Journal article
A general protein O-glycosylation machinery conserved in Burkholderia species improves bacterial fitness and elicits glycan immunogenicity in humans
YF Mohamed, NE Scott, A Molinaro, C Creuzenet, X Ortega, G Lertmemongkolchai, MM Tunney, H Green, AM Jones, D DeShazer, BJ Currie, LJ Foster, R Ingram, C De Castro, MA Valvano
Journal of Biological Chemistry | AMER SOC BIOCHEMISTRY MOLECULAR BIOLOGY INC | Published : 2019
Abstract
The Burkholderia genus encompasses many Gram-negative bacteria living in the rhizosphere. Some Burkholderia species can cause life-threatening human infections, highlighting the need for clinical interventions targeting specific lipopolysaccharide proteins. Burkholderia cenocepaciaO-linked protein glycosylation has been reported, but the chemical structure of the O-glycan and the machinery required for its biosynthesis are unknown and could reveal potential therapeutic targets. Here, using bioinformatics approaches, gene-knockout mutants, purified recombinant proteins, LC-MS-based analyses of O-glycans, and NMR-based structural analyses, we identified a B. cenocepacia O-glycosylation (ogc) g..
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Awarded by National Health and Medical Research Council
Funding Acknowledgements
[ "This work was supported in part by a grant from the Canadian Institutes of Health Research (to M. A. V. and C. C.) and from the UK Medical Research Council Confidence in Concept Project CD1617-CIC04 (to M. A. V.). The authors declare that they have no conflicts of interest with the contents of this article.", "Supported by an International Ph.D. Scholarship from Queen's University Belfast, Belfast BT9 1NN, United Kingdom.", "Supported by National Health and Medical Research Council of Australia (NHMRC) Project Grant APP1100164 and an Overseas (Biomedical) Fellowship APP1037373." ]