Abstract

In Gram-negative bacteria, tripartite efflux pump AcrAB-TolC plays a prominent role in antibiotic resistance. We have used high resolution cryo-ET to visualize the structure of Escherichia coli AcrAB-TolC at a 7 [A] resolution in intact cells. The resulting structures show the detailed architecture of the assembled complex embedded into cell envelope. Interactions with the inner membrane enable crosstalk between AcrB and TolC through AcrA, suggesting that assembly in the native cellular environment is critical for the pump activation mechanism, where the allosteric activating signal is triggered by the alternate binding of AcrA to the lipid membrane and AcrB porter domain. We establish a platform for high resolution in situ structural studies of bacteria efflux pump, which can yield critical information in understanding complex assemblies function. One sentence summaryA 7 [A] in situ structure of the AcrAB-TolC pump from bacteria by cryo-ET reveals mechanisms for active efflux.