Your search keyword '"Luiselli D"' showing total 15 results

1. Metagenomic characterisation of gut microbiota in IBS patients

Author

Sciavilla, P, Strati, F, Prati, G, Fornari, F, Modesto, M, Luiselli, D, Cavalieri, D, De Filippo, C, Mattarelli, P, Prati, GM, Mattarelli, PP, Sciavilla, P, Strati, F, Prati, G, Fornari, F, Modesto, M, Luiselli, D, Cavalieri, D, De Filippo, C, Mattarelli, P, Prati, GM, and Mattarelli, PP

Published

2016

2. Fine dissection of human mitochondrial DNA haplogroup HV lineages reveals paleolithic signatures from European Glacial refugia

Author

De Fanti, S. (Sara), Barbieri, C. (Chiara), Sarno, S. (Stefania), Sevini, F. (Federica), Vianello, D. (Dario), Tamm, E. (Erika), Metspalu, E. (Ene), Oven, M. (Mannis) van, Hübner, A. (Alexander), Sazzini, M. (Marco), Franceschi, C. (Claudio), Pettener, D. (Davide), Luiselli, D. (Donata), De Fanti, S. (Sara), Barbieri, C. (Chiara), Sarno, S. (Stefania), Sevini, F. (Federica), Vianello, D. (Dario), Tamm, E. (Erika), Metspalu, E. (Ene), Oven, M. (Mannis) van, Hübner, A. (Alexander), Sazzini, M. (Marco), Franceschi, C. (Claudio), Pettener, D. (Davide), and Luiselli, D. (Donata)

Abstract

Genetic signatures from the Paleolithic inhabitants of Eurasia can be traced from the early divergent mitochondrial DNA lineages still present in contemporary human populations. Previous studies already suggested a pre-Neolithic diffusion of mitochondrial haplogroup HV∗(xH,V) lineages, a relatively rare class of mtDNA types that includes parallel branches mainly distributed across Europe and West Asia with a certain degree of structure. Up till now, variation within haplogroup HV was addressed mainly by analyzing sequence data from the mtDNA control region, except for specific sub-branches, such as HV4 or the widely distributed haplogroups H and V. In this study, we present a revised HV topology based on full mtDNA genome data, and we include a comprehensive dataset consisting of 316 complete mtDNA sequences including 60 new samples from the Italian peninsula, a previously underrepresented geographic area. We highlight points of instability in the particular topology of this haplogroup, reconstructed with BEAST-generated trees and networks. We also confirm a major lineage expansion that probably followed the Late Glacial Maximum and preceded Neolithic population movements. We finally observe that Italy harbors a reservoir of mtDNA diversity, with deep-rooting HV lineages often related to sequences present in the Caucasus and the Middle East. The resulting hypothesis of a glacial refugium in Southern Italy has implications for the understanding of late Paleolithic population movements and is discussed within the archaeological cultural shifts occurred over the entire continent.

Published

2015

3. Shared language, diverging genetic histories: high-resolution analysis of Y-chromosome variability in Calabrian and Sicilian Arbereshe

Author

Sarno, S, Tofanelli, S, De Fanti, S, Quagliariello, A, Bortolini, E, Ferri, G, Anagnostou, P, BRISIGHELLI, FRANCESCA, Capelli, C, Tagarelli, G, Sineo, L, Luiselli, D, Boattini, A, Pettener, D, Sarno, S, Tofanelli, S, De Fanti, S, Quagliariello, A, Bortolini, E, Ferri, G, Anagnostou, P, BRISIGHELLI, FRANCESCA, Capelli, C, Tagarelli, G, Sineo, L, Luiselli, D, Boattini, A, and Pettener, D

