Automated, predictive, and interpretable inference of C. elegans escape dynamics

TitleAutomated, predictive, and interpretable inference of C. elegans escape dynamics
Publication TypeWeb Article
Year of Publication2018
AuthorsDaniels, Bryan C., S.Ryu William, and Nemenman Ilya
Abstract

The roundworm C. elegans exhibits robust escape behavior in response to rapidly rising temperature. The behavior lasts for a few seconds, shows history dependence, involves both sensory and motor systems, and is too complicated to model mechanistically using currently available knowledge. Instead we model the process phenomenologically, and we use the Sir Isaac dynamical inference platform to infer the model in a fully automated fashion directly from experimental data. The inferred model requires incorporation of an unobserved dynamical variable, and is biologically interpretable. The model makes accurate predictions about the dynamics of the worm behavior, and it can be used to characterize the functional logic of the dynamical system underlying the escape response. This work illustrates the power of modern artificial intelligence to aid in discovery of accurate and interpretable models of complex natural systems.

URLhttps://arxiv.org/abs/1809.09321