sep 13;14(9):e1007285 [DOI]

Bcsec14Δ
Bcin02g08570
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P067910.1
.Details (ncbi)
.Details (BotPortal)

BC1G_16075.1
.Details (ncbi)
.Details (BotPortal)

BcT4_9097
.Details (BotPortal)



B0510_6628
.Details (BotPortal)



Bcsec14, Involved in protein secretion

Zhang Z, Li H, Qin G, He C, Li B, Tian S. The MADS-Box transcription factor Bcmads1 is required for growth, sclerotia production and pathogenicity of Botrytis cinerea. Sci Rep. 2016 Sep 23;6:33901. [DOI]

Bcsec31Δ
Bcin14g04650
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P098700.1
.Details (ncbi)
.Details (BotPortal)

BC1G_15350.1
.Details (ncbi)
.Details (BotPortal)

BcT4_9359
.Details (BotPortal)



B0510_9929
.Details (BotPortal)



Bcsec31, Involved in protein secretion

Zhang Z, Li H, Qin G, He C, Li B, Tian S. The MADS-Box transcription factor Bcmads1 is required for growth, sclerotia production and pathogenicity of Botrytis cinerea. Sci Rep. 2016 Sep 23;6:33901. [DOI]

Bcsec3Δ
Bcin03g04910
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P019440.1
.Details (ncbi)
.Details (BotPortal)

BC1G_00783.1
.Details (ncbi)
.Details (BotPortal)

BC1G_00782.1
.Details (ncbi)
.Details (BotPortal)

BcT4_402
.Details (BotPortal)



B0510_243
.Details (BotPortal)



Bcsec3, Exocyst subunit

Ma Z, Chen Z, Wang W, Wang K, Zhu T. Exocyst subunit BcSec3 regulates growth, development and pathogenicity in Botrytis cinerea. J Biosci. 2020;45:125 [DOI]

bcsep1Δ
Bcin16g04910
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P151920.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P151910.1
.Details (ncbi)
.Details (BotPortal)

BC1G_10712.1
.Details (ncbi)
.Details (BotPortal)

BcT4_7400
.Details (BotPortal)



B0510_3788
.Details (BotPortal)



BcSep1, formin bni1

Giesbert S, Siegmund U, Schumacher J, Kokkelink L, Tudzynski P. Functional Analysis of BcBem1 and Its Interaction Partners in Botrytis cinerea: Impact on Differentiation and Virulence. PLoS One. 2014 May 5;9(5):e95172. [DOI]

BcSep4Δ
Bcin04g05920
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P008020.1
.Details (ncbi)
.Details (BotPortal)

BC1G_03845.1
.Details (ncbi)
.Details (BotPortal)

BcSep4, septin

Feng HQ, Li GH, Du SW, Yang S, Li XQ, de Figueiredo P, Qin QM. The septin protein Sep4 facilitates host infection by plant fungal pathogens via mediating initiation of infection structure formation. Environ Microbiol. 2017 May;19(5):1730-1749. [DOI]

BcSer1Δ
Bcin10g02530
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P128540.1
.Details (ncbi)
.Details (BotPortal)

BC1G_04708.1
.Details (ncbi)
.Details (BotPortal)

BcT4_2843
.Details (BotPortal)



B0510_8767
.Details (BotPortal)



BcSer1, Subtilisin-like protease

Liu X, Xie J, Fu Y, Jiang D, Chen T, Cheng J. The Subtilisin-Like Protease Bcser2 Affects the Sclerotial Formation, Conidiation and Virulence of Botrytis cinerea. Int J Mol Sci. 2020;21(2):603. Published 2020 Jan 17. [DOI]

BcSer1/BcSer2Δ
Bcin10g02530
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


Bcin08g02990
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P128540.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P131570.1
.Details (ncbi)
.Details (BotPortal)

BC1G_04708.1
.Details (ncbi)
.Details (BotPortal)

BC1G_06836.1
.Details (ncbi)
.Details (BotPortal)

BcT4_2843
.Details (BotPortal)



BcT4_3248
.Details (BotPortal)



B0510_8767
.Details (BotPortal)



