A research group from Nagoya City University has elucidated the significance of birth in the maintenance of neural stem cells ...

Researchers are transforming stem cells into mini-brains that learn and adapt, merging biology and technology for a more ...

The study, “The massed-spaced learning effect in non-neural human cells,” was authored by Nikolay V. Kukushkin, Robert E. Carney, Tasnim Tabassum, and Thomas J. Carew.

Francis Crick Institute scientists developed a rudimentary human spine via stem cells in a laboratory. They have created a “trunk-like structure” that is around 1 to 2 millimeters long.

Memory is what makes us human. While other animals also have the ability to learn and remember ... Kukushkin and his team decided to investigate whether non-neural cells might respond in the same way ...

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

Every 40 seconds, someone in the United States has a stroke. For survivors of the most common type of stroke, called an ...

Scientists have officially grown a notochord—the tissues that act as the “GPS for the developing embryo” by guiding the ...

Summary: Researchers have developed a flexible, biodegradable electrode capable of stimulating neural precursor cells (NPCs) in the brain, offering a safer and more precise alternative for neural ...

A research group led by Kazunobu Sawamoto, a professor at Nagoya City University and National Institute for Physiological Sciences, and Koya Kawase, a ...