Keyphrases
5′-monophosphate
11%
Active Sites
36%
Acylamino
7%
Anions
8%
Carbon-based Solid Acid
8%
Catabolic Pathway
10%
Catalyzed Reaction
9%
Crotonase
8%
Decarboxylase
14%
Decarboxylation
13%
Dehydratase
26%
Dehydration
7%
Divergent Evolution
10%
Enolase
7%
Enolase Superfamily
51%
Enolates
7%
Enzymatic Activity
41%
Enzyme Catalysis
11%
Enzyme Family
9%
Enzyme Function
11%
Epimerase
15%
Escherichia Coli
29%
Evolution of Functions
7%
Functional Assignment
9%
General Acid
7%
Genomic Enzymology
8%
Glucarate
8%
Hydrolysis
7%
Kcat
13%
Keto
15%
Mandelate
13%
Mandelate Racemase
26%
Metabolic Pathway
16%
Mg2+
13%
Muconate
10%
Operon
6%
Orotidine
9%
Orotidine 5′-monophosphate Decarboxylase
34%
Phosphate
24%
Proton
22%
Pseudomonas Putida
13%
Racemase
10%
Reaction Mechanism
13%
Sequence Similarity Network
6%
Side Chain
9%
Staphylococcal nuclease
11%
Stereochemical Hypothesis
9%
Substrate Specificity
8%
Transition State
11%
Vinyl
8%
Biochemistry, Genetics and Molecular Biology
Active Site
45%
Amino Acids
7%
Anabolism
5%
Arginine
7%
Binding Protein
6%
Biochemistry
14%
C-Terminus
6%
Carboxy-Lyases
42%
Catalytic Efficiency
5%
Conformation
9%
Conformational Change
5%
Crystal Structure
10%
Decarboxylation
13%
Dehydratase
23%
Dehydrogenase
5%
Enolase
5%
Enolase Superfamily
49%
Enoyl-CoA Hydratase
6%
Enzyme
100%
Enzyme Active Site
5%
Enzyme Activity
45%
Enzyme Mechanism
5%
Enzyme Specificity
8%
Enzymology
11%
Escherichia coli
26%
Genomics
10%
Lysine
7%
Metabolic Pathway
22%
Metabolite
5%
Micrococcal Nuclease
10%
N-Terminus
5%
Operon
6%
Oxidoreductase
7%
Peptide Sequence
5%
Protein Family
5%
Proton Transport
7%
Pseudomonas putida
12%
Rhodospirillum rubrum
5%
Synthase
19%
Turnover Number
12%
Uridine Monophosphate
5%
Wild Type
16%