Coordination of cytochromebc1complex assembly at MICOS

Abstract

ABSTRACTThe boundary and cristae domains of the mitochondrial inner membrane are connected by crista junctions. Most cristae membrane proteins are nuclear-encoded and inserted by the mitochondrial protein import machinery into the inner boundary membrane. Thus, they must overcome the diffusion barrier imposed by crista junctions to reach their final location. Here, we show that respiratory chain complexes and assembly intermediates are physically connected to the mitochondrial contact site and cristae organizing system (MICOS) that is essential for formation and stability of crista junctions. We identify the inner membrane protein Mar26 (Fmp10) as determinant in the biogenesis of the cytochromebc1complex (complex III). Mar26 couples a Rieske Fe/S protein-containing assembly intermediate to MICOS. Our data indicate that Mar26 maintains an assembly-competent Rip1 pool at crista junctions where complex III maturation likely occurs. MICOS facilitates efficient Rip1 assembly by recruitment of complex III assembly intermediates to crista junctions. We propose that MICOS, via interaction with assembly factors such as Mar26, directly contributes to the spatial and temporal coordination of respiratory chain biogenesis.