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LolCDE Complex (lolcde + complex)

Distribution by Scientific Domains
Chemistry100%

Selected Abstracts

Complete reconstitution of an ATP-binding cassette transporter LolCDE complex from separately isolated subunits

FEBS JOURNAL, Issue 12 2007
Kyoko Kanamaru
The LolCDE complex of Escherichia coli belongs to the ATP-binding cassette transporter superfamily and mediates the detachment of lipoproteins from the inner membrane, thereby initiating lipoprotein sorting to the outer membrane. The complex is composed of one copy each of membrane subunits LolC and LolE, and two copies of ATPase subunit LolD. To establish the conditions for reconstituting the LolCDE complex from separately isolated subunits, the ATPase activities of LolD and LolCDE were examined under various conditions. We found that both LolD and LolCDE were inactivated on incubation at 30 °C in a detergent solution. ATP and phospholipids protected LolCDE, but not LolD. Furthermore, phospholipids reactivated LolCDE even after its near complete inactivation. LolD was also protected from inactivation when membrane subunits and phospholipids were present together, suggesting the phospholipid-dependent reassembly of LolCDE subunits. Indeed, the functional lipoprotein-releasing machinery was reconstituted into proteoliposomes with E. coli phospholipids and separately purified LolC, LolD and LolE. Preincubation with phospholipids at 30 °C was essential for the reconstitution of the functional machinery from subunits. Strikingly, the lipoprotein-releasing activity was also reconstituted from LolE and LolD without LolC, suggesting the intriguing possibility that the minimum lipoprotein-releasing machinery can be formed from LolD and LolE. We report here the complete reconstitution of a functional ATP-binding cassette transporter from separately purified subunits. [source]

Large-scale preparation of the homogeneous LolA,lipoprotein complex and efficient in vitro transfer of lipoproteins to the outer membrane in a LolB-dependent manner

PROTEIN SCIENCE, Issue 12 2007
Shoji Watanabe
Abstract An ATP-binding cassette transporter LolCDE complex of Escherichia coli releases lipoproteins destined to the outer membrane from the inner membrane as a complex with a periplasmic chaperone, LolA. Interaction of the LolA,lipoprotein complex with an outer membrane receptor, LolB, then causes localization of lipoproteins to the outer membrane. As far as examined, formation of the LolA,lipoprotein complex strictly depends on ATP hydrolysis by the LolCDE complex in the presence of LolA. It has been speculated, based on crystallographic and biochemical observations, that LolA undergoes an ATP-dependent conformational change upon lipoprotein binding. Thus, preparation of a large amount of the LolA,lipoprotein complex is difficult. Moreover, lipoproteins bound to LolA are heterogeneous. We report here that the coexpression of LolA and outer membrane-specific lipoprotein Pal from a very efficient plasmid causes the unusual accumulation of the LolA,Pal complex in the periplasm. The complex was purified to homogeneity and shown to be a functional intermediate of the lipoprotein localization pathway. In vitro incorporation of Pal into outer membranes revealed that a single molecule of LolB catalyzes the incorporation of more than 100 molecules of Pal into outer membranes. Moreover, the LolB-dependent incorporation of Pal was not affected by excess-free LolA, indicating that LolB specifically interacts with liganded LolA. Finally, the LolB depletion caused the accumulation of a significant amount of Pal in the periplasm, thereby establishing the conditions for preparation of the homogeneous LolA,lipoprotein complex. [source]