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Health & Science5h 26m ago
Dr. Toni Gabaldón and his team used the MareNostrum supercomputer to reconstruct the genetic origin of the last common ancestor of all eukaryotes.
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Barcelona
Who
Dr. Toni Gabaldón, Moisès Bernabeu, Saioa Manzano-Morales, Marina Marcet-Houben
What
Dr. Toni Gabaldón and his team used the MareNostrum supercomputer to reconstruct the genetic origin of the last common ancestor of all eukaryotes.
When
Thu, 11 Jun 2026 22:52:30 GMT · 5h 26m ago
Where
Barcelona ·
Why
The study aims to understand how cellular complexity emerged in the cellular lineage to which animals, plants, fungi, and protists belong.
The Frontline Impact
How this affects you
This research challenges the long-held view that cellular complexity emerged from a single evolutionary event, suggesting a more gradual and collaborative process involving multiple microorganisms and giant viruses. The findings reframe a fundamental aspect of the history of life on Earth.
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5 events in this thread- Currently Reading5h 26m agoDr. Toni Gabaldón and his team used the MareNostrum supercomputer to reconstruct the genetic origin of the last common ancestor of all eukaryotes.
- Health & Science5h 26m agoDr. Toni Gabaldón and his team used the MareNostrum supercomputer to reconstruct the genetic origin of the last common ancestor of all eukaryotes.Open article
- Health & Science5h 26m agoDr. Toni Gabaldón and his team used the MareNostrum supercomputer to reconstruct the genetic origin of the last common ancestor of all eukaryotes.Open article
- Health & Science5h 26m agoDr. Toni Gabaldón and his team used the MareNostrum supercomputer to reconstruct the genetic origin of the last common ancestor of all eukaryotes.Open article
- Health & Science5h 26m agoDr. Toni Gabaldón and his team used the MareNostrum supercomputer to reconstruct the genetic origin of the last common ancestor of all eukaryotes.Open article