Mechanism of action of aspartic proteinases: Application of transition-state analogue theory

Journal of Computer-Aided Molecular Design

Volumn 10, Issue 6, 1996, Pages 583-588

  Oidziej, Stanisiaw ^a  

^a UNIVERSITÉ DE MONTRÉAL   (Canada)

Author keywords

Aspartic proteinases; DFT; Mechanism of action; Semiempirical methods; Transition state analogue theory

Indexed keywords

CATALYSIS; DENSITY FUNCTIONAL THEORY; ENZYMES; REACTION INTERMEDIATES;

ASPARTIC PROTEINASE; DENSITY-FUNCTIONAL-THEORY; DFT; FREE ENZYME; MECHANISM OF ACTION; MICHAELIS COMPLEX; SEMI-EMPIRICAL; SEMI-EMPIRICAL METHODS; TRANSITION-STATE ANALOG THEORY; TRANSITION-STATE ANALOGUES;

DISSOCIATION;

ASPARTIC ACID; ASPARTIC PROTEINASE;

ARTICLE; BINDING SITE; CATALYSIS; CHEMICAL MODEL; CHEMICAL STRUCTURE; CHEMISTRY; COMPUTER PROGRAM; COMPUTER SIMULATION; DRUG DESIGN; METABOLISM; THERMODYNAMICS;

ASPARTIC ACID; ASPARTIC ENDOPEPTIDASES; BINDING SITES; CATALYSIS; COMPUTER SIMULATION; DRUG DESIGN; MODELS, CHEMICAL; MODELS, MOLECULAR; MOLECULAR STRUCTURE; SOFTWARE; THERMODYNAMICS;

EID: 0030346468     PISSN: 0920654X     EISSN: None     Source Type: Journal    
DOI: 10.1007/bf00134181     Document Type: Article

References (2)

1. Fitzgerald, P.M.D. and Springer, J.P., Annu. Rev. Biophys. Biophys. Chem., 20 (1991) 299.
2. Pearl, L.H., FEES Eett., 214 (1987) 8.