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Items: 1 to 20 of 99

1.

Phenotypic heterogeneity can enhance rare-cell survival in 'stress-sensitive' yeast populations.

Bishop AL, Rab FA, Sumner ER, Avery SV.

Mol Microbiol. 2007 Jan;63(2):507-20. Epub 2006 Dec 14.

4.

Characterization of yeast V-ATPase mutants lacking Vph1p or Stv1p and the effect on endocytosis.

Perzov N, Padler-Karavani V, Nelson H, Nelson N.

J Exp Biol. 2002 May;205(Pt 9):1209-19.

5.

The SzA mutations of the B subunit of the Drosophila vacuolar H+ ATPase identify conserved residues essential for function in fly and yeast.

Du J, Kean L, Allan AK, Southall TD, Davies SA, McInerny CJ, Dow JA.

J Cell Sci. 2006 Jun 15;119(Pt 12):2542-51. Epub 2006 May 30.

6.

The dual mechanism of the antifungal effect of new lysosomotropic agents on the Saccharomyces cerevisiae RXII strain.

Krasowska A, Chmielewska L, Łuczyński J, Witek S, Sigler K.

Cell Mol Biol Lett. 2003;8(1):111-20.

PMID:
12655364
7.
9.

Acidification of vacuoles is required for autophagic degradation in the yeast, Saccharomyces cerevisiae.

Nakamura N, Matsuura A, Wada Y, Ohsumi Y.

J Biochem. 1997 Feb;121(2):338-44.

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12.

Protective effect of ions against cell death induced by acid stress in Saccharomyces.

Sant'Ana GS, Paes LS, Paiva AF, Fietto LG, Totola AH, Trópia MJ, Silveira-Lemos D, Lucas C, Fietto JL, Brandão RL, Castro IM.

FEMS Yeast Res. 2009 Aug;9(5):701-12. doi: 10.1111/j.1567-1364.2009.00523.x. Epub 2009 May 16.

13.

Functional genomics of monensin sensitivity in yeast: implications for post-Golgi traffic and vacuolar H+-ATPase function.

Gustavsson M, Barmark G, Larsson J, Murén E, Ronne H.

Mol Genet Genomics. 2008 Sep;280(3):233-48. doi: 10.1007/s00438-008-0359-9. Epub 2008 Jul 9.

PMID:
18612650
14.
15.

Proton gradient-driven nickel uptake by vacuolar membrane vesicles of Saccharomyces cerevisiae.

Nishimura K, Igarashi K, Kakinuma Y.

J Bacteriol. 1998 Apr;180(7):1962-4.

16.

Physiological characterization of Saccharomyces cerevisiae kha1 deletion mutants.

Maresova L, Sychrova H.

Mol Microbiol. 2005 Jan;55(2):588-600.

17.

Toxicity of CuO nanoparticles to yeast Saccharomyces cerevisiae BY4741 wild-type and its nine isogenic single-gene deletion mutants.

Kasemets K, Suppi S, Künnis-Beres K, Kahru A.

Chem Res Toxicol. 2013 Mar 18;26(3):356-67. doi: 10.1021/tx300467d. Epub 2013 Feb 14.

PMID:
23339633
18.

Divergent functions of three Candida albicans zinc-cluster transcription factors (CTA4, ASG1 and CTF1) complementing pleiotropic drug resistance in Saccharomyces cerevisiae.

Coste AT, Ramsdale M, Ischer F, Sanglard D.

Microbiology. 2008 May;154(Pt 5):1491-501. doi: 10.1099/mic.0.2007/016063-0.

PMID:
18451058
19.

The RIM101 pathway has a role in Saccharomyces cerevisiae adaptive response and resistance to propionic acid and other weak acids.

Mira NP, Lourenço AB, Fernandes AR, Becker JD, Sá-Correia I.

FEMS Yeast Res. 2009 Mar;9(2):202-16. doi: 10.1111/j.1567-1364.2008.00473.x.

20.

Overexpressing antioxidant enzymes enhances naphthalene biodegradation in Pseudomonas sp. strain As1.

Kang YS, Lee Y, Jung H, Jeon CO, Madsen EL, Park W.

Microbiology. 2007 Oct;153(Pt 10):3246-54.

PMID:
17906124

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