Your search keyword '"Bonfiglio, Silvia"' showing total 6 results

1. The Enigmatic Origin of Bovine mtDNA Haplogroup R: Sporadic Interbreeding or an Independent Event of Bos primigenius Domestication in Italy?

Author

Bonfiglio, Silvia, Achilli, Alessandro, Olivieri, Anna, Negrini, Riccardo, Colli, Licia, Liotta, Luigi, Ajmone Marsan, Paolo, Torroni, Antonio, Ferretti, Luca, Negrini, Riccardo (ORCID:0000-0002-8735-0286), Colli, Licia (ORCID:0000-0002-7221-2905), Ajmone Marsan, Paolo (ORCID:0000-0003-3165-4579), Bonfiglio, Silvia, Achilli, Alessandro, Olivieri, Anna, Negrini, Riccardo, Colli, Licia, Liotta, Luigi, Ajmone Marsan, Paolo, Torroni, Antonio, Ferretti, Luca, Negrini, Riccardo (ORCID:0000-0002-8735-0286), Colli, Licia (ORCID:0000-0002-7221-2905), and Ajmone Marsan, Paolo (ORCID:0000-0003-3165-4579)

Published

2010

2. Mitogenomes from Egyptian Cattle Breeds: New Clues on the Origin of Haplogroup Q and the Early Spread of Bos taurus from the Near East.

Author

Olivieri, Anna, Gandini, Francesca, Achilli, Alessandro, Fichera, Alessandro, Rizzi, Ermanno, Bonfiglio, Silvia, Battaglia, Vincenza, Brandini, Stefania, De Gaetano, Anna, El-Beltagi, Ahmed, Lancioni, Hovirag, Agha, Saif, Semino, Ornella, Ferretti, Luca, and Torroni, Antonio

Subjects

GENOMES, CATTLE breeds, DOMESTICATION of animals, NEOLITHIC Period, DEMOGRAPHIC surveys

Abstract

Background: Genetic studies support the scenario that Bos taurus domestication occurred in the Near East during the Neolithic transition about 10 thousand years (ky) ago, with the likely exception of a minor secondary event in Italy. However, despite the proven effectiveness of whole mitochondrial genome data in providing valuable information concerning the origin of taurine cattle, until now no population surveys have been carried out at the level of mitogenomes in local breeds from the Near East or surrounding areas. Egypt is in close geographic and cultural proximity to the Near East, in particular the Nile Delta region, and was one of the first neighboring areas to adopt the Neolithic package. Thus, a survey of mitogenome variation of autochthonous taurine breeds from the Nile Delta region might provide new insights on the early spread of cattle rearing outside the Near East. Methodology: Using Illumina high-throughput sequencing we characterized the mitogenomes from two cattle breeds, Menofi (N = 17) and Domiaty (N = 14), from the Nile Delta region. Phylogenetic and Bayesian analyses were subsequently performed. Conclusions: Phylogenetic analyses of the 31 mitogenomes confirmed the prevalence of haplogroup T1, similar to most African cattle breeds, but showed also high frequencies for haplogroups T2, T3 and Q1, and an extremely high haplotype diversity, while Bayesian skyline plots pointed to a main episode of population growth ~12.5 ky ago. Comparisons of Nile Delta mitogenomes with those from other geographic areas revealed that (i) most Egyptian mtDNAs are probably direct local derivatives from the founder domestic herds which first arrived from the Near East and the extent of gene flow from and towards the Nile Delta region was limited after the initial founding event(s); (ii) haplogroup Q1 was among these founders, thus proving that it underwent domestication in the Near East together with the founders of the T clades. [ABSTRACT FROM AUTHOR]

Published

2015

3. Characterisation and Validation of Insertions and Deletions in 173 Patient Exomes.

Author

Lescai, Francesco, Bonfiglio, Silvia, Bacchelli, Chiara, Chanudet, Estelle, Waters, Aoife, Sisodiya, Sanjay M., Kasperavičiū tė, Dalia, Williams, Julie, Harold, Denise, Hardy, John, Kleta, Robert, Cirak, Sebahattin, Williams, Richard, Achermann, John C., Anderson, John, Kelsell, David, Vulliamy, Tom, Houlden, Henry, Wood, Nicholas, and Sheerin, Una

