Title : A water molecule in the stereospecificity pocket of Candida antarctica lipase B enhances enantioselectivity towards pentan-2-ol - Leonard_2007_Chembiochem_8_662 |
Author(s) : Leonard V , Fransson L , Lamare S , Hult K , Graber M |
Ref : Chembiochem , 8 :662 , 2007 |
Abstract :
The effect of water activity on enzyme-catalyzed enantioselective transesterification was studied by using a solid/gas reactor. The experimental results were compared with predictions from molecular modelling. The system studied was the esterification of pentan-2-ol with methylpropanoate as acyl donor and lipase B from Candida antarctica as catalyst. The data showed a pronounced water-activity effect on both reaction rate and enantioselectivity. The enantioselectivity increased from 100, at water activity close to zero, to a maximum of 320, at a water activity of 0.2. Molecular modelling revealed how a water molecule could bind in the active site and obstruct the binding of the slowly reacting enantiomer. Measurements of enantioselectivity at different water-activity values and temperatures showed that the water molecule had a high affinity for the stereospecificity pocket of the active site with a binding energy of 9 kJ mol-1, and that it lost all its degrees of rotation, corresponding to an entropic energy of 37 J mol-1 K-1. |
PubMedSearch : Leonard_2007_Chembiochem_8_662 |
PubMedID: 17328021 |
Leonard V, Fransson L, Lamare S, Hult K, Graber M (2007)
A water molecule in the stereospecificity pocket of Candida antarctica lipase B enhances enantioselectivity towards pentan-2-ol
Chembiochem
8 :662
Leonard V, Fransson L, Lamare S, Hult K, Graber M (2007)
Chembiochem
8 :662