![]() ![]() ![]() Kusza, S., Nagy, I., Sasvari, Z., Stagel, A., Nemeth, T., Molnar, A., Kume, K., Bosze, Z., Javor, A. 2.9.3): a computer program to calculate F-statistics. ![]() Proceedings of the National Academy of Sciences, USA. Genetic absolute dating based on microsatellites and the origin of modem humans. Panels of markers for parentage verification tested at the 2001/02 ISAG comparison test. WEITZPRO: a software for analysing genetic diversity. Genetic diversity and variability in Alpine sheep breeds. Genetic diversity and structure of the West Balkan Pramenka sheep types as revealed by microsatellite and mitochondrial DNA analysis. 1–15.Ĭinkulov, M., Popovski, Z., Porcu, K., Tanaskoovska, B., Hodzic, A., Bytyqi, H., Mehmeti, H., Margeta, V., Djedovic, R., Hoda, A., Trailovic, R., Brka, M., Markovic, B., Vazic, B., Vegara, M., Olasker, I. Report of an Advisory Group of the International Society of Animal Genetics as a Contribution to Assist FAO Prepare for the MoDAD Project. G., Fries, R., Bumstead, N., Nicholas, F. Construction of genetic linkage maps in man using restriction fragment length polymorphisms. Genetic diversity of Chhotanagpuri sheep-A mutton breed of eastern agroecological zone of India. Asian-Australasian Journal of Animal Science. Biodiversity and conservation of Indian sheep genetic resources-an overview. Genetic characterization and breed assignment in Austrian sheep breeds using microsatellite marker information. Morphological and genetic characterization of Ganjam sheep. Microsatellite analysis characterizes Burkina Faso as a genetic contact zone between Sahelian and Djallonke sheep. J., Fernandez, I., Ouedraogo-Sanou, G., Sawadogo, L. Sheep and goat breeds of India FAO Animal production and Health Paper, 30. The information generated would help in shaping genetic management and conservation programs for the sheep breeds under consideration.Īcharya, R.M., 1982. Estimation of the genetic differentiation ( F ST) and genetic distance ( D A) between the pairs of breeds revealed a close relationship between Deccani and Madgyal sheep ( F ST = 0.017 D A = 0.080) and greatest demarcation between Madgyal and Garole breeds ( F ST = 0.110 D A = 0.622). The marginal loss of diversity incurred with removal of Nellore and Garole breeds was higher (>27%), whereas removal of Deccani breed resulted in lowest loss of diversity (3.84%) from the set. The contribution of each breed to the total diversity of the breeds was quantified by the Weitzman approach. Within population inbreeding estimate ( F IS) revealed a significant deficit of heterozygotes in Deccani, Madgyal, Nellore and Garole, whereas Ganjam and Chhotanagpuri sheep showed an excess of heterozygotes. The highest allele and gene diversity was observed for Nellore sheep, while the lowest was exhibited by Garole breed. The allele diversity ranged from 6.40 to 7.92, whereas the gene diversity varied from 0.617 to 0.727. Parameters of genetic variation, viz., allele diversity, observed heterozygosity, gene diversity and population inbreeding estimates, were calculated for the six breeds. Information is presented on the genetic diversity and relationship among six Indian sheep breeds/populations belonging to the Southern peninsular and Eastern agroecological zones, based on microsatellite markers. ![]()
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