TY - JOUR T1 - Evidence for Bidentate Substrate Binding as the Basis for the K48 Linkage Specificity of Otubain 1 JF - Journal of Molecular Biology Y1 - 2009 A1 - Wang,Tao A1 - Yin,Luming A1 - Cooper,Eric M. A1 - Lai,Ming-Yih A1 - Dickey,Seth A1 - Pickart,Cecile M. A1 - Fushman, David A1 - Wilkinson,Keith D. A1 - Cohen,Robert E. A1 - Wolberger,Cynthia KW - deubiquitination KW - isopeptide KW - linkage specificity KW - otubain KW - polyubiquitin AB - Otubain 1 belongs to the ovarian tumor (OTU) domain class of cysteine protease deubiquitinating enzymes. We show here that human otubain 1 (hOtu1) is highly linkage-specific, cleaving Lys48 (K48)-linked polyubiquitin but not K63-, K29-, K6-, or K11-linked polyubiquitin, or linear α-linked polyubiquitin. Cleavage is not limited to either end of a polyubiquitin chain, and both free and substrate-linked polyubiquitin are disassembled. Intriguingly, cleavage of K48-diubiquitin by hOtu1 can be inhibited by diubiquitins of various linkage types, as well as by monoubiquitin. NMR studies and activity assays suggest that both the proximal and distal units of K48-diubiquitin bind to hOtu1. Reaction of Cys23 with ubiquitin-vinylsulfone identified a ubiquitin binding site that is distinct from the active site, which includes Cys91. Occupancy of the active site is needed to enable tight binding to the second site. We propose that distinct binding sites for the ubiquitins on either side of the scissile bond allow hOtu1 to discriminate among different isopeptide linkages in polyubiquitin substrates. Bidentate binding may be a general strategy used to achieve linkage-specific deubiquitination. VL - 386 SN - 0022-2836 UR - http://www.sciencedirect.com/science/article/pii/S0022283608016124 CP - 4 M3 - 10.1016/j.jmb.2008.12.085 ER -