Abstract

The insertion of membrane proteins requires proteinaceous complexes in the cytoplasm, the membrane, and the lumen of organelles. Most of the required complexes have been described, while the components for insertion of β‐barrel‐type proteins into the outer membrane of chloroplasts remain unknown. The same holds true for the signals required for the insertion of β‐barrel‐type proteins. At present, only the processing of Toc75‐III, the β‐barrel‐type protein of the central chloroplast translocon with an atypical signal, has been explored in detail. However, it has been debated whether Toc75‐V/ outer envelope protein 80 (OEP80), a second protein of the same family, contains a signal and undergoes processing. To substantiate the hypothesis that Toc75‐V/OEP80 is processed as well, we reinvestigated the processing in a protoplast‐based assay as well as in native membranes. Our results confirm the existence of a cleavable segment. By protease protection and pegylation, we observed intermembrane space localization of the soluble N‐terminal domain. Thus, Toc75‐V contains a cleavable N‐terminal signal and exposes its polypeptide transport‐associated domains to the intermembrane space of plastids, where it likely interacts with its substrates.

Highlights

  • The insertion of membrane proteins requires proteinaceous complexes in the cytoplasm, the membrane, and the lumen of organelles

  • The protein contains three POTRA domains as well, which are expected to Abbreviations OEP, outer envelope protein; OEV, chloroplast outer envelope membrane vesicles; POTRA, polypeptide transport-associated; TIC, translocon of the inner envelope of chloroplast; TOC, translocon of the outer envelope of chloroplast

  • Toc75-V is processed upon transport into chloroplasts

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Summary

Introduction

The insertion of membrane proteins requires proteinaceous complexes in the cytoplasm, the membrane, and the lumen of organelles. Only the processing of Toc75-III, the b-barrel-type protein of the central chloroplast translocon with an atypical signal, has been explored in detail. It has been debated whether Toc75-V/ outer envelope protein 80 (OEP80), a second protein of the same family, contains a signal and undergoes processing. The central component of the TOC translocon is Toc, which forms a b-barrel-type protein translocation channel and contains three N-terminal soluble polypeptide transport-associated (POTRA). After the genome of Arabidopsis thaliana became available, three genes were identified to code for members of the Toc protein family involved in the precursor protein translocation across membranes annotated as Toc75-I, Toc75-III, and Toc75-IV [7]. A recent study revealed that P39 (SP2) might be the conducting component of a retro-translocon, which seems to facilitate the extraction of ubiquitinated TOC proteins from the outer membrane for proteasomal degradation in the cytosol [21]

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