Skeletal Muscle: Length-Dependent Effects of Potentiating Agents
- 2 October 1981
- journal article
- research article
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 214 (4516) , 79-82
- https://doi.org/10.1126/science.6974399
Abstract
The ability of vertebrae skeletal muscle to contract more vigorously than normal in the presence of potentiating agents depends on the initial length of a muscle cell. Other factors such as the intracellular calcium ion transient, temperature, chemical nature of the potentiating agent, and the ratio of intrinsic twitch to tetanic force influence the degree of contractile potentiation but cannot account for the length dependence. At least part of a muscle cell seems normally less than fully active during contractions not only at short lengths but also at optimal sarcomere lengths.This publication has 16 references indexed in Scilit:
- Quasi-elastic light-scattering studies of single skeletal muscle fibersBiophysical Journal, 1981
- Effect of glycerol treatment on the calcium current of frog skeletal muscle.The Journal of Physiology, 1980
- Intersarcomere dynamics during fixed‐end tetanic contractions of frog muscle fibres.The Journal of Physiology, 1979
- Length Dependence of Activation of Skinned Muscle Fibers by CalciumCold Spring Harbor Symposia on Quantitative Biology, 1973
- Striated Muscle Fibers: Facilitation of Contraction at Short Lengths by CaffeineScience, 1971
- Striated Muscle Fibers: Inactivation of Contraction Induced by ShorteningScience, 1970
- Topochemical Factors in Potentiation of Contraction by Heavy Metal CationsThe Journal of general physiology, 1966
- Muscle shortening velocity in normal and potentiated contractionsLife Sciences, 1964
- Variability of Twitch Potentiation in Frog Skeletal MuscleNature, 1962
- The isometric length‐tension diagram of isolated skeletal muscle fibers of the frogJournal of Cellular and Comparative Physiology, 1940