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52. Whole-exome sequencing of the mummified remains of Cangrande della Scala (1291–1329 CE) indicates the first known case of late-onset Pompe disease

Author

Iadarola, Barbara, primary, Lavezzari, Denise, additional, Modi, Alessandra, additional, Esposti, Chiara Degli, additional, Beltrami, Cristina, additional, Rossato, Marzia, additional, Zaro, Valentina, additional, Napione, Ettore, additional, Latella, Leonardo, additional, Lari, Martina, additional, Caramelli, David, additional, Salviati, Alessandro, additional, and Delledonne, Massimo, additional

Published
2021
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53. The origin and legacy of the Etruscans through a 2000-year archeogenomic time transect

Author

Posth, Cosimo, Zaro, Valentina, Spyrou, Maria A., Vai, Stefania, Gnecchi-Ruscone, Guido A., Modi, Alessandra, Peltzer, Alexander, Mötsch, Angela, Nägele, Kathrin, Vågene, Åshild J., Nelson, Elizabeth A., Radzeviciute, Rita, Freund, Cäcilia, Bondioli, Lorenzo M., Cappuccini, Luca, Frenzel, Hannah, Pacciani, Elsa, Boschin, Francesco, Capecchi, Giulia, Martini, Ivan, Moroni, Adriana, Ricci, Stefano, Sperduti, Alessandra, Turchetti, Maria Angela, Riga, Alessandro, Zavattaro, Monica, Zifferero, Andrea, Heyne, Henrike O., Fernández-Domínguez, Eva, Kroonen, Guus J., McCormick, Michael, Haak, Wolfgang, Lari, Martina, Barbujani, Guido, Bondioli, Luca, Bos, Kirsten I., Caramelli, David, Krause, Johannes, Posth, Cosimo, Zaro, Valentina, Spyrou, Maria A., Vai, Stefania, Gnecchi-Ruscone, Guido A., Modi, Alessandra, Peltzer, Alexander, Mötsch, Angela, Nägele, Kathrin, Vågene, Åshild J., Nelson, Elizabeth A., Radzeviciute, Rita, Freund, Cäcilia, Bondioli, Lorenzo M., Cappuccini, Luca, Frenzel, Hannah, Pacciani, Elsa, Boschin, Francesco, Capecchi, Giulia, Martini, Ivan, Moroni, Adriana, Ricci, Stefano, Sperduti, Alessandra, Turchetti, Maria Angela, Riga, Alessandro, Zavattaro, Monica, Zifferero, Andrea, Heyne, Henrike O., Fernández-Domínguez, Eva, Kroonen, Guus J., McCormick, Michael, Haak, Wolfgang, Lari, Martina, Barbujani, Guido, Bondioli, Luca, Bos, Kirsten I., Caramelli, David, and Krause, Johannes

Published
2021

55. First Bronze Age Human Mitogenomes from Calabria (Grotta Della Monaca, Southern Italy)

Author

Fontani, Francesco, primary, Cilli, Elisabetta, additional, Arena, Fabiola, additional, Sarno, Stefania, additional, Modi, Alessandra, additional, De Fanti, Sara, additional, Andrews, Adam Jon, additional, Latorre, Adriana, additional, Abondio, Paolo, additional, Larocca, Felice, additional, Lari, Martina, additional, Caramelli, David, additional, Gualdi-Russo, Emanuela, additional, and Luiselli, Donata, additional

Published
2021
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56. Front Cover

Author

Boscari, Elisa, primary, Marino, Ilaria A. M., additional, Caruso, Chiara, additional, Gessner, Jörn, additional, Lari, Martina, additional, Mugue, Nikolai, additional, Barmintseva, Anna, additional, Suciu, Radu, additional, Onara, Dalia, additional, Zane, Lorenzo, additional, and Congiu, Leonardo, additional

Published
2021
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57. More data on ancient human mitogenome variability in Italy: new mitochondrial genome sequences from three Upper Palaeolithic burials

Author

Modi, Alessandra, primary, Vai, Stefania, additional, Posth, Cosimo, additional, Vergata, Chiara, additional, Zaro, Valentina, additional, Diroma, Maria Angela, additional, Boschin, Francesco, additional, Capecchi, Giulia, additional, Ricci, Stefano, additional, Ronchitelli, Annamaria, additional, Catalano, Giulio, additional, Lauria, Gabriele, additional, D'Amore, Giuseppe, additional, Sineo, Luca, additional, Caramelli, David, additional, and Lari, Martina, additional

Published
2021
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58. Archaeogenomic distinctiveness of the Isthmo-Colombian area

Author

Capodiferro, Marco Rosario, primary, Aram, Bethany, additional, Raveane, Alessandro, additional, Rambaldi Migliore, Nicola, additional, Colombo, Giulia, additional, Ongaro, Linda, additional, Rivera, Javier, additional, Mendizábal, Tomás, additional, Hernández-Mora, Iosvany, additional, Tribaldos, Maribel, additional, Perego, Ugo Alessandro, additional, Li, Hongjie, additional, Scheib, Christiana Lyn, additional, Modi, Alessandra, additional, Gòmez-Carballa, Alberto, additional, Grugni, Viola, additional, Lombardo, Gianluca, additional, Hellenthal, Garrett, additional, Pascale, Juan Miguel, additional, Bertolini, Francesco, additional, Grieco, Gaetano Salvatore, additional, Cereda, Cristina, additional, Lari, Martina, additional, Caramelli, David, additional, Pagani, Luca, additional, Metspalu, Mait, additional, Friedrich, Ronny, additional, Knipper, Corina, additional, Olivieri, Anna, additional, Salas, Antonio, additional, Cooke, Richard, additional, Montinaro, Francesco, additional, Motta, Jorge, additional, Torroni, Antonio, additional, Martín, Juan Guillermo, additional, Semino, Ornella, additional, Malhi, Ripan Singh, additional, and Achilli, Alessandro, additional

Published
2021
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59. Genetic variation in prehistoric Sardinia

Author

Caramelli, David, Vernesi, Cristiano, Sanna, Simona, Sampietro, Lourdes, Lari, Martina, Castrì, Loredana, Vona, Giuseppe, Floris, Rosalba, Francalacci, Paolo, Tykot, Robert, Casoli, Antonella, Bertranpetit, Jaume, Lalueza-Fox, Carles, Bertorelle, Giorgio, and Barbujani, Guido

Published
2007
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60. Genetic analysis of the skeletal remains attributed to Francesco Petrarca

