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Processive chitinase is Brownian monorail operated by fast catalysis after peeling rail from crystalline chitin

Akihiko Nakamura (), Kei-ichi Okazaki, Tadaomi Furuta, Minoru Sakurai and Ryota Iino ()
Additional contact information
Akihiko Nakamura: National Institutes of Natural Sciences
Kei-ichi Okazaki: National Institutes of Natural Sciences
Tadaomi Furuta: Tokyo Institute of Technology
Minoru Sakurai: Tokyo Institute of Technology
Ryota Iino: National Institutes of Natural Sciences

Nature Communications, 2018, vol. 9, issue 1, 1-12

Abstract: Abstract Processive chitinase is a linear molecular motor which moves on the surface of crystalline chitin driven by processive hydrolysis of single chitin chain. Here, we analyse the mechanism underlying unidirectional movement of Serratia marcescens chitinase A (SmChiA) using high-precision single-molecule imaging, X-ray crystallography, and all-atom molecular dynamics simulation. SmChiA shows fast unidirectional movement of ~50 nm s−1 with 1 nm forward and backward steps, consistent with the length of reaction product chitobiose. Analysis of the kinetic isotope effect reveals fast substrate-assisted catalysis with time constant of ~3 ms. Decrystallization of the single chitin chain from crystal surface is the rate-limiting step of movement with time constant of ~17 ms, achieved by binding free energy at the product-binding site of SmChiA. Our results demonstrate that SmChiA operates as a burnt-bridge Brownian ratchet wherein the Brownian motion along the single chitin chain is rectified forward by substrate-assisted catalysis.

Date: 2018
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Citations: View citations in EconPapers (3)

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DOI: 10.1038/s41467-018-06362-3

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