G. Berger et al., Use of HPLC for the study of ADP binding to chloroplast ATPase. II. Its effect on enzymatic activity, J LIQ CHR R, 23(11), 2000, pp. 1639-1655
The binding of ADP to chloroplast ATPase (CF1) has been measured by the chr
omatographic method of Hummel and Dreyer which allows low affinity binding
determinations. Besides about 1.5 endogenous ADP molecules that are irrever
sibly bound to CF1 or slowly exchangeable in the experimental conditions, A
DP binds to CF1 in the presence of Mg2+ with an apparent unique dissociatio
n constant of 64 mu M, up to a total of 6 +/- 0.5 moles/mole, when Mg2+ is
in excess over ADP. Under these conditions, the major part of the bound nuc
leotide is in the metal complexed form. Metal free ADP also binds to CF1, w
ith a dissociation constant of 5 to 15 mu M, measured by competitive inhibi
tion of ATPase activity, at low Mg2+ concentration.
ADP and ATP appear to bind competitively on CF1 the extent of binding of ea
ch nucleotide can be shown and measured by the chromatographic method of Hu
mmel and Dreyer, using an anion exchange column which separates ADP from AT
P. The fractions of each nucleotide have been calculated, using the dissoci
ation constants determined in the conditions of the measurement.