All life on Earth originated from a single common ancestor millions of years ago

This pivotal study traces the roots of all modern life back to a single common ancestor, known as LUCA (Last Universal Common Ancestor)

This groundbreaking study traces the origins of all modern life back to a single common ancestor, known as LUCA (Last Universal Common Ancestor).

This groundbreaking study traces the origins of all modern life back to a single common ancestor, known as LUCA (Last Universal Common Ancestor). (CREDIT: Creative Commons)

An international team of researchers, spearheaded by the University of Bristol, has revealed intriguing insights into Earth’s earliest ecosystem, demonstrating that life was flourishing just a few hundred million years after the planet's formation. This pivotal study traces the roots of all modern life back to a single common ancestor, known as LUCA (Last Universal Common Ancestor).

The study "‘The nature of the last universal common ancestor and its impact on the early Earth system" is available on Nature Ecology & Evolution.

LUCA is believed to be the progenitor of all cellular life, from bacteria and redwood trees to humans. Representing the root of the tree of life, LUCA existed before the major evolutionary branches of Bacteria, Archaea, and Eukarya diverged.

Modern organisms inherited various biological traits from LUCA, such as amino acids for protein building, the energy molecule ATP, cellular machinery like ribosomes, and the use of DNA to store genetic information.

A digital representation illustrating how LUCA was already under attack from viruses even at 4.2 billion years ago. (CREDIT: Science Graphic Design)

The research team compared the genomes of living species, counting the mutations that have occurred over time since they shared LUCA as a common ancestor. By combining this genetic data with fossil records, they calculated that LUCA existed around 4.2 billion years ago, about 400 million years after Earth and the solar system formed.

Dr. Sandra Álvarez-Carretero from Bristol’s School of Earth Sciences expressed surprise at LUCA's ancient origin, noting that it aligns with current views on early Earth's habitability. The team modeled LUCA’s biological characteristics by tracing back through the genealogy of living species.

Dr. Edmund Moody explained that gene exchange between lineages complicates evolutionary history, requiring complex models to align gene evolution with species genealogy.

Dr. Tom Williams from Bristol’s School of Biological Sciences highlighted the advantage of using gene-tree species-tree reconciliation with diverse data representing life’s primary domains, Archaea and Bacteria. This method allowed the team to confidently assess LUCA's characteristics.

Professor Davide Pisani revealed that LUCA was a complex organism, similar to modern prokaryotes, with an early immune system indicating an ancient battle with viruses. Tim Lenton from the University of Exeter added that LUCA was not solitary; its waste likely served as food for other microbes, contributing to a recycling ecosystem.

The study’s findings and methodologies will inform future research on prokaryote evolution, particularly Archaea and their methanogenic representatives. Professor Anja Spang emphasized the significance of these insights for understanding Earth history.

Phylogenetic tree linking all major groups of living organisms, namely the Bacteria, Archaea, and Eukarya, as proposed by Woese et al 1990, with the last universal common ancestor (LUCA) shown at the root. (CREDIT: Wikipedia)

Professor Philip Donoghue noted that this interdisciplinary study offers unique insights into early Earth and life, suggesting that ecosystems were established quickly. This rapid establishment hints that life could thrive on other Earth-like planets in the universe.

Collaborating institutions included University College London (UCL), Utrecht University, Centre for Ecological Research in Budapest, and Okinawa Institute of Science and Technology Graduate University.

Note: Materials provided above by the The Brighter Side of News. Content may be edited for style and length.


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Joshua Shavit
Joshua ShavitScience and Good News Writer
Joshua Shavit is a bright and enthusiastic 18-year-old with a passion for sharing positive stories that uplift and inspire. With a flair for writing and a deep appreciation for the beauty of human kindness, Joshua has embarked on a journey to spotlight the good news that happens around the world daily. His youthful perspective and genuine interest in spreading positivity make him a promising writer and co-founder at The Brighter Side of News. He is currently working towards a Bachelor of Science in Business Administration at the University of California, Berkeley.