Affiliation:
1. Department of Molecular Engineering, Graduate School of Engineering Kyoto University Japan
2. Department of Molecular and Cellular Physiology, Graduate School of Medicine Kyoto University Japan
Abstract
Lys48‐linked ubiquitin chains, regulating proteasomal protein degradation, are known to include cyclized forms. This cyclization hinders recognition by many downstream proteins by occluding the Ile44‐centered patch. In contrast, the A20‐like Znf domain of ZNF216 (a ubiquitin‐binding protein, A20 Znf) is expected to bind to cyclic ubiquitin chains via constitutively solvent‐exposed surfaces. However, the underlying interaction mechanism remains unclear. Here, our ITC and NMR experiments collectively showed that cyclization did not interfere with and even slightly enhance the molecular recognition of diubiquitin by A20 Znf. This effect is explained by the cyclization‐induced repression of conformational dynamics in diubiquitin and an enlarged molecular interface in the complex. Thus, these results suggest that cyclic ubiquitin chains can be involved in regulation of ZNF216‐dependent proteasomal protein degradation.