%D8%AC%D9%88%D9%86_%D8%A3%D9%88%D9%83%D9%8A%D9%81%D0%94%D0%B6%D0%BE%D0%BD_%D0%9E%E2%80%99%D0%9A%D1%96%D1%84%D0%94%D0%B6%D0%BE%D0%BD_%D0%9E%27%D0%9A%D0%B8%D0%B9%D1%84%E0%A6%9C%E0%A6%A8_%E0%A6%93%E2%80%99%E0%A6%95%E0%A6%BF%E0%A6%ABJohn_O%27KeefeCategory:John_O%E2%80%99Keefe_(neuroscientist)John_O%27KeefeJohn_O%27KeefeJohn_O%E2%80%99Keefe_(Neurowissenschaftler)John_O%27Keefe_(neuroscientist)John_O%27KeefeJohn_O%27Keefe%D8%AC%D8%A7%D9%86_%D8%A7%D9%88%DA%A9%DB%8C%D9%81_(%D8%B9%D8%B5%D8%A8%E2%80%8C%D9%BE%DA%98%D9%88%D9%87)John_O%E2%80%99KeefeJohn_O%27Keefe%E0%A4%9C%E0%A5%89%E0%A4%A8_%E0%A4%93%E0%A4%95%E0%A5%80%E0%A4%AB%E0%A4%BCJohn_O%E2%80%99KeefeJohn_O%27KeefeJohn_O%27KeefeJohn_O%27Keefe%E3%82%B8%E3%83%A7%E3%83%B3%E3%83%BB%E3%82%AA%E3%82%AD%E3%83%BC%E3%83%95%D0%94%D0%B6%D0%BE%D0%BD_%D0%9E%E2%80%99%D0%9A%D0%B8%D1%84%EC%A1%B4_%EC%98%A4%ED%82%A4%ED%94%84Ioannes_O%27Keefe%E0%A4%9C%E0%A5%8B%E0%A4%B9%E0%A4%A8_%E0%A4%93_%E0%A4%95%E0%A5%87%E0%A4%AB%E0%A5%87%E0%B4%9C%E0%B5%8B%E0%B5%BA_%E0%B4%92%E0%B4%95%E0%B5%80%E0%B4%AB%E0%B5%8DJohn_O%27KeefeJohn_Michael_O%E2%80%99Keefe%E0%A4%9C%E0%A5%8B%E0%A4%B9%E0%A4%A8_%E0%A4%93_%E0%A4%95%E0%A5%87%E0%A4%AB%E0%A5%87John_O%27KeefeJohn_O%27Keefe%E0%A8%9C%E0%A8%BE%E0%A8%A8_%E0%A8%93%E0%A8%95%E0%A9%80%E0%A8%AB%E0%A8%BCJohn_O%E2%80%99Keefe%D8%AC%D8%A7%D9%86_%D8%A7%D9%88_%DA%A9%DB%8C%D9%81John_O%27KeefeJohn_O%27Keefe%D0%9E%E2%80%99%D0%9A%D0%B8%D1%84,_%D0%94%D0%B6%D0%BE%D0%BDJohn_O%27KeefeJohn_O%27KeefeJohn_O%27Keefe
about
P185
Development of the hippocampal cognitive map in preweanling ratsGrid cells and theta as oscillatory interference: electrophysiological data from freely moving ratsHuman spatial navigation: cognitive maps, sexual dimorphism, and neural substrates.Modeling place fields in terms of the cortical inputs to the hippocampus.Predictions derived from modelling the hippocampal role in navigation.The human hippocampus and spatial and episodic memory.Geometric determinants of the place fields of hippocampal neurons.Knowing where and getting there: a human navigation network.The boundary vector cell model of place cell firing and spatial memory.Boundary vector cells in the subiculum of the hippocampal formation.Neural representations of location composed of spatially periodic bands.Dual phase and rate coding in hippocampal place cells: theoretical significance and relationship to entorhinal grid cells.Grid cell firing patterns signal environmental novelty by expansionRearing on hind legs, environmental novelty, and the hippocampal formation.How vision and movement combine in the hippocampal place codePlace cell firing correlates with memory deficits and amyloid plaque burden in Tg2576 Alzheimer mouse modelAn oscillatory interference model of grid cell firing.Environmental novelty is signaled by reduction of the hippocampal theta frequencyModels of place and grid cell firing and theta rhythmicitySpace in the brain: how the hippocampal formation supports spatial cognitionEnvironmental novelty elicits a later theta phase of firing in CA1 but not subiculum.Framing the grid: effect of boundaries on grid cells and navigation.Robotic and neuronal simulation of the hippocampus and rat navigation.Neuronal computations underlying the firing of place cells and their role in navigation.Hippocampus at 25.Experience-dependent increase in CA1 place cell spatial information, but not spatial reproducibility, is dependent on the autophosphorylation of the alpha-isoform of the calcium/calmodulin-dependent protein kinase II.The development of the head direction system before eye opening in the rat.Novelty and anxiolytic drugs dissociate two components of hippocampal theta in behaving rats.How environment geometry affects grid cell symmetry and what we can learn from itIndependent rate and temporal coding in hippocampal pyramidal cells.Theta-modulated place-by-direction cells in the hippocampal formation in the rat.Attractor dynamics in the hippocampal representation of the local environment.Grid cell symmetry is shaped by environmental geometry.Fully integrated silicon probes for high-density recording of neural activity.Introduction to What are the parietal and hippocampal contributions to spatial cognition?, the proceedings of a Discussion held at The Royal Society.Neural representations in human spatial memory.The honeycomb maze provides a novel test to study hippocampal-dependent spatial navigation.The representation of space and the hippocampus in rats, robots and humans.Human hippocampus and viewpoint dependence in spatial memory.Models of grid cells and theta oscillations.
P50
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description
American British neuroscientist, 2014 Nobel laureate in Physiology or Medicine
@en
American British neuroscientist, 2014 Nobel laureate in Physiology or Medicine
@en-gb
British neuroscientist
@ml
Brits neurowetenschapper
@nl
britisch-US-amerikanischer Neurowissenschaftler
@de
britisk-amerikansk nevrovitenskapsmann
@nb
neuroscientifique anglo-américain
@fr
psicologo statunitense
@it
американско-британский нейрофи ...... иологии и медицине за 2014 год
@ru
イギリスおよびアメリカ合衆国の神経科学者
@ja
name
Ioannes O'Keefe
@la
John Michael O’Keefe
@nds
John O'Keefe
@ast
John O'Keefe
@ca
John O'Keefe
@cs
John O'Keefe
@cy
John O'Keefe
@da
John O'Keefe
@en
John O'Keefe
@en-ca
John O'Keefe
@en-gb
type
label
Ioannes O'Keefe
@la
John Michael O’Keefe
@nds
John O'Keefe
@ast
John O'Keefe
@ca
John O'Keefe
@cs
John O'Keefe
@cy
John O'Keefe
@da
John O'Keefe
@en
John O'Keefe
@en-ca
John O'Keefe
@en-gb
altLabel
John M. O'Keefe
@en
John Michael O'Keefe
@en
John O’Keefe
@en
约翰-欧基夫
@zh-hans
约翰·O·基夫
@zh-hans
约翰·欧基夫
@zh-hans
prefLabel
Ioannes O'Keefe
@la
John Michael O’Keefe
@nds
John O'Keefe
@ast
John O'Keefe
@ca
John O'Keefe
@cs
John O'Keefe
@cy
John O'Keefe
@da
John O'Keefe
@en
John O'Keefe
@en-ca
John O'Keefe
@en-gb