The analysis of the function, diversity, and evolution of the Bacillus phage genome

Abstract

BackgroundPhages play a pivotal role in the evolution of microbial populations. The interactions between phages and their hosts are complex and may vary in response to host physiology and environmental conditions. Here, we have selected the genomes of some representative Bacillus prophages and lysosomes from the NCBI database for evolutionary analysis. We explored their evolutionary relationships and analyzed the protein information encoded by hundreds of Bacillus phages.ResultsWe obtained the following conclusions: First, Bacillus phages carried some known functional gene fragments and a large number of unknown functional gene fragments, which might have an important impact on Bacillus populations, such as the formation of spores and biofilms and the transmission of virulence factors. Secondly, the Bacillus phage genome showed diversity, with a clear genome boundary between Bacillus prophages and Bacillus lytic phages. Furthermore, genetic mutations, sequence losses, duplications, and host-switching have occurred during the evolution of the Bacillus phage, resulting in low genome similarity between the Bacillus phages. Finally, the lysis module played an important influence on the process of Bacillus phage cross-species infestation.ConclusionsThis study systematically described their protein function, diversity, and genome evolution, and the results of this study provide a basis for evolutionary diversity, horizontal gene transfer and co-evolution with the host in Bacillus phages.