PR Martin… - The Journal of Physiology, 2011 - Physiological Soc ... lateral geniculate nucleus, LGN). Relayneurones in the parvocellular (PC) and magnocellular (MC) pathways project to primary visual cortex (V1) where some mixing of their signals probably occurs. Signals from V1 pass to ... Related articles - All 3 versions
C Reali, P Fossat, M Landry… - The Journal of …, 2011 - Wiley Online Library ... Holding the neurone at a slightly more negative potential (–59.3 mV in Fig. 3Baversus– 56.3 mV) unravelled a slow, active depolarisation that resulted in spiking only after a substantial delay, and greatly shortened the after-discharge (Fig. 3Ba). ... Related articles - All 4 versions
[PDF] from gu.seI Hammar, P Krutki… - The Journal of …, 2011 - Wiley Online Library ... The shortest of these latencies exceeded those of monosynaptic EPSPs evoked from the MLF by only 0.3–0.4 ms, this difference being fully compatible with the delay with which action potentials are generated during the rising phase of the EPSPs ... The neurone illustrated in Fig. ... Cited by 1 - Related articles - All 7 versions
[HTML] from pnas.orgM Koyama, A Kinkhabwala… - Proceedings of the …, 2011 - National Acad Sciences ... The outputs of the M-cell in hindbrain are relayed to other neurons via an interneuron called a cranial relayneuron that is monosynaptically activated by the M-cell (13–15). ... (A2) Firing the M-cell led to an action potential in the cranial relayneuron. ... Cited by 3 - Related articles - All 5 versions
JA Bailey, R Wilcock, PR Wilson… - Neurocomputing, 2011 - Elsevier ... of neurons. This model runs in what is called continuous time and the excitatory neurondelay or latency forms the fundamental unit of discrete time in the system. The simulator steps through time using this fundamental unit. ... Related articles - All 4 versions
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