B0510_6440
.Details (BotPortal)



BcSer1, Subtilisin-like protease

BcSer2, Subtilisin-like protease

Liu X, Xie J, Fu Y, Jiang D, Chen T, Cheng J. The Subtilisin-Like Protease Bcser2 Affects the Sclerotial Formation, Conidiation and Virulence of Botrytis cinerea. Int J Mol Sci. 2020;21(2):603. Published 2020 Jan 17. [DOI]

BcSer2Δ
Bcin08g02990
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P131570.1
.Details (ncbi)
.Details (BotPortal)

BC1G_06836.1
.Details (ncbi)
.Details (BotPortal)

BcT4_3248
.Details (BotPortal)



B0510_6440
.Details (BotPortal)



BcSer2, Subtilisin-like protease

Liu X, Xie J, Fu Y, Jiang D, Chen T, Cheng J. The Subtilisin-Like Protease Bcser2 Affects the Sclerotial Formation, Conidiation and Virulence of Botrytis cinerea. Int J Mol Sci. 2020;21(2):603. Published 2020 Jan 17. [DOI]

BcSho1Δ
Bcin08g05150
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P075880.1
.Details (ncbi)
.Details (BotPortal)

BcT4_3441
.Details (BotPortal)



B0510_8199
.Details (BotPortal)



BcSho1, Biosensor of HOG pathway

Ren W, Liu N, Yang Y, Yang Q, Chen C, Gao Q. The Sensor Proteins BcSho1 and BcSln1 Are Involved in, Though Not Essential to, Vegetative Differentiation, Pathogenicity and Osmotic Stress Tolerance in Botrytis cinerea. Front Microbiol. 2019 Feb 25 [DOI]

BcSho1/BcSln1Δ
Bcin08g05150
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


Bcin14g01870
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P075880.1
.Details (ncbi)
.Details (BotPortal)

BofuT4_P059010.1
.Details (ncbi)
.Details (BotPortal)

BC1G_08461.1
.Details (ncbi)
.Details (BotPortal)

BcT4_3441
.Details (BotPortal)



BcT4_5910
.Details (BotPortal)



B0510_8199
.Details (BotPortal)



B0510_5297
.Details (BotPortal)



BcSho1, Biosensor of HOG pathway

BcSln1, HHK5, Biosensor of HOG pathway, Histidine kinase - group VI

Ren W, Liu N, Yang Y, Yang Q, Chen C, Gao Q. The Sensor Proteins BcSho1 and BcSln1 Are Involved in, Though Not Essential to, Vegetative Differentiation, Pathogenicity and Osmotic Stress Tolerance in Botrytis cinerea. Front Microbiol. 2019 Feb 25 [DOI]

bcskn7Δ
Bcin02g08650
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P088540.1
.Details (ncbi)
.Details (BotPortal)

BC1G_06857.1
.Details (ncbi)
.Details (BotPortal)

BcT4_9091
.Details (BotPortal)



B0510_6622
.Details (BotPortal)



BcSKN7, response regulator

Yang Q, Yin D, Yin Y, Cao Y, Ma Z. The response regulator BcSkn7 is required for vegetative differentiation and adaptation to oxidative and osmotic stresses in Botrytis cinerea. Mol Plant Pathol. 2015 Apr;16(3):276-87 [DOI]

Viefhues A, Schlathoelter I, Simon A, Viaud M, Tudzynski P. Unravelling the function of the response regulator BcSkn7 in the stress signaling network of Botrytis cinerea. Eukaryot Cell. 2015 Jul;14(7):636-51 [DOI]

BcSln1, HHK5Δ
Bcin14g01870
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P059010.1
.Details (ncbi)
.Details (BotPortal)

BC1G_08461.1
.Details (ncbi)
.Details (BotPortal)

BcT4_5910
.Details (BotPortal)



B0510_5297
.Details (BotPortal)



BcSln1, HHK5, Biosensor of HOG pathway, Histidine kinase - group VI

Ren W, Liu N, Yang Y, Yang Q, Chen C, Gao Q. The Sensor Proteins BcSho1 and BcSln1 Are Involved in, Though Not Essential to, Vegetative Differentiation, Pathogenicity and Osmotic Stress Tolerance in Botrytis cinerea. Front Microbiol. 2019 Feb 25 [DOI]

