The structure ofAquifex aeolicusFtsH in the ADP-bound state reveals aC2-symmetric hexamer
The crystal structure of a truncated, soluble quadruple mutant of FtsH fromAquifex aeolicuscomprising the AAA and protease domains has been determined at 2.96 Å resolution in space groupI222. The protein crystallizes as a hexamer, with the protease domain forming layers in theabplane. Contacts between these layers are mediated by the AAA domains. These are highly disordered in one crystal form, but are clearly visible in a related form with a shortercaxis. Here, adenosine diphosphate (ADP) is bound to each subunit and the AAA ring exhibits twofold symmetry. The arrangement is different from the ADP-bound state of an analogously truncated, soluble FtsH construct fromThermotoga maritima. The pore is completely closed and the phenylalanine residues in the pore line a contiguous path. The protease hexamer is very similar to those described for other FtsH structures. To resolve certain open issues regarding a conserved glycine in the linker between the AAA and protease domains, as well as the active-site switch β-strand, mutations have been introduced in the full-length membrane-bound protein. Activity analysis of these point mutants reveals the crucial importance of these residues for proteolytic activity and is in accord with previous interpretation of the active-site switch and the importance of the linker glycine residue.