The cells of all animals—including humans—are characterized by their ability to adhere particularly well to surfaces in their ...

Scientists have identified a small flaw in the enzyme GPX4 that prevents neurons from defending themselves. This mutation, found in children with a rare form of early dementia, disrupts a tiny loop ...

The production of cultured meat depends on the isolation, expansion, and differentiation of animal stem cells into edible ...

Biologists have long suspected that aging is not just a slow, inevitable fraying of our cells but a process governed by ...

A quick revision guide covering key concepts, biomolecules, cell organelles, and essential NEET-style MCQs to boost exam ...

The axolotl, a type of salamander that stays in the tadpole form throughout its life, is a master of regeneration. Axolotls ...

Frasier Smith, ND Abstract Understanding how persistent plastic particles infiltrate human physiology—and what clinicians can do to help patients mitigate… Microplastics and Nanoplastics: Emerging Hea ...

Mitochondria can lose power like batteries, but they can potentially be regenerated—a promising development than can be used ...

Tiny structures inside your cells keep your body alive by turning food into fuel. These structures, called mitochondria, ...

Two related studies published today in Nature Metabolism show that a specialized intracellular recycling ...

Researchers have uncovered a shared brain cell breakdown mechanism behind Alzheimer’s and Parkinson’s diseases, revealing how two different proteins can disrupt neurons in the same devastating way.

The tectorial membrane (TM) is a critical component in the auditory system, playing a pivotal role in stimulating hair cells and facilitating sound transmission. Abnormalities in the TM are commonly ...