Neuron
Volume 88, Issue 6, 16 December 2015, Pages 1121-1135
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Mapping Sub-Second Structure in Mouse Behavior

https://doi.org/10.1016/j.neuron.2015.11.031Get rights and content
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Highlights

  • Computational modeling reveals structure in mouse behavior without observer bias

  • Mouse behavior appears to be composed of stereotyped, sub-second modules

  • From this perspective, new behaviors result from altering both modules and transitions

  • Unsupervised analysis reveals how genes and neural activity impact behavior

Summary

Complex animal behaviors are likely built from simpler modules, but their systematic identification in mammals remains a significant challenge. Here we use depth imaging to show that 3D mouse pose dynamics are structured at the sub-second timescale. Computational modeling of these fast dynamics effectively describes mouse behavior as a series of reused and stereotyped modules with defined transition probabilities. We demonstrate this combined 3D imaging and machine learning method can be used to unmask potential strategies employed by the brain to adapt to the environment, to capture both predicted and previously hidden phenotypes caused by genetic or neural manipulations, and to systematically expose the global structure of behavior within an experiment. This work reveals that mouse body language is built from identifiable components and is organized in a predictable fashion; deciphering this language establishes an objective framework for characterizing the influence of environmental cues, genes and neural activity on behavior.

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