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Weird microbes could help rewrite the origin of multicellular life

Single-celled organisms called archaea can become multicellular when compressed, highlighting the role of physical forces in evolution

By Claire Ainsworth

28 October 2024

A protein from a single-celled organism called Haloferax volcanii — Illustration of a protein from a single-celled organism called Haloferax volcanii
FRANCISCO J. ENGUITA/SCIENCE PHOTO LIBRARY

Compressing a type of single-celled microorganism makes it develop into a multicellular tissue-like structure with different cell types. This suggests that pressure can help drive key evolutionary leaps, such as the emergence of multicellularity.

The organism is a type of archaea, one of the three domains of life, along with bacteria and eukaryotes. The eukaryotes are organisms with cells containing a nucleus and include animals and plants. Archaea lack a nucleus, so were originally mistaken for bacteria, but are now thought to share…

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