Population Genetics. Matthew B. Hamilton
Чтение книги онлайн.

Читать онлайн книгу Population Genetics - Matthew B. Hamilton страница 43

Название: Population Genetics

Автор: Matthew B. Hamilton

Издательство: John Wiley & Sons Limited

Жанр: Биология

Серия:

isbn: 9781118436899

isbn:

СКАЧАТЬ A1B1 g 11 0.01 0.81 0.41 A2B2 g 22 0.81 0.01 0.41 A1B2 g 12 0.09 0.09 0.09 A2B1 g 21 0.09 0.09 0.09 D 0.0 0.0 0.16 D' 0.0 0.0 0.16/0.25 = 0.64 Graphs depict the decay of gametic disequilibrium over time with random mating and three levels of self-fertilization.

       Population size

      It is possible to observe gametic disequilibrium just by chance in small populations or small samples of gametes. Recombination itself is a random process in terms of where crossing over events occur in the genome. As shown in the Appendix, estimates are more likely to approach their true values as larger samples are taken. This applies to mating patterns and the number of gametes that contribute to surviving progeny in biological populations. If only a few individuals mate (even at random) or only a few gametes found the next generation, then this is a small “sample” of possible gametes that could deviate from independent segregation just by chance. When the chance effects due to population size and recombination are in equilibrium, the effects of population size can be summarized approximately by

      (2.40)equation

Graph depicts expected levels of the squared gametic disequilibrium correlation due to the combination of finite effective population size and recombination at rate.

      Interact box 2.4 Estimating genotypic disequilibrium

      In practice, the recombination fraction for two loci can be measured by crossing a double heterozygote with a double homozygote and then counting the recombinant gametes. However, this basic experiment cannot be carried out unless individuals can be mated in controlled crosses, excluding many, if not most, species. For two diploid loci, disequilibrium can occur between loci at two alleles positioned on the same chromosome, as well as between loci at two alleles positioned on different chromosomes (Weir 1996). With observed genotype data from pairs of loci where the phase of alleles or gamete organization is unknown, these latter two types of between‐locus disequilibrium cannot be distinguished but they can be considered together as genotypic disequilibrium (Rogers and Huff 2009).

      An approximate means to test for gametic equilibrium is to examine the joint frequencies of genotypes at pairs of loci. If there is independent segregation at the two loci, then the genotypes observed at one locus should be independent of the genotypes at the other locus. Such contingency table tests are commonly employed to determine whether genotypes at one locus are independent of genotypes at another locus.

      In the striped bass case shown here, null alleles (microsatellite alleles that are present in the genome but not reliably amplified by PCR) are probably the cause of fewer than expected heterozygotes that lead to a non‐random joint distribution of genotypes (Brown et al. 2005). Thus, the perception of gametic disequilibrium can be due to technical limitations of genotyping techniques in addition to population genetic processes such as reduced recombination (or linkage), self‐fertilization, consanguineous mating, and mixing of diverged populations that cause actual gametic disequilibrium.

      Genepop on the Web can be used to construct genotype count tables for pairs of loci and carry out statistical tests that compare СКАЧАТЬ