Functional roles of all five putative hydrophobin genes in growth, development, and secondary metabolism in Fusarium graminearum

Abstract

Fusarium graminearum is the causal agent of Fusarium head blight in cereal crops. As in other filamentous ascomycetes, F. graminearum contains genes encoding putative hydrophobins, which are small secreted amphiphilic proteins with eight conserved cysteine residues. Here, we investigated the roles of all five hydrophobin genes (designated FgHyd1, FgHyd2, FgHyd3, FgHyd4, and FgHyd5) in various mycological traits of F. graminearum. Gene expression analyses revealed that the five FgHyd genes, all of which were under the control of G protein signaling or velvet complex proteins, were differentially expressed under various developmental conditions. Three genes (FgHyd1, FgHyd2, and FgHyd3) were constitutively expressed in all aerial structures examined (hyphae, conidia, and perithecia), and two genes (FgHyd1 and FgHyd2) were also expressed in submerged hyphae. FgHyd3 was exclusively expressed in aerial hyphae on solid surfaces, including rice grains. These genes showed markedly reduced expression in F. asiaticum, which was a closely related to F. graminearum but exhibited different mycological traits from F. graminearum. Phenotypic analyses of various gene deletion strains, including the quintuple deletion (ΔFgHyd12345) strain, confirmed that in addition to their typical functions, all five FgHyd genes were involved in other traits, such as conidiation, pathogenicity, and secondary metabolism in F. graminearum. Both RNA-seq and chemical analyses confirmed that ΔFgHyd led to overproduction of specific terpenoid compounds (e.g., trichothecenes), which has not been reported previously. Nevertheless, the lack of complete phenotypic loss of any of the traits examined, even in the ΔFgHyd12345 strain, and little cumulative action of all five FgHyd genes strongly suggest that all five hydrophobins are redundant in function and are not absolutely essential for these fungal traits in F. graminearum.