Distribution of the Na,K-ATPase alpha subunit in the rat spiral ganglion and organ of corti.
about
Dynamics of cochlear synaptopathy after acoustic overexposure.Ouabain-induced cochlear degeneration in rat.Synaptopathy in the noise-exposed and aging cochlea: Primary neural degeneration in acquired sensorineural hearing loss.Deletion of Shank1 has minimal effects on the molecular composition and function of glutamatergic afferent postsynapses in the mouse inner earLocalization of kainate receptors in inner and outer hair cell synapsesAminoglycoside ototoxicity and hair cell ablation in the adult gerbil: A simple model to study hair cell loss and regeneration.Developmental refinement of hair cell synapses tightens the coupling of Ca2+ influx to exocytosis.Ouabain-induced cochlear nerve degeneration: synaptic loss and plasticity in a mouse model of auditory neuropathy.Excitability of type II cochlear afferents.Olivocochlear suppression of outer hair cells in vivo: evidence for combined action of BK and SK2 channels throughout the cochlea.Age-related cochlear synaptopathy: an early-onset contributor to auditory functional decline.Dopaminergic signaling in the cochlea: receptor expression patterns and deletion phenotypes.Sox2 up-regulation and glial cell proliferation following degeneration of spiral ganglion neurons in the adult mouse inner ear.Opposing gradients of ribbon size and AMPA receptor expression underlie sensitivity differences among cochlear-nerve/hair-cell synapsesUnmyelinated auditory type I spiral ganglion neurons in congenic Ly5.1 mice.The mouse cochlea expresses a local hypothalamic-pituitary-adrenal equivalent signaling system and requires corticotropin-releasing factor receptor 1 to establish normal hair cell innervation and cochlear sensitivityDendritic HCN channels shape excitatory postsynaptic potentials at the inner hair cell afferent synapse in the mammalian cochleaRestoration of auditory evoked responses by human ES-cell-derived otic progenitors.Calretinin and calbindin distribution patterns specify subpopulations of type I and type II spiral ganglion neurons in postnatal murine cochleaBK channels mediate cholinergic inhibition of high frequency cochlear hair cells.The Structure and Function of the Na,K-ATPase Isoforms in Health and Disease.Ca(2+) and Ca(2+)-activated K(+) channels that support and modulate transmitter release at the olivocochlear efferent-inner hair cell synapseActivated notch causes deafness by promoting a supporting cell phenotype in developing auditory hair cells.Glutamatergic signaling at the vestibular hair cell calyx synapse.Properties and expression of Na+/K+-ATPase α-subunit isoforms in the brain of the swamp eel, Monopterus albus, which has unusually high brain ammonia toleranceSubunit isoform selectivity in assembly of Na,K-ATPase α-β heterodimersOuabain-induced apoptosis in cochlear hair cells and spiral ganglion neurons in vitro.A novel recurrent mutation in ATP1A3 causes CAPOS syndrome.STED microscopy: increased resolution for medical research?CAOS-Episodic Cerebellar Ataxia, Areflexia, Optic Atrophy, and Sensorineural Hearing Loss: A Third Allelic Disorder of the ATP1A3 Gene.Type II Cochlear Ganglion Neurons Do Not Drive the Olivocochlear Reflex: Re-Examination of the Cochlear Phenotype in Peripherin Knock-Out Mice.The potential use of low-frequency tones to locate regions of outer hair cell loss.Opposing expression gradients of calcitonin-related polypeptide alpha (Calca/Cgrpα) and tyrosine hydroxylase (Th) in type II afferent neurons of the mouse cochlea.Distribution of Na,K-ATPase α subunits in rat vestibular sensory epithelia.Contribution of auditory nerve fibers to compound action potential of the auditory nerve.ATP1A3 mutations can cause progressive auditory neuropathy: a new gene of auditory synaptopathy.The CAPOS mutation in ATP1A3 alters Na/K-ATPase function and results in auditory neuropathy which has implications for management.mGluR1 enhances efferent inhibition of inner hair cells in the developing rat cochlea.Tyrosine Hydroxylase Expression in Type II Cochlear Afferents in Mice.Dose-dependent effects of ouabain on spiral ganglion neurons and Schwann cells in mouse cochlea.
