Nonvesicular lipid trafficking pathways are an important process in every domain of life. The mechanisms of these processes are poorly understood in part due to the difficulty in kinetic characterization. One important class of glycolipids, lipopolysaccharides (LPS), are the primary lipidic component of the outer membrane of Gram-negative bacteria. LPS are synthesized in the inner membrane and then trafficked to the cell surface by the ipoolysaccharide ransport proteins, BFGCADE. By characterizing the interaction of a fluorescent probe and LPS, we establish a quantitative assay to monitor the flux of LPS between proteoliposomes on the time scale of seconds. We then incorporate photocaged ATP into this system, which allows for light-based control of the initiation of LPS transport. This control allows us to measure the initial rate of LPS transport (3.0 min per LptDE). We also find that the rate of LPS transport by the Lpt complex is independent of the structure of LPS. In contrast, we find the rate of LPS transport is dependent on the proper function of the LptDE complex. Mutants of the outer membrane Lpt components, LptDE, that cause defective LPS assembly in live cells display attenuated transport rates and slower ATP hydrolysis compared to wild type proteins. Analysis of these mutants reveals that the rates of ATP hydrolysis and LPS transport are correlated such that 1.2 ± 0.2 ATP are hydrolyzed for each LPS transported. This correlation suggests a model where the outer membrane components ensure the coupling of ATP hydrolysis and LPS transport by stabilizing a transport-active state of the Lpt bridge.
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| http://dx.doi.org/10.1021/acs.biochem.4c00379 | DOI Listing |
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