The general secretory (Sec) system of Escherichia coli translocates both periplasmic and outer membrane proteins through the cytoplasmic membrane. The pathway through the membrane is provided by a highly conserved translocon, which in E. coli comprises two heterotrimeric integral membrane complexes, SecY, SecE, and SecG (SecYEG), and SecD, SecF, and YajC (SecDF/YajC). SecA is an associated ATPase that is essential to the function of the Sec system. SecA plays two roles, it targets precursors to the translocon with the help of SecB and it provides energy via hydrolysis of ATP. SecA exists both free in the cytoplasm and integrally membrane associated. Here we describe details of association of the amino-terminal region of SecA with membrane. We use site-directed spin labelling and electron paramagnetic resonance spectroscopy to show that when SecA is co-assembled into lipids with SecYEG to yield highly active translocons, the N-terminal region of SecA penetrates the membrane and lies at the interface between the polar and the hydrophobic regions, parallel to the plane of the membrane at a depth of approximately 5 Å. When SecA is bound to SecYEG, preassembled into proteoliposomes, or nonspecifically bound to lipids in the absence of SecYEG, the N-terminal region penetrates more deeply (8 Å). Implications of partitioning of the SecA N-terminal region into lipids on the complex between SecB carrying a precursor and SecA are discussed.
Keywords: EPR; SecA; SecYEG proteoliposomes; depth in bilayer; power saturation; protein export; protein-lipid interactions.
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