D. Hillaire scite author profile

1. The initial steps on the myosin ATPase (EC 3.6.1.3) pathway are taken to be: (formula; see text) A two-step binding for ATP is assumed, but the evidence for it is unconvincing; because of the rapidity of the process unambiguous values for K1 and K2 are not available. 2. We investigated the myosin mechanism by the chemical flow-quench technique. Reaction mixtures containing [gamma-32P]ATP plus myosin subfragment 1 were quenched in unlabelled ATP (ATP chase) or acid (Pi burst). 3. We show that the ATP-chase method can lead directly to unambiguous values for K1 and k+2. 4. The binding process was slowed down by 40% ethylene glycol. It was studied as a function of the ATP concentration. A limiting plateau resulted, showing a two-step binding for ATP, and values for K1 and k+2 were obtained. 5. K1 and k+2 are rather sensitive to the experimental conditions. Ethylene glycol and lowering of the pH decrease both constants, but an increase in KCl concentration increases them. This suggests that the binding of ATP to myosin is of an electrostatic nature. 6. The Pi-burst method can lead directly to k+3 + k-3, but under certain conditions the kinetics are governed by K1 and k+2. This uncertainty of the interpretation of Pi-burst experiments is discussed.

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Cryoenzymic studies on myosin subfragment 1: perturbation of an enzyme reaction by temperature and solvent

Biosca¹,

Travers²,

Hillaire³

et al. 1984

Biochemistry

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The effects of temperature and solvent on myosin subfragment 1 ATPase have been studied. Under all of the conditions used the data could be fitted to the Bagshaw - Trentham pathway: (formula; see text) Ethylene glycol (40%) was used as the cryosolvent ; this makes K1 and k+2 measurable and allows for temperature studies over an extensive temperature range (+35 to -20 degrees C) and thus to reasonably accurate thermodynamic parameters. The following techniques were used: ATP chase (for K1 and k+2); Pi burst (k+2 or k+3 + k-3); single-turnover Pi burst [k0 = k +4K3 /(1 + K3)] absorption stopped flow (k+2 or k+3 + k-3); steady state (k+6 or k0). Myosin provides examples of causes for nonlinear Arrhenius and van't Hoff plots. A temperature-induced structural change is exemplified by a "jump" in an Arrhenius plot of k+2 and "breaks" in van't Hoff plots of K1 and K3. A change in rate-limiting step is illustrated from stopped-flow experiments ( kobsd approximately k+2 at low and approximately k+3 + k-3 at high temperatures) and steady-state experiments (kcat approximately k+6 at low and approximately k0 at high temperatures). A third cause is illustrated by k0: an Arrhenius plot of k0 is nonlinear since there is a break in K3. These studies illustrate the use of temperature perturbation as a way of revealing reaction intermediates and of defining the conditions required for the isolation of a particular intermediate.(ABSTRACT TRUNCATED AT 250 WORDS)

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Cryoenzymological Studies on Myosin Subfragment 1

Travers¹,

Hillaire²

1979

European Journal of Biochemistry

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The ATPase activities of myosin subfragment 1 were studied under subzero conditions with ethylene glycol as the antifreeze.The pH profile of the Ca ATPase activity was affected by both ethylene glycol and the temperature but the pH profile of the Mg ATPase activity was only slightly affected.At 20 "C the Mg ATPase activity was not affected by the solvent. The Ca and acto-Mg ATPase activities decreased to similar extents as the solvent concentration was increased. These results are discussed in terms of the accessibility of the active site.The Mg, Ca and acto-Mg ATPase activities were studied down to -20 "C, in 40 % ethylene glycol. All three systems showed an increase in activation energy at low temperatures. These results were compared to previous work and they were analysed in terms of a change in the rate-limiting step.When myosin S1 is mixed with ATP, difference spectra are obtained whose amplitudes decrease with time and which are a manifestation of the intermediate M**. ADP . Pi (the product complex).

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D. Hillaire

Evidence for the two-step binding of ATP to myosin subfragment 1 by the rapid-flow-quench method

Cryoenzymic studies on myosin subfragment 1: perturbation of an enzyme reaction by temperature and solvent

Cryoenzymological Studies on Myosin Subfragment 1

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