| scholarly article | Q13442814 |
| P50 | author | Kate Jeffery | Q48133407 |
| P2093 | author name string | Michael I Anderson | |
| Alan O'Donoghue | |||
| Caitlin Morris | |||
| Dikennam Onyiagha | |||
| Madeleine Verriotis | |||
| Rosemary Stevenson | |||
| Sarah Killing | |||
| P2860 | cites work | Dissociation of the geometric and contextual influences on place cells | Q48144498 |
| Heterogeneous Modulation of Place Cell Firing by Changes in Context | Q48182062 | ||
| The hippocampal memory indexing theory | Q48363112 | ||
| Spatial firing properties of hippocampal CA1 populations in an environment containing two visually identical regions. | Q48380121 | ||
| Hippocampal place cells acquire location-specific responses to the conditioned stimulus during auditory fear conditioning. | Q48392326 | ||
| Cue control and head direction cells | Q48397978 | ||
| The hippocampus, space, and viewpoints in episodic memory | Q48451824 | ||
| Preserved configural learning and spatial learning impairment in rats with hippocampal damage | Q48602966 | ||
| Long-term plasticity in hippocampal place-cell representation of environmental geometry | Q48667438 | ||
| Cue-sampling and goal-approach correlates of hippocampal unit activity in rats performing an odor-discrimination task | Q48964239 | ||
| Dynamic filtering of recognition memory codes in the hippocampus. | Q52030858 | ||
| Interactions between location and task affect the spatial and directional firing of hippocampal neurons. | Q52205310 | ||
| Neuronal Substrate of Classical Conditioning in the Hippocampus | Q52242597 | ||
| Hippocampal place cells: stereotypy and plasticity. | Q52246878 | ||
| Accumulation of hippocampal place fields at the goal location in an annular watermaze task. | Q32062014 | ||
| The effects of changes in the environment on the spatial firing of hippocampal complex-spike cells | Q34050288 | ||
| The human hippocampus and spatial and episodic memory | Q34145961 | ||
| Episodic-like memory in animals: psychological criteria, neural mechanisms and the value of episodic-like tasks to investigate animal models of neurodegenerative disease | Q34380478 | ||
| The boundary vector cell model of place cell firing and spatial memory | Q34526796 | ||
| Episodic-like memory during cache recovery by scrub jays | Q34753293 | ||
| A proposed architecture for the neural representation of spatial context | Q35789713 | ||
| Rearing on hind legs, environmental novelty, and the hippocampal formation | Q36480368 | ||
| The hippocampal formation is necessary for rats to learn and remember configural discriminations | Q39368062 | ||
| Do rats use shape to solve "shape discriminations"? | Q41837852 | ||
| Preserved performance in a hippocampal‐dependent spatial task despite complete place cell remapping | Q44406044 | ||
| Spatial and behavioral correlates of hippocampal neuronal activity | Q45835647 | ||
| Independent codes for spatial and episodic memory in hippocampal neuronal ensembles | Q46616106 | ||
| The global record of memory in hippocampal neuronal activity | Q47905887 | ||
| P433 | issue | 9 | |
| P304 | page(s) | 730-742 | |
| P577 | publication date | 2006-01-01 | |
| P1433 | published in | Hippocampus | Q5768411 |
| P1476 | title | Behavioral correlates of the distributed coding of spatial context | |
| P478 | volume | 16 |
| Q38033928 | A specific role for septohippocampal acetylcholine in memory? |
| Q43195459 | Distinct pathways for rule-based retrieval and spatial mapping of memory representations in hippocampal neurons |
| Q36498611 | Dominance of the proximal coordinate frame in determining the locations of hippocampal place cell activity during navigation |
| Q37610626 | Framing of grid cells within and beyond navigation boundaries. |
| Q30939904 | Grid cells in 3-D: Reconciling data and models |
| Q27349334 | Hippocampal lesions impair rapid learning of a continuous spatial alternation task |
| Q60345125 | Hippocampal theta frequency, novelty, and behavior |
| Q48131478 | Hippocampus is necessary for spatial discrimination using distal cue-configuration |
| Q64113356 | Insensitivity of Place Cells to the Value of Spatial Goals in a Two-Choice Flexible Navigation Task |
| Q34005018 | Integration of the sensory inputs to place cells: what, where, why, and how? |
| Q48392464 | Mid-life environmental enrichment increases synaptic density in CA1 in a mouse model of Aβ-associated pathology and positively influences synaptic and cognitive health in healthy ageing. |
| Q41871699 | Novelty and anxiolytic drugs dissociate two components of hippocampal theta in behaving rats |
| Q41685206 | Objects and landmarks: hippocampal place cells respond differently to manipulations of visual cues depending on size, perspective, and experience |
| Q42374610 | Pattern separation in the dentate gyrus: a role for the CA3 backprojection |
| Q37963888 | Place cells, grid cells, attractors, and remapping. |
| Q40067019 | The role of the dentate gyrus, CA3a,b, and CA3c for detecting spatial and environmental novelty. |
| Q37703047 | Theoretical accounts of spatial learning: a neurobiological view (commentary on Pearce, 2009) |
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