Abstract
BackgroundRepetitive extragenic palindromic elements (REPs) constitute a group of bacterial genomic repeats known for their high abundance and several roles in host cells´ physiology. We analyzed the phylogenetic distribution of particular REP classes in genomic sequences of sixty-three bacterial strains belonging to the Pseudomonas fluorescens species complex and ten strains of Stenotrophomonas sp., in order to assess intraspecific REP diversity and to gain insight into long-term REP evolution.ResultsBased on proximity to RAYT (REP-associated tyrosine transposase) genes, twenty-two and thirteen unique REP classes were determined in fluorescent pseudomonads and stenotrophomonads, respectively. In stenotrophomonads, REP elements were typically found in tens or a few hundred copies per genome. REPs of fluorescent pseudomonads were generally more numerous, occurring in hundreds or even over a thousand perfect copies of particular REP class per genome. REP sequences showed highly heterogeneous distribution. The abundances of REP classes roughly followed host strains´ phylogeny, differing markedly among individual clades. High abundances of particular REP classes appeared to depend on the presence of the cognate RAYT gene, and deviations from this state could be attributed to recent or ancient mutations of rayt-flanking REPs, or RAYT loss. RAYTs of both studied bacterial groups are monophyletic, and their cognate REPs show species-specific characteristics, suggesting shared evolutionary history of REPs, RAYTs and their hosts.ConclusionsThe results of our large-scale analysis show that REP elements constitute intriguingly dynamic components of genomes of fluorescent pseudomonads and stenotrophomonads, and indicate that REP diversification and proliferation are ongoing processes. High numbers of REPs have apparently been retained during the entire evolutionary time since the establishment of these two bacterial lineages, probably because of their beneficial effect on host long-term fitness. REP elements in these bacteria represent a suitable platform to study the interplay between repeated elements, their mobilizers and host bacterial cells.
Highlights
Repetitive extragenic palindromic elements (REPs) constitute a group of bacterial genomic repeats known for their high abundance and several roles in host cellsphysiology
Phylogenetic relationships of studied bacteria Our preliminary analysis of available genomes revealed that the greatest intraspecific diversity of REP elements and their associated RAYTs existed in bacteria of the Pseudomonas fluorescens complex and in Stenotrophomonas sp
Comprehensive mining of bacterial genomic databases recovered 63 genomes affiliated to Pseudomonas fluorescens and 10 genomes affiliated to Stenotrophomonas maltophilia
Summary
Repetitive extragenic palindromic elements (REPs) constitute a group of bacterial genomic repeats known for their high abundance and several roles in host cellsphysiology. Noncoding repeats (apart from repeated genes coding for REP (repetitive extragenic palindrome) elements have been known for over 30 years [8], originally from Escherichia coli and related enterobacteria [9]. They were later identified in other species, belonging predominantly to gammaproteobacteria – Pseudomonas putida [10], Pseudomonas fluorescens [11,12], Stenotrophomonas maltophilia [13], Xanthomonas campestris and others [14], each species possessing different types of REP sequences. REPs inhabit only the core parts of host genomes and are absent from laterally transferred regions [11,12,13]
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