Max S G Legg scite author profile

Max S G Legg

5Publications

32Citation Statements Received

178Citation Statements Given

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236

166

Affiliations

University of Victoria, University of Leeds

Publications

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High-resolution crystal structures and STD NMR mapping of human ABO(H) blood group glycosyltransferases in complex with trisaccharide reaction products suggest a molecular basis for product release

Gagnon

Legg

Sindhuwinata

et al. 2017

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The human ABO(H) blood group A- and B-synthesizing glycosyltransferases GTA and GTB have been structurally characterized to high resolution in complex with their respective trisaccharide antigen products. These findings are particularly timely and relevant given the dearth of glycosyltransferase structures collected in complex with their saccharide reaction products. GTA and GTB utilize the same acceptor substrates, oligosaccharides terminating with α-l-Fucp-(1→2)-β-d-Galp-OR (where R is a glycolipid or glycoprotein), but use distinct UDP donor sugars, UDP-N-acetylgalactosamine and UDP-galactose, to generate the blood group A (α-l-Fucp-(1→2)[α-d-GalNAcp-(1→3)]-β-d-Galp-OR) and blood group B (α-l-Fucp-(1→2)[α-d-Galp-(1→3)]-β-d-Galp-OR) determinant structures, respectively. Structures of GTA and GTB in complex with their respective trisaccharide products reveal a conflict between the transferred sugar monosaccharide and the β-phosphate of the UDP donor. Mapping of the binding epitopes by saturation transfer difference NMR measurements yielded data consistent with the X-ray structural results. Taken together these data suggest a mechanism of product release where monosaccharide transfer to the H-antigen acceptor induces active site disorder and ejection of the UDP leaving group prior to trisaccharide egress.

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The effect of different cellulosic growth substrates and pH on the production of cellulolytic enzymes by Trichoderma reesei

Knapp

Legg

1986

Journal of Applied Bacteriology

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The effect of different cellulosic growth substrates on the production of cellulolytic enzymes by Trichoderma reesei was investigated. It was observed that growth on Avicel, Solka Floc and wheat straw produced different pH/time profiles in cultures. Over a range of controlled pH it was demonstrated that the production of cellulolytic and xylanolytic activity by T. reesei is dependent on culture pH and the type of growth substrate. The effect of pH on enzyme production varies with the nature of the growth substrate. Furthermore, it was shown that the optimum culture pH and growth substrate for the production of enzyme preparations for the extensive saccharification of cellulosic materials depends on the type of material to be saccharified.

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Antigen binding by conformational selection in near-germline antibodies

Blackler

Müller‐Loennies

Pokorny-Lehrer

et al. 2022

Journal of Biological Chemistry

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The S-layer homology domains of Paenibacillus alvei surface protein SpaA bind to cell wall polysaccharide through the terminal monosaccharide residue

Legg

Hager-Mair

Krauter

et al. 2022

Journal of Biological Chemistry

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Conserved residues Arg188 and Asp302 are critical for active site organization and catalysis in human ABO(H) blood group A and B glycosyltransferases†

Gagnon

Legg

Polakowski

et al. 2018

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Homologous glycosyltransferases GTA and GTB perform the final step in human ABO(H) blood group A and B antigen synthesis by transferring the sugar moiety from donor UDP-GalNAc/UDP-Gal to the terminal H antigen disaccharide acceptor. Like other GT-A fold family 6 glycosyltransferases, GTA and GTB undergo major conformational changes in two mobile regions, the C-terminal tail and internal loop, to achieve the closed, catalytic state. These changes are known to establish a salt bridge network among conserved active site residues Arg188, Asp211 and Asp302, which move to accommodate a series of discrete donor conformations while promoting loop ordering and formation of the closed enzyme state. However, the individual significance of these residues in linking these processes remains unclear. Here, we report the kinetics and high-resolution structures of GTA/GTB mutants of residues 188 and 302. The structural data support a conserved salt bridge network critical to mobile polypeptide loop organization and stabilization of the catalytically competent donor conformation. Consistent with the X-ray crystal structures, the kinetic data suggest that disruption of this salt bridge network has a destabilizing effect on the transition state, emphasizing the importance of Arg188 and Asp302 in the glycosyltransfer reaction mechanism. The salt bridge network observed in GTA/GTB structures during substrate binding appears to be conserved not only among other Carbohydrate Active EnZyme family 6 glycosyltransferases but also within both retaining and inverting GT-A fold glycosyltransferases. Our findings augment recently published crystal structures, which have identified a correlation between donor substrate conformational changes and mobile loop ordering.

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Max S G Legg

High-resolution crystal structures and STD NMR mapping of human ABO(H) blood group glycosyltransferases in complex with trisaccharide reaction products suggest a molecular basis for product release

The effect of different cellulosic growth substrates and pH on the production of cellulolytic enzymes by Trichoderma reesei

Antigen binding by conformational selection in near-germline antibodies

The S-layer homology domains of Paenibacillus alvei surface protein SpaA bind to cell wall polysaccharide through the terminal monosaccharide residue

Conserved residues Arg188 and Asp302 are critical for active site organization and catalysis in human ABO(H) blood group A and B glycosyltransferases†

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