Published

2015

4. The Greeks in the West: genetic signatures of the Hellenic colonisation in southern Italy and Sicily

Author

Tofanelli, S, BRISIGHELLI, FRANCESCA, Anagnostou, P, Busby, GBJ, Ferri, G, Thomas, MG, Taglioli, L, Rudan, I, Zemunik, T, Hayward, C, Bolnick, D, Romano, V, Cali, F, Luiselli, D, Shepherd, GB, Tusa, S, Facella, A, Capelli, C, Tofanelli, S, BRISIGHELLI, FRANCESCA, Anagnostou, P, Busby, GBJ, Ferri, G, Thomas, MG, Taglioli, L, Rudan, I, Zemunik, T, Hayward, C, Bolnick, D, Romano, V, Cali, F, Luiselli, D, Shepherd, GB, Tusa, S, Facella, A, and Capelli, C

Published

2015

5. Fine Dissection of Human Mitochondrial DNA Haplogroup HV Lineages Reveals Paleolithic Signatures from European Glacial Refugia

Author

De Fanti, S, Barbieri, C, Sarno, S, Sevini, F, Vianello, D, Tamm, E, Metspalu, E, Oven, Mannis, Hubner, A, Sazzini, M, Franceschi, C, Pettener, D, Luiselli, D, De Fanti, S, Barbieri, C, Sarno, S, Sevini, F, Vianello, D, Tamm, E, Metspalu, E, Oven, Mannis, Hubner, A, Sazzini, M, Franceschi, C, Pettener, D, and Luiselli, D

Abstract

Genetic signatures from the Paleolithic inhabitants of Eurasia can be traced from the early divergent mitochondrial DNA lineages still present in contemporary human populations. Previous studies already suggested a pre-Neolithic diffusion of mitochondrial haplogroup HV*(xH, V) lineages, a relatively rare class of mtDNA types that includes parallel branches mainly distributed across Europe and West Asia with a certain degree of structure. Up till now, variation within haplogroup HV was addressed mainly by analyzing sequence data from the mtDNA control region, except for specific sub-branches, such as HV4 or the widely distributed haplogroups H and V. In this study, we present a revised HV topology based on full mtDNA genome data, and we include a comprehensive dataset consisting of 316 complete mtDNA sequences including 60 new samples from the Italian peninsula, a previously underrepresented geographic area. We highlight points of instability in the particular topology of this haplogroup, reconstructed with BEAST-generated trees and networks. We also confirm a major lineage expansion that probably followed the Late Glacial Maximum and preceded Neolithic population movements. We finally observe that Italy harbors a reservoir of mtDNA diversity, with deep-rooting HV lineages often related to sequences present in the Caucasus and the Middle East. The resulting hypothesis of a glacial refugium in Southern Italy has implications for the understanding of late Paleolithic population movements and is discussed within the archaeological cultural shifts occurred over the entire continent.

Published

2015

6. The Greeks in the West: genetic signatures of the Hellenic colonisation in southern Italy and Sicily

Author

Tofanelli, S, Brisighelli, Francesca, Anagnostou, P, Busby, Gbj, Ferri, G, Thomas, Mg, Taglioli, L, Rudan, I, Zemunik, T, Hayward, C, Bolnick, D, Romano, V, Cali, F, Luiselli, D, Shepherd, Gb, Tusa, S, Facella, A, Capelli, C., Brisighelli, Francesca (ORCID:0000-0001-5469-4413), Tofanelli, S, Brisighelli, Francesca, Anagnostou, P, Busby, Gbj, Ferri, G, Thomas, Mg, Taglioli, L, Rudan, I, Zemunik, T, Hayward, C, Bolnick, D, Romano, V, Cali, F, Luiselli, D, Shepherd, Gb, Tusa, S, Facella, A, Capelli, C., and Brisighelli, Francesca (ORCID:0000-0001-5469-4413)

Abstract

Greek colonisation of South Italy and Sicily (Magna Graecia) was a defining event in European cultural history, although the demographic processes and genetic impacts involved have not been systematically investigated. Here, we combine high-resolution surveys of the variability at the uni-parentally inherited Y chromosome and mitochondrial DNA in selected samples of putative source and recipient populations with forward-in-time simulations of alternative demographic models to detect signatures of that impact. Using a subset of haplotypes chosen to represent historical sources, we recover a clear signature of Greek ancestry in East Sicily compatible with the settlement from Euboea during the Archaic Period (eighth to fifth century BCE). We inferred moderate sex-bias in the numbers of individuals involved in the colonisation: a few thousand breeding men and a few hundred breeding women were the estimated number of migrants. Last, we demonstrate that studies aimed at quantifying Hellenic genetic flow by the proportion of specific lineages surviving in present-day populations may be misleading.European Journal of Human Genetics advance online publication, 15 July 2015; doi:10.1038/ejhg.2015.124.

