SARS‑CoV‑2, the virus that causes COVID-19, continues to mutate, with some newer strains becoming less responsive to current antiviral treatments like Paxlovid.

Cell death triggered by GPX4 loss was slowed in cell cultures and in mouse model using compounds that specifically inhibit ferroptosis.

SARS‑CoV‑2, the virus that causes COVID-19, continues to mutate, with some newer strains becoming less responsive to current antiviral treatments like Paxlovid. Now, University of California San Diego ...

Your gut microbes play a major role in how well you absorb nutrients, explaining why identical diets produce very different results.

A study by researchers at the D’Or Institute for Research and Education in Rio de Janeiro, Brazil, suggests that blocking the microRNA known as miR-21 may significantly slow the growth and spread of ...

A research team at Sejong University's Plant Immunity Laboratory, led by Professor Nam-Soo Jwa, has uncovered an important ...

Plants possess an extraordinary ability to continuously generate new organs owing to these specialized cells known as stem ...

To understand how CBD may reduce pain, it’s important to learn the basics of the endocannabinoid system (ECS), a complex ...

Researchers at Helmholtz Munich, the Technical University of Munich and the LMU University Hospital Munich uncovered a mechanism that protects nerve cells from premature cell death, known as ...

Researchers have identified how a single mutation in the GPX4 enzyme causes neurons to undergo ferroptosis, leading to severe early-onset dementia.

Pneumonia is a disease that burdens the health care system with more than 1.2 million emergency room visits each year and ...