Structure of the Mammalian Ribosome-Sec61 Complex to 3.4 Å Resolution

Creators: Voorhees, Rebecca M.; Fernández, Israel S.; Scheres, Sjors H. W.; Hegde, Ramanujan S.

Abstract

Cotranslational protein translocation is a universally conserved process for secretory and membrane protein biosynthesis. Nascent polypeptides emerging from a translating ribosome are either transported across or inserted into the membrane via the ribosome-bound Sec61 channel. Here, we report structures of a mammalian ribosome-Sec61 complex in both idle and translating states, determined to 3.4 and 3.9 Å resolution. The data sets permit building of a near-complete atomic model of the mammalian ribosome, visualization of A/P and P/E hybrid-state tRNAs, and analysis of a nascent polypeptide in the exit tunnel. Unprecedented chemical detail is observed for both the ribosome-Sec61 interaction and the conformational state of Sec61 upon ribosome binding. Comparison of the maps from idle and translating complexes suggests how conformational changes to the Sec61 channel could facilitate translocation of a secreted polypeptide. The high-resolution structure of the mammalian ribosome-Sec61 complex provides a valuable reference for future functional and structural studies.

Additional Information

© 2014 The Authors. Published by Elsevier Inc. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/3.0/). Received 25 April 2014, Revised 14 May 2014, Accepted 20 May 2014, Available online 12 June 2014. We thank Kasim Sader and Vinothkumar Ragunath for help with data collection; Alice Clark for reagents; Tim Stevens for bioinformatic analysis; Christos Savva for help with sample preparation and data collection; Shaoxia Chen, Greg McMullan, Jake Grimmett, and Toby Darling for technical support; and Alan Brown, Garib Murshudov, and Paul Emsley for help with model building and refinement. We are especially grateful to V. Ramakrishnan for advice, support, and critical reading of the manuscript. This work was supported by the UK Medical Research Council (MC_UP_A022_1007 to R.S.H., MC_UP_A025_1013 to S.H.W.S.) and a Wellcome Trust postdoctoral fellowship (R.M.V.). I.S.F. is supported by grants to V. Ramakrishnan including the UK Medical Research Council (MC_U105184332), a Wellcome Trust Senior Investigator award (WT096570), the Agouron Institute, and the Jeantet Foundation. Author Contributions: R.M.V. and R.S.H. conceived the project. R.M.V. prepared and characterized samples, optimized them for EM analysis, and collected data. Particle selection, classification, and generation of initial maps were by R.M.V. with guidance from S.H.W.S. and I.S.F. Ribosome structure building and analysis was done by I.S.F. with help from R.M.V. Analysis of Sec61 structure was by R.M.V. with guidance from R.S.H. R.M.V. and R.S.H. wrote the paper with input from all authors. Accession Numbers: The EMDB accession numbers for the Cryo-EM density maps reported in this paper are 2644, 2646, 2649, and 2650. The Protein Data Bank accession numbers for the structures reported in this paper are 3J71, 3J72, 3J73, 3J74.

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