We have investigated the structure of the mitochondrial F1-ATPase inhibitor protein from ox heart by using a differential trace-labelling method. This method has also been used to determine sites on the inhibitor protein involved in binding to both the isolated mitochondrial ATPase (F1) and to a specific anti-inhibitor antibody. Native, free inhibitor was trace-labelled on its lysine and serine residues with [14C]acetic anhydride, and inhibitor protein unfolded in guanidinium chloride or specifically bound to another protein, with [3H]acetic anhydride. Exposure/concealment of residues was deduced from the 14C/3H ratios of the peptides in a proteolytic digest of the inhibitor, after separation by h.p.l.c. None of the lysine or serine residues in the native inhibitor are as exposed as in the unfolded form. There is a gradient of reactivity, with residues 54-58 being most concealed and exposure increasing towards either end of the protein. A slight decrease in reactivity is noted in residues 1-3, suggesting that the N-terminus may be in a fairly restricted environment. These findings are discussed in the light of the predicted structure of the inhibitor protein. All but one of the labelled residues increases in reactivity when inhibitor protein binds to F1. The exception, Lys-24, is only slightly concealed. Hence, F1 binding appears not to involve the lysine or serine residues directly. This finding is consistent with the view that the F1-inhibitor interaction is hydrophobic in nature. Complementary information was provided using an anti-inhibitor antibody that binds to a site on the inhibitor different from that at which F1 binds. Binding of this antibody conceals residues 54, 58, and 65 considerably. This confirms that F1 does not interact with these hydrophilic residues on the inhibitor protein.
Regulation of the synthesis and hydrolysis of ATP by mitochondrial ATPase. Role of the natural ATPase inhibitor protein.
