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Genome-wide functional analysis reveals that infection-associated fungal autophagy is necessary for rice blast disease
Genome-wide functional analysis reveals that infection-associated fungal autophagy is necessary for rice blast disease
by Kershaw, Michael J , Talbot, Nicholas J
in Apoptosis / Appressoria / autophagy / Autophagy - genetics / Autophagy - physiology / Biological Sciences / blast disease / Blasts / Cell death / Conidia / Fungi / Gene Deletion / Gene expression regulation / Genes / Genes, Fungal / Genome, Fungal / Genome-Wide Association Study / Genomics / Green Fluorescent Proteins - genetics / Host-Pathogen Interactions - genetics / Host-Pathogen Interactions - physiology / host-pathogen relationships / Infections / Magnaporthe / Magnaporthe - genetics / Magnaporthe - pathogenicity / Magnaporthe - physiology / Magnaporthe grisea / Magnaporthe oryzae / microbial genetics / Microscopy, Fluorescence / mutants / Mutation / Oryza - microbiology / Oryza sativa / Plant diseases / Plant Diseases - microbiology / Recombinant Proteins - genetics / Rice
2009
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Genome-wide functional analysis reveals that infection-associated fungal autophagy is necessary for rice blast disease
by Kershaw, Michael J , Talbot, Nicholas J
in Apoptosis / Appressoria / autophagy / Autophagy - genetics / Autophagy - physiology / Biological Sciences / blast disease / Blasts / Cell death / Conidia / Fungi / Gene Deletion / Gene expression regulation / Genes / Genes, Fungal / Genome, Fungal / Genome-Wide Association Study / Genomics / Green Fluorescent Proteins - genetics / Host-Pathogen Interactions - genetics / Host-Pathogen Interactions - physiology / host-pathogen relationships / Infections / Magnaporthe / Magnaporthe - genetics / Magnaporthe - pathogenicity / Magnaporthe - physiology / Magnaporthe grisea / Magnaporthe oryzae / microbial genetics / Microscopy, Fluorescence / mutants / Mutation / Oryza - microbiology / Oryza sativa / Plant diseases / Plant Diseases - microbiology / Recombinant Proteins - genetics / Rice
2009
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Do you wish to request the book?
Genome-wide functional analysis reveals that infection-associated fungal autophagy is necessary for rice blast disease
Genome-wide functional analysis reveals that infection-associated fungal autophagy is necessary for rice blast disease
by Kershaw, Michael J , Talbot, Nicholas J
in Apoptosis / Appressoria / autophagy / Autophagy - genetics / Autophagy - physiology / Biological Sciences / blast disease / Blasts / Cell death / Conidia / Fungi / Gene Deletion / Gene expression regulation / Genes / Genes, Fungal / Genome, Fungal / Genome-Wide Association Study / Genomics / Green Fluorescent Proteins - genetics / Host-Pathogen Interactions - genetics / Host-Pathogen Interactions - physiology / host-pathogen relationships / Infections / Magnaporthe / Magnaporthe - genetics / Magnaporthe - pathogenicity / Magnaporthe - physiology / Magnaporthe grisea / Magnaporthe oryzae / microbial genetics / Microscopy, Fluorescence / mutants / Mutation / Oryza - microbiology / Oryza sativa / Plant diseases / Plant Diseases - microbiology / Recombinant Proteins - genetics / Rice
2009

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Genome-wide functional analysis reveals that infection-associated fungal autophagy is necessary for rice blast disease
Genome-wide functional analysis reveals that infection-associated fungal autophagy is necessary for rice blast disease
Journal Article

Genome-wide functional analysis reveals that infection-associated fungal autophagy is necessary for rice blast disease

Kershaw, Michael J,
Talbot, Nicholas J
2009
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Overview
To cause rice blast disease, the fungus Magnaporthe oryzae elaborates specialized infection structures called appressoria, which use enormous turgor to rupture the tough outer cuticle of a rice leaf. Here, we report the generation of a set of 22 isogenic M. oryzae mutants each differing by a single component of the predicted autophagic machinery of the fungus. Analysis of this set of targeted deletion mutants demonstrated that loss of any of the 16 genes necessary for nonselective macroautophagy renders the fungus unable to cause rice blast disease, due to impairment of both conidial programmed cell death and appressorium maturation. In contrast, genes necessary only for selective forms of autophagy, such as pexophagy and mitophagy, are dispensable for appressorium-mediated plant infection. A genome-wide analysis therefore demonstrates the importance of infection-associated, nonselective autophagy for the establishment of rice blast disease.
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Publisher
National Academy of Sciences,National Acad Sciences
Subject

Apoptosis

/ Appressoria

/ autophagy

/ Autophagy - genetics

/ Autophagy - physiology

/ Biological Sciences

/ blast disease

/ Blasts

/ Cell death

/ Conidia

/ Fungi

/ Gene Deletion

/ Gene expression regulation

/ Genes

/ Genes, Fungal

/ Genome, Fungal

/ Genome-Wide Association Study

/ Genomics

/ Green Fluorescent Proteins - genetics

/ Host-Pathogen Interactions - genetics

/ Host-Pathogen Interactions - physiology

/ host-pathogen relationships

/ Infections

/ Magnaporthe

/ Magnaporthe - genetics

/ Magnaporthe - pathogenicity

/ Magnaporthe - physiology

/ Magnaporthe grisea

/ Magnaporthe oryzae

/ microbial genetics

/ Microscopy, Fluorescence

/ mutants

/ Mutation

/ Oryza - microbiology

/ Oryza sativa

/ Plant diseases

/ Plant Diseases - microbiology

/ Recombinant Proteins - genetics

/ Rice

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