“Hightech” materials from nature
Research team discovers surprising properties of the cytoskeleton
Anna Blob
The scientists used optical tweezers to investigate how the filaments behave under tension. They attached the ends of the filaments to tiny plastic beads, which they then moved in a controlled way with the help of a laser beam. This stretched the two different types of filaments, which are known as vimentin and keratin. The researchers worked out which forces were necessary for the stretching and how the different filaments behaved when they were stretched several times.
Surprisingly, the two different filaments behave in contrasting ways when repeatedly stretched: vimentin filaments become softer and retain their length, keratin filaments become longer and retain their stiffness. The experimental results match computer simulations of molecular interactions: in vimentin filaments, the researchers assume that structures open up, similar to gels made of several components; in keratin filaments, they assume that structures shift against each other, as in metals. Both mechanisms explain that the networks of intermediate filaments in the cytoskeleton can be deformed very strongly without being damaged. However, this protective factor is explained by fundamentally different physical principles.
"These results extend our understanding of why different cell types have such different mechanical properties," explains Dr Charlotta Lorenz, first author of the study. Professor Sarah Köster, from Göttingen University’s Institute of X-Ray Physics and leader of the study, adds: "We can learn from nature and think about the design of new, sustainable and transformable materials whose properties can be chosen or designed to fit the requirements exactly."
Original publication
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