Swapping symbionts in spittlebugs: evolutionary replacement of a reduced genome symbiont

Koga, Ryuichi; Moran, Nancy A.

doi:10.1038/ismej.2013.235

Cited by 133 publications

(168 citation statements)

References 48 publications

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“…Genome size is strongly correlated to endosymbiotic age in bacteria, especially at the onset of symbiosis, when genome reduction can be rapid (53)(54)(55)(56)(57). Most relevant to our argument here is the speed with which genome reduction has been shown to take place in Sodalisallied bacteria closely related to the γ-proteobacterial symbionts of mealybugs (34,58,59). It has been estimated that as much as 55% of an ancestral Sodalis genome was lost on the transition to endosymbiosis in a mere ∼28,000 y, barely enough time for 1% sequence divergence to accumulate between the new symbiont and a free-living relative (58).…”

Section: Diversity Of Intra-tremblaya Symbiont Genomes Suggests Multiplementioning

confidence: 91%

“…Another solution to avoid host extinction is to replace the degenerating symbiont with a fresh one or supplement it with a new partner. Examples of symbiont replacement and supplementation are replete in insects, occurring in at least the sap-feeding Auchenorrhyncha (23,(32)(33)(34), psyllids (22,35), aphids (25,36,37), lice (38), and weevils (39,40). When viewed over evolutionary time, it becomes clear that endosymbioses can be dynamic-both genes and organisms come and go.…”

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confidence: 99%

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Repeated replacement of an intrabacterial symbiont in the tripartite nested mealybug symbiosis

Husník

McCutcheon

2016

Proc. Natl. Acad. Sci. U.S.A.

231

279

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Stable endosymbiosis of a bacterium into a host cell promotes cellular and genomic complexity. The mealybug Planococcus citri has two bacterial endosymbionts with an unusual nested arrangement: the γ-proteobacterium Moranella endobia lives in the cytoplasm of the β-proteobacterium Tremblaya princeps. These two bacteria, along with genes horizontally transferred from other bacteria to the P. citri genome, encode gene sets that form an interdependent metabolic patchwork. Here, we test the stability of this three-way symbiosis by sequencing host and symbiont genomes for five diverse mealybug species and find marked fluidity over evolutionary time. Although Tremblaya is the result of a single infection in the ancestor of mealybugs, the γ-proteobacterial symbionts result from multiple replacements of inferred different ages from related but distinct bacterial lineages. Our data show that symbiont replacement can happen even in the most intricate symbiotic arrangements and that preexisting horizontally transferred genes can remain stable on genomes in the face of extensive symbiont turnover.Sodalis | organelle | horizontal gene transfer | scale insect

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Section: Diversity Of Intra-tremblaya Symbiont Genomes Suggests Multiplementioning

confidence: 91%

mentioning

confidence: 99%

Repeated replacement of an intrabacterial symbiont in the tripartite nested mealybug symbiosis

Husník

McCutcheon

2016

Proc. Natl. Acad. Sci. U.S.A.

231

279

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“…Over evolutionary time, this redundancy is eliminated, as illustrated by the perfectly complementary and nonredundant combinations of biosynthetic pathways repeatedly observed for genomes of coresident symbionts in sapfeeding insects (1,85,86). Depending on which genome initially loses specific biosynthetic capabilities, a likely outcome is that both old and new symbionts become obligate for the host, each maintaining distinct and complementary contributions.…”

Section: Escaping the Hazards Of Symbiosis: Acquiring Novel Symbiosesmentioning

confidence: 99%

“…The Sodalis-like symbiont that replaced Zinderia in spittlebugs of tribe Philaenini (Fig. 3) has a reduced genome but retains pathways complementary to those of its Sulcia partner (86). This new symbiont occupies a distinct cell type from the bacteriocytes that house Zinderia in other spittlebugs (91).…”

Section: Origin Of Symbiosismentioning

confidence: 99%

Heritable symbiosis: The advantages and perils of an evolutionary rabbit hole

Bennett

Moran

2015

Proc. Natl. Acad. Sci. U.S.A.

432

515

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Many eukaryotes have obligate associations with microorganisms that are transmitted directly between generations. A model for heritable symbiosis is the association of aphids, a clade of sapfeeding insects, and Buchnera aphidicola, a gammaproteobacterium that colonized an aphid ancestor 150 million years ago and persists in almost all 5,000 aphid species. Symbiont acquisition enables evolutionary and ecological expansion; aphids are one of many insect groups that would not exist without heritable symbiosis. Receiving less attention are potential negative ramifications of symbiotic alliances. In the short run, symbionts impose metabolic costs. Over evolutionary time, hosts evolve dependence beyond the original benefits of the symbiosis. Symbiotic partners enter into an evolutionary spiral that leads to irreversible codependence and associated risks. Host adaptations to symbiosis (e.g., immune-system modification) may impose vulnerabilities. Symbiont genomes also continuously accumulate deleterious mutations, limiting their beneficial contributions and environmental tolerance. Finally, the fitness interests of obligate heritable symbionts are distinct from those of their hosts, leading to selfish tendencies. Thus, genes underlying the host-symbiont interface are predicted to follow a coevolutionary arms race, as observed for genes governing host-pathogen interactions. On the macroevolutionary scale, the rapid evolution of interacting symbiont and host genes is predicted to accelerate host speciation rates by generating genetic incompatibilities. However, degeneration of symbiont genomes may ultimately limit the ecological range of host species, potentially increasing extinction risk. Recent results for the aphidBuchnera symbiosis and related systems illustrate that, whereas heritable symbiosis can expand ecological range and spur diversification, it also presents potential perils.Buchnera | aphid | Muller's ratchet | selection levels | coevolution

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“…Another open question is whether specialization destines microbes to an evolutionary dead-end due to the increased risk of extinction that result from highly restricted host ranges and the loss of functional capabilities from genome erosion. Intracellular symbionts can degenerate to the point where they are replaced, 57 but for gut microbes, the prospect of gene flow may prevent this outcome.…”

Section: Conclusion and Perspectivementioning

confidence: 99%