Author

Caramelli, David, Lalueza-Fox, Carles, Capelli, Cristian, Lari, Martina, Sampietro, Maria Lourdes, Gigli, Elena, Milani, Lucio, Pilli, Elena, Guimaraes, Silvia, Chiarelli, Brunetto, Marin, Vito Terribile Wien, Casoli, Antonella, Stanyon, Roscoe, Bertranpetit, Jaume, and Barbujani, Guido

Subjects
DNA testing -- Methods, Sex determination, Genetic -- Research, Mitochondrial DNA -- Research, Law
Abstract

To link to full-text access for this article, visit this link: http://dx.doi.org/10.1016/j.forsciint.2007.01.020 Byline: David Caramelli (a), Carles Lalueza-Fox (b), Cristian Capelli (c), Martina Lari (a), Maria Lourdes Sampietro (d), Elena Gigli (a), Lucio Milani (a), Elena Pilli (a), Silvia Guimaraes (a), Brunetto Chiarelli (a), Vito Terribile Wien Marin (e), Antonella Casoli (f), Roscoe Stanyon (a), Jaume Bertranpetit (b), Guido Barbujani (g) Keywords: Ancient DNA; Petrarca body; mtDNA; Sex determination Abstract: We report on the mitochondrial DNA (mtDNA) analysis of the supposed remains of Francesco Petrarca exhumed in November 2003, from the S. Maria Assunta church, in Arqua Padua (Italy) where he died in 1374. The optimal preservation of the remains allowed the retrieval of sufficient mtDNA for genetic analysis. DNA was extracted from a rib and a tooth and mtDNA sequences were determined in multiple clones using the strictest criteria currently available for validation of ancient DNA sequences, including independent replication. MtDNA sequences from the tooth and rib were not identical, suggesting that they belonged to different individuals. Indeed, molecular gender determination showed that the postcranial remains belonged to a male while the skull belonged to a female. Historical records indicated that the remains were violated in 1630, possibly by thieves. These results are consistent with morphological investigations and confirm the importance of integrating molecular and morphological approaches in investigating historical remains. Author Affiliation: (a) Dipartimento di Biologia Animale e Genetica, Laboratorio di Antropologia, Universita di Firenze, via del Proconsolo 12, 50122 Firenze, Italy (b) Seccio Antropologia, Departament de Biologia Animal, Facultat de Biologia, Universitat de Barcelona, Avda. Diagonal 645, 08028 Barcelona, Spain (c) Istituto Italiano di Antropologia, Dipartimento di Biologia Animale e dell'Uomo, Universita di Roma 'La Sapienza', Piazzale A. Moro 5, 00185 Roma, Italy (d) Unitat de Biologia Evolutiva, Universitat Pompeu Fabra, Dr. Aiguader 80, 08003 Barcelona, Spain (e) Istituto di Anatomia Patologica, Universita di Padova, via Gabelli 61, 35121 Padua, Italy (f) Dipartimento di Chimica Generale e Inorganica, Chimica Analitica, Chimica Fisica, Universita di Parma, Parco Area delle Scienze 17/A, 43100 Parma, Italy (g) Dipartimento di Biologia, Universita di Ferrara, via Borsari 46, 44100 Ferrara, Italy Article History: Received 10 November 2006; Accepted 20 January 2007

Published
2007

61. Author Correction: The spread of steppe and Iranian-related ancestry in the islands of the western Mediterranean

Author

Irish Research Council, National Science Foundation (US), Fundación la Caixa, Ministerio de Economía y Competitividad (España), Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Ministero dell'Istruzione, dell'Università e della Ricerca, Howard Hughes Medical Institute, National Institutes of Health (US), John Templeton Foundation, Fernandes, Daniel, Mittnik, Alissa, Olalde, Iñigo, Lazaridis, Iosif, Cheronet, Olivia, Rohland, Nadin, Mallick, Swapan, Bernardos, Rebecca, Broomandkhoshbacht, Nasreen, Carlsson, Jens, Culleton, Brendan J., Ferry, Matthew, Gamarra, Beatriz, Lari, Martina, Mah, Matthew, Michel, Megan, Modi, Alessandra, Novak, Mario, Oppenheimer, Jonas, Sirak, Kendra, Stewardson, Kristin, Mandl, Kirsten, Schattke, Constanze, Özdoğan, Kadir T., Lucci, Michaela, Gasperetti, Gabriella, Candilio, Francesca, Salis, Gianfranca, Vai, Stefania, Camarós, Edgard, Calò, Carla, Catalano, Giulio, Cueto, Marian, Forgia, Vincenza, Lozano, Marina, Marini, Elisabetta, Micheletti, Margherita, Miccichè, Roberto M., Palombo, María Rita, Ramis, Damià, Schimmenti, Vittoria, Sureda, Pau, Teira, Luis, Teschler-Nicola, Maria, Kennett, Douglas J., Lalueza-Fox, Carles, Patterson, Nick, Sineo, Luca, Coppa, Alfredo, Caramelli, David, Pinhasi, Ron, Reich, David, Irish Research Council, National Science Foundation (US), Fundación la Caixa, Ministerio de Economía y Competitividad (España), Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Ministero dell'Istruzione, dell'Università e della Ricerca, Howard Hughes Medical Institute, National Institutes of Health (US), John Templeton Foundation, Fernandes, Daniel, Mittnik, Alissa, Olalde, Iñigo, Lazaridis, Iosif, Cheronet, Olivia, Rohland, Nadin, Mallick, Swapan, Bernardos, Rebecca, Broomandkhoshbacht, Nasreen, Carlsson, Jens, Culleton, Brendan J., Ferry, Matthew, Gamarra, Beatriz, Lari, Martina, Mah, Matthew, Michel, Megan, Modi, Alessandra, Novak, Mario, Oppenheimer, Jonas, Sirak, Kendra, Stewardson, Kristin, Mandl, Kirsten, Schattke, Constanze, Özdoğan, Kadir T., Lucci, Michaela, Gasperetti, Gabriella, Candilio, Francesca, Salis, Gianfranca, Vai, Stefania, Camarós, Edgard, Calò, Carla, Catalano, Giulio, Cueto, Marian, Forgia, Vincenza, Lozano, Marina, Marini, Elisabetta, Micheletti, Margherita, Miccichè, Roberto M., Palombo, María Rita, Ramis, Damià, Schimmenti, Vittoria, Sureda, Pau, Teira, Luis, Teschler-Nicola, Maria, Kennett, Douglas J., Lalueza-Fox, Carles, Patterson, Nick, Sineo, Luca, Coppa, Alfredo, Caramelli, David, Pinhasi, Ron, and Reich, David

Abstract

Correction to: Nature Ecology & Evolution https://doi.org/10.1038/s41559-020-1102-0, published online 24 February 2020.

