Eukaryogenesis From FECA to LECA: Radical Steps Along the Way

Dave Speijer

doi:10.1002/bies.70063

Eukaryogenesis From FECA to LECA: Radical Steps Along the Way

Dave Speijer^*

^*Corresponding author for this work

University of Amsterdam

Research output: Contribution to journal › Article › Academic › peer-review

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Abstract

The characteristics of the last eukaryotic common ancestor (LECA) population and the root of the eukaryotic tree have been coming into focus lately. However, the trajectory taking the host, related to present-day Asgard archaea and the endosymbiont, related to present-day alphaproteobacteria, toward such fully integrated and complex organisms is still unclear. Here I marshal recent evidence supporting the early arrival of the “mitochondrion-to-be”, setting up the evolutionary dynamic for a series of mutual adaptations leading to eukaryotes. Upon critical analysis of some presuppositions in phylogenomic reconstructions of eukaryogenesis, I again propose that pre-symbiosis, efficient ATP generation, internal reactive oxygen species (ROS) formation and enhanced retention of genes supplied by horizontal gene transfer (HGT) interdependently allowed this unique transformation to occur.

Original language	English
Article number	e70063
Journal	BioEssays
Volume	47
Issue number	11
Early online date	2025
DOIs	https://doi.org/10.1002/bies.70063
Publication status	Published - Nov 2025

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title = "Eukaryogenesis From FECA to LECA: Radical Steps Along the Way",

abstract = "The characteristics of the last eukaryotic common ancestor (LECA) population and the root of the eukaryotic tree have been coming into focus lately. However, the trajectory taking the host, related to present-day Asgard archaea and the endosymbiont, related to present-day alphaproteobacteria, toward such fully integrated and complex organisms is still unclear. Here I marshal recent evidence supporting the early arrival of the “mitochondrion-to-be”, setting up the evolutionary dynamic for a series of mutual adaptations leading to eukaryotes. Upon critical analysis of some presuppositions in phylogenomic reconstructions of eukaryogenesis, I again propose that pre-symbiosis, efficient ATP generation, internal reactive oxygen species (ROS) formation and enhanced retention of genes supplied by horizontal gene transfer (HGT) interdependently allowed this unique transformation to occur.",

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AB - The characteristics of the last eukaryotic common ancestor (LECA) population and the root of the eukaryotic tree have been coming into focus lately. However, the trajectory taking the host, related to present-day Asgard archaea and the endosymbiont, related to present-day alphaproteobacteria, toward such fully integrated and complex organisms is still unclear. Here I marshal recent evidence supporting the early arrival of the “mitochondrion-to-be”, setting up the evolutionary dynamic for a series of mutual adaptations leading to eukaryotes. Upon critical analysis of some presuppositions in phylogenomic reconstructions of eukaryogenesis, I again propose that pre-symbiosis, efficient ATP generation, internal reactive oxygen species (ROS) formation and enhanced retention of genes supplied by horizontal gene transfer (HGT) interdependently allowed this unique transformation to occur.

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Eukaryogenesis From FECA to LECA: Radical Steps Along the Way

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