Endosymbiotic selective pressure at the origin of eukaryotic cell biology

Raval, Parth K; Garg, Sriram G.; Gould, Sven B.

doi:10.7554/elife.81033

Cited by 24 publications

(20 citation statements)

References 166 publications

(236 reference statements)

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Section: Conclusion and Future Experimentsmentioning

confidence: 99%

“…The bacterium, upon merging with an archaeon lost all independence, but played a crucial role, as a highly efficient ATP generator, internal ROS source, and wellspring of membranes. [74,75] Two other questions remain (though only indirectly connected with cristae, our main focus so far). Recently, Al Jewari & Baldauf claimed that modern eukaryotes actually arose under anoxic conditions, citing the absence of aerobic mitochondria in three of the earliest branching lineages.…”

Section: Conclusion and Future Experimentsmentioning

confidence: 99%

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How mitochondrial cristae illuminate the important role of oxygen during eukaryogenesis

Speijer

2024

BioEssays

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Inner membranes of mitochondria are extensively folded, forming cristae. The observed overall correlation between efficient eukaryotic ATP generation and the area of internal mitochondrial inner membranes both in unicellular organisms and metazoan tissues seems to explain why they evolved. However, the crucial use of molecular oxygen (O2) as final acceptor of the electron transport chain is still not sufficiently appreciated. O2 was an essential prerequisite for cristae development during early eukaryogenesis and could be the factor allowing cristae retention upon loss of mitochondrial ATP generation. Here I analyze illuminating bacterial and unicellular eukaryotic examples. I also discuss formative influences of intracellular O2 consumption on the evolution of the last eukaryotic common ancestor (LECA). These considerations bring about an explanation for the many genes coming from other organisms than the archaeon and bacterium merging at the start of eukaryogenesis.

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Section: Conclusion and Future Experimentsmentioning

confidence: 99%

Section: Conclusion and Future Experimentsmentioning

confidence: 99%

How mitochondrial cristae illuminate the important role of oxygen during eukaryogenesis

Speijer

2024

BioEssays

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“…A plant encodes 20-30,000 proteins on average, of which many thousand are targeted to intracellular membrane bound compartments after or during translation [1][2][3] . The compartments owe their origins to bacterial ancestors directly or indirectly [4][5][6][7][8][9][10][11][12] . Mitochondria and plastids are of endosymbiotic origin and have transferred a majority of their coding capacity to the nuclear genome in the course of their transition from bacterium to organelle [13][14][15] .…”

Section: Introductionmentioning

confidence: 99%

Performance of localization prediction algorithms decreases rapidly with the evolutionary distance to the training set increasing

Gould,

Magiera,

García

et al. 2023

Preprint

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Mitochondria and plastids import thousands of proteins. Their experimental localisation remains a frequent task, but can be resource-intensive or even impossible especially for species that are genetically not accessible. Hence, hundreds of studies make use of (machine learning) algorithms that predict a sub-cellular localisation based on a protein’s sequence. Their reliability across evolutionary diverse species is unknown. Here, we evaluate the performance of three commonly used algorithms (TargetP, Localizer and WoLFPSORT) for four photosynthetic eukaryotes, for which experimental plastid and mitochondrial proteome data is available. The match between algorithm-based predictions and experimental data ranges from 75% to as low as 2%, with up to thousands of false positives being predicted. Results depend on the algorithm used and the evolutionary distance between the training and query species. Specificity, sensitivity and precision analysis underscore severe limitations outside the training species and especially for plant mitochondria, for which the performance borders on random sampling. The results highlight current issues associated with prediction algorithms and present an opportunity for the next generation of protein localisation prediction tools that should train neural networks on an evolutionary more diverse set of organelle proteins for optimizing their performance and reliability.

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“…Living organisms have never been solitary individuals and symbiotic relationships are challenging our very conception of the individual. Symbiosis, initially defined as a living together of different organisms ( De Bary, 1879 ; Raval et al., 2022 ) represents a range of complex and intermingled relationships (mutualism, commensalism amensalism and parasitism). Although actively debated with numerous theories on the origin of eukaryotes, it is widely accepted that a metabolic symbiosis and successive endosymbioses were important in the evolution of eukaryotes and their diversification ( Hartman and Fedorov, 2002 ; Sapp, 2004 ; Embley and Martin, 2006 ; Cenci et al., 2017 ; Sibbald and Archibald, 2020 ; Gabaldon, 2021 ).…”

mentioning

confidence: 99%