Anti-oomycete activity and plant growth promoting properties of avocado fungal endophytes

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-06-29 DOI:10.1016/j.rhisph.2024.100931
Emma I. Nieves-Campos , Alejandro Méndez-Bravo , Yareli Pérez-Bautista , Jesús Llanderal-Mendoza , Edgar Guevara-Avendaño , Itzel A. Solís-García , Nayeli A. Diyarza-Sandoval , Silvia M. Contreras-Ramos , Jacobo Rodriguez-Campos , Alfonso Méndez-Bravo , Frédérique Reverchon
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Abstract

Fungal endophytes are known as promising plant growth-promoting microorganisms. Surprisingly, despite the economic importance of avocado, the antimicrobial and plant growth-promoting properties of its fungal endophytes have seldom been investigated. Our objectives were to evaluate the anti-oomycete activity of avocado fungal endophytes and assess their potential plant growth-promoting properties, using Arabidopsis thaliana as a model plant. In total, 89 fungal isolates were obtained from the roots of avocado trees and grouped into 24 morphotypes. One isolate per morphotype was randomly selected to assess its antagonistic activity against Phytophthora cinnamomi through dual culture assays. The strongest inhibition of P. cinnamomi was induced by endophytic fungi belonging to the Fusarium, Mortierella and Penicillium genera. The six most promising fungal isolates were selected to assess their plant growth-promoting traits in co-inoculation assays with A. thaliana. All tested fungal endophytes were able to modify the plant root architecture and increase the number of lateral roots. Moreover, an accumulation of auxins was detected in the xylem and meristematic zone of plants inoculated with Mortierella sp. PC-T3-3.1 and Metapochonia sp. PC-T2-4.2, whilst auxin accumulation was restricted to the emerging lateral roots of plants inoculated with Penicillium sp. C-T0-3.1. Indole quantification showed that Penicillium sp. C-T0-3.1 produced the highest concentration of indole acetic acid (IAA) and indole butyric acid (IBA), despite the lack of auxin responsiveness in plants in the co-inoculation assays. Mortierella sp. PC-T3-3.1 and Metapochonia sp. PC-T2-4.2 produced more IAA and IBA when co-inoculated with A. thaliana than when growing alone, which suggests that sensing of plant signals could induce the production of auxin-like compounds by these two endophytes. Collectively, our findings contribute to elucidate the mechanisms underpinning the plant growth-promoting activity of avocado fungal endophytes, which will be key to harness their full metabolic potential.

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鳄梨真菌内生菌的抗霉菌活性和促进植物生长特性
众所周知,真菌内生菌是很有前途的植物生长促进微生物。令人惊讶的是,尽管牛油果具有重要的经济价值,但其真菌内生菌的抗菌和促进植物生长特性却很少得到研究。我们的目标是以拟南芥为模式植物,评估牛油果真菌内生菌的抗霉菌活性,并评估其潜在的植物生长促进特性。从牛油果树根部共获得 89 个真菌分离物,并将其分为 24 个形态型。每个形态型随机选取一个分离物,通过双重培养试验评估其对 Phytophthora cinnamomi 的拮抗活性。属于镰刀菌属、莫蒂埃拉菌属和青霉属的内生真菌对 P. cinnamomi 的抑制作用最强。筛选出六种最有希望的真菌分离物,在与 A. thaliana 的共接种试验中评估其促进植物生长的特性。所有测试的真菌内生体都能改变植物根系结构,增加侧根数量。此外,在接种了莫蒂尔菌属 PC-T3-3.1 和 Metapochonia 菌属 PC-T2-4.2 的植株木质部和分生区检测到了辅酶的积累,而接种了青霉属 C-T0-3.1 的植株,辅酶积累仅限于新生侧根。吲哚定量分析显示,尽管植物在共同接种试验中缺乏对辅助素的反应,但青霉属 C-T0-3.1 产生的吲哚乙酸(IAA)和吲哚丁酸(IBA)浓度最高。与单独生长时相比,Mortierella sp. PC-T3-3.1 和 Metapochonia sp. PC-T2-4.2 与大叶黄杨共同接种时产生的 IAA 和 IBA 更多,这表明这两种内生菌对植物信号的感应可诱导产生类似于辅助素的化合物。总之,我们的研究结果有助于阐明牛油果真菌内生菌促进植物生长活性的机制,这将是充分利用其代谢潜力的关键。
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