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The absence of the queuosine tRNA modification leads to pleiotropic phenotypes revealing perturbations of metal and oxidative stress homeostasis in Escherichia coli K12.
- Pollo-Oliveira, Leticia;
- Davis, Nick;
- Hossain, Intekhab;
- Ho, Peiying;
- Yuan, Yifeng;
- Salguero García, Pedro;
- Pereira, Cécile;
- Byrne, Shane;
- Leng, Jiapeng;
- Sze, Melody;
- Blaby-Haas, Crysten;
- Sekowska, Agnieszka;
- Montoya, Alvaro;
- Begley, Thomas;
- Danchin, Antoine;
- Aalberts, Daniel;
- Angerhofer, Alexander;
- Hunt, John;
- Conesa, Ana;
- Dedon, Peter;
- de Crécy-Lagard, Valérie
- et al.
Published Web Location
https://doi.org/10.1093/mtomcs/mfac065Abstract
Queuosine (Q) is a conserved hypermodification of the wobble base of tRNA containing GUN anticodons but the physiological consequences of Q deficiency are poorly understood in bacteria. This work combines transcriptomic, proteomic and physiological studies to characterize a Q-deficient Escherichia coli K12 MG1655 mutant. The absence of Q led to an increased resistance to nickel and cobalt, and to an increased sensitivity to cadmium, compared to the wild-type (WT) strain. Transcriptomic analysis of the WT and Q-deficient strains, grown in the presence and absence of nickel, revealed that the nickel transporter genes (nikABCDE) are downregulated in the Q- mutant, even when nickel is not added. This mutant is therefore primed to resist to high nickel levels. Downstream analysis of the transcriptomic data suggested that the absence of Q triggers an atypical oxidative stress response, confirmed by the detection of slightly elevated reactive oxygen species (ROS) levels in the mutant, increased sensitivity to hydrogen peroxide and paraquat, and a subtle growth phenotype in a strain prone to accumulation of ROS.
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