Switch to: Citations

References in:

Debating Eukaryogenesis—Part 2: How Anachronistic Reasoning Can Lure Us into Inventing Intermediates

Bioessays 42 (5):1900153 (2020)

Add references

You must login to add references.

Birth of the eukaryotes by a set of reactive innovations: New insights force us to relinquish gradual models.Dave Speijer - 2015 - Bioessays 37 (12):1268-1276.details 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 (...) Download Export citation Bookmark 16 citations
Demystifying Eukaryote Lateral Gene Transfer.Michelle M. Leger, Laura Eme, Courtney W. Stairs & Andrew J. Roger - 2018 - Bioessays 40 (5):1700242.details In a recent BioEssays paper [W. F. Martin, BioEssays 2017, 39, 1700115], William Martin sharply criticizes evolutionary interpretations that involve lateral gene transfer into eukaryotic genomes. Most published examples of LGTs in eukaryotes, he suggests, are in fact contaminants, ancestral genes that have been lost from other extant lineages, or the result of artefactual phylogenetic inferences. Martin argues that, except for transfers that occurred from endosymbiotic organelles, eukaryote LGT is insignificant. Here, in reviewing this field, we seek to correct some (...) Download Export citation Bookmark 2 citations
Oxygen radicals shaping evolution: Why fatty acid catabolism leads to peroxisomes while neurons do without it.Dave Speijer - 2011 - Bioessays 33 (2):88-94.details Download Export citation Bookmark 21 citations
Mitonuclear Mate Choice: A Missing Component of Sexual Selection Theory?Geoffrey E. Hill - 2018 - Bioessays 40 (3):1700191.details The fitness of a eukaryote hinges on the coordinated function of the products of its nuclear and mitochondrial genomes in achieving oxidative phosphorylation. I propose that sexual selection plays a key role in the maintenance of mitonuclear coadaptation across generations because it enables pre-zygotic sorting for coadapted mitonuclear genotypes. At each new generation, sexual reproduction creates new combinations of nuclear and mitochondrial genes, and the potential arises for mitonuclear incompatibilities and reduced fitness. In reviewing the literature, I hypothesize that individuals (...) Download Export citation Bookmark 3 citations
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.details The evolution of sex in eukaryotes represents a paradox, given the “twofold” fitness cost it incurs. We hypothesize that the mutational dynamics of the mitochondrial genome would have favored the evolution of sexual reproduction. Mitochondrial DNA (mtDNA) exhibits a high‐mutation rate across most eukaryote taxa, and several lines of evidence suggest that this high rate is an ancestral character. This seems inexplicable given that mtDNA‐encoded genes underlie the expression of life's most salient functions, including energy conversion. We propose that negative (...) Download Export citation Bookmark 7 citations

1