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Capturing membrane protein ribosome nascent chain complexes in a native-like environment for co-translational studies

Capturing membrane protein ribosome nascent chain complexes in a native-like environment for co-translational studies
Capturing membrane protein ribosome nascent chain complexes in a native-like environment for co-translational studies
Co-translational folding studies of membrane proteins lag behind cytosolic protein investigations largely due to the technical difficulty in maintaining membrane lipid environments for correct protein folding. Stalled ribosome-bound nascent chain complexes (RNCs) can give snapshots of a nascent protein chain as it emerges from the ribosome during biosynthesis. Here, we demonstrate how SecM-facilitated nascent chain stalling and native nanodisc technologies can be exploited to capture in vivo-generated membrane protein RNCs within their native lipid compositions. We reveal that a polytopic membrane protein can be successfully stalled at various stages during its synthesis and the resulting RNC extracted within either detergent micelles or diisobutylene–maleic acid co-polymer native nanodiscs. Our approaches offer tractable solutions for the structural and biophysical interrogation of nascent membrane proteins of specified lengths, as the elongating nascent chain emerges from the ribosome and inserts into its native lipid milieu.
0006-2960
2764–2775
Pellowe, Grant A.
0949e00b-9fa3-4480-a890-bfb563eea3e5
Findlay, Heather E.
2ab00609-1387-4b70-a1f8-bcef3e2770bc
Lee, Karen
207ff4cf-fee4-4a0e-b7c4-e237c4c62a6c
Gemeinhardt, Tim M.
05b5fe49-8aa2-426a-8f1f-5921d9cd44c7
Blackholly, Laura R.
c8063cc4-ec80-40e7-bdd6-af1dd40c43c1
Reading, Eamonn
62fed933-f867-4c72-89e7-83aea573a836
Booth, Paula J.
a0d0a7bc-bcc3-4a2e-973d-0818e81f7795
Pellowe, Grant A.
0949e00b-9fa3-4480-a890-bfb563eea3e5
Findlay, Heather E.
2ab00609-1387-4b70-a1f8-bcef3e2770bc
Lee, Karen
207ff4cf-fee4-4a0e-b7c4-e237c4c62a6c
Gemeinhardt, Tim M.
05b5fe49-8aa2-426a-8f1f-5921d9cd44c7
Blackholly, Laura R.
c8063cc4-ec80-40e7-bdd6-af1dd40c43c1
Reading, Eamonn
62fed933-f867-4c72-89e7-83aea573a836
Booth, Paula J.
a0d0a7bc-bcc3-4a2e-973d-0818e81f7795

Pellowe, Grant A., Findlay, Heather E., Lee, Karen, Gemeinhardt, Tim M., Blackholly, Laura R., Reading, Eamonn and Booth, Paula J. (2020) Capturing membrane protein ribosome nascent chain complexes in a native-like environment for co-translational studies. Biochemistry, 59 (30), 2764–2775. (doi:10.1021/acs.biochem.0c00423).

Record type: Article

Abstract

Co-translational folding studies of membrane proteins lag behind cytosolic protein investigations largely due to the technical difficulty in maintaining membrane lipid environments for correct protein folding. Stalled ribosome-bound nascent chain complexes (RNCs) can give snapshots of a nascent protein chain as it emerges from the ribosome during biosynthesis. Here, we demonstrate how SecM-facilitated nascent chain stalling and native nanodisc technologies can be exploited to capture in vivo-generated membrane protein RNCs within their native lipid compositions. We reveal that a polytopic membrane protein can be successfully stalled at various stages during its synthesis and the resulting RNC extracted within either detergent micelles or diisobutylene–maleic acid co-polymer native nanodiscs. Our approaches offer tractable solutions for the structural and biophysical interrogation of nascent membrane proteins of specified lengths, as the elongating nascent chain emerges from the ribosome and inserts into its native lipid milieu.

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e-pub ahead of print date: 6 July 2020
Published date: 4 August 2020

Identifiers

Local EPrints ID: 478893
URI: http://eprints.soton.ac.uk/id/eprint/478893
DOI: doi:10.1021/acs.biochem.0c00423
ISSN: 0006-2960
PURE UUID: aec301d7-6ad1-48ff-847f-b95e054bdaa1
ORCID for Eamonn Reading: ORCID iD orcid.org/0000-0001-8219-0052

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Date deposited: 12 Jul 2023 16:40
Last modified: 17 Mar 2024 04:19

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Author: Grant A. Pellowe
Author: Heather E. Findlay
Author: Karen Lee
Author: Tim M. Gemeinhardt
Author: Laura R. Blackholly
Author: Eamonn Reading ORCID iD
Author: Paula J. Booth

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