Subjects

*GENOMES, *GENES, *NUCLEOTIDES, *DISEASES, *HEMOGLOBIN polymorphisms

Abstract

Recent advances in genomics technologies have spurred unprecedented efforts in genome and exome re-sequencing aiming to unravel the genetic component of rare and complex disorders. While in rare disorders this allowed the identification of novel causal genes, the missing heritability paradox in complex diseases remains so far elusive. Despite rapid advances of next-generation sequencing, both the technology and the analysis of the data it produces are in its infancy. At present there is abundant knowledge pertaining to the role of rare single nucleotide variants (SNVs) in rare disorders and of common SNVs in common disorders. Although the 1,000 genome project has clearly highlighted the prevalence of rare variants and more complex variants (e.g. insertions, deletions), their role in disease is as yet far from elucidated. We set out to analyse the properties of sequence variants identified in a comprehensive collection of exome re-sequencing studies performed on samples from patients affected by a broad range of complex and rare diseases (N = 173). Given the known potential for Loss of Function (LoF) variants to be false positive, we performed an extensive validation of the common, rare and private LoF variants identified, which indicated that most of the private and rare variants identified were indeed true, while common novel variants had a significantly higher false positive rate. Our results indicated a strong enrichment of very low-frequency insertion/deletion variants, so far under-investigated, which might be difficult to capture with low coverage and imputation approaches and for which most of study designs would be under-powered. These insertions and deletions might play a significant role in disease genetics, contributing specifically to the underlining rare and private variation predicted to be discovered through next generation sequencing. [ABSTRACT FROM AUTHOR]

Published

2012

4. Origin and Spread of Bos taurus: New Clues from Mitochondrial Genomes Belonging to Haplogroup T1.

Author

Bonfiglio, Silvia, Ginja, Catarina, De Gaetano, Anna, Achilli, Alessandro, Olivieri, Anna, Colli, Licia, Tesfaye, Kassahun, Agha, Saif Hassan, Gama, Luis T., Cattonaro, Federica, Penedo, M. Cecilia T, Ajmone-Marsan, Paolo, Torroni, Antonio, and Ferretti, Luca

Subjects

*CATTLE, *GENOMES, *GENOMICS, *GENETICS, *DNA, *MOLECULAR genetics, *MITOCHONDRIA, *NUCLEIC acids

Abstract

Background: Most genetic studies on modern cattle have established a common origin for all taurine breeds in the Near East, during the Neolithic transition about 10 thousand years (ka) ago. Yet, the possibility of independent and/or secondary domestication events is still debated and is fostered by the finding of rare mitochondrial DNA (mtDNA) haplogroups like P, Q and R. Haplogroup T1, because of its geographic distribution, has been the subject of several investigations pointing to a possible independent domestication event in Africa and suggesting a genetic contribution of African cattle to the formation of Iberian and Creole cattle. Whole mitochondrial genome sequence analysis, with its proven effectiveness in improving the resolution of phylogeographic studies, is the most appropriate tool to investigate the origin and structure of haplogroup T1. Methodology: A survey of >2200 bovine mtDNA control regions representing 28 breeds (15 European, 10 African, 3 American) identified 281 subjects belonging to haplogroup T1. Fifty-four were selected for whole mtDNA genome sequencing, and combined with ten T1 complete sequences from previous studies into the most detailed T1 phylogenetic tree available to date. Conclusions: Phylogenetic analysis of the 64 T1 mitochondrial complete genomes revealed six distinct sub-haplogroups (T1a-T1f). Our data support the overall scenario of a Near Eastern origin of the T1 sub-haplogroups from as much as eight founding T1 haplotypes. However, the possibility that one sub-haplogroup (T1d) arose in North Africa, in domesticated stocks, shortly after their arrival from the Near East, can not be ruled out. Finally, the previously identified "African-derived American" (AA) haplotype turned out to be a sub-clade of T1c (T1c1a1). This haplotype was found here for the first time in Africa (Egypt), indicating that it probably originated in North Africa, reached the Iberian Peninsula and sailed to America, with the first European settlers. [ABSTRACT FROM AUTHOR]

Published

2012

5. The Multifaceted Origin of Taurine Cattle Reflected by the Mitochondrial Genome.

Author

Achilli, Alessandro, Bonfiglio, Silvia, Olivieri, Anna, Malusà, Arianna, Pala, Maria, Kashani, Baharak Hooshiar, Perego, Ugo A., Ajmone-Marsan, Paolo, Liotta, Luigi, Semino, Ornella, Bandelt, Hans-Jürgen, Ferretti, Luca, and Torroni, Antonio

