Giada Ferrari scite author profile

Drosophila melanogaster is a valuable invertebrate model for viral infection and antiviral immunity, and is a focus for studies of insect-virus coevolution. Here we use a metagenomic approach to identify more than 20 previously undetected RNA viruses and a DNA virus associated with wild D. melanogaster. These viruses not only include distant relatives of known insect pathogens but also novel groups of insect-infecting viruses. By sequencing virus-derived small RNAs, we show that the viruses represent active infections of Drosophila. We find that the RNA viruses differ in the number and properties of their small RNAs, and we detect both siRNAs and a novel miRNA from the DNA virus. Analysis of small RNAs also allows us to identify putative viral sequences that lack detectable sequence similarity to known viruses. By surveying >2,000 individually collected wild adult Drosophila we show that more than 30% of D. melanogaster carry a detectable virus, and more than 6% carry multiple viruses. However, despite a high prevalence of the Wolbachia endosymbiont—which is known to be protective against virus infections in Drosophila—we were unable to detect any relationship between the presence of Wolbachia and the presence of any virus. Using publicly available RNA-seq datasets, we show that the community of viruses in Drosophila laboratories is very different from that seen in the wild, but that some of the newly discovered viruses are nevertheless widespread in laboratory lines and are ubiquitous in cell culture. By sequencing viruses from individual wild-collected flies we show that some viruses are shared between D. melanogaster and D. simulans. Our results provide an essential evolutionary and ecological context for host–virus interaction in Drosophila, and the newly reported viral sequences will help develop D. melanogaster further as a model for molecular and evolutionary virus research.

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Graph-Theoretic Approach and Sound Engineering Principles for Design of District Metered Areas

Ferrari

Savić

Becciu

2014

J. Water Resour. Plann. Manage.

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5The design of District Metered Areas (DMAs) in existing water distribution networks, 6 especially in urban areas, involves a high number of decision variables and the effects of 7 implementing them in districts have to be evaluated, in order not to affect the quality of the 8 service to customers. 9A new methodology for designing a given number of districts in looped water 10 distribution networks, is proposed here. It is based on graph theory and takes into account 11 some important DMA design criteria: the maximum and minimum size recommended for a 12 district, the connectedness of each district to the water supply source and the absence of links 13 between the districts: therefore it allows the creation of DMAs that are independent one from 14 another. 15A recursive bisection procedure has been applied to create districts, while an 16 algorithm for graph traversal has been used to verify whether each district can be reached 17 from the water source and connectivity between the nodes. 18The successful application of the proposed methodology to a case study has proved its 19 effectiveness for District Metered Areas design in real urban water distribution networks.

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The discovery, distribution and evolution of viruses associated with Drosophila melanogaster

Webster

Waldron

Robertson

et al. 2015

Preprint

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Drosophila melanogaster is a valuable invertebrate model for viral infection and antiviral immunity, and is a focus for studies of insect-virus coevolution. Here we use a metagenomic approach to identify more than 20 previously undetected RNA viruses and a DNA virus associated with wild D. melanogaster. These viruses not only include distant relatives of known insect pathogens, but also novel groups of insect-infecting viruses. By sequencing virus-derived small RNAs we show that the viruses represent active infections of Drosophila. We find that the RNA viruses differ in the number and properties of their small RNAs, and we detect both siRNAs and a novel miRNA from the DNA virus. Analysis of small RNAs also allows us to identify putative viral sequences that lack detectable sequence similarity to known viruses. By surveying >2000 individually collected wild adult Drosophila we show that more than 30% of D. melanogaster carry a detectable virus, and more than 6% carry multiple viruses. However, despite a high prevalence of the Wolbachia endosymbiontwhich is known to be protective against virus infections in Drosophila-we were unable to detect any relationship between the presence of Wolbachia and the presence of any virus. Using publicly available RNA-seq datasets we show that the community of viruses in Drosophila laboratories is very different from that seen in the wild, but that some of the newly discovered viruses are nevertheless widespread in laboratory lines and are ubiquitous in cell culture. By sequencing viruses from individual wild-collected flies we show that some viruses are shared between D. melanogaster and D. simulans. Our results provide an essential evolutionary and ecological context for host-virus interaction in Drosophila, and the newly reported viral sequences will help develop D. melanogaster further as a model for molecular and evolutionary virus research. DATA AVAILABILITYAll of the relevant data can be found within the paper and its Supporting Information files, with the exception of raw metagenomic sequence data which are deposited at NCBI Sequence Read Archive (SRP056120), and sequence data which are deposited at Genbank (KP714070-KP714108,

