Thermal melt circular dichroism spectroscopic studies for identifying stabilising amphipathic molecules for the voltage‐gated sodium channel NavMs

Purified integral membrane proteins require amphipathic molecules to maintain their solubility in aqueous solutions. These complexes, in turn, are used in studies to characterise the protein structures by a variety of biophysical and structural techniques, including spectroscopy, crystallography, an...

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Bibliographic Details
Published in:Biopolymers 2018-08, Vol.109 (8), p.e23067-n/a
Main Authors: Ireland, Sam M., Sula, Altin, Wallace, B.A.
Format: Article
Language:English
Subjects:
amphipols
Bacterial Proteins - chemistry
circular dichroism spectroscopy
Crystallography, X-Ray
detergents
membrane proteins
Original
Protein Domains
thermal stability
Voltage-Gated Sodium Channels - chemistry
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Summary:Purified integral membrane proteins require amphipathic molecules to maintain their solubility in aqueous solutions. These complexes, in turn, are used in studies to characterise the protein structures by a variety of biophysical and structural techniques, including spectroscopy, crystallography, and cryo‐electron microscopy. Typically the amphilphiles used have been detergent molecules, but more recently they have included amphipols, which are polymers of different sizes and compositions designed to create smaller, more well‐defined solubilised forms of the membrane proteins. In this study we used circular dichroism spectroscopy to compare the secondary structures and thermal stabilities of the NavMs voltage‐gated sodium channel in different amphipols and detergents as a means of identifying amphipathic environments that maximally maintain the protein structure whilst providing a stabilising environment. These types of characterisations also have potential as means of screening for sample types that may be more suitable for crystallisation and/or cryo‐electron microscopy structure determinations.
ISSN:0006-3525
1097-0282
DOI:10.1002/bip.23067