| scholarly article | Q13442814 |
| P356 | DOI | 10.1523/JNEUROSCI.15-01-00070.1995 |
| P8608 | Fatcat ID | release_dc4g2h2hk5czpfwfkxxl2rp3v4 |
| P3181 | OpenCitations bibliographic resource ID | 884598 |
| P932 | PMC publication ID | 6578288 |
| P698 | PubMed publication ID | 7823153 |
| P2093 | author name string | J S Taube | |
| P433 | issue | 1 Pt 1 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 70-86 | |
| P577 | publication date | 1995-01-01 | |
| P1433 | published in | Journal of Neuroscience | Q1709864 |
| P1476 | title | Head direction cells recorded in the anterior thalamic nuclei of freely moving rats | |
| P478 | volume | 15 |
| Q92535288 | A Comparison of Neural Decoding Methods and Population Coding Across Thalamo-Cortical Head Direction Cells |
| Q48497973 | A continuous attractor network model without recurrent excitation: maintenance and integration in the head direction cell system |
| Q48603750 | A floating microwire technique for multichannel chronic neural recording and stimulation in the awake freely moving rat. |
| Q42051157 | A goal-directed spatial navigation model using forward trajectory planning based on grid cells |
| Q34235278 | A neural systems analysis of adaptive navigation |
| Q41235983 | A quarter of a century of place cells |
| Q91808416 | A sense of space in postrhinal cortex |
| Q48577761 | A spin glass model of path integration in rat medial entorhinal cortex. |
| Q87461908 | A subset of thalamocortical projections to the retrosplenial cortex possesses two vesicular glutamate transporter isoforms, VGluT1 and VGluT2, in axon terminals and somata |
| Q37477284 | A video demonstration of preserved piloting by scent tracking but impaired dead reckoning after fimbria-fornix lesions in the rat. |
| Q21145367 | Accurate path integration in continuous attractor network models of grid cells |
| Q35160387 | Active and passive movement are encoded equally by head direction cells in the anterodorsal thalamus |
| Q48261478 | All layers of medial entorhinal cortex receive presubicular and parasubicular inputs |
| Q48320904 | An examination of the spatial working memory deficit following neurotoxic medial dorsal thalamic lesions in rats |
| Q40863259 | Analysis of the connectional organization of neural systems associated with the hippocampus in rats |
| Q39695943 | Anatomical organization of presubicular head-direction circuits. |
| Q36287164 | Anatomical pathways that link perception and action |
| Q48652163 | Angular displacement perception modulated by force background |
| Q45240223 | Angular path integration by moving "hill of activity": a spiking neuron model without recurrent excitation of the head-direction system. |
| Q89157775 | Anterior Thalamic Excitation and Feedforward Inhibition of Presubicular Neurons Projecting to Medial Entorhinal Cortex |
| Q42926172 | Architectural constraints are a major factor reducing path integration accuracy in the rat head direction cell system |
| Q38173647 | Architecture of spatial circuits in the hippocampal region |
| Q42143084 | Asymmetric cross-hemispheric connections link the rat anterior thalamic nuclei with the cortex and hippocampal formation |
| Q26859293 | Axonal activity in vivo: technical considerations and implications for the exploration of neural circuits in freely moving animals |
| Q41471773 | Biologically based artificial navigation systems: review and prospects |
| Q35056017 | Both visual and idiothetic cues contribute to head direction cell stability during navigation along complex routes |
| Q35665955 | Bridging the gap between spatial and mnemonic views of the hippocampal formation |
| Q47839536 | Cohesiveness of spatial and directional representations recorded from neural ensembles in the anterior thalamus, parasubiculum, medial entorhinal cortex, and hippocampus. |
| Q90008943 | Commutative Properties of Head Direction Cells during Locomotion in 3D: Are All Routes Equal? |
| Q36436328 | Conjoint control of hippocampal place cell firing by two visual stimuli. Ii. A vector-field theory that predicts modifications of the representation of the environment |
