SnapTag: Tagging active ensembles using a Strong Neuronal Activity Promoter
Massachusetts Institute Of Technology, Cambridge MA
Investigators
Linked publications, trials & patents
Abstract
DESCRIPTION (provided by applicant): The way in which sensory experience is captured and converted into long lasting changes in the brain is critical for adaptive behaviors. A deficit in sensory information processing is a pronounced feature shared by many devastating neuropsychiatric disorders such autism, schizophrenia and depression. Each experience activates a unique set of neurons within specific regions of the brain. While we now know in many cases the brain regions that are associated with particular types of sensory experience, we know very little about the identity of specific ensembles of neurons that are responsible for the encoding of specific sensory information, let alone the underlying molecular and cellular mechanisms. The goal of this proposed study is to fill this gap in our knowledge by developing a versatile system that allows for the identification and manipulation of ensembles of neurons as they participate in the processing of the influx of sensory information. Using this system, our long term goal is to explore the cellular and molecular mechanisms by which sensory experience is coupled to modification of the synaptic properties of neural networks and to understand how disruption of this process leads to cognitive deficits.
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