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129 results on '"Rota Stabelli O"'

1. Molecular approaches to the study of ecdysozoan evolution

Author

Rota Stabelli, O.

Subjects
576.8
Abstract

The Ecdysozoa is a large clade of animals comprising the vast majority of living species and some of the most studied invertebrate models, including fruitflies and nematodes. Some of the relationships between major ecdysozoan groups remain uncertain, however, undermining comparative studies and impairing our understanding of their evolution. One hotly debated problem is the position of myriapods which have been recently grouped according to molecules with chelicerates and not with insects and crustaceans as predicted by morphological evidence. Other disputed problems are the position of tardigrades, the position of hexapods within the crustaceans as well as the mutual affinities of the nematodes and priapulid worms. Molecular systematics of the ecdysozoans is complicated by rapid divergence of the main lineages (possibly evidenced in the Cambrian explosion) followed by a subsequent long period of evolution. This may have resulted in a dilution of the historical phylogenetic signal and an increased likelihood of encountering systematic errors of tree reconstruction. This problem is exacerbated by many lineages being poorly represented in current molecular datasets, as sequencing efforts have been biased toward lab models and economically relevant species. In order to overcome problems of systematic error, I have assembled various large mitochondrial and phylogenomic datasets, including new data from undersampled tardigrades, onychophorans and especially myriapods. I analysed these datasets using the most recent evolutionary models. I have developed two new models in order to describe the evolutionary processes of metazoan mitochondrial proteins more accurately. My analyses of multiple datasets suggest that the grouping of myriapods plus chelicerates found by previous authors is likely to be the result of systematic errors; I find support for a closer relationships between myriapods and a group of insects plus crustaceans (the Mandibulata hypothesis). My analyses also support a paraphyletic origin of Cycloenuralia (nematodes and priapulids) and a sister group relationships between tardigrades, onychophorans and euarthropods in accordance with a single origin of legged ecdysozoans, the Panarthropoda. Finally, results support a monophyletic group of hemimetabolan insects. The majority of the results reconcile molecules and morphology, while others shade new light onto arthropod systematics. The evolutionary implications of these systematic findings as well as methodological advances are discussed.

Published
2010

2. The complete mitogenome of the European mantis, Mantis religiosa, from Italy: implications for the origin of North American mantis population

Author

Luchetti A., Ometto L., Rota-Stabelli O., Luchetti A., Ometto L., and Rota-Stabelli O.

Subjects
Mantidae, Mantis religiosa, mitogenome, time-calibrated phylogeny, Mitogenome, Settore BIO/05 - ZOOLOGIA, Time-calibrated phylogeny
Abstract

The European mantis, Mantis religiosa L. (Mantodea Mantidae), is distributed all over Southern Europe, Africa and Asia, and has been reported as alien species in North America. Here we present the mitogenome sequence of an Italian individual and compare it with previously sequenced Chinese and Canadian samples. The assembled mitogenome has a length of 15,530 nucleotides and includes 13 protein coding genes, two ribosomal RNA genes, 23 tRNA genes (including the additional Arginine tRNA already observed in other M. religiosa mitogenomes), and the control region. Based on the inferred phylogenetic relationships, the Canadian sample is more closely related to the Italian than to the Chinese one, in line with the putative European origin of the North American invasive population. Time-calibrated phylogeny dated the divergence among extant European Mantis lineages at 2.33 million years ago, consistent with the first appearance of M. religiosa fossils. Our results support a European origin of the North American M. religiosa population and suggest that selective processes acting on mitogenome may have contributed to its adaptation in the new area.

Published
2021

3. Analysis of 1321 Eubacterium rectale genomes from metagenomes uncovers complex phylogeographic population structure and subspecies functional adaptations

Author

Karcher N., Pasolli E., Asnicar F., Huang K. D., Tett A., Manara S., Armanini F., Bain D., Duncan S. H., Louis P., Zolfo M., Manghi P., Valles-Colomer M., Raffaeta R., Rota-Stabelli O., Collado M. C., Zeller G., Falush D., Maixner F., Walker A. W., Huttenhower C., Segata N., Karcher, N., Pasolli, E., Asnicar, F., Huang, K. D., Tett, A., Manara, S., Armanini, F., Bain, D., Duncan, S. H., Louis, P., Zolfo, M., Manghi, P., Valles-Colomer, M., Raffaeta, R., Rota-Stabelli, O., Collado, M. C., Zeller, G., Falush, D., Maixner, F., Walker, A. W., Huttenhower, C., and Segata, N.

