100.
Doi Y, MARUNAKA Y.
Bumetanide increased the short-circuit current in beta-agonist treated fetal distal lung epithelium.
Mol. Biol. Cell 4:333a, 1993.
99.
Doi Y, MARUNAKA Y.
Effects of aldosterone and antidiuretic hormone on ion transport in distal nephron epithelium (A6).
Mol. Biol. Cell 4:222a, 1993.
98.
O’Brodovich H, Wang X, Tohda H, MARUNAKA Y.
Chloride and cation conductance in cultured fetal epithelium.
Proc. Int’l Union of Physiol. Soc. Th-p24, 1993.
97.
Hagiwara N, Tohda H, Doi Y, MARUNAKA Y.
Antidiuretic hormone increases Na transport in renal distal nephron cells.
Jpn. J. Physiol. 43:S77, 1993.
96.
Doi Y, Hagiwara N, Tohda H, O’Brodovich H and MARUNAKA Y.
The inhibitory action of verapamil on ion transport in fetal alveolar cells.
Jpn. J. Physiol. 43:S75, 1993.
95.
Tohda H. Foskett JK, O’Brodovich H, MARUNAKA Y.
The effect of intracellular Cl on amiloride-blockable non-selective cation channels in fetal alveolar cells.
Jpn. J. Physiol. 43:S80, 1993.
94.
Tohda H, O’Brodovich H, MARUNAKA Y.
The characteristics of two different types of amiloride-blockable channels in fetal alveolar cells.
Jpn. J. Physiol. 43:S80, 1993.
93.
MARUNAKA Y, Tohda H, Hagiwara N, O’Brodovich H.
The effect of intracellular Ca2+ on cation channels in fetal alveolar cells.
Jpn. J. Physiol. 43:S75, 1993.
92.
Hagiwara N, Tohda H, Doi Y, O’Brodovich H, MARUNAKA Y.
The effect of tyrosine kinase inhibitor on the ion transport in fetal alveolar cells.
Jpn. J. Physiol. 43:S76, 1993.
91.
MARUNAKA Y, Tohda H.
The effect of antidiuretic hormone on Cl channels in renal distal nephron cells.
Jpn. J. Physiol. 43:S133, 1993.
90.
MARUNAKA Y, Hagiwara N, Tohda H.
Insulin-induced activation of amiloride-blockable Na channels in renal distal nephron cells.
Jpn. J. Physiol.43:S78, 1993.
89.
Doi Y, Tohda H, MARUNAKA Y.
The effect of antidiuretic hormone on intracellular pH in renal distal nephron cells.
Jpn. J. Physiol.43:S132, 1993.
88.
MARUNAKA Y, Hagiwara N, Tohda H, O’Brodovich H.
Cytosolic free Ca affects the ion selectivity and amiloride blocking action in Ca-activated cation channel in fetal alveolar epithelial cells of the lung.
FASEB J. 6:A1239, 1992.
87.
Hagiwara N, Tohda H, MARUNAKA Y.
Insulin activates a single amiloride-blockable sodium channel in distal nephron epithelium (A6).
FASEB J. 6:A1547, 1992.
86.
Tohda H, Hagiwara N, O’Brodovich H, MARUNAKA Y.
Effects of insulin and tyrosine kinase inhibitor on the short-circuit current in fetal alveolar epithelial cells of the lung.
FASEB J. 6:A1547, 1992.
85.
Wang X, MARUNAKA Y, Fedorko L, Foskett JK, Dho S, O’Brodovich H.
Activation of CFTR-induced Cl– currents by intracellular anions.
FASEB J. 6:A1192, 1992.
84.
Hagiwara N, Tohda H, MARUNAKA Y.
Insulin activates an amiloride-blockable Na channel in a distal nephron cell line (A6).
Biophys. J. 61:A535, 1992.
83.
Tohda H, Hagiwara N, MARUNAKA Y.
The property of an amiloride-blockable channel in fetal alveolar epithelial cells of the lung.
Biophys. J. 61:A538, 1992.
82.
MARUNAKA Y.
Insulin-induced activation of an amiloride-blockable Na channel in a distal nephron cell line (A6).
J. Cell Biol. 115:469a, 1991.
81.
MARUNAKA Y, O’Brodovich H.
