Medizinische Universität Graz Austria/Österreich - Forschungsportal - Medical University of Graz

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Publikationen

Suchbegriffe: SACCHAROMYCES CEREVISIAE - METABOLISM , . Treffer: 32

2019

Schopf, FH; Huber, EM; Dodt, C; Lopez, A; Biebl, MM; Rutz, DA; Mühlhofer, M; Richter, G; Madl, T; Sattler, M; Groll, M; Buchner, J The Co-chaperone Cns1 and the Recruiter Protein Hgh1 Link Hsp90 to Translation Elongation via Chaperoning Elongation Factor 2.
MOL CELL. 2019; 74(1): 73-87. [OPEN ACCESS]
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2016

Heier, C; Taschler, U; Radulovic, M; Aschauer, P; Eichmann, TO; Grond, S; Wolinski, H; Oberer, M; Zechner, R; Kohlwein, SD; Zimmermann, R Monoacylglycerol Lipases Act as Evolutionarily Conserved Regulators of Non-oxidative Ethanol Metabolism.
J Biol Chem. 2016; 291(22):11865-11875 [OPEN ACCESS]
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Klein, I; Klug, L; Schmidt, C; Zandl, M; Korber, M; Daum, G; Athenstaedt, K Regulation of the yeast triacylglycerol lipases Tgl4p and Tgl5p by the presence/absence of nonpolar lipids.
Mol Biol Cell. 2016; 27(13):2014-2024 [OPEN ACCESS]
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Mitterer, V; Gantenbein, N; Birner-Gruenberger, R; Murat, G; Bergler, H; Kressler, D; Pertschy, B Nuclear import of dimerized ribosomal protein Rps3 in complex with its chaperone Yar1.
Sci Rep. 2016; 6(24):36714-36714 [OPEN ACCESS]
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Zierer, BK; Rübbelke, M; Tippel, F; Madl, T; Schopf, FH; Rutz, DA; Richter, K; Sattler, M; Buchner, J Importance of cycle timing for the function of the molecular chaperone Hsp90.
Nat Struct Mol Biol. 2016; 23(11):1020-1028 [OPEN ACCESS]
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2015

González, A; Shimobayashi, M; Eisenberg, T; Merle, DA; Pendl, T; Hall, MN; Moustafa, T TORC1 promotes phosphorylation of ribosomal protein S6 via the AGC kinase Ypk3 in Saccharomyces cerevisiae.
PLoS One. 2015; 10(3):e0120250-e0120250 [OPEN ACCESS]
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Libiseller, G; Dvorzak, M; Kleb, U; Gander, E; Eisenberg, T; Madeo, F; Neumann, S; Trausinger, G; Sinner, F; Pieber, T; Magnes, C IPO: a tool for automated optimization of XCMS parameters.
BMC Bioinformatics. 2015; 16(5):118-118 [OPEN ACCESS]
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Wolinski, H; Hofbauer, HF; Hellauer, K; Cristobal-Sarramian, A; Kolb, D; Radulovic, M; Knittelfelder, OL; Rechberger, GN; Kohlwein, SD Seipin is involved in the regulation of phosphatidic acid metabolism at a subdomain of the nuclear envelope in yeast.
Biochim Biophys Acta. 2015; 1851(11):1450-1464 [OPEN ACCESS]
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2014

Eisenberg, T; Schroeder, S; Andryushkova, A; Pendl, T; Küttner, V; Bhukel, A; Mariño, G; Pietrocola, F; Harger, A; Zimmermann, A; Moustafa, T; Sprenger, A; Jany, E; Büttner, S; Carmona-Gutierrez, D; Ruckenstuhl, C; Ring, J; Reichelt, W; Schimmel, K; Leeb, T; Moser, C; Schatz, S; Kamolz, LP; Magnes, C; Sinner, F; Sedej, S; Fröhlich, KU; Juhasz, G; Pieber, TR; Dengjel, J; Sigrist, SJ; Kroemer, G; Madeo, F Nucleocytosolic depletion of the energy metabolite acetyl-coenzyme a stimulates autophagy and prolongs lifespan.
Cell Metab. 2014; 19(3):431-444 [OPEN ACCESS]
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Lorenz, OR; Freiburger, L; Rutz, DA; Krause, M; Zierer, BK; Alvira, S; Cuéllar, J; Valpuesta, JM; Madl, T; Sattler, M; Buchner, J Modulation of the Hsp90 chaperone cycle by a stringent client protein.
Mol Cell. 2014; 53(6): 941-953. [OPEN ACCESS]
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2013