Published
2020

62. The spread of steppe and Iranian-related ancestry in the islands of the western Mediterranean

Author

Irish Research Council, National Science Foundation (US), Fundación la Caixa, Ministerio de Economía y Competitividad (España), Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Ministero dell'Istruzione, dell'Università e della Ricerca, Howard Hughes Medical Institute, National Institutes of Health (US), John Templeton Foundation, Fernandes, Daniel, Mittnik, Alissa, Olalde, Iñigo, Lazaridis, Iosif, Cheronet, Olivia, Rohland, Nadin, Mallick, Swapan, Bernardos, Rebecca, Broomandkhoshbacht, Nasreen, Carlsson, Jens, Culleton, Brendan J., Ferry, Matthew, Gamarra, Beatriz, Lari, Martina, Mah, Matthew, Michel, Megan, Modi, Alessandra, Novak, Mario, Oppenheimer, Jonas, Sirak, Kendra, Stewardson, Kristin, Mandl, Kirsten, Schattke, Constanze, Özdoğan, Kadir T., Lucci, Michaela, Gasperetti, Gabriella, Candilio, Francesca, Salis, Gianfranca, Vai, Stefania, Camarós, Edgard, Calò, Carla, Catalano, Giulio, Cueto, Marian, Forgia, Vincenza, Lozano, Marina, Marini, Elisabetta, Micheletti, Margherita, Miccichè, Roberto M., Palombo, María Rita, Ramis, Damià, Schimmenti, Vittoria, Sureda, Pau, Teira, Luis, Teschler-Nicola, Maria, Kennett, Douglas J., Lalueza-Fox, Carles, Patterson, Nick, Sineo, Luca, Coppa, Alfredo, Caramelli, David, Pinhasi, Ron, Reich, David, Irish Research Council, National Science Foundation (US), Fundación la Caixa, Ministerio de Economía y Competitividad (España), Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Ministero dell'Istruzione, dell'Università e della Ricerca, Howard Hughes Medical Institute, National Institutes of Health (US), John Templeton Foundation, Fernandes, Daniel, Mittnik, Alissa, Olalde, Iñigo, Lazaridis, Iosif, Cheronet, Olivia, Rohland, Nadin, Mallick, Swapan, Bernardos, Rebecca, Broomandkhoshbacht, Nasreen, Carlsson, Jens, Culleton, Brendan J., Ferry, Matthew, Gamarra, Beatriz, Lari, Martina, Mah, Matthew, Michel, Megan, Modi, Alessandra, Novak, Mario, Oppenheimer, Jonas, Sirak, Kendra, Stewardson, Kristin, Mandl, Kirsten, Schattke, Constanze, Özdoğan, Kadir T., Lucci, Michaela, Gasperetti, Gabriella, Candilio, Francesca, Salis, Gianfranca, Vai, Stefania, Camarós, Edgard, Calò, Carla, Catalano, Giulio, Cueto, Marian, Forgia, Vincenza, Lozano, Marina, Marini, Elisabetta, Micheletti, Margherita, Miccichè, Roberto M., Palombo, María Rita, Ramis, Damià, Schimmenti, Vittoria, Sureda, Pau, Teira, Luis, Teschler-Nicola, Maria, Kennett, Douglas J., Lalueza-Fox, Carles, Patterson, Nick, Sineo, Luca, Coppa, Alfredo, Caramelli, David, Pinhasi, Ron, and Reich, David

Abstract

Steppe-pastoralist-related ancestry reached Central Europe by at least 2500 bc, whereas Iranian farmer-related ancestry was present in Aegean Europe by at least 1900 bc. However, the spread of these ancestries into the western Mediterranean, where they have contributed to many populations that live today, remains poorly understood. Here, we generated genome-wide ancient-DNA data from the Balearic Islands, Sicily and Sardinia, increasing the number of individuals with reported data from 5 to 66. The oldest individual from the Balearic Islands (~2400 bc) carried ancestry from steppe pastoralists that probably derived from west-to-east migration from Iberia, although two later Balearic individuals had less ancestry from steppe pastoralists. In Sicily, steppe pastoralist ancestry arrived by ~2200 bc, in part from Iberia; Iranian-related ancestry arrived by the mid-second millennium bc, contemporary to its previously documented spread to the Aegean; and there was large-scale population replacement after the Bronze Age. In Sardinia, nearly all ancestry derived from the island’s early farmers until the first millennium bc, with the exception of an outlier from the third millennium bc, who had primarily North African ancestry and who—along with an approximately contemporary Iberian—documents widespread Africa-to-Europe gene flow in the Chalcolithic. Major immigration into Sardinia began in the first millennium bc and, at present, no more than 56–62% of Sardinian ancestry is from its first farmers. This value is lower than previous estimates, highlighting that Sardinia, similar to every other region in Europe, has been a stage for major movement and mixtures of people.

Published
2020

64. Defining criteria for the reintroduction of locally extinct populations based on contemporary and ancient genetic diversity: The case of the Adriatic Beluga sturgeon (Huso huso)

Author

Boscari, Elisa, primary, Marino, Ilaria A. M., additional, Caruso, Chiara, additional, Gessner, Jörn, additional, Lari, Martina, additional, Mugue, Nikolai, additional, Barmintseva, Anna, additional, Suciu, Radu, additional, Onara, Dalia, additional, Zane, Lorenzo, additional, and Congiu, Leonardo, additional

Published
2021
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65. The Etruscans: a population-genetic study

Author

Vernesi, Cristiano, Caramelli, David, Dupanloup, Isabelle, Bertorelle, Giorgio, Lari, Martina, Cappellini, Enrico, Moggi-Cecchi, Jacopo, Chiarelli, Brunetto, Castri, Loredana, Casoli, Antonella, Mallegni, Francesco, Lalueza-Fox, Carles, and Barbujani, Guido

Subjects
Etruscans -- Research, Etruscans -- Genetic aspects, Biological sciences
Published
2004

66. Performance of innovative nanomaterials for bone remains consolidation and effect on 14C dating and on palaeogenetic analysis.

