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2. Conservation of a stress response: human heat shock transcription factors functionally substitute for yeast HSF. Liu XD; Liu PC; Santoro N; Thiele DJ EMBO J; 1997 Nov; 16(21):6466-77. PubMed ID: 9351828 [TBL] [Abstract][Full Text] [Related]
3. The yeast heat shock transcription factor contains a transcriptional activation domain whose activity is repressed under nonshock conditions. Nieto-Sotelo J; Wiederrecht G; Okuda A; Parker CS Cell; 1990 Aug; 62(4):807-17. PubMed ID: 2201453 [TBL] [Abstract][Full Text] [Related]
4. Evidence for a heat shock transcription factor-independent mechanism for heat shock induction of transcription in Saccharomyces cerevisiae. Kobayashi N; McEntee K Proc Natl Acad Sci U S A; 1990 Sep; 87(17):6550-4. PubMed ID: 2118651 [TBL] [Abstract][Full Text] [Related]
8. Protein chaperones and the heat shock response in Saccharomyces cerevisiae. Morano KA; Liu PC; Thiele DJ Curr Opin Microbiol; 1998 Apr; 1(2):197-203. PubMed ID: 10066474 [TBL] [Abstract][Full Text] [Related]
9. The Skn7 response regulator of Saccharomyces cerevisiae interacts with Hsf1 in vivo and is required for the induction of heat shock genes by oxidative stress. Raitt DC; Johnson AL; Erkine AM; Makino K; Morgan B; Gross DS; Johnston LH Mol Biol Cell; 2000 Jul; 11(7):2335-47. PubMed ID: 10888672 [TBL] [Abstract][Full Text] [Related]
10. The structure and function of small heat shock proteins: analysis of the Saccharomyces cerevisiae Hsp26 protein. Tuite MF; Bentley NJ; Bossier P; Fitch IT Antonie Van Leeuwenhoek; 1990 Oct; 58(3):147-54. PubMed ID: 2256673 [No Abstract] [Full Text] [Related]
11. Uth1p: a yeast mitochondrial protein at the crossroads of stress, degradation and cell death. Camougrand N; Kissová I; Velours G; Manon S FEMS Yeast Res; 2004 Nov; 5(2):133-40. PubMed ID: 15489196 [TBL] [Abstract][Full Text] [Related]
12. Upregulation of the Hsp104 chaperone at physiological temperature during recovery from thermal insult. Seppä L; Hänninen AL; Makarow M Mol Microbiol; 2004 Apr; 52(1):217-25. PubMed ID: 15049822 [TBL] [Abstract][Full Text] [Related]
13. The DNA-binding domain of yeast Hsf1 regulates both DNA-binding and transcriptional activities. Yamamoto A; Sakurai H Biochem Biophys Res Commun; 2006 Aug; 346(4):1324-9. PubMed ID: 16806072 [TBL] [Abstract][Full Text] [Related]
14. Induction of baroresistance by hydrogen peroxide, ethanol and cold-shock in Saccharomyces cerevisiae. Palhano FL; Orlando MT; Fernandes PM FEMS Microbiol Lett; 2004 Apr; 233(1):139-45. PubMed ID: 15043880 [TBL] [Abstract][Full Text] [Related]
15. Induction of heat shock proteins and thermotolerance. Piper P Methods Mol Biol; 1996; 53():313-7. PubMed ID: 8924991 [No Abstract] [Full Text] [Related]
16. Yeast thermotolerance does not require protein synthesis. Hall BG J Bacteriol; 1983 Dec; 156(3):1363-5. PubMed ID: 6358199 [TBL] [Abstract][Full Text] [Related]
17. [The stress response in the yeast Saccharomyces cerevisiae]. Folch-Mallol JL; Garay-Arroyo A; Lledías F; Covarrubias Robles AA Rev Latinoam Microbiol; 2004; 46(1-2):24-46. PubMed ID: 17061523 [TBL] [Abstract][Full Text] [Related]
18. The small heat-shock protein Hsp26 of Saccharomyces cerevisiae assembles into a high molecular weight aggregate. Bentley NJ; Fitch IT; Tuite MF Yeast; 1992 Feb; 8(2):95-106. PubMed ID: 1561840 [TBL] [Abstract][Full Text] [Related]
19. The mutagenic effect of elevated temperatures in yeast is blocked by a previous heat shock. Nunes E; Candreva EC; Keszenman D; Salvo VA Mutat Res; 1993 Oct; 289(2):165-70. PubMed ID: 7690884 [TBL] [Abstract][Full Text] [Related]
20. Uncoupling gene activity from chromatin structure: promoter mutations can inactivate transcription of the yeast HSP82 gene without eliminating nucleosome-free regions. Lee MS; Garrard WT Proc Natl Acad Sci U S A; 1992 Oct; 89(19):9166-70. PubMed ID: 1409619 [TBL] [Abstract][Full Text] [Related] [Next] [New Search]