Endophytic Beauveria bassiana can protect the rice plant from sheath blight of rice caused by Rhizoctonia solani and enhance plant growth parameters

Deb, Lipa; Dutta, Pranab; Devi, Ritu; Thakuria, Dwipendra; Majumder, Dipali

doi:10.1007/s00203-022-03211-2

Cited by 9 publications

(4 citation statements)

References 26 publications

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“…With the addition of pectinase, the cumulative release rates of TF@Fe-MOF-PT NPs increased to 40.07% and 87.44% in the pH 5+pectinase and pH 5+H 2 O 2 +pectinase solutions, respectively, suggesting that the incorporation of pectinase facilitated the release of TF. These results indicated that the TF@Fe-MOF-PT NPs had excellent responses to the reactive oxygen species and pectinase and that pectinase secreted at the early stage of R. solani invasion into the rice cells and reactive oxygen species produced at the target site specifically released active components for long-term control of the disease. , …”

Section: Resultsmentioning

confidence: 85%

“…These results indicated that the TF@Fe-MOF-PT NPs had excellent responses to the reactive oxygen species and pectinase and that pectinase secreted at the early stage of R. solani invasion into the rice cells and reactive oxygen species produced at the target site specifically released active components for long-term control of the disease. 42,43 To explore the release mechanism for the TF@Fe-MOF-PT NPs, the cumulative release rate data for the drugs were fitted with the zero-order, first-order, Korsmeyer−Peppas and Higuchi models, and the results are shown in Table S2. The TF@Fe-MOF data were more consistent with the Korsmeyer− Peppas model for pH 7 and pH 5 solutions, with correlation coefficients R 2 of 0.9844 and 0.9789, respectively.…”

Section: Resultsmentioning

confidence: 99%

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Pectin-Coated Iron-Based Metal–Organic Framework Nanoparticles for Enhanced Foliar Adhesion and Targeted Delivery of Fungicides

Yang,

Chen,

Zhu

et al. 2024

ACS Nano

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Conventional agrochemicals are underutilized due to their large particle sizes, poor foliar retention rates, and difficult translocation in plants, and the development of functional nanodelivery carriers with high adhesion to the plant body surface and efficient uptake and translocation in plants remains challenging. In this study, a nanodelivery system based on a pectin-encapsulated iron-based MOF

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Section: Resultsmentioning

confidence: 85%

Section: Resultsmentioning

confidence: 99%

Pectin-Coated Iron-Based Metal–Organic Framework Nanoparticles for Enhanced Foliar Adhesion and Targeted Delivery of Fungicides

Yang,

Chen,

Zhu

et al. 2024

ACS Nano

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“…Numerous studies have shown that EPF are associated directly with plants, and they are considered extremely important partners in plant development. EPF have attracted the interest of researchers in recent years because of the benefits they confer to their hosts, especially in the form of plant growth promotion ( Ownley et al, 2010 ; Barra-Bucarei et al, 2020 ; Deb et al, 2022 ). In the present study, B. bassiana had positive effects on root length and tomato seedling height after inoculation, which is consistent with the findings of other studies showing that EPF could endophytically colonize and promote plant growth, both in monocots and in dicots ( Vega, 2008 , 2018 ; Mantzoukas and Eliopoulos, 2020 ).…”

Section: Discussionmentioning

confidence: 99%

Endophytic Beauveria bassiana promotes plant biomass growth and suppresses pathogen damage by directional recruitment

Sui,

Lu,

Zhou

et al. 2023

Front. Microbiol.

