Immunology and Microbiology
Cupriavidus Necator
100%
Metabolic Engineering
58%
Pseudomonas putida
50%
Lineages
50%
Necator
45%
Soil Microflora
41%
Bioreactor
29%
Cotransporter
25%
Major Facilitator Superfamily
25%
Scale up
25%
Microbiology
25%
Dilution
25%
Operon
25%
Cladistics
25%
Microorganism
25%
Evolution
25%
Continuous Fermentation
20%
Whole Genome Sequencing
20%
Ascomycota
18%
Growth
12%
RNA Sequencing
8%
Microbial Genome
8%
Quorum Sensing
8%
Precursor
8%
Solution and Solubility
8%
Hydrogenase
8%
Heterochromatin
6%
Genetic Code
6%
Synteny
6%
Gene Cluster
6%
Pachysolen tannophilus
6%
Engineering
Metabolic Engineering
75%
Theoretical Yield
50%
Bioreactor
37%
Overexpression
25%
Petroleum Product
25%
Lignocellulosic Hydrolysate
25%
Lignocellulosics
25%
Engineering Strategy
25%
C/N Ratio
25%
Oxygen Limitation
25%
Agitation Rate
25%
Dilution Rate
25%
Level Control
25%
Microbial
25%
Continuous Fermentation
25%
Systematic Approach
12%
Minimal Medium
12%
High Value Product
12%
Shake Flask
12%
Hydrolysate
12%
Nitrogen Ratio
12%
Renewables
12%
Aviation Fuels
12%
Exponential Growth
12%
Biomass Yield
12%
Production Strain
12%
Energy Source
12%
Global Warming
12%
Carbon Sequestration
12%
Carbon Dioxide Capture
12%
Corn Stover
12%
Biofuel
12%
Biochemistry, Genetics and Molecular Biology
Metabolic Engineering
75%
Xylose
56%
Pseudomonas putida
50%
DNA Sequence
25%
Mycoplasma mycoides
25%
Gene Polymorphism
25%
Gene Deletion
25%
Comparative Genomics
25%
Lipomyces
25%
Cladistics
25%
Genomics
18%
Major Facilitator Superfamily
12%
Synthase
12%
Xylose Isomerase
12%
Heat Shock
12%
Genetic Transformation
12%
Transformation Efficiency
12%
Cell Density
12%
Lipogenesis
12%
Cotransporter
12%
Pachysolen tannophilus
6%
Heterochromatin
6%
Mating Type
6%
Genetic Code
6%
Methylotrophy
6%
Synteny
6%
Gene Cluster
6%
Rhamnose
6%