Rice foliar-adapted Pantoea species: Promising microbial biostimulants enhancing rice resilience against foliar pathogens, Magnaporthe oryzae and Xanthomonas oryzae pv. oryzae

Foliar fungal blast and bacterial leaf blight have significant impacts on rice production, and their management through host resistance and agrochemicals has proven inadequate. To achieve their sustainable management, innovative approaches like leveraging the foliar microbiome, which collaborates wi...

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Published in:Microbial pathogenesis 2024-01, Vol.186, p.106445-106445, Article 106445
Main Authors: Krishnappa, Charishma, Balamurugan, Alexander, Velmurugan, Shanmugam, Kumar, Shanu, Sampathrajan, Vellaikumar, Kundu, Aditi, Javed, Mohammed, Chouhan, Vinod, Ganesan, Prakash, Kumar, Aundy
Format: Article
Language:English
Subjects:
Anti-Infective Agents - metabolism
Biochemical response
Blast
Blight
Gene expression
Metabolome
Oryza
Pantoea
Pantoea - genetics
Phyllosphere
Plant Diseases - microbiology
Plants
Resilience, Psychological
Seedlings - microbiology
Volatilome
Xanthomonas - genetics
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Summary:Foliar fungal blast and bacterial leaf blight have significant impacts on rice production, and their management through host resistance and agrochemicals has proven inadequate. To achieve their sustainable management, innovative approaches like leveraging the foliar microbiome, which collaborates with plants and competes against pathogens, are essential. In our study, we isolated three Pantoea strains (P. agglomerans Os-Ep-PPA-1b, P. vagans Os-Ep-PPA-3b, and P. deleyi Os-Ep-VPA-9a) from the rice phylloplane. These isolates exhibited antimicrobial action through their metabolome and volatilome, while also promoting rice growth. Our analysis, using Gas Chromatography-Mass Spectrometry (GC-MS), revealed the presence of various antimicrobial compounds such as esters and fatty acids produced by these Pantoea isolates. Inoculating rice seedlings with P. agglomerans and P. vagans led to increased root and shoot growth. Additionally, bacterized seedlings displayed enhanced immunocompetence, as evidenced by upregulated expressions of defense genes (OsEDS1, OsFLS2, OsPDF2.2, OsACO4, OsICS OsPR1a, OsNPR1.3, OsPAD4, OsCERK1.1), along with heightened activities of defense enzymes like Polyphenol Oxidase and Peroxidase. These plants also exhibited elevated levels of total phenols. In field trials, the Pantoea isolates contributed to improved plant growth, exemplified by increased flag-leaf length, panicle number, and grains per panicle, while simultaneously reducing the incidence of chaffy grains. Hypersensitivity assays performed on a model plant, tobacco, confirmed the non-pathogenic nature of these Pantoea isolates. In summary, our study underscores the potential of Pantoea bacteria in combatting rice foliar diseases. Coupled with their remarkable growth-promoting and biostimulant capabilities, these findings position Pantoea as promising agents for enhancing rice cultivation. Graphical Abstract of Rice Foliar-Adapted Pantoea Species: Promising Microbial Biostimulants Enhancing Rice Resilience Against Magnaporthe oryzae and Xanthomonas oryzae pv. oryzae; three rice phylloplane Pantoea strains: P. agglomerans, P. vagans, andP. deleyienhanced plant growth and conferred immunocompetence against blast and bacterial blight disease in rice. [Display omitted] •Rice phyllosphere adapted Pantoea agglomerans, P. vagans, and P. deleyi, suppressed rice foliar blast and bacterial blight.•Foliar bacterization significantly elevated the expression of defense genes in rice showcasin
ISSN:0882-4010
1096-1208
DOI:10.1016/j.micpath.2023.106445