Behavioral Signatures of a Developing Neural Code

Behavioral Signatures of a Developing Neural Code

During early life, neural codes must develop to appropriately transform sensory inputs into behavioral outputs. Here, we demonstrate a link between the maturity of neural coding in the visual brain and developmental changes in visually guided behavior. In zebrafish larvae, we show that visually driv...

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Bibliographic Details
Published in:Current biology Vol. 30; no. 17; pp. 3352 - 3363.e5
Main Authors: Avitan, Lilach, Pujic, Zac, Mölter, Jan, McCullough, Michael, Zhu, Shuyu, Sun, Biao, Myhre, Ann-Elin, Goodhill, Geoffrey J.
Format: Journal Article
Language:English
Published: England Elsevier Inc 07-09-2020
Subjects:
behavioral development
calcium imaging
individual differences
mutual information
neural assemblies
neural decoding
neural development
optic tectum
prey capture
zebrafish
neural decoding
optic tectum
neural development
zebrafish
prey capture
mutual information
neural assemblies
behavioral development
calcium imaging
individual differences
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Summary:During early life, neural codes must develop to appropriately transform sensory inputs into behavioral outputs. Here, we demonstrate a link between the maturity of neural coding in the visual brain and developmental changes in visually guided behavior. In zebrafish larvae, we show that visually driven hunting behavior improves from 4 to 15 days post-fertilization, becoming faster and more accurate. During the same period, population activity in parts of the optic tectum refines, improving decoding and information transmission for particular spatial positions. Remarkably, individual differences in decoding can predict each fish’s hunting success. Together, these results help reveal how the neural codes required for a natural behavior emerge during development. •Development of zebrafish hunting behavior and tectal activity•Hunting behavior becomes more efficient and accurate over development•Neural decoding and information transmission improve over development•Individual differences in decoding predict hunting performance How do neural codes critical for behavior emerge during development? Avitan et al. show that during early life, visually driven hunting in larval zebrafish improves, and this is accompanied by increasing mutual information and improved decoding of visual stimuli in the optic tectum. Moreover, decoding can predict individual differences in hunting.
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ISSN:0960-9822
1879-0445
DOI:10.1016/j.cub.2020.06.040