Glycolysis is an ancient metabolic activity. It consists of a set of reactions that convert glucose into energy. This central ...

DNA strand displacement circuits are inching closer to becoming cellular machines. Scientists are finding ways to make these programmable nanodevices stable and functional inside living cells. If ...

Liver cancer can arise spontaneously from healthy liver tissue. Recently, however, researchers have discovered an increasing ...

revealing new molecular and cellular mechanisms underlying pulmonary organogenesis. The study, published in Science Bulletin, delineates gene expression dynamics across key developmental stages ...

A groundbreaking study published in the journal Current Neuropharmacology highlights a concerning potential link between Glucagon-like Peptide-1 (GLP1) receptor agonists-widely used in blockbuster ...

As well as providing energy to the cell, glycolysis also controls cell fate in early embryonic development, laying the ...

Mitochondria play a crucial role in acquiring pluripotency and determining cell fate. The mitochondrial unfolded protein ...

Neutrophils play a crucial role in the immune response, acting as the most abundant white blood cells responsible for frontline defense against infections ...

One, that import and export used distinct pathways ... on how cells efficiently manage molecular traffic, providing crucial insights into cellular function and disease. The nucleus may be a ...

A team of CiRA researchers has uncovered the crucial role of EIF3D—a protein translational regulator—in primed pluripotency.

Molecular and Cell-Based Medicine at the Icahn School of Medicine at Mount Sinai. “Our findings now show that gamma delta IELs are substantially decreased weeks before clinical or histological ...