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Общее количество найденных документов : 24
Показаны документы с 1 по 20
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1.
| Escobar Water handling in the human distal colon in vitro: role of Na+, Cland CHO3] // Biochem. et biophys. acta. Biomembranes, 1990. Vol. 1027, N 3.-С.257-263
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2.
| Transepithelial potential differences and Na{+} flux in isolated perfused gills of the crab Chasmagnathus granulatus (Grapsidae) acclimated to hyper- and hypo-salinity // J. Exp. Biol., 2002. Vol. 205, N 1.-С.71-77
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3.
| Zhang Transepithelial potential and resistance of the isolated rabbit and bovine lens epithelia // J. Physiol., 1991. Vol. 452.-С.58
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4.
| Moffett David F. Transepithelial potential and alkalization in an in situ preparation of tobacco hornworm (Manduca sexta) midgut // J. Exp. Biol., 1994. Vol. 194.-С.341-345
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5.
| Hotary Kevin B. The neural tube of the Xenopus embryo maintains a potential difference across itself // Dev. Brain Res., 1991. Vol. 59, N 1.-С.65-73
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6.
| The loci of carbonic anhydrase activity in the ciliary epithelium of the rabbit eye: Electrophysiological study with isolated ciliary epithelial bilayer // Acta histochem. et cytochem., 1992. Vol. 25, N 1-2.-С.77-85
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7.
| Clark Thomas M. The anterior and posterior 'stomach' regions of larval Aedes aegypti midgut: Regional specialization of ion transport and stimulation by 5-hydroxytryptamine // J. Exp. Biol., 1999. Vol. 202, N 3.-С.247-252
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8.
| Sodium transport from endolymph to perilymph across the isolated frop inner-ear epithelium // J. Physiol., 1988. Vol. 406.-С.120Р
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9.
| Oscillations of the transepithelial potential of moth olfactory sensilla are influenced by octopamine and serotonin // J. Exp. Biol., 2001. Vol. 204, N 16.-С.2781-2794
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10.
| Armstrong Observations of isolated rabbit retinal pigment epithelium // J. Physiol., 1989. Vol. 412.-С.69Р
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11.
| Jungwirth A. Kallikrein Does Not Modify the Transepithelial Potential of Rat Renal Distal Convoluted Tubules // Nephron, 1991. Vol. 58, N 2.-С.225-228
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12.
| Wangemann Ion transprot mechanisms responsible for K{+} secretion and the transpithelial voltage across marginal cells of stria vascularis in vitro // Hear. Res., 1995. Vol. 84, N 1-2.-С.19-29
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13.
| Ion transport by primary cultures of Mongolian gerbil middle ear epithelium // Amer. J. Physiol., 1992. Vol. 262, N 3.-С.F373-F380
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14.
| Civan Mortimer M. Insulin and phorbol ester stimulate conductive Na+ transport through a common pathway // Proc. Nat. Acad. Sci. USA, 1988. Vol. 85, N 3.-С.963-967
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15.
| In vivo study of the electrochemical composition of luminal fluid in the guinea pig endolymphatic sac // Acta oto-laryngol., 1999. Vol. 119, N 2.-С.200-202
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16.
| Dankoski E.J. In situ transepithelial potential in the midgut of the tobacco hornworm during larval-larval molting // Amer. Zool., 1996. Vol. 36, N 5.-С.43
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17.
| Evidence for apical K conductance and Na-K-2Cl cotransport in the endolymphatic sac of guinea pig // Hear. Res., 1999. Vol. 128, N 1-2.-С.45-50
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18.
| Electrical fields in the vicinity of small wounds in Notophthalmus viridescens skin // Biol. Bull., 1989. Vol. 176, N 2 Suppl.-С.179-183
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19.
| Wood Chris M. Electrical aspects of the osmorepsiratory compromise: TEP responses to hypoxia in the eurahaline killifish (Fundulus heteroclitus) in freshwater and seawatern // J. Exp. Biol., 2015. Vol. 218, N 14.-С.2152-2155
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20.
| Chamberlin M.E. Effects of metabolic substrates on the transepithelial potential (TEP) across tobacco hornworm (Manduca sexta) midgut // Proc. 18th Int. Congr. Entomol., Vancouver, July, 3rd-9th, 1988. -Vancouver, 1988.-С.135
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