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The differential modulation of USP activity by internal regulatory domains, interactors and eight ubiquitin chain types.

Alex C Faesen ,
Mark P A Luna-Vargas ,
Paul P Geurink ,
Marcello Clerici ,
Remco Merkx ,
Willem J van Dijk ,
Dharjath S Hameed ,
Farid El Oualid ,
Huib Ovaa ,
Titia K Sixma

Abstract

Ubiquitin-specific proteases (USPs) are papain-like isopeptidases with variable inter- and intramolecular regulatory domains. To understand the effect of these domains on USP activity, we have analyzed the enzyme kinetics of 12 USPs in the presence and absence of modulators using synthetic reagents. This revealed variations of several orders of magnitude in both the catalytic turnover (k(cat)) and ubiquitin (Ub) binding (K(M)) between USPs. Further activity modulation by intramolecular domains affects both the k(cat) and K(M), whereas the intermolecular activators UAF1 and GMPS mainly increase the k(cat). Also, we provide the first comprehensive analysis comparing Ub chain preference. USPs can hydrolyze all linkages and show modest Ub-chain preferences, although some show a lack of activity toward linear di-Ub. This comprehensive kinetic analysis highlights the variability within the USP family.

More about this publication

Chemistry & biology

Volume 18
Issue nr. 12
Pages 1550-61
Publication date 23-12-2011

Full text links

Publisher website (DOI) 10.1016/j.chembiol.2011.10.017
Europe PubMed Central 22195557
Pubmed 22195557

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