Ars2 plays diverse roles in dna damage response, fungal development, and pathogenesis in the plant pathogenic fungus fusarium graminearum

Duc Cuong Bui, Jung Eun Kim, Jiyoung Shin, Jae Yun Lim, Gyung Ja Choi, Yin Won Lee, Jeong Ah Seo, Hokyoung Son

Research output: Contribution to journalArticlepeer-review

Abstract

Arsenite-resistance protein 2 (Ars2) is an important nuclear protein involved in various RNA metabolisms in animals and plants, but no Ars2 ortholog has been studied in filamentous fungi. Although it is an essential gene in most model eukaryotes, FgARS2 null mutants were viable in the plant pathogenic fungus Fusarium graminearum. The deletion of FgARS2 resulted in pleiotropic defects in various fungal developmental processes. Fgars2 mutants were irregular in nuclear division, and conidial germination was significantly retarded, causing the fungus to manifest its hypersensitive phenotypes under DNA damage stress. While FgARS2 deletion caused abnormal morphologies of ascospores and defective ascospore discharge, our data revealed that FgARS2 was not closely involved in small-non-coding RNA production in F. graminearum. The dominant nuclear localization of FgArs2-green fluorescent proteins (GFP) and abnormal nuclear division in FgARS2 deletion mutant implicated that FgArs2 functions in the nucleus. Intriguingly, we found that FgArs2 established a robust physical interaction with the cap binding complex (CBC) to form a tertiary complex CBC-Ars2 (CBCA), and disruption of any CBCA complex subunit drastically attenuated the virulence of F. graminearum. The results of the study indicate that Ars2 regulates fungal development, stress response, and pathogenesis via interaction with CBC in F. graminearum and provide a novel insight into understanding of the biological functions of Ars2 in filamentous fungi.

Original languageEnglish (US)
Article number2326
JournalFrontiers in Microbiology
Volume10
Issue numberOCT
DOIs
StatePublished - 2019
Externally publishedYes

Keywords

  • Arsenite-resistance protein 2
  • DNA damage response
  • Fungal reproduction
  • Fungal virulence
  • Fusarium graminearum

ASJC Scopus subject areas

  • Microbiology
  • Microbiology (medical)

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