CaP Nanoparticles Improve the Effect of dsRNA on Gene Expression, Growth, and Mycotoxin Production of Toxigenic <i>Fusarium graminearum</i>. [PDF]
Int J Mol SciStakheev AA +9 more
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The phenol-2-monooxygenase FgPhm1 regulates DON synthesis, pathogenicity and environmental stress response in <i>Fusarium graminearum</i>. [PDF]
VirulenceLuo Z +11 more
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Fluorescent Pseudomonas spp. from suppressive and conducive soils share genomic and functional traits relevant to Fusarium graminearum disease suppression. [PDF]
BMC GenomicsTodorović I +8 more
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<i>Fusarium graminearum</i> in Wheat-Management Strategies in Central Europe. [PDF]
PathogensGiedrojć W, Pluskota WE, Wachowska U.
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Fumarylacetoacetate hydrolase targeted by a Fusarium graminearum effector positively regulates wheat FHB resistance. [PDF]
Nat CommunShang S +11 more
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Bacillus velezensis EU07 suppresses Fusarium graminearum via transcriptomic reprogramming
Baysal Ö +3 more
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Dual RNA-Seq analysis unveils the multifaceted mechanisms of <i>Trichoderma hamatum</i> in the biological control of <i>Fusarium graminearum</i>, the causal agent of wheat fusarium head blight. [PDF]
Front MicrobiolCheng Y +8 more
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Gip1 GPCR regulates two sexual-stage differentiation processes in the ascomycete Fusarium graminearum. [PDF]
Nat CommunDing M +10 more
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Methylation of mycovirus DNA is mediated by the RNAi machinery in vegetative hyphae of Fusarium graminearum. [PDF]
Nucleic Acids ResWang Y +5 more
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The pH signaling pathway Pal/PacC regulates fungal growth, stress responses, and mycotoxin biosynthesis in Fusarium graminearum. [PDF]
Crop HealthWang Y +13 more
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