Sodium-calcium exchange.

During the past year, significant advances have been made in the investigation of molecular, kinetic and electrophysiological aspects of Na(+)-Ca2+ exchange. The cardiac and retinal exchangers have been cloned and structure-function studies have begun.

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[4]  D. Khananshvili Distinction between the two basic mechanisms of cation transport in the cardiac Na(+)-Ca2+ exchange system. , 1990, Biochemistry.

[5]  R. Molday,et al.  Distribution of the Na(+)-Ca2+ exchange protein in mammalian cardiac myocytes: an immunofluorescence and immunocolloidal gold-labeling study , 1992, The Journal of cell biology.

[6]  P. Schnetkamp,et al.  Na+-Ca2+ exchange in bovine rod outer segments requires and transports K+. , 1989, The American journal of physiology.

[7]  M. Shigekawa,et al.  Cyclic GMP stimulates Na+/Ca2+ exchange in vascular smooth muscle cells in primary culture. , 1991, The Journal of biological chemistry.

[8]  P. Schnetkamp,et al.  Regulation of free cytosolic Ca2+ concentration in the outer segments of bovine retinal rods by Na-Ca-K exchange measured with fluo-3. I. Efficiency of transport and interactions between cations. , 1991, The Journal of biological chemistry.

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[10]  R. Molday,et al.  Identification of the sodium-calcium exchanger as the major ricin-binding glycoprotein of bovine rod outer segments and its localization to the plasma membrane. , 1990, Biochemistry.

[11]  P. Schnetkamp Optical measurements of Na-Ca-K exchange currents in intact outer segments isolated from bovine retinal rods , 1991, The Journal of general physiology.

[12]  D. Hilgemann,et al.  Charge movement during Na+ translocation by native and cloned cardiac Na+/Ca2+ exchanger , 1991, Nature.

[13]  D. Hilgemann Regulation and deregulation of cardiac Na+–Ca2+ exchange in giant excised sarcolemmal membrane patches , 1990, Nature.

[14]  Chari D Smith,et al.  Expression of the cardiac Na(+)-Ca2+ exchanger in insect cells using a baculovirus vector. , 1992, The Journal of biological chemistry.

[15]  R. Haworth,et al.  Control of the Na-Ca exchanger in isolated heart cells. I. Induction of Na-Na exchange in sodium-loaded cells by intracellular calcium. , 1991, Circulation research.

[16]  J. Weiss,et al.  Identification of a peptide inhibitor of the cardiac sarcolemmal Na(+)-Ca2+ exchanger. , 1991, The Journal of biological chemistry.

[17]  P. Bauer,et al.  Association of cyclic GMP‐gated channels and Na(+)‐Ca(2+)‐K+ exchangers in bovine retinal rod outer segment plasma membranes. , 1992, The Journal of physiology.

[18]  D. Hilgemann,et al.  Mechanism of cardiac Na(+)‐Ca2+ exchange current stimulation by MgATP: possible involvement of aminophospholipid translocase. , 1992, The Journal of physiology.

[19]  I. Komuro,et al.  Molecular cloning and characterization of the human cardiac Na+/Ca2+ exchanger cDNA. , 1992, Proceedings of the National Academy of Sciences of the United States of America.

[20]  F. Lottspeich,et al.  Primary structure and functional expression of the Na/Ca,K‐exchanger from bovine rod photoreceptors. , 1992, The EMBO journal.

[21]  W. Lederer,et al.  Molecular operations of the sodium–calcium exchanger revealed by conformation currents , 1991, Nature.

[22]  D. Hilgemann,et al.  The giant cardiac membrane patch method: stimulation of outward Na(+)‐Ca2+ exchange current by MgATP. , 1992, The Journal of physiology.

[23]  D. Nicoll,et al.  Molecular Studies of the Cardiac Sarcolemmal Sodium‐Calcium Exchanger , 1991, Annals of the New York Academy of Sciences.

[24]  P. Schnetkamp,et al.  Effect of potassium ions and membrane potential on the Na-Ca-K exchanger in isolated intact bovine rod outer segments. , 1991, The Journal of biological chemistry.

[25]  D. Khananshvili Voltage-dependent modulation of ion binding and translocation in the cardiac Na(+)-Ca2+ exchange system. , 1991, The Journal of biological chemistry.

[26]  G. Langer,et al.  A discrete Na-Ca exchange-dependent Ca compartment in rat ventricular cells: exchange and localization. , 1992, The American journal of physiology.

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[28]  U. Kaupp,et al.  Solubilization, purification, and reconstitution of the sodium-calcium exchanger from bovine retinal rod outer segments. , 1988, The Journal of biological chemistry.

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

[30]  P. Schnetkamp,et al.  Regulation of intracellular free Ca2+ concentration in the outer segments of bovine retinal rods by Na-Ca-K exchange measured with fluo-3. II. Thermodynamic competence of transmembrane Na+ and K+ gradients and inactivation of Na(+)-dependent Ca2+ extrusion. , 1991, The Journal of biological chemistry.

[31]  G. Wolbring,et al.  The sodium-calcium exchanger of bovine rod photoreceptors: K(+)-dependence of the purified and reconstituted protein. , 1991, Biochimica et biophysica acta.

[32]  H. Rahamimoff,et al.  The modulation of rat brain Na(+)-Ca2+ exchange by K+. , 1991, The Journal of biological chemistry.

[33]  E. Windhager,et al.  Expression of renal Na(+)-Ca2+ exchange activity in Xenopus laevis oocytes. , 1991, The American journal of physiology.

[34]  J. Kimura,et al.  Translocation mechanism of Na-Ca exchange in single cardiac cells of guinea pig , 1990, The Journal of general physiology.

[35]  H. Rahamimoff,et al.  The expression of rat brain synaptic plasma membrane Na+-Ca2+ exchange activity in Xenopus oocytes , 1990, Brain Research.

[36]  P. Schnetkamp,et al.  Unidirectional Na+, Ca2+, and K+ fluxes through the bovine rod outer segment Na-Ca-K exchanger. , 1991, The Journal of biological chemistry.

[37]  D. Nicoll,et al.  Mapping of the gene for the cardiac sarcolemmal Na(+)-Ca2+ exchanger to human chromosome 2p21-p23. , 1992, Genomics.

[38]  J. T. Durkin,et al.  Purification and amino-terminal sequence of the bovine cardiac sodium-calcium exchanger: evidence for the presence of a signal sequence. , 1991, Archives of biochemistry and biophysics.

[39]  R. Haworth,et al.  Control of the Na-Ca exchanger in isolated heart cells. II. Beat-dependent activation in normal cells by intracellular calcium. , 1991, Circulation research.