In vitro određivanje antioksidativne aktivnosti halkona na bazi ferocena
##plugins.themes.bootstrap3.article.sidebar##
##plugins.themes.bootstrap3.article.main##
Apstrakt
Derivati ferocena su poznati antioksidansi, antiparazitici, antitumorni, antivirusni, antibakterijski i antifungalni agensi. Pored primene u medicinskoj hemiji, derivati ferocena su od izuzetnog značaja u sintetičkoj organskoj hemiji, naročito u katalizovanim asimetričnim sintezama. Primenjuju se i u elektrohemiji i hemiji polimera, kao aditivi u gorivima, kao hemosenzori u agrohemiji i biosenzori glukoze i aktivnih komponenata u molekularnoj elektronici. U cilju dizajniranja novih antioksidativnih agenasa, u ovom radu, sintetisano je pet ferocenilhalkona koji su u potpunosti strukturno okarakterisani određivanjem temperature toplenja, FT-IR, 1H i 13C NMR spektroskopskim metodama. Sintetisani halkoni međusobno se razlikuju prema vrsti i položaju supstituenta na fenil-grupi u položaju 1 linearnog nezasićenog karbonilnog sistema. Potencijalna antioksidativna aktivnost ovih jedinjenja procenjena je primenom ABTS (2,2'-azinobis-(3-etilbenzotiazolin-6-sulfonska kiselina) metode i određivanjem IC50 vrednosti najefikasnijih jedinjenja.
##plugins.themes.bootstrap3.article.details##
Reference
[2] Yadav D. K., Tripathi K. P., Kaushik P., Pankaj, Rana V. S., D. Kamil, D. Khatri, Shakil N. A., Microwave assisted synthesis, characterization and biological activities of ferrocenyl chal-cones and their QSAR analysis: Part II, Journal of Environmental Science and Health, Part B 56 (2021) 82‒97.
[3] Henry E. J., Bird S. J., Gowland P., Collins M., Cassella J. P., Ferrocenyl chalcone deriva-tives as possible antimicrobial agents, The Journal of Antibiotics 73 (2020) pp. 299‒308.
[4] Wu X., Wilairat P., Go M. L., Antimalarial activity of ferrocenyl chalcones, Bioorganic and Medicinal Chemistry Letters 12 (2002) 2299–2302.
[5] Tang W., Gao Y., Tong H., Xu X., Zhu Z., Liu B., Green synthesis of ferrocenyl chalcones against triple negative breast cancer, Journal of Organometallic Chemistry 989 (2023) 122640.
[6] Smit F. J., Bezuidenhout J. J., Bezuidenhout C. C., N’Da D., Synthesis and in vitro biologi-cal activities of ferrocenyl–chalcone amides, Medicinal Chemistry Research 25 (2016) 568‒584
[7] Santos-Sánchez N. F., Salas-Coronado R., Villanueva-Cañongo C., Hernández-Carlos B., Antioxidant compounds and their antioxidant mechanism in Antioxidants (ed. Shalaby E.), IntechOpen, London, United Kingdom, 2019.
[8] Meng X., Li S., Ma W., Wang J., Hu Z., Cao D., Synthesis and antioxidant activities of ferrocenyl-containing curcumin analogues, Letters in Drug Discovery, 15 (2018) 1252‒1258.
[9] Singh G., Arora A., Kalra P., Kumar Maurya I., Espinosa Ruizc C., Angeles Estebanc M., Sinha S., Goyal K., Sehgal R., A strategic approach to the synthesis of ferrocene appended chal-cone linked triazole allied organosilatranes: antibacterial, antifungal, antiparasitic and antioxidant studies, Bioorganic and Medicinal Chemistry, 27 (2019) 188‒195.
[10] Chauhan R., Yadav R., Kumar Singh A., Trivedi M., G. Kociok-Köhn, Kumar A., Go-savif S., Ranea S., Ferrocenyl chalcones with phenolic and pyridyl anchors as potential sensitizers in dye-sensitized solar cells, RSC Advances, 6 (2016) 97664‒97675.
[11] Lađarević J., Božić B., Matović L., Božić Nedeljković B., Mijin D., Role of the bifurcated intramolecular hydrogen bond on the physico-chemical profile of the novel azo pyridine dyes, Dyes and Pigments, 162 (2019) 562–572.
[12] Tabrizi L., Le Anh Nguyen T., Dieu Thao Tran H., Quan Pham M., Quang Dao D., Anti-oxidant and anticancer properties of functionalized ferrocene with hydroxycinnamate deriva-tives‒an integrated experimental and theoretical study, Journal of Chemical Information and Modeling, 60 (2020) 6185‒6203.
[13] Minić Jančić A., Katanić Stanković J. S., Srećković N., Mihailović V., Ilić Komatina D., Stevanović D., Ferrocene-containing tetrahydropyrimidin-2(1H)-ones: antioxidant and antimicro-bial activity, Journal of Organometallic Chemistry, 967 (2022) 122335.