Author

Porpora, Francesca, Zaro, Valentina, Liccioli, Lucia, Modi, Alessandra, Meoli, Arianna, Marradi, Giulia, Barone, Serena, Vai, Stefania, Dei, Luigi, Caramelli, David, Fedi, Mariaelena, Lari, Martina, and Carretti, Emiliano

Subjects
FOURIER transform infrared spectroscopy, RADIOCARBON dating, BONE density, NANOSTRUCTURED materials, SCANNING electron microscopy
Abstract

An innovative protocol for the consolidation of ancient bone remains based on the use of nanometric HydroxyAPatite (HAP) was set up and tested through a multidisciplinary approach. A new protocol for the synthesis of HAP nanoparticles was developed, and the composition of the obtained nanomaterial was investigated through Fourier Transform Infrared Spectroscopy (FTIR) and X-Ray Diffraction (XRD); sizes, shape and morphology of the synthesized particles were studied by Scanning Electron Microscopy (SEM). The consolidation performance was evaluated by testing the new nanomaterial on degraded ancient bone findings. An increase of the mineral density and of the micro-hardness of the bone were observed. The new consolidation method was also tested to assess possible effects on the palaeogenetic analysis and radiocarbon dating on the treated bones. The consolidation treatment does not introduce any contaminations that could affect radiocarbon dating and has no general detrimental impact on the genetic characterization of the skeletal remains. This consolidation procedure represents a more compatible conservation tool with respect to traditional procedures: it has been shown that the treatment is effective, easily-applicable and compatible with post-consolidation analysis. [ABSTRACT FROM AUTHOR]

Published
2022
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67. Unexpected presence of Fagus orientalis complex in Italy as inferred from 45,000-year-old DNA pollen samples from Venice lagoon

Author

Paganelli Arturo, Lari Martina, Vernesi Cristiano, Caramelli David, Vettori Cristina, Paffetti Donatella, Paule Ladislav, and Giannini Raffaello

Subjects
Evolution, QH359-425
Abstract

Abstract Background Phylogeographic analyses on the Western Euroasiatic Fagus taxa (F. orientalis, F. sylvatica, F. taurica and F. moesiaca) is available, however, the subdivision of Fagus spp. is unresolved and there is no consensus on the phylogeny and on the identification (both with morphological than molecular markers) of Fagus Eurasiatic taxa. For the first time molecular analyses of ancient pollen, dated at least 45,000 years ago, were used in combination with the phylogeny analysis on current species, to identify the Fagus spp. present during the Last Interglacial period in Italy. In this work we aim at testing if the trnL-trnF chloroplast DNA (cpDNA) region, that has been previously proved efficient in discriminating different Quercus taxa, can be employed in distinguishing the Fagus species and in identifying the ancient pollen. Results 86 populations from 4 Western Euroasistic taxa were sampled, and sequenced for the trnL-trnF region to verify the efficiency of this cpDNA region in identifying the Fagus spp.. Furthermore, Fagus crenata (2 populations), Fagus grandifolia (2 populations), Fagus japonica, Fagus hayatae, Quercus species and Castanea species were analysed to better resolve the phylogenetic inference. Our results show that this cpDNA region harbour some informative sites that allow to infer relationships among the species within the Fagaceae family. In particular, few specific and fixed mutations were able to discriminate and identify all the different Fagus species. Considering a short fragment of 176 base pairs within the trnL intron, 2 transversions were found able in distinguishing the F. orientalis complex taxa (F. orientalis, F. taurica and F. moesiaca) from the remaining Fagus spp. (F. sylvatica, F. japonica, F. hayataea, F. crenata and F. grandifolia). This permits to analyse this fragment also in ancient samples, where DNA is usually highly degraded. The sequences data indicate that the DNA recovered from ancient pollen belongs to the F. orientalis complex since it displays the informative sites characteristic of this complex. Conclusion The ancient DNA sequences demonstrate for the first time that, in contrast to current knowledge based on palynological and macrofossil data, the F. orientalis complex was already present during the Tyrrhenian period in what is now the Venice lagoon (Italy). This is a new and important insight considering that nowadays West Europe is not the natural area of Fagus orientalis complex, and up to now nobody has hypothesized the presence during the Last Interglacial period of F. orientalis complex in Italy.

Published
2007
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68. Archaeogenomic Distinctiveness of the Isthmo-Colombian Area

Author

Capodiferro, Marco Rosario, primary, Aram, Bethany, additional, Raveane, Alessandro, additional, Migliore, Nicola Rambaldi, additional, Colombo, Giulia, additional, Ongaro, Linda, additional, Rivera, Javier, additional, Mendizábal, Tomás, additional, Hernández-Mora, Iosvany, additional, Tribaldos, Maribel, additional, Perego, Ugo Alessandro, additional, Li, Hongjie, additional, Scheib, Christiana Lyn, additional, Modi, Alessandra, additional, Gòmez-Carballa, Alberto, additional, Grugni, Viola, additional, Lombardo, Gianluca, additional, Hellenthal, Garrett, additional, Pascale, Juan Miguel, additional, Bertolini, Francesco, additional, Grieco, Gaetano, additional, Cereda, Cristina, additional, Lari, Martina, additional, Caramelli, David, additional, Pagani, Luca, additional, Metspalu, Mait, additional, Friedrich, Ronny, additional, Knipper, Corina, additional, Olivieri, Anna, additional, Salas, Antonio, additional, Cooke, Richard, additional, Montinaro, Francesco, additional, Motta, Jorge, additional, Torroni, Antonio, additional, Martín, Juan Guillermo, additional, Semino, Ornella, additional, Malhi, Ripan Singh, additional, and Achilli, Alessandro, additional

Published
2020
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71. Ancient genomes reveal early Andean farmers selected common beans while preserving diversity

Author

Boessenkool Sanne, Babot Pilar, Star Bastiaan, Bellucci Elisa, Oliszewski Nurit, Bertorelle Giorgio, Neme Gustavo, Papa Roberto, Vai Stefania, de Boer Hugo, Xu Chunming, Benazzo Andrea, Calcagnile Lucio, Gil Adolfo, Trucchi Emiliano, Caramelli David, Jackson A Scott, Lari Martina, De Lorenzi Monica, Lema Verónica, Nanni Laura, Michieli Catalina Teresa, Bitocchi Elena, and Iob Alice

Subjects
Genetic diversity, Food security, Evolutionary biology, Genetic variation, food and beverages, Cultivar, Phenotypic trait, Biology, Domestication, Genetic erosion, Selection (genetic algorithm)
Abstract

