Structure of the Polyisoprenyl-phosphate Glycosyltransferase GtrB and Insights into the Mechanism of Catalysis

Overview

Journal Nat Commun

Specialty Biology

Date 2016 Jan 6

PMID 26729507

Citations 24

Authors

Chiara Ardiccioni

Oliver B Clarke

David Tomasek

Habon A Issa

Desiree C von Alpen

Heather L Pond

Surajit Banerjee

Kanagalaghatta R Rajashankar

Qun Liu

Ziqiang Guan

Chijun Li

Brian Kloss

Renato Bruni

Edda Kloppmann

Burkhard Rost

M Chiara Manzini

Lawrence Shapiro

Filippo Mancia

Affiliations

Soon will be listed here.

Abstract

The attachment of a sugar to a hydrophobic polyisoprenyl carrier is the first step for all extracellular glycosylation processes. The enzymes that perform these reactions, polyisoprenyl-glycosyltransferases (PI-GTs) include dolichol phosphate mannose synthase (DPMS), which generates the mannose donor for glycosylation in the endoplasmic reticulum. Here we report the 3.0 Å resolution crystal structure of GtrB, a glucose-specific PI-GT from Synechocystis, showing a tetramer in which each protomer contributes two helices to a membrane-spanning bundle. The active site is 15 Å from the membrane, raising the question of how water-soluble and membrane-embedded substrates are brought into apposition for catalysis. A conserved juxtamembrane domain harbours disease mutations, which compromised activity in GtrB in vitro and in human DPM1 tested in zebrafish. We hypothesize a role of this domain in shielding the polyisoprenyl-phosphate for transport to the active site. Our results reveal the basis of PI-GT function, and provide a potential molecular explanation for DPM1-related disease.

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