Technology can be harnessed to design novel and enhanced molecules that address challenges in biotechnology or medicine.

Every day, your body replaces billions of cells—and yet, your tissues stay perfectly organized. How is that possible?

While most people mark their age by the number of birthdays they've celebrated, scientists have long known that the body's organs do not all age at ...

Before an important meeting or when a big decision needs to be made, we often mentally run through various scenarios before ...

Radiation damage remains the principal limitation in achieving higher resolution in cryo-electron microscopy (cryo-EM), ...

Super Agers author Eric Topol unpacks the rise of biological age tests—from organ clocks to immune system clocks—and how they might revolutionize early diagnosis of disease ...

Researchers from the University of Sydney have developed a system that mimics natural selection inside living mammalian cells ...

A groundbreaking study of nearly 45,000 people shows how a blood test measuring proteins can estimate which organs are aging ...

Phenomenon also occurs in critical systems found in statistical physics and is directly linked to the animal’s growth ...

With elite advisors, cutting-edge genomics, and real-time AI, the sports health platform targets cardiac complications, overexertion injuries, flawed team selections, and untapped talent ...

Researchers at Stanford University have developed a new tool that can compute the “biological age” of human organs by ...

PROTEUS, a system designed to harness “directed evolution,” can speed the process up by years, or even decades.