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Ultrastructural Analysis of Excitatory and Inhibitory Synapses within the Medial Nucleus of the Trapezoid Body of Normal Hearing and Congenitally Deaf MiceBautista, Melissa A. January 2008 (has links)
No description available.
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The role of complexin I in synaptic transmission at the mouse calyx of Held synapseChang, Shuwen 12 September 2013 (has links)
No description available.
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Voices of CALYX : narratives of feminist publishing activism : 1976-2006 /Steuben, Marieke L. January 1900 (has links)
Thesis (M.A.I.S.)--Oregon State University, 2007. / Printout. Includes bibliographical references (leaves 223-229). Also available on the World Wide Web.
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Dynamic expression of Mover in rodent endbulbs of HeldWetzel, Friederike 25 June 2015 (has links)
No description available.
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NMDAR-dependent Synaptic Plasticity at the Calyx of Held SynapseAlves, Tanya Luzia 20 November 2012 (has links)
NMDARs are indispensable for developmental plasticity in the mammalian brain, but their roles in vivo are difficult to ascertain as NMDAR-knockouts are lethal. To circumvent this problem, we utilized NR1-knockdown mice to examine plasticity at the calyx of Held-MNTB synapse in the auditory brainstem. Previous work shows NMDARs at this synapse are rapidly down-regulated following the onset of hearing (P12), leading to the hypothesis that transient NMDAR expression is indispensable for modulating functional and morphological remodelling during development. We tested this by performing electrophysiological recordings, fluorescence tracing in vitro, and auditory brainstem responses in vivo, and surprisingly found that reducing postsynaptic NMDARs appears to promote functional maturation via presynaptic mechanisms in the absence of morphological and acoustic transmission differences in the mature calyx. This suggests a novel role for NMDARs to function as an activity-dependent control for setting the pace of consolidation and maturation in the calyx of Held synapse.
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NMDAR-dependent Synaptic Plasticity at the Calyx of Held SynapseAlves, Tanya Luzia 20 November 2012 (has links)
NMDARs are indispensable for developmental plasticity in the mammalian brain, but their roles in vivo are difficult to ascertain as NMDAR-knockouts are lethal. To circumvent this problem, we utilized NR1-knockdown mice to examine plasticity at the calyx of Held-MNTB synapse in the auditory brainstem. Previous work shows NMDARs at this synapse are rapidly down-regulated following the onset of hearing (P12), leading to the hypothesis that transient NMDAR expression is indispensable for modulating functional and morphological remodelling during development. We tested this by performing electrophysiological recordings, fluorescence tracing in vitro, and auditory brainstem responses in vivo, and surprisingly found that reducing postsynaptic NMDARs appears to promote functional maturation via presynaptic mechanisms in the absence of morphological and acoustic transmission differences in the mature calyx. This suggests a novel role for NMDARs to function as an activity-dependent control for setting the pace of consolidation and maturation in the calyx of Held synapse.
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Synaptic Transmission in the Leaner Mutant Mouse Calyx of Held/MNTB SynapseEpps, Tina 20 January 2009 (has links)
The effects of alpha1A subunit mutations on presynaptic Ca2+ channel activity and functional development of synaptic properties remain elusive. The calyx of Held/medial nucleus of the trapezoid body synapse is an ideal model for studying the developmental effects of presynaptic voltage-gated Ca2+ channel (VGCC) impairment on synaptic function since simultaneous voltage-clamp recordings can be made directly from the pre- and postsynapse.
The alpha1A subunit leaner (tgla/la) mutation induced a profound reduction in synaptic transmission after hearing onset (> postnatal day 12; P12), with relatively preserved relationship between presynaptic Ca2+ current (Pre-ICa) and release and G-protein-mediated inhibition. Some synaptic properties were more reflective of an immature state, while other properties displayed a delay in maturation after P12.
Direct presynaptic recordings from P15/16 tgla/la nerve terminals revealed a decrease in the density of Pre-ICa, elevated activation threshold and slowing in the kinetics of VGCCs, all of which contribute to the deficit in transmitter release. Fractional contribution of P/Q-type channels to total Pre-ICa and their role in vesicle release was markedly reduced. N-type Ca2+ channels and close association of VGCCs to release sites was not sufficient to fully compensate for impaired P/Q-type channel function. The extent to which compensatory mechanisms preserve synaptic transmission at tgla/la synapses was further constrained by the developmental narrowing of the action potential waveform.
Activation of the cAMP pathway by forskolin or direct modulation of VGCCs by cdk inhibitors rescued deficits in transmitter release at P15/16 tgla/la synapses. The major effect of roscovitine was a slowing of presynaptic VGCC deactivation kinetics accompanied by a leftward shift in the activation curve. Activation of the cAMP pathway or direct modulation of presynaptic VGCCs may serve as two potential pathways to facilitate release and improve neuronal communication at synapses normally compromised by impaired P/Q-type channel function.
