Functional Clustering Drives Encoding Improvement in a Developing Brain Network during Awake Visual Learning
- Kaspar Podgorski (110778)
- Derek Dunfield (189487)
- Kurt Haas (110790)
DOIAbstract
<div><p>Sensory experience drives dramatic structural and functional plasticity in developing neurons. However, for single-neuron plasticity to optimally improve whole-network encoding of sensory information, changes must be coordinated between neurons to ensure a full range of stimuli is efficiently represented. Using two-photon calcium imaging to monitor evoked activity in over 100 neurons simultaneously, we investigate network-level changes in the developing <em>Xenopus laevis</em> tectum during visual training with motion stimuli. Training causes stimulus-specific changes in neuronal responses and interactions, resulting in improved population encoding. This plasticity is spatially structured, increasing tuning curve similarity and inte...
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