The single-celled Stentor coeruleus learns through CaMKII-driven protein modification, mirroring mechanisms found in the human brain.

A team of researchers discover how the stentor, an organism made of a single, gigantic cell, learns without a brain.

A key molecular dynamic could be the key to fighting tumors while allowing patients to still receive life-saving cell ...

Scientists have known for more than a century that a single-celled organism with no nerve cells - much less a brain - can ...

Alzheimer's disease (AD) is a neurodegenerative disorder that leads to progressive memory loss and a decline in mental ...

Within the expanding landscape of synthetic peptide research, Examorelin has attracted sustained attention as a structurally ...

The next time you train, remember: You’re not just building endurance. You’re upgrading your heart's software. You're ...

Tumor-associated calcium signal transducer 2 (TROP2) is a transmembrane glycoprotein involved in different signaling pathways that promote proliferation, migration and invasion of tumoral cells, and ...

UC San Francisco researchers have uncovered how the single-celled Stentor coeruleus can learn without neurons, using protein ...

Beyond standard risk scores, the guideline highlights key risk enhancers—including lipoprotein(a), inflammation markers, and ...

An electrolyte imbalance occurs when the levels of vital minerals in the body, such as sodium, potassium, calcium, and ...