Your search keyword '"Prakash, Ganesan"' showing total 6 results

1. New Insights on Endophytic Microbacterium-Assisted Blast Disease Suppression and Growth Promotion in Rice: Revelation by Polyphasic Functional Characterization and Transcriptomics

Author

Asharani Patel, Kuleshwar Prasad Sahu, Sahil Mehta, Mohammed Javed, Alexander Balamurugan, Mushineni Ashajyothi, Neelam Sheoran, Prakash Ganesan, Aditi Kundu, Subbaiyan Gopalakrishnan, Robin Gogoi, and Aundy Kumar

Subjects

blast disease, Magnaporthe, Microbacterium testaceum, probiotic features, transcriptome assembly, DEGs, Biology (General), QH301-705.5

Abstract

Plant growth-promoting endophytic microbes have drawn the attention of researchers owing to their ability to confer fitness benefits in many plant species. Here, we report agriculturally beneficial traits of rice-leaf-adapted endophytic Microbacterium testaceum. Our polyphasic taxonomic investigations revealed its identity as M. testaceum. The bacterium displayed typical endophytism in rice leaves, indicated by the green fluorescence of GFP-tagged M. testaceum in confocal laser scanning microscopy. Furthermore, the bacterium showed mineral solubilization and production of IAA, ammonia, and hydrolytic enzymes. Tobacco leaf infiltration assay confirmed its non-pathogenic nature on plants. The bacterium showed antifungal activity on Magnaporthe oryzae, as exemplified by secreted and volatile organic metabolome-mediated mycelial growth inhibition. GC-MS analysis of the volatilome of M. testaceum indicated the abundance of antimicrobial compounds. Bacterization of rice seedlings showed phenotypic traits of MAMP-triggered immunity (MTI), over-expression of OsNPR1 and OsCERK, and the consequent blast suppressive activity. Strikingly, M. testaceum induced the transcriptional tradeoff between physiological growth and host defense pathways as indicated by up- and downregulated DEGs. Coupled with its plant probiotic features and the defense elicitation activity, the present study paves the way for developing Microbacterium testaceum-mediated bioformulation for sustainably managing rice blast disease.

Published

2023

2. Composition and Codon Usage Pattern Results in Divergence of the Zinc Binuclear Cluster (Zn(II)2Cys6) Sequences among Ascomycetes Plant Pathogenic Fungi

Author

Bansal, Shilpi, primary, Mallikarjuna, Mallana Gowdra, additional, Balamurugan, Alexander, additional, Nayaka, S. Chandra, additional, and Prakash, Ganesan, additional

Published

2022

3. Structured Framework and Genome Analysis of Magnaporthe grisea Inciting Pearl Millet Blast Disease Reveals Versatile Metabolic Pathways, Protein Families, and Virulence Factors

Author

Reddy, Bhaskar, primary, Mehta, Sahil, additional, Prakash, Ganesan, additional, Sheoran, Neelam, additional, and Kumar, Aundy, additional

Published

2022

4. Precision Genome Editing Toolbox: Applications and Approaches for Improving Rice’s Genetic Resistance to Pathogens

Author

Chattopadhyay, Anirudha, primary, Purohit, Jyotika, additional, Mehta, Sahil, additional, Parmar, Hemangini, additional, Karippadakam, Sangeetha, additional, Rashid, Afreen, additional, Balamurugan, Alexander, additional, Bansal, Shilpi, additional, Prakash, Ganesan, additional, Achary, V. Mohan Murali, additional, and Reddy, Malireddy K., additional

Published

2022

5. A Novel Approach to Interpret Soil Moisture Content for Economical Monitoring of Urban Landscape

Author

Suriya Prakash Ganesan, Anasua GuhaRay, Junwei Liu, Ankit Garg, and Vinay Kumar Gadi

