Researchers found that cells measure how long forces last, ignoring short stimuli while reacting to sustained stress, a ...

Just as the human body relies on organs such as the heart or liver for essential functions, cells depend on their own tiny ...

Scientists have discovered how cells decide when to respond to physical forces, potentially opening new avenues for tackling diseases such as cancer and fibrosis.

Researchers from Japan have developed biocompatible molecular quantum nanosensors (MoQNs) that can measure temperature and ...

Cells constantly communicate with each other via signaling pathways. Chemical signals come in like messages in a filled-up ...

Scientists have discovered how cells decide when to respond to physical forces, potentially opening new avenues for tackling ...

Scientists have discovered how cells decide when to respond to physical forces, potentially opening new avenues for tackling diseases such as cancer ...

Serif Biomedicines has emerged from stealth mode to continue developing “modified DNA,” a new class of therapeutics designed ...

New ALS drug enters human trials after reversing a key protein in animals and could change the future of treatment.

In this valuable study, the authors develop new approaches to investigate mRNA imprinting, a phenomenon in which RNA-protein complexes form in the nucleus to influence the fate of transcripts in the ...

In a new study published in Science titled, “Mitochondrial metabolism and signaling direct dendritic cell function in antitumor immunity,” researchers from St. Jude Children’s Research Hospital have ...

Cells constantly experience mechanical forces from their microenvironment, positioning the nucleus as a central integrator of physical cues and gene regulatory programs. This review examines current ...