Play it again: reactivation of waking experience and memory
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[1] P. Dudchenko. The hippocampus as a cognitive map , 2010 .
[2] M. Wilson,et al. Disruption of ripple‐associated hippocampal activity during rest impairs spatial learning in the rat , 2009, Hippocampus.
[3] G. Buzsáki,et al. Selective suppression of hippocampal ripples impairs spatial memory , 2009, Nature Neuroscience.
[4] Matthew A. Wilson,et al. Hippocampal Replay of Extended Experience , 2009, Neuron.
[5] B. McNaughton,et al. Hippocampus Leads Ventral Striatum in Replay of Place-Reward Information , 2009, PLoS biology.
[6] M. Khamassi,et al. Replay of rule-learning related neural patterns in the prefrontal cortex during sleep , 2009, Nature Neuroscience.
[7] Susumu Tonegawa,et al. Hippocampal CA3 Output Is Crucial for Ripple-Associated Reactivation and Consolidation of Memory , 2009, Neuron.
[8] J. Isaac,et al. Hippocampal Place Cell Firing Patterns Can Induce Long-Term Synaptic Plasticity In Vitro , 2009, The Journal of Neuroscience.
[9] Mattias P. Karlsson,et al. Awake replay of remote experiences in the hippocampus , 2009, Nature Neuroscience.
[10] Evgueniy V. Lubenov,et al. State-Dependent Spike-Timing Relationships between Hippocampal and Prefrontal Circuits during Sleep , 2009, Neuron.
[11] B. McNaughton,et al. Sequence Reactivation in the Hippocampus Is Impaired in Aged Rats , 2008, The Journal of Neuroscience.
[12] Charles L. Wilson,et al. Cell Type-Specific Firing during Ripple Oscillations in the Hippocampal Formation of Humans , 2008, The Journal of Neuroscience.
[13] L. Frank,et al. New Experiences Enhance Coordinated Neural Activity in the Hippocampus , 2008, Neuron.
[14] J. O’Neill,et al. Reactivation of experience-dependent cell assembly patterns in the hippocampus , 2008, Nature Neuroscience.
[15] B. Nolan. Boosting slow oscillations during sleep potentiates memory , 2008 .
[16] Adam Johnson,et al. Neural Ensembles in CA3 Transiently Encode Paths Forward of the Animal at a Decision Point , 2007, The Journal of Neuroscience.
[17] J. Born,et al. The contribution of sleep to hippocampus-dependent memory consolidation , 2007, Trends in Cognitive Sciences.
[18] G. Buzsáki,et al. Forward and reverse hippocampal place-cell sequences during ripples , 2007, Nature Neuroscience.
[19] B. McNaughton,et al. EEG sharp waves and sparse ensemble unit activity in the macaque hippocampus. , 2007, Journal of neurophysiology.
[20] J. O’Neill,et al. Place-selective firing contributes to the reverse-order reactivation of CA1 pyramidal cells during sharp waves in open-field exploration , 2007, The European journal of neuroscience.
[21] R. Cabeza,et al. Functional neuroimaging of autobiographical memory , 2007, Trends in Cognitive Sciences.
[22] B. Sakmann,et al. Differential responses of hippocampal subfields to cortical up–down states , 2007, Proceedings of the National Academy of Sciences.
[23] Colin Molter,et al. Reactivation of behavioral activity during sharp waves: A computational model for two stage hippocampal dynamics , 2007, Hippocampus.
[24] M. Wilson,et al. Coordinated memory replay in the visual cortex and hippocampus during sleep , 2007, Nature Neuroscience.
[25] Sean M Montgomery,et al. Integration and Segregation of Activity in Entorhinal-Hippocampal Subregions by Neocortical Slow Oscillations , 2006, Neuron.
[26] Jadin C. Jackson,et al. Hippocampal Sharp Waves and Reactivation during Awake States Depend on Repeated Sequential Experience , 2006, The Journal of Neuroscience.