Published

2015

7. Pulling out the 1%: Whole-Genome Capture for the Targeted Enrichment of Ancient DNA Sequencing Libraries

Author

Carpenter, M., Buenrostro, J., Valdiosera, C., Schroeder, H., Allentoft, M., Sikora, M., Rasmussen, M., Gravel, S., Guillen, S., Nekhrizov, G., Leshtakov, K., Dimitrova, D., Theodossiev, N., Petterner, D., Luiselli, D., Sandoval, K., Moreno-Estrada, A., Li, Y., Wang, Jun, Gilbert, Thomas, Willerslev, E., Greenleaf, W., Bustamante, C., Carpenter, M., Buenrostro, J., Valdiosera, C., Schroeder, H., Allentoft, M., Sikora, M., Rasmussen, M., Gravel, S., Guillen, S., Nekhrizov, G., Leshtakov, K., Dimitrova, D., Theodossiev, N., Petterner, D., Luiselli, D., Sandoval, K., Moreno-Estrada, A., Li, Y., Wang, Jun, Gilbert, Thomas, Willerslev, E., Greenleaf, W., and Bustamante, C.

Abstract

Most ancient specimens contain very low levels of endogenous DNA, precluding the shotgun sequencing of many interesting samples because of cost. Ancient DNA (aDNA) libraries often contain <1% endogenous DNA, with the majority of sequencing capacity taken up by environmental DNA. Here we present a capture-based method for enriching the endogenous component of aDNA sequencing libraries. By using biotinylated RNA baits transcribed from genomic DNA libraries, we are able to capture DNA fragments from across the human genome. We demonstrate this method on libraries created from four Iron Age and Bronze Age human teeth from Bulgaria, as well as bone samples from seven Peruvian mummies and a Bronze Age hair sample from Denmark. Prior to capture, shotgun sequencing of these libraries yielded an average of 1.2% of reads mapping to the human genome (including duplicates). After capture, this fraction increased substantially, with up to 59% of reads mapped to human and enrichment ranging from 6- to 159-fold. Furthermore, we maintained coverage of the majority of regions sequenced in the precapture library. Intersection with the 1000 Genomes Project reference panel yielded an average of 50,723 SNPs (range 3,062–147,243) for the postcapture libraries sequenced with 1 million reads, compared with 13,280 SNPs (range 217–73,266) for the precapture libraries, increasing resolution in population genetic analyses. Our whole-genome capture approach makes it less costly to sequence aDNA from specimens containing very low levels of endogenous DNA, enabling the analysis of larger numbers of samples.

Published

2013

8. High variability of TLR4 gene in different ethnic groups in Iran.

Author

Ioana, M., Ferwerda, B., Farjadian, S., Ioana, L., Ghaderi, A., Oosting, M., Joosten, L.A.B., Meer, J.W.M. van der, Romeo, G., Luiselli, D., Dediu, D., Netea, M.G., Ioana, M., Ferwerda, B., Farjadian, S., Ioana, L., Ghaderi, A., Oosting, M., Joosten, L.A.B., Meer, J.W.M. van der, Romeo, G., Luiselli, D., Dediu, D., and Netea, M.G.

