PLoS ONE (Jan 2011)

Cluster K mycobacteriophages: insights into the evolutionary origins of mycobacteriophage TM4.

  • Welkin H Pope,
  • Christina M Ferreira,
  • Deborah Jacobs-Sera,
  • Robert C Benjamin,
  • Ariangela J Davis,
  • Randall J DeJong,
  • Sarah C R Elgin,
  • Forrest R Guilfoile,
  • Mark H Forsyth,
  • Alexander D Harris,
  • Samuel E Harvey,
  • Lee E Hughes,
  • Peter M Hynes,
  • Arrykka S Jackson,
  • Marilyn D Jalal,
  • Elizabeth A MacMurray,
  • Coreen M Manley,
  • Molly J McDonough,
  • Jordan L Mosier,
  • Larissa J Osterbann,
  • Hannah S Rabinowitz,
  • Corwin N Rhyan,
  • Daniel A Russell,
  • Margaret S Saha,
  • Christopher D Shaffer,
  • Stephanie E Simon,
  • Erika F Sims,
  • Isabel G Tovar,
  • Emilie G Weisser,
  • John T Wertz,
  • Kathleen A Weston-Hafer,
  • Kurt E Williamson,
  • Bo Zhang,
  • Steven G Cresawn,
  • Paras Jain,
  • Mariana Piuri,
  • William R Jacobs,
  • Roger W Hendrix,
  • Graham F Hatfull

DOI
https://doi.org/10.1371/journal.pone.0026750
Journal volume & issue
Vol. 6, no. 10
p. e26750

Abstract

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Five newly isolated mycobacteriophages--Angelica, CrimD, Adephagia, Anaya, and Pixie--have similar genomic architectures to mycobacteriophage TM4, a previously characterized phage that is widely used in mycobacterial genetics. The nucleotide sequence similarities warrant grouping these into Cluster K, with subdivision into three subclusters: K1, K2, and K3. Although the overall genome architectures of these phages are similar, TM4 appears to have lost at least two segments of its genome, a central region containing the integration apparatus, and a segment at the right end. This suggests that TM4 is a recent derivative of a temperate parent, resolving a long-standing conundrum about its biology, in that it was reportedly recovered from a lysogenic strain of Mycobacterium avium, but it is not capable of forming lysogens in any mycobacterial host. Like TM4, all of the Cluster K phages infect both fast- and slow-growing mycobacteria, and all of them--with the exception of TM4--form stable lysogens in both Mycobacterium smegmatis and Mycobacterium tuberculosis; immunity assays show that all five of these phages share the same immune specificity. TM4 infects these lysogens suggesting that it was either derived from a heteroimmune temperate parent or that it has acquired a virulent phenotype. We have also characterized a widely-used conditionally replicating derivative of TM4 and identified mutations conferring the temperature-sensitive phenotype. All of the Cluster K phages contain a series of well conserved 13 bp repeats associated with the translation initiation sites of a subset of the genes; approximately one half of these contain an additional sequence feature composed of imperfectly conserved 17 bp inverted repeats separated by a variable spacer. The K1 phages integrate into the host tmRNA and the Cluster K phages represent potential new tools for the genetics of M. tuberculosis and related species.