Takanori Nihira scite author profile

β-1,2-Glucan is an extracellular cyclic or linear polysaccharide from Gram-negative bacteria, with important roles in infection and symbiosis. Despite β-1,2-glucan's importance in bacterial persistence and pathogenesis, only a few reports exist on enzymes acting on both cyclic and linear β-1,2-glucan. To this end, we purified an -β-1,2-glucanase to homogeneity from cell extracts of the environmental species, and an -β-1,2-glucanase candidate gene () was cloned from the related species The Cpin_6279 protein specifically hydrolyzed linear β-1,2-glucan with polymerization degrees of ≥5 and a cyclic counterpart, indicating that Cpin_6279 is an-β-1,2-glucananase. Stereochemical analysis demonstrated that the Cpin_6279-catalyzed reaction proceeds via an inverting mechanism. Cpin_6279 exhibited no significant sequence similarity with known glycoside hydrolases (GHs), and thus the enzyme defines a novel GH family, GH144. The crystal structures of the ligand-free and complex forms of Cpin_6279 with glucose (Glc) and sophorotriose (Glc-β-1,2-Glc-β-1,2-Glc) determined up to 1.7 Å revealed that it has a large cavity appropriate for polysaccharide degradation and adopts an (α/α)-fold slightly similar to that of GH family 15 and 8 enzymes. Mutational analysis indicated that some of the highly conserved acidic residues in the active site are important for catalysis, and the Cpin_6279 active-site architecture provided insights into the substrate recognition by the enzyme. The biochemical characterization and crystal structure of this novel GH may enable discovery of other β-1,2-glucanases and represent a critical advance toward elucidating structure-function relationships of GH enzymes.

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Direct Monitoring of Enzymatic Glucan Hydrolysis on a 27-MHz Quartz-Crystal Microbalance

Nishino

Nihira

Mori

et al. 2004

J. Am. Chem. Soc.

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Kinetic Studies of Site-Directed Mutational Isomalto-dextranase-Catalyzed Hydrolytic Reactions on a 27 MHz Quartz-Crystal Microbalance

et al. 2005

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A quartz-crystal microbalance (QCM) technique was applied to analyze effects of site-directed mutagenesis of a glycosidase (isomalto-dextranase) on the hydrolysis mechanism of the substrate binding (k(on), k(off), and K(d)) and the catalytic process (k(cat)), separately, by using a dextran-immobilized QCM in buffer solution. D266N, D198N, and D313N mutants, which are predicted as critical residues of the isomalto-dextranase hydrolytic activity, dramatically decreased the apparent enzyme activity. The D266N mutant, however, did not change the substrate binding ability (K(d)), and the D198N and D313N mutants largely increased K(d) values due to the increase of k(off) and/or the decrease of k(on) values, as well as the negatively small k(cat) values. From these results, we estimate the reaction mechanism, in which Asp266 acts as only a general acid in the catalytic process, Asp198 acts as both nucleophile in the catalytic process and binding the substrate, and Asp313 acts as only the substrate binding.

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Takanori Nihira

Discovery of β-1,4-d-Mannosyl-N-acetyl-d-glucosamine Phosphorylase Involved in the Metabolism of N-Glycans

Biochemical and structural analyses of a bacterial endo-β-1,2-glucanase reveal a new glycoside hydrolase family

Direct Monitoring of Enzymatic Glucan Hydrolysis on a 27-MHz Quartz-Crystal Microbalance

Kinetic Studies of Site-Directed Mutational Isomalto-dextranase-Catalyzed Hydrolytic Reactions on a 27 MHz Quartz-Crystal Microbalance

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