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热休克蛋白40分子伴侣Ydj1p与蛋白激酶C途径一起,影响酿酒酵母的细胞壁完整性。

The Hsp40 molecular chaperone Ydj1p, along with the protein kinase C pathway, affects cell-wall integrity in the yeast Saccharomyces cerevisiae.

作者信息

Wright Christine M, Fewell Sheara W, Sullivan Mara L, Pipas James M, Watkins Simon C, Brodsky Jeffrey L

机构信息

Department of Biological Sciences, University of Pittsburgh, Pittsburgh, Pennsylvania 15260, USA.

出版信息

Genetics. 2007 Apr;175(4):1649-64. doi: 10.1534/genetics.106.066274. Epub 2007 Jan 21.

Abstract

Molecular chaperones, such as Hsp40, regulate cellular processes by aiding in the folding, localization, and activation of multi-protein machines. To identify new targets of chaperone action, we performed a multi-copy suppressor screen for genes that improved the slow-growth defect of yeast lacking the YDJ1 chromosomal locus and expressing a defective Hsp40 chimera. Among the genes identified were MID2, which regulates cell-wall integrity, and PKC1, which encodes protein kinase C and is linked to cell-wall biogenesis. We found that ydj1delta yeast exhibit phenotypes consistent with cell-wall defects and that these phenotypes were improved by Mid2p or Pkc1p overexpression or by overexpression of activated downstream components in the PKC pathway. Yeast containing a thermosensitive allele in the gene encoding Hsp90 also exhibited cell-wall defects, and Mid2p or Pkc1p overexpression improved the growth of these cells at elevated temperatures. To determine the physiological basis for suppression of the ydj1delta growth defect, wild-type and ydj1delta yeast were examined by electron microscopy and we found that Mid2p overexpression thickened the mutant's cell wall. Together, these data provide the first direct link between cytoplasmic chaperone function and cell-wall integrity and suggest that chaperones orchestrate the complex biogenesis of this structure.

摘要

分子伴侣,如热休克蛋白40(Hsp40),通过协助多蛋白机器的折叠、定位和激活来调节细胞过程。为了确定伴侣蛋白作用的新靶点,我们对基因进行了多拷贝抑制筛选,以寻找能够改善缺乏YDJ1染色体位点并表达缺陷型Hsp40嵌合体的酵母生长缓慢缺陷的基因。在鉴定出的基因中,有调节细胞壁完整性的MID2和编码蛋白激酶C且与细胞壁生物合成相关的PKC1。我们发现,缺失ydj1的酵母表现出与细胞壁缺陷一致的表型,并且这些表型通过Mid2p或Pkc1p的过表达或PKC途径中激活的下游组分的过表达而得到改善。在编码Hsp90的基因中含有温度敏感等位基因的酵母也表现出细胞壁缺陷,并且Mid2p或Pkc1p的过表达改善了这些细胞在高温下的生长。为了确定抑制ydj1缺失生长缺陷的生理基础,我们通过电子显微镜检查了野生型和缺失ydj1的酵母,发现Mid2p的过表达使突变体的细胞壁增厚。这些数据共同提供了细胞质伴侣蛋白功能与细胞壁完整性之间的首个直接联系,并表明伴侣蛋白协调了该结构的复杂生物合成过程。

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