Visual attention allows the brain to evoke behaviors based on the most important visual features. Mouse models offer immense potential to gain a circuit-level understanding of this phenomenon, yet, how mice distribute attention across features and locations is not well understood. Here, we describe a new approach to address this limitation, by training mice to detect weak vertical bars in a background of checkerboard noise while spatial cues manipulated their attention. By adapting a reverse correlation method from human studies, we linked behavioral decisions to stimulus features and locations. We show that mice voluntarily deploy attention to a small rostral region of the visual field. Within this region, mice attended to multiple feature...
The senses are the interface between an organism and its environment. To interact with the world, an...
Neuronal spatial frequency tuning in primary visual cortex (V1) substantially changes over time. In ...
Much of brain science is concerned with understanding the neural circuits that underlie specific beh...
Selective spatial attention, the ability to prioritize information from the most important spatial l...
© 2021 Massachusetts Institute of Technology.Mice are becoming an increasingly popular model for inv...
Contains fulltext : 198064.pdf (publisher's version ) (Open Access)Attention - the...
Mice are becoming an increasingly popular model for investigating the neural substrates of visual pr...
Single page posterThe mouse is an important model of vision as it allows us to discover the neural m...
The ability to manipulate neural activity with precision is an asset in uncovering neural circuits f...
The brain is constantly bombarded with sensory stimuli. In order to process and perceive such divers...
Thesis (Ph.D.)--University of Washington, 2021In the neocortex, neurons with similar functional prop...
Summary: Visually guided behaviors depend on the activity of cortical networks receiving visual inpu...
The ability to manipulate neural activity with precision is an asset in uncovering neural circuits f...
Salient objects grab attention because they stand out from their surroundings. Whether this phenomen...
Visual information is a primary contributor to many cognitive processes, includinglearning, memory, ...
The senses are the interface between an organism and its environment. To interact with the world, an...
Neuronal spatial frequency tuning in primary visual cortex (V1) substantially changes over time. In ...
Much of brain science is concerned with understanding the neural circuits that underlie specific beh...
Selective spatial attention, the ability to prioritize information from the most important spatial l...
© 2021 Massachusetts Institute of Technology.Mice are becoming an increasingly popular model for inv...
Contains fulltext : 198064.pdf (publisher's version ) (Open Access)Attention - the...
Mice are becoming an increasingly popular model for investigating the neural substrates of visual pr...
Single page posterThe mouse is an important model of vision as it allows us to discover the neural m...
The ability to manipulate neural activity with precision is an asset in uncovering neural circuits f...
The brain is constantly bombarded with sensory stimuli. In order to process and perceive such divers...
Thesis (Ph.D.)--University of Washington, 2021In the neocortex, neurons with similar functional prop...
Summary: Visually guided behaviors depend on the activity of cortical networks receiving visual inpu...
The ability to manipulate neural activity with precision is an asset in uncovering neural circuits f...
Salient objects grab attention because they stand out from their surroundings. Whether this phenomen...
Visual information is a primary contributor to many cognitive processes, includinglearning, memory, ...
The senses are the interface between an organism and its environment. To interact with the world, an...
Neuronal spatial frequency tuning in primary visual cortex (V1) substantially changes over time. In ...
Much of brain science is concerned with understanding the neural circuits that underlie specific beh...