STRUCTURAL STUDIES ON THE BIOGENESIS OF OMPS BY THE β-BARREL ASSEMBLY MACHINERY IN E. COLI

Runrun Wu (12256133)

19 March 2022

<p>The β-barrel assembly machinery (BAM) is responsible for the biogenesis of outer membrane proteins (OMPs) into the outer membranes of Gram-negative bacteria. These OMPs have a membrane-embedded domain consisting of a β-barrel fold which can vary from 8 to 36 β-strands, with each serving an important role in the cell such as nutrient uptake and virulence. BAM was first identified nearly two decades ago, but only recently has the molecular structure of the full complex been reported. Together with many years of functional characterization, we have a significantly clearer depiction of BAM's structure, the intra-complex interactions, conformational changes that BAM may undergo during OMP biogenesis, and the role chaperones may play. But still, despite advances over the past two decades, the mechanism for BAM-mediated OMP biogenesis has remained elusive. Over the years, several theories have been proposed that have varying degrees of support from the literature, but none has of yet been conclusive enough to be widely accepted as the sole mechanism. Here we present our recent work on the structures of BAM in its near native environment, characterized by cryo-EM, and study its interaction with OMP substrates. Specifically, we focused on the role of BAM-mediated EspP biogenesis, and structurally characterized crosslinked intermediates to atomic resolution, allowing for a more complete understanding of BAM-mediated OMP biogenesis. We also characterized BAM-mediated OmpT and OmpA biogenesis, which further supports a BamA-budding model for OMP biogenesis. Given its essential role in Gram-negative bacteria, BAM is an attractive target for antibiotics, and we contributed to characterizing a novel antibiotic designed against BAM called darobactin, which binds to the lateral gate of BAM, thereby disrupting OMP biogenesis and leading to programmed bacterial lysis.</p>

BAM 1

OMPs

EspP

OMPT

CryoEM

OMP biogenesis

Single-molecule approaches reveal outer membrane protein biogenesis dynamics

Svirina, Anna, Chamachi, Neharika, Schlierf, Michael

01 March 2024

Outer membrane proteins (OMPs) maintain the viability of Gram-negative bacteria by functioning as receptors, transporters, ion channels, lipases, and porins. Folding and assembly of OMPs involves synchronized action of chaperones and multi-protein machineries which escort the highly hydrophobic polypeptides to their target outer membrane in a folding competent state. Previous studies have identified proteins and their involvement along the OMP biogenesis pathway. Yet, the mechanisms of action and the intriguing ability of all these molecular machines to work without the typical cellular energy source of ATP, but solely based on thermodynamic principles, are still not well understood. Here, we highlight how different single-molecule studies can shed additional light on the mechanisms and kinetics of OMP biogenesis.

info:eu-repo/classification/ddc/570

ddc:570

info:eu-repo/classification/ddc/540

ddc:540