X
Search Filters
Format Format
Subjects Subjects
Subjects Subjects
X
Sort by Item Count (A-Z)
Filter by Count
enoate reductases (119) 119
old yellow enzyme (96) 96
asymmetric bioreduction (83) 83
enzymes (74) 74
index medicus (72) 72
enoate reductase (69) 69
biocatalysis (68) 68
chemistry, organic (42) 42
reduction (42) 42
pentaerythritol tetranitrate reductase (41) 41
biotechnology & applied microbiology (39) 39
chemistry, physical (36) 36
biochemistry & molecular biology (33) 33
family (33) 33
oxidoreductases - metabolism (32) 32
bioreduction (30) 30
stereoisomerism (30) 30
biotransformation (29) 29
crystal-structure (29) 29
catalysis (28) 28
hydrogenation (27) 27
oxidation-reduction (27) 27
asymmetric reduction (26) 26
reductases (24) 24
alkenes (23) 23
ene-reductase (23) 23
enzym (23) 23
activated alkenes (22) 22
chemistry, applied (21) 21
escherichia-coli (21) 21
esters (21) 21
enantiomers (20) 20
old yellow enzymes (20) 20
chemistry, multidisciplinary (19) 19
oxidoreductases - genetics (19) 19
substrate specificity (19) 19
analysis (18) 18
biotechnology (18) 18
oxidoreductases - chemistry (17) 17
biotransformations (16) 16
cloning (16) 16
olefins (15) 15
oxidoreductases (15) 15
alkenes - metabolism (14) 14
chemical properties (14) 14
microbiology (14) 14
kinetics (13) 13
morphinone reductase (13) 13
nadph dehydrogenase - metabolism (13) 13
alkenes - chemistry (12) 12
enantioselectivity (12) 12
enzyme catalysis (12) 12
ketones (12) 12
mechanism (12) 12
models, molecular (12) 12
protein (12) 12
sequence (12) 12
yeast (12) 12
yqjm (12) 12
alkene (11) 11
article (11) 11
bakers-yeast (11) 11
chemistry, medicinal (11) 11
crystallography, x-ray (11) 11
derivatives (11) 11
ene-reductases (11) 11
expression (11) 11
nitroalkenes (11) 11
purification (11) 11
stereocontrol (11) 11
stereoselectivity (11) 11
amino acid sequence (10) 10
binding (10) 10
biocatalysts (10) 10
biokatalyse (10) 10
directed evolution (10) 10
double-bond (10) 10
escherichia coli (10) 10
escherichia coli - genetics (10) 10
molecular structure (10) 10
protein engineering (10) 10
specificity (10) 10
asymmetry (9) 9
bacterial proteins - genetics (9) 9
bacterial proteins - metabolism (9) 9
dehydrogenase (9) 9
gene (9) 9
molecular sequence data (9) 9
proteins (9) 9
substrates (9) 9
synthesis (9) 9
active-site (8) 8
alcohol dehydrogenase (8) 8
clostridium (8) 8
enterobacter-cloacae pb2 (8) 8
niacinamide (8) 8
nicotinamide (8) 8
old-yellow-enzyme (8) 8
organic chemistry (8) 8
oxidation (8) 8
more...
Language Language
Publication Date Publication Date
Click on a bar to filter by decade
Slide to change publication date range


ACS Catalysis, ISSN 2155-5435, 04/2018, Volume 8, Issue 4, pp. 3532 - 3549
Recent studies of multiple enzyme families collectively called ene-reductases (ERs) have highlighted potential industrial applications of these biocatalysts in... 
SITE-SATURATION MUTAGENESIS | ACTIVE-SITE | ESCHERICHIA-COLI | CHEMISTRY, PHYSICAL | ENOATE REDUCTASES | biocatalysis | OLD YELLOW ENZYME | Old Yellow Enzymes | synthetic biology | NADH OXIDASE | CIRCULAR PERMUTATION | MICROBIAL-PRODUCTION | ene-reductases | BIOMIMETIC COFACTORS | ASYMMETRIC BIOREDUCTION | asymmetric alkene reduction | Ene-reductases
Journal Article
Current Opinion in Chemical Biology, ISSN 1367-5931, 04/2014, Volume 19, Issue 1, pp. 107 - 115
•Old Yellow Enzymes are primarily used for biocatalytic hydrogenations.•Medium chain dehydrogenase/reductases can substitute for OYEs.•Unsaturated ester... 
ENOATE REDUCTASES | BIOPHYSICS | CLONING | ASYMMETRIC BIOREDUCTION | BIOCHEMISTRY & MOLECULAR BIOLOGY | ESTERS | Biocatalysis | Oxidoreductases - metabolism | Stereoisomerism | Humans | Protein Engineering | Substrate Specificity | Hydrogenation
Journal Article
CATALYSIS SCIENCE & TECHNOLOGY, ISSN 2044-4753, 2016, Volume 6, Issue 1, pp. 169 - 177
Efficient and cost effective nicotinamide cofactor regeneration is essential for industrial-scale bio-hydrogenations employing flavin-containing biocatalysts... 
FORMATE DEHYDROGENASE | VISIBLE-LIGHT | ELECTRON-TRANSFER | REGENERATION | REDOX REACTIONS | RUTHENIUM COMPLEXES | CHEMISTRY, PHYSICAL | ENOATE REDUCTASES | ASYMMETRIC BIOREDUCTION | PENTAERYTHRITOL TETRANITRATE REDUCTASE | OLD YELLOW ENZYME
Journal Article
Catalysis Science and Technology, ISSN 2044-4753, 10/2015, Volume 6, Issue 1, pp. 169 - 177
Efficient and cost effective nicotinamide cofactor regeneration is essential for industrial-scale bio-hydrogenations employing flavin-containing biocatalysts... 
Regeneration | Enzymes | Reduction | Urban regeneration | Transition metals | Olefins | Triethanolamine | Catalysis
Journal Article
Green Chemistry, ISSN 1463-9262, 6/2013, Volume 15, Issue 7, pp. 1764 - 1772
Journal Article