Mitochondrial Protein Sorting DIFFERENTIATION OF β-BARREL ASSEMBLY BY Tom7-MEDIATED SEGREGATION OF Mdm10

Abstract The mitochondrial outer membrane contains two distinct machineries for protein import and protein sorting that function in a sequential manner: the general translocase of the outer membrane (TOM complex) and the sorting and assembly machinery (SAM complex), which is dedicated to β-barrel proteins. The SAMcore complex consists of three subunits, Sam35, Sam37, and Sam50, that can associate with a fourth subunit, the morphology component Mdm10, to form the SAMholo complex. Whereas the SAMcore complex is required for the biogenesis of all β-barrel proteins, Mdm10 and the SAMholo complex play a selective role in β-barrel biogenesis by promoting assembly of Tom40 but not of porin. We report that Tom7, a conserved subunit of the TOM complex, functions in an antagonistic manner to Mdm10 in biogenesis of Tom40 and porin. We show that Tom7 promotes segregation of Mdm10 from the SAMholo complex into a low molecular mass form. Upon deletion of Tom7, the fraction of Mdm10 in the SAMholo complex is significantly increased, explaining the opposing functions of Tom7 and Mdm10 in β-barrel sorting. Thus the role of Tom7 is not limited to the TOM complex. Tom7 functions in mitochondrial protein biogenesis by a new mechanism, segregation of a sorting component, leading to a differentiation of β-barrel assembly.