期刊
JOURNAL OF BIOLOGICAL CHEMISTRY
卷 285, 期 19, 页码 14834-14840出版社
AMER SOC BIOCHEMISTRY MOLECULAR BIOLOGY INC
DOI: 10.1074/jbc.M109.090498
关键词
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资金
- NIAMS
- NCI of the National Institutes of Health
ClpP is a serine protease whose active sites are sequestered in a cavity enclosed between two heptameric rings of subunits. The ability of ClpP to process folded protein substrates depends on its being partnered by an AAA+ ATPase/unfoldase, ClpA or ClpX. In active complexes, substrates are unfolded and fed along an axial channel to the degradation chamber inside ClpP. We have used cryoelectron microscopy at similar to 11-angstrom resolution to investigate the three-dimensional structure of ClpP complexed with either one or two end-mounted ClpA hexamers. In the absence of ClpA, the apical region of ClpP is sealed; however, it opens on ClpA binding, creating an access channel. This region is occupied by the N-terminal loops (residues 1-17) of ClpP, which tend to be poorly visible in crystal structures, indicative of conformational variability. Nevertheless, we were able to model the closed-to-open transition that accompanies ClpA binding in terms of movements of these loops; in particular, up conformations of the loops correlate with the open state. The main part of ClpP, the barrel formed by 14 copies of residues 18-193, is essentially unchanged by the interaction with ClpA. Using difference mapping, we localized the binding site for ClpA to a peripheral pocket between adjacent ClpP subunits. Based on these observations, we propose that access to the ClpP degradation chamber is controlled allosterically by hinged movements of its N-terminal loops, which the symmetry-mismatched binding of ClpA suffices to induce.
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