Literature DB >> 33318639

Silica nanoparticles enhance disease resistance in Arabidopsis plants.

Mohamed El-Shetehy1,2, Aboubakr Moradi3, Mattia Maceroni4, Didier Reinhardt3, Alke Petri-Fink4,5, Barbara Rothen-Rutishauser4, Felix Mauch3, Fabienne Schwab6.   

Abstract

In plants, pathogen attack can induce an immune response known as systemic acquired resistance that protects against a broad spectrum of pathogens. In the search for safer agrochemicals, silica nanoparticles (SiO2 NPs; food additive E551) have recently been proposed as a new tool. However, initial results are controversial, and the molecular mechanisms of SiO2 NP-induced disease resistance are unknown. Here we show that SiO2 NPs, as well as soluble Si(OH)4, can induce systemic acquired resistance in a dose-dependent manner, which involves the defence hormone salicylic acid. Nanoparticle uptake and action occurred exclusively through the stomata (leaf pores facilitating gas exchange) and involved extracellular adsorption in the air spaces in the spongy mesophyll of the leaf. In contrast to the treatment with SiO2 NPs, the induction of systemic acquired resistance by Si(OH)4 was problematic since high Si(OH)4 concentrations caused stress. We conclude that SiO2 NPs have the potential to serve as an inexpensive, highly efficient, safe and sustainable alternative for plant disease protection.

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Year:  2020        PMID: 33318639      PMCID: PMC7610738          DOI: 10.1038/s41565-020-00812-0

Source DB:  PubMed          Journal:  Nat Nanotechnol        ISSN: 1748-3387            Impact factor:   40.523


  46 in total

1.  Systemic acquired resistance induced by localized virus infections in plants.

Authors:  A F ROSS
Journal:  Virology       Date:  1961-07       Impact factor: 3.616

2.  The MIQE guidelines: minimum information for publication of quantitative real-time PCR experiments.

Authors:  Stephen A Bustin; Vladimir Benes; Jeremy A Garson; Jan Hellemans; Jim Huggett; Mikael Kubista; Reinhold Mueller; Tania Nolan; Michael W Pfaffl; Gregory L Shipley; Jo Vandesompele; Carl T Wittwer
Journal:  Clin Chem       Date:  2009-02-26       Impact factor: 8.327

3.  Resistance to Bacterial Spot in Bell Pepper Induced by Acibenzolar-S-Methyl.

Authors:  A M Romero; C S Kousik; D F Ritchie
Journal:  Plant Dis       Date:  2001-02       Impact factor: 4.438

4.  Priming of jasmonate-mediated antiherbivore defense responses in rice by silicon.

Authors:  Mao Ye; Yuanyuan Song; Jun Long; Ruilong Wang; Scott R Baerson; Zhiqiang Pan; Keyan Zhu-Salzman; Jiefen Xie; Kunzheng Cai; Shiming Luo; Rensen Zeng
Journal:  Proc Natl Acad Sci U S A       Date:  2013-09-03       Impact factor: 11.205

5.  Salicylic acid induction-deficient mutants of Arabidopsis express PR-2 and PR-5 and accumulate high levels of camalexin after pathogen inoculation.

Authors:  C Nawrath; J P Métraux
Journal:  Plant Cell       Date:  1999-08       Impact factor: 11.277

6.  An improvement of the 2ˆ(-delta delta CT) method for quantitative real-time polymerase chain reaction data analysis.

Authors:  Xiayu Rao; Xuelin Huang; Zhicheng Zhou; Xin Lin
Journal:  Biostat Bioinforma Biomath       Date:  2013-08

Review 7.  Salicylic acid and its function in plant immunity.

Authors:  Chuanfu An; Zhonglin Mou
Journal:  J Integr Plant Biol       Date:  2011-06       Impact factor: 7.061

Review 8.  Nanoengineered silica: Properties, applications and toxicity.

Authors:  Andrea M Mebert; Carolyn J Baglole; Martin F Desimone; Dusica Maysinger
Journal:  Food Chem Toxicol       Date:  2017-05-31       Impact factor: 6.023

9.  Silica nanoparticle phytotoxicity to Arabidopsis thaliana.

Authors:  Danielle L Slomberg; Mark H Schoenfisch
Journal:  Environ Sci Technol       Date:  2012-08-27       Impact factor: 9.028

10.  Silicon and Plants: Current Knowledge and Technological Perspectives.

Authors:  Marie Luyckx; Jean-Francois Hausman; Stanley Lutts; Gea Guerriero
Journal:  Front Plant Sci       Date:  2017-03-23       Impact factor: 5.753
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  7 in total

1.  Silica Nanoparticles Enhance the Disease Resistance of Ginger to Rhizome Rot during Postharvest Storage.

Authors:  Jie Zhou; Xuli Liu; Chong Sun; Gang Li; Peihua Yang; Qie Jia; Xiaodong Cai; Yongxing Zhu; Junliang Yin; Yiqing Liu
Journal:  Nanomaterials (Basel)       Date:  2022-04-21       Impact factor: 5.719

2.  Heterogeneous Rate Constant for Amorphous Silica Nanoparticle Adsorption on Phospholipid Monolayers.

Authors:  Alex Vakurov; Rik Drummond-Brydson; Nicola William; Didem Sanver; Neus Bastús; Oscar H Moriones; V Puntes; Andrew L Nelson
Journal:  Langmuir       Date:  2022-04-26       Impact factor: 4.331

3.  Silica nanoparticles protect rice against biotic and abiotic stresses.

Authors:  Jianfeng Du; Baoyou Liu; Tianfeng Zhao; Xinning Xu; Han Lin; Yatai Ji; Yue Li; Zhiwei Li; Chongchong Lu; Pengan Li; Haipeng Zhao; Yang Li; Ziyi Yin; Xinhua Ding
Journal:  J Nanobiotechnology       Date:  2022-04-22       Impact factor: 9.429

4.  Carbon nanotube biocompatibility in plants is determined by their surface chemistry.

Authors:  Eduardo González-Grandío; Gözde S Demirer; Christopher T Jackson; Darwin Yang; Sophia Ebert; Kian Molawi; Harald Keller; Markita P Landry
Journal:  J Nanobiotechnology       Date:  2021-12-20       Impact factor: 10.435

Review 5.  Role of Silica Nanoparticles in Abiotic and Biotic Stress Tolerance in Plants: A Review.

Authors:  Lei Wang; Chuanchuan Ning; Taowen Pan; Kunzheng Cai
Journal:  Int J Mol Sci       Date:  2022-02-09       Impact factor: 5.923

6.  Novel approach to enhance Bradyrhizobium diazoefficiens nodulation through continuous induction of ROS by manganese ferrite nanomaterials in soybean.

Authors:  Jun Ma; Yi Zhou; Jiaying Li; Zhiyong Song; Heyou Han
Journal:  J Nanobiotechnology       Date:  2022-03-31       Impact factor: 10.435

7.  Evaluation of the Abilities of Three Kinds of Copper-Based Nanoparticles to Control Kiwifruit Bacterial Canker.

Authors:  Ganggang Ren; Zhenghao Ding; Xin Pan; Guohai Wei; Peiyi Wang; Liwei Liu
Journal:  Antibiotics (Basel)       Date:  2022-07-04
  7 in total

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