[27] Bruce L McNaughton,et al. Methodological Considerations on the Use of Template Matching to Study Long-Lasting Memory Trace Replay , 2006, The Journal of Neuroscience.
[28] Bruce L. McNaughton,et al. Path integration and the neural basis of the 'cognitive map' , 2006, Nature Reviews Neuroscience.
[29] J. Born,et al. Hippocampal sharp wave-ripples linked to slow oscillations in rat slow-wave sleep. , 2006, Journal of neurophysiology.
[30] S. Wang,et al. Malleability of Spike-Timing-Dependent Plasticity at the CA3–CA1 Synapse , 2006, The Journal of Neuroscience.
[31] G. Winocur,et al. The cognitive neuroscience of remote episodic, semantic and spatial memory , 2006, Current Opinion in Neurobiology.
[32] David J. Foster,et al. Reverse replay of behavioural sequences in hippocampal place cells during the awake state , 2006, Nature.
[33] J. O’Neill,et al. Place-Selective Firing of CA1 Pyramidal Cells during Sharp Wave/Ripple Network Patterns in Exploratory Behavior , 2006, Neuron.
[34] Kenneth D. Harris,et al. Firing rate modulation: A simple statistical view of memory trace reactivation , 2005, Neural Networks.
[35] R. J. McDonald,et al. NMDA‐receptor blockade by CPP impairs post‐training consolidation of a rapidly acquired spatial representation in rat hippocampus , 2005, The European journal of neuroscience.
[36] K. Deisseroth,et al. Millisecond-timescale, genetically targeted optical control of neural activity , 2005, Nature Neuroscience.
[37] G. Winocur,et al. Functional neuroanatomy of remote episodic, semantic and spatial memory: a unified account based on multiple trace theory , 2005, Journal of anatomy.
[38] Neil Burgess,et al. Attractor Dynamics in the Hippocampal Representation of the Local Environment , 2005, Science.
[39] P. Frankland,et al. The organization of recent and remote memories , 2005, Nature Reviews Neuroscience.
[40] B. McNaughton,et al. Hippocampal sharp wave bursts coincide with neocortical "up-state" transitions. , 2004, Learning & memory.
[41] B. McNaughton,et al. The Ventral Striatum in Off-Line Processing: Ensemble Reactivation during Sleep and Modulation by Hippocampal Ripples , 2004, The Journal of Neuroscience.
[42] G. Buzsáki. Large-scale recording of neuronal ensembles , 2004, Nature Neuroscience.
[43] B. McNaughton,et al. Differential modulation of CA1 and dentate gyrus interneurons during exploration of novel environments. , 2004, Journal of neurophysiology.
[44] W. K. Cullen,et al. Dopamine-dependent facilitation of LTP induction in hippocampal CA1 by exposure to spatial novelty , 2003, Nature Neuroscience.
[45] J. Csicsvari,et al. Communication between neocortex and hippocampus during sleep in rodents , 2003, Proceedings of the National Academy of Sciences of the United States of America.
[46] Albert K. Lee,et al. Memory of Sequential Experience in the Hippocampus during Slow Wave Sleep , 2002, Neuron.
[47] B L McNaughton,et al. Coordinated Reactivation of Distributed Memory Traces in Primate Neocortex , 2002, Science.
[48] Menno P. Witter,et al. Place Cells and Place Recognition Maintained by Direct Entorhinal-Hippocampal Circuitry , 2002, Science.
[49] M. Quirk,et al. Requirement for Hippocampal CA3 NMDA Receptors in Associative Memory Recall , 2002, Science.
[50] G. Buzsáki. Theta Oscillations in the Hippocampus , 2002, Neuron.
[51] S. J. Martin,et al. New life in an old idea: The synaptic plasticity and memory hypothesis revisited , 2002, Hippocampus.
[52] P Maquet,et al. The Role of Sleep in Learning and Memory , 2001, Science.
