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W. Skaggs, B. McNaughton, M. Wilson, C. Barnes (1996)
Theta phase precession in hippocampal neuronal populations and the compression of temporal sequencesHippocampus, 6
Gill Norman, M. Eacott (2004)
Impaired object recognition with increasing levels of feature ambiguity in rats with perirhinal cortex lesionsBehavioural Brain Research, 148
M. Witter (2004)
CHAPTER 21 – Hippocampal Formation
T. Bussey, L. Saksida, E. Murray (2005)
The Perceptual-Mnemonic/Feature Conjunction Model of Perirhinal Cortex FunctionQuarterly Journal of Experimental Psychology, 58
J. Taube, R. Muller, JB Ranck (1990)
Head-direction cells recorded from the postsubiculum in freely moving rats. I. Description and quantitative analysis, 10
S. Holm (1979)
A Simple Sequentially Rejective Multiple Test ProcedureScandinavian Journal of Statistics, 6
D. Mumby, J. Pinel (1994)
Rhinal cortex lesions and object recognition in rats.Behavioral neuroscience, 108 1
Jeiwon Cho, P. Sharp (2001)
Head direction, place, and movement correlates for cells in the rat retrosplenial cortex.Behavioral neuroscience, 115 1
Charlotte Boccara, F. Sargolini, Veslemøy Thoresen, T. Solstad, M. Witter, E. Moser, M. Moser (2010)
Grid cells in pre- and parasubiculumNature Neuroscience, 13
G. Norman, M. Eacott (2005)
Dissociable effects of lesions to the perirhinal cortex and the postrhinal cortex on memory for context and objects in rats.Behavioral neuroscience, 119 2
R. Feder, J. Ranck (1973)
Studies on single neurons in dorsal hippocampal formation and septum in unrestrained rats. II. Hippocampal slow waves and theta cell firing during bar pressing and other behaviors.Experimental neurology, 41 2
D. Yoganarasimha, Geeta Rao, Geeta Rao, J. Knierim, J. Knierim, J. Knierim (2011)
Lateral entorhinal neurons are not spatially selective in cue‐rich environmentsHippocampus, 21
L. Squire, C. Stark, R. Clark (2004)
The medial temporal lobe.Annual review of neuroscience, 27
E. Murray, S. Wise (2012)
Why is there a special issue on perirhinal cortex in a journal called hippocampus? The perirhinal cortex in historical perspectiveHippocampus, 22
E. Murray, T. Bussey, L. Saksida (2007)
Visual perception and memory: a new view of medial temporal lobe function in primates and rodents.Annual review of neuroscience, 30
(1999)
Episodic memory, amnesia, and the hippocampal-anterior thalamic axis
W. Suzuki, E. Miller, R. Desimone (1997)
Object and place memory in the macaque entorhinal cortex.Journal of neurophysiology, 78 2
B. McNaughton, C. Barnes, J. O’Keefe (1983)
The contributions of position, direction, and velocity to single unit activity in the hippocampus of freely-moving ratsExperimental Brain Research, 52
B. Bean (2007)
The action potential in mammalian central neuronsNature Reviews Neuroscience, 8
Billie Faulkner, T. Brown (1999)
Morphology and physiology of neurons in the rat perirhinal‐lateral amygdala areaJournal of Comparative Neurology, 411
P. Naber, M. Caballero-Bleda, B. Jorritsma-Byham, M. Witter (1997)
Parallel input to the hippocampal memory system through peri‐ and postrhinal corticesNeuroReport, 8
Cynthia Dolorfo, D. Amaral (1998)
Entorhinal cortex of the rat: Topographic organization of the cells of origin of the perforant path projection to the dentate gyrusJournal of Comparative Neurology, 398
M. Hasselmo, Lisa Giocomo, Eric Zilli (2007)
Grid cell firing may arise from interference of theta frequency membrane potential oscillations in single neuronsHippocampus, 17
J. Aggleton, S. Keen, E. Warburton, T.J Bussey (1997)
Extensive Cytotoxic Lesions Involving Both the Rhinal Cortices and Area TE Impair Recognition But Spare Spatial Alternation in the RatBrain Research Bulletin, 43
S. Burke, A. Maurer, Andrea Hartzell, Saman Nematollahi, Ajay Uprety, Jenelle Wallace, C. Barnes (2012)
Representation of three‐dimensional objects by the rat perirhinal cortexHippocampus, 22
S. Wiebe, Ursula Stä (1999)
Dynamic Filtering of Recognition Memory Codes in the Hippocampus
Francesca Sargolini, M. Fyhn, T. Hafting, Bruce Mcnaughton, M. Witter, M. Moser, E. Moser (2006)
