Bacterial reaction centers purified with styrene maleic acid copolymer retain native membrane functional properties and display enhanced stability
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Publication date
2014-10-27
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Abstract
Integral membrane proteins often present daunting challenges for biophysical characterization, a fundamental issue being how to select a surfactant that will optimally preserve the individual structure and functional properties of a given membrane protein. Bacterial reaction centers offer a rare opportunity to compare the properties of an integral membrane protein in different artificial lipid/surfactant environments with those in the native bilayer. Here, we demonstrate that reaction centers purified using a styrene maleic acid copolymer remain associated with a complement of native lipids and do not display the modified functional properties that typically result from detergent solubilization. Direct comparisons show that reaction centers are more stable in this copolymer/lipid environment than in a detergent micelle or even in the native membrane, suggesting a promising new route to exploitation of such photovoltaic integral membrane proteins in device applications.
Keywords
Detergents, Membrane proteins, Nanodiscs, Reaction centers, Styrene maleic acid, General Chemistry, Catalysis, SDG 7 - Affordable and Clean Energy
Citation
Swainsbury, D J K, Scheidelaar, S, Van Grondelle, R, Killian, J A & Jones, M R 2014, 'Bacterial reaction centers purified with styrene maleic acid copolymer retain native membrane functional properties and display enhanced stability', Angewandte Chemie - International Edition, vol. 53, no. 44, pp. 11803-11807. https://doi.org/10.1002/anie.201406412