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ClpX eats randomly

The ClpX hexamer can operate on one cylinder. SAUER/MACMILLAN

ClpXP is an ATP-powered eating machine. Its ring of six ClpX ATPase modules feeds substrates to the ClpP protease. The ClpX subunits have been suggested to fire all at once or in a sequential, piston-like sequence. But now Andreas Martin, Tania Baker, and Robert Sauer (MIT, Cambridge, MA) find that the hexamer functions even if only one subunit can hydrolyze ATP. They suggest that the the order of firing of the subunits may be not deterministic but probabalistic—all the better to manhandle half-digested protein substrates whose features protrude haphazardly.

Martin wanted to test the models by mixing and matching functional and nonfunctional ClpX subunits. But the six subunits are identical, so coexpression of wild-type and mutant subunits would yield only messy mixtures. "If you were going to make headway you needed to connect the subunits" into a single unit, says Sauer. Martin set to work, but "progress was not encouraging," says Sauer. "After six months there were only insoluble proteins. I was encouraging him to think of other projects, but he refused to give up." As a last attempt Martin deleted a nonessential part of ClpX. The deletion—which was done "because we could," says Sauer—worked.

The resulting construct of six linked subunits could be reassorted at will. Amazingly, activity per functional subunit barely decreased as more mutants crept in. Hexamers with only two active subunits had almost a third of the activity and ATP efficiency of a fully active hexamer. With only one active subunit the hexamers fell down further in activity assays, but still showed impressive digestive powers.

If random mixtures of mutant and wild-type subunits can function so efficiently, Sauer figures that the fully wild-type hexamers probably operate by a random firing of their subunits. This would allow the hexamer to keep processing a protein no matter which ClpX subunit the substrate happened to bump up against.

Reference:

Martin, A., et al. 2005. Nature. doi:10.1038/nature04031.

William A. Wells

wellsw{at}rockefeller.edu

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This Article Full Text (PDF, 799K) PPT slides of all figures Alert me when this article is cited Services Email this article Similar articles in this journal Alert me to new content in the JCB Download to citation manager Citing Articles Citing Articles via CrossRef Citing Articles via Google Scholar Google Scholar Articles by Wells, W. A. Search for Related Content PubMed Articles by Wells, W. A. Social Bookmarking                            What's this?