×

zbMATH — the first resource for mathematics

Disequilibrium among several linked neutral genes in finite population. I: Mean changes in disequilibrium. (English) Zbl 0291.92024

MSC:
92D10 Genetics and epigenetics
PDF BibTeX Cite
Full Text: DOI
References:
[1] Bennett, J.H., On the theory of random mating, Ann. eugen, 184, 311-317, (1954)
[2] Franklin, I.R.; Lewontin, R.C., Is the gene the unit of selection?, Genetics, 65, 707-734, (1970)
[3] Geiringer, H., On the probability theory of linkage in Mendelian heredity, Ann. math. stat, 15, 25-57, (1944) · Zbl 0063.01560
[4] Haldane, J.B.S., The combination of linkage values and the calculation of distances between the loci of linked factors, J. genet, 8, 299-309, (1919)
[5] Hill, W.G.; Robertson, A., The effect of linkage on limits to artificial selection, Genet. res, 8, 269-294, (1966)
[6] Hill, W.G.; Robertson, A., Linkage disequilibrium in finite populations, Theor. appl. genet, 38, 226-231, (1968)
[7] Karlin, S.; McGregor, J., Rates and probabilities of fixation for two locus random mating finite populations without selection, Genetics, 50, 141-159, (1968)
[8] Kendall, M.G.; Stuart, A., ()
[9] Kimura, M., Random genetic drift in multi-allelic locus, Evolution, 9, 419-435, (1955)
[10] Kimura, M., A probability method for treating inbreeding systems, especially with linked genes, Biometrics, 19, 1-17, (1963) · Zbl 0107.36904
[11] Ohta, T.; Kimura, M., Linkage disequilibrium due to random genetic drift, Genet. res, 13, 47-55, (1969)
[12] Ohta, T.; Kimura, M., Linkage disequilibrium at steady state determined by random genetic drift and recurrent mutation, Genetics, 63, 229-238, (1969)
[13] Michell, Random mating and random union of gamets models for finite dioecious populations, Theor. pop. biol, 4, 222-247, (1973) · Zbl 0321.92014
[14] Morley Jones, R., Linkage distributions and epistacy in quantitative inheritance, Heredity, 15, 153-159, (1960)
[15] Robertson, A., The effect of inbreeding on the variation due to recessive genes, Genetics, 37, 189-207, (1952)
[16] Schnell, F.W., Some general formulations of linkage effects in inbreeding, Genetics, 46, 947-957, (1961)
[17] Serant, D.; Villard, M., Linearisation of crossing over and mutation in a finite random mating population, Theor. pop. biol, 3, 249-257, (1972) · Zbl 0239.92011
[18] Slatkin, M., On treating the chromosome as the unit of selection, Genetics, 72, 157-168, (1972)
[19] Strickberger, M.W., Genetics, (1968), Macmillan New York
[20] Sved, J.A., The stability of linked systems of loci with a small population size, Genetics, 59, 543-563, (1968)
[21] Sved, J.A., Linkage disequilibrium and homozygosity of chromosome segments in finite populations, Theor. pop. biol, 2, 125-141, (1971)
[22] Watterson, G.A., The effect of linkage in a finite random mating population, Theor. pop. biol, 1, 72-87, (1970) · Zbl 0244.92003
[23] Watterson, G.A., On the equivalence of random mating and random union of gametes models in finite, monecious populations, Theor. pop. biol, 1, 233-250, (1970) · Zbl 0244.92004
[24] Wright, S., Inbreeding and recombination, (), 420-433 · JFM 59.0516.04
This reference list is based on information provided by the publisher or from digital mathematics libraries. Its items are heuristically matched to zbMATH identifiers and may contain data conversion errors. It attempts to reflect the references listed in the original paper as accurately as possible without claiming the completeness or perfect precision of the matching.