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Selfish Mitochondrial Dna Proliferates And Diversifies In Small, But Not Large, Experimental Populations Of Caenorhabditis Briggsae, Wendy S. Phillips, Anna Luella Coleman-Hulbert, Emily S. Weiss, Dana K. Howe, Sita Ping, Riana I. Wernick, Suzanne Estes, Dee R. Denver
Selfish Mitochondrial Dna Proliferates And Diversifies In Small, But Not Large, Experimental Populations Of Caenorhabditis Briggsae, Wendy S. Phillips, Anna Luella Coleman-Hulbert, Emily S. Weiss, Dana K. Howe, Sita Ping, Riana I. Wernick, Suzanne Estes, Dee R. Denver
Biology Faculty Publications and Presentations
Evolutionary interactions across levels of biological organization contribute to a variety of fundamental processes including genome evolution, reproductive mode transitions, species diversification, and extinction. Evolutionary theory predicts that so-called “selfish” genetic elements will proliferate when the host effective population size (Ne) is small, but direct tests of this prediction remain few. We analyzed the evolutionary dynamics of deletion-containing mitochondrial DNA (ΔmtDNA) molecules, previously characterized as selfish elements, in six different natural strains of the nematode Caenorhabditis briggsae allowed to undergo experimental evolution in a range of population sizes (N = 1, 10, 100, and 1,000) for a maximum …