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         headline:Linkage disequilibrium in finite populations
         description:A theoretical investigation has been made of the influence of population size (N) and recombination fraction (c) on linkage disequilibrium (D) between a pair of loci. Two situations were studied: (i) where both loci had no effect on fitness and (ii) where they showed heterozygote superiority, but no epistacy. If the populations are initially in linkage equilibrium, then the mean value ofD remains zero with inbreeding, but the mean ofD 2 increases to a maximum value and decreases until fixation is reached at both loci. The tighter the linkage and the greater the selection, then the later is the maximum in the mean ofD 2 reached, and the larger its value. The correlation of gene frequencies,r, in the population of gametes within segregating lines was also studied. It was found that, for a range of selection intensities and initial gene frequencies, the mean value ofr 2 was determined almost entirely byN c and time, measured proportional toN. The implication of these results on observations of linkage disequilibrium in natural populations is discussed.
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            Theoretical Investigation
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      headline:Linkage disequilibrium in finite populations
      description:A theoretical investigation has been made of the influence of population size (N) and recombination fraction (c) on linkage disequilibrium (D) between a pair of loci. Two situations were studied: (i) where both loci had no effect on fitness and (ii) where they showed heterozygote superiority, but no epistacy. If the populations are initially in linkage equilibrium, then the mean value ofD remains zero with inbreeding, but the mean ofD 2 increases to a maximum value and decreases until fixation is reached at both loci. The tighter the linkage and the greater the selection, then the later is the maximum in the mean ofD 2 reached, and the larger its value. The correlation of gene frequencies,r, in the population of gametes within segregating lines was also studied. It was found that, for a range of selection intensities and initial gene frequencies, the mean value ofr 2 was determined almost entirely byN c and time, measured proportional toN. The implication of these results on observations of linkage disequilibrium in natural populations is discussed.
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