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Expression of genes encoding multi-transmembrane proteins in specific primate taste cell populationsThe cell biology of tasteInteraction between PKD1L3 and PKD2L1 through their transmembrane domains is required for localization of PKD2L1 at taste pores in taste cells of circumvallate and foliate papillaeWhy do taste cells generate action potentials?Case Report: Diagnosis of hypogeusia after oral exposure to commercial cleaning agent and considerations for clinical taste testing.Sour taste responses in mice lacking PKD channelsIntracellular Ca(2+) and TRPM5-mediated membrane depolarization produce ATP secretion from taste receptor cells.Linkage between increased nociception and olfaction via a SCN9A haplotypeInward rectifier channel, ROMK, is localized to the apical tips of glial-like cells in mouse taste budsInhibition of neuronal voltage-gated sodium channels by brilliant blue GContribution of Underlying Connective Tissue Cells to Taste Buds in Mouse Tongue and Soft Palate.Exploring the potential of laser capture microdissection technology in integrated oral biosciences.Mouse nasal epithelial innate immune responses to Pseudomonas aeruginosa quorum-sensing molecules require taste signaling components.Inflammatory stimuli acutely modulate peripheral taste functionThe endocrinology of taste receptors.Interleukin-10 is produced by a specific subset of taste receptor cells and critical for maintaining structural integrity of mouse taste buds.How do taste cells lacking synapses mediate neurotransmission? CALHM1, a voltage-gated ATP channel.Taste receptors in innate immunityComparison of fluorescence probes for intracellular sodium imaging in prostate cancer cell linesA regulatory gene network related to the porcine umami taste receptor (TAS1R1/TAS1R3).Taste Receptors: Regulators of Sinonasal Innate Immunity.Action potential-enhanced ATP release from taste cells through hemichannels.Identification of new binding partners of the chemosensory signaling protein Gγ13 expressed in taste and olfactory sensory cells.Organization and Plasticity of Sodium Channel Expression in the Mouse Olfactory and Vomeronasal EpitheliaSodium channel NaV1.3 is important for enterochromaffin cell excitability and serotonin release.Cell-type-dependent action potentials and voltage-gated currents in mouse fungiform taste buds.Action potentials and ion conductances in wild-type and CALHM1-knockout type II taste cells.Subtype-dependent postnatal development of taste receptor cells in mouse fungiform taste buds.Chemical synapses without synaptic vesicles: Purinergic neurotransmission through a CALHM1 channel-mitochondrial signaling complex.FXYD6, a Na,K-ATPase Regulator, Is Expressed in Type II Taste Cells
P2860
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P2860
description
2009 nî lūn-bûn
@nan
2009 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի մարտին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
Voltage-gated sodium channels in taste bud cells.
@ast
Voltage-gated sodium channels in taste bud cells.
@en
type
label
Voltage-gated sodium channels in taste bud cells.
@ast
Voltage-gated sodium channels in taste bud cells.
@en
prefLabel
Voltage-gated sodium channels in taste bud cells.
@ast
Voltage-gated sodium channels in taste bud cells.
@en
P2093
P2860
P356
P1433
P1476
Voltage-gated sodium channels in taste bud cells.
@en
P2093
Albert Zlotnik
Bianca Laita
Bryan D Moyer
Dalia Kalabat
Fernando Echeverri
Mark E Williams
Peter Hevezi
P2860
P2888
P356
10.1186/1471-2202-10-20
P577
2009-03-12T00:00:00Z
P5875
P6179
1004513772