Structure ofToxoplasma gondiiglideosome-associated connector suggests a role as an elastic element in actomyosin force generation for gliding motility

Abstract

AbstractToxoplasma gondiiglideosome-associated connector (GAC) is a giant armadillo-repeat protein, essential for parasite motility and conserved across Apicomplexa. It connects actin filaments to the plasma membraneviainteractions with phosphatidic acid and membrane-spanning adhesins. It is unclear how GAC contributes to gliding motility and invasion and why such a large connector is needed. We determined the crystal structure of full-lengthT. gondiiGAC at 2.3 Å resolution and explored its conformational space in solution using small-angle X-ray scattering and cryogenic electron microscopy. The crystal structure reveals a compact conformation but, in solution, GAC adopts both compact and extended forms. The PH domain stabilizes the compact form and may act as a switch triggered by membrane sensing. Based on its spring-like architecture, we suggest a role for GAC as an elastic element in actomyosin force generation during gliding motility and invasion.