Mechanism of calcium current modulation underlying presynaptic facilitation and behavioral sensitization in Aplysia.
about
A mammalian two pore domain mechano-gated S-like K+ channelIn vitro studies of neuronal networks and synaptic plasticity in invertebrates and in mammals using multielectrode arraysBeam me up, Scottie! TREK channels swing both waysLong-term memory in Aplysia modulates the total number of varicosities of single identified sensory neurons.Dual effects of serotonin on a voltage-gated conductance in lymphocytesLong-term sensitization in Aplysia increases the number of presynaptic contacts onto the identified gill motor neuron L7.Structural changes and the storage of long-term memory in Aplysia.Information storage in the nervous system of Aplysia: specific proteins affected by serotonin and cAMP.Calcium-activated proteases are critical for refilling depleted vesicle stores in cultured sensory-motor synapses of Aplysia.Analysis of the modulation by serotonin of a voltage-dependent potassium current in sensory neurons of AplysiaContribution of PKC to the maintenance of 5-HT-induced short-term facilitation at sensorimotor synapses of AplysiaTail shock produces inhibition as well as sensitization of the siphon-withdrawal reflex of Aplysia: possible behavioral role for presynaptic inhibition mediated by the peptide Phe-Met-Arg-Phe-NH2.Toward a molecular definition of long-term memory storage.Tissue-specific expression of a type I adenylyl cyclase rescues the rutabaga mutant memory defect: in search of the engramPresynaptic nanodomains: a tale of two synapsesAxonal noise as a source of synaptic variability.Potassium current suppression by quinidine reveals additional calcium currents in neuroblastoma cellsMultiple serotonergic mechanisms contributing to sensitization in aplysia: evidence of diverse serotonin receptor subtypes.Phencyclidine in low doses selectively blocks a presynaptic voltage-regulated potassium channel in rat brain.Serotonin receptor cDNA cloned from Lymnaea stagnalis.Synaptic stimulation alters protein phosphorylation in vivo in a single Aplysia neuronIntracellular injection of protein kinase inhibitor blocks the serotonin-induced increase in K+ conductance in Aplysia neuron R15.Ca2+ -activated K+ conductance in internally perfused snail neurons is enhanced by protein phosphorylation.Serotonin modulates a specific potassium current in the sensory neurons that show presynaptic facilitation in Aplysia.cAMP-mediated decrease in K+ conductance evoked by serotonin and dopamine in the same neuron: a biochemical and physiological single-cell study.The behavioral effects of phencyclidines may be due to their blockade of potassium channels.Mechanism of long-term potentiation of transmitter release induced by adrenaline in bullfrog sympathetic gangliaIntracellular injection of t he catalytic subunit of cyclic AMP-dependent protein kinase simulates facilitation of transmitter release underlying behavioral sensitization in Aplysia.Regulatory subunits of cAMP-dependent protein kinases are degraded after conjugation to ubiquitin: a molecular mechanism underlying long-term synaptic plasticityNeural and molecular bases of nonassociative and associative learning in Aplysia.Morphological aspects of synaptic plasticity in Aplysia. An anatomical substrate for long-term memory.Modulation of a transient K+ current in the pleural sensory neurons of Aplysia by serotonin and cAMP: implications for spike broadening.The growth cones of Aplysia sensory neurons: Modulation by serotonin of action potential duration and single potassium channel currentsSerotonin alters the subcellular distribution of a Ca2+/calmodulin-binding protein in neurons of Aplysia.Two endogenous neuropeptides modulate the gill and siphon withdrawal reflex in Aplysia by presynaptic facilitation involving cAMP-dependent closure of a serotonin-sensitive potassium channel.Reversal of synaptic depression by serotonin at Aplysia sensory neuron synapses involves activation of adenylyl cyclase.Action potential evoked transmitter release in central synapses: insights from the developing calyx of Held.Mu and kappa opioids inhibit transmitter release by different mechanisms.Associative conditioning analog selectively increases cAMP levels of tail sensory neurons in Aplysia.Sensitizing stimuli cause translocation of protein kinase C in Aplysia sensory neurons.
