Publications by authors named "A V Nefedova"
Integration of the DNA copy of HIV-1 genome into the cellular genome results in series of damages, repair of which is critical for successful replication of the virus. We have previously demonstrated that the ATM and DNA-PK kinases, normally responsible for repairing double-strand breaks in the cellular DNA, are required to initiate the HIV-1 DNA postintegrational repair, even though integration does not result in DNA double-strand breaks. In this study, we analyzed changes in phosphorylation status of ATM (pSer1981), DNA-PK (pSer2056), and their related kinase ATR (pSer428), as well as their targets: Chk1 (pSer345), Chk2 (pThr68), H2AX (pSer139), and p53 (pSer15) during the HIV-1 DNA postintegrational repair.
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- Tryptophan (TRP) oxidation is essential for both plant growth and animal behavior, influencing factors like hunger and sleep.
- Interactions with metal oxide nanoparticles (NPs) can significantly affect TRP oxidation, providing opportunities for various biomedical and agricultural innovations.
- Advanced techniques like NMR, optical spectroscopy, and X-ray studies revealed detailed mechanisms of TRP-NP interactions, highlighting how different oxides can oxidize TRP and produce important organic compounds.
Increasing HIV drug resistance is an important public health concern. The current study aimed to assess HIV drug resistance among people who live with HIV (PLWH) experiencing virological failure. Blood samples and epidemiological characteristics were collected in four Siberian regions from PLWH experiencing ART failure.
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- The study focuses on enhancing textile surfaces to be antiviral by applying different nanoparticles, aiming to combat coronaviruses like SARS-CoV-2.
- Antiviral testing showed that while SARS-CoV-2 remained infectious on textiles for over 24 hours, the effectiveness of the applied nanoparticles varied, particularly noting a significant decline in the activity of CeO nanoparticles post-deposition.
- The findings suggest that prolonged effectiveness of antiviral textiles can't simply be inferred from how well the nanoparticles perform in liquid form, emphasizing the need for ongoing efficacy in real-world conditions.
The integration of a DNA copy of an HIV-1 RNA genome into the host genome, carried out by the viral enzyme integrase, results in the formation of single-stranded gaps in cellular DNA that must be repaired. Here, we have analyzed the involvement of the PI3K kinases, ATM, ATR, and DNA-PKcs, which are important players in the DNA damage response (DDR) in HIV-1 post-integrational DNA repair (PIR). The participation of the DNA-PK complex in HIV-1 PIR has been previously shown, and the formation of a complex between the viral integrase and the DNA-PK subunit, Ku70, has been found to be crucial for efficient PIR.
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