2025-12-03 バース大学
<関連情報>
- https://www.bath.ac.uk/announcements/complex-life-developed-earlier-than-previously-thought-new-study-reveals/
- https://www.nature.com/articles/s41586-025-09808-z
遺伝子重複の年代測定により真核生物の進化的構成が解明される Dated gene duplications elucidate the evolutionary assembly of eukaryotes
Christopher J. Kay,Anja Spang,Gergely J. Szöllősi,Davide Pisani,Tom A. Williams & Philip C. J. Donoghue
Nature Published:03 December 2025
DOI:https://doi.org/10.1038/s41586-025-09808-z
Abstract
The origin of eukaryotes was a formative but poorly understood event in the history of life. Current hypotheses of eukaryogenesis differ principally in the timing of mitochondrial endosymbiosis relative to the acquisition of other eukaryote novelties1. Discriminating among these hypotheses has been challenging, because there are no living lineages representative of intermediate steps within eukaryogenesis. However, many eukaryotic cell functions are contingent on genes that emerged from duplication events during eukaryogenesis2,3. Consequently, the timescale of these duplications can provide insights into the sequence of steps in the evolutionary assembly of the eukaryotic cell. Here we show, using a relaxed molecular clock4, that the process of eukaryogenesis spanned the Mesoarchaean to late Palaeoproterozoic eras. Within these constraints, we dated the timing of these gene duplications, revealing that the eukaryotic host cell already had complex cellular features before mitochondrial endosymbiosis, including an elaborated cytoskeleton, membrane trafficking, endomembrane, phagocytotic machinery and a nucleus, all between 3.0 and 2.25 billion years ago, after which mitochondrial endosymbiosis occurred. Our results enable us to reject mitochondrion-early scenarios of eukaryogenesis5, instead supporting a complexified-archaean, late-mitochondrion sequence for the assembly of eukaryote characteristics. Our inference of a complex archaeal host cell is compatible with hypotheses on the adaptive benefits of syntrophy6,7 in oceans that would have remained largely anoxic for more than a billion years8,9.
