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      The interaction network of the YidC insertase with the SecYEG translocon, SRP and the SRP receptor FtsY

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          Abstract

          YidC/Oxa1/Alb3 are essential proteins that operate independently or cooperatively with the Sec machinery during membrane protein insertion in bacteria, archaea and eukaryotic organelles. Although the interaction between the bacterial SecYEG translocon and YidC has been observed in multiple studies, it is still unknown which domains of YidC are in contact with the SecYEG translocon. By in vivo and in vitro site-directed and para-formaldehyde cross-linking we identified the auxiliary transmembrane domain 1 of E. coli YidC as a major contact site for SecY and SecG. Additional SecY contacts were observed for the tightly packed globular domain and the C1 loop of YidC, which reveals that the hydrophilic cavity of YidC faces the lateral gate of SecY. Surprisingly, YidC-SecYEG contacts were only observed when YidC and SecYEG were present at about stoichiometric concentrations, suggesting that the YidC-SecYEG contact in vivo is either very transient or only observed for a very small SecYEG sub-population. This is different for the YidC-SRP and YidC-FtsY interaction, which involves the C1 loop of YidC and is efficiently observed even at sub-stoichiometric concentrations of SRP/FtsY. In summary, our data provide a first detailed view on how YidC interacts with the SecYEG translocon and the SRP-targeting machinery.

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          X-ray structure of a protein-conducting channel.

          Bert van den Berg, William M Clemons, Ian Collinson (2004)
          A conserved heterotrimeric membrane protein complex, the Sec61 or SecY complex, forms a protein-conducting channel, allowing polypeptides to be transferred across or integrated into membranes. We report the crystal structure of the complex from Methanococcus jannaschii at a resolution of 3.2 A. The structure suggests that one copy of the heterotrimer serves as a functional translocation channel. The alpha-subunit has two linked halves, transmembrane segments 1-5 and 6-10, clamped together by the gamma-subunit. A cytoplasmic funnel leading into the channel is plugged by a short helix. Plug displacement can open the channel into an 'hourglass' with a ring of hydrophobic residues at its constriction. This ring may form a seal around the translocating polypeptide, hindering the permeation of other molecules. The structure also suggests mechanisms for signal-sequence recognition and for the lateral exit of transmembrane segments of nascent membrane proteins into lipid, and indicates binding sites for partners that provide the driving force for translocation.
          Article 0 comments Cited 277 times – based on 0 reviews     Review now
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            Identification of cross-linked peptides from complex samples.

            Bing Yang, Yan-Jie Wu, Ming Zhu (2012)
            We have developed pLink, software for data analysis of cross-linked proteins coupled with mass-spectrometry analysis. pLink reliably estimates false discovery rate in cross-link identification and is compatible with multiple homo- or hetero-bifunctional cross-linkers. We validated the program with proteins of known structures, and we further tested it on protein complexes, crude immunoprecipitates and whole-cell lysates. We show that it is a robust tool for protein-structure and protein-protein-interaction studies.
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              Structure of a complex of the ATPase SecA and the protein-translocation channel.

              Jochen Zimmer, Yunsun Nam, Tom Rapoport (2008)
              Most proteins are secreted from bacteria by the interaction of the cytoplasmic SecA ATPase with a membrane channel, formed by the heterotrimeric SecY complex. Here we report the crystal structure of SecA bound to the SecY complex, with a maximum resolution of 4.5 ångström (A), obtained for components from Thermotoga maritima. One copy of SecA in an intermediate state of ATP hydrolysis is bound to one molecule of the SecY complex. Both partners undergo important conformational changes on interaction. The polypeptide-cross-linking domain of SecA makes a large conformational change that could capture the translocation substrate in a 'clamp'. Polypeptide movement through the SecY channel could be achieved by the motion of a 'two-helix finger' of SecA inside the cytoplasmic funnel of SecY, and by the coordinated tightening and widening of SecA's clamp above the SecY pore. SecA binding generates a 'window' at the lateral gate of the SecY channel and it displaces the plug domain, preparing the channel for signal sequence binding and channel opening.
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                Author and article information

                Contributors
                Hans-Georg Koch:
                ORCID: http://orcid.org/0000-0001-5913-0334
                Hans-Georg.Koch@biochemie.uni-freiburg.de
                Journal
                Journal ID (nlm-ta): Sci Rep
                Journal ID (iso-abbrev): Sci Rep
                Title: Scientific Reports
                Publisher: Nature Publishing Group UK (London )
                ISSN (Electronic): 2045-2322
                Publication date (Electronic): 12 January 2018
                Publication date PMC-release: 12 January 2018
                Publication date Collection: 2018
                Volume: 8
                Electronic Location Identifier: 578
                Affiliations
                [1 ]GRID grid.5963.9, Institute of Biochemistry and Molecular Biology, , ZBMZ, Faculty of Medicine, Albert-Ludwigs-University Freiburg, ; 79104 Freiburg, Germany
                [2 ]GRID grid.5963.9, Faculty of Biology, , Albert-Ludwigs-University Freiburg, ; 79104 Freiburg, Germany
                [3 ]GRID grid.5963.9, Institute of Biology II, , Biochemistry – Functional Proteomics, Faculty of Biology, Albert-Ludwigs-University Freiburg, ; 79104 Freiburg, Germany
                [4 ]GRID grid.5963.9, BIOSS Centre for Biological Signalling Studies, , Albert-Ludwigs-University Freiburg, ; 79104 Freiburg, Germany
                Author information
                http://orcid.org/0000-0002-2043-5795
                http://orcid.org/0000-0001-5913-0334
                Article
                Publisher ID: 19019
                DOI: 10.1038/s41598-017-19019-w
                PMC ID: 5766551
                PubMed ID: 29330529
                SO-VID: 4ea15e8b-7e1a-49c2-89fd-040f7e730ea3
                Copyright © © The Author(s) 2018
                License:

                Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/.

                History
                Date received : 30 August 2017
                Date accepted : 20 December 2017
                Categories
                Subject: Article
                Custom metadata
                issue-copyright-statement © The Author(s) 2018

                ScienceOpen disciplines: Uncategorized
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