Issue 2, 2019

Mechanism of oligosaccharide synthesis via a mutant GH29 fucosidase

Abstract

Techniques for synthesis of bespoke oligosaccharides currently lag behind those for other biopolymers such as polypeptides and polynucleotides, in part because of the paucity of satisfactory enzymatic tools to perform the synthetic reactions. One promising avenue of development for this problem is glycoside hydrolase enzymes with mutated nucleophile residues (called glycosynthases), which retain some elements of their native specificity and work with cheaply available substrates. However, the mechanistic underpinnings of this class of enzymes are not yet well-understood, and what few atomistic studies have been conducted have found different reaction pathways. In this paper, we describe the first unbiased computational study of the mechanism of a GH29 glycosynthase enzyme, Thermotoga maritima α-L-fucosidase (TmAfc) D224G. We find a single-step endothermic reaction step with an oxocarbenium-like transition state, demonstrating how stabilization of this transition state structure (which is common to many retaining glycoside hydrolases) can be repurposed in mutant enzymes to perform synthesis instead of hydrolysis. Our results are consistent with previous experimental observations and help both to clarify the mechanism of the existing single-mutant and to provide directions for further engineering of this and other glycosynthases.

Graphical abstract: Mechanism of oligosaccharide synthesis via a mutant GH29 fucosidase

Supplementary files

Article information

Article type
Paper
Submitted
03 Okt 2018
Accepted
06 Dez 2018
First published
07 Dez 2018

React. Chem. Eng., 2019,4, 402-409

Author version available

Mechanism of oligosaccharide synthesis via a mutant GH29 fucosidase

T. Burgin and H. B. Mayes, React. Chem. Eng., 2019, 4, 402 DOI: 10.1039/C8RE00240A

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