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Environmental Programming of Adult Foraging Behavior in C. elegans.

Current biology : CB (2019-08-20)
Sreeparna Pradhan, Sabrina Quilez, Kai Homer, Michael Hendricks
ABSTRACT

Foraging strategies should be tuned to the expected distribution of resources in the environment. Tuning can occur over generations and lead to genetic differences in innate foraging behavior or over shorter timescales within an individual's lifespan. Both genetically encoded and experience-based strategies are implemented by neural circuits that respond to environmental cues and track internal states. Caenorhabditis elegans exhibit both between-strain genetic differences and within-strain plasticity in foraging. In individuals, changes in foraging are usually short term and based on recent experience. Here, we tested whether developmental experience could permanently alter foraging. We found that, in most wild strains, early-life starvation led to "cautious" foraging strategies, in which exploration is reduced, and these behavioral changes are associated with altered dynamics in a locomotory circuit. Possessing either the derived (domestication-associated) or ancestral allele of the neuroglobin glb-5 determines foraging plasticity. Overall, we show that C. elegans exhibit adaptive developmental plasticity that affects multiple aspects of foraging behavior and leads to changes in a core navigation circuit and that innate foraging traits and plasticity in those traits are genetically separable. VIDEO ABSTRACT.

MATERIALS
Product Number
Brand
Product Description

Supelco
Levamisole Hydrochloride, Pharmaceutical Secondary Standard; Certified Reference Material
Sigma-Aldrich
Sodium azide, ≥99%, ultra dry