Frequency-dependent release of peptide cotransmitters from identified cholinergic motor neurons in Aplysia
about
Presynaptic target of Ca2+ action on neuropeptide and acetylcholine release in Aplysia californicaPhasic vs sustained fear in rats and humans: role of the extended amygdala in fear vs anxietySelective participation of the bed nucleus of the stria terminalis and CRF in sustained anxiety-like versus phasic fear-like responsesGeneralization of habituation and intrinsic sensitization in the leech.Repetition priming of motoneuronal activity in a small motor network: intercellular and intracellular signaling.Feedforward compensation mediated by the central and peripheral actions of a single neuropeptide discovered using representational difference analysisGlutamate co-transmission as an emerging concept in monoamine neuron function.Systemic antiinflammatory corticosteroid reduces mechanical pain behavior, sympathetic sprouting, and elevation of proinflammatory cytokines in a rat model of neuropathic painControl of time-dependent biological processes by temporally patterned inputCoordination of distinct but interacting rhythmic motor programs by a modulatory projection neuron using different co-transmitters in different gangliaEndomorphin-2 is released from newborn rat primary sensory neurons in a frequency- and calcium-dependent manner.Trafficking and fusion of neuropeptide Y-containing dense-core granules in astrocytes.Network feedback regulates motor output across a range of modulatory neuron activityIdentification of a calcitonin-like diuretic hormone that functions as an intrinsic modulator of the American lobster, Homarus americanus, cardiac neuromuscular system.Circadian and feeding cues integrate to drive rhythms of physiology in Drosophila insulin-producing cells.Release of peptide cotransmitters from a cholinergic motor neuron under physiological conditions.Neuropeptides in the nematode Ascaris suum.Functional consequences of neuropeptide and small-molecule co-transmission.Quantal transmission at purinergic junctions: stochastic interaction between ATP and its receptors.Synaptic transmission parallels neuromodulation in a central food-intake circuit.Neuromuscular modulation in Aplysia. II. Modulation of the neuromuscular transform in behavior.Evolution and overview of classical transmitter molecules and their receptors.The medial prefrontal and orbitofrontal cortices differentially regulate dopamine system function.Neuromuscular modulation in Aplysia. I. Dynamic model.Temperature compensation of neuromuscular modulation in aplysia.Evidence that post-tetanic potentiation is mediated by neuropeptide release in Aplysia.Colocalization of gamma-aminobutyric acid-like immunoreactivity and catecholamines in the feeding network of Aplysia californica.Modeling neuromuscular modulation in Aplysia. III. Interaction of central motor commands and peripheral modulatory state for optimal behavior.Activity-dependent liberation of synaptic neuropeptide vesicles.Dopamine-neurotensin interactions in mesocortical neurons. Evidence from microdialysis studies.Pattern-specific synaptic mechanisms in a multifunctional network. II. Intrinsic modulation by metabotropic glutamate receptors.Encoding of muscle movement on two time scales by a sensory neuron that switches between spiking and bursting modes.The distribution of cholinergic neurons and their co-localization with FMRFamide, in central and peripheral neurons of the spider Cupiennius salei.Dynamic interactions between orexin and dynorphin may delay onset of functional orexin effects: a modeling study.Intrinsic and extrinsic modulation of a single central pattern generating circuit.Circuit feedback increases activity level of a circuit input through interactions with intrinsic properties.Modulation of radula opener muscles in Aplysia.Neurotransmission: peptide transmitters turn 36.Two Neuropeptides Colocalized in a Command-Like Neuron Use Distinct Mechanisms to Enhance Its Fast Synaptic ConnectionPeptide Cotransmitters as Dynamic, Intrinsic Modulators of Network Activity
