Modulation of soil aeration and antioxidant defenses with hydrogen peroxide improves the growth of winter wheat (Triticum aestivum L.) plants

Wang, Ying; Shi, Wenjuan; Jing, Bo; Liu, Lu

doi:10.1016/j.jclepro.2024.140565

Cited by 3 publications

(1 citation statement)

References 53 publications

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“…First, ABC transporters were involved in the transport of secondary metabolites and plant hormones, detoxification, and signal transduction, which indirectly aided resistance to PWN (Wang et al, 2022; Li et al, 2024; Zhou et al, 2024). Second, arginine and proline indirectly affected the reproduction and pathogenicity of the PWN by promoting plant growth and development, enhancing stress resistance, acting as antioxidant defense molecules, participating in defense responses, and regulating metabolic pathways (Zhang et al, 2022; Theisen et al, 2024; Wang et al, 2024b). The specific mechanisms by which ABC transporters, arginine, and proline function in the resistance of P. massoniana to PWN require further study.…”

Section: Discussionmentioning

confidence: 99%

The molecular basis of pine wilt disease resistance inPinus massoniana

Wang,

Cai,

Zeng

et al. 2024

Preprint

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Pine wilt disease (PWD), caused by the pine wood nematode (PWN)Bursaphelenchus xylophilus, results in significant economic and ecological damage toPinusforests and plantations worldwide.Pinus massonianais the primary host of PWD in southern China, but its response to the PWN remains largely unstudied. Previously, we observed PWD in aP. massoniananursery that contained over 71 commonly used cultivars. Through field phenotyping, we identified two groups of PWN resistant cultivars. Resistant cultivars (RC) exhibited very low PWN carrying amounts (PCA) and had relatively low mortality, and tolerant cultivars (TC) had high PCA but low mortality. In this study, we confirmed via PWN inoculation assays that the resistant and tolerant cultivars had lower mortality rates, 10% and 11%, respectively, than other cultivars (which had a mortality rate of 83.3%). The RC had a PCA that was significantly lower than that of other cultivars, while the TC exhibited a higher PCA. To explore the molecular mechanisms underlying the response ofP. massonianato PWN, the transcriptome and metabolome of the above cultivars were profiled by high throughput sequencing. As no reference genome is available forP. massoniana, we generated a new full-length transcriptome library with iso-seq. Using the transcriptome and metabolome from differentP. massonianacultivars inoculated with PWN, we found three major PWD resistance strategies. 1) The common response strategy involved three important molecular pathways. First, synthesis of indole-3-acetic acid (IAA) and abcisic acid (ABA) were suppressed during PWN invasion, thus suppressing the synthesis of polysaccharides (especially myo-inositol and trehalose) and (-)-riboflavin through ABC transporters. Second, by inhibiting aspartic acid, the synthesis of arginine and proline through APS5 (aspartate aminotransferase 5) were suppressed. Third, by reducing cysteine, GERD (germacrene D synthase) was up-regulated, and sesquiterpenoid and triterpenoid metabolites were accumulated to resist PWN invasion. 2) The most effective resistance strategy involved the accumulation of reactive oxygen species (ROS), which enhanced jasmonic acid (JA) accumulation and highly induced the expression of chitinase, thus improving resistance to PWN. 3) The tolerance strategy involved the induction of phosphatidylcholine, which promoted flavonoid and anthocyanin synthesis via LPIN (phosphatidate phosphatase), LOX2S (lipoxygenase), and LOX1_5 (linoleate 9S-lipoxygenase), thus significantly inhibiting the pathogenicity of the PWN but not the PCA. These results illustrate the molecular mechanisms by whichP. massonianacultivars resist or tolerate PWN and are of great significance in the prevention and control of PWD.

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Section: Discussionmentioning

confidence: 99%

The molecular basis of pine wilt disease resistance inPinus massoniana

Wang,

Cai,

Zeng

et al. 2024

Preprint

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Effect of soil-groundwater system on migration and transformation of organochlorine pesticides: A review

Li,

Huo,

Zhang

et al. 2025

Ecotoxicology and Environmental Safety

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Basidiomycetes Polysaccharides Regulate Growth and Antioxidant Defense System in Wheat

Tsivileva,

Shaternikov,

Evseeva

2024

IJMS

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Higher-fungi xylotrophic basidiomycetes are known to be the reservoirs of bioactive metabolites. Currently, a great deal of attention has been paid to the exploitation of mycelial fungi products as an innovative alternative in crop protection. No data exist on the mechanisms behind the interaction between xylotrophic mushrooms’ glycopolymeric substances and plants. In this study, the effects of basidiomycete metabolites on the morphophysiological and biochemical variables of wheat plants have been explored. Wheat (Triticum aestivum L. cv. Saratovskaya 29) seedlings were treated with extracellular polysaccharides (EPSs) isolated from the submerged cultures of twenty basidiomycete strains assigned to 13 species and 8 genera. The EPS solutions at final concentrations of 15, 40, and 80 mg/L were applied to wheat seedlings followed by their growth for 10 days. In the plant samples, the biomass, length of coleoptile, shoot and root, root number, rate of lipid peroxidation by malondialdehyde concentration, content of hydrogen peroxide, and total phenols were measured. The peroxidase and superoxide dismutase activity were defined. Most of the EPS preparations improved biomass yields, as well as the morphological parameters examined. EPS application enhanced the activities of antioxidant enzymes and decreased oxidative damage to lipids. Judging by its overall effect on the growth indices and redox system of wheat plants, an EPS concentration of 40 mg/L has been shown to be the most beneficial compared to other concentrations. This study proves that novel bioformulations based on mushroom EPSs can be developed and are effective for wheat growth and antioxidative response. Phytostimulating properties found for EPSs give grounds to consider extracellular metabolites produced in the xylotrophic basidiomycete cultures as an active component capable of inducing plant responses to stress.

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Modulation of soil aeration and antioxidant defenses with hydrogen peroxide improves the growth of winter wheat (Triticum aestivum L.) plants

Cited by 3 publications

References 53 publications

The molecular basis of pine wilt disease resistance inPinus massoniana

The molecular basis of pine wilt disease resistance inPinus massoniana

Effect of soil-groundwater system on migration and transformation of organochlorine pesticides: A review

Basidiomycetes Polysaccharides Regulate Growth and Antioxidant Defense System in Wheat

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