The kinetics of magnesium adenosine triphosphate cleavage in skinned muscle fibres of the rabbit.

Ferenczi, Michael A.; Homsher, Earl; Trentham, David R.

doi:10.1113/jphysiol.1984.sp015311

Cited by 136 publications

(114 citation statements)

References 40 publications

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“…Marston [lo] found that this was the case in glycerol-extracted rabbit psoas fibres, as did Maruyama and Weber [9] and Sleep [ll] in myofibrils. The caged-ATP studied of Ferenczi et al [12] confirm the observation, and the oxygen exchange work of [I71 shows that the bound nucleotide is in rapid hydrolytic equilibrium. In the present experiments 160 -200 pM nucleotide was found in excess over the 100 pM in the bathing solution.…”

Section: Discussionsupporting

confidence: 70%

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Nucleotide binding by myosin in glycerol‐extracted rabbit skeletal muscle fibres at temperatures between −35°C and 10°C

Tregear

Kellam

1986

European Journal of Biochemistry

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Glycerol-extracted rabbit psoas fibres were incubated at temperatures between -35°C and + 10°C in a lowionic-strength relaxing solution containing 50% ethyleneglycol, 100 pM [3H]MgATP, 1 mM ['4C]mannitol and < 0.01 pM Ca2+. The fibres were then rinsed in a solution containing 1 mM ATP and the bound nucleotide eluted in trichloroacetic acid; all these operations were carried out at the cold temperature. Residual bound nucleotide was eluted with trichloroacetic acid at room temperature. The fibres were found to bind approximately 180 pM nucleotide, which is consistent with binding to the enzymatic site of myosin. The eluate, obtained in the cold, was analysed on poly(ethy1eneimine)-cellulose for its ATP and ADP content. At temperatures down to -22°C most of the bound nucleotide was ADP and there was little variation of this fraction with temperature. As the temperature was lowered below -22°C the ATP fraction rose sharply; by -35°C it predominated. These results are similar in type to those found by Biosca et al. [(1984) Biochemistry 23, 1947-19531 on isolated subfragment 1, but are displaced to a much lower temperature range. Thus in a muscle fibre only a low thermal energy is needed for myosin to hold its nucleotide in a constant balance between ATP and ADP.Myosin binds MgATP tightly and retains the bound nucleotide at the enzymatic site as a rapidly reacting equilibrium mixture of ATP and ADP [l, 21. Both species react rapidly with actin [3] and the entire set probably represents the reservoir from which the tension-generating species is formed during contraction [3, 41. The balance between the reservoir's components may, therefore, be functionally significant.In aqueous solution at room temperature myosin heads (subfragment 1) contain principally ADP [l] while at 2°C they contain equal amounts of ATP and ADP [5]. Actin contact also shifts the equilibrium towards ATP at room temperature [3]. By the use of ethyleneglycol to extend the available temperature range Biosca et al.[6] have divided the effect of temperature into two regions: above 15°C it has little effect, while below 15°C the equilibrium is very sensitive to temperature. Ethyleneglycol itself does not significantly change the equilibrium [6] and leaves the chemical kinetics of ATP at the enzymatic site (but not its binding or the release of its products) little altered [7, 81. In both myofibrils and glycerol-extracted muscle fibres which have been relaxed by MgATP at low CaZ+ nucleotide binds to the enzymatic site of myosin [9-111. On protein denaturation the bound nucleotide is recovered as ADP, at temperatures down to near freezing [lo, 111. In similar fibres when a burst of caged ATP is released it is rapidly and entirely converted to ADP [12]. Thus it appears that within the contractile matrix the equilibrium of the hydrolysis of bound nucleotide may be shifted towards ADP. Previous work has shown that glycerol-extracted rabbit muscle fibres mechanically relax when they bind MgATP in ethyleneglycol, even at sub-zero temperatures ethyleneglycol...

