PH-DEPENDENCE OF LIGHT-INDUCED PROTON RELEASE BY BACTERIORHODOPSIN

We have measured the current generated by light-activated proton release from bacteriorhodopsin into solution as a function of both pH and ionic strength. We find that proton release into solution decreases with increasing pH with an intrinsic pk(a) of 8.2 +/- 0.2. This pH dependence indicates that the deprotonation of a certain group inhibits or abolishes proton release. Under physiological conditions, this group either releases a proton directly into solution or interacts with the site of proton release. The most immediate candidates for this protonatable species are tyrosine-57, tyrosine-185, arginine-82, and water; acting individually or cooperatively. The salt dependence of the apparent pK(a) of this group also allows us to calculate the surface charge density of about -5 charges per bacteriorhodopsin, compatible with previous estimates.