Properties of synchronous and asynchronous release during pulse train depression in cultured hippocampal neurons.
about
Pentylenetetrazol-induced epileptiform activity affects basal synaptic transmission and short-term plasticity in monosynaptic connectionsC-terminal complexin sequence is selectively required for clamping and priming but not for Ca2+ triggering of synaptic exocytosisA dual-Ca2+-sensor model for neurotransmitter release in a central synapseSynaptotagmin-1 functions as a Ca2+ sensor for spontaneous releaseDistinct initial SNARE configurations underlying the diversity of exocytosisActin- and dynamin-dependent maturation of bulk endocytosis restores neurotransmission following synaptic depletionModelling vesicular release at hippocampal synapsesDevelopmental mechanisms for suppressing the effects of delayed release at the endbulb of Held.Light-directed electrical stimulation of neurons cultured on silicon wafers.Laser-evoked synaptic transmission in cultured hippocampal neurons expressing channelrhodopsin-2 delivered by adeno-associated virusDynamic modulation of phasic and asynchronous glutamate release in hippocampal synapsesDesynchronization of neocortical networks by asynchronous release of GABA at autaptic and synaptic contacts from fast-spiking interneurons.Shunting inhibition controls the gain modulation mediated by asynchronous neurotransmitter release in early development.Synchronous and asynchronous transmitter release at nicotinic synapses are differentially regulated by postsynaptic PSD-95 proteins.MicroRNA132 modulates short-term synaptic plasticity but not basal release probability in hippocampal neurons.Synaptic mechanisms of persistent reverberatory activity in neuronal networks.Distinct roles for two synaptotagmin isoforms in synchronous and asynchronous transmitter release at zebrafish neuromuscular junction.A presynaptic role for PKA in synaptic tagging and memory.PGC-1α provides a transcriptional framework for synchronous neurotransmitter release from parvalbumin-positive interneurons.Synaptotagmin-7 is an asynchronous calcium sensor for synaptic transmission in neurons expressing SNAP-23Synaptic scaling stabilizes persistent activity driven by asynchronous neurotransmitter releaseDoc2 is a Ca2+ sensor required for asynchronous neurotransmitter release.Shaping Neuronal Network Activity by Presynaptic MechanismsAsynchronous Ca2+ current conducted by voltage-gated Ca2+ (CaV)-2.1 and CaV2.2 channels and its implications for asynchronous neurotransmitter release.Loss of Local Astrocyte Support Disrupts Action Potential Propagation and Glutamate Release Synchrony from Unmyelinated Hippocampal Axon Terminals In Vitroα7-Containing and non-α7-containing nicotinic receptors respond differently to spillover of acetylcholine.Increased asynchronous release and aberrant calcium channel activation in amyloid precursor protein deficient neuromuscular synapses.Discharge of the readily releasable pool with action potentials at hippocampal synapsesModeling Fast-scan Cyclic Voltammetry Data from Electrically Stimulated Dopamine Neurotransmission Data Using QNsim1.0.Calcium channels and short-term synaptic plasticity.KIF5B motor adaptor syntabulin maintains synaptic transmission in sympathetic neurons.Kinetic efficiency of endocytosis at mammalian CNS synapses requires synaptotagmin IMolecular mechanisms for synchronous, asynchronous, and spontaneous neurotransmitter release.Functionally heterogeneous synaptic vesicle pools support diverse synaptic signalling.Synaptic Vesicle-Recycling Machinery Components as Potential Therapeutic Targets.Ethanol Mediated Inhibition of Synaptic Vesicle Recycling at Amygdala Glutamate Synapses Is Dependent upon Munc13-2.Asynchronous presynaptic glutamate release enhances neuronal excitability during the post-spike refractory period.Synapsin II desynchronizes neurotransmitter release at inhibitory synapses by interacting with presynaptic calcium channels.Visualizing Presynaptic Calcium Dynamics and Vesicle Fusion with a Single Genetically Encoded Reporter at Individual Synapses.Presynaptic plasticity at two giant auditory synapses in normal and deaf mice.
