Engineered nanomaterials inhibit Podosphaera pannosa infection on rose leaves by regulating phytohormones

Hao Yi; Fang Peihong; Ma Chuanxin; White Jason C.; Xiang Zhiqian; Wang Haitao; Zhang Zhao; Rui Yukui; Xing Baoshan

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Engineered nanomaterials inhibit Podosphaera pannosa infection on rose leaves by regulating phytohormones

机译：通过调节植物激素，工程纳米材料抑制玫瑰叶的Podosphaera pannosa感染

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In the present study, we investigated the antifungal effects of engineered nanomaterials (ENMs) against Podosphaera pannosa (P. pannosa), a fungal pathogen that causes powdery mildew on plants in the rose family. Four commercial ENMs, including multi-wall carbon nanotubes (MWCNTs), reduced graphene oxide (rGO), copper oxide (CuO) nanoparticles (NPs) and titanium dioxide (TiO2) NPs, were used to prepare 50 or 200 mg/L NP suspensions in deionized water. Rose leaves in water-agar plates were sprayed by different ENM suspensions mixed with P. pannosa conidia. After a 19-day standard infection test, the growth of P. pannosa on rose leaves was evaluated. All four ENMs inhibited infection by P. pannosa at the concentration 200 mg/L, whereas only CuO NPs decreased fungal growth at 50 mg/L. The phytohormone content of the leaves was measured across all treatments to investigate potential ENMs antifungal mechanisms. The results suggest that ENMs increased plant resistance to fungal infection by altering the content of endogenous hormones, particularly zeatin riboside (ZR). Our study demonstrates that ENMs exhibited distinctly antifungal effects against P. pannosa on roses, and could be utilized as a novel plant protection strategy after a comprehensive assessment of potential environmental risk.

机译：在本研究中，我们研究了工程化纳米材料（eNMS）对Podosphaera Pannosa（P.Pannosa）的抗真菌效应，这是一种真菌病原体，导致玫瑰家族中的植物中的粉末状霉菌。使用四种商业烯公司，包括多壁碳纳米管（MWCNT），还原氧化物氧化物（RGO），氧化铜（CuO）和二氧化钛（TiO 2）NPS，用于制备50或200mg / L NP悬浮液在去离子水中。通过与P.Pannosa Conidia混合的不同烯型悬浮液喷洒水琼脂平板中的玫瑰叶。经过19天的标准感染试验，评估了P.Pannosa对玫瑰叶的生长。所有四种enmm在浓度200mg / L处受到P.Pannosa的感染，而CuO NPS仅降低50mg / L的真菌生长。在所有治疗中测量叶片的植物激素含量，以研究潜在的蜗牛抗真菌机制。结果表明，通过改变内源激素的含量，特别是Zeein核苷（Zr）来增加植物抗性感染的植物抗性。我们的研究表明，在玫瑰上对P.Pannosa表现出明显的抗真菌效应，并且可以在综合评估潜在的环境风险后用作新颖的植物保护策略。

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来源
《Environmental research》 |2019年第3期|1-6|共6页
作者
Hao Yi; Fang Peihong; Ma Chuanxin; White Jason C.; Xiang Zhiqian; Wang Haitao; Zhang Zhao; Rui Yukui; Xing Baoshan;
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China Agr Univ Beijing Key Lab Farmland Soil Pollut Prevent & Re Coll Resources & Environm Sci Beijing 100193 Peoples R China;

China Agr Univ Beijing Key Lab Dev & Qual Control Ornamental Cro Dept Ornamental Hort Coll Hort Beijing 100193 Peoples R China;

Connecticut Agr Expt Stn Dept Analyt Chem New Haven CT 06504 USA|Univ Massachusetts Stockbridge Sch Agr Amherst MA 01003 USA;

Connecticut Agr Expt Stn Dept Analyt Chem New Haven CT 06504 USA;

China Agr Univ Beijing Key Lab Farmland Soil Pollut Prevent & Re Coll Resources & Environm Sci Beijing 100193 Peoples R China;

Chinese Acad Fishery Sci Heilongjiang River Fisheries Res Inst Harbin 150070 Heilongjiang Peoples R China;

China Agr Univ Beijing Key Lab Dev & Qual Control Ornamental Cro Dept Ornamental Hort Coll Hort Beijing 100193 Peoples R China;

China Agr Univ Beijing Key Lab Farmland Soil Pollut Prevent & Re Coll Resources & Environm Sci Beijing 100193 Peoples R China;

Univ Massachusetts Stockbridge Sch Agr Amherst MA 01003 USA;

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正文语种 eng
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Carbon-based nanomaterials; Metal-based nanoparticles; Roses; Powdery mildew; Antifungal activity;

机译：基于碳的纳米材料;金属基纳米粒子;玫瑰;粉状霉菌;抗真菌活动;
入库时间 2022-08-18 21:50:59

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1. Engineered nanomaterials inhibit Podosphaera pannosa infection on rose leaves by regulating phytohormones [J] . Hao Yi, Fang Peihong, Ma Chuanxin, Environmental research . 2019,第MARa期

机译：工程纳米材料可通过调节植物激素来抑制玫瑰叶上的Podosphaera pannosa感染。
2. Resistance reactions in rose leaves against powdery mildew (Podosphaera pannosa). [J] . Dewitte A, Leus L, Huylenbroeck J van, Acta Horticulturae . 2007,第751期

机译：玫瑰叶片对白粉病的抗药性反应（Podosphaera pannosa）。
3. Suppression of Powdery Mildew (Podosphaera pannosa) in Greenhouse Roses by Brief Exposure to Supplemental UV-B radiation [J] . Suthaparan A., Stensvand A., Solhaug K. A., Plant Disease . 2012,第11期

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6. Silicon-Induced Changes in Antifungal Phenolic Acids Flavonoids and Key Phenylpropanoid Pathway Genes during the Interaction between Miniature Roses and the Biotrophic Pathogen Podosphaera pannosa [O] . Radhakrishna Shetty, Xavier Fretté, Birgit Jensen, 2011

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Engineered nanomaterials inhibit Podosphaera pannosa infection on rose leaves by regulating phytohormones

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