All crops are the product of a domestication process that started less than 12,000 years ago from one or more wild populations [1, 2]. Farmers selected desirable phenotypic traits, such as improved energy accumulation, palatability of seeds or reduced natural shattering [3], while leading domesticated populations through several more or less gradual demographic contractions [2, 4]. As a consequence, erosion of wild genetic variation [5] is typical of modern cultivars making them highly susceptible to pathogens, pests and environmental change [6,7]. The loss of genetic diversity hampers further crop improvement programs to increase food production in a changing world, posing serious threats to food security [8,9]. Using both ancient and modern seeds, we analyzed the temporal dynamic of genetic variation and selection during the domestication process of the common bean (Phaseolus vulgaris) that occurred in the Southern Andes. Here we show that most domestic traits were selected for prior to 2,500 years ago, with no or only minor loss of whole-genome variation. In fact, i) all ancient domestic genomes dated between 600 and 2,500 years ago are highly variable - at least as variable as a modern genome from the wild; the genetic erosion that we observe in modern cultivars is therefore a recent process that occurred in the last centuries; ii) the majority of changes at coding genes that differentiate wild and domestic genomes are already present in the ancient genomes analyzed here. Considering that most desirable phenotypic traits are likely controlled by multiple polymorphic genes [10], a likely explanation of this decoupling of selection and genomic erosion is that early farmers applied a relatively weak selection pressure [2] by using many phenotypically similar but genomically diverse individuals as breeders. Selection strategies during the last few centuries were probably less sustainable and produced further improvements focusing on few plants carrying the traits of interest, at the cost of marked genetic erosion.

Published
2019
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75. Ancient DNA studies: new perspectives on old samples

Author

Rizzi Ermanno, Lari Martina, Gigli Elena, De Bellis Gianluca, and Caramelli David

Subjects
Animal culture, SF1-1100, Genetics, QH426-470
Abstract

Abstract In spite of past controversies, the field of ancient DNA is now a reliable research area due to recent methodological improvements. A series of recent large-scale studies have revealed the true potential of ancient DNA samples to study the processes of evolution and to test models and assumptions commonly used to reconstruct patterns of evolution and to analyze population genetics and palaeoecological changes. Recent advances in DNA technologies, such as next-generation sequencing make it possible to recover DNA information from archaeological and paleontological remains allowing us to go back in time and study the genetic relationships between extinct organisms and their contemporary relatives. With the next-generation sequencing methodologies, DNA sequences can be retrieved even from samples (for example human remains) for which the technical pitfalls of classical methodologies required stringent criteria to guaranty the reliability of the results. In this paper, we review the methodologies applied to ancient DNA analysis and the perspectives that next-generation sequencing applications provide in this field.

Published
2012
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77. The Arrival of Steppe and Iranian Related Ancestry in the Islands of the Western Mediterranean

Author

Fernandes, Daniel M., primary, Mittnik, Alissa, additional, Olalde, Iñigo, additional, Lazaridis, Iosif, additional, Cheronet, Olivia, additional, Rohland, Nadin, additional, Mallick, Swapan, additional, Bernardos, Rebecca, additional, Broomandkhoshbacht, Nasreen, additional, Carlsson, Jens, additional, Culleton, Brendan J., additional, Ferry, Matthew, additional, Gamarra, Beatriz, additional, Lari, Martina, additional, Mah, Matthew, additional, Michel, Megan, additional, Modi, Alessandra, additional, Novak, Mario, additional, Oppenheimer, Jonas, additional, Sirak, Kendra A., additional, Stewardson, Kirstin, additional, Vai, Stefania, additional, Camarós, Edgard, additional, Calò, Carla, additional, Catalano, Giulio, additional, Cueto, Marian, additional, Forgia, Vincenza, additional, Lozano, Marina, additional, Marini, Elisabetta, additional, Micheletti, Margherita, additional, Miccichè, Roberto M., additional, Palombo, Maria R., additional, Ramis, Damià, additional, Schimmenti, Vittoria, additional, Sureda, Pau, additional, Teira, Luís, additional, Teschler-Nicola, Maria, additional, Kennett, Douglas J., additional, Lalueza-Fox, Carles, additional, Patterson, Nick, additional, Sineo, Luca, additional, Caramelli, David, additional, Pinhasi, Ron, additional, and Reich, David, additional

Published
2019
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78. The Complete Mitochondrial Genome of an 11,450-year-old Aurochsen (Bos primigenius) from Central Italy

Author

Boscato Paolo, Larson Greger, Vernesi Cristiano, Chen Kefei, Catalano Giulio, Corti Giorgio, Mona Stefano, Rizzi Ermanno, Lari Martina, De Bellis Gianluca, Cooper Alan, Caramelli David, and Bertorelle Giorgio

Subjects
Evolution, QH359-425
Abstract

Abstract Background Bos primigenius, the aurochs, is the wild ancestor of modern cattle breeds and was formerly widespread across Eurasia and northern Africa. After a progressive decline, the species became extinct in 1627. The origin of modern taurine breeds in Europe is debated. Archaeological and early genetic evidence point to a single Near Eastern origin and a subsequent spread during the diffusion of herding and farming. More recent genetic data are instead compatible with local domestication events or at least some level of local introgression from the aurochs. Here we present the analysis of the complete mitochondrial genome of a pre-Neolithic Italian aurochs. Results In this study, we applied a combined strategy employing both multiplex PCR amplifications and 454 pyrosequencing technology to sequence the complete mitochondrial genome of an 11,450-year-old aurochs specimen from Central Italy. Phylogenetic analysis of the aurochs mtDNA genome supports the conclusions from previous studies of short mtDNA fragments - namely that Italian aurochsen were genetically very similar to modern cattle breeds, but highly divergent from the North-Central European aurochsen. Conclusions Complete mitochondrial genome sequences are now available for several modern cattle and two pre-Neolithic mtDNA genomes from very different geographic areas. These data suggest that previously identified sub-groups within the widespread modern cattle mitochondrial T clade are polyphyletic, and they support the hypothesis that modern European breeds have multiple geographic origins.

