What if you could take a picture of every gene inside a living organism—not with light, but with DNA itself? Scientists at ...

Scientists have developed a revolutionary AI "fingerprint" technology that can accurately show how cancer cells respond to ...

NYU scientists have discovered that cancer cells work together to withstand challenging conditions, revealing new ...

Recent breakthroughs by The Institute of Cancer Research in London and the University of Virginia in the U.S. could cut drug ...

Glioblastoma, one of the most aggressive and lethal brain cancers, has a five-year survival rate of only 6.9%, according to the National Brain Tumor Society. While the relationship between ...

A cancer drug developed ten years ago at UCSF can also put the brakes on one of prostate cancer's deadliest molecular tricks.

Using cryo-electron microscopy (cryo-EM), a team of structural ... There are drugs being developed to target G4s in cancer cells, but the mechanisms underlying G4s' harmful effects are not clear ...

MSK researchers shed new light on G-quadruplexes, a type of secondary DNA structure that has attracted attention as a potential therapeutic target in cancer.

UChicago researchers develop a new technology to create a spatial map of gene expression for an entire organism.

Oncogene permanent activation in a single targeted cell of zebrafish together with a reprogramming factor transient activation is sufficient to induce the malignant transformation of the cell and ...

With the theoretical part extended, this paper would be of interest to cell biologists and biophysicists working on asymmetric partitioning during cell division. Asymmetric partition of fate ...

Scientists need sharp tools to peek into the tiny world of biology, and fluorescence microscopy has been a game-changer ...