MazEF Toxin-Antitoxin System-Mediated DNA Damage Stress Response in Deinococcus radiodurans

shows marked resistance to various types of DNA-damaging agents, including mitomycin C (MMC). A type II toxin-antitoxin (TA) system that responds to DNA damage stress was identified in , comprising the toxin MazF-dr and the antitoxin MazE-dr. The cleavage specificity of MazF-dr, an endoribonuclease,...

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Bibliographic Details
Published in:Frontiers in genetics 2021-02, Vol.12, p.632423-632423
Main Authors: Dai, Jingli, Chen, Zijing, Hou, Jinfeng, Wang, Yudong, Guo, Miao, Cao, Jiajia, Wang, Liangyan, Xu, Hong, Tian, Bing, Zhao, Ye
Format: Article
Language:English
Subjects:
Deinococcus
DNA damage
Genetics
iron transportation
ROS
toxin-antitoxin system
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Summary:shows marked resistance to various types of DNA-damaging agents, including mitomycin C (MMC). A type II toxin-antitoxin (TA) system that responds to DNA damage stress was identified in , comprising the toxin MazF-dr and the antitoxin MazE-dr. The cleavage specificity of MazF-dr, an endoribonuclease, was previously characterized. Here, we further investigated the regulatory role of the MazEF system in the response to DNA damage stress in . The crystal structure of MazF (MazF-dr) was determined at a resolution of 1.3 Ă… and is the first structure of the toxin of the TA system of . MazF-dr forms a dimer mediated by the presence of interlocked loops. Transcriptional analysis revealed 650 downregulated genes in the wild-type (WT) strain, but not in the mutant strain, which are potentially regulated by MazEF-dr in response to MMC treatment. Some of these genes are involved in membrane trafficking and metal ion transportation. Subsequently, compared with the WT strain, the mutant strain exhibited much lower MMC-induced intracellular iron concentrations, reactive oxygen species (ROS), and protein carbonylation levels. These results provide evidence that MazEF-mediated cell death in might be caused by an increase in ROS accumulation upon DNA damage stress.
ISSN:1664-8021
1664-8021
DOI:10.3389/fgene.2021.632423