P2860
Q21133666-66CE99D0-C9F9-43FE-8237-BED6728A2C2CQ26269864-FE7FC177-0D88-4C26-AFC7-E019A19E5CA9Q26269875-980376E0-54BE-4064-B6E3-692CCD457E5AQ26269916-FD3A7322-9AC2-44E8-9977-6647D3EBF17FQ26866150-C5A833C5-F17D-4E72-A401-030A90DFE482Q27303036-2E6247BD-BBDC-4AE5-AEDE-FAEE21D742EFQ28476080-83DEF8F9-67E7-4115-A886-AE7F94FFE421Q30496885-5186A63B-EB1D-446E-BDE5-1BD75A11EA20Q31114771-BC7A0F15-01B7-4F36-A782-37EC75CC0B5DQ33475454-2AEAA896-9989-458B-8232-EBF5264A88ACQ33593557-875497FC-1062-41DA-94A2-816A175A131AQ33712158-6BFB6A60-ECD0-43C6-B25C-970E13D3D5B7Q33747546-D1F2EFF6-CB61-45B3-8CD9-0FA6AB769576Q33747790-F33197BF-FA54-470D-9F8C-065C262B7452Q33785832-D8389EAF-C4F7-4D26-BE3A-9B7D2BFB5ED1Q33900470-6EFF4741-BF43-49AF-82B7-078377CA036BQ34068556-B5B8F4F7-B8BE-4E1D-A116-1FEFFE0BC2EDQ34084438-210ED8A1-E4CB-4BC4-9216-B867863E3CC2Q34383492-8E900C0A-AE18-47F8-8C55-1A0E720D967FQ34572301-ACC4972B-11B7-44DF-A855-4B992381CB52Q35041372-C11873B8-7570-4BE5-BB71-107E6C5F11DCQ35562324-42C23B6A-2968-4F8D-8ED7-19D180B7A896Q35775981-7C9280ED-E0A1-4FED-9F38-531C6ECC330EQ35787265-29BEED3F-9BE2-44DD-AE1A-B9D6ED4DAB01Q35916439-8D4ED3B7-0CB2-44C5-97A9-A1584CEBEE75Q35929504-9EE457AA-B802-4D5D-974A-29F8F50EEE6EQ36381215-7FE78DA7-DB91-475B-95CD-07AFEEBE47BEQ36385823-3E10953E-B898-4A59-96AD-F6C89824007DQ36399366-E46BD9DF-457D-415E-BF69-93A620138F70Q36760394-65D13E53-9DC8-4140-A4E1-823C2598578CQ37361687-DA9DA155-DBCF-48BD-B3D6-A36D12345612Q37692617-EF983553-49E5-4B85-901D-F108A1DC7478Q38166028-6AA656AC-C7B3-4EAA-ADF8-68D35BCC4A97Q38651168-04AC96B1-C73E-4DED-89A0-E41675BDD841Q39164408-DEBC609F-FC2A-490E-87E2-40156200BEC7Q40091505-BB1C142C-CDDE-4BB5-BE0C-81C5970A78E3Q40216542-014A6D76-4C37-4DF2-A40D-A18AC914DC66Q41662474-2A07201A-FF9C-4605-89AD-888D41BDBF71Q42404187-C3712374-03D3-49CF-89BE-AC1448C7337BQ42466680-C6C32144-74EC-4F64-B7D9-1C7FF39F0982
P2860
Properties of synchronous and asynchronous release during pulse train depression in cultured hippocampal neurons.
description
2001 nî lūn-bûn
@nan
2001 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2001 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2001年の論文
@ja
2001年論文
@yue
2001年論文
@zh-hant
2001年論文
@zh-hk
2001年論文
@zh-mo
2001年論文
@zh-tw
2001年论文
@wuu
name
Properties of synchronous and ...... cultured hippocampal neurons.
@ast
Properties of synchronous and ...... cultured hippocampal neurons.
@en
type
label
Properties of synchronous and ...... cultured hippocampal neurons.
@ast
Properties of synchronous and ...... cultured hippocampal neurons.
@en
prefLabel
Properties of synchronous and ...... cultured hippocampal neurons.
@ast
Properties of synchronous and ...... cultured hippocampal neurons.
@en
P2860
P1476
Properties of synchronous and ...... cultured hippocampal neurons.
@en
P2093
P2860
P304
P356
10.1152/JN.2001.85.6.2324
P407
P577
2001-06-01T00:00:00Z