The dynamic nature of bacterial surfaces: Implications for metal-membrane interaction

摘要

Bacterial envelopes are chemically complex, diverse structures. Chemical and physical influences from cellular microenvironments force lipids, proteins, and sugars to organize dynamically. This constant reorganization serves to maintain compartmentalization and function, but also affects the influence of charged functional groups that drive electrochemical interactions with metal ions. The interactions of metal species with cell walls are of particular interest because (i) metals must be taken up or excluded to maintain cell function, and (ii) electrochemical interactions between charged metals and anionic ligands are inevitable. In this review we explore the associations of metals with metal-reactive ligands found within bacterial envelopes, and outward to include those within biofilm matrics. The mechanisms that underpin metal binding to these ligands have not been well considered with respect to the dynamic organization of the biological structures themselves. Bacteria respond sensitively and rapidly to growth environment with de novo syntheses of chemical constituents, which can impact metal interactions. We discuss causes of membrane chemical variability as observed in laboratory experiments, and offer consequences for this adaptability in natural settings. The structural impacts of metal ion associations with bacterial envelopes are often overlooked. This review explores how dynamic bacterial surface chemistry influences metal binding and, in turn, how metal ions impact membrane organization in laboratory and natural conditions.