Cajal_2000_Biochimie_82_1053

Reference

Title : Effect of the lipid interface on the catalytic activity and spectroscopic properties of a fungal lipase - Cajal_2000_Biochimie_82_1053
Author(s) : Cajal Y , Svendsen A , De Bolos J , Patkar SA , Alsina MA
Ref : Biochimie , 82 :1053 , 2000
Abstract :

Lipase from the fungi Thermomyces (formerly Humicola) lanuginosa (TlL) is widely used in industry. This interfacial enzyme is inactive under aqueous conditions, but catalytic activation is induced on binding to a lipid-water interface. In order for protein engineering to design more efficient mutants of TlL for specific applications, it is important to characterize its interfacial catalysis. A complete analysis of steady-state kinetics for the hydrolysis of a soluble substrate by TlL has been developed using an interface different from the substrate. Small vesicles of 1-palmitoyl-2-oleoylglycero-sn-3-phosphoglycerol (POPG) or other anionic phospholipids are a neutral diluent interface for the partitioning of substrate and enzyme. TlL binds to these interfaces in an active or open form, thus implying a displacement of the helical lid away from the active site. A study of the influence of substrate and diluent concentration dependence of the rate of hydrolysis provides a basis for the determination of the primary interfacial catalytic parameters. The interfacial activation is not supported by zwitterionic vesicles or by large anionic vesicles of 100 nm diameter, although TlL binds to these interfaces. Using a combination of fluorescence-based techniques applied to several mutants of TlL with different tryptophan residues we have shown that TlL binds to phospholipid vesicles in different forms rendering different catalytic activities, and that the open lid conformation is achieved and stabilized by a combination of electrostatic and hydrophobic interactions between the enzyme's lipid-binding face and the interface.

PubMedSearch : Cajal_2000_Biochimie_82_1053
PubMedID: 11099802
Gene_locus related to this paper: humla-1lipa

Related information

Gene_locus humla-1lipa

Citations formats

Cajal Y, Svendsen A, De Bolos J, Patkar SA, Alsina MA (2000)
Effect of the lipid interface on the catalytic activity and spectroscopic properties of a fungal lipase
Biochimie 82 :1053

Cajal Y, Svendsen A, De Bolos J, Patkar SA, Alsina MA (2000)
Biochimie 82 :1053