Genetic response to nitrogen starvation in the aggressive Eucalyptus foliar pathogen Teratosphaeria destructans

Curr Genet. 2021 Dec;67(6):981-990. doi: 10.1007/s00294-021-01208-w. Epub 2021 Aug 25.

Abstract

Teratosphaeria destructans is one of the most aggressive foliar pathogens of Eucalyptus. The biological factors underpinning T. destructans infections, which include shoot and leaf blight on young trees, have never been interrogated. Thus, the means by which the pathogen modifies its host environment to overcome host defences remain unknown. By applying transcriptome sequencing, the aim of this study was to compare gene expression in a South African isolate of T. destructans grown on nitrogen-deficient and complete media. This made it possible to identify upregulated genes in a nitrogen-starved environment, often linked to the pathogenicity of the fungus. The results support the hypothesis that nitrogen starvation in T. destructans likely mirrors an in planta genetic response. This is because 45% of genes that were highly upregulated under nitrogen starvation have previously been reported to be associated with infection in other pathogen systems. These included several CAZymes, fungal effector proteins, peptidases, kinases, toxins, lipases and proteins associated with detoxification of toxic compounds. Twenty-five secondary metabolites were identified and expressed in both nitrogen-deficient and complete conditions. Additionally, the most highly expressed genes in both growth conditions had pathogenicity-related functions. This study highlights the large number of expressed genes associated with pathogenicity and overcoming plant defences. As such, the generated baseline knowledge regarding pathogenicity and aggressiveness in T. destructans is a valuable reference for future in planta work.

Keywords: Enzyme secretion; Fungal pathogenicity factors; RNAseq; Transcriptomics; Virulence.

MeSH terms

  • Ascomycota / physiology*
  • Computational Biology / methods
  • Eucalyptus / microbiology*
  • Fungal Proteins / genetics
  • Gene Expression Profiling
  • Gene Expression Regulation, Fungal*
  • Host-Pathogen Interactions*
  • Nitrogen / metabolism*
  • Plant Diseases / microbiology*
  • RNA-Seq
  • Secondary Metabolism / genetics
  • Transcriptome

Substances

  • Fungal Proteins
  • Nitrogen

Supplementary concepts

  • Teratosphaeria destructans