Matthew B. Hamilton

Population Genetics


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1908, they both formulated the relationship that can be used to predict allele frequencies given genotype frequencies or predict genotype frequencies given allele frequencies. This relationship is the well‐known Hardy–Weinberg equation.

      where p and q are allele frequencies for a genetic locus with two alleles.

Graph depicts Hardy–Weinberg expected genotype frequencies for AA, Aa, and aa genotypes (I-axis) for any given value of the allele frequency (x-axis).

       the organism is diploid,

       reproduction is sexual (as opposed to clonal),

       generations are discrete and non‐overlapping,

       the locus under consideration has two alleles,

       allele frequencies are identical among all mating types (i.e. sexes),

       mating is random (as opposed to assortative),

       there is random union of gametes,

       population size is very large, effectively infinite,

       migration is negligible (no population structure, no gene flow),

       mutation does not occur or its rate is very low,

       natural selection does not act (all individuals and gametes have equal fitness).

Schematic illustration of a de Finetti diagram for one locus with two alleles. The triangular coordinate system results from the requirement that the frequencies of all three genotypes must sum to one. Any point inside or on the edge of the triangle represents all three genotype frequencies of a population. The parabola describes Hardy–Weinberg expected genotype frequencies. The dashed lines represent the frequencies of each of the three genotypes between zero and one.

      Once you are at the Simulations website home page, use the Simulations menu to select the de Finetti simulation. The simulation is based on a triangular graph like that in Figure 2.6 with a control pane at the left where you can set parameters. With Mating Model set on Random Mating, use the sliders to set genotype frequencies. The parabola defines Hardy–Weinberg expected genotype frequencies, so try to adjust the genotype frequencies to fall at different locations along the parabola. Also, try genotype frequencies that are located above and below the parabola.