Insights into the response of Miscanthus x giganteus to rhizobacteria: Enhancement of metal tolerance and root development under heavy metal stress

Autor: Pešić Mila, Radović Svetlana, Rakić Tamara, Dželetović Željko, Stanković Slaviša, Lozo Jelena
Jazyk: angličtina
Rok vydání: 2024
Předmět:
Zdroj: Archives of Biological Sciences, Vol 76, Iss 2, Pp 205-221 (2024)
Druh dokumentu: article
ISSN: 0354-4664
1821-4339
DOI: 10.2298/ABS240301014P
Popis: The use of bioenergy crops such as Miscanthus x giganteus in phytoremediation could have both environmental and economic benefits, such as biomass production and soil conservation for crops. In our previous work, we showed that rhizobacteria from the rhizosphere of M. x giganteus stimulated metal extraction and uptake and enhanced the phytoremediation ability of treated M. x giganteus. In the present study, we conducted transcriptome analysis and qPCR to elucidate the molecular mechanisms underlying these interactions in response to bacterial treatment by identifying the candidate genes involved in growth and development processes and metal uptake. Using high-throughput RNA sequencing of root samples, we found that 5134 and 4758 genes were up- and downregulated in plants treated with the rhizobacteria consortium. Gene ontology analysis showed that the upregulated DEGs were significantly enriched in 32 terms, while the downregulated genes were significantly enriched in 63 terms. Our results confirmed the increased expression of two genes: the multidrug and toxic compound extrusion, also known as multi-antimicrobial extrusion (MATE) 40, known for its role in plant response to biotic and abiotic stress, and COBRA-like protein 1 belonging to the COBRA-like (COBL) gene family, which encodes a putative glycosylphosphatidylinositol (GPI)-anchored protein involved in cell wall thickening, cell elongation, and biomass increase when compared to untreated plants. We present the first insight into a mechanism whereby the interaction between the rhizobacterial consortium and M. x giganteus fosters plant growth and enhances its capacity for phytoremediation.
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