The active-site environment of rhodopsin.

M A Pajares, R R Rando

Index: J. Biol. Chem. 264(12) , 6804-9, (1989)

Full Text: HTML

Abstract

The 11-cis-retinal binding site of rhodopsin is of great interest because it is buried in the membrane but yet must provide an environment for charged amino acids. In addition, the active-site lysine residue must be able to engage in rapid Schiff base formation with 11-cis-retinal at neutral and lower pH values. This requires that this lysine be unprotonated. We have begun to study the environment of the active-site lysine using a reporter group adducted to it. Non-active-site permethylated opsin was reacted with 5-nitrosalicylaldehyde, and the resulting Schiff base was permanently fixed by borohydride reduction. The stoichiometry of incorporation was one. This chromophoric and pH-sensitive reporter group affords information on the active-site environment of rhodopsin by determining the ionization constants of its ionizable groups at different pH values. The pH titration of the modified protein showed a single pKa = 7.8 +/- 0.19 ascribable to the ionization of the phenol. The ionization of the modified lysine residue was not observed at all pH values studied. These studies are interpreted to mean that a negatively charged amino acid is propinquous to the active-site lysine residue and that this latter residue does not have an unusually low pKa.