| Q82468361 | Control of anterodorsal thalamic head direction cells by environmental boundaries: comparison with conflicting distal landmarks |
| Q52024387 | Convergence of head direction and place information in the CA1 region of hippocampus. |
| Q47868253 | Coupling between place cells and head direction cells during relative translations and rotations of distal landmarks. |
| Q81474609 | Degradation of head direction cell activity during inverted locomotion |
| Q51411676 | Delivering drugs, via microdialysis, into the environment of extracellularly recorded hippocampal neurons in behaving primates. |
| Q44118544 | Development of spatial firing in the hippocampus of young rats |
| Q48232720 | Differential deficits in the Morris water maze following cytotoxic lesions of the anterior thalamus and fornix transection |
| Q48892065 | Differential effect of thalamic and cortical lesions on memory systems in the rat. |
| Q33823299 | Directional learning, but no spatial mapping by rats performing a navigational task in an inverted orientation. |
| Q36336944 | Directional responding of C57BL/6J mice in the Morris water maze is influenced by visual and vestibular cues and is dependent on the anterior thalamic nuclei |
| Q30493114 | Disruption of the head direction cell signal after occlusion of the semicircular canals in the freely moving chinchilla |
| Q50140724 | Dissociating Landmark Stability from Orienting Value Using Functional Magnetic Resonance Imaging |
| Q30673353 | During Running in Place, Grid Cells Integrate Elapsed Time and Distance Run. |
| Q38579343 | Dynamics of mismatch correction in the hippocampal ensemble code for space: interaction between path integration and environmental cues. |
| Q48870471 | Environmental Geometry Aligns the Hippocampal Map during Spatial Reorientation |
| Q48318403 | Evidence for separate allocentric and egocentric space processing in neglect patients |
| Q43225796 | Evidence for spatially-responsive neurons in the rostral thalamus |
| Q41526842 | Experience-Related Changes in Place Cell Responses to New Sensory Configuration That Does Not Occur in the Natural Environment in the Rat Hippocampus |
| Q64060485 | Extrafield Activity Shifts the Place Field Center of Mass to Encode Aversive Experience |
| Q34720939 | Firing properties of head direction cells in the rat anterior thalamic nucleus: dependence on vestibular input. |
| Q34476871 | Firing properties of rat lateral mammillary single units: head direction, head pitch, and angular head velocity |
| Q49160242 | Fos expression in the rostral thalamic nuclei and associated cortical regions in response to different spatial memory tests |
| Q48571758 | Fos imaging reveals that lesions of the anterior thalamic nuclei produce widespread limbic hypoactivity in rats. |
| Q37947565 | Framing spatial cognition: neural representations of proximal and distal frames of reference and their roles in navigation |
| Q30636620 | From grid cells and visual place cells to multimodal place cell: a new robotic architecture |
| Q58596511 | Functional Diversity of Thalamic Reticular Subnetworks |
| Q93070882 | Functional and anatomical relationships between the medial precentral cortex, dorsal striatum, and head direction cell circuitry. I. Recording studies |
| Q93070761 | Functional and anatomical relationships between the medial precentral cortex, dorsal striatum, and head direction cell circuitry. II. Neuroanatomical studies |
| Q36868650 | Functional neuroanatomy of the parahippocampal region: the lateral and medial entorhinal areas |
| Q47119261 | Galantamine counteracts development of learning impairment in guinea pigs exposed to the organophosphorus poison soman: clinical significance |
| Q28081822 | Grid Cells and Place Cells: An Integrated View of their Navigational and Memory Function |
| Q37330276 | Grid cells: the position code, neural network models of activity, and the problem of learning |
| Q34931999 | Head direction cell activity in mice: robust directional signal depends on intact otolith organs |
| Q36533030 | Head direction cell activity in the anterodorsal thalamus requires intact supragenual nuclei |
