Marko Gogala scite author profile

The biogenesis of secretory as well as transmembrane proteins requires the activity of the universally conserved protein-conducting channel (PCC), the Sec61 complex (SecY complex in bacteria). In eukaryotic cells the PCC is located in the membrane of the endoplasmic reticulum where it can bind to translating ribosomes for co-translational protein transport. The Sec complex consists of three subunits (Sec61α, β and γ) and provides an aqueous environment for the translocation of hydrophilic peptides as well as a lateral opening in the Sec61α subunit that has been proposed to act as a gate for the membrane partitioning of hydrophobic domains. A plug helix and a so-called pore ring are believed to seal the PCC against ion flow and are proposed to rearrange for accommodation of translocating peptides. Several crystal and cryo-electron microscopy structures revealed different conformations of closed and partially open Sec61 and SecY complexes. However, in none of these samples has the translocation state been unambiguously defined biochemically. Here we present cryo-electron microscopy structures of ribosome-bound Sec61 complexes engaged in translocation or membrane insertion of nascent peptides. Our data show that a hydrophilic peptide can translocate through the Sec complex with an essentially closed lateral gate and an only slightly rearranged central channel. Membrane insertion of a hydrophobic domain seems to occur with the Sec complex opening the proposed lateral gate while rearranging the plug to maintain an ion permeability barrier. Taken together, we provide a structural model for the basic activities of the Sec61 complex as a protein-conducting channel.

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Structure of the mammalian oligosaccharyl-transferase complex in the native ER protein translocon

Pfeffer

et al. 2014

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In mammalian cells, proteins are typically translocated across the endoplasmic reticulum (ER) membrane in a co-translational mode by the ER protein translocon, comprising the proteinconducting channel Sec61 and additional complexes involved in nascent chain processing and translocation. As an integral component of the translocon, the oligosaccharyl-transferase complex (OST) catalyses co-translational N-glycosylation, one of the most common protein modifications in eukaryotic cells. Here we use cryoelectron tomography, cryoelectron microscopy single-particle analysis and small interfering RNA-mediated gene silencing to determine the overall structure, oligomeric state and position of OST in the native ER protein translocon of mammalian cells in unprecedented detail. The observed positioning of OST in close proximity to Sec61 provides a basis for understanding how protein translocation into the ER and glycosylation of nascent proteins are structurally coupled. The overall spatial organization of the native translocon, as determined here, serves as a reliable framework for further hypothesis-driven studies.

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Cryo-EM of the Sec61-complex bound to the idle 80S ribosome

Gogala¹,

Becker²,

Beatrix³

et al. 2014

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Cryo-em of the Sec61-complex bound to the 80s ribosome translating a membrane-inserting substrate

Gogala¹,

Becker²,

Beatrix³

et al. 2014

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Cryo-EM of the Sec61-complex bound to the 80S ribosome translating a secretory substrate

Gogala¹,

Becker²,

Beatrix³

et al. 2014

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Marko Gogala

Structures of the Sec61 complex engaged in nascent peptide translocation or membrane insertion

Structure of the mammalian oligosaccharyl-transferase complex in the native ER protein translocon

Cryo-EM of the Sec61-complex bound to the idle 80S ribosome

Cryo-em of the Sec61-complex bound to the 80s ribosome translating a membrane-inserting substrate

Cryo-EM of the Sec61-complex bound to the 80S ribosome translating a secretory substrate

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