PLoS ONE (Jan 2020)

Genomic diversity of bacteriophages infecting Microbacterium spp.

  • Deborah Jacobs-Sera,
  • Lawrence A Abad,
  • Richard M Alvey,
  • Kirk R Anders,
  • Haley G Aull,
  • Suparna S Bhalla,
  • Lawrence S Blumer,
  • David W Bollivar,
  • J Alfred Bonilla,
  • Kristen A Butela,
  • Roy J Coomans,
  • Steven G Cresawn,
  • Tom D'Elia,
  • Arturo Diaz,
  • Ashley M Divens,
  • Nicholas P Edgington,
  • Gregory D Frederick,
  • Maria D Gainey,
  • Rebecca A Garlena,
  • Kenneth W Grant,
  • Susan M R Gurney,
  • Heather L Hendrickson,
  • Lee E Hughes,
  • Margaret A Kenna,
  • Karen K Klyczek,
  • Hari Kotturi,
  • Travis N Mavrich,
  • Angela L McKinney,
  • Evan C Merkhofer,
  • Jordan Moberg Parker,
  • Sally D Molloy,
  • Denise L Monti,
  • Dana A Pape-Zambito,
  • Richard S Pollenz,
  • Welkin H Pope,
  • Nathan S Reyna,
  • Claire A Rinehart,
  • Daniel A Russell,
  • Christopher D Shaffer,
  • Viknesh Sivanathan,
  • Ty H Stoner,
  • Joseph Stukey,
  • C Nicole Sunnen,
  • Sara S Tolsma,
  • Philippos K Tsourkas,
  • Jamie R Wallen,
  • Vassie C Ware,
  • Marcie H Warner,
  • Jacqueline M Washington,
  • Kristi M Westover,
  • JoAnn L Whitefleet-Smith,
  • Helen I Wiersma-Koch,
  • Daniel C Williams,
  • Kira M Zack,
  • Graham F Hatfull

DOI
https://doi.org/10.1371/journal.pone.0234636
Journal volume & issue
Vol. 15, no. 6
p. e0234636

Abstract

Read online

The bacteriophage population is vast, dynamic, old, and genetically diverse. The genomics of phages that infect bacterial hosts in the phylum Actinobacteria show them to not only be diverse but also pervasively mosaic, and replete with genes of unknown function. To further explore this broad group of bacteriophages, we describe here the isolation and genomic characterization of 116 phages that infect Microbacterium spp. Most of the phages are lytic, and can be grouped into twelve clusters according to their overall relatedness; seven of the phages are singletons with no close relatives. Genome sizes vary from 17.3 kbp to 97.7 kbp, and their G+C% content ranges from 51.4% to 71.4%, compared to ~67% for their Microbacterium hosts. The phages were isolated on five different Microbacterium species, but typically do not efficiently infect strains beyond the one on which they were isolated. These Microbacterium phages contain many novel features, including very large viral genes (13.5 kbp) and unusual fusions of structural proteins, including a fusion of VIP2 toxin and a MuF-like protein into a single gene. These phages and their genetic components such as integration systems, recombineering tools, and phage-mediated delivery systems, will be useful resources for advancing Microbacterium genetics.