Aging Fly Cell Atlas identifies exhaustive aging features at cellular resolution

Aging is characterized by a decline in tissue function, but the underlying changes at cellular resolution across the organism remain unclear. Here, we present the Aging Fly Cell Atlas, a single-nucleus transcriptomic map of the whole aging Drosophila. We characterized 163 distinct cell types and performed an in-depth analysis of changes in tissue cell composition, gene expression, and cell identities. We further developed aging clock models to predict fly age and show that ribosomal gene expression is a conserved predictive factor for age. Combining all aging features, we find distinctive cell type-specific aging patterns. This atlas provides a valuable resource for studying fundamental principles of aging in complex organisms.

Aging Fly Cell Atlas identifies exhaustive aging features at cellular resolution

Epigenetic ageing accelerates before antiretroviral therapy and decelerates after viral suppression in people with HIV in Switzerland: a longitudinal study over 17 years

Transposable elements contribute to the spatiotemporal microRNA landscape in human brain development

Symbolic kinetic models in python (SKiMpy): intuitive modeling of large-scale biological kinetic models

Epigenetic ageing accelerates before antiretroviral therapy and decelerates after viral suppression in people with HIV in Switzerland: a longitudinal study over 17 years

Transposable elements contribute to the spatiotemporal microRNA landscape in human brain development

Symbolic kinetic models in python (SKiMpy): intuitive modeling of large-scale biological kinetic models