Visualization of substrate binding and translocation by the ATP-dependent protease, ClpXP

Abstract

Binding and internalization of a protein substrate by E. coli ClpXP was investigated by electron microscopy. In sideviews of ATP gamma S-stabilized ClpXP complexes, a narrow axial channel was visible in ClpX, surrounded by protrusions on its distal surface. When substrate lambda O protein was added, extra density attached to this surface. Upon addition of ATP, this density disappeared as lambda O was degraded. When ATP was added to proteolytically inactive ClpXP-lambda O complexes, the extra density transferred to the center of ClpP and remained inside ClpP after separation from ClpX. We propose that substrates of ATP-dependent proteases bind to specific sites on the distal surface of the ATPase, and are subsequently unfolded and translocated into the internal chamber of the protease.