| Q37790525 | Head direction cell firing properties and behavioural performance in 3‐D space |
| Q37401345 | Head direction cell instability in the anterior dorsal thalamus after lesions of the interpeduncular nucleus |
| Q34421997 | Head direction cell representations maintain internal coherence during conflicting proximal and distal cue rotations: comparison with hippocampal place cells |
| Q36663856 | Head direction cells and episodic spatial information in rats without a hippocampus |
| Q28274892 | Head direction cells and the neurophysiological basis for a sense of direction |
| Q33870089 | Head direction cells in rats with hippocampal or overlying neocortical lesions: evidence for impaired angular path integration |
| Q35784005 | Head direction cells in the postsubiculum do not show replay of prior waking sequences during sleep. |
| Q41049110 | Head direction cells: properties and functional significance |
| Q34450934 | Head direction is coded more strongly than movement direction in a population of entorhinal neurons. |
| Q42000186 | Head direction maps remain stable despite grid map fragmentation |
| Q48101320 | Head-Directional Tuning and Theta Modulation of Anatomically Identified Neurons in the Presubiculum. |
| Q48159102 | Hippocampal Place Cell Instability after Lesions of the Head Direction Cell Network |
| Q48582538 | Hippocampal formation is involved in movement selection: evidence from medial septal cholinergic modulation and concurrent slow-wave (theta rhythm) recording |
| Q24614124 | Hippocampal-anterior thalamic pathways for memory: uncovering a network of direct and indirect actions |
| Q52024762 | Hippocampectomized rats can use a constellation of landmarks to recognize a place. |
| Q89892450 | Home, head direction stability, and grid cell distortion |
| Q40203989 | How does the modular organization of entorhinal grid cells develop? |
| Q27687814 | How the cerebellum may monitor sensory information for spatial representation. |
| Q47925552 | Human vestibular memory studied via measurement of the subjective horizontal during gondola centrifugation |
| Q33818185 | Impaired head direction cell representation in the anterodorsal thalamus after lesions of the retrosplenial cortex. |
| Q34703763 | Impairment of the anterior thalamic head direction cell network following administration of the NMDA antagonist MK-801. |
| Q39820717 | Intact landmark control and angular path integration by head direction cells in the anterodorsal thalamus after lesions of the medial entorhinal cortex |
| Q57272014 | Intact spatial updating during locomotion after right posterior parietal lesions |
| Q40875151 | Interaction between the postsubiculum and anterior thalamus in the generation of head direction cell activity |
| Q37705483 | Interaction of egocentric and world-centered reference frames in the rat posterior parietal cortex. |
| Q28258099 | Internally organized mechanisms of the head direction sense. |
| Q34151564 | Interspike interval analyses reveal irregular firing patterns at short, but not long, intervals in rat head direction cells |
| Q45073617 | Involvement of the Avian Dorsal Thalamic Nuclei in Homing Pigeon Navigation. |
| Q37407089 | Landmark control and updating of self-movement cues are largely maintained in head direction cells after lesions of the posterior parietal cortex. |
| Q33560866 | Layer-Specific Organization of Local Excitatory and Inhibitory Synaptic Connectivity in the Rat Presubiculum |
| Q48469852 | Learned integration of visual, vestibular, and motor cues in multiple brain regions computes head direction during visually guided navigation |
| Q42251841 | Learning indoor robot navigation using visual and sensorimotor map information |
| Q49713443 | Learning place cells, grid cells and invariances with excitatory and inhibitory plasticity |
| Q50636674 | Lesions of the mammillary body region severely disrupt the cortical head direction, but not place cell signal. |
| Q48107765 | Lesions of the tegmentomammillary circuit in the head direction system disrupt the head direction signal in the anterior thalamus. |
