Kärt Denks scite author profile

Protein transport via the Sec translocon represents an evolutionary conserved mechanism for delivering cytosolically-synthesized proteins to extra-cytosolic compartments. The Sec translocon has a three-subunit core, termed Sec61 in Eukaryotes and SecYEG in Bacteria. It is located in the endoplasmic reticulum of Eukaryotes and in the cytoplasmic membrane of Bacteria where it constitutes a channel that can be activated by multiple partner proteins. These partner proteins determine the mechanism of polypeptide movement across the channel. During SRP-dependent co-translational targeting, the ribosome threads the nascent protein directly into the Sec channel. This pathway is in Bacteria mainly dedicated for membrane proteins but in Eukaryotes also employed by secretory proteins. The alternative pathway, leading to post-translational translocation across the Sec translocon engages an ATP-dependent pushing mechanism by the motor protein SecA in Bacteria and a ratcheting mechanism by the lumenal chaperone BiP in Eukaryotes. Protein transport and biogenesis is also assisted by additional proteins at the lateral gate of SecY/Sec61α and in the lumen of the endoplasmic reticulum or in the periplasm of bacterial cells. The modular assembly enables the Sec complex to transport a vast array of substrates. In this review we summarize recent biochemical and structural information on the prokaryotic and eukaryotic Sec translocons and we describe the remarkably complex interaction network of the Sec complexes.

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Dual function of GTPBP6 in biogenesis and recycling of human mitochondrial ribosomes

Lavdovskaia

Denks

Nadler³

et al. 2020

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Translation and ribosome biogenesis in mitochondria require auxiliary factors that ensure rapid and accurate synthesis of mitochondrial proteins. Defects in translation are associated with oxidative phosphorylation deficiency and cause severe human diseases, but the exact roles of mitochondrial translation-associated factors are not known. Here we identify the functions of GTPBP6, a homolog of the bacterial ribosome-recycling factor HflX, in human mitochondria. Similarly to HflX, GTPBP6 facilitates the dissociation of ribosomes in vitro and in vivo. In contrast to HflX, GTPBP6 is also required for the assembly of mitochondrial ribosomes. GTPBP6 ablation leads to accumulation of late assembly intermediate(s) of the large ribosomal subunit containing ribosome biogenesis factors MTERF4, NSUN4, MALSU1 and the GTPases GTPBP5, GTPBP7 and GTPBP10. Our data show that GTPBP6 has a dual function acting in ribosome recycling and biogenesis. These findings contribute to our understanding of large ribosomal subunit assembly as well as ribosome recycling pathway in mitochondria.

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The signal recognition particle contacts uL23 and scans substrate translation inside the ribosomal tunnel

et al. 2017

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The signal recognition particle (SRP) delivers ∼25% of all bacterial proteins to the membrane for cotranslational insertion. However, a comprehensive model on how the low-abundant SRP scans the vast number of translating ribosomes to identify the correct substrates is lacking. Here, we show that the C-terminal helix of the signal-sequence-binding domain of SRP penetrates into the ribosomal tunnel and contacts the intra-tunnel loop of ribosomal protein uL23. This allows SRP to obtain information about the translational status of the ribosome and possibly the character of the approaching nascent chain. Correct substrates reposition the C-terminal helix of SRP, which facilitates stable binding of the signal sequence by the M-domain of SRP. Thus, SRP already surveys translating ribosomes before the signal sequence is surface exposed. This early interaction probably enables the small number of SRP molecules to scan many ribosomes and to initiate efficient targeting of proper substrates.

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Kärt Denks

Protein translocation across the inner membrane of Gram-negative bacteria: the Sec and Tat dependent protein transport pathways

The Sec translocon mediated protein transport in prokaryotes and eukaryotes

Dual function of GTPBP6 in biogenesis and recycling of human mitochondrial ribosomes

The signal recognition particle contacts uL23 and scans substrate translation inside the ribosomal tunnel

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