Surfactant-mediated removal of proteins from biomembranes invariably results in partial or complete loss of function and disassembly of multi-protein complexes. We determined the capacity of styrene-co-maleic acid (SMA) co-polymer to remove components of the cell division machinery from the membrane of drug-resistant staphylococcal cells. SMA-lipid nanoparticles solubilized FtsZ-PBP2-PBP2a complexes from intact cells, demonstrating the close physical proximity of these proteins within the lipid bilayer. Exposure of bacteria to (-)-epicatechin gallate, a polyphenolic agent that abolishes β -lactam resistance in staphylococci, disrupted the association between PBP2 and PBP2a. Thus, SMA purification provides a means to remove native integral membrane protein assemblages with minimal physical disruption and shows promise as a tool for the interrogation of molecular aspects of bacterial membrane protein structure and function.
Sarah Paulin, Mohammed Jamshad, Timothy R Dafforn, Jorge Garcia-Lara, Simon J Foster, Nicola F Galley, David I Roper, Helena Rosado and Peter W Taylor
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Sarah Paulin, Mohammed Jamshad, Timothy R Dafforn, Jorge Garcia-Lara, Simon J Foster, Nicola F Galley, David I Roper, Helena Rosado and Peter W Taylor
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