Regulation of chaperone gene expression by heat shock transcription factor in Saccharomyces cerevisiae: importance in normal cell growth, stress resistance, and longevity.

Sakurai H; Ota A

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Regulation of chaperone gene expression by heat shock transcription factor in Saccharomyces cerevisiae: importance in normal cell growth, stress resistance, and longevity.

机译：酿酒酵母中热激转录因子对伴侣基因表达的调控：在正常细胞生长，抗逆性和寿命中的重要性。

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Heat shock transcription factor (HSF), a key regulator in the expression of heat shock protein (HSP) chaperones, is involved in the maintenance of protein homeostasis. However, the impact of HSF-mediated transcription of each HSP gene on this process is not fully understood. We show that Saccharomyces cerevisiae cells containing mutations in the HSF-binding sequences of chromosomal HSP90 promoters exhibit various phenotypes, including slow growth, proteotoxic stress sensitivity, and reduced chronological lifespan. Similar phenotypes were observed when HSF-binding sequences in five mitochondrial HSP promoters were mutated. Therefore, HSF-regulated changes in expression of these chaperone genes are necessary to maintain cell viability under various growth conditions.

机译：热休克转录因子（HSF）是热休克蛋白（HSP）分子伴侣表达的关键调节因子，它参与蛋白质稳态的维持。但是，尚不完全了解HSF介导的每个HSP基因转录对该过程的影响。我们显示，酿酒酵母细胞包含染色体HSP90启动子的HSF结合序列中的突变，表现出各种表型，包括生长缓慢，蛋白毒性应激敏感性和时间寿命缩短。当五个线粒体HSP启动子中的HSF结合序列发生突变时，观察到相似的表型。因此，HSF调节这些分子伴侣基因的表达变化对于维持各种生长条件下的细胞活力是必要的。

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《FEBS letters.》 |2011年第17期|共5页
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Sakurai H; Ota A;
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1. Regulation of chaperone gene expression by heat shock transcription factor in Saccharomyces cerevisiae: importance in normal cell growth, stress resistance, and longevity. [J] . Sakurai H, Ota A FEBS letters. . 2011,第17期

机译：酿酒酵母中热激转录因子对伴侣基因表达的调控：在正常细胞生长，抗逆性和寿命中的重要性。
2. Stress induction of HSP30, the plasma membrane heat shock protein gene of Saccharomyces cerevisiae, appears not to use known stress-regulated transcription factors [J] . Ian J. Seymour, Peter W. Piper Microbiology . 1999,第1期

机译：HSP30的应激诱导，酿酒酵母酿酒酵母的血浆膜热休克蛋白基因似乎不使用已知的应力调节转录因子
3. Overexpression of Saccharomyces cerevisiae transcription factor and multidrug resistance genes conveys enhanced resistance to lignocellulose-derived fermentation inhibitors [J] . Bjoern Alriksson, Ilona Sarvari Horvath, Leif J. Joensson Process Biochemistry . 2010,第2期

机译：酿酒酵母转录因子和多药抗性基因的过表达传达了对木质纤维素衍生的发酵抑制剂的增强抗性
4. A Bayesian Approach for Integrating Transcription Regulation and Gene Expression: Application to Saccharomyces Cerevisiae Cell Cycle Data [C] . Sudhakar Jonnalagadda, Rajagopalan Srinivasan Joint Annual RECOMB Satellite Workshop on Systems Biology and Regulatory Genomics . 2007

机译：一种贝叶斯方法，用于整合转录调节和基因表达：酿酒酵母细胞周期数据的应用
5. Negative regulation of the heat shock transcription factor by protein kinase A in Saccharomyces cerevisiae. [D] . Ferguson, Scott Bruce. 2005

机译：酿酒酵母中蛋白激酶A对热休克转录因子的负调控。
6. Dual Role of the Saccharomyces cerevisiae TEA/ATTS Family Transcription Factor Tec1p in Regulation of Gene Expression and Cellular Development [O] . Tim Köhler, Stefanie Wesche, Naimeh Taheri, 2002

机译：酿酒酵母TEA / ATTS家族转录因子Tec1p在基因表达和细胞发育调控中的双重作用
7. Regulation of chaperone gene expression by heat shock transcription factor in Saccharomyces cerevisiae: Importance in normal cell growth, stress resistance, and longevity [O] . Sakurai Hiroshi, Ota Azumi 2011

机译：酿酒酵母中热激转录因子对伴侣基因表达的调控：对正常细胞生长，抗逆性和寿命的重要性

Regulation of chaperone gene expression by heat shock transcription factor in Saccharomyces cerevisiae: importance in normal cell growth, stress resistance, and longevity.

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