Characteristics of an amiloride-blockable sodium-permeant channel in fetal epithelial cells of the lung.
J. Cell Biol. 115:469a, 1991.
80.
MARUNAKA Y.
Effects of antidiuretic hormone (ADH) on amiloride-blockable sodium channels in renal epithelia.
Jpn. J. Physiol. 41:S32, 1991.
79.
MARUNAKA Y, Eaton DC.
Effects of Osmolarity on an amiloride-blockable sodium channel in renal epithelia.
FASEB J. 5:A690, 1991.
78.
Ohara A, Matsumoto P, Eaton DC, MARUNAKA Y.
A non-selective cation channel induced by cyclic GMP and nitroprusside.
FASEB J. 5:A689, 1991.
77.
Wang X, Fedorko L, MARUNAKA Y, O’Brodovich H.
Identification of whole-cell Cl– current in human lung peripheral airway epithelium.
FASEB J. 5:A1763, 1991.
76.
MARUNAKA Y.
A model of spare receptors and their effecter.
Biophys. J. 59:528a, 1991.
75.
MARUNAKA Y, Eaton DC.
Activation of an amiloride-blockable sodium channel by low luminal osmolarity in renal epithelial cells.
Biophys. J. 59:648a, 1991.
74.
MARUNAKA Y, Ohara A, Matsumoto P, Eaton DC.
Cyclic GMP and sodium nitroprusside induce a non-selective cation channel in a renal epithelial cell line (A6).
Biophys. J. 59:254a, 1991.
73.
MARUNAKA Y, Eaton DC.
Effect of osmolarity on an amiloride-blockable sodium channel in a renal distal nephron cell line (A6).
J. Gen. Physiol. 96:41a, 1990.
72.
MARUNAKA Y, Eaton DC.
Regulation of an amiloride-blockable Na channel by vasopressin, cyclic adenosine monophosphate and cholera toxin in renal distal nephron cells.
J. Gen. Physiol. 96:41a-42a, 1990.
71.
MARUNAKA Y, Eaton DC.
The regulation of a Ca2+-dependent chloride channel in distal nephron cells by G-proteins. FASEB J. 4:A726, 1990.
70.
Eaton DC, MARUNAKA Y.
Effects of adenosine cyclic monophosphate and cholera toxin on an amiloride-blockage Na channels in renal cells.
FASEB J. 4:A549, 1990.
69.
MARUNAKA Y.
Insulin actions on the property of Na,K-pump.
Biophys. J. 57:351a, 1990.
68.
MARUNAKA Y, Eaton DC.
Effects of pertussis toxin and cholera toxin in a Ca2+-dependent chloride channel in distal nephron cells.
Biophys. J. 57:315a, 1990.
67.
MARUNAKA Y, Eaton DC.
Effects of insulin, phosphatase and cholera toxin on a Ca2+-dependent chloride channel in a distal nephron cell line (A6).
J. Gen. Physiol. 94:31a-32a, 1989.
66.
MARUNAKA Y, Eaton DC.
The kinetics and regulation of a chloride channel in a distal nephron cell line (A6).
FASEB J. 3:A862, 1989.
65.
MARUNAKA Y, Eaton DC.
The regulation of a chloride channel in a distal nephron cell line.
Biophys. J. 55:160a, 1989.
64.
MARUNAKA Y, Eaton DC.
Different types of chloride channels in a distal nephron cell line.
Biophys. J. 55:160a, 1989.
63.
McKean LP, Smith TF, MARUNAKA Y, Eaton DC.
Single channels measured n a transformed murine mast cell line.
J. Allergy & Clinical Immunol. 81:299, 1988.
62.
MARUNAKA Y.
Effects of external K concentration on Na/K coupling of Na,K-pump in frog skeletal muscle. FASEB J. 2:A1303, 1988.
61.
Eaton DC, MARUNAKA Y.
Comparison between effects of amiloride and CDPC on Na channel in cultured renal cells by single channel recording.
FASEB J. 2:A750, 1988.
60.
MARUNAKA Y, Eaton DC.
Effects of CDPC on single channel currents of the amiloride-sensitive Na channel from cultured renal cells.
Biophys. J. 53:522a, 1988.
59.
Murayama K, Ohara A, MARUNAKA Y, Kitasato H.
