Direct evidence that microtubules function as mechano-sensors and regulate the intracellular transport of molecules has been reported, leading to new possibilities in the fields of biomechanics, ...

Cellular life hinges on a network of hollow cables called microtubules dynamically lengthening and shortening according to the needs of the moment. During cell division, for instance, these cables ...

A new study suggests that two of Alzheimer’s disease’s most debated players may be more closely connected than they first ...

As organisms grow, live, and move through the world, they're subjected to an array of internal and external forces. Biological forms must be able to withstand the stresses of stretching and ...

New UC Riverside-led research suggests Alzheimer’s arises not simply from plaques forming in the brain, as is widely believed ...

A Northwestern Medicine study has shed light on one of the most intricate construction projects in biology: how cells build and coordinate the internal scaffolding needed to create a healthy egg. The ...

A joint research team from the LKS Faculty of Medicine (HKUMed) and the Faculty of Science at the University of Hong Kong has uncovered an unexpected interaction between chemotherapeutic agents and a ...

Clumps and tangles of tau protein are associated with Alzheimer's disease and other dementias, but tau protein also plays a role in healthy nerve cells. Healthy tau can assemble into an envelope ...

Direct evidence that microtubules function as mechano-sensors and regulate the intracellular transport of molecules has been reported, leading to new possibilities in the fields of biomechanics, ...