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Journal Abstract Search

235 related items for PubMed ID: 16989656

  • 21.
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  • 23. Genome-wide screening of aluminum tolerance in Saccharomyces cerevisiae.
    Kakimoto M, Kobayashi A, Fukuda R, Ono Y, Ohta A, Yoshimura E.
    Biometals; 2005 Oct; 18(5):467-74. PubMed ID: 16333747
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  • 25. Antioxidant N-acetyltransferase Mpr1/2 of industrial baker's yeast enhances fermentation ability after air-drying stress in bread dough.
    Sasano Y, Takahashi S, Shima J, Takagi H.
    Int J Food Microbiol; 2010 Mar 31; 138(1-2):181-5. PubMed ID: 20096471
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  • 27. Genomewide screen reveals a wide regulatory network for di/tripeptide utilization in Saccharomyces cerevisiae.
    Cai H, Kauffman S, Naider F, Becker JM.
    Genetics; 2006 Mar 31; 172(3):1459-76. PubMed ID: 16361226
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  • 28. Tolerance to furfural-induced stress is associated with pentose phosphate pathway genes ZWF1, GND1, RPE1, and TKL1 in Saccharomyces cerevisiae.
    Gorsich SW, Dien BS, Nichols NN, Slininger PJ, Liu ZL, Skory CD.
    Appl Microbiol Biotechnol; 2006 Jul 31; 71(3):339-49. PubMed ID: 16222531
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  • 29. N-acetyltransferase Mpr1 confers freeze tolerance on Saccharomyces cerevisiae by reducing reactive oxygen species.
    Du X, Takagi H.
    J Biochem; 2005 Oct 31; 138(4):391-7. PubMed ID: 16272133
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  • 30. Vacuolar functions are involved in stress-protective effect of intracellular proline in Saccharomyces cerevisiae.
    Matsuura K, Takagi H.
    J Biosci Bioeng; 2005 Nov 31; 100(5):538-44. PubMed ID: 16384793
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  • 31. Intracellular glycerol influences resistance to freeze stress in Saccharomyces cerevisiae: analysis of a quadruple mutant in glycerol dehydrogenase genes and glycerol-enriched cells.
    Izawa S, Sato M, Yokoigawa K, Inoue Y.
    Appl Microbiol Biotechnol; 2004 Nov 31; 66(1):108-14. PubMed ID: 15127164
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  • 33. Bioinformatic analysis of changes in expression level of tyrosyl-tRNA synthetase during sporulation process in Saccharomyces cerevisiae.
    Ivakhno SS, Kornelyuk AI.
    Mikrobiol Z; 2005 Nov 31; 67(5):37-49. PubMed ID: 16396110
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  • 34. Proteomic insights into adaptive responses of Saccharomyces cerevisiae to the repeated vacuum fermentation.
    Cheng JS, Zhou X, Ding MZ, Yuan YJ.
    Appl Microbiol Biotechnol; 2009 Jul 31; 83(5):909-23. PubMed ID: 19488749
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  • 35. Elevated expression of genes under the control of stress response element (STRE) and Msn2p in an ethanol-tolerance sake yeast Kyokai no. 11.
    Watanabe M, Tamura K, Magbanua JP, Takano K, Kitamoto K, Kitagaki H, Akao T, Shimoi H.
    J Biosci Bioeng; 2007 Sep 31; 104(3):163-70. PubMed ID: 17964478
    [Abstract] [Full Text] [Related]

  • 36. 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 01; 414(2):301-11. PubMed ID: 18439143
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  • 37. Msn2p/Msn4p-activation is essential for the recovery from freezing stress in yeast.
    Izawa S, Ikeda K, Ohdate T, Inoue Y.
    Biochem Biophys Res Commun; 2007 Jan 19; 352(3):750-5. PubMed ID: 17150183
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  • 38. Improvement of stress tolerance and leavening ability under multiple baking-associated stress conditions by overexpression of the SNR84 gene in baker's yeast.
    Lin X, Zhang CY, Bai XW, Feng B, Xiao DG.
    Int J Food Microbiol; 2015 Mar 16; 197():15-21. PubMed ID: 25555226
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  • 40. Induction of baroresistance by hydrogen peroxide, ethanol and cold-shock in Saccharomyces cerevisiae.
    Palhano FL, Orlando MT, Fernandes PM.
    FEMS Microbiol Lett; 2004 Apr 01; 233(1):139-45. PubMed ID: 15043880
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