Cancer cells grow in stiff environments, influencing nuclear mechanics and opening new treatment possibilities.

Caltech researchers have developed a new method to map the positions of hundreds of DNA-associated proteins within cell ...

Scientists have uncovered new details about the mechanism behind cancer progression. Researchers explored the influence the mechanical stiffening of the tumor cell's environment may have on the ...

In 2022 alone, over 20 million people were diagnosed with cancer, and nearly 10 million died from the disease, according to ...

Piercing the nucleus of a cell without destroying it seems like a technical feat. Yet, researchers have just found a non-invasive method that could revolutionize gene therapies. A series of ...

Research has uncovered how the stiffening of a cell’s environment drives cancer progression, paving the way for new treatments.

A cell protein previously believed only to provide a scaffolding for DNA has also been shown to directly influence DNA transcription into RNA – the first step of the process by which an organism’s ...

Caltech researchers have developed a new method to map the positions of hundreds of DNA-associated proteins within cell nuclei all at the same time ...

Titin’s regulated integration and mobility after cell fusion support syncytium formation in culture, while limited diffusion in vivo highlights a key challenge for developing effective cell-based ...

Findings reveal that metabolic enzymes ACSS2 and ACLY regulate T cell exhaustion, linking nutrient metabolism to epigenetic ...

In 2022 alone, over 20 million people were diagnosed with cancer, and nearly 10 million died from the disease, according to the World Health ...