As a C
2
H
2
type zinc finger transcription factor,
CreA
is the key in Carbon Catabolism Repression (CCR) pathway, which negatively regulates the genes in carbon sources utilization. As conidiation in filamentous fungi is affected by nutritional conditions,
CreA
may contribute to fungal conidiation, which has been well studied in filamentous fungi, especially
Aspergillus
spp., but researches on entomopathogenic fungi are not enough. In this study, we found a homologous gene
MaCreA
in
Metarhizium acridum
, and the
MaCreA
deletion strain showed delayed conidiation, significant decrease in conidial yield, and 96.88% lower conidial production, when compared with the wild-type strain, and the normal conidiation and microcycle conidiation pattern shift was blocked. RT-qPCR showed that the transcription levels of the genes
FlbD
and
LaeA
(related to asexual development) were significantly altered, and those of most of the conidiation-related genes were higher in Δ
MaCreA
strain. The results of RNA-Seq revealed that
MaCreA
regulated the two conidiation patterns by mediating genes related to cell cycle, cell division, cell wall, and cell polarity. In conclusion,
CreA
, as a core regulatory gene in conidiation, provides new insight into the mechanism of conidiation in entomopathogenic fungi.
BACKGROUND: CreA has been proved to be a core gene in asexual conidiation in Metarhizium acridum, which regulates the shift of normal conidiation and microcycle conidiation. At present, research on CreA in fungi has focused on carbon source metabolism. There is a lack of research on the effect of CreA in virulence of pathogenic fungi.RESULTS: The virulence of the MaCreA disrupted strain (ΔMaCreA) for Locusta migratoria was lost by topical inoculation bioassay. The formation rate and turgor pressure of the appressoria decreased. Growth of ΔMaCreA in host hemolymph was delayed, and the number of hyphal bodies was significantly reduced. The conidial cell wall of ΔMaCreA became thicker, the mannan content decreased, and the chitin content increased significantly, and it was more sensitive to calcofluor white and Congo Red. ⊍-1,3-Glucan and ⊎-1,3-glucan are more exposed on the surface of ΔMaCreA conidia than on the wild type. Lmspätzle and Lmcactus, the immune response genes in the host Toll pathway, showed stronger transcriptional activities at the early stage of ΔMaCreA invasion. The phenoloxidase activity assay also showed stronger immunostimulation by ΔMaCreA in vitro.
CONCLUSION:The main reasons for the loss of virulence of ΔMaCreA in the topical inoculation were the reduced penetration ability of appressoria, limited growth in hemolymph and stronger insect immunostimulation of ΔMaCreA.
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