Search Results - "БИОЛОГИЧЕСКИ АКТИВНЫЕ СОЕДИНЕНИЯ"

Source: Food systems; Vol 8, No 1 (2025); 73-80 ; Пищевые системы; Vol 8, No 1 (2025); 73-80 ; 2618-7272 ; 2618-9771 ; 10.21323/2618-9771-2025-8-1

Subject Terms: фитохимический скрининг, bioactive compounds, oxidative stress, cytotoxic effects, natural product research, phytochemical screening, биологически активные соединения, окислительный стресс, цитотоксические эффекты, исследование природного продукта

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E. et al. (2020). Phytochemical, cytotoxic, and antimicrobial evaluation of the fruits of miswak plant, Salvadora persica L. Journal of Chemistry, 2020(1), Article 4521951. https://doi.org/10.1155/2020/4521951; Bennour, N., Mighri, H., Eljani, H., Zammouri, T., Akrout, A. (2020). Effect of solvent evaporation method on phenolic compounds and the antioxidant activity of Moringa oleifera cultivated in Southern Tunisia. South African Journal of Botany, 129, 181–190. https://doi.org/10.1016/j.sajb.2019.05.005; Lawal, H. O., Etatuvie, S. O., Fawehinmi, A. B. (2012). Ethnomedicinal and pharmacological properties of Morinda lucida. Journal of Natural Products, 5, 93–99.; Survase, S. A., Annapure, U. S., Singhal, R. S. (2010). The effect of medium supplementation with second carbon source and amino acids for enhanced production of cyclosporin A. Current Trends in Biotechnology and Pharmacy, 4(3), 764–773.; Behbahani, B. A., Noshad, M., Falah, F. (2019). Study of chemical structure, antimicrobial, cytotoxic and mechanism of action of Syzygium aromaticum essential oil on foodborne pathogens. Potravinarstvo Slovak Journal of Food Sciences, 13(1), 875–883. https://doi.org/10.5219/1226; Altemimi, A.B., Al-Haliem, S.M., Alkanan, Z.T., Mohammed, M.J., Hesarinejad, M.A., Najm, M.A. et al. (2023). Exploring the phenolic profile, antibacterial, and antioxidant properties of walnut leaves (Juglans regia L.). Food Science and Nutrition, 11(11), 6845–6853. https://doi.org/10.1002/fsn3.3554; Abedelmaksoud, T. G., Hesarinejad, M. A., Shokrollahi Yancheshmeh, B. (2022). The effect of cold plasma on the enzymatic activity and quality characteristics of mango pulp. Research and Innovation in Food Science and Technology, 10(4), 341–350. https://doi.org/10.22101/JRIFST.2021.247462.1183; Labiad, M. H., Harhar, H., Ghanimi, A., Tabyaoui, M. (2017). Phytochemical screening and antioxidant activity of Moroccan Thymus satureioïdes extracts. Journal of Materials and Environmental Sciences, 8(6), 2132–2139.; Bahuguna, A., Khan, I., Bajpai, V. K., Kang, S. C. (2017). MTT assay to evaluate the cytotoxic potential of a drug. Bangladesh Journal of Pharmacology, 12(2), 115–118. https://doi.org/10.3329/bjp.v12i2.30892; Behbahani, B. A., Shahidi, F., Yazdi, F. T., Mortazavi, S. A., Mohebbi, M. (2017). Use of Plantago major seed mucilage as a novel edible coating incorporated with Anethum graveolens essential oil on shelf life extension of beef in refrigerated storage. International Journal of Biological Macromolecules, 94, 515–526. https://doi.org/10.1016/j.ijbiomac.2016.10.055; Ghribi, F., Bejaoui, S., Zupa, R., Trabelsi, W., Marengo, M., Chetoui, I. et al. (2023). New insight into the toxic effects of lithium in the ragworm Perinereis cultrifera as revealed by lipidomic biomarkers, redox status, and histopathological features. Environmental Science and Pollution Research, 30(26), 68821–68835. https://doi.org/10.1007/s11356-023-27223-7; Plaza, B., Haarich, S. N. (2015). The Guggenheim Museum Bilbao: Between regional embeddedness and global networking. European Planning Studies, 23(8), 1456–1475. https://doi.org/10.1080/09654313.2013.817543; Ibnouf, E. O., Aldawsari, M. F., Ali Waggiallah, H. (2022). Isolation and extraction of some compounds that act as antimicrobials from actinomycetes. Saudi Journal of Biological Sciences, 9(8), Article 103352. https://doi.org/10.1016/j.sjbs.2022.103352; Principe, P. P., Fisher, W. S. (2018). Spatial distribution of collections yielding marine natural products. Journal of Natural Products, 81(10), 2307–2320. https://doi.org/10.1021/acs.jnatprod.8b00288; Iqbal, K., Iqbal, J., Staerk, D., Kongstad, K. T. (2017). Characterization of antileishmanial compounds from Lawsonia inermis L. leaves using semi-high resolution antileishmanial profiling combined with HPLC-HRMS-SPE-NMR. Frontiers in Pharmacology, 8, Article 337. https://doi.org/10.3389/fphar.2017.00337; Mehmood, T., Arshad, H., Nawaz, S., Ullah, A., Hafeez, A., Anwar, F. et al. (2020). Pharmaceutical potential and phenolics profiling of leaves and bark of Calotropis procera in relation to extraction solvents. Pharmaceutical Chemistry Journal, 54(6), 631–641. https://doi.org/10.1007/s11094-020-02250-7; Ismaili, H., Milella, L., Fkih-Tetouani, S., Ilidrissi, A., Camporese, A., Sosa, S. et al. (2004). In vivo topical anti-inflammatory and in vitro antioxidant activities of two extracts of Thymus satureioides leaves. Journal of Ethnopharmacology, 91(1), 31–36. https://doi.org/10.1016/j.jep.2003.11.013; Gholamshahi, S., Salehi Sardoei, A. (2019). Phenolic compounds and antioxidant activity of plant milkweed (Calotropis Procera). Eco-phytochemical Journal of Medicinal Plants, 7(1), 77–86.; Mutlu-Ingok, A., Devecioglu, D., Dikmetas, D. N., Karbancioglu-Guler, F., Capanoglu, E. (2020). Antibacterial, antifungal, antimycotoxigenic, and antioxidant activities of essential oils: An updated review. Molecules, 25(20), Article 4711. https://doi.org/10.3390/molecules25204711; Ibrahim, N. I., Tadj, N. B.M.I., Sarker, Md. M.R., Mohamed, I.N. (2020). The potential mechanisms of the neuroprotective actions of oil palm phenolics: Implications for neurodegenerative diseases. Molecules, 25(21), Article 5159. https://doi.org/10.3390/molecules25215159; Al-Rowaily, S. L., Abd-ElGawad, A. M., Assaeed, A. M., Elgamal, A. M., Gendy, A. E.