Abstract
Vam3p, a syntaxin-like SNARE protein involved in yeast vacuole fusion, is composed of a three-helical N-terminal domain, a canonical SNARE motif, and a C-terminal transmembrane region (TMR). Surprisingly, we find that the N-terminal domain of Vam3p is not essential for fusion, although analogous domains in other syntaxins are indispensible for fusion and/or protein-protein interactions. In contrast to the N-terminal domain, mutations in the SNARE motif of Vam3p or replacement of the SNARE motif of Vam3p with the SNARE motif from other syntaxins inhibited fusion. Furthermore, the precise distance between the SNARE motif and the TMR was critical for fusion. Insertion of only three residues after the SNARE motif significantly impaired fusion and insertion of 12 residues abolished fusion. As judged by co-immunoprecipitation experiments, the SNARE motif mutations and the insertions did not alter the association of Vam3p with Vam7p, Vti1p, Nyv1p, and Ykt6p, other vacuolar SNARE proteins implicated in fusion. In contrast, the SNARE motif substitutions interfered with the stable formation of Vam3p complexes with Nyv1p and Vti1p, although Vam3p complexes with Vam7p and Ykt6p were still present. Our data suggest that in contrast to previously characterized syntaxins, Vam3p contains only two domains essential for fusion, the SNARE motif and the TMR, and these domains have to be closely coupled to function in fusion.
Highlights
The observation that the SNARE motif of Vam3p is essential for vacuolar fusion confirms extensive evidence for the general importance of SNARE motifs for intracellular membrane fusion and supports a critical role for Vam3p in vacuole fusion
A minimal syntaxin composed of the SNARE motif and the TMR was sufficient to support fullfledged fusion
This finding was unexpected because the Nterminal domain of Vam3p resembles similar essential domains in Sso1p and syntaxin 1 (33), giving rise to the expectation that this domain must have a critical role in fusion
Summary
Fusion reactions (volume: 30 l) contained 4.5 g of protein of vacuoles from the DKY6218 and TVY1 strains expressing the same wild-type or mutant Vam3p in 23.3 l; 2.2 l of 10ϫ salt adjustment buffer (100 mM PIPES/ KOH, pH 6.8, 0.5 M sorbitol, 1 M potassium acetate, 0.5 M KCl, 50 mM MgCl2), 3 l of a 10ϫ ATP-regenerating system (creatine kinase 10 g/l, 0.4 M creatine phosphate, 5 mM ATP, 10 mM MgCl2), 0.5 l of protease inhibitor mixture PIC (50ϫ PIC: 10 l of leupeptin (0.5 g/liter), 50 l of 1,10-phenanthroline (500 mM in ethanol), 25 l of pepstatin A (1 mg/ml in methanol), 50 l of Pefabloc (100 mM)), 1 l of yeast cytosol (protein concentration: 1 g/liter). Cells were incubated for 15 min at 30°C with agitation, washed, immobilized on concanavalin A-coated slides, and viewed in a fluorescent microscope
Sign-in/Register to view highlights & summary 
Published Version (
Free)
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call