Mesenchymal drift may help explain how cells lose stable identity and acquire pro-fibrotic, inflammatory mesenchymal traits ...

A study of killifish reveals how protein dysfunction develops in vertebrate brain cells, a key driver of aging. Aging and neurodegeneration are both known to disrupt the production of functional ...

Multidimensional nature of aging: phenotypic changes across levels of biological complexity. The figure illustrates time-dependent phenotypic change across molecular, cellular, tissue, and organismal ...

Universal” biological signatures of aging shared across different mammalian species—including humans—could offer new clues to ...

A killifish hatches in a temporary rain pool in southeastern Africa, grows up, grows old, and dies in roughly four to six ...

Scientists at Stanford may have uncovered a hidden reason our brains decline with age. Studying the ultra-short-lived turquoise killifish, researchers discovered that the cellular machinery ...

Aging selectively impairs the production of crucial DNA- and RNA-binding proteins, which contributes to hallmarks of aging in the brains of killifish, according to a new study. The findings advance ...

Aging selectively impairs the production of crucial DNA- and RNA-binding proteins, which contributes to hallmarks of aging in the brains of killifish, according to a new study. The findings advance ...

A study on how aging impacts the brain in killifish has found that getting old selectively impairs the production of some key DNA- and RNA-binding proteins. And this change contributes to hallmarks of ...

We have a vaccine that prevents shingles. We have a vaccine that markedly lowers the risk of dementia. We have a vaccine that ...