| Year |
Citation |
Score |
| 2017 |
Izu H, Shigemori K, Eguchi M, Kawane S, Fujii S, Kitamura Y, Aoshima H, Yamada Y. Direct activation of GABAA receptors by substances in the organic acid fraction of Japanese sake. Food Chemistry. 214: 354-9. PMID 27507485 DOI: 10.1016/j.foodchem.2016.07.048 |
0.365 |
|
| 2008 |
Mitou M, Shigemori Y, Aoshima H, Yokoyama S. Effect of dried bonito (katsuobushi) and some of its components on GABAA receptors. Food Chemistry. 108: 840-6. PMID 26065743 DOI: 10.1016/j.foodchem.2007.11.045 |
0.378 |
|
| 2008 |
AOSHIMA H. Effect of Fragrant Components in Liquors on the Response of GABAA Receptors Journal of the Brewing Society of Japan. 103: 208-222. DOI: 10.6013/jbrewsocjapan1988.103.208 |
0.34 |
|
| 2008 |
Mitou M, Shigemori Y, Aoshima H, Yokoyama S. Effect of dried bonito (katsuobushi) and some of its components on GABAA receptors Food Chemistry. 108: 840-846. DOI: 10.1016/j.foodchem.2007.11.045 |
0.378 |
|
| 2005 |
Aoshima H, Okita Y, Hossain SJ, Fukue K, Mito M, Orihara Y, Yokoyama T, Yamada M, Kumagai A, Nagaoka Y, Uesato S, Hara Y. Effect of 3-O-octanoyl-(+)-catechin on the responses of GABA(A) receptors and Na+/glucose cotransporters expressed in xenopus oocytes and on the oocyte membrane potential. Journal of Agricultural and Food Chemistry. 53: 1955-9. PMID 15769120 DOI: 10.1021/jf048492c |
0.325 |
|
| 2001 |
Aoshima H, Hossain SJ, Imamura H, Shingai R. Effects of bisphenol A and its derivatives on the response of GABA(A) receptors expressed in Xenopus oocytes. Bioscience, Biotechnology, and Biochemistry. 65: 2070-7. PMID 11676023 DOI: 10.1271/bbb.65.2070 |
0.34 |
|
| 1999 |
Aoshima H, Hamamoto K. Potentiation of GABAA receptors expressed in Xenopus oocytes by perfume and phytoncid. Bioscience, Biotechnology, and Biochemistry. 63: 743-8. PMID 10361687 |
0.374 |
|
| 1998 |
Aoshima H. Potentiation of GABAA receptors by perfumes Neuroscience Research. 31: S73. DOI: 10.1016/S0168-0102(98)81857-9 |
0.428 |
|
| 1992 |
Aoshima H, Inoue Y, Hori K. Inhibition of ionotropic neurotransmitter receptors by antagonists: strategy to estimate the association and the dissociation rate constant of antagonists with very strong affinity to the receptors. Journal of Biochemistry. 112: 495-502. PMID 1337082 |
0.483 |
|
| 1992 |
Aoshima H, Inoue Y, Ueda E, Kitagawa M, Nishino T. Minimal model analyzing response of glycine receptors expressed in Xenopus oocyte: inhibition by a lipid hydroperoxide. Journal of Biochemistry. 111: 523-8. PMID 1319991 |
0.453 |
|
| 1992 |
Aoshima H, Inoue Y, Tanaka D. A minimal model to account for the response of N-Methyl-D-aspartate receptors expressed in Xenopus oocyte injected with rat brain mRNA. Neurochemistry International. 20: 299-306. PMID 1304327 DOI: 10.1016/0197-0186(92)90044-R |
0.343 |
|
| 1990 |
Aoshima H. Acetylcholine receptor-mediated membrane current in oocytes injected with Electrophorus electricus mRNA: analyses of nicotine, succinylcholine, and decamethonium responses on the basis of the minimal model. Journal of Biochemistry. 108: 947-53. PMID 2089041 |
0.513 |
|
| 1987 |
Aoshima H, Hori K, Yamamoto A. Acetylcholine receptor-controlled ion translocation caused by phenyltrimethylammonium and nereistoxin: simple estimation of equilibrium constants of the minimal model. Journal of Biochemistry. 101: 347-55. PMID 3584090 |
0.564 |
|
| 1987 |
Aoshima H, Iio H, Anan M, Ishii H, Kobayashi S. Induction of muscarinic acetylcholine, serotonin and substance P receptors in Xenopus oocytes injected with mRNA prepared from the small intestine of rats. Brain Research. 388: 15-20. PMID 3034374 DOI: 10.1016/0169-328X(87)90016-7 |
0.363 |
|
| 1987 |
Aoshima H, Anan M, Ishii H. Effect of lipid hydroperoxide on Xenopus oocytes and on neurotransmitter receptors synthesized in Xenopus oocytes injected with exogenous mRNA. Archives of Biochemistry and Biophysics. 258: 324-31. PMID 2823711 DOI: 10.1016/0003-9861(87)90351-1 |
0.467 |
|
| 1986 |
Kobayashi S, Iio H, Aoshima H. New translation system of mRNA coding for neurotransmitter receptors using oocytes of the newt, Cynops pyrrhogaster. Brain Research. 387: 93-6. PMID 3742236 DOI: 10.1016/0169-328X(86)90024-0 |