The effect of acetylcholine on the ionic permeability of pancreatic B cell.
Biophysics 27:S267, 1987.
58.
Murayama K, Ohara A, MARUNAKA Y, Kitasato H.
Characteristics of ionic channels in mouse pancreatic B-cell.
Biophysics 26:S109, 1986.
57.
MARUNAKA Y, Yamanishi K, Hasegawa T, Nishio K, Murayama K, Kitasato H.
Effects of 12-O-tetradecanoylphorbol 13-acetate on Ca transport and membrane potential in HeLa cells.
J. Physiol. Soc. Jpn. 48:530, 1986.
56.
MARUNAKA Y, Murayama K, Kitasato H.
Effects of extracellular K concentration on insulin-induced hyperpolarization.
J. Physiol. Soc. Jpn. 48:530, 1986.
55.
MARUNAKA Y, Kitasato H, Murayama K.
Effects of the external K concentration on the insulin-stimulated Na/K transport in frog skeletal muscles. J. Physiol. Soc. Jpn. 48:176, 1986.
54.
Murayama K, MARUNAKA Y, Ohara A, Kitasato H.
Single-channel currents in mouse pancreatic B cells.
J. Physiol. Soc. Jpn. 48:194, 1986.
53.
Kitasato H, MARUNAKA Y, Kanbe M.
The dependence of insulin-stimulated Na efflux on the internal Na concentration.
J. Physiol. Soc. Jpn. 48:176, 1986.
52.
Ohara A, Doida Y, Murayama K, MARUNAKA Y, Kitasato H.
Voltage clamp study in cynops blastomere – measurement of Na/K pump current.
J. Physiol. Soc. Jpn. 48:160, 1986.
51.
MARUNAKA Y, Murayama K, Ohara A, Kitasato H.
Single ion channels in mouse pancreatic B cell.
J. Physiol. Soc. Jpn. 47:786, 1985.
50.
Kitasato H, MARUNAKA Y, Kanbe M.
Effects of monensin on Na transport in frog skeletal muscle.
Biophysics 25:S156, 1985.
49.
Kitasato H, MARUNAKA Y, Murayama K, Kanbe M.
Insulin action on glucose uptake in frog skeletal muscle.
J. Physiol. Soc. Jpn. 47:30, 1985.
48.
MARUNAKA Y, Murayama K, Ohara A.
Characterization of ionic channels in pancreatic B cells by patch-clamp method.
Biophysics. 25:S48, 1985.
47.
MARUNAKA Y, Murayama K, Ohara A, Kitasato H, Kanbe M.
Survey of ionic channels in the cultured cells derived from pancreatic islets with the patch-clamp method.
J. Physiol. Soc. Jpn. 47:402, 1985.
46.
Kanbe M, MARUNAKA Y, Murayama K, Kitasato H.
Mechanisms of the stimulation of plasma membrane Na,K-ATPase activity by insulin.
J. Physiol. Soc. Jpn. 47:388, 1985.
45.
Ohara A, Doida Y, Murayama K, MARUNAKA Y, Kitasato H.
Membrane potential of Cynops blastomere.
J. Physiol. Soc. Jpn. 47:384, 1985.
44.
Kitasato H, MARUNAKA Y, Kanbe M, Murayama K.
Allosteric characteristics of Na-dependent glucose transport system in skeletal muscle.
Biophysics 24:S56, 1984.
43.
Kanbe M, MARUNAKA Y, Murayama K, Kitasato H.
Insulin action on Na,K-ATPase activity of plasma membrane vesicles of frog skeletal muscle.
Biophysics. 24:S55, 1984.
42.
MARUNAKA Y, Kitasato H, Murayama K, Kanbe M.
Effects of valinomycin and [Na+]o on the insulin-induced stimulation of glucose influx and efflux.
J. Physiol. Soc. Jpn. 46:228, 1984.
41.
Kitasato H, MARUNAKA Y, Murayama K.
Saturable component of glucose transport system in skeletal muscle.
J. Physiol. Soc. Jpn. 46:25, 1984.
40.
Ohara A, Doida Y, Murayama K, MARUNAKA Y, Kitasato H.
Membrane potential of Cynops blastomere. J. Physiol. Soc. Jpn. 46:352, 1984.
