AbstractRecent studies have provided convincing evidence that cellular forms of synaptic plasticity that are thought to represent the building blocks of learning and memory are also used during development to establish organized sensory projections within the brain
During embryonic activity‐dependent brain circuit refinement, neurons receiving the same natural sen...
AbstractA new twist to the relationship between synaptic plasticity and learning and memory is revea...
Patterned neuronal activity driven by the sensory environment plays a key role in the development of...
Recent studies have provided convincing evidence that cellular forms of synaptic plasticity that are...
AbstractRecent studies have provided convincing evidence that cellular forms of synaptic plasticity ...
The brain is composed of many anatomically distinct areas that control different functions. A common...
Neuronal activity, both intrinsically generated and sensory-evoked, is known to play an important ro...
The development of functional topography in the developing brain follows a progression from initiall...
Sensory experience drives dramatic structural and functional plasticity in developing neurons. Howev...
SummaryThe precise temporal relation between pre- and postsynaptic activity modulates the strength o...
The human brain consists of billions of neurons, and trillions of connections between them, precisel...
Topographic maps are a brain structure connecting pre-synpatic and post-synaptic brain regions. Topo...
During learning, and particularly during development, neurons in the brain undergo structural and fu...
Sensory experience drives dramatic structural and functional plasticity in developing neurons. Howev...
Theoretical/computational models have played an important role in developing our understanding of th...
During embryonic activity‐dependent brain circuit refinement, neurons receiving the same natural sen...
AbstractA new twist to the relationship between synaptic plasticity and learning and memory is revea...
Patterned neuronal activity driven by the sensory environment plays a key role in the development of...
Recent studies have provided convincing evidence that cellular forms of synaptic plasticity that are...
AbstractRecent studies have provided convincing evidence that cellular forms of synaptic plasticity ...
The brain is composed of many anatomically distinct areas that control different functions. A common...
Neuronal activity, both intrinsically generated and sensory-evoked, is known to play an important ro...
The development of functional topography in the developing brain follows a progression from initiall...
Sensory experience drives dramatic structural and functional plasticity in developing neurons. Howev...
SummaryThe precise temporal relation between pre- and postsynaptic activity modulates the strength o...
The human brain consists of billions of neurons, and trillions of connections between them, precisel...
Topographic maps are a brain structure connecting pre-synpatic and post-synaptic brain regions. Topo...
During learning, and particularly during development, neurons in the brain undergo structural and fu...
Sensory experience drives dramatic structural and functional plasticity in developing neurons. Howev...
Theoretical/computational models have played an important role in developing our understanding of th...
During embryonic activity‐dependent brain circuit refinement, neurons receiving the same natural sen...
AbstractA new twist to the relationship between synaptic plasticity and learning and memory is revea...
Patterned neuronal activity driven by the sensory environment plays a key role in the development of...
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