Temperature change as a probe of muscle crossbridge kinetics: a review and discussion. - Wikidata - wikimedia - TriplyDB

Temperature change as a probe of muscle crossbridge kinetics: a review and discussion.

Temperature change as a probe of muscle crossbridge kinetics: a review and discussion.

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Physiological mechanisms underlying animal social behaviour.Effect of phosphate and temperature on force exerted by white muscle fibres from dogfish Computational Models for Neuromuscular Function Speed and incline during thoroughbred horse racing: racehorse speed supports a metabolic power constraint to incline running but not to decline running.Mechanics of myosin function in white muscle fibres of the dogfish, Scyliorhinus canicula.Increase in cardiac myosin heavy-chain (MyHC) alpha protein isoform in hibernating ground squirrels, with echocardiographic visualization of ventricular wall hypertrophy and prolonged contraction Force and power generating mechanism(s) in active muscle as revealed from temperature perturbation studies.Energetics of contraction.Experimental basis of the hypotheses on the mechanism of skeletal muscle contraction.The cross-bridge of skeletal muscle is not synchronized either by length or force step.The endothermic ATP hydrolysis and crossbridge attachment steps drive the increase of force with temperature in isometric and shortening muscle.The working stroke of the myosin II motor in muscle is not tightly coupled to release of orthophosphate from its active site.The force-generation process in active muscle is strain sensitive and endothermic: a temperature-perturbation study.The basis of differences in thermodynamic efficiency among skeletal muscles.Statistical mechanics of the Huxley-Simmons model.A kinetic model that explains the effect of inorganic phosphate on the mechanics and energetics of isometric contraction of fast skeletal muscle.Temperature Effects on Force and Actin⁻Myosin Interaction in Muscle: A Look Back on Some Experimental Findings.

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P2860

Temperature change as a probe of muscle crossbridge kinetics: a review and discussion.

http://www.wikidata.org/entity/Q55498887

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2009 nî lūn-bûn

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2009年の論文

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2009年学术文章

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2009年學術文章

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Temperature change as a probe of muscle crossbridge kinetics: a review and discussion.

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Temperature change as a probe of muscle crossbridge kinetics: a review and discussion.

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Temperature change as a probe of muscle crossbridge kinetics: a review and discussion.

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Temperature change as a probe of muscle crossbridge kinetics: a review and discussion.

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Temperature change as a probe of muscle crossbridge kinetics: a review and discussion.

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Temperature change as a probe of muscle crossbridge kinetics: a review and discussion.

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Proceedings of the Royal Society B

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Temperature change as a probe of muscle crossbridge kinetics: a review and discussion

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N A Curtin

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R C Woledge

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P2860

Temperature dependence of active tension in mammalian (rabbit psoas) muscle fibres: effect of inorganic phosphate

Force generation induced by rapid temperature jumps in intact mammalian (rat) skeletal muscle fibres.

Reversal of the cross-bridge force-generating transition by photogeneration of phosphate in rabbit psoas muscle fibres.

Mechanism of tension generation in muscle: an analysis of the forward and reverse rate constants.

A single order-disorder transition generates tension during the Huxley-Simmons phase 2 in muscle.

Effect of temperature on the working stroke of muscle myosin

Mechanokinetics of rapid tension recovery in muscle: the Myosin working stroke is followed by a slower release of phosphate.

Proposed mechanism of force generation in striated muscle.

The effects of ADP and phosphate on the contraction of muscle fibers

Heat changes during transient tension responses to small releases in active frog muscle

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10.1098/RSPB.2009.0177

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