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Fungal strain engineering from understanding towards applications
Jiali Meng
Sub Molecular Plant Physiology
Molecular Plant Physiology
Research output
:
Thesis
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Doctoral thesis 2 (Research NOT UU / Graduation UU)
Overview
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Keyphrases
Xylose
100%
Fungal Strains
100%
Strain Engineering
100%
Lignocellulosic Biomass
83%
Xylitol Production
83%
Xylose Transporter
83%
Xylitol
50%
Arabitol
50%
Plant Biomass
33%
Filamentous Fungi
33%
Pentose
33%
D-galactose (D-gal)
33%
Transport System
33%
Sugar Transport
33%
Fungal Cell Factories
33%
Redundancy
16%
Systems Biology
16%
High Specificity
16%
Biofuel
16%
Attractive Alternatives
16%
Highly Effective
16%
Transcription Factor
16%
Biomass Utilization
16%
Fungi
16%
System Development
16%
Genetic Engineering
16%
Gene Regulatory Network
16%
Transcriptional Repressor
16%
XlnR
16%
Catabolism
16%
Arabinose
16%
Ar-Ar
16%
Omics Technologies
16%
Physiological Processes
16%
Crucial Aspect
16%
Galactose Catabolism
16%
GalR
16%
Polyol
16%
Genetic Tools
16%
Cell Factory
16%
Renewable Resources
16%
Fossil Resources
16%
Xylanolytic Enzymes
16%
Direct Use
16%
Value-added Chemicals
16%
Industrial Production
16%
Biotechnological Applications
16%
Aspergillus Species
16%
New Genetics
16%
Wheat Bran
16%
Metabolic Network
16%
Ascomycete Fungi
16%
CRISPR-Cas9 Technology
16%
Sugar Beet Pulp
16%
Abundant Resources
16%
Metabolic Engineering
16%
Microbial Cell Factory
16%
Degrading Microorganism
16%
Sugar Metabolism
16%
Biogas Engineering
16%
Compensation Characteristics
16%
Bioproduction
16%
Bioproduction Processes
16%
Immunology and Microbiology
Fungal Strain
100%
Fungal Cell
100%
Filamentous Fungus
100%
Sugar Transport
100%
Ascomycota
50%
Transcriptional Activator
50%
CRISPR/Cas9
50%
Physiological Process
50%
Aspergillus
50%
Metabolic Engineering
50%
Transcription Factors
50%
Microorganism
50%
Genetic Engineering
50%
Biochemistry, Genetics and Molecular Biology
Fungal Strain
100%
Xylitol
100%
Xylose
75%
Arabitol
37%
Pentose
25%
Sugar Transport
25%
Filamentous Fungus
25%
Galactose
25%
Genetics
12%
Metabolic Pathway
12%
CRISPR/Cas9
12%
Regulatory Network
12%
Transcriptional Activator
12%
Physiological Process
12%
Microorganism
12%
Metabolic Engineering
12%
Transcription Factors
12%
Tamsulosin
12%
Arabinose
12%
Genetic Engineering
12%
Aspergillus
12%