Improvement of Bacillus circulans -amylase activity attained using the ancestral mutation method

Abstract

Thermostabilization of enzymes is one of the greatest challenges of protein engineering. The ancestral mutation method, which introduces ancestral residues into a target enzyme, has previously been developed and used to improve the thermostabilities of thermophilic enzymes. Herein, we report a study that used the ancestral mutation method to improve the thermostability of Bacillus circulans β-amylase, a mesophilic enzyme. A bacterial, common-ancestral β-amylase sequence was inferred using a phylogenetic tree composed of higher plant and bacterial amylase sequences. Eighteen mutants containing ancestral residues were designed, expressed in Eschericha coli and purified. Several of these mutants were more thermostable than that of the wild-type amylase. Notably, one mutant had both greater activity and greater thermostability. The relationship between the extent to which the amino acid residues within 5 of the mutation site were evolutionarily conserved and the extent to which thermostability was improved was examined. Apparently, it is necessary to conserve the residues surrounding an ancestral residue if thermostability is to be improved by the ancestral mutation method. © 2010 The Author. Published by Oxford University Press. All rights reserved.