<P>In our previous study, we found that Ypt1p, a Rab family small GTPase protein, exhibits a stress-driven structural and functional switch from a GTPase to a molecular chaperone, and mediates thermo tolerance in <I>Saccharomyces cerevisia...
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https://www.riss.kr/link?id=A107655702
2019
-
SCOPUS,SCIE
학술저널
132
0
상세조회0
다운로드다국어 초록 (Multilingual Abstract)
<P>In our previous study, we found that Ypt1p, a Rab family small GTPase protein, exhibits a stress-driven structural and functional switch from a GTPase to a molecular chaperone, and mediates thermo tolerance in <I>Saccharomyces cerevisia...
<P>In our previous study, we found that Ypt1p, a Rab family small GTPase protein, exhibits a stress-driven structural and functional switch from a GTPase to a molecular chaperone, and mediates thermo tolerance in <I>Saccharomyces cerevisiae</I>. In the current study, we focused on the temperature-sensitive <I>ypt1-G80D</I> mutant, and found that the mutant cells are highly sensitive to heat-shock, due to a deficiency in the chaperone function of Ypt1p<SUP>G80D</SUP>. This defect results from an inability of the protein to form high molecular weight polymers, even though it retains almost normal GTPase function. The heat-stress sensitivity of <I>ypt1-G80D</I> cells was partially recovered by treatment with 4-phenylbutyric acid, a chemical chaperone. These findings indicate that loss of the chaperone function of Ypt1p<SUP>G80D</SUP> underlies the heat sensitivity of <I>ypt1-G80D</I> cells. We also compared the proteomes of <I>YPT1</I> (wild-type) and <I>ypt1-G80D</I> cells to investigate Ypt1p-controlled proteins under heat-stress conditions. Our findings suggest that Ypt1p controls an abundance of proteins involved in metabolism, protein synthesis, cellular energy generation, stress response, and DNA regulation. Finally, we suggest that Ypt1p essentially regulates fundamental cellular processes under heat-stress conditions by acting as a molecular chaperone.</P>
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