Evolution of the core and pan-genome of Strepococcus:: positive selection, recombination, and genome composition

Background: The genus Streptococcus is one of the most diverse, and important human and agricultural pathogens. This study employs comparative evolutionary analyses of 26 Streptococcus genomes to yield adaptation to their hosts. Results: Streptococcus genomes exhibit extreme levels of evolutionary plasticity, with high levels of gene gain and loss during species and strain evolution. S. agalactiae has a large pan-genome, with little recombination in its core-genome, while S. pyogenes has a smaller pan-genome and much more recombination of its core-genome, perhaps reflecting the greater habitat, and gene pool, diversity for S. agalactiae compared to S. pyogenes. Core-genome recombination was evident in all lineages (18 to 37% of the core-genome judged to be recombinant), whiled positive selection was mainly observed during species differentiation (from 11 to 34% of the core-genome). Positive selection pressure was unevenly distributed across lineages and biochemical main role categories. S. suis was the lineage with the greatest level of positive selection pressure, the largest number of unique loci selected, and the largest amount of gene gain and loss. Conclusions: Recombination is an important evolutionary force in shaping Streptococcus genomes, not only in the acquistion of significant portions of the genome as lineage specific loci, but also in faciliting rapid evolution of the core-genome. Positive selection, although undoubtedly a slower process, has nonetheless played an important role in adaptation of the core-genome of different Streptococcus species to different hosts.