Title
Archaeal Glycolipid S-TGA-1 Is Crucial for Trimer Formation and Photocycle Activity of Bacteriorhodopsin
Author
Masataka Inada, Masanao Kinoshita, Nobuaki Matsumori
Year
2019
Journal
ACS Chemical Biology
Abstract
Although it has been demonstrated that membrane proteins (MPs) require lipids to ensure their structural and functional integrity, details on how lipid–MP interactions regulate MPs are still unclear. Recently, we developed a concise method for quantitatively evaluating lipid–MP interactions and applied it to bacteriorhodopsin (bR), a halobacterial MP that forms trimers and acts as a light-driven proton pump. Consequently, we found that the halobacterial glycolipid, S-TGA-1, has the highest affinity for bR, among other lipids. In this study, we examined the effects of S-TGA-1 on bR via visible circular dichroism spectroscopy, flash photolysis, and proton influx measurement. The results showed that S-TGA-1 efficiently promotes trimer formation, photocycle, and proton pumping in bR. Our data also suggested that the bR photocycle is restored as a consequence of the trimerization induced by the lipid. This study demonstrates clearly that lipids specifically interacting with MPs can have significant impacts on MP structure and/or function. The methodology adopted in our studies can be applied to other MPs and will help elucidate the physiological functions of lipids in terms of lipid–MP interactions, thus accelerating “lipid chemical biology” studies.
Instrument
J-820, FP-6200
Keywords
Circular dichroism, Chemical stability, Fluorescence, Membrane structure, Protein structure, Biochemistry