Your search keyword '"Turissini DA"' showing total 2 results

1. The ability of Drosophila hybrids to locate food declines with parental divergence.

Author

Turissini DA, Comeault AA, Liu G, Lee YC, and Matute DR

Subjects

Animals, Drosophila genetics, Feeding Behavior, Female, Male, Phylogeny, Reproductive Isolation, Sex Factors, Biological Evolution, Drosophila physiology, Hybridization, Genetic

Abstract

Hybrids are generally less fit than their parental species, and the mechanisms underlying their fitness reductions can manifest through different traits. For example, hybrids can have physiological, behavioral, or ecological defects, and these defects can generate reproductive isolation between their parental species. However, the rate that mechanisms of postzygotic isolation other than hybrid sterility and inviability evolve has remained largely uninvestigated, despite isolated studies showing that behavioral defects in hybrids are not only possible but might be widespread. Here, we study a fundamental animal behavior-the ability of individuals to find food-and test the rate at which it breaks down in hybrids. We measured the ability of hybrids from 94 pairs of Drosophila species to find food and show that this ability decreases with increasing genetic divergence between the parental species and that male hybrids are more strongly (and negatively) affected than females. Our findings quantify the rate that hybrid dysfunction evolves across the diverse radiation of Drosophila and highlights the need for future investigations of the genetic and neurological mechanisms that affect a hybrid's ability to find a suitable substrate on which to feed and breed., (© 2017 The Author(s). Evolution © 2017 The Society for the Study of Evolution.)

Published

2017

2. A test of the snowball theory for the rate of evolution of hybrid incompatibilities.

Author

Matute DR, Butler IA, Turissini DA, and Coyne JA

Subjects

Animals, Crosses, Genetic, Drosophila physiology, Drosophila melanogaster genetics, Drosophila melanogaster physiology, Epistasis, Genetic, Female, Infertility, Male, Models, Genetic, Reproduction, Species Specificity, Biological Evolution, Drosophila genetics, Genes, Insect, Genetic Speciation, Hybridization, Genetic

Abstract

Hybrids between species are often sterile or inviable because the long-diverged genomes of their parents cause developmental problems when they come together in a single individual. According to the Dobzhansky-Muller (DM) model, the number of genes involved in these "intrinsic postzygotic incompatibilities" should increase faster than linearly with the divergence time between species. This straightforward prediction of the DM model has remained contentious owing to a lack of explicit tests. Examining two pairs of Drosophila species, we show that the number of genes involved in postzygotic isolation increases at least as fast as the square of the number of substitutions (an index of divergence time) between species. This observation verifies a key prediction of the DM model.

Published

2010