Evidence that fast exocytosis can be predominantly mediated by vesicles not docked at active zones in frog saccular hair cells.
about
Relating structure and function of inner hair cell ribbon synapses.Hair cell ribbon synapses.Exocytosis in the frog amphibian papilla.Recovery from short-term depression and facilitation is ultrafast and Ca2+ dependent at auditory hair cell synapses.The diverse roles of ribbon synapses in sensory neurotransmission.Frequency selectivity of synaptic exocytosis in frog saccular hair cells.Otoferlin is critical for a highly sensitive and linear calcium-dependent exocytosis at vestibular hair cell ribbon synapses.Time course and calcium dependence of transmitter release at a single ribbon synapse.The role of ribbons at sensory synapses.Hair cell afferent synapses.Synaptic ribbon enables temporal precision of hair cell afferent synapse by increasing the number of readily releasable vesicles: a modeling study.The unitary event underlying multiquantal EPSCs at a hair cell's ribbon synapse.Structure and function of the hair cell ribbon synapseVesicle pool size at the salamander cone ribbon synapse.Conical tomography of a ribbon synapse: structural evidence for vesicle fusion.Evidence that exocytosis is driven by calcium entry through multiple calcium channels in goldfish retinal bipolar cellsSharp Ca²⁺ nanodomains beneath the ribbon promote highly synchronous multivesicular release at hair cell synapses.Synaptic transmission at retinal ribbon synapsesTransfer characteristics of the hair cell's afferent synapsePaired-pulse depression at photoreceptor synapses.Expression and localization of ryanodine receptors in the frog semicircular canal.Quantal and nonquantal transmission in calyx-bearing fibers of the turtle posterior crista.Neuromodulator-evoked synaptic metaplasticity within a central pattern generator network.Mechanisms underlying the temporal precision of sound coding at the inner hair cell ribbon synapse.Endocytosis at ribbon synapses.Mechanisms of tonic, graded release: lessons from the vertebrate photoreceptor.Newcomer insulin secretory granules as a highly calcium-sensitive poolSynaptic Ribbons Require Ribeye for Electron Density, Proper Synaptic Localization, and Recruitment of Calcium Channels.Single Ca2+ channels and exocytosis at sensory synapses.Calcium-dependent synaptic vesicle trafficking underlies indefatigable release at the hair cell afferent fiber synapse.Synaptic vesicle dynamics in mouse rod bipolar cells.Summing Across Different Active Zones can Explain the Quasi-Linear Ca-Dependencies of Exocytosis by Receptor Cells.Ca(2+) influx and neurotransmitter release at ribbon synapses.A clockwork hypothesis: synaptic release by rod photoreceptors must be regular.Transmission between type II hair cells and bouton afferents in the turtle posterior crista.Hair cell synaptic ribbons are essential for synchronous auditory signalling.Fast vesicle replenishment allows indefatigable signalling at the first auditory synapse.
P2860
Q30407369-20629C06-00C7-45B9-9561-611195A6B74EQ30432571-6DB17AAC-599E-441A-8897-E0238FAD27C2Q30458631-E5098636-88AF-4D07-8325-4B91D2A0256FQ30473732-49A1D78D-913A-4265-841D-8513B2016DFAQ30475345-07A71338-5D5D-4DF8-A78B-9F70FD185C51Q30477026-878A8F66-9BFE-407D-A72E-909703A1F7D5Q30479008-DB5F0DF9-F727-4D30-9418-1C4C41338841Q30480290-2B0133A0-2140-417B-925C-B0ED8E247E0EQ30480296-A37D45F6-862E-49DA-B029-3A71B7CDC7C8Q30481808-A666E366-2B73-490E-8714-5952A3C237E6Q30486342-E521A26B-48BA-48FC-B7C7-3B7E3726BB24Q30489543-F6EA419B-EA5C-4018-BBF2-EB8EFB28A8E1Q30501063-7DECC67D-9820-4A02-AF96-55BB6FA23EC8Q33593574-6120BA63-2E02-4947-992D-C9850422A939Q33842060-75BCB993-A369-4D63-B414-97E88D35BF6FQ33948431-DFCB5D1E-94E6-4FFE-835B-A94A3FC1A32CQ34233304-D38F1934-C7AD-434F-9452-3CD6BE743D9CQ34410593-8E2FB389-8EEE-494A-8A7A-BDBD21ADEA8BQ34481679-563D8743-166E-49B7-8553-24BF03944EA0Q35025717-54925955-FF01-4122-A325-C03E37C83EB3Q35725073-08B110A2-CB1B-4295-982D-2981F8F2CC11Q36096504-75ED92A6-A51E-4D63-99A4-593805783D8CQ36533022-79B9057F-8907-4E45-B9BB-1DECAB130821Q36562538-B4A0D1A0-D79B-4710-BB6C-A149444E7B3AQ36839852-4B147D25-613C-4945-8411-DF78EC39E62EQ36856213-2F3C8ABF-46C4-41BB-9F84-B84471B9D692Q37182979-CBD056ED-D2A5-467A-B514-6975784B5DE0Q37678588-7E8AE3F3-40A3-48A0-9C97-C847A1BEA762Q38086430-8070B414-9F66-4EA9-9E38-56F0E709ECEDQ40253826-9C30CB15-027B-4A5D-973A-E1F0BAAD9988Q41952374-8242705C-9AFD-4721-826C-B2B4C777F9E7Q42240722-5688D799-AF4D-444A-AB89-35F29D146483Q42431308-6EC3B989-8881-4472-90D3-F1F2ED8C3AAEQ43203285-552E513D-38A8-40D0-A84D-500A71F7A07EQ46715243-D70BC456-8BD9-4B7B-BB81-68E3E2629D2EQ50473698-F79B144E-CA68-4F69-A9DF-8845746A7489Q51818002-21F54592-9A7E-42FF-89C6-034D7425510B
P2860
Evidence that fast exocytosis can be predominantly mediated by vesicles not docked at active zones in frog saccular hair cells.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年学术文章
@wuu
2004年学术文章
@zh
2004年学术文章
@zh-cn
2004年学术文章
@zh-hans
2004年学术文章
@zh-my
2004年学术文章
@zh-sg
2004年學術文章
@yue
2004年學術文章
@zh-hant
name
Evidence that fast exocytosis ...... s in frog saccular hair cells.
@en
Evidence that fast exocytosis ...... s in frog saccular hair cells.
@nl
type
label
Evidence that fast exocytosis ...... s in frog saccular hair cells.
@en
Evidence that fast exocytosis ...... s in frog saccular hair cells.
@nl
prefLabel
Evidence that fast exocytosis ...... s in frog saccular hair cells.
@en
Evidence that fast exocytosis ...... s in frog saccular hair cells.
@nl
P2093
P2860
P1476
Evidence that fast exocytosis ...... s in frog saccular hair cells.
@en
P2093
Brian W Edmonds
Felix E Schweizer
Frederick D Gregory
P2860
P304
P356
10.1113/JPHYSIOL.2004.066035
P407
P577
2004-08-12T00:00:00Z