Abstract

1 juni 2012, Item does not contain fulltext, Infectious diseases exert a constant evolutionary pressure on the innate immunity genes. TLR4, an important member of the TLR family, specifically recognizes conserved structures of various infectious pathogens. Two functional TLR4 polymorphisms, Asp299Gly and Thr399Ile, modulate innate host defense against infections, and their prevalence between various populations has been proposed to be influenced by local infectious pressures. If this assumption is true, strong local infectious pressures would lead to a homogeneous pattern of these ancient TLR4 polymorphisms in geographically-close populations, while a weak selection or genetic drift may result in a diverse pattern. We evaluated TLR4 polymorphisms in 15 ethnic groups in Iran, to assess whether infections exerted selective pressures on different haplotypes containing these variants. The Iranian subpopulations displayed a heterogeneous pattern of TLR4 polymorphisms, comprising various percentages of Asp299Gly and Thr399Ile, alone or in combination. The Iranian sample, as a whole, showed an intermediate mixed pattern when compared with commonly-found patterns in Africa, Europe, Eastern Asia and the Americas. These findings suggest a weak, or absent, selection pressure on TLR4 polymorphisms in the Middle-East that does not support the assumption of an important role of these polymorphisms in the host defense against local pathogens.

Published

2012

9. High variability of TLR4 gene in different ethnic groups in Iran.

Author

Ioana, M., Ferwerda, B., Farjadian, S., Ioana, L., Ghaderi, A., Oosting, M., Joosten, L.A.B., Meer, J.W.M. van der, Romeo, G., Luiselli, D., Dediu, D., Netea, M.G., Ioana, M., Ferwerda, B., Farjadian, S., Ioana, L., Ghaderi, A., Oosting, M., Joosten, L.A.B., Meer, J.W.M. van der, Romeo, G., Luiselli, D., Dediu, D., and Netea, M.G.

Abstract

01 juni 2012, Item does not contain fulltext, Infectious diseases exert a constant evolutionary pressure on the innate immunity genes. TLR4, an important member of the TLR family, specifically recognizes conserved structures of various infectious pathogens. Two functional TLR4 polymorphisms, Asp299Gly and Thr399Ile, modulate innate host defense against infections, and their prevalence between various populations has been proposed to be influenced by local infectious pressures. If this assumption is true, strong local infectious pressures would lead to a homogeneous pattern of these ancient TLR4 polymorphisms in geographically-close populations, while a weak selection or genetic drift may result in a diverse pattern. We evaluated TLR4 polymorphisms in 15 ethnic groups in Iran, to assess whether infections exerted selective pressures on different haplotypes containing these variants. The Iranian subpopulations displayed a heterogeneous pattern of TLR4 polymorphisms, comprising various percentages of Asp299Gly and Thr399Ile, alone or in combination. The Iranian sample, as a whole, showed an intermediate mixed pattern when compared with commonly-found patterns in Africa, Europe, Eastern Asia and the Americas. These findings suggest a weak, or absent, selection pressure on TLR4 polymorphisms in the Middle-East that does not support the assumption of an important role of these polymorphisms in the host defense against local pathogens.

Published

2012

10. High variability of TLR4 gene in different ethnic groups in Iran.

Author

Ioana, M., Ferwerda, B., Farjadian, S., Ioana, L., Ghaderi, A., Oosting, M., Joosten, L.A.B., Meer, J.W.M. van der, Romeo, G., Luiselli, D., Dediu, D., Netea, M.G., Ioana, M., Ferwerda, B., Farjadian, S., Ioana, L., Ghaderi, A., Oosting, M., Joosten, L.A.B., Meer, J.W.M. van der, Romeo, G., Luiselli, D., Dediu, D., and Netea, M.G.