[53] R. Stickgold,et al. Sleep, Learning, and Dreams: Off-line Memory Reprocessing , 2001, Science.
[54] L. Bianchi,et al. Effects of novelty and habituation on acetylcholine, GABA, and glutamate release from the frontal cortex and hippocampus of freely moving rats , 2001, Neuroscience.
[55] Arne D. Ekstrom,et al. NMDA Receptor Antagonism Blocks Experience-Dependent Expansion of Hippocampal “Place Fields” , 2001, Neuron.
[56] M. Wilson,et al. Temporally Structured Replay of Awake Hippocampal Ensemble Activity during Rapid Eye Movement Sleep , 2001, Neuron.
[57] J. Csicsvari,et al. Ensemble Patterns of Hippocampal CA3-CA1 Neurons during Sharp Wave–Associated Population Events , 2000, Neuron.
[58] M. Quirk,et al. Experience-Dependent Asymmetric Shape of Hippocampal Receptive Fields , 2000, Neuron.
[59] J. Ihalainen,et al. Comparison of dopamine and noradrenaline release in mouse prefrontal cortex, striatum and hippocampus using microdialysis , 1999, Neuroscience Letters.
[60] G Buzsáki,et al. Hebbian modification of a hippocampal population pattern in the rat , 1999, The Journal of physiology.
[61] S. J. Martin,et al. Reversible neural inactivation reveals hippocampal participation in several memory processes , 1999, Nature Neuroscience.
[62] G. Buzsáki,et al. tFast Network Oscillations in the Hippocampal CA1 Region of the Behaving Rat , 1999, The Journal of Neuroscience.
[63] B. McNaughton,et al. Reactivation of Hippocampal Cell Assemblies: Effects of Behavioral State, Experience, and EEG Dynamics , 1999, The Journal of Neuroscience.
[64] J. Csicsvari,et al. Oscillatory Coupling of Hippocampal Pyramidal Cells and Interneurons in the Behaving Rat , 1999, The Journal of Neuroscience.
[65] R. Morris,et al. Delay‐dependent impairment of a matching‐to‐place task with chronic and intrahippocampal infusion of the NMDA‐antagonist D‐AP5 , 1999, Hippocampus.
[66] G. Bi,et al. Synaptic Modifications in Cultured Hippocampal Neurons: Dependence on Spike Timing, Synaptic Strength, and Postsynaptic Cell Type , 1998, The Journal of Neuroscience.
[67] M. Wilson,et al. Coordinated Interactions between Hippocampal Ripples and Cortical Spindles during Slow-Wave Sleep , 1998, Neuron.
[68] R. Morris,et al. Impaired spatial learning after saturation of long-term potentiation. , 1998, Science.
[69] C Kentros,et al. Abolition of long-term stability of new hippocampal place cell maps by NMDA receptor blockade. , 1998, Science.
[70] E. Kandel,et al. Cognitive Neuroscience and the Study of Memory , 1998, Neuron.
[71] B. McNaughton,et al. Memory reprocessing in corticocortical and hippocampocortical neuronal ensembles. , 1997, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.
[72] B. McNaughton,et al. Experience-dependent, asymmetric expansion of hippocampal place fields. , 1997, Proceedings of the National Academy of Sciences of the United States of America.
[73] Y. Izumi,et al. Noradrenergic regulation of synaptic plasticity in the hippocampal CA1 region. , 1997, Journal of neurophysiology.
[74] H. Markram,et al. Regulation of Synaptic Efficacy by Coincidence of Postsynaptic APs and EPSPs , 1997, Science.
[75] G. Buzsáki,et al. High-Frequency Oscillations in the Output Networks of the Hippocampal–Entorhinal Axis of the Freely Behaving Rat , 1996, The Journal of Neuroscience.
[76] B. McNaughton,et al. Replay of Neuronal Firing Sequences in Rat Hippocampus During Sleep Following Spatial Experience , 1996, Science.
