Brain-wide cell-type-specific transcriptomic signatures of healthy ageing in mice
Allen Institute for Brain Science · Allen Institute
Abstract
Biological ageing can be defined as a gradual loss of homeostasis across various aspects of molecular and cellular function1,2. Mammalian brains consist of thousands of cell types3, which may be differentially susceptible or resilient to ageing. Here we present a comprehensive single-cell RNA sequencing dataset containing roughly 1.2 million high-quality single-cell transcriptomes of brain cells from young adult and aged mice of both sexes, from regions spanning the forebrain, midbrain and hindbrain. High-resolution clustering of all cells results in 847 cell clusters and reveals at least 14 age-biased clusters that are mostly glial types. At the broader cell subclass and supertype levels, we find…
Citation impact
- FWCI
- 66.17
- Percentile
- 100%
- References
- 103
Authors
39- KJKelly JinCorresponding
Allen Institute for Brain Science, Allen Institute
- ZYZizhen Yao
Allen Institute for Brain Science, Allen Institute
- CTCindy T. J. van Velthoven
Allen Institute for Brain Science, Allen Institute
- ESEitan S Kaplan
Allen Institute for Brain Science, Allen Institute
- KGKatie Glattfelder
Allen Institute for Brain Science, Allen Institute
Topics & keywords
- Cell type
- Biology
- Transcriptome
- Forebrain
- Ageing
- Cell
- Gene
- Gene expression