Published
2011
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79. Population dynamic of the extinct European aurochs: genetic evidence of a north-south differentiation pattern and no evidence of post-glacial expansion

Author

Di Patti Carolina, Sineo Luca, Casoli Antonella, Boscato Paolo, Larson Greger, Lari Martina, Catalano Giulio, Mona Stefano, Pecchioli Elena, Caramelli David, and Bertorelle Giorgio

Subjects
Evolution, QH359-425
Abstract

Abstract Background The aurochs (Bos primigenius) was a large bovine that ranged over almost the entirety of the Eurasian continent and North Africa. It is the wild ancestor of the modern cattle (Bos taurus), and went extinct in 1627 probably as a consequence of human hunting and the progressive reduction of its habitat. To investigate in detail the genetic history of this species and to compare the population dynamics in different European areas, we analysed Bos primigenius remains from various sites across Italy. Results Fourteen samples provided ancient DNA fragments from the mitochondrial hypervariable region. Our data, jointly analysed with previously published sequences, support the view that Italian aurochsen were genetically similar to modern bovine breeds, but very different from northern/central European aurochsen. Bayesian analyses and coalescent simulations indicate that the genetic variation pattern in both Italian and northern/central European aurochsen is compatible with demographic stability after the last glaciation. We provide evidence that signatures of population expansion can erroneously arise in stable aurochsen populations when the different ages of the samples are not taken into account. Conclusions Distinct groups of aurochsen probably inhabited Italy and northern/central Europe after the last glaciation, respectively. On the contrary, Italian and Fertile Crescent aurochsen likely shared several mtDNA sequences, now common in modern breeds. We argue that a certain level of genetic homogeneity characterized aurochs populations in Southern Europe and the Middle East, and also that post-glacial recolonization of northern and central Europe advanced, without major demographic expansions, from eastern, and not southern, refugia.

Published
2010
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80. Maternal DNA lineages at the gate of Europe in the 10th century AD

Author

Genética, antropología física y fisiología animal, Genetika,antropologia fisikoa eta animalien fisiologia, Rusu, Ioana, Modi, Alessandra, Vai, Stefania, Pilli, Elena, Mircea, Cristina, Radu, Claudia, Urduzia, Claudia, Pinter, Zeno Karl, Bodolica, Vitalie, Dobrinescu, Catalin, Hervella Afonso, Montserrat, Popescu, Octavian, Lari, Martina, Caramelli, David, Kelemen, Beatrice, Genética, antropología física y fisiología animal, Genetika,antropologia fisikoa eta animalien fisiologia, Rusu, Ioana, Modi, Alessandra, Vai, Stefania, Pilli, Elena, Mircea, Cristina, Radu, Claudia, Urduzia, Claudia, Pinter, Zeno Karl, Bodolica, Vitalie, Dobrinescu, Catalin, Hervella Afonso, Montserrat, Popescu, Octavian, Lari, Martina, Caramelli, David, and Kelemen, Beatrice

Abstract

Given the paucity of archaeogenetic data available for medieval European populations in comparison to other historical periods, the genetic landscape of this age appears as a puzzle of dispersed, small, known pieces. In particular, Southeastern Europe has been scarcely investigated to date. In this paper, we report the study of mitochondrial DNA in 10th century AD human samples from Capidava necropolis, located in Dobruja (Southeastern Romania, Southeastern Europe). This geographical region is particularly interesting because of the extensive population flux following diverse migration routes, and the complex interactions between distinct population groups during the medieval period. We successfully amplified and typed the mitochondrial control region of 10 individuals. For five of them, we also reconstructed the complete mitochondrial genomes using hybridization-based DNA capture combined with Next Generation Sequencing. We have portrayed the genetic structure of the Capidava medieval population, represented by 10 individuals displaying 8 haplotypes (U5a1c2a, V1a, R0a2'3, H1, U3a, N9a9, H5e1a1, and H13a1a3). Remarkable for this site is the presence of both Central Asiatic (N9a) and common European mtDNA haplotypes, establishing Capidava as a point of convergence between East and West. The distribution of mtDNA lineages in the necropolis highlighted the existence of two groups of two individuals with close maternal relationships as they share the same haplotypes. We also sketch, using comparative statistical and population genetic analyses, the genetic relationships between the investigated dataset and other medieval and modern Eurasian populations.

Published
2018

81. Electronic Supplementary Information from Genome diversity in the Neolithic Globular Amphorae culture and the spread of Indo-European languages

Author

Tassi, Francesca, Vai, Stefania, Ghirotto, Silvia, Lari, Martina, Modi, Alessandra, Pilli, Elena, Brunelli, Andrea, Susca, Roberta Rosa, Budnik, Alicja, Labuda, Damian, Alberti, Federica, Lalueza-Fox, Carles, Reich, David, Caramelli, David, and Barbujani, Guido

Abstract

Supplementary Materials, 16 supplementary tables and appendix

Published
2017
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84. A genetic perspective on Longobard-Era migrations

Author

Vai, Stefania, primary, Brunelli, Andrea, additional, Modi, Alessandra, additional, Tassi, Francesca, additional, Vergata, Chiara, additional, Pilli, Elena, additional, Lari, Martina, additional, Rosa Susca, Roberta, additional, Giostra, Caterina, additional, Pejrani Baricco, Luisella, additional, Bedini, Elena, additional, Koncz, István, additional, Vida, Tivadar, additional, Gusztáv Mende, Balázs, additional, Winger, Daniel, additional, Loskotová, Zuzana, additional, Veeramah, Krishna, additional, Geary, Patrick, additional, Barbujani, Guido, additional, Caramelli, David, additional, and Ghirotto, Silvia, additional

Published
2018
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85. Maternal DNA lineages at the gate of Europe in the 10th century AD

Author

Rusu, Ioana, primary, Modi, Alessandra, additional, Vai, Stefania, additional, Pilli, Elena, additional, Mircea, Cristina, additional, Radu, Claudia, additional, Urduzia, Claudia, additional, Pinter, Zeno Karl, additional, Bodolică, Vitalie, additional, Dobrinescu, Cătălin, additional, Hervella, Montserrat, additional, Popescu, Octavian, additional, Lari, Martina, additional, Caramelli, David, additional, and Kelemen, Beatrice, additional

Published
2018
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86. Understanding 6th-Century Barbarian Social Organization and Migration through Paleogenomics

Author

Amorim, Carlos Eduardo G., primary, Vai, Stefania, additional, Posth, Cosimo, additional, Modi, Alessandra, additional, Koncz, István, additional, Hakenbeck, Susanne, additional, La Rocca, Maria Cristina, additional, Mende, Balazs, additional, Bobo, Dean, additional, Pohl, Walter, additional, Baricco, Luisella Pejrani, additional, Bedini, Elena, additional, Francalacci, Paolo, additional, Giostra, Caterina, additional, Vida, Tivadar, additional, Winger, Daniel, additional, von Freeden, Uta, additional, Ghirotto, Silvia, additional, Lari, Martina, additional, Barbujani, Guido, additional, Krause, Johannes, additional, Caramelli, David, additional, Geary, Patrick J., additional, and Veeramah, Krishna R., additional

