TY - JOUR
T1 - Molecular modeling and biocatalysis
T2 - Explanations, predictions, limitations, and opportunities
AU - Kazlauskas, Romas J.
PY - 2000/2/1
Y1 - 2000/2/1
N2 - Rapid advances in structural biology have revealed the three-dimensional structures of many biocatalysts. Molecular modeling is the tool that links these structures with experimental observations. As a qualitative tool, current modeling methods are extremely useful. They can explain, on a molecular level, unusual features of reactions. They can predict how to increase the selectivity either by substrate modification or by site-directed mutagenesis. Quantitative predictions, for example the degree of enantioselectivity, are still not reliable, however. Modeling is limited also by the availability of three-dimensional structures. Most current modeling involves hydrolases, especially proteases and lipases, but structures for other types of enzymes are starting to appear.
AB - Rapid advances in structural biology have revealed the three-dimensional structures of many biocatalysts. Molecular modeling is the tool that links these structures with experimental observations. As a qualitative tool, current modeling methods are extremely useful. They can explain, on a molecular level, unusual features of reactions. They can predict how to increase the selectivity either by substrate modification or by site-directed mutagenesis. Quantitative predictions, for example the degree of enantioselectivity, are still not reliable, however. Modeling is limited also by the availability of three-dimensional structures. Most current modeling involves hydrolases, especially proteases and lipases, but structures for other types of enzymes are starting to appear.
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U2 - 10.1016/S1367-5931(99)00056-3
DO - 10.1016/S1367-5931(99)00056-3
M3 - Review article
C2 - 10679382
AN - SCOPUS:0033963834
SN - 1367-5931
VL - 4
SP - 81
EP - 88
JO - Current opinion in chemical biology
JF - Current opinion in chemical biology
IS - 1
ER -