Your search keyword '"Hill-Robertson interference"' showing total 2 results

1. Effects of Selection at Linked Sites on Patterns of Genetic Variability.

Author

Charlesworth, Brian and Jensen, Jeffrey D.

Abstract

Patterns of variation and evolution at a given site in a genome can be strongly influenced by the effects of selection at genetically linked sites. In particular, the recombination rates of genomic regions correlate with their amount of within-population genetic variability, the degree to which the frequency distributions of DNA sequence variants differ from their neutral expectations, and the levels of adaptation of their functional components. We review the major population genetic processes that are thought to lead to these patterns, focusing on their effects on patterns of variability: selective sweeps, background selection, associative overdominance, and Hill–Robertson interference among deleterious mutations. We emphasize the difficulties in distinguishing among the footprints of these processes and disentangling them from the effects of purely demographic factors such as population size changes. We also discuss how interactions between selective and demographic processes can significantly affect patterns of variability within genomes. [ABSTRACT FROM AUTHOR]

Published

2021

2. The Relations Between Recombination Rate and Patterns of Molecular Variation and Evolution in Drosophila.

Author

Charlesworth, Brian and Campos, José L.

Subjects

*GENETIC recombination, *BIOLOGICAL variation, *DROSOPHILA evolution, *DROSOPHILA genetics, *INSECT population genetics, *CROSSING over (Genetics), *INSECTS

Abstract

Genetic recombination affects levels of variability and the efficacy of selection because natural selection acting at one site affects evolutionary processes at linked sites. The variation in local recombination rates across the Drosophila genome provides excellent material for testing hypotheses concerning the evolutionary consequences of recombination. The current state of knowledge from studies of Drosophila genomics and population genetics is reviewed here. Selection at linked sites has influenced the relations between recombination rates and patterns of molecular variation and evolution, such that higher rates of recombination are associated with both higher levels of variability and a greater efficacy of selection. It seems likely that background selection against deleterious mutations is a major factor contributing to these patterns in genome regions in which crossing over is rare or absent, whereas selective sweeps of positively selected mutations probably play an important role in regions with crossing over. [ABSTRACT FROM AUTHOR]

Published

2014