Trehalose 6-phosphate phosphatase is required for development, virulence and mycotoxin biosynthesis apart from trehalose biosynthesis in Fusarium graminearum

•TPS1 and TPS2 are essential for trehalose biosynthesis in F. graminearum.•TPS2 is essential for cell polarity, sporulation and sexual development.•TPS2 is required for virulence, mycotoxin biosynthesis and cell wall biosynthesis.•Loss of TPS2 causes changed expression of 1885-specific genes.•TPS1 i...

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Published in:Fungal genetics and biology 2014-02, Vol.63, p.24-41
Main Authors: Song, Xiu-Shi, Li, He-Ping, Zhang, Jing-Bo, Song, Bo, Huang, Tao, Du, Xiao-Min, Gong, An-Dong, Liu, Yi-Ke, Feng, Yan-Ni, Agboola, Rebecca S., Liao, Yu-Cai
Format: Article
Language:English
Subjects:
Cell polarity
Cell Wall - genetics
Cell Wall - metabolism
Development
Fungal Proteins - genetics
Fungal Proteins - metabolism
Fusarium - genetics
Fusarium - metabolism
Fusarium - pathogenicity
Fusarium graminearum
Gene Expression Regulation, Fungal
Glucosyltransferases - genetics
Glucosyltransferases - metabolism
Hyphae - genetics
Hyphae - metabolism
Hyphae - pathogenicity
Mutation
Mycotoxin
Mycotoxins - biosynthesis
Mycotoxins - genetics
Phosphoric Monoester Hydrolases - genetics
Phosphoric Monoester Hydrolases - metabolism
Spores, Fungal - genetics
Spores, Fungal - metabolism
Trehalose - biosynthesis
Trehalose - genetics
Trehalose 6-phosphate phosphatase
Triticum - microbiology
Virulence
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Summary:•TPS1 and TPS2 are essential for trehalose biosynthesis in F. graminearum.•TPS2 is essential for cell polarity, sporulation and sexual development.•TPS2 is required for virulence, mycotoxin biosynthesis and cell wall biosynthesis.•Loss of TPS2 causes changed expression of 1885-specific genes.•TPS1 is dispensable for development and virulence. Trehalose 6-phosphate synthase (TPS1) and trehalose 6-phosphate phosphatase (TPS2) are required for trehalose biosynthesis in yeast and filamentous fungi, including Fusarium graminearum. Three null mutants Δtps1, Δtps2 and Δtps1–Δtps2, each carrying either a single deletion of TPS1 or TPS2 or a double deletion of TPS1–TPS2, were generated from a toxigenic F. graminearum strain and were not able to synthesize trehalose. In contrast to its reported function in yeasts and filamentous fungi, TPS1 appeared dispensable for development and virulence. However, deletion of TPS2 abolished sporulation and sexual reproduction; it also altered cell polarity and ultrastructure of the cell wall in association with reduced chitin biosynthesis. The cell polarity alteration was exhibited as reduced apical growth and increased lateral growth and branching with increased hyphal and cell wall widths. Moreover, the TPS2-deficient strain displayed abnormal septum development and nucleus distribution in its conidia and vegetative hyphae. The Δtps2 mutant also had 62% lower mycelial growth on potato dextrose agar and 99% lower virulence on wheat compared with the wild-type. The Δtps1, Δtps2 and Δtps1–Δtps2 mutants synthesized over 3.08-, 7.09- and 2.47-fold less mycotoxins, respectively, on rice culture compared with the wild-type. Comparative transcriptome analysis revealed that the Δtps1, Δtps2 and Δtps1–Δtps2 mutants had 486, 1885 and 146 genotype-specific genes, respectively, with significantly changed expression profiles compared with the wild-type. Further dissection of this pathway will provide new insights into regulation of fungal development, virulence and trichothecene biosynthesis.
ISSN:1087-1845
1096-0937
DOI:10.1016/j.fgb.2013.11.005