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蛋白质糖基化对酿酒酵母中 Flo11 依赖性黏附的影响。

The impact of protein glycosylation on Flo11-dependent adherence in Saccharomyces cerevisiae.

机构信息

Department of Biological Sciences, University of New York at Buffalo, Buffalo, NY 14260-1300, USA.

出版信息

FEMS Yeast Res. 2012 Nov;12(7):809-18. doi: 10.1111/j.1567-1364.2012.00832.x. Epub 2012 Aug 20.

DOI:10.1111/j.1567-1364.2012.00832.x
PMID:22816435
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3472133/
Abstract

Fungal cell adhesion molecules are critical for the attachment of cells to each other and to surfaces and in pathogens contribute to virulence. Fungal adhesins are typically heavily glycosylated. The impact of protein glycosylation on the function and regulation of adhesion glycoproteins is not clear. We examined the role of protein glycosylation on the adherence properties of the major adhesion molecule Muc1/Flo11 in the budding yeast Saccharomyces cerevisiae. Using a conditional mutant required for an early step in protein glycosylation, pmi40-101, we show that the glycosylation of Flo11 is required for invasive growth and biofilm/mat formation. Underglycosylated Flo11 was not defective in cell-surface localization or binding to wild-type cells in trans. However, wild-type Flo11 was defective for binding to the surface of cells undergoing a glycosylation stress. Shed Flo11 and other shed glycoproteins (Msb2 and Hkr1) were extremely stable with half-lives on the order of days. The glycosylation of Flo11 contributed to its stability. Moreover, the overall balance between Flo11 production, shedding, and turnover favored accumulation of the shed protein over time. Our findings may be applicable to fungal adhesion molecules in other species including pathogens.

摘要

真菌细胞黏附分子对于细胞间和细胞与表面的黏附至关重要,在病原体中有助于毒力。真菌黏附素通常高度糖基化。蛋白质糖基化对黏附糖蛋白的功能和调节的影响尚不清楚。我们研究了蛋白糖基化对出芽酵母酿酒酵母中主要黏附分子 Muc1/Flo11 的黏附特性的作用。使用一个条件突变体,该突变体需要蛋白质糖基化的早期步骤 pmi40-101,我们表明 Flo11 的糖基化对于侵袭性生长和生物膜/基质形成是必需的。未经糖基化的 Flo11 在细胞表面定位或与野生型细胞的结合中没有缺陷。然而,野生型 Flo11 在与经历糖基化应激的细胞表面结合方面存在缺陷。脱落的 Flo11 和其他脱落的糖蛋白(Msb2 和 Hkr1)极其稳定,半衰期为几天。Flo11 的糖基化有助于其稳定性。此外,Flo11 的产生、脱落和周转之间的总体平衡有利于脱落蛋白的积累随时间的推移。我们的发现可能适用于包括病原体在内的其他物种的真菌黏附分子。

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