P2860
Q24533276-BCEE8915-3BF2-456F-956B-1D5531F12632Q26824942-1878CA58-2127-439A-A3F6-34B82AA2AB77Q28185334-0A62A892-1217-45B0-AE72-A96C5E1EC4ADQ33565145-267E848D-4D7E-4F40-B3E3-5FF8029C0D95Q33583271-1F85F29A-D8E8-413D-AA46-638CB075DF3DQ33683121-BE380CD3-48B9-4C77-8E93-FAF9F3F3703CQ33776484-6ABDD304-E22F-46AE-B61E-CEE3F105E424Q33848526-7E4A9203-E400-4458-B674-F68D3A746781Q33913116-DAA96D44-2CC0-4E5D-A3AE-47AF829036A3Q34114975-E54C72B4-F3D8-4B4B-B4DA-4ADB4050090CQ34354072-1A6E341B-E255-4977-847D-602154149477Q34374518-4016053D-DDE7-46B9-9462-71ED82DD8A6DQ34409226-E09E39C7-7F0C-4208-9175-D082A56F7C92Q34646604-DF2EEF8D-4A40-4F4A-90CE-AC750751D825Q35012672-A78C93BA-4A23-43F2-9DF2-748B32B4A2B2Q35165329-407E7D9E-F3A3-4E47-9E9C-F90ACA615A06Q35472197-F11BBF51-9FA1-40A0-8197-656F29DA5C98Q35558968-CF6A094B-60C3-449A-8FE8-7EC97F09DEE4Q35584783-A406490E-D852-4D07-B1C2-C10C92EBA48BQ36023415-792430D4-666D-4921-B1A4-E061C5C55856Q36261883-5AE89FE9-244E-4966-AB3F-E039113F8030Q36300530-4F6E3127-0308-4B58-9A13-9BBED7765ABFQ36302977-661355C2-12F4-44DD-A6CE-CB71F9E105D7Q36312914-22BE65E1-433E-4D66-9FFB-35EE4B27FA95Q36328040-CDA91DF5-F2BD-4AD4-AFCE-FD85578E3223Q36384674-45082023-7674-434B-8EF1-4DC4F26793BCQ36409545-3F4D65D2-91AE-4035-828E-2D2048CB841FQ36420332-65ED3F48-DC6E-4787-A817-218A7C681695Q36470127-15FE554F-58AC-4AEE-BAFD-67B902C85944Q36515557-819421D1-5E3E-4C3C-99E6-30FBF5E5D9C4Q37285035-ACDEB05C-11ED-4626-9A4E-6D7EA105AD6CQ37326093-6A3DA21A-50A4-411C-A052-DD2893458E07Q37400159-238659CA-A0DB-4989-BD02-F85600BB4C86Q37550154-FC3C2539-32D0-4E11-9F39-1EB3A1E86C4BQ37580854-6CE663FC-274C-4705-8594-D4621D582F1BQ37604685-F0E63EED-D38F-42A4-9EA0-5D814CCA1081Q37638786-8498EB29-32FA-43E7-B716-7A686948DBAAQ37681064-AF558CCD-5934-421F-BBBF-4D2ADFCF07C4Q37685106-2D77D6DE-D8EC-43EB-89D5-77F583BBE267Q37715946-DA823819-DA5E-4623-A6D7-A30067B36500
P2860
Mechanism of calcium current modulation underlying presynaptic facilitation and behavioral sensitization in Aplysia.
description
1980 nî lūn-bûn
@nan
1980年の論文
@ja
1980年学术文章
@wuu
1980年学术文章
@zh-cn
1980年学术文章
@zh-hans
1980年学术文章
@zh-my
1980年学术文章
@zh-sg
1980年學術文章
@yue
1980年學術文章
@zh
1980年學術文章
@zh-hant
name
Mechanism of calcium current m ...... oral sensitization in Aplysia.
@ast
Mechanism of calcium current m ...... oral sensitization in Aplysia.
@en
type
label
Mechanism of calcium current m ...... oral sensitization in Aplysia.
@ast
Mechanism of calcium current m ...... oral sensitization in Aplysia.
@en
prefLabel
Mechanism of calcium current m ...... oral sensitization in Aplysia.
@ast
Mechanism of calcium current m ...... oral sensitization in Aplysia.
@en
P2860
P356
P1476
Mechanism of calcium current m ...... oral sensitization in Aplysia.
@en
P2093
P2860
P304
P356
10.1073/PNAS.77.11.6912
P407
P577
1980-11-01T00:00:00Z