Bhandari, D; Zhang, J; Menon, S; Lord, C; Chen, S; Helm, JR; Thorsen, K; Corbett, KD; Hay, JC; Ferro-Novick, S Sit4p/PP6 regulates ER-to-Golgi traffic by controlling the dephosphorylation of COPII coat subunits.
Mol Biol Cell. 2013; 24(17):2727-2738 [OPEN ACCESS]
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2011

Carmona-Gutiérrez, D; Bauer, MA; Ring, J; Knauer, H; Eisenberg, T; Büttner, S; Ruckenstuhl, C; Reisenbichler, A; Magnes, C; Rechberger, GN; Birner-Gruenberger, R; Jungwirth, H; Fröhlich, KU; Sinner, F; Kroemer, G; Madeo, F The propeptide of yeast cathepsin D inhibits programmed necrosis.
Cell Death Dis. 2011; 2(16):e161-e161 [OPEN ACCESS]
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Lord, C; Bhandari, D; Menon, S; Ghassemian, M; Nycz, D; Hay, J; Ghosh, P; Ferro-Novick, S Sequential interactions with Sec23 control the direction of vesicle traffic.
Nature. 2011; 473(7346):181-186 [OPEN ACCESS]
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2010

Carmona-Gutierrez, D; Ruckenstuhl, C; Bauer, MA; Eisenberg, T; Büttner, S; Madeo, F Cell death in yeast: growing applications of a dying buddy.
Cell Death Differ. 2010; 17(5):733-734 [OPEN ACCESS]
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Sponder, G; Svidova, S; Schindl, R; Wieser, S; Schweyen, RJ; Romanin, C; Froschauer, EM; Weghuber, J Lpe10p modulates the activity of the Mrs2p-based yeast mitochondrial Mg2+ channel.
FEBS J. 2010; 277(17): 3514-3525. [OPEN ACCESS]
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2009

Petschnigg, J; Wolinski, H; Kolb, D; Zellnig, G; Kurat, CF; Natter, K; Kohlwein, SD Good fat, essential cellular requirements for triacylglycerol synthesis to maintain membrane homeostasis in yeast.
J Biol Chem. 2009; 284(45):30981-30993 [OPEN ACCESS]
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Schauer, A; Knauer, H; Ruckenstuhl, C; Fussi, H; Durchschlag, M; Potocnik, U; Fröhlich, KU Vacuolar functions determine the mode of cell death.
Biochim Biophys Acta. 2009; 1793(3):540-545 [OPEN ACCESS]
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Wagner, A; Grillitsch, K; Leitner, E; Daum, G Mobilization of steryl esters from lipid particles of the yeast Saccharomyces cerevisiae.
Biochim Biophys Acta. 2009; 1791(2): 118-124. [OPEN ACCESS]
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2008

Czabany, T; Wagner, A; Zweytick, D; Lohner, K; Leitner, E; Ingolic, E; Daum, G Structural and biochemical properties of lipid particles from the yeast Saccharomyces cerevisiae.
J Biol Chem. 2008; 283(25): 17065-17074. [OPEN ACCESS]
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2007

Cai, H; Yu, S; Menon, S; Cai, Y; Lazarova, D; Fu, C; Reinisch, K; Hay, JC; Ferro-Novick, S TRAPPI tethers COPII vesicles by binding the coat subunit Sec23.
Nature. 2007; 445(7130):941-944
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Daum, G; Wagner, A; Czabany, T; Athenstaedt, K Dynamics of neutral lipid storage and mobilization in yeast.
Biochimie. 2007; 89(2): 243-248.
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Daum, G; Wagner, A; Czabany, T; Grillitsch, K; Athenstaedt, K Lipid storage and mobilization pathways in yeast.
Novartis Found Symp. 2007; 286(25):142-151
PubMed