Subjects

*TAURINE, *CATTLE, *URUS, *DOMESTICATION of animals, *MITOCHONDRIAL DNA, *GENOMES, *DOMESTIC animals

Abstract

A Neolithic domestication of taurine cattle in the Fertile Crescent from local aurochsen (Bos primigenius) is generally accepted, but a genetic contribution from European aurochsen has been proposed. Here we performed a survey of a large number of taurine cattle mitochondrial DNA (mtDNA) control regions from numerous European breeds confirming the overall clustering within haplogroups (T1, T2 and T3) of Near Eastern ancestry, but also identifying eight mtDNAs (1.3%) that did not fit in haplogroup T. Sequencing of the entire mitochondrial genome showed that four mtDNAs formed a novel branch (haplogroup R) which, after the deep bifurcation that gave rise to the taurine and zebuine lineages, constitutes the earliest known split in the mtDNA phylogeny of B. primigenius. The remaining four mtDNAs were members of the recently discovered haplogroup Q. Phylogeographic data indicate that R mtDNAs were derived from female European aurochsen, possibly in the Italian Peninsula, and sporadically included in domestic herds. In contrast, the available data suggest that Q mtDNAs and T subclades were involved in the same Neolithic event of domestication in the Near East. Thus, the existence of novel (and rare) taurine haplogroups highlights a multifaceted genetic legacy from distinct B. primigenius populations. Taking into account that the maternally transmitted mtDNA tends to underestimate the extent of gene flow from European aurochsen, the detection of the R mtDNAs in autochthonous breeds, some of which are endangered, identifies an unexpected reservoir of genetic variation that should be carefully preserved. [ABSTRACT FROM AUTHOR]

Published

2009

6. The enigmatic origin of bovine mtDNA haplogroup R: sporadic interbreeding or an independent event of Bos primigenius domestication in Italy?

Author

Bonfiglio S, Achilli A, Olivieri A, Negrini R, Colli L, Liotta L, Ajmone-Marsan P, Torroni A, and Ferretti L

Subjects

Animals, Cattle, Crosses, Genetic, Evolution, Molecular, Genetic Variation, Genome, Mitochondrial, Haplotypes, Italy, Likelihood Functions, Models, Genetic, Phylogeny, Polymerase Chain Reaction, Ruminants genetics, Animals, Domestic genetics, DNA, Mitochondrial genetics

Abstract

Background: When domestic taurine cattle diffused from the Fertile Crescent, local wild aurochsen (Bos primigenius) were still numerous. Moreover, aurochsen and introduced cattle often coexisted for millennia, thus providing potential conditions not only for spontaneous interbreeding, but also for pastoralists to create secondary domestication centers involving local aurochs populations. Recent mitochondrial genomes analyses revealed that not all modern taurine mtDNAs belong to the shallow macro-haplogroup T of Near Eastern origin, as demonstrated by the detection of three branches (P, Q and R) radiating prior to the T node in the bovine phylogeny. These uncommon haplogroups represent excellent tools to evaluate if sporadic interbreeding or even additional events of cattle domestication occurred., Methodology: The survey of the mitochondrial DNA (mtDNA) control-region variation of 1,747 bovine samples (1,128 new and 619 from previous studies) belonging to 37 European breeds allowed the identification of 16 novel non-T mtDNAs, which after complete genome sequencing were confirmed as members of haplogroups Q and R. These mtDNAs were then integrated in a phylogenetic tree encompassing all available P, Q and R complete mtDNA sequences., Conclusions: Phylogenetic analyses of 28 mitochondrial genomes belonging to haplogroups P (N = 2), Q (N = 16) and R (N = 10) together with an extensive survey of all previously published mtDNA datasets revealed major similarities between haplogroups Q and T. Therefore, Q most likely represents an additional minor lineage domesticated in the Near East together with the founders of the T subhaplogroups. Whereas, haplogroup R is found, at least for the moment, only in Italy and nowhere else, either in modern or ancient samples, thus supporting an origin from European aurochsen. Haplogroup R could have been acquired through sporadic interbreeding of wild and domestic animals, but our data do not rule out the possibility of a local and secondary event of B. primigenius domestication in Italy.

Published

2010