The functioning of neurons, cells that transmit information in the nervous system, heavily relies on the production of ...

Human brains (and the brains of other vertebrates) are able to process information faster because of myelin, a fatty substance that forms a protective sheath over the axons of our nerve cells and ...

How well our brain functions depends heavily on the performance of our nerve cells. That is why they are regularly checked for their proper function -- defective cell components are marked, disposed ...

Nerve cells have amazing strategies to save energy and still perform the most important of their tasks. Researchers from the University Hospital Bonn (UKB) and the University of Bonn as well as the ...

Higher levels of the GFAP protein in the cerebrospinal fluid are associated with better clinical response to Spinraza in SMA, ...

The average human cell contains roughly 10,000 different proteins. Existing as several to millions of copies in each cell, proteins mediate all manner of tasks, including chemical transformations, ...

Analyzing molecular changes in two types of peripheral nerves that are affected in diabetic peripheral neuropathy – the sural, which carry sensory signals, and the tibial, which carry both sensory and ...

Most human nerve cells last a lifetime without renewal. A trait echoed within the cells' components, some enduring as long as the organism itself. Most human nerve cells last a lifetime without ...

Silent cells deep in your spinal cord may hold a surprising key to healing after devastating injuries and brain disease. A ...

The Institute’s president and molecular biologist is captivated by solving the mysteries behind the aging process and the extended lifespan of humans. Hetzer is fascinated by the biological puzzles ...