Horizontal gene transfer is an important factor in bacterial evolution that can act across species boundaries. Yet, we know little about rate and genomic targets of cross-lineage gene transfer, and about its effects on the recipient organism's physiology and fitness. Here, we address these questions in a parallel evolution experiment with two Bacillus subtilis lineages of 7% sequence divergence. We observe rapid evolution of hybrid organisms: gene transfer swaps ~12% of the core genome in just 200 generations, and 60% of core genes are replaced in at least one population. By genomics, transcriptomics, fitness assays, and statistical modeling, we show that transfer generates adaptive evolution and functional alterations in hybrids. Specifica...
Horizontal gene transfer (HGT) enables segments of DNA to be transferred between individuals in a po...
Bacteria have small, streamlined genomes and evolve rapidly. Their large population sizes allow sele...
Although much of the observed prokaryotic diversity on Earth is the product of incremental accumulat...
Horizontal gene transfer (HGT) is an important factor in bacterial evolution that can act across spe...
Bacterial transformation, a common mechanism of horizontal gene transfer, can speed up adaptive evol...
BACKGROUND: Recombination is widespread across the tree of life, because it helps purge deleterious...
Genes introduced by horizontal gene transfer (HGT) from other species constitute a significant porti...
BackgroundHorizontal gene transfer, the acquisition of genes across species boundaries, is a major s...
Horizontal gene transfer (HGT) is probably the most important mechanism for functional novelty and a...
Horizontal gene transfer (HGT) is a powerful evolutionary force facilitating bacterial adaptation an...
Horizontal gene transfer is central to microbial evolution, because it enables genetic regions to sp...
Abstract Background Horizontal gene transfer (HGT) is a process that facilitates the transfer of gen...
<div><p>Few experimental studies have examined the role that sexual recombination plays in bacterial...
Horizontal gene transfer is central to microbial evolution, because it enables genetic regions to sp...
Few experimental studies have examined the role that sexual recombination plays in bacterial evoluti...
Horizontal gene transfer (HGT) enables segments of DNA to be transferred between individuals in a po...
Bacteria have small, streamlined genomes and evolve rapidly. Their large population sizes allow sele...
Although much of the observed prokaryotic diversity on Earth is the product of incremental accumulat...
Horizontal gene transfer (HGT) is an important factor in bacterial evolution that can act across spe...
Bacterial transformation, a common mechanism of horizontal gene transfer, can speed up adaptive evol...
BACKGROUND: Recombination is widespread across the tree of life, because it helps purge deleterious...
Genes introduced by horizontal gene transfer (HGT) from other species constitute a significant porti...
BackgroundHorizontal gene transfer, the acquisition of genes across species boundaries, is a major s...
Horizontal gene transfer (HGT) is probably the most important mechanism for functional novelty and a...
Horizontal gene transfer (HGT) is a powerful evolutionary force facilitating bacterial adaptation an...
Horizontal gene transfer is central to microbial evolution, because it enables genetic regions to sp...
Abstract Background Horizontal gene transfer (HGT) is a process that facilitates the transfer of gen...
<div><p>Few experimental studies have examined the role that sexual recombination plays in bacterial...
Horizontal gene transfer is central to microbial evolution, because it enables genetic regions to sp...
Few experimental studies have examined the role that sexual recombination plays in bacterial evoluti...
Horizontal gene transfer (HGT) enables segments of DNA to be transferred between individuals in a po...
Bacteria have small, streamlined genomes and evolve rapidly. Their large population sizes allow sele...
Although much of the observed prokaryotic diversity on Earth is the product of incremental accumulat...