A Japanese research team has demonstrated in rat experiments that stem cells from human primary tooth pulp may help treat ...

A chronological map of the fetal brain reveals when key cells emerge and provides clues about autism and cancer.

A team led by Professor Inkyung Jung from the Department of Biological Sciences at KAIST, working with Professor Yarui Diao’s ...

Scientists have discovered that a rare “mirror-image” version of the amino acid cysteine can dramatically slow the growth of certain cancers while leaving healthy cells largely untouched. Unlike most ...

Single-cell RNA-seq (scRNA-seq) has spent the past decade maturing into a foundational technology. Over that time, the technology has both laid the foundation for building cell atlases and allowed ...

Restoring natural vocal cord vibrations may reduce aggressive cancer activity, offering new clues about how laryngeal cancer develops.

How do biological cells join forces to form a structure? In her Ph.D. research, Daphne Nesenberend uses mathematics to show ...

Human brain cells are now interacting with computer systems, learning to play video games like Doom. Researchers have ...

A new technology called PULSE (Precise Ultrasonic Liquid Sample Ejection) is set to redefine the field of single-cell research. By harnessing ultrasonic waves, PULSE offers a highly precise, automated ...

In this Innovation Spotlight, Treutlein shares her excitement of using organoids to model the human brain, harnessing AI to accelerate laboratory discoveries, and discusses how massive-scale ...