While your skeleton helps your body to move, fine skeleton-like filaments within your cells likewise help cellular structures to move. Now, researchers have developed a new imaging method that ...

The genesis of our cellular skeleton, image by image UNIGE scientists have reconstructed for the first time a film of the assembly of the human centriole, one of the essential structures that ...

The new markers light up the cellular skeleton by attaching to the proteins tubulin (shown here in green) or actin Scientists have developed new tools for looking at structural proteins in action ...

In a study published in Proceedings of the National Academy of Sciences , researchers from Queen Mary University of London ...

This cellular skeleton is a dynamic structure, constantly changing and renewing. It consists of different types of protein filaments, which include intermediate filaments and microtubules.

UNIGE researchers have discovered a new nano-structure that lies at the center of our cellular skeleton; this discovery will allow to better understand how the cell maintains its architecture as ...

Research into the intestinal cells of Burmese pythons has revealed the existence of a previously unknown cell type, ...

Introduction Unlike the skeleton in higher organisms, the cellular skeleton is an adaptive and dynamic cellular network of protein polymers involved in cellular function in terms of movement ...

Princeton researchers have learned to harness the gossamer scaffolding that maintains the structure of living cells and used it to develop a nanotechnology platform. The technique eventually could ...

PHILADELPHIA — Scientists may have uncovered a new type of skeleton in cells’ closets. Cells harbor several newly discovered types of filaments, Jim Wilhelm of the University of California ...

Key Takeaways Innovative use of cellular scaffolding to create nanotechnology platforms with potential in soft robotics, medicine, and high-precision biomolecular transport. Development of a method ...