Journal article
Insights into ubiquitin chain architecture using Ub-clipping
KN Swatek, JL Usher, AF Kueck, C Gladkova, TET Mevissen, JN Pruneda, T Skern, D Komander
Nature | Published : 2019
Abstract
Protein ubiquitination is a multi-functional post-translational modification that affects all cellular processes. Its versatility arises from architecturally complex polyubiquitin chains, in which individual ubiquitin moieties may be ubiquitinated on one or multiple residues, and/or modified by phosphorylation and acetylation1–3. Advances in mass spectrometry have enabled the mapping of individual ubiquitin modifications that generate the ubiquitin code; however, the architecture of polyubiquitin signals has remained largely inaccessible. Here we introduce Ub-clipping as a methodology by which to understand polyubiquitin signals and architectures. Ub-clipping uses an engineered viral proteas..
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Awarded by Gates Cambridge Trust
Funding Acknowledgements
We thank M. Skehel, S. Maslen, A. Webb, W. Harper and A. Ordureau for reagents, help and discussion on mass spectrometry, and members of the D.K. laboratory for reagents and discussions. We are grateful for the support of B. Schulman, M. Mann and the Max Planck Institute in the final stages of manuscript preparation. This work was supported by the Medical Research Council (U105192732), the European Research Council (724804), the Lister Institute for Preventive Medicine (D.K.), and grants P 24038 and P 28183 from the Austrian Science Fund (T.S.). J.L.U. is funded by a Gates Cambridge Scholarship.