Bcsmr1Δ
Bcin02g08760
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P088390.1
.Details (ncbi)
.Details (BotPortal)

BC1G_16327.1
.Details (ncbi)
.Details (BotPortal)

BC1G_06874.1
.Details (ncbi)
.Details (BotPortal)

BcT4_9081
.Details (BotPortal)



B0510_6612
.Details (BotPortal)



BcSMR1, transcription factor_Cys6, Sclerotial Melanin Regulator

Schumacher J. DHN melanin biosynthesis in the plant pathogenic fungus Botrytis?cinerea is based on two developmentally regulated key enzyme (PKS)-encoding genes. Mol Microbiol. 2015 Oct 30. [DOI]

BcSnf1Δ
Bcin14g03370
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P032520.1
.Details (ncbi)
.Details (BotPortal)

BC1G_12009.1
.Details (ncbi)
.Details (BotPortal)

BcT4_10152
.Details (BotPortal)



B0510_10055
.Details (BotPortal)



BcSnf1, Snf1-like protein kinase

Lengyel S, Rascle C, Poussereau N, Bruel C, Sella L, Choquer M, Favaron F. Snf1 Kinase Differentially Regulates Botrytis cinerea Pathogenicity according to the Plant Host. Microorganisms. 2022 Feb 15;10(2):444 [DOI]

bcsod1Δ
Bcin03g03390
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P021610.1
.Details (ncbi)
.Details (BotPortal)

BC1G_00558.1
.Details (ncbi)
.Details (BotPortal)

BcT4_549
.Details (BotPortal)



B0510_388
.Details (BotPortal)



BcSOD1, superoxide dismutase

Rolke Y, Liu S, Quidde T, Williamson B, Schouten A, Weltring KM, Siewers V, Tenberge KB, Tudzynski B, Tudzynski P. Functional analysis of H(2)O(2)-generating systems in Botrytis cinerea: the major Cu-Zn-superoxide dismutase (BCSOD1) contributes to virulence on French bean, whereas a glucose oxidase (BCGOD1) is dispensable. Mol Plant Pathol. 2004 Jan 1;5(1):17-27. [DOI]

BcSpd1Δ
Bcin06g05230
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P141620.1
.Details (ncbi)
.Details (BotPortal)

BC1G_02308.1
.Details (ncbi)
.Details (BotPortal)

BcT4_1004
.Details (BotPortal)



B0510_4316
.Details (BotPortal)



BcSpd1, Zn2/Cys6 transcription factor

Chen H, He S, Zhang S, A R, Li W, Liu S. The Necrotroph Botrytis cinerea BcSpd1 Plays a Key Role in Modulating Both Fungal Pathogenic Factors and Plant Disease Development. Front Plant Sci. 2022 Jun 30;13:820767 [DOI]

bcspl1Δ
Bcin03g00500
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P011930.1
.Details (ncbi)
.Details (BotPortal)

BC1G_02163.1
.Details (ncbi)
.Details (BotPortal)

BcT4_795
.Details (BotPortal)



B0510_638
.Details (BotPortal)



BcSpl1, snod-prot-like, member of the cerato-platanin family

Aguileta G, Lengelle J, Chiapello H, Giraud T, Viaud M, Fournier E, Rodolphe F, Marthey S, Ducasse A, Gendrault A, Poulain J, Wincker P, Gout L. Genes under positive selection in a model plant pathogenic fungus, Botrytis. Infect Genet Evol. 2012 Jul;12(5):987-96. [DOI]

Frias M, Gonzalez C, Brito N. BcSpl1, a cerato-platanin family protein, contributes to Botrytis cinerea virulence and elicits the hypersensitive response in the host. New Phytol. 2011 Oct;192(2):483-95. [DOI]

bcspt3Δ
Bcin15g04040
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BC1G_15863.1
.Details (ncbi)
.Details (BotPortal)

BcT4_5772
.Details (BotPortal)



B0510_2704
.Details (BotPortal)



