Exon-Capture-Based Phylogeny and Diversification of the Venomous Gastropods (Neogastropoda, Conoidea)

Abdelkrim, Jawad; Aznar-Cormano, Laetitia; Fedosov, Alexander; Kantor, Yuri I.; Livet, Pierre; Phuong, Mark A; Zaharias, Paul; Puillandre, Nicolas

doi:10.1093/molbev/msy144

Cited by 55 publications

(65 citation statements)

References 91 publications

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“…This makes the technique a good candidate to be applied for Southern Ocean benthos studies where the limitation of well-preserved material is obvious. First studies have shown that the technique can offer new insights into the phylogeny and diversification of non-target species (e.g., Abdelkrim et al 2018;O'Hara et al 2019). Also population genetic patterns within lineages can be assessed especially when including co-enriched flanking regions of targeted genes (Dömel et al 2019).…”

Section: Introductionmentioning

confidence: 99%

Analyzing drivers of speciation in the Southern Ocean using the sea spider species complex Colossendeis megalonyx as a test case

et al. 2020

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Colossendeis megalonyx Hoek, 1881 has the broadest distribution of all sea spiders in the Southern Ocean. Previous studies have detected several evolutionarily young lineages within this taxon and interpreted them as a result of allopatric speciation in a few shelf refuges during glacial maxima. However, alternative scenarios such as ecological speciation in sympatry have rarely been considered or tested. Here, we generated the most extensive genomic and morphometric data set on the C. megalonyx species complex to (i) comprehensively describe species diversity, (ii) explore intraspecific connectivity between populations located around Antarctica, and (iii) systematically test for positive selection indicative of adaptive speciation. We successfully applied a target hybrid enrichment approach and recovered all 1607 genes targeted. Phylogenomic analysis was consistent with previous findings and, moreover, increased the resolution of branching within lineages. We found specimens of phylogenetically well-separated lineages occurring in sympatry to be genetically distinct from each other and gene flow between geographically separated populations of the same lineages to be restricted. Evidence for positive selection was found for four genes associated with structural and neuronal functions. Hence, there is an indication for positive selection in the C. megalonyx species complex, yet its specific contribution to the speciation process remains to be explored further. Finally, morphometric analyses revealed multiple significant differences between lineages, but a clear separation proved difficult. Our study highlights the relevance of positive selection as a potential driver for speciation in the Southern Ocean.

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Section: Introductionmentioning

confidence: 99%

Analyzing drivers of speciation in the Southern Ocean using the sea spider species complex Colossendeis megalonyx as a test case

et al. 2020

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“…Two venom-gland transcriptomes are published (Gonzales and Saloma 2014) that were not used primarily for phylogenetic purposes but for toxin research, because the Turridae are venomous and constitute a group of interest for bioactive compound discovery (Puillandre & Holford 2010). Finally, only one phylogenomic (RAD-seq) study (Abdelkrim et al 2018a) was published for species-delimitation purposes on eight species in the Xenuroturris/Iotyrris complex.…”

Section: Introductionmentioning

confidence: 99%

Data, time and money: evaluating the best compromise for inferring molecular phylogenies of non-model animal taxa

