Keyphrases
Arabidopsis Thaliana
100%
Acacia Caven
100%
Cupriavidus pinatubonensis JMP134
100%
Aromatic Compound Degradation
100%
Root Exudates
100%
2,4-Dichlorophenoxyacetic Acid
50%
Aromatic Compounds
50%
Rhizosphere
50%
Xenobiotics
50%
Soil Bacteria
25%
Soil Microcosm
25%
Mutant Strains
25%
Bacterial Degradation
25%
Degradation Pathway
25%
Aromatic Pollutants
25%
Rhizosphere Colonization
25%
Rhizoplane
25%
Plant Host
25%
Plant-soil
25%
Deleterious Effects
25%
Herbicide
25%
In Vitro Culture
25%
Energy Sources
25%
Aromatic Degradation
25%
Toxic Concentration
25%
Plant Root Colonization
25%
Aromatic Components
25%
Plant Rhizosphere
25%
Gene Inactivation
25%
Aromatics
25%
Endorhizosphere
25%
Gnotobiotic
25%
Catabolic
25%
Internal Tissues
25%
Degrader
25%
Carbon Source
25%
Metabolic Flexibility
25%
Metabolically Active
25%
INIS
arabidopsis
100%
roots
100%
aromatic compounds
100%
aromatics
80%
strains
60%
soils
40%
bacteria
40%
mutants
40%
host
40%
xenobiotics
40%
levels
20%
habitat
20%
genes
20%
microcosms
20%
growth
20%
concentration
20%
tissues
20%
toxicity
20%
pollutants
20%
molecules
20%
herbicides
20%
in vitro
20%
inactivation
20%
energy sources
20%
carbon sources
20%
Immunology and Microbiology
Arabidopsis thaliana
100%
Acacia
100%
Cupriavidus
100%
Root Exudate
100%
Xenobiotic
50%
Plant Root
25%
Soil Microflora
25%
Toxic Concentration
25%
Gnotobiotics
25%
Gene Inactivation
25%