Keyphrases
Adaptation
9%
Agar Culture
9%
Airborne Ascospores
6%
Alternavirus
5%
Amino Acid Metabolism
6%
Amino Acid Sequence
5%
Anthropogenic Climate Change
9%
Apoplastic Space
5%
Biotrophic
5%
Blackleg
6%
Brassica
6%
Brassica Napus
63%
Brassica Species
30%
Brussels Sprouts
6%
Carbohydrates
6%
Cell-penetrating
5%
Chitinase
6%
Chrysovirus
5%
Compatible Interaction
5%
Conidia
6%
Cropping Season
17%
Current Yield
6%
Debris
6%
Differentially Expressed
6%
Disease Management
6%
Diseased Leaf
6%
Double-stranded RNA
15%
Encoded Protein
5%
Environmental Conditions
9%
Evolutionary Change
9%
Extracellular Pathogens
5%
Fungal Pathogens
11%
Fungal Strains
5%
Fungicide Application
6%
Gene Coding
15%
Gene Family
5%
Genetic Diversity
6%
Genetic Structure
5%
Genetic Variance
9%
Genetic Variation
30%
Genomic Information
6%
Growing Cycle
9%
Growing Season
6%
Growth Rate
30%
Hemibiotrophic Fungus
5%
Heritability
9%
Host-pathogen Interactions
30%
Hypervirulence
35%
Hypervirulent
6%
In Vitro Growth
9%
Increased Temperature
9%
Induced Expression
5%
Induced Systemic Resistance
6%
Inoculation
6%
Inoculum
6%
Intracellular Pathogen
5%
Isogenic
5%
Isogenic Lines
12%
Isometric Particles
5%
Kinase Domain
5%
L. Maculans
49%
Leaf Spot
7%
Leaf Spot Disease
30%
Leptosphaeria
36%
Leptosphaeria Biglobosa
80%
Leptosphaeria Maculans
100%
Leucine-rich Repeat
30%
Leucine-rich Repeat Domain
5%
Light Leaf Spot
30%
Main Components
6%
Major Gene Resistance
9%
Management Tools
6%
Metabolism
6%
Minimum Temperature
9%
Molecular Biology
30%
Molecular Characterization
30%
Molecular Mechanism
6%
Monopartite
5%
Mycelial Growth Rate
9%
Mycovirus
30%
Mycoviruses
11%
Natural Conditions
9%
Necrotroph
5%
Necrotrophic Fungi
5%
NLR Genes
30%
Nucleotide Sequence
5%
Nucleotide-binding Leucine-rich Repeat Receptor
5%
Obligate
5%
Oilseed Rape
47%
Optimum Growth
9%
Optimum Temperature
30%
P. Brassicae
21%
Pathogen Colonization
5%
Pathogenesis-related Proteins
6%
Phoma
7%
Phoma Stem Canker
51%
Phylogenetic Analysis
5%
Phytopathogens
30%
Pigmentation
5%
Plant Defense
6%
Plant Pathogen
9%
Plant Pathogenic Fungi
5%
Plant Transcriptome
6%
Plasmodiophora Brassicae
30%
Population Variation
6%
Pre-inoculation
6%
Primary Inoculum
6%
Protein-coding Genes
9%
Protists
5%
Pyrenopeziza Brassicae
30%
Quadripartite
9%
Quadrivirus
36%
Quantitative Resistance
7%
Quantitative Trait Loci
6%
Rapid Improvement
6%
Receptor-interacting Protein Kinase 1 (RIPK1)
24%
Resistance Sources
9%
Rlm1
5%
Rlm3
5%
Rlm7
35%
Rlm9
15%
RNA Virus
5%
RNA-dependent RNA Polymerase (RdRP)
5%
Sclerotinia Sclerotiorum
5%
Scotland
6%
Secreted Proteins
20%
Sequence Analysis
9%
Severe Epidemic
6%
Signal Peptide
5%
Splashing
6%
Structural Proteins
5%
Survey Data
6%
Sustainable Management
6%
Systemic Acquired Resistance
30%
Temperature Effect
30%
Temperature Rate
9%
TOPAS
5%
Totivirus
5%
Transmembrane Region
5%
Two-species
6%
Vegetable Brassicas
6%
Via Resistance
5%
Virulence
6%
Virus
45%
Virus Infection
6%
Virus-free
6%
Wide Host Range
6%
Winter Oilseed Rape
36%
WRKY Transcription Factor
6%
Yield Loss
12%
Agricultural and Biological Sciences
Agar
9%
Amino Acid Metabolism
9%
Ascospore
6%
Brassica
30%
Brassica Napus
96%
Brussels Sprout
6%
Chitinase
9%
Climate Change
9%
Conidium
6%
Cultivar
30%
Double-Stranded RNA
9%
Evolution
9%
Fungicide
6%
Genetic Divergence
36%
Genetic Variability
6%
Growing Season
9%
Heritability
9%
Host Range
6%
Host-Pathogen Interaction
30%
Inoculum
12%
Isogenic Lines
20%
Leaf Spot
39%
Leptosphaeria
60%
Leptosphaeria maculans
69%
Mycovirus
30%
Pathogenesis-Related Protein
9%
Phoma
60%
Plant Defense
9%
Plant Pathogens
9%
Plant-Based Food
30%
Plantae
30%
Pyrenopeziza Brassicae
30%
Quantitative Trait Locus
6%
Rapeseed
96%
Stem Canker
60%
Systemic Acquired Resistance
30%
Transcription Factors
9%
Transcriptome
9%
Winter Oilseed
39%