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Lifelong behavioral screen reveals an architecture of vertebrate aging

Claire N. Bedbrook, Ravi D. Nath, Libby Zhang, Scott W. Linderman, Anne Brunet, Karl Deisseroth

2026Science7 citationsDOIOpen Access PDF

Abstract

Mapping behavior of individual vertebrate animals across lifespan could provide an unprecedented view into the lifelong process of aging. We created a platform for high-resolution continuous behavioral tracking of the African killifish across natural lifespan from adolescence to death. We found that animals follow distinct individual aging trajectories. The behaviors of long-lived animals differed markedly from those of short-lived animals, even relatively early in life, and were linked to organ-specific transcriptomic shifts. Machine-learning models accurately inferred age and even forecasted an individual's future lifespan, given only behavior at a young age. Finally, we found that animals progressed through adulthood in a sequence of stable and stereotyped behavioral stages with abrupt transitions, revealing precise structure for an architecture of aging.

Topics & Concepts

VertebrateBiologyEvolutionary biologyKillifishBehavioral patternSequence (biology)Process (computing)EcologyNeuroscienceSenescenceBiological evolutionNatural (archaeology)Fish <Actinopterygii>TranscriptomeTracking (education)ArchitectureFish biology, ecology, and behaviorZebrafish Biomedical Research ApplicationsAnimal Behavior and Reproduction
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