Your search keyword '"Dolgin, Elie S."' showing total 5 results

1. The effects of recombination rate on the distribution and abundance of transposable elements

Author

Dolgin, Elie S. and Charlesworth, Brian

Subjects

Genetic recombination -- Research, Genomes -- Identification and classification, Transposons -- Properties, Biological sciences

Abstract

Transposable elements (TEs) often accumulate in regions of the genome with suppressed recombination. But it is unclear whether this pattern reflects a reduction in the efficacy of selection against deleterious insertions or a relaxation of ectopic recombination. Discriminating between these two hypotheses has been difficult, because no formal model has investigated the effects of recombination under the deleterious insertion model. Here we take a simulation-based approach to analyze this scenario and determine the conditions under which element accumulation is expected in low recombination regions. We show that TEs become fixed as a result of Hill--Robertson effects in the form of Muller's ratchet, but only in regions of extremely low recombination when excision is effectively absent and synergism between elements is weak. These results have important implications for differentiating between the leading models of how selection acts on TEs and should help to interpret emerging population genetic and genomic data.

Published

2008

2. The fate of transposable elements in asexual populations

Author

Dolgin, Elie S. and Charlesworth, Brian

Subjects

Sexual reproduction -- Research, Sexual reproduction -- Genetic aspects, Sexual reproduction -- Demographic aspects, Reproduction, Asexual -- Genetic aspects, Reproduction, Asexual -- Research, Reproduction, Asexual -- Demographic aspects, Biological sciences

Abstract

Sexual reproduction and recombination are important for maintaining a stable copy number of transposable elements (TEs). In sexual populations, elements can be contained by purifying selection against host carriers with higher element copy numbers; however, in the absence of sex and recombination, asexual populations could be driven to extinction by an unchecked proliferation of TEs. Here we provide a theoretical framework for analyzing TE dynamics under asexual reproduction. Analytic results show that, in an infinite asexual population, an equilibrium in copy number is achieved if no element excision is possible, but that all TEs are eliminated if there is some excision. In a finite population, computer simulations demonstrate that small populations are driven to extinction by a Muller's ratchet-like process of element accumulation, but that large populations can be cured of vertically transmitted TEs, even with excision rates well below transposition rates. These results may have important consequences for newly arisen asexual lineages and may account for the lack of deleterious retrotransposons in the putatively ancient asexual bdelloid rotifers.

Published

2006

3. Segregation and the evolution of sex under overdominant selection

Author

Dolgin, Elie S. and Otto, Sarah P.

Subjects

Genetics -- Research, Allelomorphism -- Research, Sex -- Research, Biological sciences

Abstract

The segregation of alleles disrupts genetic associations at overdominant loci, causing a sexual population to experience a lower mean fitness compared to an asexual population. To investigate whether circumstances promoting increased sex exist within a population with heterozygote advantage, a model is constructed that monitors the frequency of alleles at a modifier locus that changes the relative allocation to sexual and asexual reproduction. The frequency of these modifier alleles changes over time as a correlated response to the dynamics at a fitness locus under overdominant selection. Increased sex can be favored in partially sexual populations that inbreed to some extent. This surprising finding results from the fact that inbred populations have an excess of homozygous individuals, for whom sex is always favorable. The conditions promoting increased levels of sex depend on the selection pressure against the homozygotes, the extent of sex and inbreeding in the population, and the dominance of the invading modifier allele.

Published

2003

4. Population frequencies of transposable elements in selfing and outcrossing Caenorhabditis nematodes

Author

DOLGIN, ELIE S., CHARLESWORTH, BRIAN, and CUTTER, ASHER D.

Published

2008

5. Inbreeding and outbreeding depression in caenorhabditis nematodes

Author

Dolgin, Elie S., Chalesworth, Brian, Baird, Scott E., and Cutter, Asher D.

Subjects

Caenorhabditis elegans -- Genetic aspects, Caenorhabditis elegans -- Sexual behavior, Animal breeding -- Research, Phylogeny -- Research, Biological sciences

Abstract

A study examining the relationship between breeding style and inbreeding depression using two Caenorhahditis species with contrasting mating systems is illustrated. An increase in homozygosity occurs when there is mating between close relatives resulting in inbreeding depression, which is a central factor in the evolution of the rate of self-fertilization in hermaphroditic organisms.

Published

2007