Fusarium : Mycotoxins, Taxonomy and Pathogenicity
Stępień, Łukasz
Fusarium : Mycotoxins, Taxonomy and Pathogenicity - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2020 - 1 electronic resource (262 p.)
Open Access
It has been over 200 years since Fusarium pathogens were described for the first time, and they are still in the spotlight of researchers worldwide, mostly due to the mycotoxigenic abilities and the subsequent introduction of harmful metabolites into the food chain. The accelerating climatic changes are resulting in pathogen population and chemotype shifts all around the world, thus increasing the demand for continuous studies of factors that affect the virulence, disease severity and mycotoxin accumulation in plant tissues. This Special Issue summarizes recent advances in the field of Fusarium genetics, biology and toxicology.
Creative Commons
English
books978-3-03943-409-1 9783039434084 9783039434091
10.3390/books978-3-03943-409-1 doi
Research & information: general
Biology, life sciences
Technology, engineering, agriculture
Fusarium head blight Fusarium species soil minerals mycotoxins organic farming sowing value winter wheat Maize Fusarium monitoring forage silage maize ear rot nivalenol fumonisins flax Fusarium oxysporum pathogenic and non-pathogenic strains sensitization DNA methylation PR genes ear rot maize FUM1 pathogenicity virulence Fusarium graminearum next-generation sequencing proteomics photobiology transcription factor White collar complex Fusarium asiaticum colonization endophyte Fo47 wilt disease fusarium LC-MS/MS mycotoxin occurrence wheat trichothecene NF-κB intestinal inflammation combinatory effects food safety resistance expression aggressiveness F. graminearum F. culmorum isolate effect disease index Fusarium-damaged kernel deoxynivalenol susceptibility window inoculation time and FHB response keratomycosis onychomycosis horizontal cross-kingdom disease index (DI) fusarium damaged kernels (FDK) deoxynivalenol (DON) host-pathogen relations phenotyping FHB Cereals silo fungi modelling 3D colonisation respiration ergosterol zearalenone trichothecenes. n/a
Fusarium : Mycotoxins, Taxonomy and Pathogenicity - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2020 - 1 electronic resource (262 p.)
Open Access
It has been over 200 years since Fusarium pathogens were described for the first time, and they are still in the spotlight of researchers worldwide, mostly due to the mycotoxigenic abilities and the subsequent introduction of harmful metabolites into the food chain. The accelerating climatic changes are resulting in pathogen population and chemotype shifts all around the world, thus increasing the demand for continuous studies of factors that affect the virulence, disease severity and mycotoxin accumulation in plant tissues. This Special Issue summarizes recent advances in the field of Fusarium genetics, biology and toxicology.
Creative Commons
English
books978-3-03943-409-1 9783039434084 9783039434091
10.3390/books978-3-03943-409-1 doi
Research & information: general
Biology, life sciences
Technology, engineering, agriculture
Fusarium head blight Fusarium species soil minerals mycotoxins organic farming sowing value winter wheat Maize Fusarium monitoring forage silage maize ear rot nivalenol fumonisins flax Fusarium oxysporum pathogenic and non-pathogenic strains sensitization DNA methylation PR genes ear rot maize FUM1 pathogenicity virulence Fusarium graminearum next-generation sequencing proteomics photobiology transcription factor White collar complex Fusarium asiaticum colonization endophyte Fo47 wilt disease fusarium LC-MS/MS mycotoxin occurrence wheat trichothecene NF-κB intestinal inflammation combinatory effects food safety resistance expression aggressiveness F. graminearum F. culmorum isolate effect disease index Fusarium-damaged kernel deoxynivalenol susceptibility window inoculation time and FHB response keratomycosis onychomycosis horizontal cross-kingdom disease index (DI) fusarium damaged kernels (FDK) deoxynivalenol (DON) host-pathogen relations phenotyping FHB Cereals silo fungi modelling 3D colonisation respiration ergosterol zearalenone trichothecenes. n/a