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Интеллектуальная Система Тематического Исследования НАукометрических данных |
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Shilajit that emerges as resinous exudation from rocks of mountains is considered to be a complex product of biotransformation of plant residues. Antiviral activity of shilajit resulting from its biological activity was repeatedly reported. However, structural composition of its active components remains unknown. In this study we investigated inhibitory effect of dried water extractions of 11 raw shilajit samples originated from different geographic regions on HIV in cell-based assays. Structural analysis of the samples were conducted using quantitative solution state 13C NMR spectroscopy. The HIV-1 899A was used in this study to infect TZM-bl cells (NIH AIDS Reagent Program No. 8129, USA) obtained by genetic engineering of HeLa cells. EC50 values of dried shilajit water extractions were calculated using the Reed and Muench method. To obtain structural composition data, recorded 13C NMR spectra of shilajit samples were divided into intervals corresponding to typical structural units of natural organic matter (Figure 1) and integrated. A strong direct correlation (R=0.82; p-value=0.02) between EC50 values measured for shilajit samples and percentages of non-phenolic aromatic carbon was observed. Thus, aromatic structures were found to reduce antiviral activity of shilajit, and this was drastically different from the results obtained later for humic substances. On the other hand, a moderate correlation between percentages of alkyl structures in shilajit samples and EC50 values was detected. Antiviral activity of shilajit samples indicates that these substances hold significant promise as safe and efficacious antiviral drugs for treatment of HIV infection. Alkyl structures (lipids, terpenoids etc.) appeare to be responsible for anti-HIV activity of shilajit. Further studies of their antiviral activity and identification of antiviral structural components should include preliminary separation of low-molecular aromatic compounds.
№ | Имя | Описание | Имя файла | Размер | Добавлен |
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1. | Полный текст | тезисы | 10.36291-HIT.2019.konstantinov.091-1.pdf | 99,0 КБ | 28 декабря 2019 [andrey_konst] |
2. | Полный текст | Программа конференции | Final-Programme-HIT-2019.pdf | 661,1 КБ | 20 декабря 2019 [andrey_konst] |