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Biophysical Journal 63: 1432-1442 (1992)
© 1992 the Biophysical Society
Department of Microbiology and Program in Biophysics, College of Biological Sciences, Ohio State University, Columbus, Ohio 43210 USA
ABSTRACT
Over a decade and a half ago, when the first visible membrane suspension circular dichroic (CD) spectrum of the purple membrane (PM) was presented, two mechanisms were proposed to account for the observed biphasic shaped CD band: (a) excitonic interactions among the retinals of the sole protein bacteriorhodopsin (bR) in the crystalline structure of the PM, and (b) combination of CD bands with opposite rotational strengths due to a retinal-apoprotein heterogeneity of the bR molecules or due to two possible close-lying long-wavelength transitions of the retinal of the bR with opposite rotational strengths. Since that time, an impressive body of experimental and theoretical evidence has been accumulated, mostly consistent with an exciton model but many at serious odds with any heterogeneity or multiple transition model. Recently, a number of articles have appeared reporting analyses of new experimental observations which are proposed to cast serious doubts on the viability of the exciton model, and therefore, may revive the heterogeneity or multiple transition model as an explanation for the unique shape of the CD band of the PM. The intent of this article is to demonstrate that if all observations found in literature baring on this question are considered in toto and in a consistent manner, they can be interpreted without exception by excitons, and furthermore, that there is no plausible evidence available to warrant the revival of the heterogeneity or multiple transition model as an explanation for the unique shape of the biphasic CD band of the PM.
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