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Habenular nucleus of zebrafish, composition
Despite our apparent perfect bilateral symmetric body plan, we all show small but conspicuous left-right asymmetries that are thought to be evolutionarily advantageous. Brain lateralisation, for instance, leads to an increase in cognitive performance. Zebrafish are useful for studying how left-right brain asymmetries arise during embryonic development and how the resultant asymmetric neuronal circ…
Creator
- Dr Steve Wilson
Subject
- Model organism
- Aquatic vertebrae
- CNS
- Neural network
- neuronal signalling
- Bilateral
- Left-right brain asymmetry
- Artwork
- Green
- Magenta
- …
- Work of art
- Stripe
Creator
- Dr Steve Wilson
Subject
- Model organism
- Aquatic vertebrae
- CNS
- Neural network
- neuronal signalling
- Bilateral
- Left-right brain asymmetry
- Artwork
- Green
- Magenta
- …
- Work of art
- Stripe
Providing institution
Aggregator
Rights statement for the media in this item (unless otherwise specified)
- http://creativecommons.org/licenses/by/4.0/
Rights
- Credit: Ana Faro, Dr Steve Wilson
Source
- B0010949
Identifier
- B0010949
- v8chw264
Providing country
- United Kingdom
Collection name
First time published on Europeana
- 2019-06-09T12:13:52.045Z
Last time updated from providing institution
- 2019-06-09T12:13:52.045Z