Why cells grow to just the right size has long baffled scientists. Too small or too large, and cells can trigger serious diseases, but the genetic switch behind this balance has remained elusive. Now, ...

What keeps our cells the right size? Scientists have long puzzled over this fundamental question, since cells that are too large or too small are linked to many diseases. Until now, the genetic basis ...

Abstract: In the rapidly evolving field of consumer healthcare, the exploration of non-coding RNA interactions is crucial for drug development and personalized therapy. However, through traditional ...

The non-coding genome, once dismissed as "junk DNA", is now recognized as a fundamental regulator of gene expression and a key player in understanding complex diseases. Following the landmark ...

First fully integrated spatial multiomic assay from 10x Genomics brings RNA and protein data together in situ – unlocking deeper insights into cell function and disease biology PLEASANTON, Calif., Aug ...

We’re celebrating 180 years of Scientific American. Explore our legacy of discovery and look ahead to the future. In 1957, just four years after Francis Crick and other scientists solved the riddle of ...

When cells expire, they leave behind an activity log of sorts: RNA expelled into blood plasma that reveals changes in gene expression, cellular signaling, tissue injury and other biological processes.

How does a cell know when it’s been damaged? A molecular alarm, set off by mutated RNA and colliding ribosomes, signals danger. When the sun shines on your skin, what does it hit? When it causes a ...

A newly identified long noncoding RNA (lncRNA), named lnc2300, plays a protective role in ovarian granulosa cells but is sharply downregulated under oxidative stress conditions. This study reveals ...

Article subjects are automatically applied from the ACS Subject Taxonomy and describe the scientific concepts and themes of the article. Nuclease-free water (catalog no. 96370) and urea (catalog no.