 

Ruckenstuhl, C; Lang, S; Poschenel, A; Eidenberger, A; Baral, PK; Kohút, P; Hapala, I; Gruber, K; Turnowsky, F Characterization of squalene epoxidase of Saccharomyces cerevisiae by applying terbinafine-sensitive variants.
Antimicrob Agents Chemother. 2007; 51(1):275-284 [OPEN ACCESS]
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Tiwari, R; Köffel, R; Schneiter, R An acetylation/deacetylation cycle controls the export of sterols and steroids from S. cerevisiae.
EMBO J. 2007; 26(24):5109-5119 [OPEN ACCESS]
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2006

Cipak, A; Hasslacher, M; Tehlivets, O; Collinson, EJ; Zivkovic, M; Matijevic, T; Wonisch, W; Waeg, G; Dawes, IW; Zarkovic, N; Kohlwein, SD Saccharomyces cerevisiae strain expressing a plant fatty acid desaturase produces polyunsaturated fatty acids and is susceptible to oxidative stress induced by lipid peroxidation.
Free Radic Biol Med. 2006; 40(5): 897-906.
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2005

Germann, M; Gallo, C; Donahue, T; Shirzadi, R; Stukey, J; Lang, S; Ruckenstuhl, C; Oliaro-Bosso, S; McDonough, V; Turnowsky, F; Balliano, G; Nickels, JT Characterizing sterol defect suppressors uncovers a novel transcriptional signaling pathway regulating zymosterol biosynthesis.
J Biol Chem. 2005; 280(43):35904-35913 [OPEN ACCESS]
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Köffel, R; Tiwari, R; Falquet, L; Schneiter, R The Saccharomyces cerevisiae YLL012/YEH1, YLR020/YEH2, and TGL1 genes encode a novel family of membrane-anchored lipases that are required for steryl ester hydrolysis.
Mol Cell Biol. 2005; 25(5):1655-1668 [OPEN ACCESS]
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2004

Hasegawa, H; Yang, Z; Oltedal, L; Davanger, S; Hay, JC Intramolecular protein-protein and protein-lipid interactions control the conformation and subcellular targeting of neuronal Ykt6.
J Cell Sci. 2004; 117(Pt 19): 4495-4508. [OPEN ACCESS]
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Pertschy, B; Zisser, G; Schein, H; Köffel, R; Rauch, G; Grillitsch, K; Morgenstern, C; Durchschlag, M; Högenauer, G; Bergler, H Diazaborine treatment of yeast cells inhibits maturation of the 60S ribosomal subunit.
Mol Cell Biol. 2004; 24(14):6476-6487 [OPEN ACCESS]
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2001

Wonisch, W; Zellnig, G; Kohlwein, SD; Schaur, RJ; Bilinski, T; Tatzber, F; Esterbauer, H Ultrastructural analysis of HNE-treated Saccharomyces cerevisiae cells reveals fragmentation of the vacuole and an accumulation of lipids in the cytosol.
Cell Biochem Funct. 2001; 19(1):59-64
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1997

Wonisch, W; Hayn, M; Schaur, RJ; Tatzber, F; Kranner, I; Grill, D; Winkler, R; Bilinski, T; Kohlwein, SD; Esterbauer, H Increased stress parameter synthesis in the yeast Saccharomyces cerevisiae after treatment with 4-hydroxy-2-nonenal.
FEBS Lett. 1997; 405(1):11-15 [OPEN ACCESS]
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1996

Hay, JC; Hirling, H; Scheller, RH Mammalian vesicle trafficking proteins of the endoplasmic reticulum and Golgi apparatus.
J Biol Chem. 1996; 271(10):5671-5679
PubMed

 

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