CORDIS Project
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This project investigates the transformation of motor circuits during the metamorphosis of Xenopus frogs, focusing on the transition from swimming to walking. By analyzing molecular, cellular, and functional properties, it aims to enhance understanding of motor control and its evolution across species.
A hallmark of the nervous system is its rich cell-type diversity, its intricate connectivity and its coordinated patterns of activity.
Behavior largely is an emergent property of this complexity.
Thus, to understand behavior, we must define neurons’ molecular, cellular and functional properties.
This task has proven especially challenging for motor circuits with their readily apparent output in motor activity but astonishingly heterogeneous populations of neurons.
To parse this complexity, I pro…
INSTITUTE OF SCIENCE AND TECHNOLOGY AUSTRIA
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