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The kinetics of protein-fluorescence change when rabbit skeletal myosin subfragment 1 is mixed with ATP or adenosine 5′-(3-thiotriphosphate) in the presence of Mg2+ are incompatible with a simple bimolecular association process. A substrate-induced conformation change with ΔG0-24kJ·mol-1 (i.e. ΔG0 could be more negative) at pH8 and 21°C is proposed as the additional step in the binding of ATP. The postulated binding mechanism is M+ATP⇌M·ATP⇌M*·ATP, where the association constant for the first step, K1, is 4.5×103m-1 at I 0.14m and the rate of isomerization is 400s-1. In the presence of Mg2+, ADP binds in a similar fashion to ATP, the rate of the conformation change also being 400s-1, but with ΔG0 for that process being -14kJ·mol-1. The effect of increasing ionic strength is to decrease K1, the kinetics of the conformation change being essentially unaltered. Alternative schemes involving a two-step binding process for ATP to subfragment 1 are possible. These are not excluded by the experimental results, although they are perhaps less likely because they imply uncharacteristically slow bimolecular association rate constants.
Bagshaw et al. (Thu,) studied this question.
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