Immunology and Microbiology
Site Directed Mutagenesis
100%
Mutagenesis
100%
Wild Type
100%
Amino Acid Substitution
100%
High Throughput Screening
100%
Catalytic Efficiency
100%
Pseudomonas stutzeri
100%
Biocatalysis
100%
Molecular Model
100%
Biotransformation
100%
Candida Boidinii
100%
Keyphrases
Directed Evolution
100%
Regeneration
100%
NAD(P)
100%
Phosphite Dehydrogenase
100%
In Situ
14%
Site-directed mutagenesis
14%
Nicotinamide Adenine Dinucleotide Phosphate (NADPH)
14%
Industrial Biocatalysis
14%
Leucine
14%
Random mutagenesis
14%
Dehydrogenase Enzyme
14%
Molecular Modeling
14%
Systems-based
14%
Enhanced Stability
14%
Cofactor Regeneration
14%
Nicotinamide Cofactor
14%
High-throughput Screening
14%
Amino Acid Substitution
14%
Enzymatic System
14%
Thermostabilization
14%
Thermal Inactivation
14%
Formate Dehydrogenase
14%
Pseudomonas Stutzeri
14%
Catalytic Efficiency
14%
Bioconversion
14%
Chiral Molecules
14%
Oxidoreductase
14%
Trimethylpyruvate
14%
NADH Regeneration
14%
Candida Boidinii
14%
Engineering
Limitations
100%
Biocatalysis
100%
Bioconversion
100%
Thermal Inactivation
100%
Candida Boidinii
100%
Random Mutagenesis
100%
Chemistry
Cofactor
100%
NAD(P)
100%
NADH
66%
Amino Acid
33%
Site-Directed Mutagenesis
33%
Molecular Modeling
33%
High Throughput Screening
33%
Nicotinamide
33%
NADPH
33%
Leucine
33%
Formate Dehydrogenase
33%
Bioconversion
33%
Biochemistry, Genetics and Molecular Biology
Oxidoreductase
100%
Dehydrogenase
100%
Mutagenesis
12%
Site-Directed Mutagenesis
12%
Enzyme
12%
Wild Type
12%
Nicotinamide
12%
Amino Acid Substitution
12%
Biocatalysis
12%
Leucine
12%
Molecular Model
12%
Molecular Modeling
12%
High Throughput Screening
12%
Catalytic Efficiency
12%
Formate Dehydrogenase
12%
Pseudomonas stutzeri
12%
Biotransformation
12%
Candida Boidinii
12%