Transmitter release from cochlear hair cells is phase locked to cyclic stimuli of different intensities and frequencies. - Wikidata - wikimedia - TriplyDB

Transmitter release from cochlear hair cells is phase locked to cyclic stimuli of different intensities and frequencies.

Transmitter release from cochlear hair cells is phase locked to cyclic stimuli of different intensities and frequencies.

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Modeling auditory coding: from sound to spikes Synaptic studies inform the functional diversity of cochlear afferents Cochlear hair cells: The sound-sensing machines.Phase-locking precision is enhanced by multiquantal release at an auditory hair cell ribbon synapse.Relating structure and function of inner hair cell ribbon synapses.The auditory nerve overlapped waveform (ANOW) originates in the cochlear apex Developmental refinement of hair cell synapses tightens the coupling of Ca2+ influx to exocytosis.Fine Tuning of CaV1.3 Ca2+ channel properties in adult inner hair cells positioned in the most sensitive region of the Gerbil Cochlea Developmental alterations in the biophysical properties of Ca(v) 1.3 Ca(2+) channels in mouse inner hair cells.Proton-mediated block of Ca2+ channels during multivesicular release regulates short-term plasticity at an auditory hair cell synapse.Lonely but diverse: Cav1.3 L-type Ca(2+) channels in cochlear inner hair cells The Coupling between Ca2+ Channels and the Exocytotic Ca2+ Sensor at Hair Cell Ribbon Synapses Varies Tonotopically along the Mature Cochlea.Single Ca2+ channels and exocytosis at sensory synapses.Basic response properties of auditory nerve fibers: a review.Spike timing in auditory-nerve fibers during spontaneous activity and phase locking.Elementary properties of Ca(2+) channels and their influence on multivesicular release and phase-locking at auditory hair cell ribbon synapses.Hair Cell Transduction, Tuning, and Synaptic Transmission in the Mammalian Cochlea.Tryptophan-rich basic protein (WRB) mediates insertion of the tail-anchored protein otoferlin and is required for hair cell exocytosis and hearing.Otoferlin acts as a Ca2+ sensor for vesicle fusion and vesicle pool replenishment at auditory hair cell ribbon synapses.Mechanisms of synaptic depression at the hair cell ribbon synapse that support auditory nerve function.Harmonin enhances voltage-dependent facilitation of Cav1.3 channels and synchronous exocytosis in mouse inner hair cells.

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Transmitter release from cochlear hair cells is phase locked to cyclic stimuli of different intensities and frequencies.

http://www.wikidata.org/entity/Q30452490

description

2012 nî lūn-bûn

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2012 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած

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2012 թվականի նոյեմբերին հրատարակված գիտական հոդված

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2012年の論文

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2012年論文

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2012年論文

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2012年論文

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2012年論文

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2012年論文

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2012年论文

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Transmitter release from cochl ...... t intensities and frequencies.

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Transmitter release from cochl ...... t intensities and frequencies.

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JNEUROSCI.0457-12.2012

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Journal of Neuroscience

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Transmitter release from cochl ...... t intensities and frequencies.

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Juan D Goutman

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P2860

Phase-locked response to low-frequency tones in single auditory nerve fibers of the squirrel monkey

Otoferlin, defective in a human deafness form, is essential for exocytosis at the auditory ribbon synapse

Response properties of single auditory nerve fibers in the mouse

Hearing requires otoferlin-dependent efficient replenishment of synaptic vesicles in hair cells

Calcium- and calmodulin-dependent inactivation of calcium channels in inner hair cells of the rat cochlea

Hair cell ribbon synapses.

Short-term facilitation modulates size and timing of the synaptic response at the inner hair cell ribbon synapse.

Recovery from short-term depression and facilitation is ultrafast and Ca2+ dependent at auditory hair cell synapses.

Onset coding is degraded in auditory nerve fibers from mutant mice lacking synaptic ribbons.

Time course and calcium dependence of transmitter release at a single ribbon synapse.

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17025-35a

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scholarly article

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10.1523/JNEUROSCI.0457-12.2012

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