At 10 one-millionths of a meter wide, a single human cell is tiny. But something even smaller exerts an enormous influence on ...

Down syndrome results in changes to the structure and function of neural circuits in the brain. Delivering a specific protein ...

A research team from The University of Osaka, in collaboration with the Massachusetts Institute of Technology, has uncovered ...

The ScentVista 400 technology was created by the Japanese beauty conglomerate’s Sensory Science Research Laboratory division ...

Using genomics, evolutionary biologists test several hypotheses on the origin of viruses. New evidence suggests they may have ...

A research team from The University of Osaka, in collaboration with the Massachusetts Institute of Technology, has uncovered a new molecular mechanism underlying chromosome alignment during cell ...

A research team from the University of Osaka, in collaboration with the Massachusetts Institute of Technology, has uncovered ...

In earlier times, cells would have to be hand-checked, in a process that took time and effort and offered little reward. MAGIC allows for scientists to check over 100,000 cells in a single day.

Scientists have long been intrigued by the ability of flatworms to regenerate complete bodies from small fragments of tissue. The underlying mechanisms behind this process have remained relatively ...

TikTok is a rapidly growing social media platform on which users develop, interact with, or share short vertical videos ...

The same cellular renewal that keeps our bodies healthy might also fuel the growth of cancer. A UC Merced biologist has found that the brain could hold the key to stopping it.

A fundamental property of all living cells is their ability to regulate their size while proliferating. Cell proliferation involves a mother cell, growing over time and dividing into daughter cells at ...