Abstract

01 juni 2012, Item does not contain fulltext, Infectious diseases exert a constant evolutionary pressure on the innate immunity genes. TLR4, an important member of the TLR family, specifically recognizes conserved structures of various infectious pathogens. Two functional TLR4 polymorphisms, Asp299Gly and Thr399Ile, modulate innate host defense against infections, and their prevalence between various populations has been proposed to be influenced by local infectious pressures. If this assumption is true, strong local infectious pressures would lead to a homogeneous pattern of these ancient TLR4 polymorphisms in geographically-close populations, while a weak selection or genetic drift may result in a diverse pattern. We evaluated TLR4 polymorphisms in 15 ethnic groups in Iran, to assess whether infections exerted selective pressures on different haplotypes containing these variants. The Iranian subpopulations displayed a heterogeneous pattern of TLR4 polymorphisms, comprising various percentages of Asp299Gly and Thr399Ile, alone or in combination. The Iranian sample, as a whole, showed an intermediate mixed pattern when compared with commonly-found patterns in Africa, Europe, Eastern Asia and the Americas. These findings suggest a weak, or absent, selection pressure on TLR4 polymorphisms in the Middle-East that does not support the assumption of an important role of these polymorphisms in the host defense against local pathogens.

Published

2012

11. Y-chromosomal variation in Sub-Saharan Africa: insights into the history of Niger-Congo groups

Author

de Filippo, C., Barbieri, Carlo, Whitten, M., Gunnarsdottir, E., Bostoen, Koen, Nyambe, T., Beyer, K., Schreiber, H., de Knijff, P., Luiselli, D., Stoneking, M., Pakendorf, B., de Filippo, C., Barbieri, Carlo, Whitten, M., Gunnarsdottir, E., Bostoen, Koen, Nyambe, T., Beyer, K., Schreiber, H., de Knijff, P., Luiselli, D., Stoneking, M., and Pakendorf, B.

Abstract

Technological and cultural innovations as well as climate changes are thought to have influenced the diffusion of major language phyla in sub-Saharan Africa. The most widespread and the richest in diversity is the Niger-Congo phylum, thought to have originated in West Africa ∼10,000 years ago (ya). The expansion of Bantu languages (a family within the Niger-Congo phylum) ∼5,000 ya represents a major event in the past demography of the continent. Many previous studies on Y chromosomal variation in Africa associated the Bantu expansion with haplogroup E1b1a (and sometimes its sublineage E1b1a7). However, the distribution of these two lineages extends far beyond the area occupied nowadays by Bantu-speaking people, raising questions on the actual genetic structure behind this expansion. To address these issues, we directly genotyped 31 biallelic markers and 12 microsatellites on the Y chromosome in 1,195 individuals of African ancestry focusing on areas that were previously poorly characterized (Botswana, Burkina Faso, Democratic Republic of Congo, and Zambia). With the inclusion of published data, we analyzed 2,736 individuals from 26 groups representing all linguistic phyla and covering a large portion of sub-Saharan Africa. Within the Niger-Congo phylum, we ascertain for the first time differences in haplogroup composition between Bantu and non-Bantu groups via two markers (U174 and U175) on the background of haplogroup E1b1a (and E1b1a7), which were directly genotyped in our samples and for which genotypes were inferred from published data using linear discriminant analysis on short tandem repeat (STR) haplotypes. No reduction in STR diversity levels was found across the Bantu groups, suggesting the absence of serial founder effects. In addition, the homogeneity of haplogroup composition and pattern of haplotype sharing between Western and Eastern Bantu groups suggests that their expansion throughout sub-Saharan Africa reflects a rapid spread followed by backward an, (submitted in July 2010, accepted), SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2011

12. Y-chromosomal variation in Sub-Saharan Africa: insights into the history of Niger-Congo groups

Author

de Filippo, C., Barbieri, Carlo, Whitten, M., Gunnarsdottir, E., Bostoen, Koen, Nyambe, T., Beyer, K., Schreiber, H., de Knijff, P., Luiselli, D., Stoneking, M., Pakendorf, B., de Filippo, C., Barbieri, Carlo, Whitten, M., Gunnarsdottir, E., Bostoen, Koen, Nyambe, T., Beyer, K., Schreiber, H., de Knijff, P., Luiselli, D., Stoneking, M., and Pakendorf, B.

