A team of researchers at the Broad Institute, led by gene-editing pioneer David Liu, has developed a new genome-editing ...

For example, naïve T cells increase in size before undergoing a burst of proliferation, while liver and fat cells enlarge or contract in response to nutrient availability. In these cases, size changes ...

A previously unknown type of DNA damage in the mitochondria, the tiny power plants inside our cells, could shed light on how ...

When human cells lack oxygen, they must react. Without oxygen, the metabolism can hardly generate energy, and many vital ...

An AI tool that can analyze abnormalities in the shape and form of blood cells, and with greater accuracy and reliability than human experts, could change the way conditions such as leukemia are ...

NANOG has multifaceted roles in naïve hESCs, orchestrating transcriptional, metabolic, and epigenetic signatures in naïve hESCs, and governing acetyl-CoA synthesis, bivalent metabolism, and redox ...

Survival rarely comes easy when pancreatic ductal adenocarcinoma strikes. Most people learn of it only after it has spread, ...

Model recapitulates key physiological features of native endosteal niches, and could aid in the study of blood formation in both healthy and diseased conditions.

Eukaryotic cilia and flagella are essential organelles that extend from the cell surface, playing crucial roles in sensory ...

Mitochondria, the “powerhouses of the cell,” are vital cellular organelles that govern energy metabolism, maintain redox ...

Understanding how bone marrow produces blood–and how this whole process can fail–is critical to fighting blood cancers and ...