Selection Acting on Genomes
Selection Acting on Genomes
Populations evolve as mutations arise in individual organisms and, through hereditary transmission, may become "fixed" (shared by all individuals) in the population. Most mutations are lethal or have negative fitness consequences for the organism. Others have essentially no effect on organismal fitness and can become fixed through the neutral stochastic process known as random drift. However, mutations may also produce a selective advantage that boosts their chances of reaching fixation. Regions of genomes where new mutations are beneficial, rather than neutral or deleterious, tend to evolve more rapidly due to positive selection. Genes involved in immunity and defense are a well-known example; rapid evolution in these genes presumably occurs because new mutations help organisms to prevail in evolutionary "arms races" with pathogens. In recent years genome-wide scans for selection have enlarged our understanding of the genome evolution of various species. In this chapter, we will focus on methods to detect selection on the genome. In particular, we will discuss probabilistic models and how they have changed with the advent of new genome-wide data now available.
- Zurich University of Applied Sciences Switzerland
- SIB Swiss Institute of Bioinformatics Switzerland
- University of St Andrews United Kingdom
- University of Lausanne Switzerland
Genome-wide association study, Positive selection scan, Genotype, Genetic selection, Web Browser, Mammal, Conserved and accelerated region, Evolution, Molecular, Codon model, Animals, Humans, Selection, Genetic, Codon, Phylogeny, Mammals, Models, Statistical, Polymorphism, Genetic, Genetic polymorphism, Genome, Models, Genetic, Polymorphism-aware phylogenetic model, 572: Biochemie, Computational Biology, Genomics, Selection-mutation model, Genetic models, Mutation, Molecular evolution, Statistical model, Software, Genome-Wide Association Study
Genome-wide association study, Positive selection scan, Genotype, Genetic selection, Web Browser, Mammal, Conserved and accelerated region, Evolution, Molecular, Codon model, Animals, Humans, Selection, Genetic, Codon, Phylogeny, Mammals, Models, Statistical, Polymorphism, Genetic, Genetic polymorphism, Genome, Models, Genetic, Polymorphism-aware phylogenetic model, 572: Biochemie, Computational Biology, Genomics, Selection-mutation model, Genetic models, Mutation, Molecular evolution, Statistical model, Software, Genome-Wide Association Study
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