Latent Pathogenic Fungi in the Medicinal Plant Houttuynia cordata Thunb. Are Modulated by Secondary Metabolites and Colonizing Microbiota Originating from Soil.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2021-09-01 Epub Date: 2021-09-17 DOI:10.33073/pjm-2021-034
Hai-Tao Ye, Shi-Qiong Luo, Zhan-Nan Yang, Yuan-Shuai Wang, Qian Ding
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Abstract

Latent pathogenic fungi (LPFs) affect plant growth, but some of them may stably colonize plants. LPFs were isolated from healthy Houttuynia cordata rhizomes to reveal this mechanism and identified as Ilyonectria liriodendri, an unidentified fungal sp., and Penicillium citrinum. Sterile H. cordata seedlings were cultivated in sterile or non-sterile soils and inoculated with the LPFs, followed by the plants' analysis. The in vitro antifungal activity of H. cordata rhizome crude extracts on LPF were determined. The effect of inoculation of sterile seedlings by LPFs on the concentrations of rhizome phenolics was evaluated. The rates of in vitro growth inhibition amongst LPFs were determined. The LPFs had a strong negative effect on H. cordata in sterile soil; microbiota in non-sterile soil eliminated such influence. There was an interactive inhibition among LPFs; the secondary metabolites also regulated their colonization in H. cordata rhizomes. LPFs changed the accumulation of phenolics in H. cordata. The results provide that colonization of LPFs in rhizomes was regulated by the colonizing microbiota of H. cordata, the secondary metabolites in the H. cordata rhizomes, and the mutual inhibition and competition between the different latent pathogens.

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药用植物 Houttuynia cordata Thunb.的潜伏病原真菌受次生代谢物和来自土壤的定植微生物群的调节。
潜伏病原真菌(LPFs)会影响植物生长,但其中一些真菌可能会在植物上稳定定殖。为了揭示这一机制,我们从健康的蕺菜根茎中分离出了潜伏病原真菌,并将其鉴定为 Ilyonectria liriodendri、一种未鉴定的真菌孢子和柠檬青霉。在无菌或非无菌土壤中培育无菌脐带虫幼苗,并接种 LPFs,然后对植株进行分析。测定了虫草根茎粗提取物对 LPF 的体外抗真菌活性。评估了无菌幼苗接种 LPF 对根茎酚类物质浓度的影响。测定了 LPFs 的体外生长抑制率。在无菌土壤中,LPFs 对 H. cordata 有强烈的负面影响;在非无菌土壤中,微生物群消除了这种影响。LPFs 之间存在交互抑制作用;次生代谢物还能调节它们在虫草根茎中的定殖。LPFs 改变了灯心草中酚类物质的积累。研究结果表明,LPFs 在根茎中的定殖受到虫草根茎定殖微生物群、虫草根茎中次生代谢物以及不同潜伏病原体之间相互抑制和竞争的调控。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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