ABSTRACTFusion of intracellular trafficking vesicles is mediated by the assembly of solubleN-ethylmaleimide-sensitive fusion protein receptors (SNAREs) to form membrane-bridging complexes. Also required for SNARE-mediated membrane fusion are Sec1/Munc18-family (SM) proteins, SNARE chaperones that can function as templates to catalyze SNARE complex assembly. In the paradigmatic structure of an SM–SNARE complex, Munc18-1 bound to the Qa-SNARE syntaxin 1, the SNARE protein is trapped in an autoinhibited closed conformation that prevents it from entering into SNARE complexes. Here, we present the structure of a second SM–Qa-SNARE complex, Vps45–Tlg2. Strikingly, Vps45 holds Tlg2 in an open conformation, with its SNARE motif disengaged from its three-helical Habc domain and its linker region unfolded. The domain 3a helical hairpin of Vps45 is unfurled, exposing the presumptive R-SNARE binding site to allow template complex formation. Tlg2 has a pronounced tendency to self-associate via its SNARE motif, and we demonstrate that Vps45 can rescue Tlg2 oligomers into stoichiometric Vps45–Tlg2 complexes. Our findings demonstrate that SM proteins can engage Qa-SNAREs using at least two different modes, one in which the SNARE is closed and one in which it is open.