A research team at KAIST has identified the core gene expression networks regulated by key proteins that fundamentally drive phenomena such as cancer development, metastasis, tissue differentiation ...

Researchers have identified a stress-activated control mechanism that helps breast cancer cells reshape gene activity to ...

Molecular and morphological profiles of developing neurons in vitro uncover the cellular dynamics of human neurodevelopment and related disease.

As eukaryotic cells started to form, eukaryotic traits may have emerged in early cells about one billion years before the ...

All the cells in an organism have the exact same genetic sequence. What differs across cell types is their epigenetics—meticulously placed chemical tags that influence which genes are expressed in ...

Single cell gene expression studies often rely on single-cell RNA sequencing (scRNA-seq) alone. While scRNA-seq reveals which genes are turned on, it does not capture protein expression or changes to ...

Our brain is arguably the organ that most distinguishes humans from other primates. Its exceptional size, complexity and capabilities far exceed those of any other species on Earth. Yet humans share ...

Cells frequently encounter conditions that can damage them or even lead to cell death. To keep functioning, they must rapidly ...

Researchers have found a small but powerful switch inside breast cancer cells that helps them survive stressful conditions.

An international collaboration between four senior scientists from Mainz, Valencia, Madrid, and Zurich has published groundbreaking research in the journal PNAS, shedding light on the most significant ...