Single-celled organisms that group together can generate stronger water currents to pull in food, a benefit that may have ...

Under microscopes, scientists found that giant single-cell organisms were able to vacuum up more food when they are stuck together.

New research sheds light on one of the biggest questions in biology: where did complex life come from? The answer may lie ...

Who were our earliest ancestors? The answer could lie in a special group of single-celled organisms with a cytoskeleton similar to that of complex organisms, such as animals and plants.

In brief Asgard archaea are a group of microorganisms discovered just ten years ago. They represent a link between bacteria, archaea and complex organisms, such as plants and animals. ETH researchers ...

Researchers found that cooperative fluid dynamics between single-celled organisms may have driven the evolution of ...

The research indicates that the limitations on the size of proteins has been a crucial trigger in the development of life ...

Researchers reveal Prototaxites, a giant Devonian fossil, was not a fungus or plant but a unique extinct lineage.

From sonic tomographies to global biodiversity negotiations, this journey through research, resilience, and connection ...

Ten years ago, nobody knew that Asgard archaea even existed. In 2015, however, researchers examining deep-sea sediments ...

Cells constantly shift and transform, triggering the complex choreography that shapes living organisms. Whether dividing into new cells or sculpting an embryo, these tiny movements rely on chemical ...