Environmental Regulation of Prions in Yeast

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Vyšlo v časopise: Environmental Regulation of Prions in Yeast. PLoS Pathog 8(11): e32767. doi:10.1371/journal.ppat.1002973
Kategorie: Pearls
prolekare.web.journal.doi_sk: https://doi.org/10.1371/journal.ppat.1002973

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Zdroje

1. PrusinerSB (1982) Novel proteinaceous infectious particles cause scrapie. Science 216 : 136–144.

2. WicknerRB (1994) [URE3] as an altered Ure2 protein: evidence for a prion analog in Saccharomyces cerevisiae. Science 264 : 566–569.

3. CrowET, LiL (2011) Newly identified prions in budding yeast, and their possible functions. Semin Cell Dev Biol 22 : 452–459.

4. SuzukiG, ShimazuN, TanakaM (2012) A yeast prion, Mod5, promotes acquired drug resistance and cell survival under environmental stress. Science 336 : 355–359.

5. KingCY, Diaz-AvalosR (2004) Protein-only transmission of three yeast prion strains. Nature 428 : 319–323.

6. TanakaM, ChienP, NaberN, CookeR, WeissmanJS (2004) Conformational variations in an infectious protein determine prion strain differences. Nature 428 : 323–328.

7. TuiteMF, SerioTR (2010) The prion hypothesis: from biological anomaly to basic regulatory mechanism. Nat Rev Mol Cell Biol 11 : 823–833.

8. LiebmanSW, ChernoffYO (2012) Prions in yeast. Genetics 191 : 1041–1072.

9. ChernovaTA, RomanyukAV, KarpovaTS, ShanksJR, AliM, et al. (2011) Prion induction by the short-lived, stress-induced protein Lsb2 is regulated by ubiquitination and association with the actin cytoskeleton. Mol Cell 43 : 242–252.

10. GanusovaEE, OzolinsLN, BhagatS, NewnamGP, WegrzynRD, et al. (2006) Modulation of prion formation, aggregation, and toxicity by the actin cytoskeleton in yeast. Mol Cell Biol 26 : 617–629.

11. DerkatchIL, LiebmanSW (2007) Prion-prion interactions. Prion 1 : 161–169.

12. SchwimmerC, MasisonDC (2002) Antagonistic interactions between yeast [PSI(+)] and [URE3] prions and curing of [URE3] by Hsp70 protein chaperone Ssa1p but not by Ssa2p. Mol Cell Biol 22 : 3590–3598.

13. TuiteMF, MundyCR, CoxBS (1981) Agents that cause a high frequency of genetic change from [PSI+] to [psi−] in Saccharomyces cerevisiae. Genetics 98 : 691–711.

14. TrueHL, LindquistSL (2000) A yeast prion provides a mechanism for genetic variation and phenotypic diversity. Nature 407 : 477–483.

15. NewnamGP, BirchmoreJL, ChernoffYO (2011) Destabilization and recovery of a yeast prion after mild heat shock. J Mol Biol 408 : 432–448.

16. ParkKW, HahnJS, FanQ, ThieleDJ, LiL (2006) De novo appearance and “strain” formation of yeast prion [PSI+] are regulated by the heat-shock transcription factor. Genetics 173 : 35–47.

17. TyedmersJ, MadariagaML, LindquistS (2008) Prion switching in response to environmental stress. PLoS Biol 6: e294 doi:10.1371/journal.pbio.0060294

18. TrueHL, BerlinI, LindquistSL (2004) Epigenetic regulation of translation reveals hidden genetic variation to produce complex traits. Nature 431 : 184–187.

19. NakayashikiT, KurtzmanCP, EdskesHK, WicknerRB (2005) Yeast prions [URE3] and [PSI+] are diseases. Proc Natl Acad Sci U S A 102 : 10575–10580.

20. HalfmannR, JaroszDF, JonesSK, ChangA, LancasterAK, et al. (2012) Prions are a common mechanism for phenotypic inheritance in wild yeasts. Nature 482 : 363–368.