During spatial navigation, the frequency and timing of spikes from spatial neurons including place cells in hippocampus and grid cells in medial entorhinal cortex are temporally organized by continuous theta oscillations (6–11 Hz). The theta rhythm is regulated by subcortical structures including the medial septum, but it is unclear how spatial information from place cells may reciprocally organize subcortical theta-rhythmic activity. Here we recorded single-unit spiking from a constellation of subcortical and hippocampal sites to study spatial modulation of rhythmic spike timing in rats freely exploring an open environment. Our analysis revealed a novel class of neurons that we termed ‘phaser cells,’ characterized by a symmetric coupling b...
Decision-making requires the coordinated activity of diverse brain structures. For example, in maze-...
This dissertation explores the relations between the hippocampal theta rhythm, the activity patterns...
High-level cortical systems for spatial navigation, including entorhinal grid cells, critically depe...
ABSTRACT: As a rat navigates through a familiar environment, its posi-tion in space is encoded by fi...
The medial temporal lobe (MTL) is crucial for episodic and spatial memory, and shows rhythmicity in ...
Our thesis is that phaser cell activity is distinct from hippocampal phase precession and encodes sp...
Hippocampal place cells convey spatial information through a combination of spatially selective firi...
In rodent hippocampus, neuronal activity is organized by a 6-10 Hz theta oscillation. The spike timi...
In rodent hippocampus, neuronal activity is organized by a 6–10 Hz theta oscillation. The spike timi...
Memory and spatial navigation involve complex neural processes that depend on accurate and coordinat...
The overall theme of this dissertation is how the brain uses rhythms in spike timing to carry out co...
It is well-established that the feed-forward connected main hippocampal areas, CA3, CA2, and CA1 wor...
Successful spatial exploration requires gating, storage, and retrieval of spatial memories in the c...
ABSTRACT: We review the ideas and data behind the hypothesis that hippocampal pyramidal cells encode...
The ability to integrate information over time is a fundamental operation of the brain, but the neur...
Decision-making requires the coordinated activity of diverse brain structures. For example, in maze-...
This dissertation explores the relations between the hippocampal theta rhythm, the activity patterns...
High-level cortical systems for spatial navigation, including entorhinal grid cells, critically depe...
ABSTRACT: As a rat navigates through a familiar environment, its posi-tion in space is encoded by fi...
The medial temporal lobe (MTL) is crucial for episodic and spatial memory, and shows rhythmicity in ...
Our thesis is that phaser cell activity is distinct from hippocampal phase precession and encodes sp...
Hippocampal place cells convey spatial information through a combination of spatially selective firi...
In rodent hippocampus, neuronal activity is organized by a 6-10 Hz theta oscillation. The spike timi...
In rodent hippocampus, neuronal activity is organized by a 6–10 Hz theta oscillation. The spike timi...
Memory and spatial navigation involve complex neural processes that depend on accurate and coordinat...
The overall theme of this dissertation is how the brain uses rhythms in spike timing to carry out co...
It is well-established that the feed-forward connected main hippocampal areas, CA3, CA2, and CA1 wor...
Successful spatial exploration requires gating, storage, and retrieval of spatial memories in the c...
ABSTRACT: We review the ideas and data behind the hypothesis that hippocampal pyramidal cells encode...
The ability to integrate information over time is a fundamental operation of the brain, but the neur...
Decision-making requires the coordinated activity of diverse brain structures. For example, in maze-...
This dissertation explores the relations between the hippocampal theta rhythm, the activity patterns...
High-level cortical systems for spatial navigation, including entorhinal grid cells, critically depe...