Conjunctive Representation of Position, Direction, and Velocity in Entorhinal CortexScience, 312
Russell Epstein, N. Kanwisher (1998)
A cortical representation of the local visual environmentNature, 392
B. McNaughton, F. Battaglia, O. Jensen, E. Moser, M. Moser (2006)
Path integration and the neural basis of the 'cognitive map'Nature Reviews Neuroscience, 7
Marzia Martina, Sébastien Royer, Denis Paré (2001)
Cell-type-specific GABA responses and chloride homeostasis in the cortex and amygdala.Journal of neurophysiology, 86 6
Cho (2001)
Head direction, place, and movement correlates for cells in the rat retrosplenial cortexBehav Neurosci, 115
J. O’Keefe (1999)
Do hippocampal pyramidal cells signal non‐spatial as well as spatial information?Hippocampus, 9
R. Burwell, D. Amaral (1998)
Perirhinal and postrhinal cortices of the rat: Interconnectivity and connections with the entorhinal cortexJournal of Comparative Neurology, 391
R. Passingham (1979)
The hippocampus as a cognitive map J. O'Keefe & L. Nadel, Oxford University Press, Oxford (1978). 570 pp., £25.00Neuroscience, 4
T. Solstad, Charlotte Boccara, Emilio Kropff, M. Moser, E. Moser (2008)
Representation of Geometric Borders in the Entorhinal CortexScience, 322
J. Manns, H. Eichenbaum (2006)
Evolution of declarative memoryHippocampus, 16
J. Ranck (1973)
Studies on single neurons in dorsal hippocampal formation and septum in unrestrained rats. I. Behavioral correlates and firing repertoires.Experimental neurology, 41 2
J. Manns, H. Eichenbaum (2009)
A cognitive map for object memory in the hippocampus.Learning & memory, 16 10
L. Davachi, Jason Mitchell, A. Wagner (2003)
Multiple routes to memory: Distinct medial temporal lobe processes build item and source memoriesProceedings of the National Academy of Sciences of the United States of America, 100
R. Burwell, D. Bucci, M. Sanborn, Michael Jutras (2004)
Perirhinal and Postrhinal Contributions to Remote Memory for ContextThe Journal of Neuroscience, 24
R. BURWELLa, D. HAFEMANb (2003)
POSITIONAL FIRING PROPERTIES OF POSTRHINAL CORTEX NEURONS
(1995)
Neuronal signalling of information important to visual recognition memory in rat rhinal and neighbouring cortices
Andersen Per, M. Richard, D. Amaral, Bliss Tim, O. John (2009)
The Hippocampal Formation
R. Burwell, D. Amaral (1998)
Cortical afferents of the perirhinal, postrhinal, and entorhinal cortices of the ratJournal of Comparative Neurology, 398
Sachin Deshmukh, J. Knierim (2011)
Representation of Non-Spatial and Spatial Information in the Lateral Entorhinal CortexFrontiers in Behavioral Neuroscience, 5
M. Fyhn, S. Molden, M. Witter, E. Moser, M. Moser (2004)
Spatial Representation in the Entorhinal CortexScience, 305
Loren Frank, Loren Frank, Emery Brown, Matthew Wilson (2001)
A comparison of the firing properties of putative excitatory and inhibitory neurons from CA1 and the entorhinal cortex.Journal of neurophysiology, 86 4
N. Burgess, C. Barry, J. O’Keefe (2007)
An oscillatory interference model of grid cell firingHippocampus, 17
M. Moita, Svetlana Rosis, Yu Zhou, Joseph LeDoux, H. Blair (2003)
Hippocampal Place Cells Acquire Location-Specific Responses to the Conditioned Stimulus during Auditory Fear ConditioningNeuron, 37
JL Kubie, R. Muller, E. Bostock (1990)
Spatial firing properties of hippocampal theta cells, 10
R. Burwell, M. Shapiro, Michael O’Malley, H. Eichenbaum (1998)
Positional firing properties of perirhinal cortex neuronsNeuroReport, 9
M. Eacott, P. Machin, P. Machin, E. Gaffan (2001)
Elemental and configural visual discrimination learning following lesions to perirhinal cortex in the ratBehavioural Brain Research, 124
M. Shapiro, H. Eichenbaum (1999)
Hippocampus as a memory map: Synaptic plasticity and memory encoding by hippocampal neuronsHippocampus, 9
E. Hargreaves, Geeta Rao, Inah Lee, J. Knierim (2005)
Major Dissociation Between Medial and Lateral Entorhinal Input to Dorsal HippocampusScience, 308
F. Savelli, D. Yoganarasimha, J. Knierim (2008)
Influence of boundary removal on the spatial representations of the medial entorhinal cortexHippocampus, 18
