O. Rota Stabelli scite author profile

O. Rota Stabelli

4Publications

38Citation Statements Received

362Citation Statements Given

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Affiliations

University of Trento, Fondazione Edmund Mach

Publications

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Phylogenomics of Opsin Genes in Diptera Reveals Lineage-Specific Events and Contrasting Evolutionary Dynamics in Anopheles and Drosophila

Feuda

Goulty

Zadra

et al. 2021

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Diptera is one of the biggest insect orders and displays a large diversity of visual adaptations. Similarly to other animals, the dipteran visual process is mediated by opsin genes. While the diversity and function of these genes is well studied in key model species, a comprehensive comparative genomic study across the dipteran phylogeny is missing. Here we mined the genomes of 61 dipteran species, reconstructed the evolutionary affinities of 528 opsin genes and determined the selective pressure acting in different species. We found that opsins underwent several lineage-specific events, including an independent expansion of Long Wave Sensitive opsins in flies and mosquitoes, and numerous family-specific duplications and losses. Both the Drosophila and the Anopheles complement is derived in comparison with the ancestral dipteran state. Molecular evolutionary studies suggest that gene turnover rate, overall mutation rate, and site-specific selective pressure are higher in Anopheles than in Drosophila. Overall, our findings indicate an extremely variable pattern of opsin evolution in dipterans, showcasing how two similarly aged radiations, Anopheles and Drosophila, are characterized by contrasting dynamics in the evolution of this gene family. These results provide a foundation for future studies on the dipteran visual system.

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Large‐scale mitogenome sequencing reveals consecutive expansions of domestic taurine cattle and supports sporadic aurochs introgression

Ćurik

Novosel

Brajkovic

et al. 2021

Evolutionary Applications

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The contribution of domestic cattle in human societies is enormous, making cattle, along with other essential benefits, the economically most important domestic animal in the world today. To expand existing knowledge on cattle domestication and mitogenome diversity, we performed a comprehensive complete mitogenome analysis of the species (802 sequences, 114 breeds). A large sample was collected in South‐east Europe, an important agricultural gateway to Europe during Neolithization and a region rich in cattle biodiversity. We found 1725 polymorphic sites (810 singletons, 853 parsimony‐informative sites and 57 indels), 701 unique haplotypes, a haplotype diversity of 0.9995 and a nucleotide diversity of 0.0015. In addition to the dominant T 3 and several rare haplogroups (Q, T 5 , T 4 , T 2 and T 1 ), we have identified maternal line in Austrian Murbodner cattle that possess surviving aurochs’ mitochondria haplotype P 1 that diverged prior to the Neolithization process. This is convincing evidence for rare female‐mediated adaptive introgression of wild aurochs into domesticated cattle in Europe. We revalidated the existing haplogroup classification and provided Bayesian phylogenetic inference with a more precise estimated divergence time than previously available. Occasionally, classification based on partial mitogenomes was not reliable; for example, some individuals with haplogroups P and T 5 were not recognized based on D‐loop information. Bayesian skyline plot estimates (median) show that the earliest population growth began before domestication in cattle with haplogroup T 2 , followed by Q (~10.0–9.5 kyBP), whereas cattle with T 3 (~7.5 kyBP) and T 1 (~3.0–2.5 kyBP) expanded later. Overall, our results support the existence of interactions between aurochs and cattle during domestication and dispersal of cattle in the past, contribute to the conservation of maternal cattle diversity and enable functional analyses of the surviving aurochs P 1 mitogenome.

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Ovipositor transcriptomes reveal an evolutionary conserved mechanism of oviposition substrate choice inDrosophila

Crava¹,

Stacconi²,

Stabelli³

et al. 2016

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The impact of fast radiation on the phylogeny ofBactrocerafruit flies

Valerio

Zadra

Stabelli

et al. 2021

Preprint

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True fruit flies (Tephritidae) include several species that cause extensive damage to agriculture worldwide. Among them, species of the genus Bactrocera are widely studied to understand the traits associated to their invasiveness and ecology. Comparative approaches based on a reliable phylogenetic framework are particularly effective, but, to date, molecular phylogenies of Bactrocera are still controversial. Here, we employed a comprehensive genomic dataset to infer a robust backbone phylogeny of eleven representative Bactrocera species and two outgroups. We further provide the first genome scaled inference of their divergence using calibrated relaxed clock. The results of our analyses support a closer relationship of B. dorsalis to B. latifrons than to B. tryoni, in contrast to all mitochondrial-based phylogenies. By comparing different evolutionary models, we show that this incongruence likely derives from the fast and recent radiation of these species that occurred around 2 million years ago, which may be associated with incomplete lineage sorting and possibly (ongoing) hybridization. These results can serve as basis for future comparative analyses and highlight the utility of using large datasets and efficient phylogenetic approaches to study the evolutionary history of species of economic importance.

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O. Rota Stabelli

Phylogenomics of Opsin Genes in Diptera Reveals Lineage-Specific Events and Contrasting Evolutionary Dynamics in Anopheles and Drosophila

Large‐scale mitogenome sequencing reveals consecutive expansions of domestic taurine cattle and supports sporadic aurochs introgression

Ovipositor transcriptomes reveal an evolutionary conserved mechanism of oviposition substrate choice inDrosophila

The impact of fast radiation on the phylogeny ofBactrocerafruit flies

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