A new structural paradigm for outer membrane protein biogenesis in the Bacteroidota

In Gram-negative bacteria the outer membrane (OM) is the first line of defence against antimicrobial agents and immunological attacks. A key part of OM biogenesis is insertion of OM proteins (OMPs) by the β-barrel–assembly machinery (BAM). Here we report the cryo-electron microscopy (cryoEM) structure of a BAM complex isolated from Flavobacterium johnsoniae , a member of the phylum Bacteroidota that includes key human commensals and major anaerobic pathogens. This BAM complex is radically different from the canonical Escherichia coli system and includes an extensive extracellular canopy that overhangs the substrate folding site and a subunit that inserts into the BAM pore. We find that two of the novel subunits involved in forming the extracellular canopy are essential for BAM function. For one of these subunits isolation of a suppressor mutation allows the separation of their essential and non-essential functions. The need for a highly remodelled and enhanced BAM complex reflects the unusually complex membrane proteins found in the OM of the Bacteroidota.