Valeria A. Bannikova scite author profile

Using UV and CD spectroscopy, we studied the thermodynamic stability and folding topology of G-quadruplexes (G4), formed by G-rich fragments in human microsatellites that differ in the number of guanosines within the repeating unit. The oligonucleotides d(GGGT)4 and d(GGT)4 were shown to form propeller-type parallel-stranded intramolecular G-quadruplexes. The G4 melting temperature is dramatically decreased (by more than 45°C) in the transition from the tri-G-tetrad to the bi-G-tetrad structure. d(GT)n-repeats do not form perfect G-quadruplexes (one-G-tetrad); folded G4-like conformation is not stable at room temperature and is not stabilized by monovalent metal ions. The minimum concentration of K+ that promotes quadruplex folding of d(GGT)4 was found to depend on the supporting Na+ concentration. It was demonstrated for the first time that the complementary regions flanking G4-motifs (as in d(CACTGG-CC-(GGGT)4-TA-CCAGTG)) cannot form a double helix in the case of a parallel G4 due to the steric remoteness, but instead destabilize the structure. Additionally, we investigated the effect of the described oligonucleotides on the activity of topoisomerase I, one of the key cell enzymes, with a focus on the relationship between the stability of the formed quadruplexes and the inhibition degree of the enzyme. The most active inhibitor with IC50 = 0.08 µM was the oligonucleotide d(CACTGG-CC-(GGGT)4-TA-CCAGTG), whose flanking G4-motif sequences reduced the extreme stability of G-quadruplex formed by d(GGGT)4.

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The Potential of Telomeric G-Quadruplexes Containing Modified Oligoguanosine Overhangs in Activation of Bacterial Phagocytosis and Leukotriene Synthesis in Human Neutrophils

Golenkina

Viryasova

Dolinnaya

et al. 2020

Biomolecules

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Human neutrophils are the first line of defense against bacterial and viral infections. They eliminate pathogens through phagocytosis, which activate the 5-lipoxygenase (5-LOX) pathway resulting in synthesis of leukotrienes. Using HPLC analysis, flow cytometry, and other biochemical methods, we studied the effect of synthetic oligodeoxyribonucleotides (ODNs) able to fold into G-quadruplex structures on the main functions of neutrophils. Designed ODNs contained four human telomere TTAGGG repeats (G4) including those with phosphorothioate oligoguanosines attached to the end(s) of G-quadruplex core. Just modified analogues of G4 was shown to more actively than parent ODN penetrate into cells, improve phagocytosis of Salmonella typhimurium bacteria, affect 5-LOX activation, the cytosol calcium ion level, and the oxidative status of neutrophils. As evident from CD and UV spectroscopy data, the presence of oligoguanosines flanking G4 sequence leads to dramatic changes in G-quadruplex topology. While G4 folds into a single antiparallel structure, two main folded forms have been identified in solutions of modified ODNs: antiparallel and dominant, more stable parallel. Thus, both the secondary structure of ODNs and their ability to penetrate into the cytoplasm of cells are important for the activation of neutrophil cellular effects. Our results offer new clues for understanding the role of G-quadruplex ligands in regulation of integral cellular processes and for creating the antimicrobial agents of a new generation.

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Involvement of E. coli 6S RNA in Oxidative Stress Response

Burenina

Elkina

Ovcharenko

et al. 2022

IJMS

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6S RNA, a small non-coding RNA present in almost all bacteria, inhibits transcription via direct binding to RNA polymerase holoenzymes. The mechanism of 6S RNA action was investigated to a large extent in E. coli, however, lack of 6S RNA (ΔssrS) was demonstrated to be unfavorable but not essential for cell survival under various growth conditions. In the present study, we revealed, for the first time, a lethal phenotype of the ΔssrS strain in the presence of high concentrations of H2O2. This phenotype was rescued by complementation of the ssrS gene on a plasmid. We performed comparative qRT-PCR analyses on an enlarged set of mRNAs of genes associated with the oxidative stress response, allowing us to identify four genes known to be involved in this pathway (soxS, ahpC, sodA and tpx) that had decreased mRNA levels in the ΔssrS strain. Finally, we performed comparative proteomic analyses of the wild-type and ΔssrS strains, confirming that ΔssrS bacteria have reduced levels of the proteins AhpC and Tpx involved in H2O2 reduction. Our findings substantiate the crucial role of the riboregulator 6S RNA for bacterial coping with extreme stresses.

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Assessing the Impact of International Sanctions on Russian Economy Sectors Using Network Modeling

Altukhov

Bannikova

Matveev

et al. 2020

Èkonomika i upravlenie

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This study presents the results of the economic modeling of commodity export flows from the Russian Federation in 2012–2016.Aim. The study aims to assess the direct and indirect effects of the US and European sanctions on export flows from Russia.Tasks. The authors collect the necessary data and carry out modeling using modern analysis methods to obtain a complete picture of the effects of sanctions on Russia, including a quantitative assessment of these effects.Methods. The modeling is based on network analysis, which was selected after consulting a wide range of scientific works and examining possible alternative methodological approaches to the problem under consideration.Results. The authors successfully complete network modeling for the major export commodity groups of the Russian Federation: aluminum, gas, and oil (including crude oil); formulate and test the hypothesis of Russia’s changing role in international trade as a result of sanctions; summarize the results of the model calculations of the aggregate effects of sanctions pressure on the export of the major commodity groups from Russia.Conclusion. In general, sanctions pressure has an obvious negative impact on the Russian economy, but the timeframe and scope of this impact are not up to the original estimates of the US and the European countries that introduced these sanctions.

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The effects of monetary shocks on inflation: High-frequency approach

Bannikova

Pestova

2021

Vopr. èkon.

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Commonly used in monetary VARs identification schemes yield to a highfrequency approach as they tend to raise different empirical puzzles reported in the literature. However, financial markets in some open economies are not sufficiently liquid to provide minute bars data on interest rate financial instruments. This paper fills this gap employing a new series of high-frequency monetary policy surprises with USD/RUB currency futures and spot instruments. We find that a monetary tightening is contractionary without price puzzle and other paradoxes about financial variables. This result is robust for the period 2010—2019 apart from the crisis of 2014—2015 when the free floated ruble was devalued due to the sharp decline in oil prices. We also decompose surprises on monetary policy shocks — changes in the expected interest rate, and an information component — the information simultaneously conveyed by the central bank like an assessment of the economic outlook. We find that the former one significantly affects monetary policy surprises that does not confirm a hypothesis about substantial impact of non-monetary news on the external instrument.

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