[77] F. Craik,et al. Novelty and familiarity activations in PET studies of memory encoding and retrieval. , 1996, Cerebral cortex.
[78] James L. McClelland,et al. Considerations arising from a complementary learning systems perspective on hippocampus and neocortex , 1996, Hippocampus.
[79] James L. McClelland,et al. Why there are complementary learning systems in the hippocampus and neocortex: insights from the successes and failures of connectionist models of learning and memory. , 1995, Psychological review.
[80] G. Buzsáki,et al. Selective activation of deep layer (V-VI) retrohippocampal cortical neurons during hippocampal sharp waves in the behaving rat , 1994, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[81] B. McNaughton,et al. Reactivation of hippocampal ensemble memories during sleep. , 1994, Science.
[82] E. Rolls,et al. Computational analysis of the role of the hippocampus in memory , 1994, Hippocampus.
[83] M. Steriade,et al. A novel slow (< 1 Hz) oscillation of neocortical neurons in vivo: depolarizing and hyperpolarizing components , 1993, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[84] T. Bliss,et al. A synaptic model of memory: long-term potentiation in the hippocampus , 1993, Nature.
[85] G. Buzsáki,et al. High-frequency network oscillation in the hippocampus. , 1992, Science.
[86] L. Squire. Memory and the hippocampus: a synthesis from findings with rats, monkeys, and humans. , 1992, Psychological review.
[87] G. Buzsáki. Two-stage model of memory trace formation: A role for “noisy” brain states , 1989, Neuroscience.
[88] C. Pavlides,et al. Influences of hippocampal place cell firing in the awake state on the activity of these cells during subsequent sleep episodes , 1989, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[89] C. A. Castro,et al. Spatial selectivity of rat hippocampal neurons: dependence on preparedness for movement. , 1989, Science.
[90] D. O. Hebb,et al. The organization of behavior , 1988 .
[91] B. McNaughton,et al. Hippocampal synaptic enhancement and information storage within a distributed memory system , 1987, Trends in Neurosciences.
[92] G. Buzsáki. Hippocampal sharp waves: Their origin and significance , 1986, Brain Research.
[93] G. Lynch,et al. Selective impairment of learning and blockade of long-term potentiation by an N-methyl-D-aspartate receptor antagonist, AP5 , 1986, Nature.
[94] Neal J. Cohen,et al. Recall of remote episodic memory in amnesia , 1983, Neuropsychologia.
[95] G. Buzsáki,et al. Cellular bases of hippocampal EEG in the behaving rat , 1983, Brain Research Reviews.
[96] R. Morris,et al. Place navigation impaired in rats with hippocampal lesions , 1982, Nature.
[97] L. Nadel,et al. The Hippocampus as a Cognitive Map , 1978 .
[98] T. Bliss,et al. Long‐lasting potentiation of synaptic transmission in the dentate area of the anaesthetized rabbit following stimulation of the perforant path , 1973, The Journal of physiology.
[99] J. O'Keefe,et al. The hippocampus as a spatial map. Preliminary evidence from unit activity in the freely-moving rat. , 1971, Brain research.
[100] E. Wolpert. A Manual of Standardized Terminology, Techniques and Scoring System for Sleep Stages of Human Subjects. , 1969 .
[101] A. Rechtschaffen,et al. A manual of standardized terminology, technique and scoring system for sleep stages of human subjects , 1968 .
[102] A. Rechtschaffen. A manual of standardized terminology, techniques and scoring system for sleep of human subjects , 1968 .
[103] D. W.. In memory of ... , 1963, Science.
[104] W. Scoville,et al. LOSS OF RECENT MEMORY AFTER BILATERAL HIPPOCAMPAL LESIONS , 1957, Journal of neurology, neurosurgery, and psychiatry.
[105] J. Knott. The organization of behavior: A neuropsychological theory , 1951 .