J. Biol. Chem., Vol. 262, Issue 16, 7686-7692, Jun, 1987

Loss of unisite and multisite catalyses by Escherichia coli F1 through modification with adenosine tri- or tetraphosphopyridoxal

T Noumi, M Tagaya, K Miki-Takeda, M Maeda, T Fukui and M Futai

Pyridoxal phosphate (PLP) and adenosine diphospho (AP2-PL)-, triphospho (AP3-PL)-, and tetraphospho (AP4-PL)-pyridoxals (Tagaya, M., and Fukui, T. (1986) Biochemistry 25, 2958-2964) were tested as potential affinity probes for F1 ATPase of Escherichia coli. Both AP3-PL and AP4-PL bound and inhibited F1 ATPase, whereas PLP and AP2-PL were weak inhibitors. The concentrations of AP3-PL and AP4-PL for half-maximal inactivations of the multisite (steady state) ATPase activity were both 18 microM. The binding of these reagents to a reactive lysyl residue(s) was confirmed from the difference absorption spectra, and the stoichiometry of binding of [3H]AP3-PL to F1 at the saturating level was about 1 mol/mol F1. The analogue bound to both the alpha subunit (about two- thirds of the radioactivity) and the beta subunit (about one-third of the radioactivity). No inactivation of multisite ATPase activity or binding of AP3-PL was observed in the presence of ATP. F1 modified with about one mol of AP3-PL had essentially no uni- and multisite hydrolysis of ATP. The rate of binding of ATP decreased to 10(-2) of that of unmodified F1, and the rate of release of ATP was about two times faster. The equilibrium F1 X ATP in equilibrium F1 X ADP X Pi was shifted toward F1 X ATP, and no promotion of ATP hydrolysis at unisite was observed with excess ATP. These results suggest that the AP3-PL or AP4-PL bound to an active site, and catalysis by the two remaining sites was completely abolished.
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