0.312 |
|
| 1986 |
Aoshima H, Iio H, Kobayashi S. Li+ uptake into Xenopus and Cynops oocytes injected with exogenous mRNA, observed by flame emission spectroscopy. Analytical Biochemistry. 156: 257-62. PMID 3740415 DOI: 10.1016/0003-2697(86)90181-8 |
0.353 |
|
| 1985 |
Cash DJ, Aoshima H, Pasquale EB, Hess GP. Acetylcholine-receptor-mediated ion fluxes in Electrophorus electricus and Torpedo california membrane vesicles. Reviews of Physiology, Biochemistry and Pharmacology. 102: 73-117. PMID 2412273 DOI: 10.1007/Bfb0034085 |
0.789 |
|
| 1984 |
Aoshima H. A second, slower inactivation process in acetylcholine receptor-rich membrane vesicles prepared from Electrophorus electricus. Archives of Biochemistry and Biophysics. 235: 312-8. PMID 6517593 DOI: 10.1016/0003-9861(84)90203-0 |
0.463 |
|
| 1983 |
Aoshima H. Inhibition schemes for acetylcholine receptor-mediated ion translocation in the presence of various kinds of inhibitors. Journal of Biochemistry. 94: 1739-51. PMID 6323379 |
0.459 |
|
| 1983 |
Hess GP, Cash DJ, Aoshima H. Acetylcholine receptor-controlled ion translocation: chemical kinetic investigations of the mechanism. Annual Review of Biophysics and Bioengineering. 12: 443-73. PMID 6307118 DOI: 10.1146/annurev.bb.12.060183.002303 |
0.781 |
|
| 1982 |
Karpen JW, Aoshima H, Abood LG, Hess GP. Cocaine and phencyclidine inhibition of the acetylcholine receptor: analysis of the mechanisms of action based on measurements of ion flux in the millisecond-to-minute time region. Proceedings of the National Academy of Sciences of the United States of America. 79: 2509-13. PMID 6953408 DOI: 10.1073/Pnas.79.8.2509 |
0.795 |
|
| 1981 |
Ramseyer GO, Morrison GH, Aoshima H, Hess GP. Vidicon flame emission spectroscopy of Li+, Na+, and K+ fluxes mediated by acetylcholine receptor in Electrophorus electricus membrane vesicles. Analytical Biochemistry. 115: 34-41. PMID 7304950 DOI: 10.1016/0003-2697(81)90518-2 |
0.684 |
|
| 1981 |
Aoshima H, Cash DJ, Hess GP. Mechanism of inactivation (desensitization) of acetylcholine receptor. Investigations by fast reaction techniques with membrane vesicles. Biochemistry. 20: 3467-74. PMID 7260051 DOI: 10.1021/Bi00515A025 |
0.81 |
|
| 1981 |
Hess GP, Aoshima H, Cash DJ, Lenchitz B. Specific reaction rate of acetylcholine receptor-controlled ion translocation: a comparison of measurements with membrane vesicles and with muscle cells. Proceedings of the National Academy of Sciences of the United States of America. 78: 1361-5. PMID 6940163 DOI: 10.1073/Pnas.78.3.1361 |
0.804 |
|
| 1981 |
Cash DJ, Aoshima H, Hess GP. Acetylcholine-induced cation translocation across cell membranes and inactivation of the acetylcholine receptor: chemical kinetic measurements in the millisecond time region. Proceedings of the National Academy of Sciences of the United States of America. 78: 3318-22. PMID 6267581 DOI: 10.1073/Pnas.78.6.3318 |
0.824 |
|
| 1980 |
Hess GP, Cash DJ, Aoshima H. Kinetic mechanism of acetylcholine receptor-controlled ion flux: Flow quench kinetic measurements of acetylcholine-induced flux in membrane vesicles. Neurochemistry International. 2: 233-42. PMID 20487789 DOI: 10.1016/0197-0186(80)90030-3 |
0.827 |
|
| 1980 |
Aoshima H, Cash DJ, Hess GP. Acetylcholine receptor-controlled ion flux in electroplax membrane vesicles: a minimal mechanism based on rate measurements in the millisecond to minute time region. Biochemical and Biophysical Research Communications. 92: 896-904. PMID 7362613 DOI: 10.1016/0006-291X(80)90787-1 |
0.824 |
|
| 1980 |
Cash DJ, Aoshima H, Hess GP. Acetylcholine-induced receptor-controlled ion flux investigated by flow quench techniques. Biochemical and Biophysical Research Communications. 95: 1010-6. PMID 6251825 DOI: 10.1016/0006-291X(80)91573-9 |
0.819 |
|
| 1979 |
Hess GP, Cash DJ, Aoshima H. Acetylcholine receptor-controlled ion fluxes in membrane vesicles investigated by fast reaction techniques. Nature. 282: 329-31. PMID 503209 DOI: 10.1038/282329A0 |
0.806 |
|
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