Your search keyword '"Dalamitra, S."' showing total 6 results

1. Genetic diversity and subdivision of 57 European and Middle-Eastern sheep breeds

Author

Peter, C., Bruford, M., Perez, T., Dalamitra, S., Hewitt, G., and Erhardt, G.

Published

2007

2. Microsatellite diversity of the Nordic type of goats in relation to breed conservation: how relevant is pure ancestry?

Author

Lenstra, J. A., Tigchelaar, J., Biebach, I., Econogene, Consortiumn, Hallsson, J. H., Kantanen, J., Nielsen, V. H., Pompanon, F., Naderi, S., Rezaei, H. R., Sæther, N., Ertugrul, O., Grossen, C., Camenisch, G., Vos, Loohuis, Van, Straten, Poel, De, E. A., Windig, Oldenbroek, J., Abo, Shehada, Marsan, M., P. A., Tarrayrah, J. A., Angiolillo, Baret, A., Baumung, P., Beja, Pereira, Bertaglia, A., Bordonaro, Salvatore, Brandt, H., Bruford, M., Caloz, R., Canali, G., Canon, J., Cappuccio, I., Carta, A., Cicogna, M., Crepaldi, P., Dalamitra, S., Dobi, P., Dunner, S., D'Urso, G., Barody, El, M. A. A., England, Erhardt, P., Ertuğrul, G., Glowatzki, O., M. L., Ibeagha, Awemu, Strzelec, E., Fadlaoui, E., Fornarelli, A., Garcia, F., Georgoudis, D., Giovenzana, A., Gutscher, S., Hewitt, K., Hoda, G., Istvan, A., Jones, A., Joost, S., Juma, S., Karetsou, G., Kliambas, K., Koban, G., Krugmann, E., Kutita, D., Lazlo, O., Ligda, F., Lipsky, C., Luikart, S., Lühken, G., Marilli, G., Marletta, Donata, Milanesi, E., Negrini, R., Nijman, I. J., Niznikowski, R., Obexer, Ruff, Papachristoforou, G., Pariset, C., Peter, L., M. P., Christinan, Perez, T., Pietrolà, E., Pilla, F., Popielarczyk, D., Prinzenberg, M. E., Roosen, J., Scarpa, R., Sechi, T., Taberlet, P., Taylor, M., Togan, I., Trommetter, M., Valentini, A., Van, Cann, L. M., Vlaic, Wiskin, A., Zundel, L., Auðlinda- og umhverfisdeild (LBHÍ), and Landbúnaðarháskóli Íslands

Subjects

0301 basic medicine, Male, microsatellite, Conservation of Natural Resources, goats, Endangered species, Zoology, Conservation, Biology, Geitur, diversity, Animals, Female, Goats, Phylogeography, Microsatellite Repeats, Food Animals, Animal Science and Zoology, 03 medical and health sciences, 14. Life underwater, Fokkerij & Genomica, Domestication, Genetics, Genetic diversity, Diversity, Settore AGR/17 - ZOOTECNICA GENERALE E MIGLIORAMENTO GENETICO, Detacheringen, business.industry, 0402 animal and dairy science, Búfjárrækt, Microsatellite, 04 agricultural and veterinary sciences, General Medicine, Cline (biology), 040201 dairy & animal science, Breed, 030104 developmental biology, Population bottleneck, WIAS, Livestock, business, Purebred, Animal Breeding & Genomics

