Uppenberg_1995_Biochemistry_34_16838

Reference

Title : Crystallographic and molecular-modeling studies of lipase B from Candida antarctica reveal a stereospecificity pocket for secondary alcohols - Uppenberg_1995_Biochemistry_34_16838
Author(s) : Uppenberg J , Ohrner N , Norin M , Hult K , Kleywegt GJ , Patkar S , Waagen V , Anthonsen T , Jones TA
Ref : Biochemistry , 34 :16838 , 1995
Abstract :

Many lipases are potent catalysts of stereoselective reactions and are therefore of interest for use in chemical synthesis. The crystal structures of lipases show a large variation in the shapes of their active site environments that may explain the large variation in substrate specificity of these enzymes. We have determined the three-dimensional structure of Candida antarctica lipase B (CALB) cocrystallized with the detergent Tween 80. In another crystal form, the structure of the enzyme in complex with a covalently bound phosphonate inhibitor has been determined. In both structures, the active site is exposed to the external solvent. The potential lid-forming helix alpha 5 in CALB is well-ordered in the Tween 80 structure and disordered in the inhibitor complex. The tetrahedral intermediates of two chiral substrates have been modeled on the basis of available structural and biochemical information. The results of this study provide a structural explanation for the high stereoselectivity of CALB toward many secondary alcohols.

PubMedSearch : Uppenberg_1995_Biochemistry_34_16838
PubMedID: 8527460
Gene_locus related to this paper: canar-LipB

Related information

Inhibitor N-Hexylphosphonate-Ethyl-Ester
Substrate T-80
Gene_locus canar-LipB
Family Canar_LipB
Structure 1LBS    1LBT

Citations formats

Uppenberg J, Ohrner N, Norin M, Hult K, Kleywegt GJ, Patkar S, Waagen V, Anthonsen T, Jones TA (1995)
Crystallographic and molecular-modeling studies of lipase B from Candida antarctica reveal a stereospecificity pocket for secondary alcohols
Biochemistry 34 :16838

Uppenberg J, Ohrner N, Norin M, Hult K, Kleywegt GJ, Patkar S, Waagen V, Anthonsen T, Jones TA (1995)
Biochemistry 34 :16838