Your search keyword '"ERTUGRUL, G"' showing total 3 results

1. Early suppression of familial Mediterranean fever attacks by single medium dose methyl-prednisolone infusion

Author

Huseyin T. E. Ozer, Suzan Dinkci, Ertugrul G. Erken, Eren Erken, Ramazan Gunesacar, Berna Bozkurt, and Çukurova Üniversitesi

Subjects

Adult, Male, Methyl-prednisolone, Methyl prednisolone, biology, Acute attack, business.industry, Interleukin-6, Familial Mediterranean fever, medicine.disease, Methylprednisolone, Rheumatology, Immunology, biology.protein, medicine, Humans, Corticosteroids, Female, Interleukin 6, business, Glucocorticoids

Abstract

PubMedID: 18313967 [No abstract available]

Published

2008

2. 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

3. Landscape genomics and biased FST approaches reveal single nucleotide polymorphisms under selection in goat breeds of North-East Mediterranean

Author

Pariset, L, Joost, S, Marsan, P. A, Valentini, A, Abo, Shehada, Jamil, M, A. T, Angiolillo, Baret, A, Baumung, P, R, Beja, Pereira, Bertaglia, A, Bordonaro, M, Bruford, S, Caloz, M, Canali, R, Canon, G, Cappuccio, J, Carta, I, Cicogna, A, Crepaldi, M, Dalamitra, P, Krugmann, S, Petrit, D, Popielarczyk, D, Susana, D, D'Urso, D, G, Barody, El, M. A. A, England, Erhardt, P, Ertugrul, G, O, Eva, Maria, Eveline, P, I. A, Ewa, Fadlaoui, S, Fornarelli, A, Garcia, F, Georgoudis, D, Gesine, A, Giovenzana, L, Gutscher, S, Hewitt, K, Hoda, G, Horst, A, Istvan, B, Juma, A, Joost, G, Jones, S, Karetsou, S, Kliambas, K, Koban, G, Kutita, E, Lazlo, O, Lenstra, F, J. A, Ligda, Lipsky, C, Luikart, S, Marie, Louise, Marilli, G, Marletta, M, Milanesi, D, Negrini, E, Nijman, R, I. J., Obexer, Ruff, Papachristoforou, G, Pariset, C, Pellecchia, L, Peter, M, Perez, C, Pietrolà, T, E, Pilla, Fabio, Roman, F, Roosen, N, Scarpa, J, Sechi, R, Taberlet, T, Taylor, P, Togan, M, Trommetter, I, Van, M, Lisette, C, Vlaic, M, Wiskin, A, Zundel, L, and Angiolillo, Antonella

Subjects

Genetics, Genetics (clinical), lcsh:QH426-470, Population, Single-nucleotide polymorphism, Genomics, Biology, Mediterranean Basin, Polymorphism, Single Nucleotide, SNP markers, Animals, Genetics(clinical), FST, Selection, Genetic, education, Allele frequency, Selection (genetic algorithm), GOAT BREEDS, education.field_of_study, Natural selection, Settore AGR/17 - ZOOTECNICA GENERALE E MIGLIORAMENTO GENETICO, Mediterranean Region, Goats, Nucleotide polymorphisms, lcsh:Genetics, Genetics, Population, Outlier, Razze caprine, Polimorfismi nucleotidici, Research Article

Abstract

Background In this study we compare outlier loci detected using a FST based method with those identified by a recently described method based on spatial analysis (SAM). We tested a panel of single nucleotide polymorphisms (SNPs) previously genotyped in individuals of goat breeds of southern areas of the Mediterranean basin (Italy, Greece and Albania). We evaluate how the SAM method performs with SNPs, which are increasingly employed due to their high number, low cost and easy of scoring. Results The combined use of the two outlier detection approaches, never tested before using SNP polymorphisms, resulted in the identification of the same three loci involved in milk and meat quality data by using the two methods, while the FST based method identified 3 more loci as under selection sweep in the breeds examined. Conclusion Data appear congruent by using the two methods for FST values exceeding the 99% confidence limits. The methods of FST and SAM can independently detect signatures of selection and therefore can reduce the probability of finding false positives if employed together. The outlier loci identified in this study could indicate adaptive variation in the analysed species, characterized by a large range of climatic conditions in the rearing areas and by a history of intense trade, that implies plasticity in adapting to new environments.