PLoS Biology (Apr 2018)

In vivo insertion pool sequencing identifies virulence factors in a complex fungal-host interaction.

  • Simon Uhse,
  • Florian G Pflug,
  • Alexandra Stirnberg,
  • Klaus Ehrlinger,
  • Arndt von Haeseler,
  • Armin Djamei

DOI
https://doi.org/10.1371/journal.pbio.2005129
Journal volume & issue
Vol. 16, no. 4
p. e2005129

Abstract

Read online

Large-scale insertional mutagenesis screens can be powerful genome-wide tools if they are streamlined with efficient downstream analysis, which is a serious bottleneck in complex biological systems. A major impediment to the success of next-generation sequencing (NGS)-based screens for virulence factors is that the genetic material of pathogens is often underrepresented within the eukaryotic host, making detection extremely challenging. We therefore established insertion Pool-Sequencing (iPool-Seq) on maize infected with the biotrophic fungus U. maydis. iPool-Seq features tagmentation, unique molecular barcodes, and affinity purification of pathogen insertion mutant DNA from in vivo-infected tissues. In a proof of concept using iPool-Seq, we identified 28 virulence factors, including 23 that were previously uncharacterized, from an initial pool of 195 candidate effector mutants. Because of its sensitivity and quantitative nature, iPool-Seq can be applied to any insertional mutagenesis library and is especially suitable for genetically complex setups like pooled infections of eukaryotic hosts.