Matches in DBpedia 2016-04 for { <http://wikidata.dbpedia.org/resource/Q17163361> ?p ?o }
Showing triples 1 to 42 of
42
with 100 triples per page.
- Q17163361 subject Q6193293.
- Q17163361 abstract "Synaptic gating is the ability of neural circuits to gate inputs by either suppressing or facilitating specific synaptic activity. Selective inhibition of certain synapses has been studied thoroughly (see Gate theory of pain), and recent studies have supported the existence of permissively gated synaptic transmission. In general, synaptic gating involves a mechanism of central control over neuronal output. It includes a sort of gatekeeper neuron, which has the ability to influence transmission of information to selected targets independently of the parts of the synapse upon which it exerts its action (see also neuromodulation).Bistable neurons have the ability to oscillate between a hyperpolarized (down state) and a depolarized (up state) resting membrane potential without firing an action potential. These neurons can thus be referred to as up/down neurons. According to one model, this ability is linked to the presence of NMDA and AMPA glutamate receptors. External stimulation of the NMDA receptors is responsible for moving the neuron from the down state to the up state, while the stimulation of AMPA receptors allows the neuron to reach and surpass the threshold potential. Neurons that have this bistable ability have the potential to be gated because outside gatekeeper neurons can modulate the membrane potential of the gated neuron by selectively shifting them from the up state to the down state. Such mechanisms have been observed in the nucleus accumbens, with gatekeepers originating in the cortex, thalamus and basal ganglia.".
- Q17163361 thumbnail Gatekeeping.png?width=300.
- Q17163361 wikiPageWikiLink Q1207387.
- Q17163361 wikiPageWikiLink Q1321905.
- Q17163361 wikiPageWikiLink Q1355864.
- Q17163361 wikiPageWikiLink Q1441066.
- Q17163361 wikiPageWikiLink Q1476178.
- Q17163361 wikiPageWikiLink Q1569460.
- Q17163361 wikiPageWikiLink Q170304.
- Q17163361 wikiPageWikiLink Q1815901.
- Q17163361 wikiPageWikiLink Q181923.
- Q17163361 wikiPageWikiLink Q184215.
- Q17163361 wikiPageWikiLink Q18676.
- Q17163361 wikiPageWikiLink Q18680.
- Q17163361 wikiPageWikiLink Q187181.
- Q17163361 wikiPageWikiLink Q192776.
- Q17163361 wikiPageWikiLink Q194277.
- Q17163361 wikiPageWikiLink Q210021.
- Q17163361 wikiPageWikiLink Q218005.
- Q17163361 wikiPageWikiLink Q2603645.
- Q17163361 wikiPageWikiLink Q295251.
- Q17163361 wikiPageWikiLink Q338924.
- Q17163361 wikiPageWikiLink Q383566.
- Q17163361 wikiPageWikiLink Q414896.
- Q17163361 wikiPageWikiLink Q422112.
- Q17163361 wikiPageWikiLink Q43054.
- Q17163361 wikiPageWikiLink Q464210.
- Q17163361 wikiPageWikiLink Q4818236.
- Q17163361 wikiPageWikiLink Q5097706.
- Q17163361 wikiPageWikiLink Q5339.
- Q17163361 wikiPageWikiLink Q560370.
- Q17163361 wikiPageWikiLink Q6193293.
- Q17163361 wikiPageWikiLink Q640562.
- Q17163361 wikiPageWikiLink Q7505166.
- Q17163361 wikiPageWikiLink Q75839.
- Q17163361 wikiPageWikiLink Q81938.
- Q17163361 wikiPageWikiLink Q83183.
- Q17163361 wikiPageWikiLink Q905905.
- Q17163361 comment "Synaptic gating is the ability of neural circuits to gate inputs by either suppressing or facilitating specific synaptic activity. Selective inhibition of certain synapses has been studied thoroughly (see Gate theory of pain), and recent studies have supported the existence of permissively gated synaptic transmission. In general, synaptic gating involves a mechanism of central control over neuronal output.".
- Q17163361 label "Synaptic gating".
- Q17163361 depiction Gatekeeping.png.