Projections from auditory cortex to the amygdala are thought to contribute to the induction of auditory fear learning. In addition, fear conditioning has been found to enhance cortical responses to conditioned tones, suggesting that cortical plasticity contributes to fear learning. However, the functional role of auditory cortex in the retrieval of fear memories is unclear and how fear learning regulates cortical sensory representations is not well understood. To address these questions, we use acute optogenetic silencing and chronic two-photon calcium imaging in mouse auditory cortex during fear learning. Longitudinal imaging of neuronal ensemble activity reveals that discriminative fear learning modulates cortical sensory representations ...
In auditory fear conditioning, experimental subjects learn to associate an auditory conditioned stim...
York, New York 10003 dala in fear conditioning has been debated. Animals can acquire fear conditioni...
Learning to avoid dangerous signals while preserving normal responses to safe stimuli is essential f...
Projections from auditory cortex to the amygdala are thought to contribute to the induction of audit...
Plasticity in the brain is required for high order functions such as learning and memory. While sens...
During auditory fear conditioning, an animal learns to associate a neutral sound stimulus (CS) with ...
Sensory representations in the brain are constantly modulated by a variety of factors such as brain ...
Animals are capable of evaluating sensory cues for possible threats and adapting their behaviours ac...
Extensive fear extinction research is guided by the view that there are structures in the brain that...
Neural circuits underlying auditory fear conditioning have been extensively studied. Here we identif...
AbstractSingle neurons were recorded in freely behaving rats during fear conditioning from areas of ...
Learning to predict threat depends on amygdala plasticity and does not require auditory cortex (ACX)...
36 pagesParvalbumin-expressing (PV) interneurons are known to play key roles in the inhibiton of py...
Unraveling the neuronal mechanisms of fear learning might allow neuroscientists to make links betwee...
Recent findings have shown that the auditory cortex, and specifically the higher order Te2 area, is ...
In auditory fear conditioning, experimental subjects learn to associate an auditory conditioned stim...
York, New York 10003 dala in fear conditioning has been debated. Animals can acquire fear conditioni...
Learning to avoid dangerous signals while preserving normal responses to safe stimuli is essential f...
Projections from auditory cortex to the amygdala are thought to contribute to the induction of audit...
Plasticity in the brain is required for high order functions such as learning and memory. While sens...
During auditory fear conditioning, an animal learns to associate a neutral sound stimulus (CS) with ...
Sensory representations in the brain are constantly modulated by a variety of factors such as brain ...
Animals are capable of evaluating sensory cues for possible threats and adapting their behaviours ac...
Extensive fear extinction research is guided by the view that there are structures in the brain that...
Neural circuits underlying auditory fear conditioning have been extensively studied. Here we identif...
AbstractSingle neurons were recorded in freely behaving rats during fear conditioning from areas of ...
Learning to predict threat depends on amygdala plasticity and does not require auditory cortex (ACX)...
36 pagesParvalbumin-expressing (PV) interneurons are known to play key roles in the inhibiton of py...
Unraveling the neuronal mechanisms of fear learning might allow neuroscientists to make links betwee...
Recent findings have shown that the auditory cortex, and specifically the higher order Te2 area, is ...
In auditory fear conditioning, experimental subjects learn to associate an auditory conditioned stim...
York, New York 10003 dala in fear conditioning has been debated. Animals can acquire fear conditioni...
Learning to avoid dangerous signals while preserving normal responses to safe stimuli is essential f...