Genetic Control of Collective Behavior in Zebrafish

Many animals, including humans, have evolved to live and move in groups. In humans, disrupted social interactions are a fundamental feature of many psychiatric disorders. However, we know little about how genes regulate social behavior. Zebrafish may serve as a powerful model to explore this questio...

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Veröffentlicht in:	iScience 2020-03, Vol.23 (3), p.100942-100942, Article 100942
Hauptverfasser:	Tang, Wenlong, Davidson, Jacob D., Zhang, Guoqiang, Conen, Katherine E., Fang, Jian, Serluca, Fabrizio, Li, Jingyao, Xiong, Xiaorui, Coble, Matthew, Tsai, Tingwei, Molind, Gregory, Fawcett, Caroline H., Sanchez, Ellen, Zhu, Peixin, Couzin, Iain D., Fishman, Mark C.
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Schlagworte:	Behavior Genetics Behavioral Neuroscience Biological Sciences Genetics Multidisciplinary Sciences Science & Technology Science & Technology - Other Topics
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creator	Tang, Wenlong Davidson, Jacob D. Zhang, Guoqiang Conen, Katherine E. Fang, Jian Serluca, Fabrizio Li, Jingyao Xiong, Xiaorui Coble, Matthew Tsai, Tingwei Molind, Gregory Fawcett, Caroline H. Sanchez, Ellen Zhu, Peixin Couzin, Iain D. Fishman, Mark C.
description	Many animals, including humans, have evolved to live and move in groups. In humans, disrupted social interactions are a fundamental feature of many psychiatric disorders. However, we know little about how genes regulate social behavior. Zebrafish may serve as a powerful model to explore this question. By comparing the behavior of wild-type fish with 90 mutant lines, we show that mutations of genes associated with human psychiatric disorders can alter the collective behavior of adult zebrafish. We identify three categories of behavioral variation across mutants: “scattered,” in which fish show reduced cohesion; “coordinated,” in which fish swim more in aligned schools; and “huddled,” in which fish form dense but disordered groups. Changes in individual interaction rules can explain these differences. This work demonstrates how emergent patterns in animal groups can be altered by genetic changes in individuals and establishes a framework for understanding the fundamentals of social information processing. [Display omitted] •Genes linked to human psychiatric disorders can alter zebrafish collective behavior•Differences from wild-type lead to “scattered,” “coordinated,” and “huddled” behavior•Changes in individual interaction rules can explain emergent group level patterns Biological Sciences; Genetics; Behavior Genetics; Behavioral Neuroscience
doi_str_mv	10.1016/j.isci.2020.100942
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subjects	Behavior Genetics Behavioral Neuroscience Biological Sciences Genetics Multidisciplinary Sciences Science & Technology Science & Technology - Other Topics
title	Genetic Control of Collective Behavior in Zebrafish
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