Abstract
Incorporating membrane proteins into membrane mimicking systems is an essential process for biophysical studies and structure determination. Monodisperse lipid nanodiscs have been found to be a suitable tool, as they provide a near-native lipid bilayer environment. Recently, a covalently circularized nanodisc (cND) assembled with a membrane scaffold protein (MSP) in circular form, instead of conventional linear form, has emerged. Covalently circularized nanodiscs have been shown to have improved stability, however the optimal strategies for the incorporation of membrane proteins, as well as the physicochemical properties of the membrane protein embedded in the cND, have not been studied. Bacteriorhodopsin (bR) is a seven-transmembrane helix (7TM) membrane protein, and it forms a two dimensional crystal consisting of trimeric bR on the purple membrane of halophilic archea. Here it is reported that the bR trimer in its active form can be directly incorporated into a cND from its native purple membrane. Furthermore, the assembly conditions of the native purple membrane nanodisc (PMND) were optimized to achieve homogeneity and high yield using a high sodium chloride concentration. Additionally, the native PMND was demonstrated to have the ability to assemble over a range of different pHs, suggesting flexibility in the preparation conditions. The native PMND was then found to not only preserve the trimeric structure of bR and most of the native lipids in the PM, but also maintained the photocycle function of bR. This suggests a promising potential for assembling a cND with a 7TM membrane protein, extracted directly from its native membrane environment, while preserving the protein conformation and lipid composition.
Highlights
It has been established that a purified, detergent solubilized bacterial chemotactic receptor from Escherichia coli can be successfully reconstituted into a nanodisc composed of E. coli lipid extracts[15]
It was demonstrated that circular MSP1E3D1 could extract bR from purple membrane (PM) to form purple membrane nanodisc (PMND) more efficiently than the linear version without undesirable bR aggregation (Fig. 2)
Compared to the elution profile of the nanodisc made with the linear MSP1E3D1, the peak of the nanodisc made with circular MSP1E3D1 (cE3D1) was more symmetrical and had less undesirable aggregations
Summary
Vivien Yeh[1,3], Tsung-Yen Lee[2], Chung-Wen Chen[1], Pai-Chia Kuo[4], Jessie Shiue[4], Li-Kang Chu2 & Tsyr-YanYu 1. BR has previously been reported to incorporate into lipid nanodiscs; the studies were done using synthetic lipids and including solubilizing bR with detergent before nanodisc assembly[5,8,9,29,30] By observing these photocycle intermediates initiated by a pulsed laser, we showed that the function and activity of membrane protein embedded in the nanodisc, assembled directly from the native membrane, were able to be maintained. The native purple membrane nanodisc (PMND) does not require the target protein to be previously isolated and solubilized, nor does it require additional synthetic lipids or lipid extracts. The experiment was performed at the Genomic Research Centre at Academia Sinica, Taipei, Taiwan
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