We study the evolutionary effects of reduced recombination on the Drosophila melanogaster genome, analyzing more than 200 new genes that lack crossing-over and employing a novel orthology search among species of the melanogaster subgroup. These genes are located in the heterochromatin of chromosomes other than the dot (fourth) chromosome. Noncrossover regions of the genome all exhibited an elevated level of evolutionary divergence from D. yakuba at nonsynonymous sites, lower codon usage bias, lower GC content in coding and noncoding regions, and longer introns. Levels of gene expression are similar for genes in regions with and without crossing-over, which rules out the possibility that the reduced level of adaptation that we detect is caus...
The term heterochromatin has been long considered synonymous with gene silencing, but it is now clea...
Codon usage bias (CUB) in Drosophila is higher for X-linked genes than for autosomal genes. One poss...
The combination of experimental evolution with high-throughput sequencing of pooled individuals-i.e....
We study the evolutionary effects of reduced recombination on the Drosophila melanogaster genome, an...
Genetic recombination associated with sexual reproduction increases the efficiency of natural select...
The recombinational environment is predicted to influence patterns of protein sequence evolution thr...
Recent genomic sequencing of 10 additional Drosophila genomes provides a rich resource for comparati...
The rate of recombination affects the mode of molecular evolution. In high-recombining sequence, the...
Reduced rates of genetic recombination are often associated with reduced genetic variability and lev...
There is now a wealth of evidence that some of the most important regions of the genome are found ou...
SummaryEvolutionary theory predicts that the rate and level of adaptation will be enhanced in sexual...
Meiotic crossovers are distributed nonrandomly across the genome. Classic studies in Drosophila sugg...
Studying evolution at the level of DNA sequences allows the detection of past and recent natural sel...
Recent work has shown that Drosophila melanogaster genes with fast-evolving nonsynonymous sites have...
We considered genome-wide four-fold degenerate sites from an African Drosophila melanogaster populat...
The term heterochromatin has been long considered synonymous with gene silencing, but it is now clea...
Codon usage bias (CUB) in Drosophila is higher for X-linked genes than for autosomal genes. One poss...
The combination of experimental evolution with high-throughput sequencing of pooled individuals-i.e....
We study the evolutionary effects of reduced recombination on the Drosophila melanogaster genome, an...
Genetic recombination associated with sexual reproduction increases the efficiency of natural select...
The recombinational environment is predicted to influence patterns of protein sequence evolution thr...
Recent genomic sequencing of 10 additional Drosophila genomes provides a rich resource for comparati...
The rate of recombination affects the mode of molecular evolution. In high-recombining sequence, the...
Reduced rates of genetic recombination are often associated with reduced genetic variability and lev...
There is now a wealth of evidence that some of the most important regions of the genome are found ou...
SummaryEvolutionary theory predicts that the rate and level of adaptation will be enhanced in sexual...
Meiotic crossovers are distributed nonrandomly across the genome. Classic studies in Drosophila sugg...
Studying evolution at the level of DNA sequences allows the detection of past and recent natural sel...
Recent work has shown that Drosophila melanogaster genes with fast-evolving nonsynonymous sites have...
We considered genome-wide four-fold degenerate sites from an African Drosophila melanogaster populat...
The term heterochromatin has been long considered synonymous with gene silencing, but it is now clea...
Codon usage bias (CUB) in Drosophila is higher for X-linked genes than for autosomal genes. One poss...
The combination of experimental evolution with high-throughput sequencing of pooled individuals-i.e....