Abstract
BackgroundGenomic islands are regions of bacterial genomes that have been acquired by horizontal transfer and often contain blocks of genes that function together for specific processes. Recently, it has become clear that the impact of genomic islands on the evolution of different bacterial species is significant and represents a major force in establishing bacterial genomic variation. However, the study of genomic island evolution has been mostly performed at the sequence level using computer software or hybridization analysis to compare different bacterial genomic sequences. We describe here a novel experimental approach to study the evolution of species-specific bacterial genomic islands that identifies island genes that have evolved in such a way that they are differentially-expressed depending on the bacterial host background into which they are transferred.ResultsWe demonstrate this approach by using a "test" genomic island that we have cloned from the Salmonella typhimurium genome (island 4305) and transferred to a range of Gram negative bacterial hosts of differing evolutionary relationships to S. typhimurium. Systematic analysis of the expression of the island genes in the different hosts compared to proper controls allowed identification of genes with genera-specific expression patterns. The data from the analysis can be arranged in a matrix to give an expression "array" of the island genes in the different bacterial backgrounds. A conserved 19-bp DNA site was found upstream of at least two of the differentially-expressed island genes. To our knowledge, this is the first systematic analysis of horizontally-transferred genomic island gene expression in a broad range of Gram negative hosts. We also present evidence in this study that the IS200 element found in island 4305 in S. typhimurium strain LT2 was inserted after the island had already been acquired by the S. typhimurium lineage and that this element is likely not involved in the integration or excision of island 4305.ConclusionThe "clone-and-transfer" approach of evolutionary study identifies genes whose expression patterns indicate the existence of genera-specific regulatory mechanisms that influence the expression of horizontally-transferred DNA sections. The results provide key information that can be used to facilitate the identification of these regulatory mechanisms.
Highlights
Genomic islands are regions of bacterial genomes that have been acquired by horizontal transfer and often contain blocks of genes that function together for specific processes
S. typhimurium genomic island 4305 The genomic island inserted at the pheU tRNA gene in S. typhimurium has been previously identified and is named for the first STM ORF that is present in the island (STM4305) [14,15]
Though the pheU tRNA is a common site for insertion of genomic islands in different Gram negative bacteria, the genes of the 15 kb island 4305 appear to be unique to S. typhimurium [14]
Summary
Genomic islands are regions of bacterial genomes that have been acquired by horizontal transfer and often contain blocks of genes that function together for specific processes. An alternative way to study the evolution of genomic islands would be to clone the island of interest, transfer it to other bacterial hosts, and analyze the expression and function of the genes once the island is established in the new hosts When studied in this way, we gain information on how a given genomic island has evolved up to the current point in time. This kind of approach would allow the researcher to ask several key questions concerning the evolution of a genomic island that are difficult or not possible to answer with sequence analysis: (1) Have the island genes evolved to be expressed in only the host in which they are found or are they able to be expressed in other bacterial hosts? Knowledge gained from answers to the questions above would allow researchers to better manipulate the useful functions contained on genomic islands for beneficial bacterial genetic engineering purposes
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.