Butenko, NataliyaTomaz, Ana IsabelNouri, OfeliaEscribano, EstherMoreno, VirtudesGama, SofiaRibeiro, VeraTelo, João PauloPessoa, João CostaCavaco, Isabel Maria Palma Antunes2013-12-182013-12-182009Butenko, Nataliya; Tomaz, Ana Isabel; Nouri, Ofelia; Escribano, Esther; Moreno, Virtudes; Gama, Sofia; Ribeiro, Vera; Telo, João Paulo; Pesssoa, João Costa; Cavaco, Isabel. DNA cleavage activity of VIVO(acac)2 and derivatives, Journal of Inorganic Biochemistry, 103, 4, 622-632, 2009.0162-0134AUT: ICA01373;http://hdl.handle.net/10400.1/3261The DNA cleavage activity of several b-diketonate vanadyl complexes is examined. Vanadyl acetylacetonate,VIVO(acac)2, 1, shows a remarkable activity in degrading plasmid DNA in the absence of any activating agents, air and photoirradiation. The cleaving activity of several related complexes VIVO(hd)2(2, Hhd = 3,5-heptanedione), VIVO(acac-NH2)2 (3, Hacac-NH2 = acetoacetamide) and VIVO(acac-NMe2)2(4, Hacac-NMe2 = N,N-dimethylacetoacetamide) is also evaluated. It is shown that 2 exhibits an activity similar to 1, while 3 and 4 are much less efficient cleaving agents. The different activity of the complexes is related to their stability towards hydrolysis in aqueous solution, which follows the order 1 2 3 4.The nature of the pH buffer was also found to be determinant in the nuclease activity of 1 and 2. In a phosphate buffered medium DNA cleavage by these agents is much more efficient than in tris, hepes,mes or mops buffers. The reaction seems to take place through a mixed mechanism, involving the formation of reactive oxygen species (ROS), namely OH radicals, and possibly also direct cleavage at phosphodiester linkages induced by the vanadium complexes.engInorganic nucleasesDNA cleavageVanadyl acetylacetonateVanadium complexesDNA cleavage activity of VIVO(acac)2 and derivativesjournal article2013-12-17http://dx.doi.org/10.1016/j.jinorgbio.2009.01.003