Published
2018
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89. The Genomic History Of Southeastern Europe

Author

Mathieson, Iain, primary, Roodenberg, Songül Alpaslan, additional, Posth, Cosimo, additional, Szécsényi-Nagy, Anna, additional, Rohland, Nadin, additional, Mallick, Swapan, additional, Olalde, Iñigo, additional, Broomandkhoshbacht, Nasreen, additional, Candilio, Francesca, additional, Cheronet, Olivia, additional, Fernandes, Daniel, additional, Ferry, Matthew, additional, Gamarra, Beatriz, additional, Fortes, Gloria González, additional, Haak, Wolfgang, additional, Harney, Eadaoin, additional, Jones, Eppie, additional, Keating, Denise, additional, Krause-Kyora, Ben, additional, Kucukkalipci, Isil, additional, Michel, Megan, additional, Mittnik, Alissa, additional, Nägele, Kathrin, additional, Novak, Mario, additional, Oppenheimer, Jonas, additional, Patterson, Nick, additional, Pfrengle, Saskia, additional, Sirak, Kendra, additional, Stewardson, Kristin, additional, Vai, Stefania, additional, Alexandrov, Stefan, additional, Alt, Kurt W., additional, Andreescu, Radian, additional, Antonović, Dragana, additional, Ash, Abigail, additional, Atanassova, Nadezhda, additional, Bacvarov, Krum, additional, Gusztáv, Mende Balázs, additional, Bocherens, Hervé, additional, Bolus, Michael, additional, Boroneanţ, Adina, additional, Boyadzhiev, Yavor, additional, Budnik, Alicja, additional, Burmaz, Josip, additional, Chohadzhiev, Stefan, additional, Conard, Nicholas J., additional, Cottiaux, Richard, additional, Čuka, Maja, additional, Cupillard, Christophe, additional, Drucker, Dorothée G., additional, Elenski, Nedko, additional, Francken, Michael, additional, Galabova, Borislava, additional, Ganetovski, Georgi, additional, Gély, Bernard, additional, Hajdu, Tamás, additional, Handzhyiska, Veneta, additional, Harvati, Katerina, additional, Higham, Thomas, additional, Iliev, Stanislav, additional, Janković, Ivor, additional, Karavanić, Ivor, additional, Kennett, Douglas J., additional, Komšo, Darko, additional, Kozak, Alexandra, additional, Labuda, Damian, additional, Lari, Martina, additional, Lazar, Catalin, additional, Leppek, Maleen, additional, Leshtakov, Krassimir, additional, Vetro, Domenico Lo, additional, Los, Dženi, additional, Lozanov, Ivaylo, additional, Malina, Maria, additional, Martini, Fabio, additional, McSweeney, Kath, additional, Meller, Harald, additional, Menđušić, Marko, additional, Mirea, Pavel, additional, Moiseyev, Vyacheslav, additional, Petrova, Vanya, additional, Price, T. Douglas, additional, Simalcsik, Angela, additional, Sineo, Luca, additional, Šlaus, Mario, additional, Slavchev, Vladimir, additional, Stanev, Petar, additional, Starović, Andrej, additional, Szeniczey, Tamás, additional, Talamo, Sahra, additional, Teschler-Nicola, Maria, additional, Thevenet, Corinne, additional, Valchev, Ivan, additional, Valentin, Frédérique, additional, Vasilyev, Sergey, additional, Veljanovska, Fanica, additional, Venelinova, Svetlana, additional, Veselovskaya, Elizaveta, additional, Viola, Bence, additional, Virag, Cristian, additional, Zaninović, Joško, additional, Zäuner, Steve, additional, Stockhammer, Philipp W., additional, Catalano, Giulio, additional, Krauß, Raiko, additional, Caramelli, David, additional, Zariņa, Gunita, additional, Gaydarska, Bisserka, additional, Lillie, Malcolm, additional, Nikitin, Alexey G., additional, Potekhina, Inna, additional, Papathanasiou, Anastasia, additional, Borić, Dušan, additional, Bonsall, Clive, additional, Krause, Johannes, additional, Pinhasi, Ron, additional, and Reich, David, additional

Published
2017
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90. Pleistocene Mitochondrial Genomes Suggest a Single Major Dispersal of Non-Africans and a Late Glacial Population Turnover in Europe

Author

Posth, Cosimo, primary, Renaud, Gabriel, additional, Mittnik, Alissa, additional, Drucker, Dorothée G., additional, Rougier, Hélène, additional, Cupillard, Christophe, additional, Valentin, Frédérique, additional, Thevenet, Corinne, additional, Furtwängler, Anja, additional, Wißing, Christoph, additional, Francken, Michael, additional, Malina, Maria, additional, Bolus, Michael, additional, Lari, Martina, additional, Gigli, Elena, additional, Capecchi, Giulia, additional, Crevecoeur, Isabelle, additional, Beauval, Cédric, additional, Flas, Damien, additional, Germonpré, Mietje, additional, van der Plicht, Johannes, additional, Cottiaux, Richard, additional, Gély, Bernard, additional, Ronchitelli, Annamaria, additional, Wehrberger, Kurt, additional, Grigorescu, Dan, additional, Svoboda, Jiří, additional, Semal, Patrick, additional, Caramelli, David, additional, Bocherens, Hervé, additional, Harvati, Katerina, additional, Conard, Nicholas J., additional, Haak, Wolfgang, additional, Powell, Adam, additional, and Krause, Johannes, additional

Published
2016
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91. The Neanderthal in the karst: First dating, morphometric, and paleogenetic data on the fossil skeleton from Altamura (Italy)

Author

Ministerio de Economía y Competitividad (España), Ministero dell'Istruzione, dell'Università e della Ricerca, Lari, Martina, Gigli, Elena, Ramírez, Óscar, Lalueza-Fox, Carles, Manzi, Giorgio, Ministerio de Economía y Competitividad (España), Ministero dell'Istruzione, dell'Università e della Ricerca, Lari, Martina, Gigli, Elena, Ramírez, Óscar, Lalueza-Fox, Carles, and Manzi, Giorgio

Abstract

In 1993, a fossil hominin skeleton was discovered in the karst caves of Lamalunga, near Altamura, in southern Italy. Despite the fact that this specimen represents one of the most extraordinary hominin specimens ever found in Europe, for the last two decades our knowledge of it has been based purely on the documented on-site observations. Recently, the retrieval from the cave of a fragment of bone (part of the right scapula) allowed the first dating of the individual, the quantitative analysis of a diagnostic morphological feature, and a preliminary paleogenetic characterization of this hominin skeleton from Altamura. Overall, the results concur in indicating that it belongs to the hypodigm of Homo neanderthalensis, with some phenetic peculiarities that appear consistent with a chronology ranging from 172 ± 15 ka to 130.1 ± 1.9 ka. Thus, the skeleton from Altamura represents the most ancient Neanderthal from which endogenous DNA has ever been extracted.

