George P. Moore
Imperial College London
15 Papers
366 Citations
George P. Moore is an academic researcher from Imperial College London. The author has contributed to research in topics: Excitatory postsynaptic potential & Inhibitory postsynaptic potential. The author has an hindex of 11, co-authored 15 publications. Previous affiliations of George P. Moore include RAND Corporation & University of California, Los Angeles.
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Papers
Pacemaker Neurons: Effects of Regularly Spaced Synaptic Input
TL;DR: The consequences of inhibitory or excitatory synaptic input between pacemaker neurons were predicted mathematically and through digital-computer simulations, and the predicted behavior was found to occur in abdominal ganglia of Aplysia and in stretch receptors of Procambarus.
298
Interspike Interval Fluctuations in Aplysia Pacemaker Neurons
Douglas Junge,George P. Moore +1 more
TL;DR: A mathematical model was constructed based on discrete fluctuations of membrane potential following each spike and other directly observed intracellular events that could quantitatively account for observed spike trains, including variations in the discharge from one cell to another.
66
"Replay" of Hippocampal "Memories"
TL;DR: Although the temporal order in which the animal encounters place fields may affect bias, these other factors render it an unsuitable and unreliable indicator of temporal order of firing under most conditions.
44
Nonspecific responses of reptilian cortex to sensory stimuli.
TL;DR: The significance of the fact that the reptilian general cortex apparently receives sensory input only via nonspecific systems and that some of the nonspespecific properties of the cortical response may reflect activity in nonspecial cortically-projecting thalamic areas is discussed.
21
Statistical analysis of membrane potential fluctuations. Relation with presynaptic spike train.
TL;DR: In a study of integration at the single neuron level, the relationships between the postsynaptic membrane potential and the presynaptic spike train were analyzed and suggested the way the nervous system might utilize the information summarized in the membrane potential histogram.
18