The active ion transport properties of canine lingual epithelia in vitro. Implications for gustatory transduction. - Wikidata - awgldk - TriplyDB

The active ion transport properties of canine lingual epithelia in vitro. Implications for gustatory transduction.

The active ion transport properties of canine lingual epithelia in vitro. Implications for gustatory transduction.

http://www.wikidata.org/entity/Q36409000

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Ghrelin is produced in taste cells and ghrelin receptor null mice show reduced taste responsivity to salty (NaCl) and sour (citric acid) tastants.A stimulus-activated conductance in isolated taste epithelial membranes.Direct measurement of translingual epithelial NaCl and KCl currents during the chorda tympani taste response Glucose transporters and ATP-gated K+ (KATP) metabolic sensors are present in type 1 taste receptor 3 (T1r3)-expressing taste cells.Interactions between salt and acid stimuli: a lesson in gustation from simultaneous epithelial and neural recordings.The sense of taste: neurobiology, aging, and medication effects.Distribution and characterization of functional amiloride-sensitive sodium channels in rat tongue.Self-inhibition in amiloride-sensitive sodium channels in taste receptor cells.Contribution of the TRPV1 channel to salt taste quality in mice as assessed by conditioned taste aversion generalization and chorda tympani nerve responses.Contribution of the T1r3 taste receptor to the response properties of central gustatory neurons.Sodium in the food supply: challenges and opportunities.Model for the dynamic responses of taste receptor cells to salty stimuli. I. Function of lipid bilayer membranes.Neurophysiological and biophysical evidence on the mechanism of electric taste.Self-inhibition in Ca2+ -evoked taste responses: a novel tool for functional dissection of salt taste transduction mechanisms.Use of flavor-amplified foods to improve nutritional status in elderly patients.Salt and acid studies on canine lingual epithelium.

P2860

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P2860

The active ion transport properties of canine lingual epithelia in vitro. Implications for gustatory transduction.

http://www.wikidata.org/entity/Q36409000

description

1984 nî lūn-bûn

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1984年の論文

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1984年学术文章

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1984年学术文章

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1984年学术文章

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1984年学术文章

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1984年学术文章

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1984年學術文章

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1984年學術文章

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1984年學術文章

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The active ion transport prope ...... ns for gustatory transduction.

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The Journal of General Physiology

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The active ion transport prope ...... ns for gustatory transduction.

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G L Heck

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J A Desimone

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S K Desimone

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S Mierson

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P2860

Amiloride reduces the taste intensity of Na+ and Li+ salts and sweeteners

Volume regulation by Amphiuma red blood cells. The membrane potential and its implications regarding the nature of the ion-flux pathways.

Cation permeation mechanisms and cation selectivity in "tight junctions" of gallbladder epithelium.

Vascular anatomy and tissue osmolality in the filiform and fungiform papillae of the cat's tongue.

Epithelial cell volume modulation and regulation.

Neural effects of electrical taste stimuli.

Rapid penetration of potassium and other salts into the frog tongue papilla.

Energetics of active transport processes.

Effect of Ca2+, cyclic GMP, and cyclic AMP added to artificial solution perfusing lingual artery on frog gustatory nerve responses.

A theory of taste stimulation

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633-656

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6330275

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