Identification and characterization of integrated prophages and CRISPR-Cas system in Bacillus subtilis RS10 genome

Bacteriophages have been extensively investigated due to their prominent role in the virulence and resistance of pathogenic bacteria. However, little attention has been given to the non-pathogenic Bacillus phages, and their role in the ecological bacteria genome is overlooked. In the present study, we characterized two Bacillus phages with a linear DNA genome of 33.6 kb with 44.83% GC contents and 129.3 kb with 34.70% GC contents. A total of 46 and 175 putative coding DNA sequences (CDS) were identified in prophage 1 (P1) and prophage 2 (P2), respectively, with no tRNA genes. Comparative genome sequence analysis revealed that P1 shares eight CDS with phage Jimmer 2 (NC-041976), and phage Osiris (NC-028969), and six with phage phi CT9441A (NC-029022). On the other hand, P2 showed high similarity with Bacill_SPbeta_NC_001884 and Bacillus phage phi 105. Further, genome analysis indicates several horizontal gene transfer events in both phages during the evolution process. In addition, we detected two CRISPR-Cas systems for the first time in B. subtilis . The identified CRISPR system consists of 24 and 25 direct repeats and integrase coding genes, while the cas gene which encodes Cas protein involved in the cleavage of a target sequence is missing. These findings will expand the current knowledge of soil phages as well as help to develop a new perspective for investigating more ecological phages to understand their role in bacterial communities and diversity.