A new "self-driving" microscope developed by UT Southwestern Medical Center researchers solves two fundamental challenges that have long plagued microscopy: first, imaging living cells or organisms at ...

Life takes shape with the motion of a single cell. In response to signals from certain proteins and enzymes, a cell can start ...

Traditional microscopy often relies on labeling samples with dyes, but this process is costly and time-consuming. To overcome these limitations, researchers have developed a computational quantitative ...

Scientists have developed a revolutionary AI "fingerprint" technology that can accurately show how cancer cells respond to ...

Animals, plants and many other living organisms inhale oxygen to "burn" (oxidize) compounds like sugar into CO2 and water—a ...

For the first time, scientists have systematically analyzed somatic mutations in stomach lining tissue to unpick mutational ...

Scientists have developed a revolutionary AI ‘fingerprint’ technology that can accurately show how cancer cells respond to ...

Explore diffuse large B-cell lymphoma — symptoms, causes, diagnosis, treatment options, and prevention. Learn about its types ...

Quantitative phase imaging (QPI) is a microscopy technique widely used to investigate cells and tissues ... to produce suitable images with standard microscopes. Quantitative phase imaging ...

Scientists at Goethe University uncover how the oldest enzyme in cellular respiration functions – opening the door to potential CO₂ removal from exhaust emissions. Animals, plants, and many other livi ...

A team of scientists from Goethe University Frankfurt, University of Marburg and Stockholm University have elucidated an ...