R. Axel W. Wiberg scite author profile

Abstract Genetic variation is the fuel of evolution, with standing genetic variation especially important for short-term evolution and local adaptation. To date, studies of spatiotemporal patterns of genetic variation in natural populations have been challenging, as comprehensive sampling is logistically difficult, and sequencing of entire populations costly. Here, we address these issues using a collaborative approach, sequencing 48 pooled population samples from 32 locations, and perform the first continent-wide genomic analysis of genetic variation in European Drosophila melanogaster. Our analyses uncover longitudinal population structure, provide evidence for continent-wide selective sweeps, identify candidate genes for local climate adaptation, and document clines in chromosomal inversion and transposable element frequencies. We also characterize variation among populations in the composition of the fly microbiome, and identify five new DNA viruses in our samples.

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The Genome and Methylome of a Beetle with Complex Social Behavior,Nicrophorus vespilloides(Coleoptera: Silphidae)

Cunningham

Wiberg

et al. 2015

Genome Biol Evol

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Testing for conserved and novel mechanisms underlying phenotypic evolution requires a diversity of genomes available for comparison spanning multiple independent lineages. For example, complex social behavior in insects has been investigated primarily with eusocial lineages, nearly all of which are Hymenoptera. If conserved genomic influences on sociality do exist, we need data from a wider range of taxa that also vary in their levels of sociality. Here, we present the assembled and annotated genome of the subsocial beetle Nicrophorus vespilloides, a species long used to investigate evolutionary questions of complex social behavior. We used this genome to address two questions. First, do aspects of life history, such as using a carcass to breed, predict overlap in gene models more strongly than phylogeny? We found that the overlap in gene models was similar between N. vespilloides and all other insect groups regardless of life history. Second, like other insects with highly developed social behavior but unlike other beetles, does N. vespilloides have DNA methylation? We found strong evidence for an active DNA methylation system. The distribution of methylation was similar to other insects with exons having the most methylated CpGs. Methylation status appears highly conserved; 85% of the methylated genes in N. vespilloides are also methylated in the hymentopteran Nasonia vitripennis. The addition of this genome adds a coleopteran resource to answer questions about the evolution and mechanistic basis of sociality and to address questions about the potential role of methylation in social behavior.

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Identifying consistent allele frequency differences in studies of stratified populations

et al. 2017

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With increasing application of pooled‐sequencing approaches to population genomics robust methods are needed to accurately quantify allele frequency differences between populations. Identifying consistent differences across stratified populations can allow us to detect genomic regions under selection and that differ between populations with different histories or attributes. Current popular statistical tests are easily implemented in widely available software tools which make them simple for researchers to apply. However, there are potential problems with the way such tests are used, which means that underlying assumptions about the data are frequently violated.These problems are highlighted by simulation of simple but realistic population genetic models of neutral evolution and the performance of different tests are assessed. We present alternative tests (including Generalised Linear Models [GLMs] with quasibinomial error structure) with attractive properties for the analysis of allele frequency differences and re‐analyse a published dataset.The simulations show that common statistical tests for consistent allele frequency differences perform poorly, with high false positive rates. Applying tests that do not confound heterogeneity and main effects significantly improves inference. Variation in sequencing coverage likely produces many false positives and re‐scaling allele frequencies to counts out of a common value or an effective sample size reduces this effect.Many researchers are interested in identifying allele frequencies that vary consistently across replicates to identify loci underlying phenotypic responses to selection or natural variation in phenotypes. Popular methods that have been suggested for this task perform poorly in simulations. Overall, quasibinomial GLMs perform better and also have the attractive feature of allowing correction for multiple testing by standard procedures and are easily extended to other designs.

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Large-scale phylogenomics of the genus Macrostomum (Platyhelminthes) reveals cryptic diversity and novel sexual traits

Brand

Viktorin

Wiberg

et al. 2022

Molecular Phylogenetics and Evolution

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Genomic analysis of EuropeanDrosophila melanogasterpopulations reveals longitudinal structure, continent-wide selection, and previously unknown DNA viruses

Kapun

Staubach

Obbard

et al. 2018

Preprint

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Inter and Intraspecific Genomic Divergence in Drosophila montana Shows Evidence for Cold Adaptation

Parker

Wiberg

Trivedi

et al. 2018

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The genomes of species that are ecological specialists will likely contain signatures of genomic adaptation to their niche. However, distinguishing genes related to ecological specialism from other sources of selection and more random changes is a challenge. Here, we describe the genome of Drosophila montana, which is the most extremely cold-adapted Drosophila species known. We use branch tests to identify genes showing accelerated divergence in contrasts between cold- and warm-adapted species and identify about 250 genes that show differences, possibly driven by a lower synonymous substitution rate in cold-adapted species. We also look for evidence of accelerated divergence between D. montana and D. virilis, a previously sequenced relative, but do not find strong evidence for divergent selection on coding sequence variation. Divergent genes are involved in a variety of functions, including cuticular and olfactory processes. Finally, we also resequenced three populations of D. montana from across its ecological and geographic range. Outlier loci were more likely to be found on the X chromosome and there was a greater than expected overlap between population outliers and those genes implicated in cold adaptation between Drosophila species, implying some continuity of selective process at these different evolutionary scales.

