Keyphrases
Substrate Specificity
100%
Prostate-specific Antigen
100%
Structural Modeling
100%
Molecular Insight
100%
Prostate Cancer
42%
Pathobiology
28%
Aldehydes
28%
Inhibitory Potency
28%
Peptide Substrate
28%
Substrate Recognition
14%
Novel Peptide
14%
Enzymatic Activity
14%
Prostate Carcinogenesis
14%
Mechanistic Insight
14%
Physiological Role
14%
Hydrolysis
14%
Varying Length
14%
Molecular Modeling Studies
14%
Catalytic Site
14%
Substrate Binding
14%
Normal Prostate
14%
Experimental Validity
14%
Hydrolysis Rate
14%
Acyl-coenzyme A
14%
Enzyme Conformation
14%
Selective Substrate
14%
Positional Scanning
14%
Serine Protease Activity
14%
Substrate Mimetics
14%
Transition State Inhibitors
14%
3D Homology Modeling
14%
Biochemistry, Genetics and Molecular Biology
Enzyme Specificity
100%
Prostate-Specific Antigen
100%
Enzymatic Hydrolysis
28%
Transition State Analog
14%
Enzyme Activity
14%
Molecular Model
14%
Enzyme Conformation
14%
Carcinogenesis
14%
Serine Protease
14%
Pharmacology, Toxicology and Pharmaceutical Science
Substrate Specificity
100%
Prostate Specific Antigen
100%
Prostate Cancer
42%
Biological Marker
14%
Proteinase
14%
Serine Proteinase
14%
Carcinogenesis
14%