BcSPT3, saga-like transcriptional regulatory complex subunit spt3

Giesbert S, Schumacher J, Kupas V, Espino J, Segmuller N, Haeuser-Hahn I, Schreier PH, Tudzynski P. Identification of pathogenesis-associated genes by T-DNA-mediated insertional mutagenesis in Botrytis cinerea: a type 2A phosphoprotein phosphatase and an SPT3 transcription factor have significant impact on virulence. Mol Plant Microbe Interact. 2012 Apr;25(4):481-95. [DOI]

BcSSP2Δ
Bcin05g03680
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P041270.1
.Details (ncbi)
.Details (BotPortal)

BC1G_01444.1
.Details (ncbi)
.Details (BotPortal)

BcT4_7916
.Details (BotPortal)



B0510_1601
.Details (BotPortal)



BcSSP2, Small secreted protein

Denton-Giles M, McCarthy H, Sehrish T, et al. Conservation and expansion of a necrosis-inducing small secreted protein family from host-variable phytopathogens of the Sclerotiniaceae. Mol Plant Pathol. 2020;21(4):512-526. [DOI]

bcstc2Δ
Bcin08g02350
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P130680.1
.Details (ncbi)
.Details (BotPortal)

BC1G_09560.1
.Details (ncbi)
.Details (BotPortal)

BcT4_3192
.Details (BotPortal)



B0510_6383
.Details (BotPortal)



BcSTC2, similar to sesquiterpene cyclase

Choquer M, Robin G, Le Pêcheur P, Giraud C, Levis C, Viaud M. Ku70 or Ku80 deficiencies in the fungus Botrytis cinerea facilitate targeting of genes that are hard to knock out in a wild-type context. FEMS Microbiol Lett. 2008 Dec;289(2):225-32. [DOI]

BcSTC5Δ
Bcin01g03520
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BofuT4_P162160.1
.Details (ncbi)
.Details (BotPortal)

BC1G_10537.1
.Details (ncbi)
.Details (BotPortal)

BcT4_6361
.Details (BotPortal)



B0510_7526
.Details (BotPortal)



BcSTC5, sesquiterpen cyclase

Izquierdo-Bueno I, Gonzalez-Rodriguez VE, Simon A, Dalmais B, Pradier JM, Le Pecheur P, Mercier A, Walker AS, Garrido C, Collado IG, Viaud M. Biosynthesis of abscisic acid in fungi: Identification of a sesquiterpene cyclase as the key enzyme in Botrytis cinerea. Environ Microbiol. 2018 Apr 30 [DOI]

BcSTC7Δ
Bcin11g06510
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


BC1G_12849.1
.Details (ncbi)
.Details (BotPortal)

BcSTC7, sesquiterpene cyclase

Suárez I, González-Rodríguez VE, Viaud M, Garrido C, Collado IG. Identification of the Sesquiterpene Cyclase Involved in the Biosynthesis of (+)-4-Epi-eremophil-9-en-11-ol Derivatives Isolated from Botrytis cinerea. ACS Chem Biol. 2020 Oct 16;15(10):2775-2782. [DOI]

bcste11Δ
Bcin03g02630
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


FJ374679
.Details (GenBank)



BofuT4_P052210.1
.Details (ncbi)
.Details (BotPortal)

BC1G_06557.1
.Details (ncbi)
.Details (BotPortal)

BcT4_610
.Details (BotPortal)



B0510_450
.Details (BotPortal)



BcSTE11, mitogen-activated protein kinase kinase kinase

Schamber A, Leroch M, Diwo J, Mendgen K, Hahn M. The role of mitogen-activated protein (MAP) kinase signalling components and the Ste12 transcription factor in germination and pathogenicity of Botrytis cinerea. Mol Plant Pathol. 2010 Jan;11(1):105-19. [DOI]

bcste12Δ
Bcin10g05560
.Details (ebi)
.Details (KEGG)
.Details (BotPortal)


FJ374678
.Details (GenBank)



BofuT4_P086790.1
.Details (ncbi)
.Details (BotPortal)

BC1G_10211.1
.Details (ncbi)