Abstract
BackgroundRhs genes are prominent features of bacterial genomes that have previously been implicated in genomic rearrangements in E. coli. By comparing rhs repertoires across the Enterobacteriaceae, this study provides a robust explanation of rhs diversification and evolution, and a mechanistic model of how rhs diversity is gained and lost.ResultsRhs genes are ubiquitous and comprise six structurally distinct lineages within the Enterobacteriaceae. There is considerable intergenomic variation in rhs repertoire; for instance, in Salmonella enterica, rhs are restricted to mobile elements, while in Escherichia coli one rhs lineage has diversified through transposition as older lineages have been deleted. Overall, comparative genomics reveals frequent, independent gene gains and losses, as well as occasional lateral gene transfer, in different genera. Furthermore, we demonstrate that Rhs 'core' domains and variable C-termini are evolutionarily decoupled, and propose that rhs diversity is driven by homologous recombination with circular intermediates. Existing C-termini are displaced by laterally acquired alternatives, creating long arrays of dissociated 'tips' that characterize the appearance of rhs loci.ConclusionRhs repertoires are highly dynamic among Enterobacterial genomes, due to repeated gene gains and losses. In contrast, the primary structures of Rhs genes are evolutionarily conserved, indicating that rhs sequence diversity is driven, not by rapid mutation, but by the relatively slow evolution of novel core/tip combinations. Hence, we predict that a large pool of dissociated rhs C-terminal tips exists episomally and these are potentially transmitted across taxonomic boundaries.
Highlights
Rearrangement hot-spot (Rhs) genes are prominent features of bacterial genomes that have previously been implicated in genomic rearrangements in E. coli
Rhs repertoires are highly dynamic among Enterobacterial genomes, due to repeated gene gains and losses
This study has shown that the rhs gene family is ancient and a core component of Enterobacterial genomes, and their structural diversity suggests that they have multiple roles
Summary
Rhs genes are prominent features of bacterial genomes that have previously been implicated in genomic rearrangements in E. coli. (page number not for citation purposes) tion into a population, especially where DNA transfer is restricted. This can act to increase gene dosage or may increase repertoire of genes encoding variable but functionally related proteins within a genome such as the Pmp proteins from Chlamydophila abortus [7] and the Lpl tandem gene arrays in Staphylococcus aureus [8]. Gene gain, gene loss through deletions, genomic rearrangements and the accumulation of point mutations all have important roles in genome flux and have been linked to host adaptation [9,10,11,12,13]
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