-N. G. E., Mohamed, T. A. et al. (2020). Essential oil of Calotropis procera: Comparative chemical profiles, antimicrobial activity, and allelopathic potential on weeds. Molecules, 25(21), Article 5203. https://doi.org/10.3390/molecules25215203; Bouyahya, A., Et-Touys, A., Abrini, J., Talbaoui, A., Fellah, H., Bakri, Y. et al. (2017). Lavandula stoechas essential oil from Morocco as novel source of antileishmanial, antibacterial and antioxidant activities. Biocatalysis and Agricultural Biotechnology, 12, 179–184. https://doi.org/10.1016/j.bcab.2017.10.003; Dhouafli, Z., Ben Jannet, H., Mahjoub, B., Leri, M., Guillard, J., Saidani Tounsi, M. et al. (2019). 1, 2, 4-trihydroxynaphthalene‑2-O‑β-D‑glucopyranoside: A new powerful antioxidant and inhibitor of Aβ42 aggregation isolated from the leaves of Lawsonia inermis. Natural Product Research, 33(10), 1406–1414. https://doi.org/10.1080/14786419.2017.1419229; Chaibi, R., Drine, S. Ferchichi, A. (2017). Chemical study and biological activities of various extracts from Lawsonia inermis (Henna) seeds. Acta Medica Mediterranea, 33, 981–986.; Hasan, K. M., Yesmin, S., Akhter, S. F., Paul, S., Sarker, S., Islam, A. et al. (2016). Hepatoprotective potentiality of various fractions of ethanolic extracts of Lawsonia inermis (henna) leaves against chemical-induced hepatitis in rats. Biochemistry and Molecular Biology, 1(2), 17–22. https://doi.org/10.11648/j.bmb.20160102.12; Philip, J. P., Madhumitha, G., Mary, S. A. (2011). Free radical scavenging and reducing power of Lawsonia inermis L. seeds. Asian Pacific Journal of Tropical Medicine, 4(6), 457–461. https://doi.org/10.1016/s1995-7645(11)60125-9; Yang, C.-S., Chen, J.-J., Huang, H.-C., Huang, G.-J., Wang, S.-Y., Chao, L.-K. et al. (2017). New flavone and eudesmane derivatives from Lawsonia inermis and their inhibitory activity against NO production. Phytochemistry Letters, 21, 123–127. https://doi.org/10.1016/j.phytol.2017.06.012; Altemimi, A. B., Alhelfi, N., Ali, A. A., Pasqualone, A., Fidan, H., Abedelmaksoud, T. G. et al. (2022). Evaluation of baseline cleanliness of food contact surfaces in Basrah Governorate restaurants using ATP‑bioluminescence to assess the effectiveness of HACCP application in Iraq. Italian Journal of Food Science, 34(3), 66–90. https://doi.org/10.15586/ijfs.v34i3.2237; Gull, I., Sohail, M., Aslam, M., Athar, M. (2013). Phytochemical, toxicological and antimicrobial evaluation of Lawsonia inermis extracts against clinical isolates of pathogenic bacteria. Annals of Clinical Microbiology and Antimicrobials, 12(1), Article 36. https://doi.org/10.1186/1476-0711-12-36; Habbal, O. A., Al-Jabri, A. A., El-Hag, A. H., Al-Mahrooqi, Z. H., Al-Hashmi, N. A. (2005). In-vitro antimicrobial activity of Lawsonia inermis Linn (henna). A pilot study on the Omani henna. Saudi Medical Journal, 26(1), 69–72.; Tariq Hussain, T. Arshad, M. Khan, S. Sattar, H, Qureshi, M. S. (2011). In vitro screening of methanol plant extracts for their antibacterial activity. Pakistan Journal of Botany, 43(1), 531–538.; Rathi, P. V., Ambhore, D., Jamode, P., Katkar, P., Kamble, P. (2017). Antimicrobial activity of Henna leaves against Staphylococcus aureus and Escherichia coli. World Journal of Pharmacy and Pharmaceutical Sciences, 6(10), 981–990.; Gonelimali, F. D., Lin, J., Miao, W., Xuan, J., Charles, F., Chen, M. et al. (2018). Antimicrobial properties and mechanism of action of some plant extracts against food pathogens and spoilage microorganisms. Frontiers in Microbiology, 9, Article 1639. https://doi.org/10.3389/fmicb.2018.01639; Ali, K. S., Al-Hood, F. A., Obad, K., Alshakka, M. (2016). Phytochemical screening and antibacterial activity of Yemeni Henna (Lawsonia inermis) against some bacterial pathogens. Journal of Pharmaceutical and Biological Sciences, 11(2), 24–27.; Boubaya, A., Marzougui, N., Yahia, L. B., Ferchichi, A. (2011). Chemical diversity analysis of Tunisian Lawsonia inermis L. populations. African Journal of Biotechnology, 10(25), 4980–4987.; Jain, V.C., Shah, D.P., Sonani, N.G., Dhakara, S., Patel, N. M. (2010). Pharmacognostic and preliminary phytochemical investigation of L leaf. Romanian Journal of Biology — Plant Biology, 55(2), 127–133.; Shastry, S., Kiran, U. P., Aswathanarayana, B. J. (2012). Effect of acute and chronic administration of the aqueous extract of Lawsonia inermis leaves on haloperidol induced catalepsy in albino mice. Research Journal of Pharmaceutical Biological and Chemical Sciences, 3(3), 1107–1116.; Sharma, R. K., Goel, A., Bhatia, A. K. (2016). Antityphoid activity and phytochemical screening of different extracts of L. inermis plant leaves. International Journal of Current Research, 8(08), 37539–37542.; Hussain, T., Bajpai, S., Saeed, M., Moin, A., Alafnan, A., Khan, M. et al. (2018). Potentiating effect of ethnomedicinal plants against proliferation on different cancer cell lines. Current Drug Metabolism, 19(7), 584–595. https://doi.org/10.2174/1389200219666180305144841; https://www.fsjour.com/jour/article/view/708