| Q48819966 | Localized bumps of activity sustained by inhibition in a two-layer thalamic network |
| Q37359535 | Modeling of grid cell activity demonstrates in vivo entorhinal 'look-ahead' properties. |
| Q38812056 | Modelling effects on grid cells of sensory input during self-motion |
| Q36944916 | Molecular anatomy of the thalamic complex and the underlying transcription factors |
| Q93019929 | Multiscale relevance and informative encoding in neuronal spike trains |
| Q34683685 | Multisensory processing in the elaboration of place and head direction responses by limbic system neurons |
| Q39458317 | Navigating Monogamy: Nonapeptide Sensitivity in a Memory Neural Circuit May Shape Social Behavior and Mating Decisions |
| Q52587308 | Navigational Strategies and Their Neural Correlates. |
| Q44361737 | Neural correlates for angular head velocity in the rat dorsal tegmental nucleus. |
| Q50014892 | Neural mechanisms of navigation involving interactions of cortical and subcortical structures. |
| Q38204836 | Neural mechanisms of self-location |
| Q37310876 | Neurobiologically inspired mobile robot navigation and planning |
| Q38826152 | Neurochemistry of the Anterior Thalamic Nuclei |
| Q58730732 | Non-rhythmic head-direction cells in the parahippocampal region are not constrained by attractor network dynamics |
| Q28655287 | On the time course of short-term forgetting: a human experimental model for the sense of balance |
| Q33665958 | Optic flow input to the hippocampal formation from the accessory optic system |
| Q43917479 | Optic flow stimuli update anterodorsal thalamus head direction neuronal activity in rats |
| Q28250027 | Origins of landmark encoding in the brain |
| Q42575368 | Oscillatory entrainment of thalamic neurons by theta rhythm in freely moving rats |
| Q48285824 | Oscillatory synchrony between head direction cells recorded bilaterally in the anterodorsal thalamic nuclei |
| Q47407245 | Our sense of direction: progress, controversies and challenges |
| Q37604166 | Parallel and convergent processing in grid cell, head-direction cell, boundary cell, and place cell networks |
| Q40841842 | Parietal and hippocampal contribution to topokinetic and topographic memory |
| Q48202541 | Path integration absent in scent-tracking fimbria-fornix rats: evidence for hippocampal involvement in "sense of direction" and "sense of distance" using self-movement cues. |
| Q28243541 | Path integration and cognitive mapping in a continuous attractor neural network model |
| Q34634125 | Path integration of head direction: updating a packet of neural activity at the correct speed using axonal conduction delays |
| Q30525277 | Path integration: how the head direction signal maintains and corrects spatial orientation |
| Q48497848 | Peak firing rates of rat anterodorsal thalamic head direction cells are higher during faster passive rotations |
| Q48474840 | Perception of angular displacement without landmarks: evidence for Bayesian fusion of vestibular, optokinetic, podokinesthetic, and cognitive information |
| Q83836743 | Phase precession and variable spatial scaling in a periodic attractor map model of medial entorhinal grid cells with realistic after-spike dynamics |
| Q24683996 | Place cells and place navigation |
| Q52124422 | Plasticity in the projection from the anterior thalamic nuclei to the anterior cingulate cortex in the rat in vivo: paired-pulse facilitation, long-term potentiation and short-term depression. |
| Q49085807 | Polysynaptic pathways from the vestibular nuclei to the lateral mammillary nucleus of the rat: substrates for vestibular input to head direction cells. |
| Q64099833 | Position Estimation Based on Grid Cells and Self-Growing Self-Organizing Map |
| Q41946415 | Post-training Inactivation of the Anterior Thalamic Nuclei Impairs Spatial Performance on the Radial Arm Maze |
| Q36824547 | Posture, head stability, and orientation recovery during vestibular regeneration in pigeons |
| Q95319554 | Precise coupling of the thalamic head-direction system to hippocampal ripples |
| Q42490681 | Presubiculum layer III conveys retrosplenial input to the medial entorhinal cortex |