Subjects
Adult, Adolescent, lcsh:QH426-470, Population genetics, Biology, Subspecies, Settore BIO/19 - Microbiologia Generale, Genome, Population genomics, Young Adult, 03 medical and health sciences, Genomic island, Humans, Settore M-DEA/01 - Discipline Demoetnoantropologiche, Child, lcsh:QH301-705.5, Aged, 030304 developmental biology, Isolation by distance, 0303 health sciences, Settore BIO/11 - BIOLOGIA MOLECOLARE, Eubacterium, 030306 microbiology, Research, Glycosyltransferases, Infant, Middle Aged, Gastrointestinal Microbiome, Phylogeography, lcsh:Genetics, lcsh:Biology (General), Evolutionary biology, Metagenomics, Child, Preschool, Carbohydrate Metabolism, Metagenome, Genome, Bacterial
Abstract

Background Eubacterium rectale is one of the most prevalent human gut bacteria, but its diversity and population genetics are not well understood because large-scale whole-genome investigations of this microbe have not been carried out. Results Here, we leverage metagenomic assembly followed by a reference-based binning strategy to screen over 6500 gut metagenomes spanning geography and lifestyle and reconstruct over 1300 E. rectale high-quality genomes from metagenomes. We extend previous results of biogeographic stratification, identifying a new subspecies predominantly found in African individuals and showing that closely related non-human primates do not harbor E. rectale. Comparison of pairwise genetic and geographic distances between subspecies suggests that isolation by distance and co-dispersal with human populations might have contributed to shaping the contemporary population structure of E. rectale. We confirm that a relatively recently diverged E. rectale subspecies specific to Europe consistently lacks motility operons and that it is immotile in vitro, probably due to ancestral genetic loss. The same subspecies exhibits expansion of its carbohydrate metabolism gene repertoire including the acquisition of a genomic island strongly enriched in glycosyltransferase genes involved in exopolysaccharide synthesis. Conclusions Our study provides new insights into the population structure and ecology of E. rectale and shows that shotgun metagenomes can enable population genomics studies of microbiota members at a resolution and scale previously attainable only by extensive isolate sequencing.

Published
2020

4. L'agente causale degli scopazzi del melo

Author

Janik, K., Öttl, S., Pedrazzoli, F., Rota Stabelli, O., Tedeschi, R., and Letschka, T.

Subjects
Settore AGR/12 - PATOLOGIA VEGETALE
Published
2020

5. Gli insetti vettori degli scopazzi del melo

Author

Oppedisano, T., Angeli, G., Baldessari, M., Barthel, D., Dallago, G., Fischnaller, S., Ioriatti, C., Mazzoni, V., Mittelberger, C., Öttl, S., Panassiti, B., Pedrazzoli, F., Rota Stabelli, O., Schuler, H., Tedeschi, R., Weil, T., and Anfora, G.