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https://doi.org/10.21323/2618-9771-2025-8-1-73-80

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8

Academic Journal

Применение смесевых БАС для расширения ассортимента фармпрепаратов

Subject Terms: смесевые экстракты, фармацевтическое растительное сырье, биологически активные соединения, лекарственные растения, цветки календулы, цветки ромашки, листья мать-и-мачехи, галеновые препараты

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Access URL: https://elib.belstu.by/handle/123456789/65451

9

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Получение растительных экстрактов, обладающих противофаговыми свойствами

Subject Terms: биологически активные соединения, бактериофаги, растительные препараты, производные флороглюцина, фаголизис, получение экстракта папоротника, папоротник мужской

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Access URL: https://elib.belstu.by/handle/123456789/63563

10

Academic Journal

Получение новых смесевых БАС растительного сырья и изучение их свойств

Subject Terms: физиологически активные вещества, биологически активные соединения, каротиноидные красители, гидрофилизированные красители, косметологические препараты, растительное сырьё, экстракты природных БАС

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Access URL: https://elib.belstu.by/handle/123456789/63235

11

Academic Journal

Скрининг продуцентов биосурфактантов среди психротолерантных дрожжей

Subject Terms: биосурфактанты, биологически активные соединения, психротолерантные дрожжи, дрожжи

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Access URL: https://rep.vsu.by/handle/123456789/45380