Abstract

In the last decades, several endangered breeds of livestock species have been re-established effectively. However, the successful revival of the Dutch and Danish Landrace goats involved crossing with exotic breeds and the ancestry of the current populations is therefore not clear. We have generated genotypes for 27 FAO-recommended microsatellites of these landraces and three phenotypically similar Nordic-type landraces and compared these breeds with central European, Mediterranean and south-west Asian goats. We found decreasing levels of genetic diversity with increasing distance from the south-west Asian domestication site with a south-east-to-north-west cline that is clearly steeper than the Mediterranean east-to-west cline. In terms of genetic diversity, the Dutch Landrace comes next to the isolated Icelandic breed, which has an extremely low diversity. The Norwegian coastal goat and the Finnish and Icelandic landraces are clearly related. It appears that by a combination of mixed origin and a population bottleneck, the Dutch and Danish Land-races are separated from the other breeds. However, the current Dutch and Danish populations with the multicoloured and long-horned appearance effectively substitute for the original breed, illustrating that for conservation of cultural heritage, the phenotype of a breed is more relevant than pure ancestry and the genetic diversity of the original breed. More in general, we propose that for conservation, the retention of genetic diversity of an original breed and of the visual phenotype by which the breed is recognized and defined needs to be considered separately., Stichting Zeldzame Huisdierassen

Published

2017

3. Assessing the spatial dependence of adaptive loci in 43 European and Western Asian goat breeds using AFLP markers

Author

Colli, L., Joost, S., Negrini, R., Nicoloso, L., Crepaldi, P., Ajmone Marsan, P., Abo Shehada, M., Al Tarrayrah, J., Baret, P., Baumung, R., Beja Pereira, A., Bertaglia, M., Bordonaro, Salvatore, Bruford, M., Caloz, R., Canali, G., Canon, J., Cappuccio, I., Carta, A., Cicogna, M., Cortes, O., Dalamitra, S., Daniela, K., Dobi, P., Dominik, P. w, Dunner, S. p, D'Urso, G. l, Barody, El, M. A. A. x, England, P. j, Erhardt, G. u, Ertugrul, O. y, Prinzenberg, E. M., Ibeagha, Awemu, Strzelec, E., Fadlaoui, E., Fornarelli, A., Garcia, F., Georgoudis, D., Lühken, A., Giovenzana, G., Gutscher, S., Hewitt, K., Hoda, G., Brandt, A., Istvan, H., Juma, A., Jones, G., Karetsou, S., Kliambas, K., Koban, G., Kutita, E., Fesus, O., Lenstra, Johannes, Ligda, A., Lipsky, C., Luikart, S., Marie, Louise, Marilli, G., Marletta, Donata, Milanesi, E., Nijman, Isaäc, Obexer, Ruff, Papachristoforou, G., Pariset, C., Pellecchia, L., Peter, M., Perez, C., Pilla, T., D'Andrea, F., Niznikowskian, M., Roosen, R., Juttak, Scarpa, Sechi, R., Taberlet, T., Taylor, P., Togan, M., Trommetter, I., Valentini, M., Van Cann Lisette, Vlaic, M., Wiskin, A., Zundel, L., and UCL - SST/ELI/ELIA - Agronomy

Subjects

Evolutionary Genetics, Population genetics, Q1, amplified fragment length polymorphism, computer program, Geoinformatics, Natural Selection, Amplified Fragment Length Polymorphism Analysis, media_common, Animal Management, AFLP Markers, Multidisciplinary, Natural selection, Settore AGR/17 - ZOOTECNICA GENERALE E MIGLIORAMENTO GENETICO, Spatial statistics, Geography, Goats, article, natural selection, Agriculture, GIS, Adaptation, Physiological, Spatial Autocorrelation, Europe, Phylogeography, Landscape genomics, environmental temperature, Medicine, Livestock, Identification (biology), genetic marker, altitude, Research Article, Genetic Markers, AFLP, gene locus, solar radiation, media_common.quotation_subject, Science, Genomics, precipitation, Biology, Environment, Adaptability, Asia, Western, Genetics, Animals, controlled study, Adaptation, Environmental Systems Modeling, Genetic Association Studies, Western Asian Goat Breeds, Evolutionary Biology, nonhuman, Models, Genetic, business.industry, humidity, Bayes Theorem, landscape, Biotechnology, Genetic Loci, goat breed, Earth Sciences, Amplified fragment length polymorphism, business, Animal Genetics, Population Genetics

