about
Aplysia Locomotion: Network and Behavioral Actions of GdFFD, a D-Amino Acid-Containing NeuropeptideA d-Amino Acid-Containing Neuropeptide Discovery Funnel.PRQFVamide, a novel pentapeptide identified from the CNS and gut of Aplysia.Cerebrin prohormone processing, distribution and action in Aplysia californica.Identification of a new neuropeptide precursor reveals a novel source of extrinsic modulation in the feeding system of Aplysia.Complementary interactions between command-like interneurons that function to activate and specify motor programs.Distinct mechanisms produce functionally complementary actions of neuropeptides that are structurally related but derived from different precursors.PKC-mediated GABAergic enhancement of dopaminergic responses: implication for short-term potentiation at a dual-transmitter synapse.Composite modulatory feedforward loop contributes to the establishment of a network stateNeuromodulation as a mechanism for the induction of repetition primingFeedforward compensation mediated by the central and peripheral actions of a single neuropeptide discovered using representational difference analysisCoordination of distinct motor structures through remote axonal coupling of projection interneurons.Functional Characterization of a Vesicular Glutamate Transporter in an Interneuron That Makes Excitatory and Inhibitory Synaptic Connections in a Molluscan Neural Circuit.Urotensin II in invertebrates: from structure to function in Aplysia californica.Characterization of GdFFD, a D-amino acid-containing neuropeptide that functions as an extrinsic modulator of the Aplysia feeding circuit.Use of the Aplysia feeding network to study repetition priming of an episodic behavior.Repetition priming of motor activity mediated by a central pattern generator: the importance of extrinsic vs. intrinsic program initiatorsMultiple contributions of an input-representing neuron to the dynamics of the aplysia feeding network.Distinct inhibitory neurons exert temporally specific control over activity of a motoneuron receiving concurrent excitation and inhibition.Identification of a GABA-containing cerebral-buccal interneuron-11 in Aplysia californica.Dopaminergic contributions to modulatory functions of a dual-transmitter interneuron in Aplysia.A specific synaptic pathway activates a conditional plateau potential underlying protraction phase in the Aplysia feeding central pattern generator.Neural analog of arousal: persistent conditional activation of a feeding modulator by serotonergic initiators of locomotion.Feeding CPG in Aplysia directly controls two distinct outputs of a compartmentalized interneuron that functions as a CPG element.An input-representing interneuron regulates spike timing and thereby phase switching in a motor network.Multifaceted Expression of Peptidergic Modulation in the Feeding System of Aplysia.Discovery of leucokinin-like neuropeptides that modulate a specific parameter of feeding motor programs in the molluscan model, Aplysia.Blockade of antidromic invasion of CA1 pyramidal cells during synaptic activation of NMDA receptors.Role of calcium channels in spreading depression in rat hippocampal slices.From hunger to satiety: reconfiguration of a feeding network by Aplysia neuropeptide Y.Lasting neuron depression induced by high potassium and its prevention by low calcium and NMDA receptor blockade.State dependence of spike timing and neuronal function in a motor pattern generating network.Newly Identified Aplysia SPTR-Gene Family-Derived Peptides: Localization and Function.Molecular and Physiological Characterization of a Receptor for d-Amino Acid-Containing Neuropeptides.Aplysia allatotropin-related peptide and its newly identified d-amino acid-containing epimer both activate a receptor and a neuronal targetGeneration of Variants of a Motor Act in a Modular and Hierarchical Motor NetworkRegulation of afferent transmission in the feeding circuitry ofAplysiaThe Construction of Movement with Behavior-Specific and Behavior-Independent ModulesTwo Neuropeptides Colocalized in a Command-Like Neuron Use Distinct Mechanisms to Enhance Its Fast Synaptic ConnectionInterstitial space, electrical resistance and ion concentrations during hypotonia of rat hippocampal slices
P50
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P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Jian Jing
@ast
Jian Jing
@en
Jian Jing
@es
Jian Jing
@nl
Jian Jing
@sl
type
label
Jian Jing
@ast
Jian Jing
@en
Jian Jing
@es
Jian Jing
@nl
Jian Jing
@sl
prefLabel
Jian Jing
@ast
Jian Jing
@en
Jian Jing
@es
Jian Jing
@nl
Jian Jing
@sl
P214
P106
P1153
26643071300
7101759574
P214
P31
P496
0000-0003-1422-143X
P7859
lccn-nr2006013225