12

Conference

Применение SuFEx реакции для получения производных бензоксазола

Contributors: Хлебников, Андрей Иванович

Subject Terms: люминесцентные сенсоры, биологически активные соединения, бензоксазолы, флуоресцентные свойства

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Access URL: http://earchive.tpu.ru/handle/11683/76647

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13

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Восстановительные превращения 11H-индено[1,2-b]-хиноксалин-11-она с целью получения новых биологически активных соединений

Contributors: Хлебников, Андрей Иванович

Subject Terms: водорастворимость, синтез, биологически активные соединения, аминогруппы, восстановление, ингибиторы

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14

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Determination of the optimal ratio of strains and biologically active substances in a consortium of lactic acid bacteria to create medical and cosmetic remedy

Source: Вестник Всероссийского научно-исследовательского института жиров. :52-56

Subject Terms: биологически активные соединения, культуральная жидкость, молочнокислые штаммы, консорциум, 3. Good health

15

Academic Journal

THE DEVELOPMENT OF PHYTOEXTRACTION OF THE HERB GEUM URBANUM L

Authors: N. N. Vdovenko-Martynova, S. N. Stepanyuk

Source: Современная наука и инновации, Vol 0, Iss 2, Pp 208-213 (2022)

Subject Terms: гравилат городской, трава, макро-и микроскопический анализ, фитохимический анализ, качественный и количественный состав, биологически активные соединения, экстракт сухой, geum urbanum (l), grass, makro- and microscopic analysis, phytochemical analysis, quantitative and qualitative composition, biologically active compounds, dry extrac, International relations, JZ2-6530

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Relation: https://msi.elpub.ru/jour/article/view/1332; https://doaj.org/toc/2307-910X

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16

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PRECLINICAL RESEARCHES OF STEROID GLYCOSIDES OF Atropa belladonna L.SEEDS

Authors: Natalia Vladimirovna Latcerds

Source: Современная наука и инновации, Vol 0, Iss 4, Pp 143-151 (2022)

Subject Terms: антропозоиды, биологически активные соединения растительного происхождения, стероидные гликозиды, семена atropa belladonna l, гипохолестеринемическая и антиоксидантная активность, сапониноносные растения, atropozida, biologically active connections of plant origin, steroid glycosides, atropa belladonna l seeds, gipocholesterinemic and antioxidant activity, saponin containing plants, International relations, JZ2-6530

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Relation: https://msi.elpub.ru/jour/article/view/1300; https://doaj.org/toc/2307-910X

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17

Academic Journal

The EFFECT OF BIOLOGICALLY ACTIVE COMPOUNDS OF PREBIOTIC ACTIONS ON BLOOD GLUCOSE STATUS IN DIABETES

Authors: Igor Nikolaevich Bobrovsky, Valeriya Nikolaevna Orobinskaya

Source: Современная наука и инновации, Vol 0, Iss 4, Pp 138-142 (2022)

Subject Terms: сахарный диабет (сд), инулин (фруктоолигосахарид), полисахаридный комплекс, биологически активные соединения, гипергликемия, scorzonera hispanica l, diabetes mellitus (dm), inulin (fos), polysaccharidetion complex, biologically active compounds, hyperglycemia, International relations, JZ2-6530

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Relation: https://msi.elpub.ru/jour/article/view/1299; https://doaj.org/toc/2307-910X

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18

Conference

Восстановительные превращения 11H-индено[1,2-b]-хиноксалин-11-она с целью получения новых биологически активных соединений

Authors: Юнгблюдт, Е. А., Коврижина, Анастасия Руслановна

Contributors: Хлебников, Андрей Иванович

Subject Terms: синтез, биологически активные соединения, водорастворимость, восстановление, аминогруппы, ингибиторы

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Relation: Химия и химическая технология в XXI веке : материалы XXIV Международной научно-практической конференции студентов и молодых ученых имени выдающихся химиков Л. П. Кулёва и Н. М. Кижнера, посвященной 85-летию со дня рождения профессора А. В. Кравцова, Томск, 15-19 мая 2023 г. Т. 1; http://earchive.tpu.ru/handle/11683/76672

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19

Conference

Применение SuFEx реакции для получения производных бензоксазола

Authors: Даниленко, Надежда Викторовна, Луцук, Мария Олеговна

Contributors: Хлебников, Андрей Иванович

Subject Terms: бензоксазолы, флуоресцентные свойства, люминесцентные сенсоры, биологически активные соединения

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Relation: info:eu-repo/grantAgreement/RSF//23-23-00460; Химия и химическая технология в XXI веке : материалы XXIV Международной научно-практической конференции студентов и молодых ученых имени выдающихся химиков Л. П. Кулёва и Н. М. Кижнера, посвященной 85-летию со дня рождения профессора А. В. Кравцова, Томск, 15-19 мая 2023 г. Т. 1; http://earchive.tpu.ru/handle/11683/76647

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20

Academic Journal