Kinetics, stoichiometry and role of the Na–Ca exchange mechanism in isolated cardiac myocytes

[1]  S. Matsuoka,et al.  Measurement of reversal potential of Na+‐Ca2+ exchange current in single guinea‐pig ventricular cells. , 1989, The Journal of physiology.

[2]  L. Lagnado,et al.  Extrusion of calcium from rod outer segments is driven by both sodium and potassium gradients , 1989, Nature.

[3]  M. Kurokawa,et al.  Parasympathetic depression of vas deferens contraction in the guinea‐pig involves adenosine receptors. , 1988, The Journal of physiology.

[4]  P R Ershler,et al.  Relaxation of isolated ventricular cardiomyocytes by a voltage-dependent process. , 1988, Science.

[5]  L. Lagnado,et al.  Ion transport by the Na-Ca exchange in isolated rod outer segments. , 1988, Proceedings of the National Academy of Sciences of the United States of America.

[6]  W. Wier,et al.  Sodium-calcium exchange in heart: membrane currents and changes in [Ca2+]i. , 1987, Science.

[7]  W. Lederer,et al.  Effect of membrane potential changes on the calcium transient in single rat cardiac muscle cells. , 1987, Science.

[8]  J. Kimura,et al.  Identification of sodium‐calcium exchange current in single ventricular cells of guinea‐pig. , 1987, The Journal of physiology.

[9]  J R Hume,et al.  "Creep currents" in single frog atrial cells may be generated by electrogenic Na/Ca exchange , 1986, The Journal of general physiology.

[10]  Roger Y. Tsien,et al.  Calcium gradients in single smooth muscle cells revealed by the digital imaging microscope using Fura-2 , 1985, Nature.

[11]  R. Tsien,et al.  A new generation of Ca2+ indicators with greatly improved fluorescence properties. , 1985, The Journal of biological chemistry.

[12]  C. C. Hale,et al.  The stoichiometry of the cardiac sodium-calcium exchange system. , 1984, The Journal of biological chemistry.

[13]  H. Fozzard,et al.  Transmembrane Na+ and Ca2+ electrochemical gradients in cardiac muscle and their relationship to force development , 1982, The Journal of general physiology.

[14]  P. Caroni,et al.  The Ca2+-pumping ATPase of heart sarcolemma. Characterization, calmodulin dependence, and partial purification. , 1981, The Journal of biological chemistry.

[15]  B. Pitts Stoichiometry of sodium-calcium exchange in cardiac sarcolemmal vesicles. Coupling to the sodium pump. , 1979, The Journal of biological chemistry.

[16]  D. Ellis The effects of external cations and ouabain on the intracellular sodium activity of sheep heart Purkinje fibres , 1977, The Journal of physiology.

[17]  H. Reuter,et al.  The effect of the internal sodium concentration on calcium fluxes in isolated guinea‐pig auricles , 1970, The Journal of physiology.

[18]  A. Hodgkin,et al.  The influence of calcium on sodium efflux in squid axons , 1969, The Journal of physiology.

[19]  H. Reuter,et al.  The dependence of calcium efflux from cardiac muscle on temperature and external ion composition , 1968, The Journal of physiology.

[20]  M. Blaustein Sodium/Calcium Exchange and the Control of Contractility in Cardiac Muscle and Vascular Smooth Muscle , 1988, Journal of cardiovascular pharmacology.