Subjects
Settore AGR/12 - PATOLOGIA VEGETALE
Published
2020

7. The Glossina Genome Cluster: Comparative Genomic Analysis of the Vectors of African Trypanosomes

Author

Andrew G. Parker, Joshua B. Benoit, Vasileios Panagiotis Lenis, Paul O. Mireji, Robert M. Waterhouse, Michael J. Lehane, Kostas Bourtzis, Lino Ometto, Michalkova, Andrew J. Rosendale, Rosaline W. Macharia, Aurélie Hua-Van, Daniel Lawson, Geoffrey M. Attardo, Matthew T. Weirauch, Irene K. Meki, Gareth Maslen, Francesca Scolari, Ernesto Lowy-Gallego, Rota Stabelli O, Grazia Savini, Daniel K. Masiga, Mikkel B. Christensen, Van Den Abbeele J, Brian L. Weiss, Heather G. Marco, Rita V. M. Rio, Denis M. Larkin, Xuyao Zhao, Liliane Schoofs, Guy Caljon, Rosemary Bateta, Martin T. Swain, Alvaro Acosta-Serrano, Richard P. Meisel, Serap Aksoy, David W. Farrow, Aurélien Vigneron, Anna R. Malacrida, Wesley C. Warren, Chad Tomlinson, Irina Matetovici, Adly M. M. Abd-Alla, George Tsiamis, Richard K. Wilson, Patrick Minx, Jelle Caers, James E. Allen, Wang J, Peter Takac, Emily C. Jennings, Wolfgang J. Miller, Clair Rose, and Markus Friedrich

Subjects
Obligate, Odorant binding, Biology, medicine.disease, biology.organism_classification, Animal trypanosomiasis, Genome, Vector-Borne Diseases, Infectious Diseases, Good Health and Well Being, Evolutionary biology, medicine, Genetics, Drosophila melanogaster, Infection, Gene, Sex linkage, Synteny, Biotechnology
Abstract

Background: Tsetse flies (Glossina sp.) are the sole vectors of human and animal trypanosomiasis throughout sub-Saharan Africa. Tsetse are distinguished from other Diptera by unique adaptations, including lactation and the birthing of live young (obligate viviparity), a vertebrate blood specific diet by both sexes and obligate bacterial symbiosis. This work describes comparative analysis of six Glossina genomes representing three sub-genera: Morsitans (G. morsitans morsitans (G.m. morsitans), G. pallidipes, G. austeni), Palpalis (G. palpalis, G. fuscipes) and Fusca (G. brevipalpis) which represent different habitats, host preferences and vectorial capacity. Results: Genomic analyses validate established evolutionary relationships and sub-genera. Syntenic analysis of Glossina relative to Drosophila melanogaster shows reduced structural conservation across the sex-linked X chromosome. Sex linked scaffolds show increased rates of female specific gene expression and lower evolutionary rates relative to autosome associated genes. Tsetse specific genes are enriched in protease, odorant binding and helicase activities. Lactation associated genes are conserved across all Glossina species while male seminal proteins are rapidly evolving. Olfactory and gustatory genes are reduced across the genus relative to other characterized insects. Vision associated Rhodopsin genes show conservation of motion detection/tracking functions and significant variance in the Rhodopsin detecting colors in the blue wavelength ranges. Conclusions: Expanded genomic discoveries reveal the genetics underlying Glossina biology and provide a rich body of knowledge for basic science and disease control. They also provide insight into the evolutionary biology underlying novel adaptations and are relevant to applied aspects of vector control such as trap design and discovery of novel pest and disease control strategies.

Published
2019

22. Evolutionary scenarios for the origin of an Antarctic tardigrade species based on molecular clock analyses and biogeographic data

Author

Guidetti, R., McInnes, S.J., Cesari, M., Rebecchi, L., Rota-Stabelli, O., Guidetti, R., McInnes, S.J., Cesari, M., Rebecchi, L., and Rota-Stabelli, O.

Abstract

The origin of the Antarctic continental extant fauna is a highly debated topic, complicated by the paucity of organisms for which we have clear biogeographic distributions and understanding of their evolutionary timescale. To shed new light on this topic, we coupled molecular clock analyses with biogeographic studies on the heterotardigrade Mopsechiniscus genus. This taxon includes species with endemic distributions in Antarctica and other regions of the southern hemisphere. Molecular dating using different models and calibration priors retrieved similar divergence time for the split between the Antarctic and South American Mopsechiniscus lineages (32–48 Mya) and the estimated age o

Published
2017

32. Wikipedia: with great power comes great (evolutionary) responsibility

Author

Piccoli, C., Di Muni, L., Drago, F., Peronato, A., Chimetto, G., Ligorio, E., Rabuffo, C., Pezzin, E.N., Beber, A., Camerlenghi, E., Clemente, M., Ometto, L., Fusco, G., and Rota Stabelli, O.

Subjects
Settore BIO/05 - ZOOLOGIA, Evolutionary biology, Evoluzione
Published
2015

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