Intra-Species Differences in Population Size shape Life History and Genome Evolution

Willemsen, David; Cui, Rongfeng; Reichard, Martin; Valenzano, Dario Riccardo

doi:10.1101/852368

Cited by 14 publications

(21 citation statements)

References 91 publications

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“…Developments of the MA theory of aging [19,52] predict that the genetic variance in fitness and inbreeding depression should increase with age and that "hybrid" vigor of individuals from crosses between different populations with small effective population sizes should be primarily confined to late ages. These predictions have been supported by a suite of studies (e.g., [19][20][21][22][23][24][25][52][53][54]). However, provided that deleterious mutations with increasing negative effects show increasing variance in effect size with age, and that they in general are at least partly recessive, the above findings are also compatible with aging through deleterious mutations with increasing negative effects.…”

Section: Discussionmentioning

confidence: 72%

Deleterious mutations show increasing negative effects with age in Drosophila melanogaster

et al. 2020

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Background In order for aging to evolve in response to a declining strength of selection with age, a genetic architecture that allows for mutations with age-specific effects on organismal performance is required. Our understanding of how selective effects of individual mutations are distributed across ages is however poor. Established evolutionary theories assume that mutations causing aging have negative late-life effects, coupled to either positive or neutral effects early in life. New theory now suggests evolution of aging may also result from deleterious mutations with increasing negative effects with age, a possibility that has not yet been empirically explored. Results To directly test how the effects of deleterious mutations are distributed across ages, we separately measure age-specific effects on fecundity for each of 20 mutations in Drosophila melanogaster. We find that deleterious mutations in general have a negative effect that increases with age and that the rate of increase depends on how deleterious a mutation is early in life. Conclusions Our findings suggest that aging does not exclusively depend on genetic variants assumed by the established evolutionary theories of aging. Instead, aging can result from deleterious mutations with negative effects that amplify with age. If increasing negative effect with age is a general property of deleterious mutations, the proportion of mutations with the capacity to contribute towards aging may be considerably larger than previously believed.

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Section: Discussionmentioning

confidence: 72%

Deleterious mutations show increasing negative effects with age in Drosophila melanogaster

et al. 2020

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“…Despite having some portion of the genome under relaxed purifying selection, fish of the genus Pachypanchax live for several years, significantly longer than the corresponding annual species from continental Africa, whose lifespan can be as short as 4–6 months (Valenzano et al, 2015; Willemsen et al, 2020). Since relaxation of purifying selection largely affects genes involved in late‐life maintenance in annual African killifishes (Cui et al, 2019), we investigated what genes and gene functions were affected by relaxed selection in a clade with long‐term island isolation yet maintaining a normal lifespan.…”

Section: Resultsmentioning

confidence: 99%

“…The amount of fixed and segregating deleterious mutations in Nothobranchius has been shown to correlate negatively with effective population size (Cui et al, 2019;Willemsen et al, 2019). Hence, we asked whether a similar trend occurred in nonannual species, such as the golden panchax (P. playfairii).…”

Section: Recent Decline Of Population Size Accompanied By Limited Relaxed Selection and Positive Selectionmentioning

confidence: 98%

“…Previous studies conducted in continental African killifishes have shown that relaxation of selection dominates genome evolution in short-lived annual species, preferentially targeting ageing-related pathways, probably resulting from population fragmentation and population size reduction, combined with a strong selection for early-life phenotypes, such as embryonic diapause and explosive sexual maturation (Cui et al, 2019;Willemsen et al, 2019). Here, we investigate the impact of island isolation on genome evolution and relaxation of selective constraints in a longlived killifish.…”

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confidence: 96%

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Ancestral transoceanic colonization and recent population reduction in a nonannual killifish from the Seychelles archipelago

et al. 2021

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Killifishes are widely distributed across the globe and have successfully colonized a range of habitats, from coastal lagoons to rivers, streams, seasonal water ponds, as well as remote tropical islands, such as the Seychelles (Murphy & Collier, 1997). While annual killifish can colonize arid savanna environments by virtue of their desiccation-resistant embryos that can sustain life during monthslong dry seasons (Cellerino et al., 2016;Dolfi et al., 2019;Hu et al., 2020), we know little about the biotic and abiotic factors that enabled killifish to colonize and adapt in islands that are hundreds of kilometres distant from the mainland, such as Madagascar and the Seychelles.

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“…Following assembly, any E. coli scaffolds resulting from residual contaminating reads were identified by aligning scaffolds to the E. coli genome using BLASTN [39], and scaffolds containing significant matches were discarded. The remaining scaffolds were then scaffolded using SSPACE [45] using jumping libraries from the killifish genome project [16,17,38].…”

Section: (A) Assembling the N Furzeri Igh Locusmentioning

confidence: 99%

Extreme genomic volatility characterizes the evolution of the immunoglobulin heavy chain locus in cyprinodontiform fishes

Bradshaw

Valenzano

2020

Proc. R. Soc. B.

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The evolution of the adaptive immune system has provided vertebrates with a uniquely sophisticated immune toolkit, enabling them to mount precise immune responses against a staggeringly diverse range of antigens. Like other vertebrates, teleost fishes possess a complex and functional adaptive immune system; however, our knowledge of the complex antigen-receptor genes underlying its functionality has been restricted to a small number of experimental and agricultural species, preventing systematic investigation into how these crucial gene loci evolve. Here, we analyse the genomic structure of the immunoglobulin heavy chain ( IGH ) gene loci in the cyprinodontiforms, a diverse and important group of teleosts present in many different habitats across the world. We reconstruct the complete IGH loci of the turquoise killifish ( Nothobranchius furzeri ) and the southern platyfish ( Xiphophorus maculatus ) and analyse their in vivo gene expression, revealing the presence of species-specific splice isoforms of transmembrane IGHM . We further characterize the IGH constant regions of 10 additional cyprinodontiform species, including guppy, Amazon molly, mummichog and mangrove killifish. Phylogenetic analysis of these constant regions suggests multiple independent rounds of duplication and deletion of the teleost-specific antibody class IGHZ in the cyprinodontiform lineage, demonstrating the extreme volatility of IGH evolution. Focusing on the cyprinodontiforms as a model taxon for comparative evolutionary immunology, this work provides novel genomic resources for studying adaptive immunity and sheds light on the evolutionary history of the adaptive immune system.

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Intra-Species Differences in Population Size shape Life History and Genome Evolution

Cited by 14 publications

References 91 publications

Deleterious mutations show increasing negative effects with age in Drosophila melanogaster

Deleterious mutations show increasing negative effects with age in Drosophila melanogaster

Ancestral transoceanic colonization and recent population reduction in a nonannual killifish from the Seychelles archipelago

Extreme genomic volatility characterizes the evolution of the immunoglobulin heavy chain locus in cyprinodontiform fishes

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