Cav1.3 calcium channels are required for normal development of the auditory brainstem.
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Nimodipine in otolaryngology: from past evidence to clinical perspectivesThe role of L-type voltage-gated calcium channels Cav1.2 and Cav1.3 in normal and pathological brain functionL-type Calcium Channel Cav1.2 Is Required for Maintenance of Auditory Brainstem Nuclei.Functional Role of γ-Crystallin N in the Auditory Hindbrain.Specific synaptopathies diversify brain responses and hearing disorders: you lose the gain from early life.The precise temporal pattern of prehearing spontaneous activity is necessary for tonotopic map refinementTime-dependent gene expression analysis of the developing superior olivary complex.Maturation of calcium-dependent GABA, glycine, and glutamate release in the glycinergic MNTB-LSO pathwayLevels of Ca(V)1.2 L-Type Ca(2+) Channels Peak in the First Two Weeks in Rat Hippocampus Whereas Ca(V)1.3 Channels Steadily Increase through Development.Characterization of L-type voltage-gated Ca(2+) channel expression and function in developing CA3 pyramidal neurons.Cav 1.3 (CACNA1D) L-type Ca(2+) channel dysfunction in CNS disordersStable respiratory activity requires both P/Q-type and N-type voltage-gated calcium channels.Dynamin 1- and 3-Mediated Endocytosis Is Essential for the Development of a Large Central Synapse In VivoGDF-15 enhances intracellular Ca2+ by increasing Cav1.3 expression in rat cerebellar granule neurons.Control of neuronal voltage-gated calcium ion channels from RNA to protein.Spontaneous activity in the developing auditory system.The gene regulatory networks underlying formation of the auditory hindbrain.The emerging framework of mammalian auditory hindbrain development.Pharmacology of L-type Calcium Channels: Novel Drugs for Old Targets?L-type Ca2+ channels in heart and brainDifferential patterns of histone methylase EHMT2 and its catalyzed histone modifications H3K9me1 and H3K9me2 during maturation of central auditory system.The role of voltage-gated calcium channels in neurotransmitter phenotype specification: Coexpression and functional analysis in Xenopus laevis.Embryonic assembly of auditory circuits: spiral ganglion and brainstem.Repertoire of high voltage-activated Ca2+ channels in the lateral superior olive: functional analysis in wild-type, Ca(v)1.3(-/-), and Ca(v)1.2DHP(-/-) mice.Activity-dependent formation of a vesicular inhibitory amino acid transporter gradient in the superior olivary complex of NMRI mice.Tonotopic action potential tuning of maturing auditory neurons through endogenous ATP.Synaptic reliability and temporal precision are achieved via high quantal content and effective replenishment: auditory brainstem versus hippocampus.Functional anisotropic panglial networks in the lateral superior olive.In vivo matching of postsynaptic excitability with spontaneous synaptic inputs during formation of the rat calyx of Held synapse.
P2860
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P2860
Cav1.3 calcium channels are required for normal development of the auditory brainstem.
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2011 nî lūn-bûn
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2011年の論文
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2011年学术文章
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2011年学术文章
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2011年学术文章
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Cav1.3 calcium channels are required for normal development of the auditory brainstem.
@en
Cav1.3 calcium channels are required for normal development of the auditory brainstem.
@nl
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Cav1.3 calcium channels are required for normal development of the auditory brainstem.
@en
Cav1.3 calcium channels are required for normal development of the auditory brainstem.
@nl
prefLabel
Cav1.3 calcium channels are required for normal development of the auditory brainstem.
@en
Cav1.3 calcium channels are required for normal development of the auditory brainstem.
@nl
P2093
P50
P1476
Cav1.3 calcium channels are required for normal development of the auditory brainstem.
@en
P2093
Britta Müller
Florian Kramer
Hans Gerd Nothwang
Joachim W Deitmer
Michael Boesen
Nadine Braun
Stefan Löhrke
P304
P356
10.1523/JNEUROSCI.5098-10.2011
P407
P577
2011-06-01T00:00:00Z