ZmWRKY29 Transcriptionally Represses ZmRBOHC to Attenuate ROS Production and Facilitates Gibberella Stalk Rot Susceptibility in Maize. [PDF]
Plant Biotechnol JFu J +8 more
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Advances in genetic and molecular mechanisms of crop resistance to stalk rot. [PDF]
Stress BiolKang Y +12 more
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Genetic and Genomic Tools in Breeding for Resistance to Fusarium Stalk Rot in Maize (<i>Zea mays</i> L.). [PDF]
Plants (Basel)Asiedu DD, Miedaner T.
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Editorial: Exploring pollen microbiome: implications for plant physiology, crop improvement and human allergies. [PDF]
Front MicrobiolNagaraju Y +3 more
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The Involvement of Glycerophospholipids in Susceptibility of Maize to Gibberella Root Rot Revealed by Comparative Metabolomics and Mass Spectrometry Imaging Joint Analysis. [PDF]
Plants (Basel)Wang Q, Zhao Z, Li X, Gao X.
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Overexpression of the maize 9-lipoxygenase gene LOX4 confers resistance to Fusarium verticillioides via the oxylipin- and jasmonic acid-mediated pathways. [PDF]
J Exp BotOttaviani L +7 more
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An InDel insertion in the promoter of a UDP-ᴅ-glucuronate 4-epimerase 1 gene enhances maize resistance to Fusarium ear rot. [PDF]
Plant CommunDong C +18 more
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The potential of Pseudomonas spp. as sustainable bioinoculants for enhancing maize growth and integrated management of drought and Fusarium verticillioides stress. [PDF]
PlantaNdlazi K +6 more
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The effect of biological control on mycotoxin concentrations and the mycobiome in durum wheat grain and stems. [PDF]
Sci RepWachowska U +7 more
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Mycotoxins and plant diseases in a changing climate: from pathogen ecology to smart surveillance and mitigation strategies. [PDF]
Front Fungal BiolDehbi I +9 more
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