Relation between Ultra-Violet Spectral Change and Nucleotide Binding of the Chloroplast Coupling Factor 1

Properties of the nucleotide binding sites on chloroplast couplingfactor 1 (CF₁) were studied by equilibrium dialysis and UV spectroscopy.From our direct binding studies, we identified at least fourkinds of ADP binding sites on CF₁; a barely dissociable ADPbinding site (site A), a slowly exchangeable high affinity sitewith dissociation constant (Kd) 0.021 µM (site B), anotherslowly exchangeable high affinity site with Kd 1.6 µM(site C) and several low affinity (Kd {small tilde}30 µM)sites. The Kd values for sites B and C of the other nucleotidestested were 0.5 µM and 16 µM (GDP), 8 µM and34 µM (CDP), 17 µM and 20 µM (UDP) and 1.4µM and 1.4 µM (PP₁). From a comparison of the observed UV spectral change and theamount of nucleotide bound to these sites, as calculated fromthe above Kd values, we concluded that the nucleotide bindingto site B or G induces UV spectral changes that are almost thesame in shape and magnitude. The estimated difference molarabsorption coefficient () was 3.4?10³M^–1_ADP cm^–1for ADP at 278 nm. Our conclusions were strengthened by thegood agreement between the observed spectra and the calculatedspectra (derived from the Kd and values of ADP and GDP) whenADP and GDP were added together to CF₁. The cause of the unusual behavior of GDP in the UV differencespectrum which was unexplained in our previous report was shownto be competition between the GDP added and previously boundADP at sites B and C; this distorted the real spectrum inducedby GDP. (Received October 3, 1983; Accepted February 13, 1984)