Abstract
The circular dichroism (CD) of cytochrome oxidase in solution indicates the presence of both alpha-helix (approximately 37%) and B-sheet (approximately 18%). In oriented films generated by the isopotential spin-dry method, the CD measured normal to the film shows a marked decrease in the negative bands at 222 and 208 nm, and a decrease and red shift in the positive band near 195 nm, relative to solution spectra. These features are characteristic of alpha-helices oriented with their helix axes along the direction of light propagation. A quantitative estimate of the orientation, based on the ratio of the rotational strengths of the 208-nm band in the film and in solution, leads to an average angle between the helix axis and the normal to the film, phi alpha of approximately 39 degrees. A method for analyzing infrared (IR) linear dichroism is developed that can be applied to proteins with comparable amounts of alpha-helix and beta-sheet. From analysis of the amide I band, phi alpha is found to lie between 20 and 36 degrees, depending on the angle that the amide I transition moment forms with the helix axis. A survey of the literature on the amide I transition moment direction indicates that a value of approximately 27 degrees is appropriate for standard alpha-helical systems, such as those in cytochrome oxidase. A larger value, near 40 degrees, is reasonable for systems that have distorted alpha-helices, as evidenced by amide I frequencies above 1,660 cm-1, as is the case of bacteriorhodopsin. This conclusion supports phi alpha approximately 36 degrees from IR linear dichroism, in agreement with the CD results. Linear dichroism in the amide I and amide II region indicates that the beta-sheet in cytochrome oxidase is oriented with the carbonyl groups nearly parallel to the plane of the membrane and the chain direction inclined at approximately 40 degrees to the normal. Comparison of these results with tentative identification of transmembrane helices from sequence data suggests that either some of the transmembrane helices are inclined at an unexpectedly large angle to the normal, or the number of such helices has been overestimated. Some putative transmembrane helices may be beta-strands spanning the membrane.