Abstract

Technological and cultural innovations as well as climate changes are thought to have influenced the diffusion of major language phyla in sub-Saharan Africa. The most widespread and the richest in diversity is the Niger-Congo phylum, thought to have originated in West Africa ∼10,000 years ago (ya). The expansion of Bantu languages (a family within the Niger-Congo phylum) ∼5,000 ya represents a major event in the past demography of the continent. Many previous studies on Y chromosomal variation in Africa associated the Bantu expansion with haplogroup E1b1a (and sometimes its sublineage E1b1a7). However, the distribution of these two lineages extends far beyond the area occupied nowadays by Bantu-speaking people, raising questions on the actual genetic structure behind this expansion. To address these issues, we directly genotyped 31 biallelic markers and 12 microsatellites on the Y chromosome in 1,195 individuals of African ancestry focusing on areas that were previously poorly characterized (Botswana, Burkina Faso, Democratic Republic of Congo, and Zambia). With the inclusion of published data, we analyzed 2,736 individuals from 26 groups representing all linguistic phyla and covering a large portion of sub-Saharan Africa. Within the Niger-Congo phylum, we ascertain for the first time differences in haplogroup composition between Bantu and non-Bantu groups via two markers (U174 and U175) on the background of haplogroup E1b1a (and E1b1a7), which were directly genotyped in our samples and for which genotypes were inferred from published data using linear discriminant analysis on short tandem repeat (STR) haplotypes. No reduction in STR diversity levels was found across the Bantu groups, suggesting the absence of serial founder effects. In addition, the homogeneity of haplogroup composition and pattern of haplotype sharing between Western and Eastern Bantu groups suggests that their expansion throughout sub-Saharan Africa reflects a rapid spread followed by backward an, (submitted in July 2010, accepted), SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2011

13. Signatures of the Preagricultural Peopling Processes in Sub-Saharan Africa as Revealed by the Phylogeography of Early Y Chromosome Lineages

Author

Batini, C, Ferri, G, Destro Bisol, G, Brisighelli, Francesca, Luiselli, D, Sanchez Diz, P, Rocha, J, Simonson, T, Brehm, A, Montano, V, Elwali, Ne, Spedini, G, D'Amato, Me, Myres, N, Ebbesen, P, Comas, D, Capelli, C., Brisighelli, Francesca (ORCID:0000-0001-5469-4413), Batini, C, Ferri, G, Destro Bisol, G, Brisighelli, Francesca, Luiselli, D, Sanchez Diz, P, Rocha, J, Simonson, T, Brehm, A, Montano, V, Elwali, Ne, Spedini, G, D'Amato, Me, Myres, N, Ebbesen, P, Comas, D, Capelli, C., and Brisighelli, Francesca (ORCID:0000-0001-5469-4413)

Abstract

The study of Y chromosome variation has helped reconstruct demographic events associated with the spread of languages, agriculture, and pastoralism in sub-Saharan Africa, but little attention has been given to the early history of the continent. In order to overcome this lack of knowledge, we carried out a phylogeographic analysis of haplogroups A and B in a broad data set of sub-Saharan populations. These two lineages are particularly suitable for this objective because they are the two most deeply rooted branches of the Y chromosome genealogy. Their distribution is almost exclusively restricted to sub-Saharan Africa where their frequency peaks at 65% in groups of foragers. The combined high-resolution single nucleotide polymorphism analysis with short tandem repeats variation of their subclades reveals strong geographic and population structure for both haplogroups. This has allowed us to identify specific lineages related to regional preagricultural dynamics in different areas of sub-Saharan Africa. In addition, we observed signatures of relatively recent contact, both among Pygmies and between them and Khoisan speaker groups from southern Africa, thus contributing to the understanding of the complex evolutionary relationships among African hunter-gatherers. Finally, by revising the phylogeography of the very early human Y chromosome lineages, we have obtained support for the role of southern Africa as a sink, rather than a source, of the first migrations of modern humans from eastern and central parts of the continent. These results open new perspectives on the early history of Homo sapiens in Africa, with particular attention to areas of the continent where human fossil remains and archaeological data are scant.