Abstract

Background\ud During the past decades, neutral DNA markers have been extensively employed to study demography, population genetics and structure in livestock, but less interest has been devoted to the evaluation of livestock adaptive potential through the identification of genomic regions likely to be under natural selection.\ud \ud Methodology/Principal findings\ud Landscape genomics can greatly benefit the entire livestock system through the identification of genotypes better adapted to specific or extreme environmental conditions. Therefore we analyzed 101 AFLP markers in 43 European and Western Asian goat breeds both with Matsam software, based on a correlative approach (SAM), and with Mcheza and Bayescan, two FST based software able to detect markers carrying signatures of natural selection.\ud \ud Matsam identified four loci possibly under natural selection – also confirmed by FST-outlier methods – and significantly associated with environmental variables such as diurnal temperature range, frequency of precipitation, relative humidity and solar radiation.\ud \ud Conclusions/Significance\ud These results show that landscape genomics can provide useful information on the environmental factors affecting the adaptive potential of livestock living in specific climatic conditions. Besides adding conservation value to livestock genetic resources, this knowledge may lead to the development of novel molecular tools useful to preserve the adaptive potential of local breeds during genetic improvement programs, and to increase the adaptability of industrial breeds to changing environments.

Published

2013

4. Geographical patterning of sixteen goat breeds from Italy, Albania and Greece assessed by Single Nucleotide Polymorphisms

Author

Pariset, L, Cuteri, A, Ligda, C, AJMONE MARSAN, P, Valentini, A, ECONOGENE CONSORTIUM COLLABORATORS, ABO SHEHADA, M, AL TARRAYRAH, J, Angiolillo, Antonella, Baret, P, Baumung, R, BEJA PEREIRA, A, Bertaglia, M, Bordonaro, S, Bruford, M, Caloz, R, Gabriele, C, Javier, C, Cappuccio, I, Carta, A, Cicogna, M, Crepaldi, P, Dalamitra, S, Krugmann, D, Dobi, P, Popielarczyk, D, Dunner, S, D'Urso, G, EL BARODY MA, England, P, Erhardt, G, Ertugrul, O, Prinzenberg, Em, IBEAGHA AWEMU, E, Strzelec, E, Aziz, F, Fornarelli, F, Garcia, D, Georgoudis, A, Lühken, G, Stefano, G, Gutscher, K, Hewitt, G, Hoda, A, Brandt, H, Istvan, A, Juma, G, Joost, S, Jones, S, Karetsou, K, Kliambas, G, Koban, E, Kutita, O, Fesus, L, Lenstra, Ja, Lipsky, S, Luikart, G, Glowatzki, Ml, Marta, M, Marletta, D, Milanesi, E, Negrini, R, Nijman, Isaäc, J, OBEXER RUFF, G, Papachristoforou, C, Pellecchia, M, Peter, C, Perez, T, Pietrolà, E, Pilla, Fabio, Niznikowski, R, Roosen, J, Scarpa, R, Sechi, T, Taberlet, P, Taylor, M, Togan, I, Trommetter, M, Van, Cann, Lisette, M, Vlaic, Augustin, Wiskin, L, and Zundel, S.

Subjects

Gene Flow, Population, SNP, Population genetics, Single-nucleotide polymorphism, Biology, Polymorphism, Single Nucleotide, Gene flow, Environmental Science(all), Geographical distance, Animals, education, Socioeconomics, QH540-549.5, Phylogeny, Ecology, Evolution, Behavior and Systematics, General Environmental Science, GOAT BREEDS, Genetics, education.field_of_study, Genetic diversity, Ecology, Geography, Greece, Settore AGR/17 - ZOOTECNICA GENERALE E MIGLIORAMENTO GENETICO, Genetic Carrier Screening, Goats, Nucleotide polymorphisms, Italy, Albania, Mantel test, Razze caprine, Polimorfismi nucleotidici, Research Article