P2860
Q28354018-B93BCE6C-E163-4E78-B4CD-F83AFB2F933EQ30477934-F69E6729-2536-4826-A609-37DE4EF866A9Q30478689-E912970B-9155-4E80-BBC1-6853BE627414Q30500376-C059E110-DB83-41A7-BD7B-7398CF9ABAD8Q34039106-38C9FDB3-AD6E-454B-AE26-5AFB73236DFDQ34769137-0DC5FA38-2E4D-4D16-A0B2-4CBE45FCE614Q35712261-50777440-0CB9-4A61-9455-539E6FD4C73CQ36327426-40C24BCA-20BF-4A7F-81B0-2EEBDBD140D4Q36587475-ADB7112A-53AE-48A0-B804-B3138ECBC0DFQ36811072-02ED81FB-93C7-410D-B361-B87095F531D3Q36953934-56F4F5ED-6FE7-47CF-9A8E-5E6888426340Q37083841-934D0948-9BA7-46D1-9017-568226B38D8EQ37098054-0410A8CE-41CA-44BF-BB5D-CCD53BF07EC5Q37472855-2EA95BBD-D991-4F35-A360-78AC745C4605Q37548537-CAF43CE9-07EA-46F8-A621-31ED247E81B8Q37682150-4319169B-8739-4B05-BF5C-37F8FDC3E4D8Q37767198-2020B6FD-A6E9-4088-BE2F-CE7853798169Q39358557-469FD2C0-2A8A-4F1A-A91C-1411564A38CEQ39653714-EA8569B8-18E2-43B3-9846-8007EACB307CQ39786052-84BBE075-8A8B-48D2-8A76-F9ABCFDB3984Q40575735-52142166-B4DD-4759-B978-E70ADC6242AAQ41365085-3542B750-5413-452E-A8C6-BB8F3C961147Q41980721-98BABC23-7869-439A-9390-EE5E5D7B9A1FQ42444443-9C6624A3-8E12-46FC-BDE5-8DBD18CE1994Q43161478-FFEA4F6C-E50F-45C9-9414-19533BE1ED44Q43814481-4E956361-1FAC-47BA-AE2D-7735646490B3Q43916454-71E16791-2AF1-4589-AA79-1B52C885F4C8Q45094703-77B3216B-150F-494F-8F3B-857128A85B08Q45219239-E077F495-487A-443A-B510-E90051DEC06BQ45346834-6BCB0DC2-3095-4FA6-BE69-CB3FD81F5C59Q46956143-F4D6EB42-39D0-43C9-835B-301FF36399ACQ47902264-3094DA7A-4828-4EF4-AA77-3D7535A54716Q47947606-FF53CB05-582A-4F06-B697-F9CBD7C79778Q48309726-5A32FC27-BE20-4D07-84F6-AC4003496ED7Q52540925-072C2C58-555B-4921-ACE5-534E46733502Q53315858-A5D9B869-EC53-4CFD-B807-B67939CD3614Q53925363-F1AEEE43-3DFC-46F7-88D7-9C5B983DF878Q54210534-C12E9EBD-C2D7-463A-8319-4207B2AA5585Q58213952-0EAECE4D-2E39-4F4C-8093-EF6010990EF2Q58586723-34593658-3AC5-451D-99B5-27FDA87A0F83
P2860
Frequency-dependent release of peptide cotransmitters from identified cholinergic motor neurons in Aplysia
description
1989 nî lūn-bûn
@nan
1989 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
1989 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
1989年の論文
@ja
1989年学术文章
@wuu
1989年学术文章
@zh-cn
1989年学术文章
@zh-hans
1989年学术文章
@zh-my
1989年学术文章
@zh-sg
1989年學術文章
@yue
name
Frequency-dependent release of ...... ergic motor neurons in Aplysia
@ast
Frequency-dependent release of ...... ergic motor neurons in Aplysia
@en
Frequency-dependent release of ...... ergic motor neurons in Aplysia
@nl
type
label
Frequency-dependent release of ...... ergic motor neurons in Aplysia
@ast
Frequency-dependent release of ...... ergic motor neurons in Aplysia
@en
Frequency-dependent release of ...... ergic motor neurons in Aplysia
@nl
prefLabel
Frequency-dependent release of ...... ergic motor neurons in Aplysia
@ast
Frequency-dependent release of ...... ergic motor neurons in Aplysia
@en
Frequency-dependent release of ...... ergic motor neurons in Aplysia
@nl
P2860
P356
P1476
Frequency-dependent release of ...... ergic motor neurons in Aplysia
@en
P2093
P2860
P304
P356
10.1073/PNAS.86.22.9034
P407
P577
1989-11-01T00:00:00Z