Effect of Packing Density on Rhodopsin Stability and Function in Polyunsaturated Membranes

doi:10.1529/biophysj.105.061812

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Biophys. J. BioFAST: First Published June 24, 2005. doi:10.1529/biophysj.105.061812
© 2005 by the Biophysical Society.

A more recent version of this article appeared on September 1, 2005.

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MEMBRANES

Effect of Packing Density on Rhodopsin Stability and Function in Polyunsaturated Membranes

Shui-Lin Niu ¹^* and Drake Mitchell ¹

¹ National Institutes of Health

^* To whom correspondence should be addressed. E-mail: sniu{at}niaaa.nih.gov.

Submitted on March 16, 2005
Revised on April 22, 2005
Accepted on 15 June 2005

Abstract
Rod outer segment disk membranes are densely packed with rhodopsin.The recent notion of raft or microdomain structures in diskmembranes suggests that the local density of rhodopsin in diskmembranes could be much higher than the average density correspondingto the lipid to protein ratio. Little is known about the effectof high packing density of rhodopsin on the structure and functionof rhodopsin and lipid membranes. Here we examined the roleof rhodopsin packing density on membrane dynamic properties,membrane acyl chain packing, as well as the structural stabilityand function of rhodopsin using a combination of biophysicaland biochemical techniques. We reconstituted rhodopsin intolarge unilamellar vesicles consisting of polyunsaturated 18:0,22:6n3PC,which approximates the polyunsaturated nature of phospholipidsin disk membranes, with rhodopsin-to-lipid ratios ranging from1:422 to 1:40. Our results showed that increased rhodopsin packingdensity led to reduced membrane dynamics revealed by the fluorescentprobe DPH, increased phospholipid acyl chain packing and reducedrhodopsin activation, yet it had minimal impact on the structuralstability of rhodopsin. These observations imply that denselypacked rhodopsin may impede the diffusion and conformationalchanges of rhodopsin, which could reduce the speed of visualtransduction.

Key Words: DPH fluorescence, calorimetry, lipid-protein interaction, membrane free volume, metarhodopsin I and metarhodopsin II equilibrium, rhodopsin

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