Cell-free synthesis strategies to probe co-translational folding of proteins within lipid membranes
Cell-free synthesis strategies to probe co-translational folding of proteins within lipid membranes
In order to comprehend the molecular basis of transmembrane protein biogenesis, methods are required that are capable of investigating the co-translational folding of these hydrophobic proteins. Equally, in artificial cell studies, controllable methods are desirable for in situ synthesis of membrane proteins that then direct reactions in the synthetic cell membrane. Here we describe a method that exploits cell-free expression systems and tunable membrane mimetics to facilitate co-translational studies. Alteration of the lipid bilayer composition improves the efficiency of the folding system. The approach also enables membrane transport proteins to be made and inserted into artificial cell platforms such as droplet interface bilayers. Importantly, this gives a new facet to the droplet networks by enabling specific transport of molecules across the synthetic bilayer against a concentration gradient. This method also includes a protocol to pause and restart translation of membrane proteins at specified positions during their co-translational folding. This stop–start strategy provides an avenue to investigate whether the proteins fold in sequence order, or if the correct fold of N-terminal regions is reliant on the synthesis of downstream residues.
Active transport, Artificial cells, Cell-free transcription/translation, In vitro co-translational folding, Lipid bilayers, Membrane proteins, Translation pausing
273-292
Harris, Nicola J.
8c8a57c7-dca7-467c-9d8f-80ba8b69971c
Reading, Eamonn
62fed933-f867-4c72-89e7-83aea573a836
Booth, Paula J.
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5 January 2022
Harris, Nicola J.
8c8a57c7-dca7-467c-9d8f-80ba8b69971c
Reading, Eamonn
62fed933-f867-4c72-89e7-83aea573a836
Booth, Paula J.
a0d0a7bc-bcc3-4a2e-973d-0818e81f7795
Harris, Nicola J., Reading, Eamonn and Booth, Paula J.
(2022)
Cell-free synthesis strategies to probe co-translational folding of proteins within lipid membranes.
In,
Karim, Ashty S. and Jewett, Michael C.
(eds.)
Cell-Free Gene Expression: Methods and Protocols.
(Methods in Molecular Biology, 2433)
Humana New York, .
(doi:10.1007/978-1-0716-1998-8_17).
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Book Section
Abstract
In order to comprehend the molecular basis of transmembrane protein biogenesis, methods are required that are capable of investigating the co-translational folding of these hydrophobic proteins. Equally, in artificial cell studies, controllable methods are desirable for in situ synthesis of membrane proteins that then direct reactions in the synthetic cell membrane. Here we describe a method that exploits cell-free expression systems and tunable membrane mimetics to facilitate co-translational studies. Alteration of the lipid bilayer composition improves the efficiency of the folding system. The approach also enables membrane transport proteins to be made and inserted into artificial cell platforms such as droplet interface bilayers. Importantly, this gives a new facet to the droplet networks by enabling specific transport of molecules across the synthetic bilayer against a concentration gradient. This method also includes a protocol to pause and restart translation of membrane proteins at specified positions during their co-translational folding. This stop–start strategy provides an avenue to investigate whether the proteins fold in sequence order, or if the correct fold of N-terminal regions is reliant on the synthesis of downstream residues.
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Published date: 5 January 2022
Keywords:
Active transport, Artificial cells, Cell-free transcription/translation, In vitro co-translational folding, Lipid bilayers, Membrane proteins, Translation pausing
Identifiers
Local EPrints ID: 478832
URI: http://eprints.soton.ac.uk/id/eprint/478832
PURE UUID: f24e91fd-727e-4338-bd65-cd5b41b926e0
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Date deposited: 11 Jul 2023 17:02
Last modified: 17 Mar 2024 04:19
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Contributors
Author:
Nicola J. Harris
Author:
Eamonn Reading
Author:
Paula J. Booth
Editor:
Ashty S. Karim
Editor:
Michael C. Jewett
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