SearchPublisher and Institutes
You are here: Home :: Area NEM :: Life sciences :: Biochemistry
H. Brandstetter, J.-S. Kim, M. Groll, P. Göttig, R. Huber
Structural Basis for the Processive Protein Degradation by Tricorn Protease
Cell survival critically depends on the efficient use of available resources. This includes both the clearance and the recycling of those protein components that have become futile or defective. Several proteins sequentially accomplish this complex task. The proteasome serves as an initial protein shredder and generates peptides of 7 12 amino acids in length. In general, these products are useless burden to the cell and need further processing. A few years ago, a proteolytic system was identified in the model organism Thermoplasma acidophilum which indeed performs this processing [Tamura et al., Science 274 (1996), 1385 1389]. The hexameric core protein of this modular system, referred to as tricorn protease, is a 720 kDa protease which is able to assemble further into a giant icosahedral capsid, as determined by electron microscopy. Recently, we determined the crystal structure of the tricorn core particle at 2.0 å resolution [Brandstetter et al., Nature 414 (2001), 466 469]. Here we describe the structural and mechanistic basis for tricorns processive degradation mode, including a novel electrostatic substratetoproduct sink, and suggest how further components might interact with the tricorn protease to complete the cellular waste recycling process.
Biological Chemistry, Walter de Gruyter
Print ISSN: 1431-6730
Volume: 383, 08/2002
Pages: 1157 - 1165