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Section: Discussionsupporting

confidence: 70%

“…On protein denaturation the bound nucleotide is recovered as ADP, at temperatures down to near freezing [lo, 111. In similar fibres when a burst of caged ATP is released it is rapidly and entirely converted to ADP [12]. Thus it appears that within the contractile matrix the equilibrium of the hydrolysis of bound nucleotide may be shifted towards ADP.…”

mentioning

confidence: 87%

Nucleotide binding by myosin in glycerol‐extracted rabbit skeletal muscle fibres at temperatures between −35°C and 10°C

Tregear

Kellam

1986

European Journal of Biochemistry

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“…Single skinned fibres were mounted on aluminium T-clips [10] and suspended between stainless-steel hooks attached to a tension transducer (Akers) at one end and to a fixed mount at the other. The apparatus, previously described by Ferenczi et al [11] allows rapid changes of the solution which bathes the fibres. The laser photolysis technique and recording instrumentation was essentially the same as that described previously [11].…”

Section: Methodsmentioning

confidence: 99%

Rapid relaxation of single frog skeletal muscle fibres following laser flash photolysis of the caged calcium chelator, diazo‐2

Mulligan¹,

Ashley²

1989

FEBS Letters

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Diazo-2 is a calcium chelator based on BAPTA [(1989) J. Biol. Chem., in press], whose electron withdrawing diazoacetyl group may be rapidly (2000 s -1) converted photochemically to an electron donating carboxymethyl group by exposure to near ultraviolet light, producing an increase in its calcium affinity (Kd changes from 2.2/iM to 0.073/zM) without steric modification of the metal binding site. Photolysis of a 2 mM solution of this compound with a brief flash of light from a frequency-doubled ruby laser (347 nm) caused single skinned muscle fibres from the semitendinosus muscle of the frog Rana temporaria to relax with a mean half-time of 60.4 + 5 ms (range 30-100 ms, n = 15) at 12°C, which is faster than the relaxation observed in intact muscles (half-time 133 ms at 14°C [(1986) J. Mol. Biol. 188, 325-342]) and similar to the rate of the fast phase of tension decay in intact single fibres (20 s -1 at 10°C [(1982) J. Physiol. 329, 1-20]).

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“…1) showed the immediate response of mitochondrial electron transport to muscle stimulation (18) and an early event in the cross-bridge cycle is ADP release (19). It was so fast that it was necessary to study it at 88 in pioneer experiments of Chance and Connelly (20).…”

Section: Pnmr Spectroscopymentioning

confidence: 99%

Skeletal muscle energetics with PNMR: personal views and historic perspectives

Chance

Nioka

et al. 2006

NMR in Biomedicine

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This article reviews historical and current NMR approaches to describing in vivo bioenergetics of skeletal muscles in normal and diseased populations. It draws upon the first author's more than 70 years of personal experience in enzyme kinetics and the last author's physiological approaches. The development of in vivo PNMR jointly with researchers around the world is described. It is explained how non-invasive PNMR has advanced human exercise biochemistry, physiology and pathology. Further, after a brief explanation of bioenergetics with PNMR on creatine kinase, anerobic glycolysis and mitochondrial oxidative phosphorylation, some basic and controversial subjects are focused upon, and the authors' view of the subjects are offered, with questions and answers. Some of the research has been introduced in exercise physiology. Future directions of NMR on bioenergetics, as a part of system biological approaches, are indicated.

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The kinetics of magnesium adenosine triphosphate cleavage in skinned muscle fibres of the rabbit.

Cited by 136 publications

References 40 publications

Nucleotide binding by myosin in glycerol‐extracted rabbit skeletal muscle fibres at temperatures between −35°C and 10°C

Nucleotide binding by myosin in glycerol‐extracted rabbit skeletal muscle fibres at temperatures between −35°C and 10°C

Rapid relaxation of single frog skeletal muscle fibres following laser flash photolysis of the caged calcium chelator, diazo‐2

Skeletal muscle energetics with PNMR: personal views and historic perspectives

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