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Journal Abstract Search

243 related items for PubMed ID: 25658705

  • 1. Interplay among Gcn5, Sch9 and mitochondria during chronological aging of wine yeast is dependent on growth conditions.
    Picazo C, Orozco H, Matallana E, Aranda A.
    PLoS One; 2015; 10(2):e0117267. PubMed ID: 25658705
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  • 2. Wine yeast sirtuins and Gcn5p control aging and metabolism in a natural growth medium.
    Orozco H, Matallana E, Aranda A.
    Mech Ageing Dev; 2012 May; 133(5):348-58. PubMed ID: 22738658
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  • 4. Genetic manipulation of longevity-related genes as a tool to regulate yeast life span and metabolite production during winemaking.
    Orozco H, Matallana E, Aranda A.
    Microb Cell Fact; 2013 Jan 02; 12():1. PubMed ID: 23282100
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  • 5. Two-carbon metabolites, polyphenols and vitamins influence yeast chronological life span in winemaking conditions.
    Orozco H, Matallana E, Aranda A.
    Microb Cell Fact; 2012 Aug 08; 11():104. PubMed ID: 22873488
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  • 6. SAGA complex and Gcn5 are necessary for respiration in budding yeast.
    Canzonetta C, Leo M, Guarino SR, Montanari A, Francisci S, Filetici P.
    Biochim Biophys Acta; 2016 Dec 08; 1863(12):3160-3168. PubMed ID: 27741413
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  • 7. Adenovirus E1A requires the yeast SAGA histone acetyltransferase complex and associates with SAGA components Gcn5 and Tra1.
    Kulesza CA, Van Buskirk HA, Cole MD, Reese JC, Smith MM, Engel DA.
    Oncogene; 2002 Feb 21; 21(9):1411-22. PubMed ID: 11857084
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  • 8. Extension of chronological life span by reduced TOR signaling requires down-regulation of Sch9p and involves increased mitochondrial OXPHOS complex density.
    Pan Y, Shadel GS.
    Aging (Albany NY); 2009 Jan 28; 1(1):131-45. PubMed ID: 20157595
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  • 9. Acetyltransferase SAS2 and sirtuin SIR2, respectively, control flocculation and biofilm formation in wine yeast.
    Rodriguez ME, Orozco H, Cantoral JM, Matallana E, Aranda A.
    FEMS Yeast Res; 2014 Sep 28; 14(6):845-57. PubMed ID: 24920206
    [Abstract] [Full Text] [Related]

  • 10. Nitrogen and carbon source balance determines longevity, independently of fermentative or respiratory metabolism in the yeast Saccharomyces cerevisiae.
    Santos J, Leitão-Correia F, Sousa MJ, Leão C.
    Oncotarget; 2016 Apr 26; 7(17):23033-42. PubMed ID: 27072582
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  • 11. The retrograde response links metabolism with stress responses, chromatin-dependent gene activation, and genome stability in yeast aging.
    Jazwinski SM.
    Gene; 2005 Jul 18; 354():22-7. PubMed ID: 15890475
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  • 13. A set of nutrient limitations trigger yeast cell death in a nitrogen-dependent manner during wine alcoholic fermentation.
    Duc C, Pradal M, Sanchez I, Noble J, Tesnière C, Blondin B.
    PLoS One; 2017 Jul 18; 12(9):e0184838. PubMed ID: 28922393
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  • 15. Regulation of yeast replicative life span by TOR and Sch9 in response to nutrients.
    Kaeberlein M, Powers RW, Steffen KK, Westman EA, Hu D, Dang N, Kerr EO, Kirkland KT, Fields S, Kennedy BK.
    Science; 2005 Nov 18; 310(5751):1193-6. PubMed ID: 16293764
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  • 18. The Saccharomyces cerevisiae acetyltransferase Gcn5 exerts antagonistic pleiotropic effects on chronological ageing.
    Li K, Mocciaro G, Griffin JL, Zhang N.
    Aging (Albany NY); 2023 Oct 23; 15(20):10915-10937. PubMed ID: 37874684
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  • 19. Use of a wine yeast deletion collection reveals genes that influence fermentation performance under low-nitrogen conditions.
    Peter JJ, Watson TL, Walker ME, Gardner JM, Lang TA, Borneman A, Forgan A, Tran T, Jiranek V.
    FEMS Yeast Res; 2018 May 01; 18(3):. PubMed ID: 29425293
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  • 20. Tor1, Sch9 and PKA downregulation in quiescence rely on Mtl1 to preserve mitochondrial integrity and cell survival.
    Sundaram V, Petkova MI, Pujol-Carrion N, Boada J, de la Torre-Ruiz MA.
    Mol Microbiol; 2015 Jul 01; 97(1):93-109. PubMed ID: 25855033
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