Some families of mobile elements in bacterial genomes encode not only a transposase but also an accessory TnpB gene. This gene has been shown to encode an RNA-guided DNA endonuclease,… Click to show full abstract
Some families of mobile elements in bacterial genomes encode not only a transposase but also an accessory TnpB gene. This gene has been shown to encode an RNA-guided DNA endonuclease, co-evolving with Y1 transposase and serine recombinase in mobile elements IS605 and IS607. In this paper, we reveal the evolutionary relationships among TnpB-containing mobile elements (TCMEs) in well-assembled genomes of six bacterial species: Bacillus cereus, Clostridioides difficile, Deinococcus radiodurans, Escherichia coli, Helicobacter pylori and Salmonella enterica. In total, 9996 TCMEs were identified in 4594 genomes. They belonged to 39 different insertion sequences (ISs). Based on their genetic structures and sequence identities, the 39 TCMEs were classified into three main groups and six subgroups. According to our phylogenetic analysis, TnpBs include two main branches (TnpB-A and TnpB-B) and two minor branches (TnpB-C and TnpB-D). The key TnpB motifs and the associated Y1 and serine recombinases were highly conserved across species, even though their overall sequence identities were low. Substantial variation was observed for the rate of invasion across bacterial species and strains. Over 80% of the genomes of B. cereus, C. difficile, D. radiodurans and E. coli contained TCMEs; however, only 64% of the genomes of H. pylori and 44% of S. enterica genomes contained TCMEs. IS605 showed the largest rate of invasion in these species, while IS607 and IS1341 had a relatively narrow distribution. Co-invasions of IS605, IS607 and IS1341 elements were observed in various genomes. The largest average copy number was observed for IS605b elements in C. difficile. The average copy numbers of most other TCMEs were smaller than four. Our findings have important implications for understanding the co-evolution of TnpB-containing mobile elements and their biological roles in host genome evolution.
               
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