Frontiers in Microbiology (Apr 2023)

Identification and analysis of the secretome of plant pathogenic fungi reveals lifestyle adaptation

  • Mingxuan Jia,
  • Mingxuan Jia,
  • Xiaodong Gong,
  • Xiaodong Gong,
  • Xiaodong Gong,
  • Mengmeng Fan,
  • Mengmeng Fan,
  • Haoran Liu,
  • Haoran Liu,
  • He Zhou,
  • He Zhou,
  • Shouqin Gu,
  • Shouqin Gu,
  • Shouqin Gu,
  • Yuwei Liu,
  • Yuwei Liu,
  • Yuwei Liu,
  • Jingao Dong,
  • Jingao Dong

DOI
https://doi.org/10.3389/fmicb.2023.1171618
Journal volume & issue
Vol. 14

Abstract

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The secretory proteome plays an important role in the pathogenesis of phytopathogenic fungi. However, the relationship between the large-scale secretome of phytopathogenic fungi and their lifestyle is not fully understood. In the present study, the secretomes of 150 plant pathogenic fungi were predicted and the characteristics associated with different lifestyles were investigated. In total, 94,974 secreted proteins (SPs) were predicted from these fungi. The number of the SPs ranged from 64 to 1,662. Among these fungi, hemibiotrophic fungi had the highest number (average of 970) and proportion (7.1%) of SPs. Functional annotation showed that hemibiotrophic and necrotroph fungi, differ from biotrophic and symbiotic fungi, contained much more carbohydrate enzymes, especially polysaccharide lyases and carbohydrate esterases. Furthermore, the core and lifestyle-specific SPs orthogroups were identified. Twenty-seven core orthogroups contained 16% of the total SPs and their motif function annotation was represented by serine carboxypeptidase, carboxylesterase and asparaginase. In contrast, 97 lifestyle-specific orthogroups contained only 1% of the total SPs, with diverse functions such as PAN_AP in hemibiotroph-specific and flavin monooxygenases in necrotroph-specific. Moreover, obligate biotrophic fungi had the largest number of effectors (average of 150), followed by hemibiotrophic fungi (average of 120). Among these effectors, 4,155 had known functional annotation and pectin lyase had the highest proportion in the functionally annotated effectors. In addition, 32 sets of RNA-Seq data on pathogen-host interactions were collected and the expression levels of SPs were higher than that of non-SPs, and the expression level of effector genes was higher in biotrophic and hemibiotrophic fungi than in necrotrophic fungi, while secretase genes were highly expressed in necrotrophic fungi. Finally, the secretory activity of five predicted SPs from Setosphearia turcica was experimentally verified. In conclusion, our results provide a foundation for the study of pathogen-host interaction and help us to understand the fungal lifestyle adaptation.

Keywords