While significant for the tgla/la mutant, these studies provide an important advancement in our understanding of the crucial developmental and functional roles of P/Q-type Ca2+ channels in driving the maturation of synaptic properties at central synapses. These findings may improve our understanding of the pathophysiology of presynaptic VGCCs and elucidate essential mechanisms underlying the tgla/la phenotype.
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Synaptic Transmission in the Leaner Mutant Mouse Calyx of Held/MNTB SynapseEpps, Tina 20 January 2009 (has links)
The effects of alpha1A subunit mutations on presynaptic Ca2+ channel activity and functional development of synaptic properties remain elusive. The calyx of Held/medial nucleus of the trapezoid body synapse is an ideal model for studying the developmental effects of presynaptic voltage-gated Ca2+ channel (VGCC) impairment on synaptic function since simultaneous voltage-clamp recordings can be made directly from the pre- and postsynapse.
The alpha1A subunit leaner (tgla/la) mutation induced a profound reduction in synaptic transmission after hearing onset (> postnatal day 12; P12), with relatively preserved relationship between presynaptic Ca2+ current (Pre-ICa) and release and G-protein-mediated inhibition. Some synaptic properties were more reflective of an immature state, while other properties displayed a delay in maturation after P12.
Direct presynaptic recordings from P15/16 tgla/la nerve terminals revealed a decrease in the density of Pre-ICa, elevated activation threshold and slowing in the kinetics of VGCCs, all of which contribute to the deficit in transmitter release. Fractional contribution of P/Q-type channels to total Pre-ICa and their role in vesicle release was markedly reduced. N-type Ca2+ channels and close association of VGCCs to release sites was not sufficient to fully compensate for impaired P/Q-type channel function. The extent to which compensatory mechanisms preserve synaptic transmission at tgla/la synapses was further constrained by the developmental narrowing of the action potential waveform.
Activation of the cAMP pathway by forskolin or direct modulation of VGCCs by cdk inhibitors rescued deficits in transmitter release at P15/16 tgla/la synapses. The major effect of roscovitine was a slowing of presynaptic VGCC deactivation kinetics accompanied by a leftward shift in the activation curve. Activation of the cAMP pathway or direct modulation of presynaptic VGCCs may serve as two potential pathways to facilitate release and improve neuronal communication at synapses normally compromised by impaired P/Q-type channel function.
While significant for the tgla/la mutant, these studies provide an important advancement in our understanding of the crucial developmental and functional roles of P/Q-type Ca2+ channels in driving the maturation of synaptic properties at central synapses. These findings may improve our understanding of the pathophysiology of presynaptic VGCCs and elucidate essential mechanisms underlying the tgla/la phenotype.
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Distinct modes of endocytotic presynaptic membrane and protein retrieval at the calyx of held terminal / カリックス型シナプス前終末におけるシナプス小胞膜および小胞タンパク質の取り込み機構の研究 / カリックスガタ シナプス ゼンシュウマツ ニオケル シナプス ショウホウマク オヨビ ショウホウ タンパクシツ ノ トリコミ キコウ ノ ケンキュウ岡本 悠志, Yuji Okamoto 22 March 2018 (has links)
化学シナプスにおいて、シナプス小胞内に蓄えられた神経伝達物質の開口放出によってシナプス伝達が起こる。開口放出後、シナプス小胞はエンドサイトーシスによって細胞内へ回収されて再利用される。膜容量測定法とpHイメージングを併用して、開口放出とエンドサイトーシスに伴う小胞膜および小胞タンパク質の動態を同時測定した。Ca2+-カルモジュリン-Munc13シグナリングが小胞タンパク質の回収に関与していることが示唆された。 / Neurotransmitter is released at synapses by fusion of synaptic vesicles with the plasma membrane. To sustain synaptic transmission, membranes and vesicular proteins has to be retrieved for reuse. I have combined capacitance measurements and pH-imaging via a pH-sensitive vesicular protein marker, and compared the retrieval kinetics of membranes and synaptotagmin2 (Syt2) at the calyx of Held presynaptic terminal. Data in this thesis identifies a novel mechanism of stimulus- and Ca2+-dependent regulation of coordinated endocytosis of synaptic membranes and Syt2. / 博士(理学) / Doctor of Philosophy in Science / 同志社大学 / Doshisha University
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Mechanisms of posttetanic potentiation and its possible role in maturation of the calyx of Held synapse / Mechanisms of posttetanic potentiation and its possible role in maturation of the calyx of Held synapseKorogod, Natalya 25 April 2006 (has links)
No description available.
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