PEP5/YMR231W Literature Guide

Other names published for PEP5: END1, VAM1, VPL9, VPS11, VPT11, YMR231W

PEP5 LITERATURE TOPICS

Curated Literature

Genetics/Cell Biology

Nucleic Acid Information

Gene Product Information

Related Genes/Proteins

Research Aids

Genome-wide Analysis

Proteome-wide Analysis

Other Topics

Additional Information

PEP5 - Cellular Location (15)

Reference	Other Genes Addressed
Kulkarni A, et al. (2012) A tethering complex dimer catalyzes trans-SNARE complex formation in intracellular membrane fusion. Bioarchitecture 2(2):59-69	NYV1 \| PEP3 \| VAM3 \| VAM6 \| VPS16 \| VPS33 \| VPS41 \| YPT7
Plemel RL, et al. (2011) Subunit organization and Rab interactions of Vps-C protein complexes that control endolysosomal membrane traffic. Mol Biol Cell 22(8):1353-63	PEP3 \| VAM6 \| VPS16 \| VPS21 \| VPS3 \| VPS33 \| VPS38 \| VPS41 \| VPS8 \| YPT7
Zucchi PC and Zick M (2011) Membrane fusion catalyzed by a Rab, SNAREs, and SNARE chaperones is accompanied by enhanced permeability to small molecules and by lysis. Mol Biol Cell 22(23):4635-46	PEP3 \| SEC17 \| SEC18 \| VAM6 \| VPS16 \| VPS33 \| VPS41 \| YPT7
Ostrowicz CW, et al. (2010) Defined subunit arrangement and rab interactions are required for functionality of the HOPS tethering complex. Traffic 11(10):1334-46	PEP3 \| VAM6 \| VPS16 \| VPS21 \| VPS3 \| VPS33 \| VPS41 \| VPS8 \| YPT7
Cabrera M, et al. (2009) Vps41 phosphorylation and the Rab Ypt7 control the targeting of the HOPS complex to endosome-vacuole fusion sites. Mol Biol Cell 20(7):1937-48	GYP7 \| NYV1 \| PEP3 \| SNC1 \| VAM6 \| VPS16 \| VPS27 \| VPS33 \| VPS41 \| YCK3 \| YPT7
Hickey CM, et al. (2009) The Major Role of the Rab Ypt7p in Vacuole Fusion Is Supporting HOPS Membrane Association. J Biol Chem 284(24):16118-25	GYP1 \| NYV1 \| PEP3 \| VAM3 \| VAM6 \| VAM7 \| VPS16 \| VPS33 \| VPS41 \| VTI1 \| YCK3 \| YPT7
Wiederhold E, et al. (2009) The yeast vacuolar membrane proteome. Mol Cell Proteomics 8(2):380-92	ADP1 \| AKR2 \| APE3 \| APL5 \| APM3 \| AVT1 \| AVT3 \| AVT7 \| CPS1 \| DAP2 \| ECM14 \| ENO2 \| FRE6 \| FUN26 \| MORE
Brett CL and Merz AJ (2008) Osmotic regulation of rab-mediated organelle docking. Curr Biol 18(14):1072-7	GDI1 \| GYP1 \| GYP7 \| PEP3 \| SEC17 \| SEC18 \| VAM3 \| VAM7 \| VPS33 \| VPS41 \| YCK3 \| YPT7
Collins KM, et al. (2005) Sec17p and HOPS, in distinct SNARE complexes, mediate SNARE complex disruption or assembly for fusion. EMBO J 24(10):1775-86	NYV1 \| PEP3 \| SEC17 \| SEC18 \| VAM3 \| VAM6 \| VAM7 \| VPS16 \| VPS3 \| VPS33 \| VPS41 \| VTI1 \| YKT6 \| YPT7 \| MORE
Wang CW, et al. (2003) Yeast homotypic vacuole fusion requires the Ccz1-Mon1 complex during the tethering/docking stage. J Cell Biol 163(5):973-85	CCZ1 \| MON1 \| NYV1 \| PEP3 \| SEC17 \| SEC18 \| VAC8 \| VAM3 \| VAM7 \| VPS16 \| VPS33 \| VPS41 \| VTI1 \| YPT7 \| MORE
Sato TK, et al. (2000) Class C Vps protein complex regulates vacuolar SNARE pairing and is required for vesicle docking/fusion. Mol Cell 6(3):661-71	PEP3 \| VAM3 \| VAM7 \| VPS16 \| VPS33 \| VTI1
Srivastava A, et al. (2000) Pep3p/Pep5p complex: a putative docking factor at multiple steps of vesicular transport to the vacuole of Saccharomyces cerevisiae. Genetics 156(1):105-22	PEP12 \| PEP3 \| PEP7 \| VPS8
Woolford CA, et al. (1998) Genetic interaction with vps8-200 allows partial suppression of the vestigial vacuole phenotype caused by a pep5 mutation in Saccharomyces cerevisiae. Genetics 148(1):71-83	VPS8
Rieder SE and Emr SD (1997) A novel RING finger protein complex essential for a late step in protein transport to the yeast vacuole. Mol Biol Cell 8(11):2307-27	PEP3 \| SEC1 \| VAM3 \| VPS16 \| VPS33
Woolford CA, et al. (1990) Isolation and characterization of PEP5, a gene essential for vacuolar biogenesis in Saccharomyces cerevisiae. Genetics 125(4):739-52