Keyphrases
Bacterial Pathogens
100%
Apple
100%
Erwinia Amylovora
100%
Fire Blight Disease
100%
Causal Agent
100%
Rosaceae
100%
Molecular Resistance Mechanism
100%
Molecular Mechanisms of Pathogenesis
100%
Plant Host Resistance
50%
Fire Blight
33%
Effector Proteins
33%
Fire Blight Resistance
33%
Molecular Mechanism
16%
Genetic Background
16%
Quantitative Trait Loci
16%
Control Measures
16%
Microarray Analysis
16%
Innate Immunity
16%
Molecular Control
16%
Multidomain Protein
16%
Pear
16%
Acid Activation
16%
Malus Domestica
16%
Gram-negative Bacteria
16%
Best Alternative
16%
Salicylic Acid
16%
Genetic Approach
16%
Effective Control
16%
Pyrus Communis
16%
Resistance Genes
16%
Plant Defense
16%
Genes for Resistance
16%
Quantitative Genetics
16%
Rosaceae Family
16%
Collective Knowledge
16%
Quantitative Resistance
16%
Plant Susceptibility
16%
Economic Threat
16%
Host-microbiome Interactions
16%
Whole Tree
16%
Type III Effector
16%
Bacterial Pathogenesis
16%
Promoting Growth
16%
Genetic Enhancement
16%
Bacterial Disease
16%
Pome
16%
Disease Damage
16%
Apple Genotypes
16%
Apple Cultivars
16%
Bacterial Pathogenicity
16%
Transcriptional Expression
16%
Immunology and Microbiology
Infectious Agent
100%
Host Resistance
100%
Erwinia amylovora
100%
Rosaceae
100%
Gram-Negative Bacteria
33%
Innate Immune System
33%
Quantitative Trait Locus
33%
Tree
33%
Crop
33%
Genetic Background
33%
Infectious Disease
33%
Cultivar
33%
Salicylic Acid
33%
Bacterial Virulence
33%
Bacterial Pathogenesis
33%
Pyrus
33%
Genetic Enhancement
33%
Malus
33%
Agricultural and Biological Sciences
Erwinia amylovora
100%
Blight
100%
Rosaceae
100%
Host Resistance
60%
Pear
40%
Quantitative Trait Locus
20%
Genetic Background
20%
Gram-Negative Bacteria
20%
Malus domestica
20%
Pathogenicity
20%
Cultivar
20%
Innate Immunity
20%
Plant Defense
20%
Quantitative Genetics
20%
Pome
20%