• 1
    Eizirik, E., Murphy, W. J., O'Brien, S. J. (2001) Molecular dating and biogeography of the early placental mammal radiation. J Hered. 92: 212219.
  • 2
    Page, S. L., Goodman, M. (2001) Catarrhine phylogeny: noncoding DNA evidence for a diphyletic origin of the Mangabeys and for a human-chimpanzee clade. Mol Phylogen and Evol. 18: 1425.
  • 3
    Rogers, J., Mahaney, M. C., Witte, S. M., et al (2000) A genetic linkage map of the baboon (Papio hamadryas) genome based on human microsatellite polymorphisms. Genomics. 67: 237247.
  • 4
    Williams-Blangero, S., VandeBerg, J. L., Blangero, J., Konigsberg, L., Dyke, B. (1990) Genetic differentiation between baboon subspecies: Relevance for biomedical research. Am J Primatol. 20: 6781.
  • 5
    Lewis, D. S., Soderstrom, P. G. (1993) In vivo and in vitro development of visceral adipose tissue in a nonhuman primate (Papio species). Metabolism. 42: 12771283.
  • 6
    Almasy, L., Blangero, J. (1998) Multipoint quantitative-trait linkage analysis in general pedigrees. Am J Hum Genet. 62: 11981211.
  • 7
    Self, S. G., Liang, K-Y. (1987) Asymptotic properties of maximum likelihood estimators and likelihood ratio tests under nonstandard conditions. J Am Stat Assoc. 82: 605610.
  • 8
    Comuzzie, A. G., Allison, D. B. (1998) The search for human obesity genes. Science. 280: 13741377.
  • 9
    Clarkson, T. B., Koritnik, D. R., Weingand, K. W., Miller, L. C. (1985) Nonhuman primate models of atherosclerosis: potential for the study of diabetes mellitus and hyperinsulinemia. Metabolism. 34: 5159.
  • 10
    Ortmeyer, H. K. (1997) Relationship of glycogen synthase and glycogen phosphorylase to protein phosphatase 2C and cAMP-dependent protein kinase in liver of obese rhesus monkeys. Obes Res. 5: 613621.
  • 11
    Stokes, W. S. (1986) Spontaneous diabetes mellitus in a baboon (Papio cynocephalus anubis). Lab Anim Sci. 36: 529533.
  • 12
    Sun, Y-l, Ma, X-j, Zhou, D-b, Vacek, I., Sun, A. M. (1996) Normalization of diabetes in spontaneously diabetic cynomolgus monkeys by xenografts of microencapsulated porcine islets without immunosuppression. J Clin Invest. 98: 14171422.
  • 13
    Walston, J., Lowe, A., Silver, K., et al (1997) The β3-adrenergic receptor in the obesity and diabetes prone rhesus monkey is very similar to human and contains arginine at codon 64. Gene. 188: 207213.
  • 14
    Cornblath, D. R., Hillman, M. A., Striffler, J. S., Herman, C. N., Hansen, B. C. (1989) Peripheral neuropathy in diabetic monkeys. Diabetes. 38: 13651370.
  • 15
    Bodkin, N. L., Hannah, J. S., Ortmeyer, H. K., Hansen, B. C. (1993) Central obesity in rhesus monkeys: association with hyperinsulinemia, insulin resistance and hypertriglyceridemia? Int J Obes Relat Metab Disord. 17: 5361.
  • 16
    Birrell, A. M., Heffernan, S. J., Ansselin, A. D., et al (2000) Functional and structural abnormalities in the nerves of type I diabetic baboons: aminoguanidine treatment does not improve nerve function. Diabetologia. 43: 110116.
  • 17
    de Koning, E. J., Bodkin, N. L., Hansen, B. C., Clark, A. (1993) Diabetes mellitus in Macaca mulatta monkeys is characterised by islet amyloidosis and reduction in β-cell population. Diabetologia. 36: 378384.
  • 18
    Hansen, B. C., Bodkin, N. L. (1993) Primary prevention of diabetes mellitus by prevention of obesity in monkeys. Diabetes. 42: 18091814.
  • 19
    Jen, K. L., Hansen, B. C., Metzger, B. L. (1985) Adiposity, anthropometric measures, and plasma insulin levels of rhesus monkeys. Int J Obes. 9: 213224.
  • 20
    Mahaney, M. C., Rainwater, D. L., Rogers, J., et al (1998) A genome search in pedigreed baboons detects a locus mapping to human chromosome 18q that influences variation in serum levels of HDL and its subfractions. Circulation. 98 (suppl): 15.
  • 21
    Mahaney, M. C., Rainwater, D. L., VandeBerg, J. L., et al (1999) A quantitative trait locus for an HDL subfraction response to diet in pedigreed baboons: suggestive evidence for linkage to human chromosome 18q. Circulation. 100: I-4I-5.
  • 22
    Mahaney, M. C., Czerwinsky, S. A., Rogers, J. (1999b) Possible quantitative trait loci for serum levels of human cartilage glycoprotein-39 (YKL-40) and osteocalcin (OC) in pedigreed baboons map to human chromosomes 6 and 12. J Bone Min Res. 14 (suppl. 1): S142.
  • 23
    Martin, L. J., Blangero, J., Rogers, J. A., Mahaney, M. C., Hixson, J. E., Comuzzie, A. G. (2001) A major quantitative trait locus determining serum estradiol levels in baboons is located on human chromosome 20. Physiol Genom. 5: 7580.
  • 24
    Dutrillaux, B., Viegas-Pequignot, E., Dubos, C., Masse, R. (1978) Complete or almost complete analogy of chromosome banding between the baboon (Papio papio) and man. Hum Genet. 43: 3746.
  • 25
    Rogers, J., Mahaney, M. C., Witte, S. M., et al (1995) Linkage mapping in Papio baboons: conservation of a syntenic group of six markers on human chromosome 1. Genomics. 28: 251254.
  • 26
    Rogers, J., Hixson, J. E. (1997) Baboons as an animal model for genetic studies of common human disease. Am J Hum Genet. 61: 489493.
  • 27
    VandeBerg, J. L., Williams-Blangero, S. (1997) Advantages and limitations of nonhuman primates as animal models in genetic research on complex diseases. J Med Primatol. 26: 113119.
  • 28
    Altmann, J., Schoeller, D., Altmann, S. A., Muruthi, P., Sapolsky, R. M. (1993) Body size and fatness of free-living baboons reflect food availability and activity levels. Am J Primat. 30: 149161.
  • 29
    Despres, J. P. (2001) Health consequences of visceral obesity. Ann Med. 33: 534541.