Abstract

Background SNP data of goats of three Mediterranean countries were used for population studies and reconstruction of geographical patterning. 496 individuals belonging to Italian, Albanian and Greek breeds were genotyped to assess the basic population parameters. Results A total of 26 SNPs were used, for a total of 12,896 genotypes assayed. Statistical analysis revealed that breeds are not so similar in terms of genetic variability, as reported in studies performed using different markers. The Mantel test showed a strongly significant correlation between genetic and geographic distance. Also, PCA analysis revealed that breeds are grouped according to geographical origin, with the exception of the Greek Skopelos breed. Conclusion Our data point out that the use of SNP markers to analyze a wider breed sample could help in understanding the recent evolutionary history of domestic goats. We found correlation between genetic diversity and geographic distance. Also PCA analysis shows that the breeds are well differentiated, with good correspondence to geographical locations, thus confirming the correlation between geographical and genetic distances. This suggests that migration history of the species played a pivotal role in the present-day structure of the breeds and a scenario in which coastal routes were easier for migrating in comparison with inland routes. A westward coastal route to Italy through Greece could have led to gene flow along the Northern Mediterranean.

Published

2009

5. Large-scale mitochondrial DNA analysis of the domestic goat reveals six haplogroups with high diversity

Author

Naderi, S., Rezaei, H. R., Taberlet, P., Zundel, S., Rafat, S. A., Naghash, H. R., Barody, El, M. A. A., Ertugrul, Pompanon, O., Abo, Shehada, Ajmone, M., P. M., Tarrayrah, Al, Angiolillo, J., Baret, A., Baumung, P., Beja, Pereira, Bertaglia, A., Bordonaro, Salvatore, Bruford, M., Caloz, R., Canali, G., Canon, J., Cappuccio, I., Carta, A., Cicogna, M., Crepaldi, P. v, Dalamitra, S., Krugmann, D., Dobi, P., Popielarczyk, D., Dunner, S., D'Urso, G., M. A. A., England, Erhardt, P., Ertugrul, G., Prinzenberg, O., E. M., Ibeagha, Awemu, Strzelec, E., Aziz, E., Fornarelli, F., Garcia, F., Georgoudis, D., Gesine, A., Giovenzana, L., Gutscher, S., Hewitt, K., Hoda, G., Horst, A., Istvan, B., Juma, A., G. p, Joost, Jones, S., Karetsou, S., Kliambas, K., Koban, G., Kutita, E., Lazlo, O., Lenstra, F., J. A., Ligda, Lipsky, C., Luikart, S., Glowatzki, G., M. L., Marilli, Marletta, Donata, Milanesi, E., Negrini, R., Nijman, I. J., Obexer, Ruff, Papachristoforou, G., Pariset, C., Pellecchia, L., Peter, M., Perez, C., Pietrolà, T., Pilla, E., Niznikowski, F., Roosen, R., Scarpa, J., Sechi, R., Taberlet, T., Taylor, P., Togan, M., Trommetter, I., Valentini, M., Van, Cann, L. M., Vlaic, Wiskin, A., Zundel, L., Laboratoire d'Ecologie Alpine (LECA), Université Joseph Fourier - Grenoble 1 (UJF)-Centre National de la Recherche Scientifique (CNRS)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry]), Natural Resources Faculty, University of Guilan, Environmental Sciences Department, Gorgan University of Agriculture and Natural Resources, Animal Science Department, University of Tabriz [Tabriz], Animal Production Department, Minia University, Department of Genetics, and Ankara University

Subjects

Haplogroup, Evolutionary Biology/Animal Genetics, Phylogeny, 2. Zero hunger, Genetics, [SDV.EE]Life Sciences [q-bio]/Ecology, environment, 0303 health sciences, education.field_of_study, Multidisciplinary, Goats, 04 agricultural and veterinary sciences, Mitochondria, Mitochondrial, Genetic structure, Medicine, Research Article, Mitochondrial DNA, Evolution, Science, Population, [SDV.BID]Life Sciences [q-bio]/Biodiversity, Biology, DNA, Mitochondrial, Models, Biological, Evolution, Molecular, 03 medical and health sciences, Species Specificity, Animals, Genetics, Population, Genetics and Genomics/Population Genetics, Domestication, education, 030304 developmental biology, Genetic diversity, Evolutionary Biology, Polymorphism, Genetic, Models, Genetic, Haplotype, 0402 animal and dairy science, Genetic Variation, Molecular, DNA, 040201 dairy & animal science, Haplotypes, Evolutionary biology, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, Haplogroup A

