Keyphrases
Molecular Mechanism
100%
Transcription Factor
100%
Biomass Utilization
100%
Plant Biomass
100%
Aspergillus
100%
Utilization Potential
100%
Ar-Ar
46%
XlnR
40%
Pectin
33%
Gaar
33%
D-galactose (D-gal)
26%
Acthar
20%
GalR
20%
Transcriptional Network
20%
Galacturonic Acid
20%
Primary Transcription
20%
Gene Expression
13%
Gene Regulation
13%
Arabinose
13%
Wheat Bran
13%
Catabolic Pathway
13%
Pentose Catabolic Pathway
13%
Plant Biomass Degradation
13%
Combinatorial Control
13%
Proteomics
6%
Fungi
6%
Acid-responsive
6%
Inducer
6%
Biofilm Formation
6%
Smooth Surface
6%
Pentose
6%
Xylose
6%
Extracellular Enzymes
6%
Genetic Interaction
6%
Physiological Role
6%
Pectinolytic Activity
6%
Homogalacturonan
6%
Galactose Catabolism
6%
Rhamnose
6%
Xylose Fermentation
6%
Complete Degradation
6%
Specific Transcription Factor
6%
Reference Strain
6%
Flakes
6%
Super-resolution Microscopy
6%
AmyR
6%
Complex Carbon Source
6%
Acid Transport
6%
Acid Metabolism
6%
Transcriptome Response
6%
Network Motifs
6%
Sugar Beet Pectin
6%
Cooperative Action
6%
Uptake System
6%
Combined Control
6%
Sugar Uptake
6%
Hemicellulolytic Enzyme
6%
Biochemistry, Genetics and Molecular Biology
Transcription Factors
100%
Aspergillus
100%
Pectin
37%
Enzyme
25%
Galactose
25%
Pentose
18%
D-Galacturonic Acid
18%
Gene Expression
18%
Regulatory Network
12%
Arabinose
12%
Metabolic Pathway
6%
Sugar Transport
6%
Secretion (Process)
6%
Gene Interaction
6%
Network Motif
6%
Xylose
6%
Biofilm
6%
Rhamnose
6%
Transcriptome
6%
Proteomics
6%