Abstract
We have studied the binding of β,γ-imido-adenosine-5′-triphosphate to glycerol-extracted insect flight and rabbit back muscle fibres. The binding was at relatively high affinity, of the same quantity as that of other nucleotides, and was inhibited by the presence of ATP. We concluded that imido-ATP bound, without hydrolysis, at the enzymic site of myosin. The mechanical effects of imido-ATP on the glycerol-extracted fibres were measured: concentrations sufficient to bind to myosin caused a small increase in the length of the rigor muscle for a given tension without alteration in the shape of the length-tension diagram. The magnitude of the length change paralleled the binding curve of imido-ATP to the fibre. We concluded that binding caused some change in myosin without its detachment from actin. Electron microscopy and X-ray diffraction studies of glycerol-extracted flight muscle fibres showed an increase in the angle of attachment of myosin to actin when imido-ATP was added. The results are discussed in relation to current concepts of force generation in active muscle.
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