Discovery of mosaic genomic islands in Pseudomonas spp.

Genomic islands, defined as large clusters of genes mobilized through horizontal gene transfer, have a profound impact on evolution of prokaryotes. Recently, we developed a new program, IslandCafe, for identifying such large localized structures in bacterial genomes. A unique attribute of IslandCafe is its ability to decipher mosaic structures within genomic islands. Mosaic genomic islands have generated immense interest due to novel traits that have been attributed to such islands. To provide the Pseudomonas research community a catalogue of mosaic islands in Pseudomonas spp., we applied IslandCafe to decipher genomic islands in 224 completely sequenced genomes of Pseudomonas spp. We also performed comparative genomic analysis using BLAST to infer potential sources of distinct segments within genomic islands. Of the total 4271 genomic islands identified in Pseudomonas spp., 1036 were found to be mosaic. We also identified drug-resistant and pathogenic genomic islands and their potential donors. Our analysis provides a useful resource for Pseudomonas research community to further examine and interrogate mosaic islands in the genomes of interest and understand their role in the emergence and evolution of novel traits.