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Modelvorming Botrytis cinerea in gerbera
, 1991 Kerssies, A., Verlind, A.L., Stapel, M.
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Current Biology, 2023
Chen, Zhang et al. introduce the necrotrophic fungal plant pathogen Botrytis cinerea more commonly known as gray mold.
Tong, Chen +4 more
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Chen, Zhang et al. introduce the necrotrophic fungal plant pathogen Botrytis cinerea more commonly known as gray mold.
Tong, Chen +4 more
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2015
Botrytis cinerea displays an extraordinary variability in phenotypic traits, making it a model for studying sources of variation in filamentous fungi and in particular in plant pathogens. The whole genome sequence was recently made available and is sustaining an impressive progress of knowledge.
DE MICCOLIS ANGELINI, RITA MILVIA +2 more
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Botrytis cinerea displays an extraordinary variability in phenotypic traits, making it a model for studying sources of variation in filamentous fungi and in particular in plant pathogens. The whole genome sequence was recently made available and is sustaining an impressive progress of knowledge.
DE MICCOLIS ANGELINI, RITA MILVIA +2 more
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INFECTION STRATEGIES OF BOTRYTIS CINEREA
Acta Horticulturae, 2005Botrytis cinerea is a ubiquitous filamentous fungal pathogen of a wide range of plant species. The fungus is able to infect all aerial parts of its host plants to a certain extent. Infection may cause enormous damage both during plant growth and in the post-harvest phase (during cold storage or transport). B.
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Electrophoretic karyotype analysis of Botrytis cinerea
Netherlands Journal of Plant Pathology, 1993The karyotypes of five strains ofBotrytis cinerea were analysed by pulsed field gel electrophoresis (PFGE). None of the five chromosome patterns were identical and all five strains contained one or several minichromosomes of variable length. Considering that some of the chromosomal bands represent unresolved doublets, the total genome size of the five ...
van Kan, J.A.L. +2 more
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Bioconversion of citronellol by Botrytis cinerea
Applied Microbiology and Biotechnology, 1987Bioconversion of citronellol 1 was studied with four strains of Botrytis cinerea. Using grape must predominant transformation of 1 to 2,6-dimethyl-1,8-octandiol 2 and (E)-2,6-dimethyl-2-octen-1,8-diol 3 was observed. In minor amounts 2,6-dimethyl-2,8-octandiol 4, two p-menthan-3,8-diol isomers 5a, 5b, (Z)-2,6-dimethyl-2-octen-1,8-diol 6, isopulegol 7 ...
P. Brunerie +3 more
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Signalling in Botrytis cinerea
2007The cellular environment plays an important role in growth and differentiation of fungi. Signal transduction cascades mediate communication between environmental signals and the cellular machinery regulating developmental programmes. Fungal pathogens of plants have to 'recognize' their susceptible hosts, penetrate any physical barriers, overcome host ...
Bettina Tudzynski +1 more
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Phenotypic variability of Botrytis cinerea and Botrytis pseudocinerea isolates
Research Journal of Biotechnology, 2022In the present study, eight single-spore strains of Botrytis cinerea were isolated from tomato greenhouses located in Bejaia regions (Northern Algeria). Isolates were molecularly characterized by nine microsatellite markers. Isolates were assigned to B. cinerea and B. pseudocinerea with four isolates of each species.
Ahmed Adjebli +3 more
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Ethylene production by Botrytis cinerea
Postharvest Biology and Technology, 1997Abstract Ethylene was produced when isolates of the postharvest pathogen Botrytis cinerea Pers.: Fr., derived from fruit of strawberry, blueberry and kiwifruit and leaves of grape and camellia, were grown on a modified Pratt's medium containing 35 mM methionine in shaken or static cultures at 22 °C in the dark.
Altaf Qadir +2 more
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