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{{Box|width=45%|min-width=310px|float=right|font-size=14px|[[:Category:Synaptic Plasticity|Synaptic Plasticity]]|[[File:Neuron Synapse.png| | {{Box|width=45%|min-width=310px|float=right|font-size=14px|[[:Category:Synaptic Plasticity|Synaptic Plasticity]]|[[File:Neuron Synapse.png|left|340px|link=Synaptic Plasticity]]{{Clear}} | ||
It is now generally accepted that many forms of adaptive behavior, including learning and memory, engender lasting physiological changes in the brain; reciprocally, neural plasticity among the brain’s synaptic connections provides the capacity for learning and memory. Whenever I have to summarize my primary research focus using just a few words, they always include: "'''''synaptic plasticity'''''". Indeed, I feel that the key to fully understanding cognitive processes like memory formation is through studying neural dynamics at the cellular-network, synaptic, and molecular levels. | It is now generally accepted that many forms of adaptive behavior, including learning and memory, engender lasting physiological changes in the brain; reciprocally, neural plasticity among the brain’s synaptic connections provides the capacity for learning and memory. Whenever I have to summarize my primary research focus using just a few words, they always include: "'''''synaptic plasticity'''''". Indeed, I feel that the key to fully understanding cognitive processes like memory formation is through studying neural dynamics at the cellular-network, synaptic, and molecular levels. | ||
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