The second deadliest cancer in the world can now be detected with a stool sample and an algorithm. Researchers at the ...

Crystals, bacterial colonies, flame fronts: the growth of surfaces was first described in the 1980s by the ...

Engineers attempting to build microscopic robots face a strict physical trade-off: as mechanical devices shrink, their ...

Engineered cells are a high-value genetic asset that is key to many fields, including biotechnology, medicine, aging, and ...

By manipulating ultrafast quantum particles under extreme conditions, researchers have begun to probe growth dynamics in unprecedented detail. Why do patterns emerge as surfaces grow, whether in ...

The DOJ’s Weaponization Working Group — a purportedly apolitical effort to weed out politically motivated actions within the ...

Researchers at NYU Langone Health propose a model that could explain how cancer cells adapt to environmental stress, an ...

Conservation levels of gene expression abundance ratios are globally coordinated in cells, and cellular state changes under such biologically relevant stoichiometric constraints are readable as ...

India is not suffering from a lack of technological innovation in healthcare but faces a deficit of technological direction.

This important study advances a new computational approach to measure and visualize gene expression specificity across different tissues and cell types. The framework is potentially helpful for ...

Jake Canter is grateful he made it to the podium with a bronze medal in his first Olympic competition. The 22-year-old ...

The Kardar Parisi Zhang equation models surface growth. After forty years, researchers confirmed its two dimensional behavior using polaritons in engineered materials.