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IntroductionEntomopathogenic fungi (EPF) can colonize and establish symbiotic relationships with plants as endophytes. Recently, EPF have been reported to suppress plant pathogens and induce plant resistance to diseases. However, the potential mechanisms via which EPF as endophytes control major plant diseases in situ remain largely unknown.MethodsPot and field experiments were conducted to investigate the mechanisms via which an EPF, Beauveria bassiana, colonizes tomato, under Botrytis cinerea infection stress. B. bassiana blastospores were inoculated into tomato plants by root irrigation. Tomato resistance to tomato gray mold caused by B. cinerea was evaluated by artificial inoculation, and B. bassiana colonization in plants and rhizosphere soil under B. cinerea infection stress was evaluated by colony counting and quantitative PCR. Furthermore, the expression levels of three disease resistance-related genes (OXO, CHI, and atpA) in tomato leaves were determined to explore the effect of B. bassiana colonization on plant disease resistance performance in pot experiments.ResultsB. bassiana colonization could improve resistance of tomato plants to gray mold caused by B. cinerea. The incidence rate, lesion diameter, and disease index of gray mold decreased in both the pot and field experiments following B. bassiana colonization. B. bassiana was more likely to accumulate in the pathogen infected leaves, while decreasing in the rhizosphere soil, and induced the expression of plant resistance genes, which were up-regulated in leaves.DiscussionThe results indicated that plants could “recruit” B. bassiana from rhizosphere soil to diseased plants as directional effects, which then enhanced plant growth and resistance against pathogens, consequently inhibiting pathogen infection and multiplication in plants. Our findings provide novel insights that enhance our understanding of the roles of EPF during pathogen challenge.

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“…In recent years, EPF strains with multiple control effects on plant disease and insect pests are gradually becoming a research hotspot, which means that the EPF can not only directly kill insects, but also form symbioses with plants through endophytic colonization, via various methods including foliar spraying, seed treatment, root irrigation, and injection ( Ownley et al, 2008 ; Greenfield et al, 2016 ; Bamisile et al, 2019 ; Hu and Bidochka, 2021 ). It is reported that some EPF strains can promote the biomass of plants after colonization ( Bamisile et al, 2018 ; Deb et al, 2022 ; Altaf et al, 2023 ), especially having the ability to affect the growth and development of pests and subsequently reducing their survival and reproduction ( González-Mas et al, 2021 ; Altaf et al, 2023 ). Moreover, the colonization of EPF in plants can inhibit phytopathogen growth and induce plant resistance against infection ( Barra-Bucarei et al, 2019 ; Gange et al, 2019 ; Canassa et al, 2020 ).…”

Section: Introductionmentioning

confidence: 99%

First record of Aspergillus nomiae as a broad-spectrum entomopathogenic fungus that provides resistance against phytopathogens and insect pests by colonization of plants

Zhang,

Tian,

Sui

et al. 2024

Front. Microbiol.

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IntroductionAspergillus nomiae is known as a pathogenic fungus that infects humans and plants but has never been reported as an entomophagous fungus (EPF) that can provide other functions as an endotype.MethodsA strain of EPF was isolated and identified from diseased larvae of Spodoptera litura in a soybean field and designated AnS1Gzl-1. Pathogenicity of the strain toward various insect pests was evaluated, especially the ability to colonize plants and induce resistance against phytopathogens and insect pests.ResultsThe isolated EPF strain AnS1Gzl-1 was identified as A. nomiae; it showed strong pathogenicity toward five insect pests belonging to Lepidoptera and Hemiptera. Furthermore, the strain inhibited the growth of Sclerotinia sclerotiorum in vitro, a causal agent of soil-borne plant disease. It colonized plants as an endophyte via root irrigation with a high colonization rate of 90%, thereby inducing plant resistance against phytopathogen infection, and disrupting the feeding selectivity of S. litura larvae.DiscussionThis is the first record of a natural infection of A. nomiae on insects. A. nomiae has the potential to be used as a dual biocontrol EPF because of its ability to not only kill a broad spectrum of insect pests directly but also induce resistance against phytopathogens via plant colonization.

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Endophytic Beauveria bassiana can protect the rice plant from sheath blight of rice caused by Rhizoctonia solani and enhance plant growth parameters

Cited by 9 publications

References 26 publications

Pectin-Coated Iron-Based Metal–Organic Framework Nanoparticles for Enhanced Foliar Adhesion and Targeted Delivery of Fungicides

Pectin-Coated Iron-Based Metal–Organic Framework Nanoparticles for Enhanced Foliar Adhesion and Targeted Delivery of Fungicides

Endophytic Beauveria bassiana promotes plant biomass growth and suppresses pathogen damage by directional recruitment

First record of Aspergillus nomiae as a broad-spectrum entomopathogenic fungus that provides resistance against phytopathogens and insect pests by colonization of plants

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