Teemu Miettinen discusses his innovative method for measuring intracellular water, revealing its critical role in cell ...

The researchers have developed a new type of microbial fuel cell (MFC) that provides a reliable and constant source of ...

Comprehensive review led by R3’s Department of Research consolidates emerging evidence on Wharton’s jelly function, ...

A recent study has demonstrated the power of metabolic engineering in enhancing the antitumor activity of chimeric antigen ...

Learn how to leverage pH to help cook vegetables faster, modulate their texture and appearance, and even improve their flavor ...

A review in Glycoscience & Therapy summarizes advances in selective editing of N-glycan signals on living cell surface via the LCS‑NGS technology platform. It focuses on enzyme‑based strategies ...

Despite its compact structure—composed of only three amino acids—this endogenous tripeptide has been repeatedly situated at ...

In “Why Do We Exist?” Hakeem Oluseyi explores how life may emerge to move energy through matter—and why Earth is the perfect ...

Perovskite solar cells shouldn’t work as well as they do—but they do. Scientists have now discovered that defects inside the ...

A newly identified population of dysfunctional immune cells may play a central role in both aging and chronic disease.

After a decade-long quest to fill a major gap in basic biology, UChicago scientists have built a complete map of how cells ...

A surprising discovery from high-altitude animals like yaks and Tibetan antelopes could reshape how we treat nerve damage in humans. Scientists found that a genetic mutation helping these animals ...