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181 related items for PubMed ID: 37060035

  • 1. Caffeine activates HOG-signalling and inhibits pseudohyphal growth in Saccharomyces cerevisiae.
    Elhasi T, Blomberg A.
    BMC Res Notes; 2023 Apr 14; 16(1):52. PubMed ID: 37060035
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  • 2. Roles of High Osmolarity Glycerol and Cell Wall Integrity Pathways in Cadmium Toxicity in Saccharomyces cerevisiae.
    Zhao Y, Li S, Wang J, Liu Y, Deng Y.
    Int J Mol Sci; 2021 Jun 08; 22(12):. PubMed ID: 34201004
    [Abstract] [Full Text] [Related]

  • 3. The Hog1 MAPK prevents cross talk between the HOG and pheromone response MAPK pathways in Saccharomyces cerevisiae.
    O'Rourke SM, Herskowitz I.
    Genes Dev; 1998 Sep 15; 12(18):2874-86. PubMed ID: 9744864
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  • 4. Activation of the Hog1 MAPK by the Ssk2/Ssk22 MAP3Ks, in the absence of the osmosensors, is not sufficient to trigger osmostress adaptation in Saccharomyces cerevisiae.
    Vázquez-Ibarra A, Subirana L, Ongay-Larios L, Kawasaki L, Rojas-Ortega E, Rodríguez-González M, de Nadal E, Posas F, Coria R.
    FEBS J; 2018 Mar 15; 285(6):1079-1096. PubMed ID: 29341399
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  • 5. Crosstalk between Saccharomycescerevisiae SAPKs Hog1 and Mpk1 is mediated by glycerol accumulation.
    Laz EV, Lee J, Levin DE.
    Fungal Biol; 2020 May 15; 124(5):361-367. PubMed ID: 32389298
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  • 7. Ptc1, a type 2C Ser/Thr phosphatase, inactivates the HOG pathway by dephosphorylating the mitogen-activated protein kinase Hog1.
    Warmka J, Hanneman J, Lee J, Amin D, Ota I.
    Mol Cell Biol; 2001 Jan 15; 21(1):51-60. PubMed ID: 11113180
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  • 8. Cdc42-Specific GTPase-Activating Protein Rga1 Squelches Crosstalk between the High-Osmolarity Glycerol (HOG) and Mating Pheromone Response MAPK Pathways.
    Patterson JC, Goupil LS, Thorner J.
    Biomolecules; 2021 Oct 17; 11(10):. PubMed ID: 34680163
    [Abstract] [Full Text] [Related]

  • 9. Response to high osmotic conditions and elevated temperature in Saccharomyces cerevisiae is controlled by intracellular glycerol and involves coordinate activity of MAP kinase pathways.
    Wojda I, Alonso-Monge R, Bebelman JP, Mager WH, Siderius M.
    Microbiology (Reading); 2003 May 17; 149(Pt 5):1193-1204. PubMed ID: 12724381
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  • 10. Kinase activity-dependent nuclear export opposes stress-induced nuclear accumulation and retention of Hog1 mitogen-activated protein kinase in the budding yeast Saccharomyces cerevisiae.
    Reiser V, Ruis H, Ammerer G.
    Mol Biol Cell; 1999 Apr 17; 10(4):1147-61. PubMed ID: 10198063
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  • 13. Dissection of the HOG pathway activated by hydrogen peroxide in Saccharomyces cerevisiae.
    Lee YM, Kim E, An J, Lee Y, Choi E, Choi W, Moon E, Kim W.
    Environ Microbiol; 2017 Feb 17; 19(2):584-597. PubMed ID: 27554843
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  • 14. A systems biology analysis of long and short-term memories of osmotic stress adaptation in fungi.
    You T, Ingram P, Jacobsen MD, Cook E, McDonagh A, Thorne T, Lenardon MD, de Moura AP, Romano MC, Thiel M, Stumpf M, Gow NA, Haynes K, Grebogi C, Stark J, Brown AJ.
    BMC Res Notes; 2012 May 25; 5():258. PubMed ID: 22631601
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  • 18. Dissecting the role of mitogen-activated protein kinase Hog1 in yeast flocculation.
    Kumawat R, Tomar RS.
    FEBS J; 2024 Jul 25; 291(14):3080-3103. PubMed ID: 38648231
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  • 19. Targeting the MEF2-like transcription factor Smp1 by the stress-activated Hog1 mitogen-activated protein kinase.
    de Nadal E, Casadomé L, Posas F.
    Mol Cell Biol; 2003 Jan 25; 23(1):229-37. PubMed ID: 12482976
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  • 20. Identifying protein kinase-specific effectors of the osmostress response in yeast.
    Romanov N, Hollenstein DM, Janschitz M, Ammerer G, Anrather D, Reiter W.
    Sci Signal; 2017 Mar 07; 10(469):. PubMed ID: 28270554
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