39.
Murayama K, Omatsu M, Kitasato H, MARUNAKA Y, Kanbe M.
Mechanisms of action of pyrethroids of the gating of Na channels in crayfish giant axon.
J. Physiol. Soc. Jpn. 46:355, 1984.
38.
Kanbe M, MARUNAKA Y, Murayama K, Kitasato H.
Effects of insulin on the Na, K-ATPase activity of plasma membrane vesicles prepared from frog skeletal muscles.
J. Physiol. Soc. Jpn. 46:346, 1984.
37.
MARUNAKA Y, Kitasato H, Murayama K, Kanbe M.
Characteristics of glucose transport system in frog skeletal muscle.
J. Physiol. Soc. Jpn. 46:345, 1984.
36.
Murayama K, Kitasato H, MARUNAKA Y.
Asymmetrical capacitance currents in the ‘slow’ Na inactivation process in the crayfish giant axon.
Proc. Int’l Union of Physiol. Soc.15:502, 1983.
35.
MARUNAKA Y, Kitasato H, Murayama K.
Effects of cations on the stimulation of glucose uptake by insulin in frog skeletal muscle.
Proc. Int’l Union of Physiol. Sci. 15:44, 1983.
34.
Murayama K, Kitasato H, MARUNAKA Y.
Immobilization of gating charges in the Na channel of crayfish giant axons.
J. Physiol. Soc. Jpn. 45:412, 1983.
33.
MARUNAKA Y, Kitasato H, Murayama K.
Effects of external concentration on the stimulation of glucose influx by insulin in frog skeletal muscle.
J. Physiol. Soc. Jpn. 45:396, 1983.
32.
MARUNAKA Y, Kitasato H, Murayama K, Kanbe M.
The 3-O-methyl-D-glucose transport in bullfrog sartorii.
Biophysics 23:S232, 1983.
31.
Murayama K, Omatsu M, Kitasato H, MARUNAKA Y.
The modification of Na channel gating by pyrethroids in crayfish giant axon.
Biophysics. 23:S128, 1983.
30.
MARUNAKA Y, Kitasato H, Murayama K.
The relationship between the external K concentration and the electrogenicity of Na-K pump in frog skeletal muscle.
J. Physiol. Soc. Jpn. 45:98, 1983
29.
MARUNAKA Y, Kitasato H, Murayama K, Nishio K.
Effects of Na, insulin and ouabain on methylglucose transport.
J. Physiol. Soc. Jpn. 44:68, 1982.
28.
MARUNAKA Y, Kitasato H, Murayama K.
Effects of the internal Na concentration and the resting membrane potential on glucose transport in frog skeletal muscle.
Biophysics 22:S217, 1982.
27.
Murayama K, Kitasato H, MARUNAKA Y.
The process of slow inactivation of Na channel in crayfish giant axon.
Biophysics 22:S187, 1982.
26.
Murayama K, Kitasato H, MARUNAKA Y.
Asymmetric capacitance currents in the “slow” Na inactivation process in the crayfish giant axon.
J. Physiol. Soc. Jpn. 44:347, 1982.
25.
Nishio K, Kitasato H, Murayama K, MARUNAKA Y.
Characteristics of ion-channels in mouse pancreatic B-cells.
J. Physiol. Soc. Jpn. 44:346, 1982.
24.
MARUNAKA Y, Kitasato H, Murayama K, Nishio K.
Effects of resting membrane potentials on 3-O-methyl-D-glucose uptake in skeletal muscles.
J. Physiol. Soc. Jpn. 44:336, 1982.
23.
MARUNAKA Y, Kitasato H, Murayama K, Nishio K.
The effect of insulin on the Na-K ATPase activity of membrane vesicle prepared from frog muscle.
J. Physiol. Soc. Jpn. 44:336, 1982.
22.
MARUNAKA Y, Kitasato H, Murayama K, Nishio K.
Effects of internal and external Na, K and insulin on glucose uptake.
J. Physiol. Soc. Jpn. 43:185, 1981
21.
MARUNAKA Y, Kitasato H, Murayama K, Nishio K.
Effects of Na, K, insulin and ouabain on 3-O-methyl-D-glucose uptake.
Biophysics. 21:S147, 1981.
20.