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RNA-Seq of three free-living flatworm species suggests rapid evolution of reproduction-related genes

et al. 2020

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Background The genus Macrostomum consists of small free-living flatworms and contains Macrostomum lignano, which has been used in investigations of ageing, stem cell biology, bioadhesion, karyology, and sexual selection in hermaphrodites. Two types of mating behaviour occur within this genus. Some species, including M. lignano, mate via reciprocal copulation, where, in a single mating, both partners insert their male copulatory organ into the female storage organ and simultaneously donate and receive sperm. Other species mate via hypodermic insemination, where worms use a needle-like copulatory organ to inject sperm into the tissue of the partner. These contrasting mating behaviours are associated with striking differences in sperm and copulatory organ morphology. Here we expand the genomic resources within the genus to representatives of both behaviour types and investigate whether genes vary in their rate of evolution depending on their putative function. Results We present de novo assembled transcriptomes of three Macrostomum species, namely M. hystrix, a close relative of M. lignano that mates via hypodermic insemination, M. spirale, a more distantly related species that mates via reciprocal copulation, and finally M. pusillum, which represents a clade that is only distantly related to the other three species and also mates via hypodermic insemination. We infer 23,764 sets of homologous genes and annotate them using experimental evidence from M. lignano. Across the genus, we identify 521 gene families with conserved patterns of differential expression between juvenile vs. adult worms and 185 gene families with a putative expression in the testes that are restricted to the two reciprocally mating species. Further, we show that homologs of putative reproduction-related genes have a higher protein divergence across the four species than genes lacking such annotations and that they are more difficult to identify across the four species, indicating that these genes evolve more rapidly, while genes involved in neoblast function are more conserved. Conclusions This study improves the genus Macrostomum as a model system, by providing resources for the targeted investigation of gene function in a broad range of species. And we, for the first time, show that reproduction-related genes evolve at an accelerated rate in flatworms.

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Faster rates of molecular sequence evolution in reproduction-related genes and in species with hypodermic sperm morphologies

Wiberg

Brand

Schärer

2021

Preprint

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Sexual selection is expected to drive the evolution of many striking behaviours and morphologies, leaving signatures of selection at loci underlying these phenotypes. However, relatively few studies have contrasted molecular sequence evolution at such loci across lineages that differ in their sexual selection context. Our comparative genomics study of Macrostomum, a large genus of free-living simultaneously hermaphroditic flatworms, takes advantage of functional annotations from the model species, M. lignano, and transcriptome assemblies of 97 congeners. We compare molecular sequence evolution in species with contrasting sperm morphologies, which are strongly associated with multiple convergent shifts in the mating strategy and thus reflect the sexual selection context in Macrostomum. The sperm of most reciprocally mating species carry lateral bristles, likely functioning as anchoring mechanisms against post-copulatory sperm removal. Hypodermically mating species lack these bristles, potentially as adaptations to a different environment experienced by hypodermic sperm. We document faster molecular sequence evolution in reproduction-related, compared to ubiquitously-expressed, genes across all sperm morphologies, consistent with more intense selection acting on the former. Furthermore, we observed faster molecular sequence evolution in species with hypodermic sperm morphologies, in both reproduction-related and ubiquitously-expressed genes. These genome-wide patterns suggest that shifts to hypodermic mating reduce the efficiency of selection, possibly due to higher selfing rates in hypodermically mating species. Moreover, we find little evidence for convergent amino acid changes across species. We provide the first comprehensive comparative analysis of molecular sequence evolution in a group of simultaneously hermaphroditic animals, across well-replicated contrasts of lineages with divergent sperm morphologies.

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R. Axel W. Wiberg

Genomic Analysis of European Drosophila melanogaster Populations Reveals Longitudinal Structure, Continent-Wide Selection, and Previously Unknown DNA Viruses

The Genome and Methylome of a Beetle with Complex Social Behavior,Nicrophorus vespilloides(Coleoptera: Silphidae)

Identifying consistent allele frequency differences in studies of stratified populations

Large-scale phylogenomics of the genus Macrostomum (Platyhelminthes) reveals cryptic diversity and novel sexual traits

Genomic analysis of EuropeanDrosophila melanogasterpopulations reveals longitudinal structure, continent-wide selection, and previously unknown DNA viruses

Inter and Intraspecific Genomic Divergence in Drosophila montana Shows Evidence for Cold Adaptation

RNA-Seq of three free-living flatworm species suggests rapid evolution of reproduction-related genes

Faster rates of molecular sequence evolution in reproduction-related genes and in species with hypodermic sperm morphologies

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