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Literature DB >> 6034511

The mechanochemistry of cardiac muscle. I. The isometric contraction.

Abstract

The utilization of creatine phosphate (CP) and adenosine triphosphate (ATP) was studied in the iodoacetate (IAA) and nitrogen (N(2))-treated cat papillary muscle. Under these conditions the net production of ATP does not occur, and the net utilization of ATP is reflected in a fall in CP concentration. The rate of energy utilization of the IAA-N(2)-treated cat papillary muscle resting without tension was 0.68 micromole CP/g/min. This rate was increased to 1.07 micromole/g/min when muscles were passively stretched with 2 g of tension. In a series of isometrically contracting muscles CP utilization was found to be proportional to the number of activations and the summated contractile element work. These rates of CP utilization were 0.083 micromole/g/activation and 0.0059 micromole/g-cm of work. The calculated mechanochemical coupling efficiency was 33%.

Entities: Chemical

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Year: 1967 PMID： 6034511 PMCID： PMC2225701 DOI： 10.1085/jgp.50.4.951

Source DB: PubMed Journal: J Gen Physiol ISSN： 0022-1295 Impact factor: 4.086

14 in total

1. Chemistry of muscle contraction. Adenosine triphosphate and phosphorylcreatine as energy supplies for single contractions of working muscle.

Authors: D F CAIN; A A INFANTE; R E DAVIES
Journal: Nature Date: 1962-10-20 Impact factor: 49.962

Review 2. THE MECHANOCHEMISTRY OF MUSCULAR CONTRACTION, A CRITICAL REVALUATION OF IN VIVO STUDIES.

Authors: F D CARLSON
Journal: Prog Biophys Mol Biol Date: 1963 Impact factor: 3.667

3. Evaluation of catabolic pathways of glucose in mammalian systems.

Authors: B BLOOM; M R STETTEN; D STETTEN
Journal: J Biol Chem Date: 1953-10 Impact factor: 5.157

4. Work and chemical change in isotonic muscular contractions.

Authors: W F MOMMAERTS; K SERAYDARIAN; G MARECHAL
Journal: Biochim Biophys Acta Date: 1962-02-12

5. Heat production in a cardiac contraction.

Authors: N V Ricchiuti; C L Gibbs
Journal: Nature Date: 1965-11-27 Impact factor: 49.962

6. The creatine phosphoryltransfer reaction in iodoacetate-poisoned muscle.

Authors: F D CARLSON; A SIGER
Journal: J Gen Physiol Date: 1959-11 Impact factor: 4.086

7. Activation heat in frog sartorius muscle.

Authors: C L Gibbs; N V Ricchiuti; W F Mommaerts
Journal: J Gen Physiol Date: 1966-01 Impact factor: 4.086

8. Total energy production and phosphocreatine hydrolysis in the isotonic twitch.

Authors: F D CARLSON; D J HARDY; D R WILKIE
Journal: J Gen Physiol Date: 1963-05 Impact factor: 4.086

9. The rate of oxygen uptake of quiescent cardiac muscle.

Authors: P F CRANEFIELD; K GREENSPAN
Journal: J Gen Physiol Date: 1960-11 Impact factor: 4.086

10. The mechanochemistry of muscular contraction. I. The isometric twitch.

Authors: F D CARLSON; A SIGER
Journal: J Gen Physiol Date: 1960-09 Impact factor: 4.086

16 in total

1. Cardiac muscle models for both isotonic and isometric contractions.

Authors: R Minelli; C Reggiani; R Dionigi; V Cappelli
Journal: Pflugers Arch Date: 1975-08-29 Impact factor: 3.657

Review 2. [Involvement of basal oxygen consumption, activation of myocardium as well as of hemodynamic parameters in total oxygen consumption of the heart].

Authors: R Krebs
Journal: Klin Wochenschr Date: 1970-07-01

The mechanochemistry of cardiac muscle. I. The isometric contraction.

1. Chemistry of muscle contraction. Adenosine triphosphate and phosphorylcreatine as energy supplies for single contractions of working muscle.

Review 2. THE MECHANOCHEMISTRY OF MUSCULAR CONTRACTION, A CRITICAL REVALUATION OF IN VIVO STUDIES.

3. Evaluation of catabolic pathways of glucose in mammalian systems.

4. Work and chemical change in isotonic muscular contractions.

5. Heat production in a cardiac contraction.

6. The creatine phosphoryltransfer reaction in iodoacetate-poisoned muscle.

7. Activation heat in frog sartorius muscle.

8. Total energy production and phosphocreatine hydrolysis in the isotonic twitch.

9. The rate of oxygen uptake of quiescent cardiac muscle.

10. The mechanochemistry of muscular contraction. I. The isometric twitch.

1. Cardiac muscle models for both isotonic and isometric contractions.

Review 2. [Involvement of basal oxygen consumption, activation of myocardium as well as of hemodynamic parameters in total oxygen consumption of the heart].

3. Metabolic depression and myocardial potassium.

4. Some proposals in cardiac muscle mechanics and energetics.

5. Adenosinetriphosphate partition in cardiac muscle with respect to transmembrane electrical activity.

6. Anoxia-recovery cycle in ventricular muscle: action potential duration, contractility and ATP content.

7. On the increase in rate of heat production caused by stretch in frog's skeletal muscle.

8. Cardiac chemical power: 1. Derivation of the chemical power equation and determination of equation constants.

9. The rate of resting heat production of rat papillary muscle.

10. Stretch-induced increase in resting metabolism of isolated papillary muscle.