| Q64098140 | Proximal perimeter encoding in the rat rostral thalamus |
| Q48324461 | Rapid spatial reorientation and head direction cells. |
| Q33924859 | Rat thalamic neurons encode complex combinations of heading and movement directions and the trajectory route during translocation with sensory conflict |
| Q48487149 | Rats with fimbria-fornix lesions are impaired in path integration: a role for the hippocampus in "sense of direction". |
| Q80610123 | Reconstruction of the postsubiculum head direction signal from neural ensembles |
| Q48529572 | Recordings of postsubiculum head direction cells following lesions of the laterodorsal thalamic nucleus |
| Q38691067 | Representation of memories in the cortical-hippocampal system: Results from the application of population similarity analyses |
| Q33793239 | Resolving the active versus passive conundrum for head direction cells |
| Q63479700 | Retrosplenial cortex and its role in spatial cognition |
| Q21090871 | Retrosplenial cortex codes for permanent landmarks |
| Q90811678 | Revealing neural correlates of behavior without behavioral measurements |
| Q40841501 | Robotic and neuronal simulation of the hippocampus and rat navigation |
| Q48313445 | Robust spatial working memory through homeostatic synaptic scaling in heterogeneous cortical networks. |
| Q29029195 | Role of the Lateral Mammillary Nucleus in the Rat Head Direction Circuit |
| Q45712600 | Role of the anterodorsal and anteroventral nuclei of the thalamus in spatial memory in the rat. |
| Q36005144 | Running speed alters the frequency of hippocampal gamma oscillations |
| Q36419903 | Saccade direction encoding in the primate entorhinal cortex during visual exploration |
| Q48787375 | Searching for spatial unit firing in the prelimbic area of the rat medial prefrontal cortex |
| Q30541213 | Segregation of cortical head direction cell assemblies on alternating θ cycles |
| Q43111870 | Segregation of parallel inputs to the anteromedial and anteroventral thalamic nuclei of the rat. |
| Q46681415 | Self-motion and the hippocampal spatial metric. |
| Q33708238 | Self-motion improves head direction cell tuning |
| Q48555491 | Sensory preconditioning in rats with lesions of the anterior thalamic nuclei: evidence for intact nonspatial 'relational' processing |
| Q95839673 | Sources of path integration error in young and aging humans |
| Q92856620 | Space and Memory (Far) Beyond the Hippocampus: Many Subcortical Structures Also Support Cognitive Mapping and Mnemonic Processing |
| Q38324500 | Spatial cognition in bats and rats: from sensory acquisition to multiscale maps and navigation. |
| Q48380121 | Spatial firing properties of hippocampal CA1 populations in an environment containing two visually identical regions. |
| Q34668037 | Spatial navigation. Disruption of the head direction cell network impairs the parahippocampal grid cell signal |
| Q38505045 | Subicular cells generate similar spatial firing patterns in two geometrically and visually distinctive environments: comparison with hippocampal place cells |
| Q87900246 | Testing the Efficacy of Single-Cell Stimulation in Biasing Presubicular Head Direction Activity |
| Q46947749 | Thalamocortical projections of the anterodorsal thalamic nucleus in the rabbit |
| Q47853856 | The Brain Compass: A Perspective on How Self-Motion Updates the Head Direction Cell Attractor |
| Q58617072 | The Cognitive Thalamus as a gateway to mental representations |
| Q47689803 | The Head-Direction Signal Plays a Functional Role as a Neural Compass during Navigation |
| Q37660253 | The Human Retrosplenial Cortex and Thalamus Code Head Direction in a Global Reference Frame. |
| Q35966160 | The Preferred Directions of Conjunctive Grid X Head Direction Cells in the Medial Entorhinal Cortex Are Periodically Organized |
| Q34224658 | The anatomical and computational basis of the rat head-direction cell signal. |
| Q37418920 | The anatomy of memory: an interactive overview of the parahippocampal-hippocampal network |
| Q48157122 | The anterior thalamic head-direction signal is abolished by bilateral but not unilateral lesions of the lateral mammillary nucleus |
