High-resolution imaging has revealed the internal layout of chromatin condensates, showing how DNA fibers fold and interact ...

DNA nanostructures are exciting new biomedical tools with myriad potential in treatment, diagnosis and disease prevention.

When cell division (mitosis) takes too long, it can be a sign that something is wrong with the cells, for example, DNA damage ...

Inside every human cell, six feet of DNA folds into a nucleus that is only a few micrometers wide, yet still manages to switch genes on and off with exquisite precision. The latest work on ...

Cancer involves more than just genetic mutations; it also involves structural failures. Consider a city where roads disappear, isolating communities from vital resources.

A therapy that would once have been considered a feat of science fiction has reversed aggressive and incurable blood cancers ...

The Atacama Large Millimeter/submillimeter Array detected significant amounts of methanol and hydrogen cyanide in ...

A recent study in the journal PNAS from the lab of Julie Overbaugh reveals a previously unknown antiviral function of a gene ...

A novel computational tool has been used to identify a metabolic weakness in acute myeloid leukemia, offering a new drug ...

An AI-driven computational toolkit, Gcoupler, integrates ligand design, statistical modeling, and graph neural networks to predict endogenous metabolites that allosterically modulate the GPCR–Gα ...

A new study has developed a method to mass produce lung organoids, similar to the heart organoid pictured above. Courtesy of Syracuse University For years, the promise of growing human lung tissue ...