Abstract

International audience; BACKGROUND: From the beginning of domestication, the transportation of domestic animals resulted in genetic and demographic processes that explain their present distribution and genetic structure. Thus studying the present genetic diversity helps to better understand the history of domestic species. METHODOLOGY/PRINCIPAL FINDINGS: The genetic diversity of domestic goats has been characterized with 2430 individuals from all over the old world, including 946 new individuals from regions poorly studied until now (mainly the Fertile Crescent). These individuals represented 1540 haplotypes for the HVI segment of the mitochondrial DNA (mtDNA) control region. This large-scale study allowed the establishment of a clear nomenclature of the goat maternal haplogroups. Only five of the six previously defined groups of haplotypes were divergent enough to be considered as different haplogroups. Moreover a new mitochondrial group has been localized around the Fertile Crescent. All groups showed very high haplotype diversity. Most of this diversity was distributed among groups and within geographic regions. The weak geographic structure may result from the worldwide distribution of the dominant A haplogroup (more than 90% of the individuals). The large-scale distribution of other haplogroups (except one), may be related to human migration. The recent fragmentation of local goat populations into discrete breeds is not detectable with mitochondrial markers. The estimation of demographic parameters from mismatch analyses showed that all groups had a recent demographic expansion corresponding roughly to the period when domestication took place. But even with a large data set it remains difficult to give relative dates of expansion for different haplogroups because of large confidence intervals. CONCLUSIONS/SIGNIFICANCE: We propose standard criteria for the definition of the different haplogroups based on the result of mismatch analysis and on the use of sequences of reference. Such a method could be also applied for clarifying the nomenclature of mitochondrial haplogroups in other domestic species.

Published

2007

6. Assessing the spatial dependence of adaptive loci in 43 European and Western Asian goat breeds using AFLP markers

Author

Colli, L., Joost, S., Negrini, R., Nicoloso, L., Crepaldi, P., Ajmone Marsan, P., Abo Shehada, M., Al Tarrayrah, J., Baret, P., Baumung, R., Beja Pereira, A., Bertaglia, M., Bordonaro, S., Bruford, M., Caloz, R., Canali, G., Canon, J., Cappuccio, I., Carta, A., Cicogna, M., Cortes, O., Dalamitra, S., Daniela, K., Dobi, P., Dominik, P., Dunner, S., D Urso, G., El Barody, M. A. A., England, P., Erhardt, G., Ertugrul, O., Prinzenberg, E. M., Ibeagha Awemu, E., Strzelec, E., Fadlaoui, A., Fornarelli, F., Garcia, D., Georgoudis, A., Lühken, G., Giovenzana, S., Gutscher, K., Hewitt, G., Hoda, A., Brandt, H., Istvan, A., Juma, G., Jones, S., Karetsou, K., Kliambas, G., Koban, E., Kutita, O., Fesus, L., Lenstra Johannes, A., Ligda, C., Lipsky, S., Luikart, G., Marie Louise, G., Marilli, M., Marletta, D., Milanesi, E., Nijman Isaäc, J., Obexer Ruff, G., Papachristoforou, C., Pariset, L., Pellecchia, M., Peter, C., Perez, T., Fabio PILLA, Andrea, Mariasilvia D., Niznikowskian Roosen, R., Juttak Scarpa, R., Sechi, T., Taberlet, P., Taylor, M., Togan, I., Trommetter, M., Valentini, A., Cann Lisette, M., Vlaic, A., Wiskin, L., and Zundel, S.