Abstract
ESCRT-III is a ubiquitous complex which catalyzes membrane fission from within membrane necks via an as yet unknown mechanism. Here, we reconstituted in vitro the ESCRT-III complex onto membranes. We show that based on variable affinities between ESCRT-III proteins and the ATPase Vps4, subunits are recruited to the membrane in a Vps4-driven sequence that starts with Snf7 and ends with Did2 and Ist1 which, together, form a fission-active subcomplex. Sequential recruitment of ESCRT-III subunits is coupled to membrane remodeling. Binding of Did2 promoted the formation of membrane protrusions which later constricted and underwent fission mediated by the recruitment of Ist1. Overall, our results provide a mechanism to explain how a sequence of ESCRT-III subunits drives membrane deformation and fission.