The NeuroTech group comprises two distinct thrusts or research directions:
Neural Systems and Computation: Several researchers study the dynamic coding and processing of information by neurons and neural circuits in a variety of species. The goal of this work is to understand the neuronal basis of sensory processing, motor control, learning, and memory. Researchers employ a variety of anatomical, physiological, and computer simulation techniques. New techniques are being developed for simultaneous recording of multiple neuronal signals in both living systems and in tissue preparations. Computer-based systems are being developed for the storage, analysis, and display of the vast amounts of data acquired with these new techniques.
Molecular and Cellular Neurobiology: Researchers in this area are investigating the cellular and molecular origins of brain plasticity underlying development, learning, the aging process, and mental retardation. Conditional gene knock-out techniques are being applied to the neural mechanisms of sensory map formation and spatial learning. Synaptic regulatory mechanisms underlying neural plasticity are also under investigation. State-of-the-art techniques are being developed for study of the distribution and release of neuropeptides within individual neurons and macromolecular interactions relevant to memory.