Ubiquitin Chain Enrichment Middle-Down Mass Spectrometry (UbiChEM-MS) Reveals Cell-Cycle Dependent Formation of Lys11/Lys48 Branched Ubiquitin Chains.

The dynamics of cellular signaling events are tightly regulated by a diverse set of ubiquitin chains. Recent work has suggested that branched ubiquitin chains composed of Lys11 and Lys48 isopeptide linkages play a critical role in regulating cell cycle progression. Yet, endogenous Lys11/Lys48 branched chains could not be detected.

Determining Atomistic SAXS Models of Tri-Ubiquitin Chains from Bayesian Analysis of Accelerated Molecular Dynamics Simulations.

Small-angle X-ray scattering (SAXS) has become an increasingly popular technique for characterizing the solution ensemble of flexible biomolecules. However, data resulting from SAXS is typically low-dimensional and is therefore difficult to interpret without additional structural knowledge. In theory, molecular dynamics (MD) trajectories can provide this information, but conventional simulations rarely sample the complete ensemble.

Ubiquitin Chain Enrichment Middle-Down Mass Spectrometry Enables Characterization of Branched Ubiquitin Chains in Cellulo.

Ubiquitin (Ub) has a broad functional range that has been ascribed to the formation of an array of polymeric ubiquitin chains. Understanding the precise roles of ubiquitin chains, however, is difficult due to their complex chain topologies. Branched ubiquitin chains are particularly challenging, as multiple modifications on a single ubiquitin preclude the use of standard bottom-up proteomic approaches.

Selenocysteine as a Latent Bioorthogonal Electrophilic Probe for Deubiquitylating Enzymes.

Deubiquitylating enzymes (DUBs) remove ubiquitin (Ub) from various cellular proteins and render eukaryotic ubiquitylation a dynamic process. The misregulation of protein ubiquitylation is associated with many human diseases, and there is an urgent need to identify specific DUBs associated with therapeutically relevant targets of Ub. We report the development of two facile selenocysteine-based strategies to generate the DUB probe dehydroalanine (Dha).

Comparison of native and non-native ubiquitin oligomers reveals analogous structures and reactivities.

Ubiquitin (Ub) chains regulate a wide range of biological processes, and Ub chain connectivity is a critical determinant of the many regulatory roles that this post-translational modification plays in cells. To understand how distinct Ub chains orchestrate different biochemical events, we and other investigators have developed enzymatic and non-enzymatic methods to synthesize Ub chains of well-defined length and connectivity. A number of chemical approaches have been used to generate Ub oligomers connected by non-native linkages; however, few studies have examined the extent to which non-native linkages recapitulate the structural and functional properties associated with native isopeptide bonds.