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Lancaster, Tom ; Pratt, Francis L. ; Blundell, Stephen J. ; Steele, Andrew J. ; Baker, Peter J. ; Wright, Jack D. ; Watanabe, Isao ; Fishman, Randy S. ; Miller, Joel S. ( , Physical Review B)
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Goddard, Paul A. ; Manson, Jamie L. ; Singleton, John ; Franke, Isabel ; Lancaster, Tom ; Steele, Andrew J. ; Blundell, Stephen J. ; Baines, Christopher ; Pratt, Francis L. ; McDonald, Ross D. ; et al ( , Physical Review Letters)
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Entchev, Eugeni V ; Patel, Dhaval S ; Zhan, Mei ; Steele, Andrew J ; Lu, Hang ; Ch'ng, QueeLim ( , eLife)more » « less
How the nervous system internally represents environmental food availability is poorly understood. Here, we show that quantitative information about food abundance is encoded by combinatorial neuron-specific gene-expression of conserved TGFβ and serotonin pathway components in Caenorhabditis elegans. Crosstalk and auto-regulation between these pathways alters the shape, dynamic range, and population variance of the gene-expression responses of daf-7 (TGFβ) and tph-1 (tryptophan hydroxylase) to food availability. These intricate regulatory features provide distinct mechanisms for TGFβ and serotonin signaling to tune the accuracy of this multi-neuron code: daf-7 primarily regulates gene-expression variability, while tph-1 primarily regulates the dynamic range of gene-expression responses. This code is functional because daf-7 and tph-1 mutations bidirectionally attenuate food level-dependent changes in lifespan. Our results reveal a neural code for food abundance and demonstrate that gene expression serves as an additional layer of information processing in the nervous system to control long-term physiology.
