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Probing a functional role of Glu87 and Trp89 in the lid ofHumicola lanuginosa lipase through transesterification reactions in organic solvent
Authors:Mats Holmquist   Ib Groth Clausen   Shamkant Patkar   Allan Svendsen  Karl Hult
Affiliation:(1) Department of Biochemistry and Biotechnology, Royal Institute of Technology, S-100 44 Stockholm, Sweden;(2) Novo-Nordisk A/S, 2880 Bagsvaerd, Denmark
Abstract:To reveal the functional role of Glu87 and Trp89 in the lid ofHumicola lanuginosa lipase, site-directed mutagenesis at Glu87 and Trp89 was carried out. The catalytic performance of wild-type and mutated lipases was studied in transesterification reactions in cyclohexane at a controlled water activity. Two different acyl donors were used in the investigation: tributyrin, a natural substrate for a lipase, and vinyl butyrate, an activated ester suitable for fast and efficient lipase-catalyzed transformations in preparative organic synthesis. As acyl acceptor 1-heptanol was used. The Glu87Ala mutation decreased theVmax,app value with tributyrin and vinyl butyrate by a factor of 1.5 and 2, respectively. TheKm,app for tributyrin was not affected by the Glu87Ala mutation, but theKm,app for vinyl butyrate increased twofold compared to the wild-type lipase. Changing Trp89 into a Phe residue afforded an enzyme with a 2.7- and 2-fold decreasedVmax,app with the substrates tributyrin and vinyl butyrate, respectively, compared to the wild-type lipase. No significant effects on theKm,app values for tributyrin or vinyl butyrate were seen as a result of the Trp89Phe mutation. However, the introduction of a Glu residue at position 89 in the lid increased theKm,app for tributyrin and vinyl butyrate by a factor of >5 and 2, respectively. The Trp89Glu mutated lipase could not be saturated with tributyrin within the experimental conditions (0–680 mM) studied here. With vinyl butyrate as a substrate theVmax,app was only 6% of that obtained with wild-type enzyme.
Keywords:Hydrolase  site-directed mutagenesis  kinetics  cyclohexane  butanoic acid esters
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