| Q42157427 | The anterior thalamus is critical for overcoming interference in a context-dependent odor discrimination task |
| Q21129322 | The anterior thalamus provides a subcortical circuit supporting memory and spatial navigation |
| Q77366090 | The associative parietal cortex and spatial processing in rodents |
| Q43732551 | The conjoint importance of the hippocampus and anterior thalamic nuclei for allocentric spatial learning: evidence from a disconnection study in the rat. |
| Q41840243 | The development of the head direction system before eye opening in the rat. |
| Q90130201 | The effects of developmental alcohol exposure on the neurobiology of spatial processing |
| Q38560321 | The effects of selective lesions within the anterior thalamic nuclei on spatial memory in the rat. |
| Q36416047 | The hippocampus as a cognitive graph |
| Q40354916 | The impact of anterior thalamic lesions on active and passive spatial learning in stimulus controlled environments: geometric cues and pattern arrangement |
| Q41772277 | The irregular firing properties of thalamic head direction cells mediate turn-specific modulation of the directional tuning curve |
| Q34288096 | The mammillary bodies: two memory systems in one? |
| Q35069733 | The nucleus prepositus hypoglossi contributes to head direction cell stability in rats. |
| Q47371521 | The postrhinal cortex is not necessary for landmark control in rat head direction cells |
| Q45729184 | The postsubiculum and spatial learning: the role of postsubicular synaptic activity and synaptic plasticity in hippocampal place cell, object, and object-location memory |
| Q43203073 | The roles of the medial prefrontal cortex and hippocampus in a spatial paired-association task |
| Q35081267 | The thalamus as a monitor of motor outputs |
| Q37703047 | Theoretical accounts of spatial learning: a neurobiological view (commentary on Pearce, 2009) |
| Q42159201 | Theta-modulated head direction cells in the rat anterior thalamus |
| Q43125296 | Theta-modulated place-by-direction cells in the hippocampal formation in the rat. |
| Q58089155 | Three-dimensional Tuning of Head Direction Cells in Rats |
| Q34398832 | Topography of head direction cells in medial entorhinal cortex |
| Q36343976 | Tracking and characterizing the head motion of unanaesthetized rats in positron emission tomography |
| Q47125931 | Transformation of the head-direction signal into a spatial code |
| Q73292231 | Ultrastructure and distribution of corticothalamic fiber terminals from the posterior cingulate cortex and the presubiculum to the anteroventral thalamic nucleus of the rat |
| Q36595493 | Updating of the spatial reference frame of head direction cells in response to locomotion in the vertical plane |
| Q35841340 | Vestibular and attractor network basis of the head direction cell signal in subcortical circuits |
| Q26825330 | Vestibular control of entorhinal cortex activity in spatial navigation |
| Q46052356 | Vestibular, optokinetic, and cognitive contribution to the guidance of passive self-rotation toward instructed targets |
| Q51008863 | Viral tracing identifies parallel disynaptic pathways to the hippocampus. |
| Q48820882 | Virtual head rotation reveals a process of route reconstruction from human vestibular signals |
| Q35020187 | Visual landmark information gains control of the head direction signal at the lateral mammillary nuclei |
| Q30559834 | Weighted cue integration in the rodent head direction system |
| Q37302043 | Where am I and how will I get there from here? A role for posterior parietal cortex in the integration of spatial information and route planning |
| Q39726901 | Which way and how far? Tracking of translation and rotation information for human path integration |
| Q55139743 | Why acute unilateral vestibular midbrain lesions rarely manifest with rotational vertigo: a clinical and modelling approach to head direction cell function. |
| Q38246658 | Why do lesions in the rodent anterior thalamic nuclei cause such severe spatial deficits? |
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