A new method developed at Baylor College of Medicine and collaborating institutions allows researchers to better understand ...

A new biochemical method identifies RNA 3D structures and protein binding sites in cells. It reveals how RNA folding drives ...

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 ...

Scientists have uncovered a novel mechanism through which skin cells organize and control protein production during ...

Discover how specific mutations in ARS genes cause inherited peripheral neuropathies and potential avenues for targeted ...

Opportunities lie in the expanding demand for protein therapeutics driven by chronic disease prevalence, advancements in cell-free systems, and personalized medicine. Growth is supported by companies ...

For roughly one in ten people living with cystic fibrosis, the drugs that have transformed survival for most CF patients are ...

A KAIST research team has identified the real reason why anticancer drugs kill cancer cells—targeted anticancer therapies do ...

RNA epigenetics also called Epitranscriptomics is an evolving field of research that explores chemical modifications on RNA and their impact on the cell and ...

A new study in *Developmental Cell* has found that desmosomes, long known as adhesive structures in skin, also stockpile messenger RNAs and ribosomes at cell borders. These components remain repressed ...