scholarly article | Q13442814 |
P50 | author | Brian J. Harvey | Q37842897 |
P2093 | author name string | Kernan RP | |
P2860 | cites work | Intracellular Na+ activity as a function of Na+ transport rate across a tight epithelium | Q34255026 |
THE INFLUENCE OF NA CONCENTRATION ON NA TRANSPORT ACROSS FROG SKIN. | Q36374567 | ||
The penetration of sodium into the epithelium of the frog skin | Q36387508 | ||
Microelectrode studies of the active Na transport pathway of frog skin | Q36407847 | ||
Direct Measurement of Uptake of Sodium at the Outer Surface of the Frog Skin | Q36427994 | ||
Dissociation of cellular K+ accumulation from net Na+ transport by toad urinary bladder | Q39608078 | ||
Sodium transport across toad urinary bladder: a model "tight" epithelium | Q40120794 | ||
Estimation of the physical state of potassium in frog bladder cells by ion exchanger microelectrode | Q40660475 | ||
Reduction of chloride fluxes by amiloride across the short-circuited frog skin | Q40675676 | ||
The relationship of K+ efflux at the inner surface of the isolated frog skin epithelium to the short circuit current | Q40720344 | ||
Letter: Impalement artifacts in microelectrode recordings of epithelial membrane potentials | Q41483464 | ||
Electrical properties of amphibian urinary bladder epithelia. III. The cell membrane resistances and the effect of amiloride | Q42135165 | ||
Risk and advantages of using strongly beveled microelectrodes for electrophysiological studies in cardiac Purkinje fibers | Q43482876 | ||
The intracellular electrical potential profile of the frog skin epithelium | Q44986898 | ||
Relationships between serosal medium potassium concentration and sodium transport in toad urinary bladder. III. Exchangeability of epithelial cellular potassium | Q45226451 | ||
Thick slurry bevelling: a new technique for bevelling extremely fine microelectrodes and micropipettes | Q46820531 | ||
Nature and Localization of the Sodium Pool during Active Transport in the Isolated Frog Skin | Q52744969 | ||
Chloride activities in epithelia. | Q52757040 | ||
State and distribution of potassium and sodium ions in frog skeletal muscle. | Q52922769 | ||
Volume changes and potential artifacts of epithelial cells of frog skin following impalement with microelectrodes filled with 3 m KCl. | Q54157219 | ||
Amiloride and the sodium channel. | Q54295821 | ||
Intracellular ionic activities in frog skin. | Q54400553 | ||
Transcellular cross-talk between epithelial cell membranes. | Q55063007 | ||
Location of the Mechanism of Active Transport of Sodium across the Frog Skin | Q58990424 | ||
Proceedings: Changes in potassium activity within frog sartorius muscle fibres during sodium enrichment in potassium-free Ringer fluid | Q66959916 | ||
Intracellular gradients of ion activities in the epithelial cells of theNecturus gallbladder recorded with ion-selective microelectrodes | Q67319145 | ||
Electron microprobe analysis of frog skin epithelium: Evidence for a syncytial sodium transport compartment | Q67319148 | ||
The sodium transport pool in toad urinary bladder epithelial cells | Q67509886 | ||
Sodium transport across the isolated epithelium of the frog skin | Q68620971 | ||
New design for a chloride-sensitive micro-electrode | Q69545565 | ||
Sodium transport inhibition by amiloride reduces basolateral membrane potassium conductance in tight epithelia | Q70322946 | ||
A double (series) pump model for transporting epithelia | Q70500168 | ||
An electrometric method for measurement of small pH changes in biological systems | Q70656350 | ||
Fabrication of extremely fine glass micropipette electrodes | Q71263659 | ||
Effect of Amiloride on sodium transport of frog skin. I. Action on intracellular sodium content | Q71551082 | ||
Electrical potential gradients through frog skin | Q74547773 | ||
NATURE OF SHUNT PATH AND ACTIVE SODIUM TRANSPORT PATH THROUGH FROG SKIN EPITHELIUM | Q76957690 | ||
The nature of the frog skin potential | Q77183238 | ||
Osmotic behaviour of the epithelial cells of frog skin | Q78996103 | ||
Secretion of sodium ions by the frog's sartorius | Q79184585 | ||
P407 | language of work or name | English | Q1860 |
