Structural Analysis and Construction of a Thermostable Antifungal Chitinase
Dan Kozome, Keiko Uechi, Toki Taira, Harumi Fukada, Tomomi Kubota, Kazuhiko Ishikawa
Abstract
) 6.9°C higher than wild type (WT) and a half-life at 60°C that is 15 times longer than WT was constructed through 10 amino acid substitutions, including 5 proline residues substitutions, making disulfide bonding, and building a salt bridge network in the enzyme. These mutations do not affect its high antifungal activity and chitinase activity, and the principle for the construction of the thermostable chitinase was well explained by its crystal structure. Our results provide a useful strategy to enhance the thermostability of this enzyme family and to use the thermostable mutant as a seed for antifungal agents for practical use.
Topics & Concepts
ChitinaseAntifungalMicrobiologyComputational biologyBiologyChemistryBiochemistryEnzymeStudies on Chitinases and ChitosanasesBacteriophages and microbial interactionsEnzyme Production and Characterization