Deletion of voltage-gated channel affects glomerular refinement and odorant receptor expression in the mouse olfactory system.
about
Kv1.3 gene-targeted deletion alters longevity and reduces adiposity by increasing locomotion and metabolism in melanocortin-4 receptor-null miceIon Channels in Obesity: Pathophysiology and Potential Therapeutic TargetsMitral cells of the olfactory bulb perform metabolic sensing and are disrupted by obesity at the level of the Kv1.3 ion channelUbiquitin ligase Nedd4-2 modulates Kv1.3 current amplitude and ion channel protein targetingHyperlipidemic diet causes loss of olfactory sensory neurons, reduces olfactory discrimination, and disrupts odor-reversal learning.The slack sodium-activated potassium channel provides a major outward current in olfactory neurons of Kv1.3-/- super-smeller mice.Localization of Kv1.3 channels in presynaptic terminals of brainstem auditory neurons.Brain-derived neurotrophic factor modulation of Kv1.3 channel is disregulated by adaptor proteins Grb10 and nShc.MeCP2 is required for activity-dependent refinement of olfactory circuits.The source of spontaneous activity in the main olfactory bulb of the rat.Hyperpolarization-activated cyclic nucleotide-gated channels in olfactory sensory neurons regulate axon extension and glomerular formation.Supernumerary formation of olfactory glomeruli induced by chronic odorant exposure: a constructivist expression of neural plasticityCharting plasticity in the regenerating maps of the mammalian olfactory bulbGranzyme B-induced neurotoxicity is mediated via activation of PAR-1 receptor and Kv1.3 channel.Physiological evidence for two classes of mitral cells in the rat olfactory bulb.State-dependent sculpting of olfactory sensory neurons is attributed to sensory enrichment, odor deprivation, and aging.Diet-induced obesity resistance of Kv1.3-/- mice is olfactory bulb dependent.Odor enrichment sculpts the abundance of olfactory bulb mitral cells.Mitochondrial Ultrastructure and Glucose Signaling Pathways Attributed to the Kv1.3 Ion Channel.Modulation of spontaneous and odorant-evoked activity of rat olfactory sensory neurons by two anorectic peptides, insulin and leptin.Does the brain connect before the periphery can direct? A comparison of three sensory systems in miceA TAP1 null mutation leads to an enlarged olfactory bulb and supernumerary, ectopic olfactory glomeruli.Awake intranasal insulin delivery modifies protein complexes and alters memory, anxiety, and olfactory behaviors.Wiring Olfaction: The Cellular and Molecular Mechanisms that Guide the Development of Synaptic Connections from the Nose to the Cortex.The Olfactory Bulb: A Metabolic Sensor of Brain Insulin and Glucose Concentrations via a Voltage-Gated Potassium Channel.Margatoxin-bound quantum dots as a novel inhibitor of the voltage-gated ion channel Kv1.3.Expression of Kv1.3 potassium channels regulates density of cortical interneuronsHyperpolarisation-activated cyclic nucleotide-gated channels regulate the spontaneous firing rate of olfactory receptor neurons and affect glomerular formation in mice.
P2860
Q24642217-6C8F852A-09EF-411E-B86F-1090E6887B27Q26749884-1B10168F-CD58-4643-B133-9FB502D3643DQ28477178-C0FE83B8-136F-4BB0-96B5-ECD9D727FE88Q30008928-681054C8-EAFA-4AAD-90D3-39E905AAEF20Q30409547-0A28A4B4-BDDD-4115-BD1E-2E9804113559Q30475330-1CC38690-B3FC-4CC9-94D0-1AE2E762CCFFQ30495209-04862CF1-B54F-4F06-96E9-A11A56A18463Q33402663-46AB91BB-53E4-4359-84C1-D7496CCDB0E7Q33560766-2A2CF4E8-F69D-466B-B83D-88116ED66F60Q34017650-52477954-716C-4E2E-8647-873D774DC231Q34154228-00A541DE-ED40-409B-8D41-A4640F261F22Q34237009-E4F344CF-0FA1-4A69-8F77-C0549D9DF5B5Q34280971-25802F8B-8559-4DE1-9AB9-1B93212C84F7Q34405882-1533C649-515C-4367-B7E9-FB9AF2CB9E6AQ34447187-49915B1C-A6DF-43C1-BA79-B0DD11213AEEQ34960651-4F0F1261-B81F-4CC6-A593-0593125D6B41Q36080933-3362474C-6B4C-4CA6-A2E3-08398CFCE9B8Q36781362-AC241D36-3D1B-442C-84C8-D04AD83C2656Q36913999-660B703A-F565-44AD-B9D3-D682E90DBF66Q37221859-9BC2C167-0304-4980-A6D7-A41D6DD99ABFQ37237169-BADE4985-A24E-422F-9B83-3F314A9D6DC2Q37400776-F58FB8C0-96A6-48D3-A973-F9B6A9D786D8Q37425558-171A5815-E89E-4225-AEEA-3740FB436622Q37768036-F96FD720-44F1-46EF-9AEB-CA1D7253F4C6Q37791900-E0C86D16-9213-457E-AFAD-2391207ECD91Q38290139-CFED6709-8A78-465E-9FB8-4A6A9BA621B6Q41948674-01DB3803-12F6-4B7B-9515-3A9BAE6452E0Q42519313-2BDBD00F-A00C-44AB-87DE-FE065D320DEF
P2860
Deletion of voltage-gated channel affects glomerular refinement and odorant receptor expression in the mouse olfactory system.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on January 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Deletion of voltage-gated chan ...... in the mouse olfactory system.
@en
Deletion of voltage-gated chan ...... in the mouse olfactory system.
@nl
type
label
Deletion of voltage-gated chan ...... in the mouse olfactory system.
@en
Deletion of voltage-gated chan ...... in the mouse olfactory system.
@nl
prefLabel
Deletion of voltage-gated chan ...... in the mouse olfactory system.
@en
Deletion of voltage-gated chan ...... in the mouse olfactory system.
@nl
P2093
P2860
P356
P1476
Deletion of voltage-gated chan ...... in the mouse olfactory system.
@en
P2093
David Ronald Marks
Debra Ann Fadool
Thomas Gerald Mast
P2860
P304
P356
10.1002/CNE.21540
P407
P577
2008-01-01T00:00:00Z