The lamC gene encoding a novel β-(1,3)-glucanase was cloned from Corallococcus sp. EGB and successfully expressed in the industrial yeast Pichia pastoris. The mature protein without the initial 26 residues of signal peptide, designated LamC27, was found to be composed of fascin-like module and laminarinase-like catalytic module. The purified recombinant enzyme (rLamC27) with a calculated molecular mass of 45.3 kDa displays activities toward a broad range of β-linked polysaccharides, including laminarin, curdlan, pachyman, lichenan, and CMC. Enzymological characterization showed that rLamC27 performes its optimal activity under the condition of 45 °C and pH 7.0, respectively, and preferentially catalyzes the hydrolysis of glucans with a β-1,3-linkage, which is similar to the LamC previously expressed in E. coli. TherLamC27 enzyme was activated by Mn2+ and Ba2+, while it was inhibited by Cu2+, Zn2+, and Co2+. Moreover, rLamC27 was strongly inhibited by 10 mM EDTA with 7.5% of its original activity remiaining, and weakly by SDS and Triton X-100. In antifungal assay, rLamC27 was conformed to possess lytic and antifungal activity against rice blast fungus. Specifically, a significant decrease germ tube and appressorium formation ratios from 94% to 59% and 97%-51%, respectively, were observed following exposure to rLamC27. H2DCFDA and CFW staining further demonstrated that the fungistasis capability of rLamC27 could be contributed by its ability to hydrolyze components of the cell wall. All these favorable properties indicate a promising potential for using rLamC27 as a biological antifungal agent in areas such as plant protection and food preservation.
Keywords: Antifungal protein; Corallococcus sp; Laminarinase; β-1,3-Glucanase.
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