目前盛行的钙离子研究的基础,无论怎样说也是肌肉收缩的研究。作者对此已有几篇报告,如《控制肌肉的分子结构》,生体科学27卷:(5):396～407,1976;《肌肉收缩的控制》(译文),科学50卷(1):2～14,1980;《对谈—钙与生物物理》,生物物理24卷(1):1～16,1984。本文是以作者等开展本项研究前后为重点,作一回顾。钙离子研究的前期史现在把细胞的兴奋现象和电现象看作是同义语。过去认为细胞的兴奋是由细胞本身发挥其机能的,例如在肌肉,是指伴随动作电位而出现收缩的全部现象。如对此不理解,则不能理解林格在有名的离体蛙心实验(1883)后,虽见到钙离子对骨骼肌的作用—除去钙离子时出现反复的不规则挛缩,却没太注意心肌与骨骼肌两者反应的差异的理由。心肌是以持续 The basis of the current prevalence of calcium ions, no matter how the muscle contraction study. There are several reports by the authors on this topic, such as “Controlling the Molecular Structure of Muscles”, Bioscience Volume 27: (5): 396-477, 1976; “Muscle Contraction Control” 2 ~ 14, 1980; “Dialogue - Calcium and Biophysics”, Biophys. Vol.24 (1): 1-16,1984. This article is based on the author before and after the focus of this study for a review. The pre-history of calcium ion research now considers cellular excitability and electrical phenomena as synonymous. The past thought that the excitement of cells by the cell itself to perform its function, such as in muscle, refers to all accompanied by action potentials shrink phenomenon. If you do not understand this, you can not understand the effect of calcium ion on skeletal muscle after Ringer’s famous experiment in vitro (1883) - recurrent irregular contractures in the removal of calcium ions, but not too much attention Reasons for the difference between myocardial and skeletal responses. Myocardium is sustained