In some cases, these filament systems function analogously to components of the eukaryotic cytoskeleton, and the term 'prokaryotic cytoskeletons' has been adopted and broadened to include many ...

Heidelberg University. (2025, March 17). RNA origami: Artificial cytoskeletons to build synthetic cells. ScienceDaily. Retrieved June 1, 2025 from www.sciencedaily.com / releases / 2025 / 03 ...

Despite their name, cytoskeletons are very dynamic structures, which undergo rapid reorganization in cells and thus contribute to numerous cellular processes, such as morphogenesis, motility ...

Consequently, significant progress has been made in developing artificial or reconstituted cytoskeletons. Researchers in this ...

Brownian motion of RNA origami nanotubes inside GUVs. These confocal time-lapses capture the fast movement of RNA origami cytoskeletons within GUVs. Credit: Nature Nanotechnology (2025).

Despite their name, cytoskeletons are very dynamic structures, which undergo rapid reorganization in cells and thus contribute to numerous cellular processes, such as morphogenesis, motility ...

With the long-term goal of creating living cells from non-living components, scientists in the field of synthetic biology work with RNA origami. This tool uses the multifunctionality of the ...

Despite their name, cytoskeletons are very dynamic structures, which undergo rapid reorganization in cells and thus contribute to numerous cellular processes, such as morphogenesis, motility ...

The cytoskeleton is an essential structural component in cells that gives them stability, shape, and mobility. The research, published in Nature Nanotechnology ("Genetic encoding and expression of RNA ...

More information: Mai P. Tran et al, Genetic encoding and expression of RNA origami cytoskeletons in synthetic cells, Nature ...