Drosophila Yakuba at Sandra Adams blog

Drosophila Yakuba. in a recent study, we described an early stage of ecological speciation in a. we provide evidence that chromosomal rearrangements are a source of novel genetic variation that facilitates the formation of de novo exons in drosophila. yakuba reveal clear differences and a contrasting view of crossover distribution, control and evolution in drosophila. the genomes of 12 drosophila species, ten of which are presented here for the first time (sechellia, simulans, yakuba,. here we compare the genetic basis of pigmentation divergence between drosophila elegans and d. drosophila yakuba resides in the melanogaster subgroup, yet, unlike d. As such, this study adds to the. we have mapped such introgressions between two pairs of species in the drosophila yakuba clade and found.

in a recent study, we described an early stage of ecological speciation in a. here we compare the genetic basis of pigmentation divergence between drosophila elegans and d. As such, this study adds to the. the genomes of 12 drosophila species, ten of which are presented here for the first time (sechellia, simulans, yakuba,. we provide evidence that chromosomal rearrangements are a source of novel genetic variation that facilitates the formation of de novo exons in drosophila. yakuba reveal clear differences and a contrasting view of crossover distribution, control and evolution in drosophila. we have mapped such introgressions between two pairs of species in the drosophila yakuba clade and found. drosophila yakuba resides in the melanogaster subgroup, yet, unlike d.

Drosophila yakuba mayottensis, a new model for the study of incipient

Drosophila Yakuba we have mapped such introgressions between two pairs of species in the drosophila yakuba clade and found. in a recent study, we described an early stage of ecological speciation in a. As such, this study adds to the. the genomes of 12 drosophila species, ten of which are presented here for the first time (sechellia, simulans, yakuba,. we provide evidence that chromosomal rearrangements are a source of novel genetic variation that facilitates the formation of de novo exons in drosophila. yakuba reveal clear differences and a contrasting view of crossover distribution, control and evolution in drosophila. drosophila yakuba resides in the melanogaster subgroup, yet, unlike d. we have mapped such introgressions between two pairs of species in the drosophila yakuba clade and found. here we compare the genetic basis of pigmentation divergence between drosophila elegans and d.