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Variola virus genome sequenced from an eighteenth-century museum specimen supports the recent origin of smallpox

Ferrari

Neukamm

Baalsrud

et al. 2020

Phil. Trans. R. Soc. B

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Smallpox, caused by the variola virus (VARV), was a highly virulent disease with high mortality rates causing a major threat for global human health until its successful eradication in 1980. Despite previously published historic and modern VARV genomes, its past dissemination and diversity remain debated. To understand the evolutionary history of VARV with respect to historic and modern VARV genetic variation in Europe, we sequenced a VARV genome from a well-described eighteenth-century case from England (specimen P328). In our phylogenetic analysis, the new genome falls between the modern strains and another historic strain from Lithuania, supporting previous claims of larger diversity in early modern Europe compared to the twentieth century. Our analyses also resolve a previous controversy regarding the common ancestor between modern and historic strains by confirming a later date around the seventeenth century. Overall, our results point to the benefit of historic genomes for better resolution of past VARV diversity and highlight the value of such historic genomes from around the world to further understand the evolutionary history of smallpox as well as related diseases. This article is part of the theme issue ‘Insights into health and disease from ancient biomolecules’.

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The preservation of ancient DNA in archaeological fish bone

Ferrari

Cuevas

Gondek-Wyrozemska

et al. 2021

Journal of Archaeological Science

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An accurate assignment test for extremely low-coverage whole-genome sequence data

Ferrari

Atmore

Jentoft

et al. 2021

Preprint

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Genomic assignment tests can provide important diagnostic biological characteristics, such as population of origin or ecotype. In ancient DNA research, such characters can provide further information on population continuity, evolution, climate change, species migration, or trade, depending on archaeological context. Yet, assignment tests often rely on moderate- to high-coverage sequence data, which can be difficult to obtain for many ancient specimens and in ecological studies, which often use sequencing techniques such as ddRAD to bypass the need for costly whole-genome sequencing. We have developed a novel approach that efficiently assigns biologically relevant information (such as population identity or structural variants) in extremely low-coverage sequence data. First, we generate databases from existing reference data using a subset of diagnostic Single Nucleotide Polymorphisms (SNPs) associated with a biological characteristic. Low coverage alignment files from ancient specimens are subsequently compared to these databases to ascertain allelic state yielding a joint probability for each association. To assess the efficacy of this approach, we assigned inversion haplotypes and population identity in several species including Heliconius butterflies, Atlantic herring, and Atlantic cod. We used both modern and ancient specimens, including the first whole-genome sequence data recovered from ancient herring bones. The method accurately assigns biological characteristics, including population membership, using extremely low-coverage (e.g. 0.0001x fold) based on genome-wide SNPs. This approach will therefore increase the number of ancient samples in ecological and bioarchaeological research for which relevant biological information can be obtained.

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Economic Performance of DMAs in Water Distribution Systems

Ferrari

Savić

2015

Procedia Engineering

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Design and Performance of District Metering Areas in Water Distribution Systems

Savić¹,

Ferrari²

2014

Procedia Engineering

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Giada Ferrari

The Discovery, Distribution, and Evolution of Viruses Associated with Drosophila melanogaster

Graph-Theoretic Approach and Sound Engineering Principles for Design of District Metered Areas

The discovery, distribution and evolution of viruses associated with Drosophila melanogaster

Variola virus genome sequenced from an eighteenth-century museum specimen supports the recent origin of smallpox

The preservation of ancient DNA in archaeological fish bone

An accurate assignment test for extremely low-coverage whole-genome sequence data

Economic Performance of DMAs in Water Distribution Systems

Design and Performance of District Metering Areas in Water Distribution Systems

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