To define and systematically characterize the human E3 ubiquitin ligase (E3) landscape, we generated the E3-ome, a compendium of E3s encoded by the human genome. The E3-ome integrates experimental data, bioinformatics, and published research, revealing 672 high-confidence E3s. We standardized E3 classifications to create a unified framework for annotation and comparative analysis. The E3-ome identified several previously unrecognized domains, motifs, E3 candidates, and relationships, expanding t
The E3-ome gene-centric compendium reveals the human E3 ligase landscape
Ngee Kiat Chua·Rebecca Feltham·Matthew E. Ritchie·Sharad Kumar·Peter D. Mace·Michael Rapé·Jane Dudley-Fraser·Alex Garnham·Katrin Rittinger·Soon Wei Wong·Nicolas H. Thomä·Richard W. Birkinshaw·Melanie Bahlo·Gilbert G. Privé·Julia K. Pagan·Rachel E. Klevit·Michele Pagano·Cameron J. Reddington·Bernhard C. Lechtenberg·Jacob E. Munro·Ashleigh Solano·Tomasz Kochańczyk·Radosław P. Nowak·Julie Iskander·Hannah Huckstep·Ingrid E. Wertz·David Komander·Jeffrey J. Babon·Waruni Abeysekera·Mark A. Nakasone·Joshua Peter·Florian Aust·Joel P Mackay·Eric S. Fischer·Jiru Han·Sonja Lorenz·Ronald T. Hay·Alessio Ciulli·Brenda A. Schulman·Tania J. González-Robles·Claudio A.P. Joazeiro·Kay Hofmann·Alex N. Bullock·Sarah Hymowitz·R CONAWAY·Yeh Huei Tong·Christopher D. Lima