Zaharias

Pante

Gey³

et al. 2020

Molecular Phylogenetics and Evolution

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For over a decade now, High Throughput sequencing (HTS) approaches have revolutionized phylogenetics, both in terms of data production and methodology. While transcriptomes and (reduced) genomes are increasingly used, generating and analyzing HTS datasets remains expensive, time consuming and complex for most nonmodel taxa. Indeed, a literature survey revealed that 74% of the molecular phylogenetics trees published in 2018 are based on data obtained through Sanger sequencing. In this context, our goal was to identify the strategy that would represent the best compromise among costs, time and robustness of the resulting tree. We sequenced and assembled 32 transcriptomes of the marine mollusk family Turridae, considered as a typical nonmodel animal taxon. From these data, we extracted the loci most commonly used in gastropod phylogenies (cox1, 12S, 16S, 28S, h3 and 18S), full mitogenomes, and a reduced nuclear transcriptome representation. With each dataset, we reconstructed phylogenies and compared their robustness and accuracy. We discuss the impact of missing data and the use of statistical tests, tree metrics, and supertree and supermatrix methods to further improve the phylogenetic data acquisition pipelines. We evaluated the overall costs (time and money) in order to identify the best compromise for phylogenetic data sampling in non-model animal taxa. Although sequencing full mitogenomes seems to constitute the best compromise both in terms of costs and node support, they are known to induce biases in phylogenetic reconstructions. Rather, we recommend to systematically include loci commonly used for phylogenetics and taxonomy (i.e. DNA barcodes, rRNA genes, full mitogenomes, etc.) among the other loci when designing baits for capture. [phylogenomics, transcriptomics, high throughput sequencing, Sanger sequencing, non-47 model taxa, Turridae] 48

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“…Intensive efforts to understand the evolutionary relationships of the Conoidea, the most diverse superfamily of the Mollusca, have in recent years resulted in significant advances towards achieving a high-resolution, stable classification of the group. Where, until recently, very few family-level taxa comprised the entire superfamily, numerous studies have since refined the classification framework to now encompass 18 families (Bouchet et al 2011;Puillandre et al 2011;Abdelkrim et al 2018). While the taxonomic integrity of a few, most notably the Borsoniidae, appears fractious (Abdelkrim et al 2018), the majority are welldefined molecular lineages now subject to ongoing taxonomical scrutiny in light of this rapid nomenclatural proliferation.…”

Section: Introductionmentioning

confidence: 99%

“…Where, until recently, very few family-level taxa comprised the entire superfamily, numerous studies have since refined the classification framework to now encompass 18 families (Bouchet et al 2011;Puillandre et al 2011;Abdelkrim et al 2018). While the taxonomic integrity of a few, most notably the Borsoniidae, appears fractious (Abdelkrim et al 2018), the majority are welldefined molecular lineages now subject to ongoing taxonomical scrutiny in light of this rapid nomenclatural proliferation. One such family is the monotypic Bouchetispiridae, until recently only known from New Caledonia, and recognised as sister group to the conchologically very different Mitromorphidae (Kantor , Strong , et al 2012).…”

Section: Introductionmentioning

confidence: 99%

Bouchetispira ponderi n. sp. (Conoidea: Bouchetispiridae), a new deep-sea gastropod from temperate Australia

et al. 2019

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This study reports the first record of the previously monotypic family Bouchetispiridae (Neogastropoda: Conoidea) outside of New Caledonia and provides the taxonomic description of Bouchetispira ponderi n. sp. from deep waters off the coast of New South Wales, Australia. Molecular analysis based on COI, 16S and 12S mitochondrial markers confirms its placement within the family, which is corroborated based on strong similarities of the shell and hypodermic radula to its sister taxon Bouchetispira vitrea. B. ponderi differs from the latter with regards to its shouldered, distinctly less convex whorls and a thicker, more opaque shell, as well as in details of the radula. Furthermore, the molecular results presented herein clearly support its recognition as a new species. B. ponderi bears remarkable similarities in shell morphology to Belomitra pacifica (Belomitridae), adding to the notion of rampant and complex shell homoplasy in the Neogastropoda.

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Exon-Capture-Based Phylogeny and Diversification of the Venomous Gastropods (Neogastropoda, Conoidea)

Cited by 55 publications

References 91 publications

Analyzing drivers of speciation in the Southern Ocean using the sea spider species complex Colossendeis megalonyx as a test case

Analyzing drivers of speciation in the Southern Ocean using the sea spider species complex Colossendeis megalonyx as a test case

Data, time and money: evaluating the best compromise for inferring molecular phylogenies of non-model animal taxa

Bouchetispira ponderi n. sp. (Conoidea: Bouchetispiridae), a new deep-sea gastropod from temperate Australia

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