Keyphrases
1D NMR
16%
2D NMR
16%
Analytical Chemistry Techniques
16%
Australes
16%
Australia
16%
BLASTn Analysis
16%
Botryosphaeria Dieback
83%
Botryosphaeriaceae
100%
Cabernet Sauvignon
16%
Canker
16%
Chardonnay
16%
Cultural Isolation
16%
Culture Filtrate
16%
Dieback
16%
Diplodia Seriata
16%
Dothiorella
16%
Economic Loss
16%
Electrospray Ionization Mass Spectrometry
16%
Europe
16%
Exopolysaccharide
33%
Field Diagnosis
16%
Field-oriented Control
16%
Foliar Symptoms
50%
Genetic Analysis
16%
Genomic DNA (gDNA)
16%
Grapevine
16%
Grapevine Leaves
33%
Grapevine Trunk Diseases
100%
High Similarity
16%
HPLC Quantification
16%
Interdisciplinary Research
16%
Lasiodiplodia Theobromae
16%
Limited Information
16%
Lutea
33%
Mellein
83%
Methyl
50%
Molecular Chemistry
16%
MRM Mode
16%
N. Parvum
100%
Naturally Infected
16%
Neofusicoccum
16%
Neofusicoccum Australe
16%
New South Wales
33%
Novel Primer
16%
Organic Extracts
33%
Parastagonospora Nodorum
16%
Pathogen DNA
16%
Pathogen Genomes
16%
Pathogenicity
16%
Pathogenicity Genes
16%
PCR Products
16%
Phytotoxic
16%
Phytotoxic Metabolites
100%
Phytotoxicity
16%
Phytotoxins
100%
Plant-pathogen Interaction
16%
Polyketide Compounds
16%
Polyketide Synthase
16%
Polyketide Synthase Gene
16%
Putative Genes
16%
Quantitative PCR
33%
Salycilic Acid
50%
South Australia
16%
Spectroscopic Techniques
16%
Spencermartinsia
16%
Symptom Development
16%
Symptom Expression
16%
Tomato
16%
Translocated
33%
Vine
33%
Vineyard
100%
Virulence Genes
16%
Wood
16%
Wood Samples
50%
Yield Loss
16%
Agricultural and Biological Sciences
Australians
57%
Botryosphaeria
71%
Botryosphaeriaceae
100%
Canker
14%
Culture Filtrates
14%
Dieback
85%
Diplodia
14%
Genomic DNA
14%
Lasiodiplodia theobromae
14%
Metabolite
100%
Neofusicoccum
14%
Neofusicoccum Australe
14%
NMR Spectroscopy
14%
Pathogenicity
28%
Phytotoxicity
14%
Phytotoxin
100%
Plant Pathogens
14%
Plant-Based Food
14%
Plantae
14%
Polyketide
14%
Polyketide Synthase
28%
Putative Gene
14%
Real-Time Polymerase Chain Reaction
28%
Spectroscopy
14%