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--- genetics [2019/09/16 02:55]
floyd
+++ genetics [2019/09/16 02:57]
floyd
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 Genetics is a relatively new and broad field. It can be roughly divided into four major areas.
   * Classical Genetics (e.g., Mendelian crosses, dominance, sex-linkage, linkage, recombinant mapping (Poisson distribution and Haldane's correction), epistatsis, morphs, genetic dissection, complementation, pedigree analysis (and autozygosity), chi-square testing)
-  * Molecular Genetics (e.g., the central dogma, codon tables, gene structure, gene regulation, LOD score mapping, epigenetics, X-inactivation, imprinting, cell cycle control, cancer genetics)
+  * Molecular Genetics (e.g., the central dogma, codon tables, gene structure, gene regulation, LOD score mapping, epigenetics, X-inactivation, imprinting, cell cycle control, cancer genetics, gain-of-function and loss-of-function mutations)
-  * Population Genetics (inbreeding, $F_{ST}$ and migration rates, effective population size, the coalescence of two lineages, neutral mutations and the rate of evolution, balancing selection, directional selection, purifying selection and genomic mutation rates, gain-of-function and loss-of-function mutations)
+  * [[Population Genetics]] (inbreeding, $F_{ST}$ and migration rates, effective population size, the coalescence of two lineages, neutral mutations and the rate of evolution, balancing selection, directional selection, purifying selection and genomic mutation rates)
   * Quantitative Genetics (e.g., binomial and normal distributions, heritability, regression, the breeder's equation, GWAS, gene-environment interactions, relative risk, heritability evolving)

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