LA DIVERSIDAD GENÉTICA DE LOS BOVINOS CRIOLLOS MEXICANOS
                                                      MEDIANTE SECUENCIAS DE DNA MITOCONDRIAL                    305






           Kelly L, Nicolini P, D’Angelo M, et al. (2003). Polimorfismo del gen DRB3.2 en bovinos Criollos del Uruguay. Archivos de Zoo-
                 tecnia, 52: 77-80.

           Kim KI, Lee JH, Lee SS, Yang YH. (2003). Phylogenetic relationship of northeast Asian cattle to other cattle populations deter-
                 mined using mitochondrial DNA D-loop sequence polymorphism. Biochemical Genetics, 41(3/4): 91-98.

           Lai SJ, Liu YP, Liu YX et al. (2006). Genetic diversity and origin of Chinese cattle revealed by mtDNA D-loop sequence varia-
                 tion. Molecular Phylogenetics and Evolution, 38: 146-154.

           Lezama Núñez, Paulina René. (2008). Estudio de la diversidad y las relaciones genéticas de bovinos Criollos Mexicanos a partir
                 de DNA mitocondrial. Tesis de Posgrado en Biología. Facultad de Ciencias, Universidad Nacional Autónoma de México.

           Lirón JP, Ripoli MV, De Luca JC, et al. (2002). Analysis of genetic diversity and population structure in Argentine and Bolivian
                 creole Cattle using five loci related to milk production. Genetics and Molecular Biology, 25(4): 413-419.

           Lirón JP, Bravi CM, Mirol PM, et al. (2006). African matrilineages in American Creole Cattle: evidence of two independent
                 continental sources. Animal Genetics, 37(4): 379-382.

           Loftus RT, MacHugh DE, Bradley DG,  et al. (1994). Evidence for two independent domestications of cattle.  PNAS  USA,
                 91:2757-2761.

           Loftus RT, Ertugrul O, Harba AH, et al. (1999). A microsatellite survey of cattle from a centre of origin: the Near East. Molecular
                 Ecology, 8: 2015-2022.

           MacHugh DE, Shriver MD, Loftus RT et al. (1997). Microsatellite DNA variation and the evolution, domesticarion and phylo-
                 geography of taurine and zebu cattle (Bos taurus and Bos indicus). Genetics, 146: 1071-1086.

           MacHugh DE, Troy CS, McCormick F. et al. (1999). Early medieval cattle remains from a Scandinavian settlement in Dublin:
                 genetic analysis and comparison with extant breeds. Phil. Trans. R. Soc. Lond. B., 354: 99-109.

           Magee DA, Meghen C, Harrison S. et al. (2002). A partial African ancestry for the creole cattle populations of the Caribbean.
                 J. Heredity, 93(6 ): 429-432.

           Mannen H, Kojima T, Oyama K, et al. (1998). Effect of mitochondrial DNA variation on carcass traits of Japanese Black cattle.
                 Journal of Animal Science, 76(1): 36-41.

           Mannen H, Tsuji S, Loftus RT, Bradley DG. (1998). Mitochondrial DNA variation and evolution of Japanese Black cattle (Bos
                 taurus). Genetics, 150: 1169-1175.

           Mannen H, Kohno M, Nagata Y, et al. (2004). Independent mitochondrial origin and historical genetic differentiation in North
                 Eastern Asian cattle. Molecular Phylogenetics and Evolution, 32: 539-544.







                                                                Universidad Autónoma de Chiapas