Published

2011

14. A multi-perspective view of genetic variation in Cameroon.

Author

Coia, Valentina, Brisighelli, Francesca, Donati, F, Pascali, Vincenzo Lorenzo, Boschi, Ilaria, Luiselli, D, Battaggia, C, Batini, C, Taglioli, L, Cruciani, F, Paoli, G, Capelli, Cristian, Spedini, G, Destro Bisol, Giovanni, Brisighelli, Francesca (ORCID:0000-0001-5469-4413), Pascali, Vincenzo Lorenzo (ORCID:0000-0001-6520-5224), Coia, Valentina, Brisighelli, Francesca, Donati, F, Pascali, Vincenzo Lorenzo, Boschi, Ilaria, Luiselli, D, Battaggia, C, Batini, C, Taglioli, L, Cruciani, F, Paoli, G, Capelli, Cristian, Spedini, G, Destro Bisol, Giovanni, Brisighelli, Francesca (ORCID:0000-0001-5469-4413), and Pascali, Vincenzo Lorenzo (ORCID:0000-0001-6520-5224)

Abstract

In this study, we report the genetic variation of autosomal and Y-chromosomal microsatellites in a large Cameroon population dataset (a total of 11 populations) and jointly analyze novel and previous genetic data (mitochondrial DNA and protein coding loci) taking geographic and cultural factors into consideration. The complex pattern of genetic variation of Cameroon can in part be described by contrasting two geographic areas (corresponding to the northern and southern part of the country), which differ substantially in environmental, biological, and cultural aspects. Northern Cameroon populations show a greater within- and among-group diversity, a finding that reflects the complex migratory patterns and the linguistic heterogeneity of this area. A striking reduction of Y-chromosomal genetic diversity was observed in some populations of the northern part of the country (Podokwo and Uldeme), a result that seems to be related to their demographic history rather than to sampling issues. By exploring patterns of genetic, geographic, and linguistic variation, we detect a preferential correlation between genetics and geography for mtDNA. This finding could reflect a female matrimonial mobility that is less constrained by linguistic factors than in males. Finally, we apply the island model to mitochondrial and Y-chromosomal data and obtain a female-to-male migration Nnu ratio that was more than double in the northern part of the country. The combined effect of the propensity to inter-populational admixture of females, favored by cultural contacts, and of genetic drift acting on Y-chromosomal diversity could account for the peculiar genetic pattern observed in northern Cameroon.

Published

2009

15. Exploring mitochondrial DNA variation in the Italian Peninsula

Author

Brisighelli, Francesca, Álvarez Iglesias, V., Capelli, Cristian, Scarnicci, Francesca, Boschi, Ilaria, Luiselli, D., Garagnani, P., Carracedo, A., Salas, A., Pascali, Vincenzo Lorenzo, Brisighelli, Francesca (ORCID:0000-0001-5469-4413), Pascali, Vincenzo Lorenzo (ORCID:0000-0001-6520-5224), Brisighelli, Francesca, Álvarez Iglesias, V., Capelli, Cristian, Scarnicci, Francesca, Boschi, Ilaria, Luiselli, D., Garagnani, P., Carracedo, A., Salas, A., Pascali, Vincenzo Lorenzo, Brisighelli, Francesca (ORCID:0000-0001-5469-4413), and Pascali, Vincenzo Lorenzo (ORCID:0000-0001-6520-5224)

Abstract

The genetic structure of Italy appears to be mainly shaped by pre-Roman historical events. The studies carried out so far show a major North-South cline, possibly the result of two distinct main demic processes: the first colonisation of the area during the Palaeolithic period and the subsequent Neolithic expansion from the Middle East. However, the demographic contribution of these events is still a matter of debate. We here report mitochondrial DNA (mtDNA) data from nine population groups covering the main Italian regions: Central Liguria (N = 50), East Friuli (N = 51), South Latium (N = 48), Central Marche (N = 53), West Calabria (N = 50), Central Campania (N = 50), South Apulia (N = 53), and two populations from Sicily (East and West Sicily, N = 40 each). Haplogroup frequency spectra indicate clear differences at a regional level and haplotype sharing among populations is low. © 2008 Elsevier Ireland Ltd. All rights reserved.

Published

2008