Published
2015

92. Origins and Evolution of the Etruscans’ mtDNA

Author

Silvia, Ghirotto, Francesca, Tassi, Erica, Fumagalli, Vincenza, Colonna, Anna, Sandionigi, Lari, Martina, Vai, Stefania, Emmanuele, Petiti, Giorgio, Corti, Ermanno, Rizzi, Gianluca De Bellis, Caramelli, David, and Guido, Barbujani

Subjects
Ancient DNA • Mitochondrial DNA • Coalescent simulations • Approximate Bayesian Computation
Published
2013

94. Maternal DNA lineages at the gate of Europe in the 10th century AD.

Author

Rusu, Ioana, Modi, Alessandra, Vai, Stefania, Pilli, Elena, Mircea, Cristina, Radu, Claudia, Urduzia, Claudia, Pinter, Zeno Karl, Bodolică, Vitalie, Dobrinescu, Cătălin, Hervella, Montserrat, Popescu, Octavian, Lari, Martina, Caramelli, David, and Kelemen, Beatrice

Subjects
MITOCHONDRIAL DNA analysis, POPULATION genetics, EURASIANS, HAPLOTYPES, NUCLEOTIDE sequencing
Abstract

Given the paucity of archaeogenetic data available for medieval European populations in comparison to other historical periods, the genetic landscape of this age appears as a puzzle of dispersed, small, known pieces. In particular, Southeastern Europe has been scarcely investigated to date. In this paper, we report the study of mitochondrial DNA in 10th century AD human samples from Capidava necropolis, located in Dobruja (Southeastern Romania, Southeastern Europe). This geographical region is particularly interesting because of the extensive population flux following diverse migration routes, and the complex interactions between distinct population groups during the medieval period. We successfully amplified and typed the mitochondrial control region of 10 individuals. For five of them, we also reconstructed the complete mitochondrial genomes using hybridization-based DNA capture combined with Next Generation Sequencing. We have portrayed the genetic structure of the Capidava medieval population, represented by 10 individuals displaying 8 haplotypes (U5a1c2a, V1a, R0a2’3, H1, U3a, N9a9, H5e1a1, and H13a1a3). Remarkable for this site is the presence of both Central Asiatic (N9a) and common European mtDNA haplotypes, establishing Capidava as a point of convergence between East and West. The distribution of mtDNA lineages in the necropolis highlighted the existence of two groups of two individuals with close maternal relationships as they share the same haplotypes. We also sketch, using comparative statistical and population genetic analyses, the genetic relationships between the investigated dataset and other medieval and modern Eurasian populations. [ABSTRACT FROM AUTHOR]

Published
2018
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95. The Biarzo case in northern Italy: is the temporal dynamic of swine mitochondrial DNA lineages in Europe related to domestication?

Author

Vai, Stefania, primary, Vilaça, Sibelle Torres, additional, Romandini, Matteo, additional, Benazzo, Andrea, additional, Visentini, Paola, additional, Modolo, Marta, additional, Bertolini, Marco, additional, MacQueen, Peggy, additional, Austin, Jeremy, additional, Cooper, Alan, additional, Caramelli, David, additional, Lari, Martina, additional, and Bertorelle, Giorgio, additional

Published
2015
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96. The Neanderthal in the karst: First dating, morphometric, and paleogenetic data on the fossil skeleton from Altamura (Italy)

Author

Lari, Martina, primary, Di Vincenzo, Fabio, additional, Borsato, Andrea, additional, Ghirotto, Silvia, additional, Micheli, Mario, additional, Balsamo, Carlotta, additional, Collina, Carmine, additional, De Bellis, Gianluca, additional, Frisia, Silvia, additional, Giacobini, Giacomo, additional, Gigli, Elena, additional, Hellstrom, John C., additional, Lannino, Antonella, additional, Modi, Alessandra, additional, Pietrelli, Alessandro, additional, Pilli, Elena, additional, Profico, Antonio, additional, Ramirez, Oscar, additional, Rizzi, Ermanno, additional, Vai, Stefania, additional, Venturo, Donata, additional, Piperno, Marcello, additional, Lalueza-Fox, Carles, additional, Barbujani, Guido, additional, Caramelli, David, additional, and Manzi, Giorgio, additional

Published
2015
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97. Genealogical Relationships between Early Medieval and Modern Inhabitants of Piedmont

Author

Vai, Stefania, primary, Ghirotto, Silvia, additional, Pilli, Elena, additional, Tassi, Francesca, additional, Lari, Martina, additional, Rizzi, Ermanno, additional, Matas-Lalueza, Laura, additional, Ramirez, Oscar, additional, Lalueza-Fox, Carles, additional, Achilli, Alessandro, additional, Olivieri, Anna, additional, Torroni, Antonio, additional, Lancioni, Hovirag, additional, Giostra, Caterina, additional, Bedini, Elena, additional, Baricco, Luisella Pejrani, additional, Matullo, Giuseppe, additional, Di Gaetano, Cornelia, additional, Piazza, Alberto, additional, Veeramah, Krishna, additional, Geary, Patrick, additional, Caramelli, David, additional, and Barbujani, Guido, additional

Published
2015
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99. Mitochondrial DNA from El Mirador Cave (Atapuerca, Spain) Reveals the Heterogeneity of Chalcolithic Populations

Author

Gómez-Sánchez, Daniel, primary, Olalde, Iñigo, additional, Pierini, Federica, additional, Matas-Lalueza, Laura, additional, Gigli, Elena, additional, Lari, Martina, additional, Civit, Sergi, additional, Lozano, Marina, additional, Vergès, Josep Maria, additional, Caramelli, David, additional, Ramírez, Oscar, additional, and Lalueza-Fox, Carles, additional

Published
2014
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