Genome-wide markers reveal a complex evolutionary history involving divergence and introgression in the Abert’s squirrel (Sciurus aberti) species group

Bono, Jeremy M.; Pigage, Helen K.; Wettstein, Peter J.; Prosser, Stephanie A.; Pigage, Jon C.

doi:10.1186/s12862-018-1248-4

Cited by 6 publications

(5 citation statements)

References 54 publications

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“…In rodents, ancient and recent introgression between the Algerian and the house mouse has been found, as well as geographically widespread gene flow between Brown Norway and Himalayan field rats . While mice and rats are the most studied rodent populations, gene flow events have been reported for other rodent species, like squirrels and gerbils, suggesting that admixture is common in this species‐rich order of small‐bodied mammals. This might be true for lagomorphs as well, and likely for some of the more than 1000 bat species, for which genomic resources will become available .…”

Section: Observations In Other Mammalsmentioning

confidence: 99%

Admixture in Mammals and How to Understand Its Functional Implications

2019

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Admixture, the genetic exchange between differentiated populations appears to be common in the history of species, but has not yet been comparatively studied across mammals. This limits the understanding of its mechanisms and potential role in mammalian evolution. The authors want to summarize the current knowledge on admixture in non-human primates, and suggest that it is important to establish a comparative framework for this phenomenon in humans. Genetic observations in domesticated mammals and their wild counterparts are discussed, and a brief global overview on other clades is presented. Based on this, some of the consequences of gene flow, including incompatibilities and their genomic footprint, as well as adaptive introgression are discussed, and suggestions for a functional genomics approach are made. It is proposed that the field is moving beyond descriptive observations in single species, to a comprehensive analysis of admixture and its impact. Admixture is becoming an integral part of mammalian evolution.

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Section: Observations In Other Mammalsmentioning

confidence: 99%

Admixture in Mammals and How to Understand Its Functional Implications

2019

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“…1 ). Molecular phylogenetic analyses place the monotypic Polypodium hydriforme as sister to Myxozoa, forming the Endocnidozoa ( Chang et al, 2015 ; Kayal et al, 2018 ) ( Fig. 1 ).…”

Section: Introductionmentioning

confidence: 99%

“… Phylogenetic tree representing some of the major clades of Cnidaria (based ( Chang et al, 2015 ; Kayal et al, 2018 )). The species sampled in this venomics study were the myxozoans Buddenbrockia plumatellae, Myxobilatus gasterostei and Sphaerospora elegans , the parasitic and free-living Polypodium hydriforme and the free-living staurozoan Calvadosia cruxmelitensis .…”

Section: Introductionmentioning

confidence: 99%

Recruitment of toxin-like proteins with ancestral venom function supports endoparasitic lifestyles of Myxozoa

Hartigan

Jaimes‐Becerra

Okamura

et al. 2021

PeerJ

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Cnidarians are the oldest lineage of venomous animals and use nematocysts to discharge toxins. Whether venom toxins have been recruited to support parasitic lifestyles in the Endocnidozoa (Myxozoa + Polypodium) is, however, unknown. To examine this issue we variously employed transcriptomic, proteomic, associated molecular phylogenies, and localisation studies on representative primitive and derived myxozoans (Malacosporea and Myxosporea, respectively), Polypodium hydriforme, and the free-living staurozoan Calvadosia cruxmelitensis. Our transcriptomics and proteomics analyses provide evidence for expression and translation of venom toxin homologs in myxozoans. Phylogenetic placement of Kunitz type serine protease inhibitors and phospholipase A2 enzymes reveals modification of toxins inherited from ancestral free-living cnidarian toxins, and that venom diversity is reduced in myxozoans concordant with their reduced genome sizes. Various phylogenetic analyses of the Kunitz-type toxin family in Endocnidozoa suggested lineage-specific gene duplications, which offers a possible mechanism for enhancing toxin diversification. Toxin localisation in the malacosporean Buddenbrockia plumatellae substantiates toxin translation and thus illustrates a repurposing of toxin function for endoparasite development and interactions with hosts, rather than for prey capture or defence. Whether myxozoan venom candidates are expressed in transmission stages (e.g. in nematocysts or secretory vesicles) requires further investigation.

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“…Different RADseq and mitochondrial variations associated with admixture have been reported in other taxa [ 97 – 99 ]. The discordance detected in the present work is relevant to the advantage of using a large number of loci to estimate levels of genetic variation [ 20 , 21 ]; notably, different estimates from genome-wide loci and mitochondrial DNA can be obtained for populations that experienced admixture.…”

Section: Discussionmentioning

confidence: 99%

Dynamics behind disjunct distribution, hotspot-edge refugia, and discordant RADseq/mtDNA variability: insights from the Emei mustache toad

Dai

Guo

et al. 2020

BMC Evol Biol

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Background: The distribution of genetic diversity and the underlying processes are important for conservation planning but are unknown for most species and have not been well studied in many regions. In East Asia, the Sichuan Basin and surrounding mountains constitute an understudied region that exhibits a "ring" of high species richness overlapping the eastern edge of the global biodiversity hotspot Mountains of Southwest China. We examine the distributional history and genetic diversification of the Emei mustache toad Leptobrachium boringii, a typical "ring" element characterized by disjunct ranges in the mountains, by integrating time-calibrated gene tree, genetic variability, individual-level clustering, inference of population splitting and mixing from allele frequencies, and paleoclimatic suitability modeling. Results: The results reveal extensive range dynamics, including secondary contact after long-term isolation via westward dispersal accompanied by variability loss. They allow the proposal of a model that combines recurrent contractions caused by Quaternary climatic changes and some failed expansions under suitable conditions for explaining the shared disjunct distribution pattern. Providing exceptional low-elevation habitats in the hotspot area, the eastern edge harbors both long-term refugial and young immigrant populations. This finding and a synthesis of evidence from other taxa demonstrate that a certain contributor to biodiversity, one that preserves and receives low-elevation elements of the east in this case, can be significant for only a particular part of a hotspot. By clarifying the low variability of these refugial populations, we show that discordant mitochondrial estimates of diversity can be obtained for populations that experienced admixture, which would have unlikely left proportional immigrant alleles for each locus.

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Genome-wide markers reveal a complex evolutionary history involving divergence and introgression in the Abert’s squirrel (Sciurus aberti) species group

Cited by 6 publications

References 54 publications

Admixture in Mammals and How to Understand Its Functional Implications

Admixture in Mammals and How to Understand Its Functional Implications

Recruitment of toxin-like proteins with ancestral venom function supports endoparasitic lifestyles of Myxozoa

Dynamics behind disjunct distribution, hotspot-edge refugia, and discordant RADseq/mtDNA variability: insights from the Emei mustache toad

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