B. Young, T. Otto, G. Fox, H. Eichenbaum (1997)
Memory Representation within the Parahippocampal RegionThe Journal of Neuroscience, 17
Sharon Furtak, Shau-Ming Wei, Kara Agster, R. Burwell (2007)
Functional neuroanatomy of the parahippocampal region in the rat: The perirhinal and postrhinal corticesHippocampus, 17
R. Burwell (2001)
Borders and cytoarchitecture of the perirhinal and postrhinal cortices in the ratJournal of Comparative Neurology, 437
Bucci (2000)
Contributions of postrhinal and perirhinal cortex to contextual information processingBehav Neurosci, 114
David Bucci, Russell Phillips, R. Burwell (2000)
Contributions of postrhinal and perirhinal cortex to contextual information processing.Behavioral neuroscience, 114 5
F. Wouterlood, W. Härtig, G. Brückner, M. Witter (1995)
Parvalbumin-immunoreactive neurons in the entorhinal cortex of the rat: localization, morphology, connectivity and ultrastructureJournal of Neurocytology, 24
X. Zhu, Malcolm Brown, B. McCabe, J. Aggleton (1995)
Effects of the novelty or familiarity of visual stimuli on the expression of the immediate early gene c-fos in rat brainNeuroscience, 69
A. Ennaceur, N. Neave, J. Aggleton (1996)
Neurotoxic lesions of the perirhinal cortex do not mimic the behavioural effects of fornix transection in the ratBehavioural Brain Research, 80
T. Hafting, M. Fyhn, S. Molden, M. Moser, E. Moser (2005)
Microstructure of a spatial map in the entorhinal cortexNature, 436
W. Scoville, B. Milner (1957)
LOSS OF RECENT MEMORY AFTER BILATERAL HIPPOCAMPAL LESIONSJournal of Neurology, Neurosurgery & Psychiatry, 20
D. Henze, Z. Borhegyi, J. Csicsvari, Akira Mamiya, K. Harris, G. Buzsáki (2000)
Intracellular features predicted by extracellular recordings in the hippocampus in vivo.Journal of neurophysiology, 84 1
Sachin Deshmukh, Sachin Deshmukh, D. Yoganarasimha, Horatiu Voicu, J. Knierim, J. Knierim, J. Knierim (2010)
Theta modulation in the medial and the lateral entorhinal cortices.Journal of neurophysiology, 104 2
H. Wan, J. Aggleton, Malcolm Brown (1999)
Different Contributions of the Hippocampus and Perirhinal Cortex to Recognition MemoryThe Journal of Neuroscience, 19
R. Burwell (2000)
The Parahippocampal Region: Corticocortical ConnectivityAnnals of the New York Academy of Sciences, 911
J. Knierim, Inah Lee, E. Hargreaves (2006)
Hippocampal place cells: Parallel input streams, subregional processing, and implications for episodic memoryHippocampus, 16
The medial temporal lobe (MTL) is involved in mnemonic processing. The perirhinal cortex (PRC) plays a role in object recognition memory, while the hippocampus is required for certain forms of spatial memory and episodic memory. The lateral entorhinal cortex (LEC) receives direct projections from PRC and is one of the two major cortical inputs to the hippocampus. The transformations that occur between PRC and LEC neural representations are not well understood. Here, we show that PRC and LEC had similarly high proportions of neurons with object‐related activity (PRC 52/94; LEC 72/153), as expected from their locations in the “what” pathway into the hippocampus. However, LEC unit activity showed more spatial stability than PRC unit activity. A minority of LEC neurons showed stable spatial firing fields away from objects; these firing fields strongly resembled hippocampal place fields. None of the PRC neurons showed this place‐like firing. None of the PRC or LEC neurons demonstrated the high firing rates associated with interneurons in hippocampus or medial entorhinal cortex, further dissociating this information processing stream from the path‐integration based, movement‐related processing of the medial entorhinal cortex and hippocampus. These results provide evidence for nonspatial information processing in the PRC‐LEC pathway, as well as showing a functional dissociation between PRC and LEC, with more purely nonspatial representations in PRC and combined spatial‐nonspatial representations in LEC. © 2012 Wiley Periodicals, Inc.
Hippocampus – Wiley
Published: Oct 1, 2012
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