Golgi SNARE complex SED5-GOS1-SFT1-YKT6

Primary Literature

Furukawa N and Mima J (2014) Multiple and distinct strategies of yeast SNAREs to confer the specificity of membrane fusion. Sci Rep 4:4277 PMID: 24589832
Kama R, et al. (2011) The yeast Batten disease orthologue Btn1 controls endosome-Golgi retrograde transport via SNARE assembly. J Cell Biol 195(2):203-15 PMID: 21987636
Jahn R and Scheller RH (2006) SNAREs--engines for membrane fusion. Nat Rev Mol Cell Biol 7(9):631-43 PMID: 16912714
Kweon Y, et al. (2003) Ykt6p is a multifunctional yeast R-SNARE that is required for multiple membrane transport pathways to the vacuole. Mol Biol Cell 14(5):1868-81 PMID: 12802061
Liu Y and Barlowe C (2002) Analysis of Sec22p in endoplasmic reticulum/Golgi transport reveals cellular redundancy in SNARE protein function. Mol Biol Cell 13(9):3314-24 PMID: 12221135
Parlati F, et al. (2002) Distinct SNARE complexes mediating membrane fusion in Golgi transport based on combinatorial specificity. Proc Natl Acad Sci U S A 99(8):5424-9 PMID: 11959998
Tsui MM, et al. (2001) Selective formation of Sed5p-containing SNARE complexes is mediated by combinatorial binding interactions. Mol Biol Cell 12(3):521-38 PMID: 11251068
Tsui MM and Banfield DK (2000) Yeast Golgi SNARE interactions are promiscuous. J Cell Sci 113 ( Pt 1):145-52 PMID: 10591633
McNew JA, et al. (1998) Gos1p, a Saccharomyces cerevisiae SNARE protein involved in Golgi transport. FEBS Lett 435(1):89-95 PMID: 9755865
Banfield DK, et al. (1995) A SNARE-like protein required for traffic through the Golgi complex. Nature 375(6534):806-9 PMID: 7596416

Additional Literature

Gao J, et al. (2020) Function of the SNARE Ykt6 on autophagosomes requires the Dsl1 complex and the Atg1 kinase complex. EMBO Rep 21(12):e50733 PMID: 33025734

Wang Y, et al. (2012) Coiled-coil networking shapes cell molecular machinery. Mol Biol Cell 23(19):3911-22 PMID: 22875988

Meiringer CT, et al. (2011) The Dsl1 protein tethering complex is a resident endoplasmic reticulum complex, which interacts with five soluble NSF (N-ethylmaleimide-sensitive factor) attachment protein receptors (SNAREs): implications for fusion and fusion regulation. J Biol Chem 286(28):25039-46 PMID: 21550981

Zhang H, et al. (2009) A computationally guided protein-interaction screen uncovers coiled-coil interactions involved in vesicular trafficking. J Mol Biol 392(1):228-41 PMID: 19591838

Matsuura-Tokita K, et al. (2006) Live imaging of yeast Golgi cisternal maturation. Nature 441(7096):1007-10 PMID: 16699523

Inadome H, et al. (2005) Immunoisolaton of the yeast Golgi subcompartments and characterization of a novel membrane protein, Svp26, discovered in the Sed5-containing compartments. Mol Cell Biol 25(17):7696-710 PMID: 16107716

Peng R and Gallwitz D (2002) Sly1 protein bound to Golgi syntaxin Sed5p allows assembly and contributes to specificity of SNARE fusion complexes. J Cell Biol 157(4):645-55 PMID: 11994317

Cho JH, et al. (2000) Proteins in the early golgi compartment of Saccharomyces cerevisiae immunoisolated by Sed5p. FEBS Lett 469(2-3):151-4 PMID: 10713261

Holthuis JC, et al. (1998) Two syntaxin homologues in the TGN/endosomal system of yeast. EMBO J 17(1):113-26 PMID: 9427746

Wooding S and Pelham HR (1998) The dynamics of golgi protein traffic visualized in living yeast cells. Mol Biol Cell 9(9):2667-80 PMID: 9725919

Søgaard M, et al. (1994) A rab protein is required for the assembly of SNARE complexes in the docking of transport vesicles. Cell 78(6):937-48 PMID: 7923363

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Golgi SNARE complex SED5-GOS1-SFT1-YKT6 Literature

Primary Literature

Additional Literature