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Published January 1, 2016 | Accepted Version + Supplemental Material
Journal Article Open

Structure of the Sec61 channel opened by a signal sequence

Abstract

Secreted and integral membrane proteins compose up to one-third of the biological proteome. These proteins contain hydrophobic signals that direct their translocation across or insertion into the lipid bilayer by the Sec61 protein–conducting channel. The molecular basis of how hydrophobic signals within a nascent polypeptide trigger channel opening is not understood. Here, we used cryo–electron microscopy to determine the structure of an active Sec61 channel that has been opened by a signal sequence. The signal supplants helix 2 of Sec61α, which triggers a rotation that opens the central pore both axially across the membrane and laterally toward the lipid bilayer. Comparisons with structures of Sec61 in other states suggest a pathway for how hydrophobic signals engage the channel to gain access to the lipid bilayer.

Additional Information

© 2016 American Association for the Advancement of Science. Received 21 September 2015; accepted 20 November 2015. We thank F. de Haas, V. Ragunath, and C. Savva for help with data collection; S. Chen, G. McMullan, J. Grimmett, and T. Darling for technical support; S. Shao for helpful discussions. This work was supported by the UK Medical Research Council (MC_UP_A022_1007 to RSH) and a Wellcome Trust postdoctoral fellowship (R.M.V.). The Cryo-EM map for the engaged ribosome-Sec61 complex has been deposited with the EMDataBank (EMDB-3245). The Protein Data Bank accession number for the engaged Sec61 complex is 3JC2.

Attached Files

Accepted Version - emss-66326.pdf

Supplemental Material - aad4992_Voorhees_SM.pdf

Supplemental Material - aad4992s1.mpg

Supplemental Material - aad4992s2.mpg

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