P2860
Q27318688-1FAC6B89-7991-4032-BC46-E48C59678329Q28385303-814D11CF-36F7-4E73-BC5D-76DAE29AFF5AQ30368644-52E7B952-EC3D-48FE-936D-A4090AD6587AQ30389646-EAA1B04A-2B86-4021-87ED-23B420957D32Q30405680-86318F21-936A-420C-B1D1-56B62CB71A84Q30407846-A47C36C5-7DB4-4D99-9624-7D7D8CC0F2CAQ30419502-413BDB44-F06E-4CB1-BE46-188E83C9E64FQ30419806-74B84E0E-1977-4B64-AC26-4FB9B5C59952Q30433426-2195E97D-81FB-4BD7-A82F-1C2181F0D58BQ30441732-2B89C9B9-A22E-48B7-A7EA-EF884DD05A61Q30442794-B5376599-4B42-4161-9C70-9DBC19553B8CQ30465985-DE97F436-32DC-4797-AC9D-D7B8C4270E2DQ30469029-2553D7BA-3280-4AAF-8A68-8E62634FFB50Q30470171-F354AD7A-4ECE-496D-8A39-1DC35316141FQ30474526-98702BFC-F989-4C3C-986F-75ECB9D46738Q30474734-58A1EB05-5B9D-4E0C-9860-25DF0AA96757Q30475679-F85EF862-A7B2-4312-BB9E-E92A18DB23A7Q30526461-04D73235-32D7-4180-93BA-69189819734FQ30576860-B5EDCCBF-6FFF-49BE-9861-8B23D2FCA59AQ33747871-C4AC0398-D83A-4B16-8CE1-F57A75C82F2FQ33766129-CAFE594C-8365-4F71-9CFE-F89362FAE786Q34235557-9ADC20E4-8C2C-4B8F-B9CC-D81B9284104CQ34267025-9A7241A2-C573-44C4-830F-6A5E7F68005EQ34416488-1A5F67B7-2998-4164-A0B2-A3B850D15B84Q35082914-843042B0-93C5-4ADF-B301-5BC5D9A7D9C7Q36122189-CDBBC085-F934-47F5-85CF-9357B4858A35Q37283493-28ECB1C4-1573-4A73-93D4-B414095EFA35Q37607672-714C97E8-5786-4251-B04B-23D1911A30A7Q38224901-7F5F7CC1-5688-4CA8-987F-CB123F4F39AEQ38431638-4A42AA65-6234-46A8-8569-4ED7898BE6B7Q39444369-2C0EAD64-B733-420E-8678-C02F74A371B8Q42499644-2278F339-91C2-42AE-B543-0D8B4DD53070Q42517190-559300D2-6752-4C04-8C16-615BA9B74E16Q42878249-46CC6FE6-1E5A-4848-9EA0-A9407659A5FEQ43793821-1E3460F7-CE0E-4AC0-A27E-4FAE89E19BD6Q47132491-947C823E-428D-4781-87CE-3B0AF33301D5Q47203276-5ACDE69B-D44D-4089-B8C3-8C7B7857CE61Q48224703-5BEA6DC2-B97F-4FCE-BA99-70DB908BAF36Q48272931-1DB08BE5-3900-4E79-BB94-AB1A70EC8A13Q50346704-DA31C056-CE29-4FBD-8490-CA306C2C95C2
P2860
Distribution of the Na,K-ATPase alpha subunit in the rat spiral ganglion and organ of corti.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 12 December 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Distribution of the Na,K-ATPas ...... l ganglion and organ of corti.
@en
Distribution of the Na,K-ATPas ...... l ganglion and organ of corti.
@nl
type
label
Distribution of the Na,K-ATPas ...... l ganglion and organ of corti.
@en
Distribution of the Na,K-ATPas ...... l ganglion and organ of corti.
@nl
prefLabel
Distribution of the Na,K-ATPas ...... l ganglion and organ of corti.
@en
Distribution of the Na,K-ATPas ...... l ganglion and organ of corti.
@nl
P2093
P2860
P1433
P1476
Distribution of the Na,K-ATPas ...... al ganglion and organ of corti
@en
P2093
Elisabeth Glowatzki
K Anne Smith
Sonja J Pyott
P2860
P2888
P356
10.1007/S10162-008-0152-9
P577
2008-12-12T00:00:00Z