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Birth of the eukaryotes by a set of reactive innovations: New insights force us to relinquish gradual models
Bioessays 37 (12):1268-1276 (2015)
Abstract
Of two contending models for eukaryotic evolution the “archezoan“ has an amitochondriate eukaryote take up an endosymbiont, while “symbiogenesis“ states that an Archaeon became a eukaryote as the result of this uptake. If so, organelle formation resulting from new engulfments is simplified by the primordial symbiogenesis, and less informative regarding the bacterium‐to‐mitochondrion conversion. Gradualist archezoan visions still permeate evolutionary thinking, but are much less likely than symbiogenesis. Genuine amitochondriate eukaryotes have never been found and rapid, explosive adaptive periods characteristic of symbiogenetic models explain this. Mitochondrial proteomes, encoded by genes of “eukaryotic origin“ not easily linked to host or endosymbiont, can be understood in light of rapid adjustments to new evolutionary pressures. Symbiogenesis allows “expensive” eukaryotic inventions via efficient ATP generation by nascent mitochondria. However, efficient ATP production equals enhanced toxic internal ROS formation. The synergistic combination of these two driving forces gave rise to the rapid evolution of eukaryotes.Also watch the Video Abstract.My notes
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Citations of this work
Zombie ideas about early endosymbiosis: Which entry mechanisms gave us the “endo” in different endosymbionts?Dave Speijer - 2021 - Bioessays 43 (7):2100069.
Can All Major ROS Forming Sites of the Respiratory Chain Be Activated By High FADH 2 /NADH Ratios?Dave Speijer - 2019 - Bioessays 41 (1):1800180.
Eukaryotic cellular intricacies shape mitochondrial proteomic complexity.Michael Hammond, Richard G. Dorrell, Dave Speijer & Julius Lukeš - 2022 - Bioessays 44 (5):2100258.
Debating Eukaryogenesis—Part 1: Does Eukaryogenesis Presuppose Symbiosis Before Uptake?Dave Speijer - 2020 - Bioessays 42 (4):1900157.
References found in this work
Oxygen radicals shaping evolution: Why fatty acid catabolism leads to peroxisomes while neurons do without it.Dave Speijer - 2011 - Bioessays 33 (2):88-94.
The evolution of eukaryotic cells from the perspective of peroxisomes.Kathrin Bolte, Stefan A. Rensing & Uwe-G. Maier - 2015 - Bioessays 37 (2):195-203.
How the mitochondrion was shaped by radical differences in substrates.Dave Speijer - 2014 - Bioessays 36 (7):634-643.
The evolution of sex: A new hypothesis based on mitochondrial mutational erosion.Justin C. Havird, Matthew D. Hall & Damian K. Dowling - 2015 - Bioessays 37 (9):951-958.
Mitochondrial quality control pathways as determinants of metabolic health.Ntsiki M. Held & Riekelt H. Houtkooper - 2015 - Bioessays 37 (8):867-876.
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