Comparative Genomics of Six Lytic Bacillus subtilis Phages from the Southwest United States

Albert C Vill; Véronique A Delesalle; Brianne E Tomko; Katherine B Lichty; Madison S Strine; Alexandra A Guffey; Elizabeth A Burton; Natalie T Tanke; Greg P Krukonis

doi:10.1089/phage.2022.0030

Comparative Genomics of Six Lytic Bacillus subtilis Phages from the Southwest United States

Phage (New Rochelle). 2022 Sep 1;3(3):171-178. doi: 10.1089/phage.2022.0030. Epub 2022 Sep 19.

Authors

Albert C Vill¹, Véronique A Delesalle¹, Brianne E Tomko¹, Katherine B Lichty¹, Madison S Strine¹, Alexandra A Guffey¹, Elizabeth A Burton¹, Natalie T Tanke¹, Greg P Krukonis¹

Affiliation

¹ Department of Biology, Gettysburg College, Gettysburg, Pennsylvania, USA.

Abstract

Background: Despite their importance to microbial dynamics involving Bacillus subtilis, we have a limited understanding of the diversity of phages that can lyse this model organism.

Materials and methods: Phages were isolated from soil samples collected from various sites in the southwest U.S. deserts on a wild B. subtilis strain. Their genomes were assembled, characterized, and bioinformatically compared.

Results: Six Siphoviruses with high nucleotide and amino acid similarity to each other (>80%) but very limited similarity to phages currently in GenBank were isolated. These phages have double-stranded DNA genomes (55,312 to 56,127 bp) with 86-91 putative protein coding genes, and a low GC content. Comparative genomics reveal differences in loci encoding proteins that are putatively involved in bacterial adsorption with evidence for genomic mosaicism and a possible role for small genes.

Conclusions: A comparative approach provides insights into phage evolution, including the role of indels in protein folding.

Keywords: Bacillus subtilis; comparative genomics; functional annotation; gene conservation; southwest U.S. deserts.