Fitness trade-offs and the origins of endosymbiosis

Brockhurst, Michael A.; Cameron, Duncan D.; Beckerman, Andrew P.

doi:10.1371/journal.pbio.3002580

PLoS Biol

2024

DOI: 10.1371/journal.pbio.3002580

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Fitness trade-offs and the origins of endosymbiosis

Michael A. Brockhurst,

Duncan D. Cameron,

Andrew P. Beckerman

Abstract: Endosymbiosis drives evolutionary innovation and underpins the function of diverse ecosystems. The mechanistic origins of symbioses, however, remain unclear, in part because early evolutionary events are obscured by subsequent evolution and genetic drift. This Essay highlights how experimental studies of facultative, host-switched, and synthetic symbioses are revealing the important role of fitness trade-offs between within-host and free-living niches during the early-stage evolution of new symbiotic associati… Show more

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Cited by 5 publications

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“…In a related theme, Brockhurst and collaborators discuss the role of mutational decay and antagonistic pleiotropy as microbes shift from free-living forms to symbiotic forms that are strictly vertically transmitted and obligately dependent on hosts [8]. They also discuss how both selection and synthetic consortia experiments can be informative for understanding the forces that drive the early mutational changes underlying symbiotic interactions.…”

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Symbiosis: In search of a deeper understanding

Richards,

Moran

2024

PLoS Biol

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How do distinct species cofunction in symbiosis, despite conflicting interests? A new collection of articles explores emerging themes as researchers exploit modern research tools and new models to unravel how symbiotic interactions function and evolve.Symbiosis is a puzzle: seemingly in defiance of the view that biological organisms are selfish entities, nature has provided numerous examples of distantly related species "working together." These ecological interactions have been fundamental to the emergence of Earth's biological systems, for example, driving how eukaryotic cells evolved [1], how plants colonized the terrestrial biome [2], and how coral reef ecosystems are built [3]. Yet scratch below the surface, and collaborations between species are never fully cooperative. Many interactions remain transient maximizations of ecological, metabolic, or protective benefit. Even in long-established endosymbioses, in which a microbial symbiont lives within cells of the host, selection drives each species to evolve in directions that are often to their partner's detriment [4]. Consequences for symbionts can include entrapment, genetic appropriation, genome reduction, loss of autonomy, expulsion, and being digested. And, from the host side, symbiosis can lead to obligate dependence on partners that are erratically present or that are mutation ridden and ecologically fragile. Such dynamics might appear to make these interactions inherently unstable, yet they arise frequently and often persist across considerable periods of time and many generations.This fundamental dichotomy has fired interest in the study of symbiosis. Furthermore, we now know that, despite these destabilizing forces, symbiosis has generated radical evolutionary outcomes that have shaped the tree of life. Biologists are interested in the forces that drive the origins of symbioses and their subsequent evolution, and in symbioses that generate different kinds of outcomes, ranging from diversification and ecological success to extinction. For example, symbiosis has driven how eukaryotic cells relocate respiratory pathways [5] and how photosynthesis is co-opted, time and time again [1].The field of symbiosis research crosses many disciplines and has a long history. For many decades, symbiosis research (such as the work of WallinAU : PleasenotethatthecitationtheworkofWallino , one of the early proponents of the symbiotic ancestry of mitochondria) operated largely from the natural history perspective [1,6]. These early experiments were few in number and often turned out to be wrong, although sometimes the underlying hypothesis was later proven to be correct [6]. As part of this collection, John Archibald discusses the history of endosymbiosis research and its legacy across modern experimental and genomic endeavors [6].

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confidence: 99%

Symbiosis: In search of a deeper understanding

Richards,

Moran

2024

PLoS Biol

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Microbial bases of herbivory in beetles

García-Lozano,

Salem

2024

Trends in Microbiology

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2024

Nature

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Fitness trade-offs and the origins of endosymbiosis

Cited by 5 publications

References 35 publications

Symbiosis: In search of a deeper understanding

Symbiosis: In search of a deeper understanding

Microbial bases of herbivory in beetles

What happens when a bacterium gets into a fungus and stays — for generations

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