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Literature DB >> 28065610

Neural Circuit Inference from Function to Structure.

Esteban Real¹, Hiroki Asari², Tim Gollisch³, Markus Meister⁴.

Abstract

Advances in technology are opening new windows on the structural connectivity and functional dynamics of brain circuits. Quantitative frameworks are needed that integrate these data from anatomy and physiology. Here, we present a modeling approach that creates such a link. The goal is to infer the structure of a neural circuit from sparse neural recordings, using partial knowledge of its anatomy as a regularizing constraint. We recorded visual responses from the output neurons of the retina, the ganglion cells. We then generated a systematic sequence of circuit models that represents retinal neurons and connections and fitted them to the experimental data. The optimal models faithfully recapitulated the ganglion cell outputs. More importantly, they made predictions about dynamics and connectivity among unobserved neurons internal to the circuit, and these were subsequently confirmed by experiment. This circuit inference framework promises to facilitate the integration and understanding of big data in neuroscience.

Entities: CellLine Chemical Disease Gene Species

Keywords: bipolar cells; brain circuit; circuit model; computational neuroscience; ganglion cells; machine learning; neural code; neurophysiology; retina; vision

Mesh：

Year: 2017 PMID： 28065610 PMCID： PMC5821114 DOI： 10.1016/j.cub.2016.11.040

Source DB: PubMed Journal: Curr Biol ISSN： 0960-9822 Impact factor: 10.834

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