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  • Author: Rossi G
  • References

Author: Rossi G


References 27 references


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  • Rossi G, et al. (2024) Asymmetric tethering by exocyst in vitro requires a Rab GTPase, an R-SNARE and a Sac1-sensitive phosphoinositide lipid. Mol Biol Cell 35(3):br8 PMID:38198574
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  • Miller BK, et al. (2023) Allosteric regulation of exocyst: Discrete activation of tethering by two spatial signals. J Cell Biol 222(3) PMID:36729146
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  • Rossi G, et al. (2020) Exocyst structural changes associated with activation of tethering downstream of Rho/Cdc42 GTPases. J Cell Biol 219(2) PMID:31904797
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  • Rossi G, et al. (2018) The tomosyn homologue, Sro7, is a direct effector of the Rab GTPase, Sec4, in post-Golgi vesicle tethering. Mol Biol Cell 29(12):1476-1486 PMID:29668350
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  • Rossi G, et al. (2015) In vitro reconstitution of Rab GTPase-dependent vesicle clustering by the yeast lethal giant larvae/tomosyn homolog, Sro7. J Biol Chem 290(1):612-24 PMID:25404740
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  • Watson K, et al. (2015) Structural basis for recognition of the Sec4 Rab GTPase by its effector, the Lgl/tomosyn homologue, Sro7. Mol Biol Cell 26(18):3289-300 PMID:26202462
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  • Watson LJ, et al. (2014) Quantitative analysis of membrane trafficking in regulation of Cdc42 polarity. Traffic 15(12):1330-43 PMID:25158298
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  • Branduardi P, et al. (2013) A novel pathway to produce butanol and isobutanol in Saccharomyces cerevisiae. Biotechnol Biofuels 6(1):68 PMID:23642236
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  • Forsmark A, et al. (2011) Quantitative proteomics of yeast post-Golgi vesicles reveals a discriminating role for Sro7p in protein secretion. Traffic 12(6):740-53 PMID:21477180
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  • Rossi G and Brennwald P (2011) Yeast homologues of lethal giant larvae and type V myosin cooperate in the regulation of Rab-dependent vesicle clustering and polarized exocytosis. Mol Biol Cell 22(6):842-57 PMID:21248204
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  • Rossi G, et al. (2010) Effect of HXT1 and HXT7 hexose transporter overexpression on wild-type and lactic acid producing Saccharomyces cerevisiae cells. Microb Cell Fact 9:15 PMID:20214823
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  • Wu H, et al. (2008) The ghost in the machine: small GTPases as spatial regulators of exocytosis. Trends Cell Biol 18(9):397-404 PMID:18706813
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  • Brennwald P and Rossi G (2007) Spatial regulation of exocytosis and cell polarity: yeast as a model for animal cells. FEBS Lett 581(11):2119-24 PMID:17418146
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  • Wadskog I, et al. (2006) The yeast tumor suppressor homologue Sro7p is required for targeting of the sodium pumping ATPase to the cell surface. Mol Biol Cell 17(12):4988-5003 PMID:17005914
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  • Elbert M, et al. (2005) The yeast par-1 homologs kin1 and kin2 show genetic and physical interactions with components of the exocytic machinery. Mol Biol Cell 16(2):532-49 PMID:15563607
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  • Gangar A, et al. (2005) Structurally conserved interaction of Lgl family with SNAREs is critical to their cellular function. Curr Biol 15(12):1136-42 PMID:15964280
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  • Roumanie O, et al. (2005) Rho GTPase regulation of exocytosis in yeast is independent of GTP hydrolysis and polarization of the exocyst complex. J Cell Biol 170(4):583-94 PMID:16103227
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  • Adamo JE, et al. (1999) The Rho GTPase Rho3 has a direct role in exocytosis that is distinct from its role in actin polarity. Mol Biol Cell 10(12):4121-33 PMID:10588647
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  • Lehman K, et al. (1999) Yeast homologues of tomosyn and lethal giant larvae function in exocytosis and are associated with the plasma membrane SNARE, Sec9. J Cell Biol 146(1):125-40 PMID:10402465
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  • Rossi G, et al. (1997) Analysis of a yeast SNARE complex reveals remarkable similarity to the neuronal SNARE complex and a novel function for the C terminus of the SNAP-25 homolog, Sec9. J Biol Chem 272(26):16610-7 PMID:9195974
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  • Jiang Y, et al. (1995) Characterization of yeast type-II geranylgeranyltransferase. Methods Enzymol 257:21-9 PMID:8583924
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  • Rossi G, et al. (1995) BET3 encodes a novel hydrophilic protein that acts in conjunction with yeast SNAREs. Mol Biol Cell 6(12):1769-80 PMID:8590804
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  • Jiang Y, et al. (1993) Bet2p and Mad2p are components of a prenyltransferase that adds geranylgeranyl onto Ypt1p and Sec4p. Nature 366(6450):84-6 PMID:8232542
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  • Newman AP, et al. (1992) SEC22 and SLY2 are identical. Mol Cell Biol 12(8):3663-4 PMID:1445580
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  • Ferro-Novick S, et al. (1991) An analysis of BET1, BET2, and BOS1. Three factors mediating ER to Golgi transport in yeast. Cell Biophys 19(1-3):25-33 PMID:1726885
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  • Rossi G, et al. (1991) Dependence of Ypt1 and Sec4 membrane attachment on Bet2. Nature 351(6322):158-61 PMID:1903184
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  • Groesch ME, et al. (1990) Isolation of a functional vesicular intermediate that mediates ER to Golgi transport in yeast. J Cell Biol 111(1):45-53 PMID:2195039
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