Griffiths, R.C., and S. Tavaré, 1994c, "Unrooted genealogical tree probabilities in the infinitely-many-sites model," Math. Biosci., in press.
Hansen, J.C., 1994, "Order statistics for decomposable combinatorial structures," Random Struct. Alg. 5, 517-533.
Horai, S., and K. Hayasaka, 1990, "Intraspecific nucleotide sequence differences in the major noncoding region of human mitochondrial DNA," Am. J. Hum. Genet. 46, 828-842.
Kimura, M., 1969, "The number of heterozygous nucleotide sites maintained in a finite population due to steady influx of mutations," Genetics 61, 893-903.
Kimura, M., and J.F. Crow, 1964, "The number of alleles that can be maintained in a finite population," Genetics 49, 725-738.
Kingman, J.F.C., 1974, "Random discrete distributions, "J. R. Stat. Soc. 37, 1-22.
Kingman, J.F.C., 1977, "The population structure associated with the Ewens sampling formula," Theor. Popul. Biol. 11, 274-283.
Kingman, J.F.C., 1982a, "On the genealogy of large populations," J. Appl. Probab. 19A, 27-43.
Kingman, J.F.C., 1982b, "The coalescent," Stoch. Processes Appl. 13, 235-248.
Kolchin, V.F., 1976, "A problem of the allocation of particles in cells and random mappings," Theory Probab. Its Applic. (Engl. Transl.) 21, 48-63.
Kolchin, V.F., 1986, Random Mappings, New York: Optimization Software, Inc.
Lundstrom, R., 1990, Stochastic Models and Statistical Methods for DNA Sequence Data, PhD thesis, Department of Mathematics, University of Utah.
Lundstrom, R., S. Tavaré, and R.H. Ward, 1992a, "Estimating mutation rates from molecular data using the coalescent," Proceedings of the National Academy of Sciences USA 89, 5961-5965.
Lundstrom, R., S. Tavaré, and R.H. Ward, 1992b, "Modelling the evolution of the human mitochondrial genome," Math. Biosci. 122, 319-336.
Maddison, D.R., 1991, "African origin of human mitochondrial DNA reexamined," Systematic Zoology 40, 355-363.
McMorris, F.R., 1977, "On the compatibility of binary qualitative taxonomic characters," Bull. Math. Biol. 39, 133-138.
Mutafciev, L., 1984, "On some stochastic problems of discrete mathematics," pp. 57-80 in Mathematics and Education in Mathematics (Sunny Beach), Sophia, Bulgaria: Bulgarian Academy of Sciences.
Nei, M., 1992, "Age of the common ancestor of human mitochondrial DNA," Mol. Biol. Evol. 9, 1176-1178.
Rogers, A., and H. Harpending, 1992, "Population growth makes waves in the distribution of pairwise genetic differences," Mol. Biol. Evol. 9, 552-569.
Schurr, T., S. Ballinger, Y. Gan, J. Hodge, D.A. Merriwether, D. Lawrence, W. Knowler, K. Weiss, and D. Wallace, 1990, "Amerindian mitochondrial DNAs have rare Asian mutations at high frequencies, suggesting they derived from four primary maternal lineages," Am. J. Hum. Genet. 47, 613-623.
Slatkin, M., and R.R. Hudson, 1991, "Pairwise comparisons of mitochondrial DNA sequences in stable and exponentially growing populations," Genetics 129, 555-562.