Induction of Multicellularity: When mechanically compressed, the salt-loving archaeon Haloferax volcanii can shift from being ...

Light doesn’t just travel in straight lines—it can also twist. And when it does, it opens new frontiers in science and medicine. A recent breakthrough led by Professor Igor Meglinski at Aston ...

Thanks to the NIH, researchers like Andrew Ewald have advanced our understanding of what allows a cancer cell from one part ...

Researchers at Ben-Gurion University of the Negev have developed a machine-learning algorithm that could enhance our understanding of human biology and disease. The new method, Weighted Graph ...

Cells throughout the body work together like singers in a choir to keep us healthy, as long as they work in perfect harmony.

Article about Dr. Leeat Keren’s research, Dept. of Molecular Cell Biology, on CombPlex—an AI-assisted method that enables imaging dozens of proteins in tissue samples at once, offering a new, scalable ...

IN THE realm of regenerative research, peptides have gained substantial attention due to their potential implications in promoting cellular repair and restoration. TB-500 and BPC-157 stand out as ...

Nonlinear optical microscopy has emerged as a cornerstone technique in the study of deep tissue imaging, enabling scientists to peer into the complex environments of biological tissues with ...

There is growing concern that plastics may also be responsible for significant harm to the earth’s environment and human ...

The interplay between aging and cellular senescence reveals insights into chronic inflammation and potential strategies for ...

In recent years, significant progress has been made in understanding tissue regeneration, tumor dynamics and the role of inflammation in these processes.