Cyanobacteria—ancient microbes that oxygenated Earth and made complex life possible—are still revealing surprises billions of ...

Cells constantly probe their environments, searching for physical cues that guide their behavior. And yet a cell's response ...

In the tiny, beaded chain of the cyanobacterium Anabaena sp. ATCC 33047, two different cells, the photosynthetic factory worker and the nitrogen-fixing specialist, play distinct and powerful roles in ...

A system once tied to DNA organization in cyanobacteria has evolved into a structure that shapes the cell itself. This shift ...

Many fundamental processes of life, and their synthetic counterparts in nanotechnology, are based on the autonomous assembly of individual particles into complex patterns. LMU physicist Professor ...

Inflammation, the movement of immune cells to an area of infection or injury, is important for tackling infections and restoring health. When the inflammatory process gets out of control, however, the ...

A research team led by Potsdam-based bioinformatician Prof. Dr Zoran Nikoloski has developed a computational approach and an accompanying tool that enables the detailed analysis and reconstruction of ...

Your cells aren’t just tiny blobs—they have an internal skeleton that keeps them in shape, moves things around, and even helps them adapt to change. This cytoskeleton is a dynamic network of filaments ...

Researchers used rotational multimaterial 3D printing to pattern active and passive polymers within filaments. The approach ...

The cytoskeleton is far more than a static scaffold—it’s a dynamic, adaptable network that shapes cells, moves cargo, and drives vital processes. From swirling cytoplasmic flows to microtubule ...