Murayama K, Kitasato H, Nishio K, MARUNAKA Y.
Asymmetrical capacitance currents in the crayfish giant axon.
Biophysics. 21:S43, 1981.
19.
Murayama K, Kitasato H, Nishio K and MARUNAKA Y.
Asymmetrical capacitance current in the Na inactivation process.
J. Physiol. Soc Jpn. 43:285, 1981.
18.
MARUNAKA Y, Kitasato H, Murayama K, Nishio K.
Effects of Na and insulin on 3-O-methyl-D-Glucose transport.
J. Physiol. Soc. Jpn. 43:281, 1981.
17.
Kitasato H, Murayama K, Nishio K, MARUNAKA Y.
Changes in the intensity of the intrinsic fluorescence of membrane vesicles prepared from frog muscle.
J. Physiol. Soc. Jpn. 43:280, 1981.
16.
Nishio K, Kitasato H, Murayama K, MARUNAKA Y.
The interference between effects of Na and Ca on the membrane potential of pancreatic B cell.
J. Physiol. Soc. Jpn. 42:489, 1980.
15.
MARUNAKA Y, Kitasato H, Murayama K, Nishio K.
The dependency of Na efflux on [Na]i and [K]o.
J. Physiol. Soc. Jpn. 42:489, 1980.
14.
Nishio K, Kitasato H, Murayama K, MARUNAKA Y.
Effects of [Ca]i on the resting membrane potential of pancreatic B cell.
Biophysics 20:S362, 1980.
13.
Murayama K, Kitasato H, Nishio K, MARUNAKA Y.
The inactivation process of Na channel and asymmetric current in crayfish giant axon.
Biophysics 20:S344, 1980.
12.
Kitasato H, MARUNAKA Y, Murayama K, Nishio K.
Insulin-sensitive Na efflux and [K]o.
Biophysics 20:S202, 1980.
11.
Kitasato H, MARUNAKA Y, Murayama K, Nishio K.
Effects of insulin on Na efflux in a K-free solution.
J. Physiol. Soc. Jpn. 42:106-107, 1980.
10.
Nishio K, Kitasato H, Murayama K, MARUNAKA Y.
Effects of [Na]o and [Ca]o on the electrical activity of pancreatic B cell.
J. Physiol. Soc. Jpn. 42:106, 1980.
9.
Nishio K, Kitasato H, Murayama K, Sato S, MARUNAKA Y.
Effects of deoxidization on the electrical activity of pancreatic B cell.
J. Physiol. Soc. Jpn. 42:57, 1980.
8.
Sato S, Kitasato H, MARUNAKA Y, Murayama K, Nishio K.
Effects of [Na]i on the inhibition of Na efflux by ouabain.
J. Physiol. Soc, Jpn. 42:57, 1980.
7.
Nishio K, Kitasato H, Murayama K, MARUNAKA Y.
The possible competition between Na and Ca at the outer entrance of Ca pathway in pancreatic beta bells.
Proc. Int’l Union of Physiol. Sci. 14:613, 1980.
6.
Kitasato H, MARUNAKA Y, Murayama K, Nishio K.
The relation between the inhibition by ouabain of Na efflux and the Na concentration.
Proc. Int’l Union of Physiol. Sci. 14:514, 1980.
5.
Murayama K, Kitasato H, Nishio K, MARUNAKA Y.
Asymmetric capacitance currents by the inactivation of sodium channels.
J. Physiol. Soc Jpn. 42:238, 1980.
4.
Kitasato H, MARUNAKA Y, Murayama K, Nishio N.
The inhibition of insulin-stimulated Na efflux by ouabain.
J. Physiol. Soc. Jpn. 42:234, 1980.
3.
Kitasato H, Sato S, Murayama K, Nishio K, MARUNAKA Y.
Effects of insulin and external K concentrations on the active Na-K transport.
Biophysics 19:202, 1979.
2.
Nishio K, Kitasato H, Murayama K, Sato S, MARUNAKA Y.
Effects of deoxidization on the electrical activity of pancreatic B cell.
Biophysics, 19: S112, 1979.
1.
Murayama K, Kitasato H, Nishio K, Sato S, MARUNAKA Y.
Effects of temperature and [Ca2+] on the asymmetric capacitance current.
Biophysics 19:S100, 1979