Abstract: Comparatively little is known about how new instrumental actions are encoded in the brain. Using whole-brain c-Fos mapping, we show that neural activity is increased in the anterior dorsolateral striatum (aDLS) of mice that successfully learn a new lever-press response to earn food rewards. Post-learning chemogenetic inhibition of aDLS disrupts consolidation of the new instrumental response. Similarly, post-learning infusion of the protein synthesis inhibitor anisomycin into the aDLS disrupts consolidation of the new response. Activity of D1 receptor-expressing medium spiny neurons (D1-MSNs) increases and D2-MSNs activity decreases in the aDLS during consolidation. Chemogenetic inhibition of D1-MSNs in aDLS disrupts the consolidat...
Extinction learning allows animals to withhold voluntary actions that are no longer related to rewar...
The neural mechanisms that allow animals to adapt their previously learned associations in response ...
It has long been recognized that the striatum is composed of distinct functional sub-units that are ...
Comparatively little is known about how new instrumental actions are encoded in the brain. Using who...
In instrumental conditioning, newly acquired actions are generally goal-directed and are mediated by...
SummaryThe basal ganglia, and the striatum in particular, are critical for action reinforcement [1,2...
The direct and indirect pathways of the basal ganglia have long been thought to mediate behavioral p...
Following repeated pairings, the reinforcing and motivational properties (incentive salience) of a r...
The synaptic pathways in the striatum are central to basal ganglia functions including motor control...
Skilled motor behavior requires bihemispheric coordination, and participation of striatal outputs or...
A critical element of animal behaviour is learning the relationship between actions and their conseq...
The basal ganglia are implicated in a remarkable range of functions influencing emotion and cognitio...
Behavioral flexibility is key to survival in a dynamic environment. One form of flexibility is rever...
SummaryThe basal ganglia are implicated in a remarkable range of functions influencing emotion and c...
The striatum integrates sensorimotor and motivational signals, likely playing a key role in reward-b...
Extinction learning allows animals to withhold voluntary actions that are no longer related to rewar...
The neural mechanisms that allow animals to adapt their previously learned associations in response ...
It has long been recognized that the striatum is composed of distinct functional sub-units that are ...
Comparatively little is known about how new instrumental actions are encoded in the brain. Using who...
In instrumental conditioning, newly acquired actions are generally goal-directed and are mediated by...
SummaryThe basal ganglia, and the striatum in particular, are critical for action reinforcement [1,2...
The direct and indirect pathways of the basal ganglia have long been thought to mediate behavioral p...
Following repeated pairings, the reinforcing and motivational properties (incentive salience) of a r...
The synaptic pathways in the striatum are central to basal ganglia functions including motor control...
Skilled motor behavior requires bihemispheric coordination, and participation of striatal outputs or...
A critical element of animal behaviour is learning the relationship between actions and their conseq...
The basal ganglia are implicated in a remarkable range of functions influencing emotion and cognitio...
Behavioral flexibility is key to survival in a dynamic environment. One form of flexibility is rever...
SummaryThe basal ganglia are implicated in a remarkable range of functions influencing emotion and c...
The striatum integrates sensorimotor and motivational signals, likely playing a key role in reward-b...
Extinction learning allows animals to withhold voluntary actions that are no longer related to rewar...
The neural mechanisms that allow animals to adapt their previously learned associations in response ...
It has long been recognized that the striatum is composed of distinct functional sub-units that are ...