Zebrafish Brainstem Reveals Neural Pathways for Gaze and Memory
TL;DR Summary
Researchers at Weill Cornell Medicine used zebrafish larvae to study how brainstem neurons guide gaze and maintain short-term memory. By mapping neuronal circuits, they developed a computational model that accurately predicted network activity, offering insights into visual-motor systems and potential treatments for eye movement disorders. The study highlights the zebrafish's simple neural anatomy as a valuable model for understanding complex brain functions.
- Brainstem Neurons Guide Gaze, Maintain Short-Term Memory Neuroscience News
- Predicting modular functions and neural coding of behavior from a synaptic wiring diagram Nature.com
- Mapping Zebrafish Brainstem to Understand Short-Term Memory Technology Networks
- Mapping the shifting gaze of ‘fishlets’ Popular Science
- Zebrafish Unlock the Brain’s Neural Circuitry for Eye Movement and Memory SciTechDaily
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