Selection, characterization and genetic analysis of laboratory mutants of Botryotinia fuckeliana (Botrytis cinerea) resistant to the fungicide boscalid

[1]  W. S. Washington Recent Advances in Botrytis Research , 1993, Australasian Plant Pathology.

[2]  S. Kaneko,et al.  Identification of three mutant loci conferring carboxin-resistance and development of a novel transformation system in Aspergillus oryzae. , 2009, Fungal genetics and biology : FG & B.

[3]  S. Fillinger,et al.  Genetic Analysis of Fenhexamid-Resistant Field Isolates of the Phytopathogenic Fungus Botrytis cinerea , 2008, Antimicrobial Agents and Chemotherapy.

[4]  T. Michailides,et al.  Characterization of mutations in the iron-sulphur subunit of succinate dehydrogenase correlating with Boscalid resistance in Alternaria alternata from California pistachio. , 2008, Phytopathology.

[5]  P. E. Russell,et al.  Studies on the biological performance of boscalid and its mode of action. , 2008 .

[6]  T. Michailides,et al.  Resistance to Boscalid Fungicide in Alternaria alternata Isolates from Pistachio in California. , 2007, Plant disease.

[7]  G. Zhu,et al.  Sensitivity of Botrytis cinerea from vegetable greenhouses to boscalid , 2007 .

[8]  F. Faretra,et al.  SELECTION AND GENETIC ANALYSIS OF LABORATORY MUTANTS OF BOTRYOTINIA FUCKELIANA RESISTANT TO FENHEXAMID , 2007 .

[9]  P. Leroux Chemical Control of Botrytis and its Resistance to Chemical Fungicides , 2007 .

[10]  Y. Elad,et al.  Botrytis: biology, pathology and control. , 2007 .

[11]  G. Stammler,et al.  Microtiter Method to Test the Sensitivity of Botrytis cinerea to Boscalid , 2006 .

[12]  A. Markoglou,et al.  Characterization of Laboratory Mutants of Botrytis cinerea Resistant to QoI Fungicides , 2006, European Journal of Plant Pathology.

[13]  N. Gudmestad,et al.  Effect of the F129L Mutation in Alternaria solani on Fungicides Affecting Mitochondrial Respiration. , 2005, Plant disease.

[14]  S. Pollastro,et al.  Characterization and genetic analysis of field isolates ofBotryotinia fuckeliana (Botrytis cinerea) resistant to dichlofluanid , 1996, European Journal of Plant Pathology.

[15]  Y. Ito,et al.  Flutolanil and carboxin resistance in Coprinus cinereus conferred by a mutation in the cytochrome b560 subunit of succinate dehydrogenase complex (Complex II) , 2004, Molecular Genetics and Genomics.

[16]  J. Hargreaves,et al.  A single amino-acid change in the iron-sulphur protein subunit of succinate dehydrogenase confers resistance to carboxin in Ustilago maydis , 1992, Current Genetics.

[17]  U. Hilber,et al.  Long-Term Monitoring for Resistance of Botryotinia fuckeliana to Anilinopyrimidine, Phenylpyrrole, and Hydroxyanilide Fungicides in Switzerland. , 2003, Plant disease.

[18]  D. Debieu,et al.  Mechanisms of resistance to fungicides in field strains of Botrytis cinerea. , 2002, Pest management science.

[19]  R. Beever,et al.  An osmosensing histidine kinase mediates dicarboximide fungicide resistance in Botryotinia fuckeliana (Botrytis cinerea). , 2002, Fungal genetics and biology : FG & B.

[20]  I. Yamaguchi,et al.  A Point Mutation in the Two-Component Histidine Kinase BcOS-1 Gene Confers Dicarboximide Resistance in Field Isolates of Botrytis cinerea. , 2002, Phytopathology.

[21]  T. Watanabe,et al.  Carboxin resistance transformation of the homobasidiomycete fungus Pleurotus ostreatus , 2000, Current Genetics.

[22]  R. Strong,et al.  A single amino acid substitution causes loss of expression of a MICA allele , 2000, Immunogenetics.

[23]  S Rozen,et al.  Primer3 on the WWW for general users and for biologist programmers. , 2000, Methods in molecular biology.

[24]  P. Leroux,et al.  Inheritance and Mechanisms of Resistance to Anilinopyrimidine Fungicides in Botrytis Cinerea (Botryotinia Fuckeliana) , 1999 .

[25]  B F Lang,et al.  Mitochondrial genome evolution and the origin of eukaryotes. , 1999, Annual review of genetics.

[26]  S. Gurr,et al.  A single amino-acid substitution in the iron-sulphur protein subunit of succinate dehydrogenase determines resistance to carboxin in Mycosphaerella graminicola , 1998, Current Genetics.

[27]  P. E. Russell,et al.  Modern Fungicides and Antifungal Compounds , 1997 .

[28]  C. Hägerhäll,et al.  Succinate: quinone oxidoreductases. Variations on a conserved theme. , 1997, Biochimica et biophysica acta.

[29]  G. A. White,et al.  A mutant form of the succinate dehydrogenase iron-sulphur protein subunit confers resistance to carboxin in the maize smut pathogen Ustilago maydis. , 1994, Biochemical Society transactions.

[30]  F. Faretra,et al.  Isolation, characterization and genetic analysis of laboratory mutants of Botryotinia fuckeliana resistant to the phenylpyrrole fungicide CGA 173506. , 1993 .

[31]  O. Yarden Mutations leading to substitutions at amino acids 198 and 200 of beta-tubulin that correlate with benomyl-resistance phenotypes of field strains of Botrytis cinerea , 1993 .

[32]  B. Williamson,et al.  Genetic studies of Botryotinia fuckeliana (Botrytis cinerea). , 1992 .

[33]  F. Faretra,et al.  Genetic basis of resistance to benzimidazole and dicarboximide fungicides in Botryotinia fuckeliana (Botrytis cinerea) , 1991 .

[34]  F. Faretra,et al.  Sexual behaviour and mating system of Botryotinia fuckeliana, teleomorph of Botrytis cinerea. , 1988 .

[35]  P. Leroux,et al.  Resistance to carboxin and fenfuram in Ustilago nuda (Jens.) Rostr., the causal agent of barley loose smut , 1988 .

[36]  F. Faretra,et al.  Improvement of the technique used for obtaining apothecia of Botryotinia fuckeliana (Botrytis cinerea) under controlled conditions. , 1988 .

[37]  J. F. Ryley,et al.  Mode of action of antifungal agents , 1984 .

[38]  J. Sambrook,et al.  Molecular Cloning: A Laboratory Manual , 2001 .

[39]  W. F. Thompson,et al.  Rapid isolation of high molecular weight plant DNA. , 1980, Nucleic acids research.

[40]  G. A. White,et al.  Oxathiin carboxamides highly active against carboxin-resistant succinic dehydrogenase complexes from carboxin-selected mutants of Ustilago maydis and Aspergillus nidulans☆ , 1978 .

[41]  H. Beinert,et al.  Kinetics of the reoxidation of succinate dehydrogenase. , 1977, Archives of biochemistry and biophysics.

[42]  和雄 我孫子,et al.  Occurrence of oxycarboxin-tolerant isolates of Puccinia horiana P.Hennings in Japan. , 1977 .

[43]  N. Ragsdale,et al.  Metabolic effects related to fungitoxicity of carboxin. , 1970, Phytopathology.

[44]  K. Sanderson,et al.  HETEROKARYOSIS AND PARASEXUALITY IN THE FUNGUS ASCOCHYTA IMPERFECTA. , 1965, American journal of botany.