Book contents
- Frontmatter
- Contents
- Preface
- Acknowledgments
- List of abbreviations
- 1 Bringing muscles into focus; the first two millennia
- 2 Muscle metabolism after the Chemical Revolution; lactic acid takes the stage
- 3 The relationship between mechanical events, heat production and metabolism; studies between 1840 and 1930
- 4 The influence of brewing science on the study of muscle glycolysis; adenylic acid and the ammonia controversy
- 5 The discovery of phosphagen and adenosinetriphosphate; contraction without lactic acid
- 6 Adenosinetriphosphate as fuel and as phosphate-carrier
- 7 Early studies of muscle structure and theories of contraction, 1870–1939
- 8 Interaction of actomyosin and ATP
- 9 Some theories of contraction mechanism, 1939 to 1956
- 10 On myosin, actin and tropomyosin
- 11 The sliding mechanism
- 12 How does the sliding mechanism work?
- 13 Excitation, excitation-contraction coupling and relaxation
- 14 Happenings in intact muscle: the challenge of adenosinetriphosphate breakdown
- 15 Rigor and the chemical changes responsible for its onset
- 16 Respiration
- 17 Oxidative phosphorylation
- 18 The regulation of carbohydrate metabolism for energy supply to the muscle machine
- 19 A comparative study of the striated muscle of vertebrates
- 20 Enzymic and other effects of denervation, cross-innervation and repeated stimulation
- 21 Some aspects of muscle disease
- 22 Contraction in muscles of invertebrates
- 23 Vertebrate smooth muscle
- 24 Energy provision and contractile proteins in non-muscular functions
- The perspective surveyed
- References
- Author index
- Subject index
The perspective surveyed
Published online by Cambridge University Press: 04 August 2010
- Frontmatter
- Contents
- Preface
- Acknowledgments
- List of abbreviations
- 1 Bringing muscles into focus; the first two millennia
- 2 Muscle metabolism after the Chemical Revolution; lactic acid takes the stage
- 3 The relationship between mechanical events, heat production and metabolism; studies between 1840 and 1930
- 4 The influence of brewing science on the study of muscle glycolysis; adenylic acid and the ammonia controversy
- 5 The discovery of phosphagen and adenosinetriphosphate; contraction without lactic acid
- 6 Adenosinetriphosphate as fuel and as phosphate-carrier
- 7 Early studies of muscle structure and theories of contraction, 1870–1939
- 8 Interaction of actomyosin and ATP
- 9 Some theories of contraction mechanism, 1939 to 1956
- 10 On myosin, actin and tropomyosin
- 11 The sliding mechanism
- 12 How does the sliding mechanism work?
- 13 Excitation, excitation-contraction coupling and relaxation
- 14 Happenings in intact muscle: the challenge of adenosinetriphosphate breakdown
- 15 Rigor and the chemical changes responsible for its onset
- 16 Respiration
- 17 Oxidative phosphorylation
- 18 The regulation of carbohydrate metabolism for energy supply to the muscle machine
- 19 A comparative study of the striated muscle of vertebrates
- 20 Enzymic and other effects of denervation, cross-innervation and repeated stimulation
- 21 Some aspects of muscle disease
- 22 Contraction in muscles of invertebrates
- 23 Vertebrate smooth muscle
- 24 Energy provision and contractile proteins in non-muscular functions
- The perspective surveyed
- References
- Author index
- Subject index
Summary
In the preparation of this book an attempt has been made to follow the lines of thought – like Ariadne's threads in a maze – leading to our present conception of the mechanism of muscle excitation and contraction, and of the energy provision for it.
It was only in the third century b.c. that Greek observations led to the realisation – rather dimly by Herophilus, quite definitely by Erasistratus – that the muscles were the organs of movement. Erasistratus even suggested a mechanism: the filling of the muscles with pneuma coming through the nerves, and their consequent increase in breadth and diminution in length. We have studied the variants of this theory, still the most important one, in the seventeenth century. We have seen the emphasis laid by Gabriel Fallopius in the early sixteenth century on the significance for movement of the muscle's fibrous structure. Francis Glisson also took a great step forward with his realisation that muscles had an intrinsic irritability independent of the nervous system.
The intensive work in the nineteenth century on the organic chemistry of muscle components and upon catalytic processes had little impact on theories of contraction mechanism; more influential in this direction were the studies of microscopists such as Bowman, Krause and Engelmann. This is apparent in the theories then developed by Pfluger and by Fick.
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- Machina CarnisThe Biochemistry of Muscular Contraction in its Historical Development, pp. 599 - 602Publisher: Cambridge University PressPrint publication year: 1971