Subjects

010504 meteorology & atmospheric sciences, lcsh:TJ807-830, Geography, Planning and Development, lcsh:Renewable energy sources, 0211 other engineering and technologies, Soil science, 02 engineering and technology, Management, Monitoring, Policy and Law, relative humidity, 01 natural sciences, Soil temperature, Relative humidity, Soil moisture content, Water content, lcsh:Environmental sciences, Uncertainty analysis, 021101 geological & geomatics engineering, 0105 earth and related environmental sciences, lcsh:GE1-350, electrical conductivity, Renewable Energy, Sustainability and the Environment, lcsh:Environmental effects of industries and plants, temperature, Vegetation, neural networks, lcsh:TD194-195, correlation, Soil water, Environmental science, soil moisture, Urban landscape

Abstract

Preservation of green infrastructure (GI) needs continuous monitoring of soil moisture. Moisture content in soil is generally interpreted on the basis electrical conductivity (EC), soil temperature and relative humidity (RH). However, validity of previous approaches to interpret moisture content in urban landscape was rarely investigated. There is a need to relate the moisture content with other parameters (EC, temperature and RH) to economize the sensor installation. This study aims to quantify the dynamics of the above-mentioned parameters in an urban green space, and to further develop correlations between moisture content and other parameters (EC, temperature and RH). An integrated field monitoring and statistical modelling approach were adopted to achieve the objective. Four distinct sites comprising treed (younger and mature tree), grassed and bare soil were selected for investigation. Field monitoring was conducted for two months to measure four parameters. This was followed by statistical modelling by artificial neural networks (ANN). Correlations were developed for estimating soil moisture as a function of other parameters for the selected sites. Irrespective of the type of site, EC was found to be the most significant parameter affecting soil moisture, followed by RH and soil temperature. This correlation with EC is found to be stronger in vegetated soil as compared to that without vegetation. The correlations of soil temperature with water content do not have a conclusive trend. A considerable increase in temperature was not found due to the subsequent drying of soil after rainfall. A normal distribution function was found from the uncertainty analysis of soil moisture in the case of treed soil, whereas soil moisture was observed to follow a skewed distribution in the bare and grassed soils.

Published

2019

6. Composition and Codon Usage Pattern Results in Divergence of the Zinc Binuclear Cluster ( Zn(II) 2 Cys 6 ) Sequences among Ascomycetes Plant Pathogenic Fungi.

Author

Bansal S, Mallikarjuna MG, Balamurugan A, Nayaka SC, and Prakash G

Abstract

Zinc binuclear cluster proteins (ZBC; Zn(II) 2 Cys 6 ) are unique to the fungi kingdom and associated with a series of functions, viz. , the utilization of macromolecules, stress tolerance, and most importantly, host-pathogen interactions by imparting virulence to the pathogen. Codon usage bias (CUB) is the phenomenon of using synonymous codons in a non-uniform fashion during the translation event, which has arisen because of interactions among evolutionary forces. The Zn(II) 2 Cys 6 coding sequences from nine Ascomycetes plant pathogenic species and model system yeast were analysed for compositional and codon usage bias patterns. The clustering analysis diverged the Ascomycetes fungi into two clusters. The nucleotide compositional and relative synonymous codon usage (RSCU) analysis indicated GC biasness toward Ascomycetes fungi compared with the model system S. cerevisiae , which tends to be AT-rich. Further, plant pathogenic Ascomycetes fungi belonging to cluster-2 showed a higher number of GC-rich high-frequency codons than cluster-1 and was exclusively AT-rich in S. cerevisiae . The current investigation also showed the mutual effect of the two evolutionary forces, viz . natural selection and compositional constraints, on the CUB of Zn(II) 2 Cys 6 genes. The perseverance of GC-rich codons of Zn(II) 2 Cys 6 in Ascomycetes could facilitate the invasion process. The findings of the current investigation show the role of CUB and nucleotide composition in the evolutionary divergence of Ascomycetes plant pathogens and paves the way to target specific codons and sequences to modulate host-pathogen interactions through genome editing and functional genomics tools.

Published

2022