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Maximum activation of the contractile mechanism in frog's skeletal muscle by potassium depolarization.

作者信息

FRANK G B

出版信息

J Physiol. 1960 Dec;154(2):345-53. doi: 10.1113/jphysiol.1960.sp006583.

DOI:10.1113/jphysiol.1960.sp006583
PMID:13701349
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1359805/
Abstract
摘要

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Maximum activation of the contractile mechanism in frog's skeletal muscle by potassium depolarization.钾离子去极化对青蛙骨骼肌收缩机制的最大激活作用。
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Effects of changes in extracellular calcium concentration on the potassium-induced contracture of frog's skeletal muscle.细胞外钙浓度变化对青蛙骨骼肌钾诱导挛缩的影响。
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DEPOLARIZATION OF FROG'S SKELETAL MUSCLE MEMBRANE BY 2,4-DINITROPHENOL.2,4-二硝基苯酚对青蛙骨骼肌膜的去极化作用。
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引用本文的文献

1
[EFFECTS OF CALCIUM WITHDRAWAL ON THE MEMBRANE POTENTIAL AND MECHANICAL ACTIVITY OF ISOLATED PHASIC SKELETAL MUSCLE IN FROGS].[钙缺失对蛙离体相性骨骼肌膜电位和机械活动的影响]
Pflugers Arch Gesamte Physiol Menschen Tiere. 1964;278:541-52.
2
Structure of the longitudinal body muscles of amphioxus.文昌鱼纵体肌的结构。
J Biophys Biochem Cytol. 1961 Aug;10(4)Suppl(4):159-76. doi: 10.1083/jcb.10.4.159.
3
The relation between external potassium concentration and the relaxation rate of potassium-induced contractures in frog skeletal muscle.蛙骨骼肌中细胞外钾离子浓度与钾离子诱导挛缩松弛速率之间的关系。
J Physiol. 1966 Oct;186(2):243-60. doi: 10.1113/jphysiol.1966.sp008032.
4
[On the relationship between membrane potential and potassium- or acetylcholine-contracture in the chronically denervated rat diaphragm].[慢性去神经支配大鼠膈肌膜电位与钾或乙酰胆碱挛缩之间的关系]
Pflugers Arch Gesamte Physiol Menschen Tiere. 1967;294(2):113-8.
5
The steps between depolarization and the increase in the respiration of frog skeletal muscle.青蛙骨骼肌去极化与呼吸增加之间的步骤。
J Physiol. 1969 Oct;204(3):551-69. doi: 10.1113/jphysiol.1969.sp008931.

本文引用的文献

1
Observations on the temperature dependence of the tension developed by the frog muscle.关于青蛙肌肉所产生张力的温度依赖性的观察
Arch Int Physiol. 1951 May;59(1):58-61. doi: 10.3109/13813455109146625.
2
Is muscle contraction initiated by internal current flow?肌肉收缩是由内部电流流动引发的吗?
J Physiol. 1960 May;151(2):363-84. doi: 10.1113/jphysiol.1960.sp006444.
3
Effects of changes in extracellular calcium concentration on the potassium-induced contracture of frog's skeletal muscle.细胞外钙浓度变化对青蛙骨骼肌钾诱导挛缩的影响。
J Physiol. 1960 Jun;151(3):518-38. doi: 10.1113/jphysiol.1960.sp006457.
4
Inward movement of calcium as a link between electrical and mechanical events in contraction.钙的内流作为收缩过程中电活动与机械活动之间的联系。
Nature. 1958 Dec 27;182(4652):1800-1. doi: 10.1038/1821800a0.
5
The structures of fast and slow muscle fibres in the frog.青蛙中快肌纤维和慢肌纤维的结构。
J Anat. 1958 Oct;92(4):559-62.
6
Electrochemical aspects of physiological and pharmacological action in excitable cells. II. The action potential and excitation.可兴奋细胞生理和药理作用的电化学方面。II. 动作电位与兴奋
Pharmacol Rev. 1958 Jun;10(2):165-273.
7
The effectiveness of the longitudinal field, coupled with depolarization in activating frog twitch muscles.纵向场与去极化相结合在激活青蛙抽搐肌肉方面的有效性。
J Gen Physiol. 1958 May 20;41(5):1083-98. doi: 10.1085/jgp.41.5.1083.
8
The effect of tetraethylammonium chloride on the muscle membrane examined with an intracellular microelectrode.用细胞内微电极检测氯化四乙铵对肌膜的作用。
J Physiol. 1955 Sep 28;129(3):513-27. doi: 10.1113/jphysiol.1955.sp005374.
9
The ineffectiveness of the `window field' in the initiation of muscle contraction.“窗孔区”在引发肌肉收缩方面的无效性。
J Physiol. 1954 Aug 27;125(2):396-404. doi: 10.1113/jphysiol.1954.sp005167.
10
Properties of the 'slow' skeletal muscles fibres of the frog.青蛙“慢”骨骼肌纤维的特性
J Physiol. 1953 Aug;121(2):318-40. doi: 10.1113/jphysiol.1953.sp004949.