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Botrytis
Botrytis
Laminarin Elicits Defense Responses in Grapevine and Induces Protection Against Botrytis cinerea and Plasmopara viticola
Genetics / Microbiology / Plant Biology / Polysaccharides / Plant Molecular Biology / Signal Transduction / Botrytis / Cell Death / Terpenes / Molecular Plant Microbe Interactions / Oomycetes / Sesquiterpenes / Plant extracts / Botrytis cinerea / Chitinase / Vitis / Base Sequence / Signal Transduction / Botrytis / Cell Death / Terpenes / Molecular Plant Microbe Interactions / Oomycetes / Sesquiterpenes / Plant extracts / Botrytis cinerea / Chitinase / Vitis / Base Sequence
Laminarin Elicits Defense Responses in Grapevine and Induces Protection Against Botrytis cinerea and Plasmopara viticola
Genetics / Microbiology / Plant Biology / Polysaccharides / Plant Molecular Biology / Signal Transduction / Botrytis / Cell Death / Terpenes / Molecular Plant Microbe Interactions / Oomycetes / Sesquiterpenes / Plant extracts / Botrytis cinerea / Chitinase / Vitis / Base Sequence / Signal Transduction / Botrytis / Cell Death / Terpenes / Molecular Plant Microbe Interactions / Oomycetes / Sesquiterpenes / Plant extracts / Botrytis cinerea / Chitinase / Vitis / Base Sequence
Vitis vinifera Canes, a New Source of Antifungal Compounds against Plasmopara viticola, Erysiphe necator , and Botrytis cinerea
Engineering / Plant diseases / Botrytis / Oomycetes / CHEMICAL SCIENCES / Plant extracts / Agricultural and Food Chemistry / Vitis / Ascomycota / Plant extracts / Agricultural and Food Chemistry / Vitis / Ascomycota
Vitis vinifera Canes, a New Source of Antifungal Compounds against Plasmopara viticola, Erysiphe necator , and Botrytis cinerea
Engineering / Plant diseases / Botrytis / Oomycetes / CHEMICAL SCIENCES / Plant extracts / Agricultural and Food Chemistry / Vitis / Ascomycota / Plant extracts / Agricultural and Food Chemistry / Vitis / Ascomycota
Antifungal activity of Tagetes patula extracts on some phytopathogenic fungi: ultrastructural evidence on Pythium ultimum
Microbiology / Electron Microscopy / Medical Microbiology / Scanning Electron Microscopy / Free Radical / Pythium / Plant diseases / Fusarium / Botrytis / Darkness / Light / Antifungal Activity / Spectrum / Plant extracts / Botrytis cinerea / Antifungal Agents / Growth Inhibition / Microbiological / Pythium / Plant diseases / Fusarium / Botrytis / Darkness / Light / Antifungal Activity / Spectrum / Plant extracts / Botrytis cinerea / Antifungal Agents / Growth Inhibition / Microbiological
Burkholdines 1097 and 1229, Potent Antifungal Peptides from Burkholderia ambifaria 2.2N
Botrytis / Organic / CHEMICAL SCIENCES / Burkholderia / Antifungal Agents / Phytophthora infestans / Microbial Sensitivity Tests / Ascomycota / Molecular Structure / Lipopeptides / Alternaria / Phytophthora infestans / Microbial Sensitivity Tests / Ascomycota / Molecular Structure / Lipopeptides / Alternaria
Transgenic Expression of a Fungal endo-Polygalacturonase Increases Plant Resistance to Pathogens and Reduces Auxin Sensitivity
Tobacco / Gene expression / Biological Sciences / Plant Resistance / Plant Physiology / Plant diseases / Botrytis / Plant / Arabidopsis / Aspergillus niger / Pseudomonas Syringae / Auxin / Transgene Expression / Polygalacturonase / Plant diseases / Botrytis / Plant / Arabidopsis / Aspergillus niger / Pseudomonas Syringae / Auxin / Transgene Expression / Polygalacturonase
Constitutive expression of Botrytis aclada laccase in Pichia pastoris
Kinetics / Gene expression / Genetic Engineering / Botrytis / Laccase / Fermentation / Molecular cloning / Bioreactors / Bioengineered / Fermentation / Molecular cloning / Bioreactors / Bioengineered
Laminarin Elicits Defense Responses in Grapevine and Induces Protection Against Botrytis cinerea and Plasmopara viticola
Genetics / Microbiology / Plant Biology / Polysaccharides / Plant Molecular Biology / Signal Transduction / Botrytis / Cell Death / Terpenes / Molecular Plant Microbe Interactions / Oomycetes / Sesquiterpenes / Plant extracts / Botrytis cinerea / Chitinase / Vitis / Base Sequence / Signal Transduction / Botrytis / Cell Death / Terpenes / Molecular Plant Microbe Interactions / Oomycetes / Sesquiterpenes / Plant extracts / Botrytis cinerea / Chitinase / Vitis / Base Sequence
