Chemistry
Amount
8%
Application
8%
Biocatalyst
8%
Biomimetics
100%
Cofactor
100%
Deazaflavin
100%
Electron Donor
8%
Electron Particle
16%
Enzymatic Method
8%
Glucose
8%
Hydride
8%
Kcat
25%
Km
8%
Manufacturing Process
8%
NADPH
8%
Nicotinamide
100%
Nicotinamide Adenine Dinucleotide
8%
Nicotinamide Adenine Dinucleotide Phosphate
16%
Phosphate
16%
Procedure
8%
Reaction Temperature
8%
Recycling
16%
Redox Potential
8%
Saturation
8%
Site-Directed Mutagenesis
8%
Structure
8%
Time
8%
INIS
applications
10%
biomimetics
100%
carriers
10%
conversion
10%
cost
10%
efficiency
10%
electron donor
10%
electrons
20%
enzymes
20%
glucose
10%
hydrides
10%
mutagenesis
20%
mutants
20%
nadp
20%
nicotinamide
100%
nicotinamide-adenine dinucleotide
10%
oxidoreductases
10%
phosphates
20%
range
10%
recycling
100%
redox potential
10%
reductases
10%
reduction
10%
regeneration
10%
saturation
10%
stability
10%
substrates
10%
values
40%
Keyphrases
3-Acetylpyridine
20%
Cofactor Recycling
10%
F420
20%
F420H2
10%
Low Redox Potential
10%
Phosphorylated Forms
10%
Recycling System
100%
Thermobifida Fusca
10%