Author
Listed:
- Shailendra Singh
(Plant-Microbe Interaction and Rhizosphere Biology Lab, ICAR-National Bureau of Agriculturally Important Microorganisms, Kushmaur, Maunath Bhanjan 275103, India
Amity Institute of Biotechnology, Amity University Uttar Pradesh, Lucknow 227105, India
These authors have contributed equally to this work.)
- Udai B. Singh
(Plant-Microbe Interaction and Rhizosphere Biology Lab, ICAR-National Bureau of Agriculturally Important Microorganisms, Kushmaur, Maunath Bhanjan 275103, India
These authors have contributed equally to this work.)
- Deepti Malviya
(Plant-Microbe Interaction and Rhizosphere Biology Lab, ICAR-National Bureau of Agriculturally Important Microorganisms, Kushmaur, Maunath Bhanjan 275103, India)
- Surinder Paul
(Plant-Microbe Interaction and Rhizosphere Biology Lab, ICAR-National Bureau of Agriculturally Important Microorganisms, Kushmaur, Maunath Bhanjan 275103, India
These authors have contributed equally to this work.)
- Pramod Kumar Sahu
(Plant-Microbe Interaction and Rhizosphere Biology Lab, ICAR-National Bureau of Agriculturally Important Microorganisms, Kushmaur, Maunath Bhanjan 275103, India
These authors have contributed equally to this work.)
- Mala Trivedi
(Amity Institute of Biotechnology, Amity University Uttar Pradesh, Lucknow 227105, India)
- Diby Paul
(Pilgram Marpeck School of Science, Technology, Engineering and Mathematics, Truett McConnel University, 100 Alumni Dr., Cleveland, GA 30528, USA)
- Anil Kumar Saxena
(Plant-Microbe Interaction and Rhizosphere Biology Lab, ICAR-National Bureau of Agriculturally Important Microorganisms, Kushmaur, Maunath Bhanjan 275103, India)
Abstract
Plant growth promoting rhizobacteria Pseudomonas aeruginosa strain MF-30 isolated from maize rhizosphere was characterized for several plant growth stimulating attributes. The strain MF-30 was also evaluated for antifungal properties against Rhizoctonia solani causing banded leaf and sheath blight in maize ( Zea mays L.) under in vitro conditions and was found to have higher mycelial growth suppression in the culture suspension (67.41%) followed by volatile organic compounds (62.66%) and crude extract (51.20%) in a dual plate assay. The endophytic and epiphytic colonization ability was tested using Green Fluorescent Protein (GFP)-tagging. Visualization through confocal scanning laser microscope clearly indicated that strain MF-30 colonizes the root and foliar parts of the plants. Further, the effects of seed bio-priming with P. aeruginosa MF-30 was evaluated in the induction and bioaccumulation of defense-related biomolecules, enzymes, natural antioxidants, and other changes in maize under pot trial. This not only provided protection from R. solani but also ensured growth promotion under pathogenic stress conditions in maize. The maximum concentration of hydrogen peroxide (H 2 O 2 ) was reported in the root and shoot of the plants treated with R. solani alone (8.47 and 17.50 mmol mg −1 protein, respectively) compared to bioagent, P. aeruginosa MF-30 bio-primed plants (3.49 and 7.50 mmol mg −1 protein, respectively). Effects on total soluble sugar content, total protein, and total proline were also found to enhanced significantly due to inoculation of P. aeruginosa MF-30. The activities of anti-oxidative defense enzymes phenylalanine ammonia lyase (PAL), ascorbate peroxidase, peroxidase, superoxide dismutase, and catalase increased significantly in the plants bio-primed with P. aeruginosa MF-30 and subsequent foliar spray of culture suspension of MF-30 compared to pathogen alone inoculated plants. qRT-PCR analysis revealed that seed bio-priming and foliar application of P. aeruginosa MF-30 significantly increased the expression of PR-1 and PR-10 genes with the simultaneous decrease in the disease severity and lesion length in the maize plants under pathogenic stress conditions. A significant enhancement of shoot and root biomass was recorded in MF-30 bio-primed plants as compared to untreated control ( p < 0.05). Significant increase in plant growth and antioxidant content, as well as decreased disease severity in the P. aeruginosa MF-30 bio-primed plants, suggested the possibility of an eco-friendly and economical means of achieving antioxidants-rich, healthier maize plants.
Suggested Citation
Shailendra Singh & Udai B. Singh & Deepti Malviya & Surinder Paul & Pramod Kumar Sahu & Mala Trivedi & Diby Paul & Anil Kumar Saxena, 2020.
"Seed Biopriming with Microbial Inoculant Triggers Local and Systemic Defense Responses against Rhizoctonia solani Causing Banded Leaf and Sheath Blight in Maize ( Zea mays L.),"
IJERPH, MDPI, vol. 17(4), pages 1-30, February.
Handle:
RePEc:gam:jijerp:v:17:y:2020:i:4:p:1396-:d:323580
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Cited by:
- Runze Di & Lun Liu & Noman Shoaib & Boai Xi & Qiyan Zhou & Guowu Yu, 2023.
"Sheath Blight of Maize: An Overview and Prospects for Future Research Directions,"
Agriculture, MDPI, vol. 13(10), pages 1-15, October.
- Amrita Gupta & Udai B. Singh & Pramod K. Sahu & Surinder Paul & Adarsh Kumar & Deepti Malviya & Shailendra Singh & Pandiyan Kuppusamy & Prakash Singh & Diby Paul & Jai P. Rai & Harsh V. Singh & Madhab, 2022.
"Linking Soil Microbial Diversity to Modern Agriculture Practices: A Review,"
IJERPH, MDPI, vol. 19(5), pages 1-29, March.
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