Comparative Proteomic Analysis of Fucosylated Glycoproteins in Bacteroides thetaiotaomicron under Different Polysaccharide Nutrition Conditions
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ABSTRACT: Bacteroides thetaiotaomicron, one of the most eminent representative gut commensal Bacteroides species, is able to use the L-fucose in host-derived and dietary polysaccharides to modify its capsular polysaccharides and glycoproteins through a mammalian-like salvage metabolic pathway. This process is essential for the colonization of the bacteria and for symbiosis with the host. However, despite the importance of fucosylated proteins (FGPs) in Bacteroide thetaiotaomicron, their types, distribution, and functions remain unclear. In this project, the effects of different saccharide (glucose, corn starch, mucin, and fucoidan) nutrition conditions on FGP expressions and fucosylation are investigated using a chemical biological method based on metabolic labeling and bioorthogonal reaction. According to the results of label-free quantification, 559 FGPs (205 downregulated and 354 upregulated) are affected by the dietary conditions. Of these differentially expressed proteins, 65 proteins show extremely sensitive fucosylation levels. Specifically, the fucosylation of the chondroitin sulfate ABC enzyme, Sus proteins, and cationic efflux system proteins varies significantly upon the addition of mucin, corn starch, or fucoidan. Moreover, these polysaccharides can trigger an appreciable increase in the fucosylation level of the two-component system and ammonium transport proteins. These results highlight the efficiency of the combined metabolic glycan labeling and bio-orthogonal reaction in enriching the intestinal Bacteroide glycoproteins. Moreover, it emphasize the sensitivity of Bacteroides fucosylation to polysaccharide nutrition conditions, which allows for the regulation of bacterial growth.
INSTRUMENT(S): Q Exactive
ORGANISM(S): Bacteroides Thetaiotaomicron (strain Atcc 29148 / Dsm 2079 / Nctc 10582 / E50 / Vpi-5482)
SUBMITTER: Hao Jiang
LAB HEAD: Hao Jiang
PROVIDER: PXD023756 | Pride | 2022-02-08
REPOSITORIES: Pride
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