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Items: 1 to 20 of 102

1.

Identification and characterization of genes involved in glutathione production in yeast.

Suzuki T, Yokoyama A, Tsuji T, Ikeshima E, Nakashima K, Ikushima S, Kobayashi C, Yoshida S.

J Biosci Bioeng. 2011 Aug;112(2):107-13. doi: 10.1016/j.jbiosc.2011.04.007. Epub 2011 May 23.

PMID:
21601516
2.

YAP1 over-expression in Saccharomyces cerevisiae enhances glutathione accumulation at its biosynthesis and substrate availability levels.

Orumets K, Kevvai K, Nisamedtinov I, Tamm T, Paalme T.

Biotechnol J. 2012 Apr;7(4):566-8. doi: 10.1002/biot.201100363. Epub 2011 Nov 21.

PMID:
22009669
3.
4.

Engineering glutathione biosynthesis of Saccharomyces cerevisiae increases robustness to inhibitors in pretreated lignocellulosic materials.

Ask M, Mapelli V, Höck H, Olsson L, Bettiga M.

Microb Cell Fact. 2013 Oct 1;12:87. doi: 10.1186/1475-2859-12-87.

5.

Homocysteine- and cysteine-mediated growth defect is not associated with induction of oxidative stress response genes in yeast.

Kumar A, John L, Alam MM, Gupta A, Sharma G, Pillai B, Sengupta S.

Biochem J. 2006 May 15;396(1):61-9.

6.

Glutathione is necessary to ensure benefits of calorie restriction during ageing in Saccharomyces cerevisiae.

Mannarino SC, Amorim MA, Pereira MD, Moradas-Ferreira P, Panek AD, Costa V, Eleutherio EC.

Mech Ageing Dev. 2008 Dec;129(12):700-5. doi: 10.1016/j.mad.2008.09.001. Epub 2008 Sep 18.

PMID:
18840459
7.
8.

Glutathione regulates the expression of gamma-glutamylcysteine synthetase via the Met4 transcription factor.

Wheeler GL, Quinn KA, Perrone G, Dawes IW, Grant CM.

Mol Microbiol. 2002 Oct;46(2):545-56.

9.

Contribution of Yap1 towards Saccharomyces cerevisiae adaptation to arsenic-mediated oxidative stress.

Menezes RA, Amaral C, Batista-Nascimento L, Santos C, Ferreira RB, Devaux F, Eleutherio EC, Rodrigues-Pousada C.

Biochem J. 2008 Sep 1;414(2):301-11. doi: 10.1042/BJ20071537.

PMID:
18439143
10.

Reverse genetic analysis of the glutathione metabolic pathway suggests a novel role of PHGPX and URE2 genes in aluminum resistance in Saccharomyces cerevisiae.

Basu U, Southron JL, Stephens JL, Taylor GJ.

Mol Genet Genomics. 2004 Jun;271(5):627-37. Epub 2004 May 7.

PMID:
15133656
11.

The essential and ancillary role of glutathione in Saccharomyces cerevisiae analysed using a grande gsh1 disruptant strain.

Lee JC, Straffon MJ, Jang TY, Higgins VJ, Grant CM, Dawes IW.

FEMS Yeast Res. 2001 Apr;1(1):57-65.

14.

A novel mechanism regulates H(2) S and SO(2) production in Saccharomyces cerevisiae.

Yoshida S, Imoto J, Minato T, Oouchi R, Kamada Y, Tomita M, Soga T, Yoshimoto H.

Yeast. 2011 Feb;28(2):109-21. doi: 10.1002/yea.1823. Epub 2010 Oct 8.

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17.

Vacuolar compartmentation of the cadmium-glutathione complex protects Saccharomyces cerevisiae from mutagenesis.

Adamis PD, Panek AD, Eleutherio EC.

Toxicol Lett. 2007 Aug 30;173(1):1-7. Epub 2007 Jun 14.

PMID:
17644279
18.

The adaptive response of Saccharomyces cerevisiae to mercury exposure.

Westwater J, McLaren NF, Dormer UH, Jamieson DJ.

Yeast. 2002 Feb;19(3):233-9.

19.

Identification of target genes conferring ethanol stress tolerance to Saccharomyces cerevisiae based on DNA microarray data analysis.

Hirasawa T, Yoshikawa K, Nakakura Y, Nagahisa K, Furusawa C, Katakura Y, Shimizu H, Shioya S.

J Biotechnol. 2007 Aug 1;131(1):34-44. Epub 2007 May 24.

PMID:
17604866
20.

Over-expression of GSH1 gene and disruption of PEP4 gene in self-cloning industrial brewer's yeast.

Wang ZY, He XP, Zhang BR.

Int J Food Microbiol. 2007 Nov 1;119(3):192-9. Epub 2007 Jul 31.

PMID:
17881073
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