Frontiers in Microbiology (Jan 2016)

The complete genome sequence of the murine pathobiont Helicobacter typhlonius

  • Jeroen eFrank,
  • Celia eDingemanse,
  • Arnoud M. Schmitz,
  • Rolf H. A. M. Vossen,
  • Gert-Jan B. van Ommen,
  • Johan T. den Dunnen,
  • Johan T. den Dunnen,
  • Johan T. den Dunnen,
  • Els C. Robanus-Maandag,
  • Seyed Yahya eAnvar,
  • Seyed Yahya eAnvar

DOI
https://doi.org/10.3389/fmicb.2015.01549
Journal volume & issue
Vol. 6

Abstract

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BackgroundImmuno-compromised mice infected with Helicobacter typhlonius are used to model microbially inducted inflammatory bowel disease (IBD). The specific mechanism through which H. typhlonius induces and promotes IBD is not fully understood. Access to the genome sequence is essential to examine emergent properties of this organism, such as its pathogenicity. To this end, we present the complete genome sequence of H. typhlonius MIT 97-6810, obtained through single-molecule real-time sequencing.ResultsThe genome was assembled into a single circularized contig measuring 1.92 Mbp with an average GC content of 38.8%. In total 2,117 protein-encoding genes and 43 RNA genes were identified. Numerous pathogenic features were found, including a putative pathogenicity island containing components of type IV secretion system, virulence-associated proteins and cag pathogenicity island protein. We compared the genome of H. typhlonius to those of the murine pathobiont Helicobacter hepaticus and human pathobiont Helicobacter pylori. H. typhlonius resembles H. hepaticus most with 1,594 (75.3%) of its genes being orthologous to genes in H. hepaticus. Determination of the global methylation state revealed eight distinct recognition motifs for adenine and cytosine methylation. H. typhlonius shares four of its recognition motifs with H. pylori. ConclusionsThe complete genome sequence of H. typhlonius MIT 97-6810 enabled us to identify many pathogenic features suggesting that H. typhlonius can act as a pathogen. Follow-up studies are necessary to evaluate the true nature of its pathogenic capabilities. We found many methylated sites and a plethora of restriction-modification systems. The genome, together with the methylome, will provide an essential resource for future studies investigating gene regulation, host interaction and pathogenicity of H. typhlonius. In turn, this work can contribute to unraveling the role of Helicobacter in enteric disease.

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