L. Yu. Nesterova scite author profile

Putrescine up-regulated, in a concentration-dependent manner, the expression levels of the oxyR and katG genes of Escherichia coli cells exposed to hydrogen peroxide. Its stimulatory effect was more pronounced under conditions of strong oxidative stress. 1,4-Diamino-2-butanone, a specific inhibitor of putrescine synthesis, also inhibited oxyR expression under oxidative stress. When added to inhibited cells, putrescine relieved this inhibitory effect. Addition of putrescine to E. coli cultures exposed to oxidative stress led to increased cell survival.

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Ткаченко

Nesterova

2003

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Activity of enzymes of polyamine synthesis and contents of their products increased in E. coli cells in response to oxidative stress caused by addition of hydrogen peroxide to an exponentially growing culture. Putrescine and spermidine added to the culture medium in physiological concentrations significantly increased expression of genes oxyR and katG responsible for defense against oxidative stress, whereas cadaverine had no effect. The role of polyamines as modulators of the gene expression was confirmed by experiments with an inhibitor of polyamine synthesis, 1,3-diaminopropane, which decreased the level of cell polyamines and thus abolished the ability of the cell to induce oxyR expression under oxidative stress. A genetic method gave similar results: under oxidative stress mutants with disorders in polyamine synthesis displayed a significantly decreased level of induction of the oxyR and katG genes, and this level was recovered on addition of putrescine. In the presence of inhibitors of DNA-gyrase, nalidixic acid and novobiocin, the oxyR expression depended on the extent of DNA supercoiling. Putrescine decreased the inhibitory effects of nalidixic acid and novobiocin, and this confirmed its properties of a stimulator of DNA supercoiling. Resistance to rifampicin was studied to exemplify the mutation rate under oxidative stress. Putrescine decreased twofold the level of mutations and increased the number of viable cells in the culture exposed to oxidative stress.

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A synthetic diterpene analogue inhibits mycobacterial persistence and biofilm formation by targeting (p)ppGpp synthetases

Ткаченко

Kashevarova

Sidorov

et al. 2021

Cell Chemical Biology

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L. Yu. Nesterova

Polyamines reduce oxidative stress in Escherichia coli cells exposed to bactericidal antibiotics

The role of the natural polyamine putrescine in defense against oxidative stress in Escherichia coli

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A synthetic diterpene analogue inhibits mycobacterial persistence and biofilm formation by targeting (p)ppGpp synthetases

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