1. Radiotolerant endophytic bacteria and analysis of the effects of 137 Cesium on the metabolome of Pantoea sp.
- Author
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Dos Santos Oliveira JA, Polli AD, Ferreira AP, Lopes NB, Mangolim CA, Vicentini VEP, Polonio JC, Ramos AVG, Baldoqui DC, Pamphile JA, and Azevedo JL
- Abstract
Some bacteria have developed mechanisms to withstand the stress caused by ionizing radiation. The ability of these radioresistant microorganisms to survive high levels of radiation is primarily attributed to their DNA repair mechanisms and the production of protective metabolites. To determine the effect of irradiation on bacterial growth, we propose to compare the metabolites produced by the irradiated isolates to those of the control (non-irradiated isolates) using mass spectrometry, molecular networking, and chemometric analysis. We identified the secondary metabolites produced by these bacteria and observed variations in growth following irradiation. Notably, after 48 h of exposure to radiation, Pantoea sp. bacterial cells exhibited a significant 6-log increase compared to non-irradiated cells. Non-irradiated cells produce exclusively Pyridindolol, 1-hydroxy-4-methylcarbostyril, N-alkyl, and N-2-alkoxyethyl diethanolamine, while 5'-methylthioadenosine was detected only in irradiated cells. These findings suggest that the metabolic profile of Pantoea sp. remained relatively stable. The results obtained from this study have the potential to facilitate the development of innovative strategies for harnessing the capabilities of endophytic bacteria in radiological protection and bioremediation of radionuclides., (© 2024. The Author(s) under exclusive licence to Sociedade Brasileira de Microbiologia.)
- Published
- 2024
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