An AI foundation model capable of predicting gene activity across many different human cell types may expedite research for ...

New research from the Center for Physical Genomics and Engineering uncovers how 3D genome structures generate cellular memories, paving the way for advances in medicine and longevity through cellular ...

Scientists have collected troves of DNA and microscopic imaging data from human cells—and now they have a tool that might ...

A nearly gapless genome sequence of the echidna, an egg-laying mammal with multiple sex chromosomes, helps researchers to ...

Researchers unveil how biological sex influences brain aging, revealing genetic, hormonal, and molecular mechanisms behind ...

UCSF scientists have discovered a new type of stem cell that helps young brains grow but is also capable of forming the cells ...

The short-beaked echidna (Tachyglossus aculeatus) is one of Australia's most iconic animals. Belonging to a unique group of ...

Researchers have identified a unique stem cell in the young brain capable of maturing into multiple cell types, potentially explaining the origins of autism and glioblastoma.

UCSF scientists have discovered a stem cell in the young brain that's capable of forming the cells found in tumors. The ...

An international team of scientists has uncovered new insights into how the previously understudied duplicate X chromosome in ...

Brian Tait, Haplomic Technologies Pty Ltd, examines single chromosome sequencing to obtain genetic phase (haplotyping) ...