The kinetics of effector binding to phosphofructokinase. The influence of effectors on the allosteric conformational transition.

1. The extent of the allosteric transition from the R into the T conformation of rabbit skeletal muscle phosphofructokinase induced by Mg2+-1,N6-etheno-ATP was determined by stopped-flow fluorimetry from the amplitude of the slow phase of the Mg2+-1,N6-etheno-ATP fluorescence enhancement [Roberts & Kellet (1979) Biochem. J. 183, 349--360]. 2. The amplitude of the slow phase was decreased by low concentrations of the activators cyclic AMP and fructose 1,6-bisphosphate, but increased in a complex manner by the inhibitor citrate. 3. Mg2+-1,N6-etheno-ATP and Mg2+-ATP are unable to induce the T conformation to a detectable extent in the presence of saturating cyclic AMP, but can do so readily in the presence of saturating fructose 1,6-bisphosphate. 4. The conformational transitions induced in enzyme alone by different ligands were observed by changes in intrinsic protein fluorescence. In general, an R-type conformation has diminished protein fluorescence compared with a T-type conformation. 5. Mg2+-ATP exerts a complex effect on protein fluorescence; both the enhancement at low concentrations and the quenching at high concentrations of Mg2+-ATP result from the binding of Mg2+-ATP to the inhibitory site and the ensuing allosteric transition. Enhancement reflects the extent of the allosteric transition and involves both tyrosine and tryptophan, probably in the region of the active site; quenching reflects occupation of the inhibitory site and involves tyrosine at the inhibitory site. 6. The mechanism of the allosteric transition from the R into the T conformation induced by Mg2+-1,N6-etheno-ATP at low concentrations occurs predominantly by a 'prior-isomerization' pathway; at higher concentrations a limited contribution from a 'substrate-guided' pathway occurs. 7. The allosteric behaviour of phosphofructokinase with respect to Mg2+-ATP and Mg2+-1,N6-ethenol-ATP binding may be accounted for in terms of the simple, concerted model.