Laminarin Elicits Defense Responses in Grapevine and Induces Protection Against Botrytis cinerea and Plasmopara viticola
Genetics / Microbiology / Plant Biology / Polysaccharides / Plant Molecular Biology / Signal Transduction / Botrytis / Cell Death / Terpenes / Molecular Plant Microbe Interactions / Oomycetes / Sesquiterpenes / Plant extracts / Botrytis cinerea / Chitinase / Vitis / Base Sequence / Signal Transduction / Botrytis / Cell Death / Terpenes / Molecular Plant Microbe Interactions / Oomycetes / Sesquiterpenes / Plant extracts / Botrytis cinerea / Chitinase / Vitis / Base Sequence
Resveratrol acts as a natural profungicide and induces self-intoxication by a specific laccase
Functional Analysis / Molecular Microbiology / Molecular Genetics / Gene expression / Plant Secondary metabolite / Biological Sciences / Molecular / Virulence / Prodrugs / Mutagenesis / Botrytis / Oxidoreductases / Laccase / Secondary Metabolites / Plant Pathogen interaction / Phenols / Botrytis cinerea / Stilbenes / Antifungal Agents / Vitis / Amino Acid Sequence / Base Sequence / Arachis Hypogaea / Host Plant / Plant Leaves / Biological Sciences / Molecular / Virulence / Prodrugs / Mutagenesis / Botrytis / Oxidoreductases / Laccase / Secondary Metabolites / Plant Pathogen interaction / Phenols / Botrytis cinerea / Stilbenes / Antifungal Agents / Vitis / Amino Acid Sequence / Base Sequence / Arachis Hypogaea / Host Plant / Plant Leaves
Transgenic Expression of a Fungal endo-Polygalacturonase Increases Plant Resistance to Pathogens and Reduces
Tobacco / Gene expression / Biological Sciences / Plant Resistance / Plant Physiology / Plant diseases / Botrytis / Arabidopsis / Aspergillus niger / Pseudomonas Syringae / Transgene Expression / Polygalacturonase / Plant diseases / Botrytis / Arabidopsis / Aspergillus niger / Pseudomonas Syringae / Transgene Expression / Polygalacturonase
Resveratrol acts as a natural profungicide and induces self-intoxication by a specific laccase
Functional Analysis / Molecular Microbiology / Molecular Genetics / Gene expression / Plant Secondary metabolite / Biological Sciences / Molecular / Virulence / Prodrugs / Mutagenesis / Botrytis / Oxidoreductases / Laccase / Secondary Metabolites / Plant Pathogen interaction / Phenols / Botrytis cinerea / Stilbenes / Antifungal Agents / Vitis / Amino Acid Sequence / Base Sequence / Arachis Hypogaea / Host Plant / Plant Leaves / Biological Sciences / Molecular / Virulence / Prodrugs / Mutagenesis / Botrytis / Oxidoreductases / Laccase / Secondary Metabolites / Plant Pathogen interaction / Phenols / Botrytis cinerea / Stilbenes / Antifungal Agents / Vitis / Amino Acid Sequence / Base Sequence / Arachis Hypogaea / Host Plant / Plant Leaves
Laminarin Elicits Defense Responses in Grapevine and Induces Protection Against Botrytis cinerea and Plasmopara viticola
Genetics / Microbiology / Plant Biology / Polysaccharides / Plant Molecular Biology / Signal Transduction / Botrytis / Cell Death / Terpenes / Molecular Plant Microbe Interactions / Oomycetes / Sesquiterpenes / Plant extracts / Botrytis cinerea / Chitinase / Vitis / Base Sequence / Signal Transduction / Botrytis / Cell Death / Terpenes / Molecular Plant Microbe Interactions / Oomycetes / Sesquiterpenes / Plant extracts / Botrytis cinerea / Chitinase / Vitis / Base Sequence
Laminarin Elicits Defense Responses in Grapevine and Induces Protection Against Botrytis cinerea and Plasmopara viticola
Genetics / Microbiology / Plant Biology / Polysaccharides / Plant Molecular Biology / Signal Transduction / Botrytis / Cell Death / Terpenes / Molecular Plant Microbe Interactions / Oomycetes / Sesquiterpenes / Plant extracts / Botrytis cinerea / Chitinase / Vitis / Base Sequence / Signal Transduction / Botrytis / Cell Death / Terpenes / Molecular Plant Microbe Interactions / Oomycetes / Sesquiterpenes / Plant extracts / Botrytis cinerea / Chitinase / Vitis / Base Sequence
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