P921 | main subject | Anura | Q53636 |
amiloride | Q419995 | ||
P304 | page(s) | 501-517 | |
P577 | publication date | 1984-04-01 | |
P1433 | published in | Journal of Physiology | Q7743612 |
P1476 | title | Intracellular ion activities in frog skin in relation to external sodium and effects of amiloride and/or ouabain. | |
P478 | volume | 349 |
Q41248133 | Acid secretion through the Rana esculenta skin: involvement of an anion-exchange mechanism at the basolateral membrane |
Q43295253 | Actions of antidiuretic hormone analogues on intact and nystatin-permeabilized frog skins |
Q46418169 | Altered electrical potential profile of human reabsorptive sweat duct cells in cystic fibrosis |
Q52682445 | Cell K activity in frog skin in the presence and absence of cell current. |
Q54150176 | Cell sodium activity and sodium pump function in frog skin. |
Q69877952 | Cl transport across the basolateral membrane in frog skin epithelium |
Q36499937 | Construction of K+- and Na+-sensitive theta-microelectrodes with fine tips: an easy method with high yield |
Q53991549 | Cross-talk between ATP-regulated K+ channels and Na+ transport via cellular metabolism in frog skin principal cells. |
Q40950221 | Cross-talk between sodium and potassium channels in tight epithelia |
Q48660291 | Determination of the electromotive force of active sodium transport in frog skin epithelium (Rana temporaria) from presteady-state flux ratio experiments |
Q51469851 | Different pathways for Ca2+ mobilization by angiotensin II and carbachol in the circular muscle of the guinea-pig ileum. |
Q54456044 | Electrogenic active proton pump in Rana esculenta skin and its role in sodium ion transport. |
Q43899281 | Evidence for a Na+/H+ exchanger at the basolateral membranes of the isolated frog skin epithelium: effect of amiloride analogues |
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Q52538432 | Interactions of TPA and insulin on Na+ transport across frog skin. |
Q36409662 | Interactions of sodium transport, cell volume, and calcium in frog urinary bladder |
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Q42519978 | Intracellular potentials of microperfused human sweat duct cells |
Q36411521 | Inward-rectifier potassium channels in basolateral membranes of frog skin epithelium |
Q70374539 | Ion transport by mitochondria-rich cells in toad skin |
Q54439313 | Ion-selective micro-electrode studies of the electrochemical potentials in trout urinary bladder. |
Q54437605 | Membrane potentials and intracellular Cl- activity of toad skin epithelium in relation to activation and deactivation of the transepithelial Cl- conductance. |
Q52559508 | Metabolic inhibition and chloride transport in isolated toad skin. |
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Q37834698 | Reconciling the Krogh and Ussing interpretations of epithelial chloride transport - presenting a novel hypothesis for the physiological significance of the passive cellular chloride uptake |
Q52644565 | Regulation of intracellular sodium and pH by the electrogenic H+ pump in frog skin. |
Q34793545 | Role of Ca(+)-dependent K-channels in the membrane potential and contractility of aorta from spontaneously hypertensive rats |
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Q52431790 | Sodium-selective micro-electrode study of apical permeability in frog skin: effects of sodium, amiloride and ouabain. |
Q38160707 | The amiloride-sensitive sodium channel |
Q69418668 | The coupled movements of sodium and chloride across the basolateral membrane of frog skin epithelium |
Q43712380 | The intracellular sodium concentration and activity and the extracellular space in isolated frog sartorii |
Q44721840 | The key role of the mitochondria-rich cell in Na+ and H+ transport across the frog skin epithelium |
Q43910783 | Transcellular sodium transport in cultured cystic fibrosis human nasal epithelium |
Q48172586 | Transepithelial sodium transport across frog skin. |
Q61458731 | Volume-activated Cl(-)-independent and Cl(-)-dependent K+ pathways in trout red blood cells |
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