Magdalena Wrońska scite author profile

Magdalena Wrońska

3Publications

25Citation Statements Received

127Citation Statements Given

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113

117

Affiliations

University of Wrocław

Publications

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Coordination pattern, solution structure and DNA damage studies of the copper(ii) complex with the unusual aminoglycoside antibiotic hygromycin B

Gaggelli

Molteni

et al. 2010

Dalton Trans.

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The aminoglycosidic antibiotic hygromycin B presents a peculiar chemical structure, characterized by two sugar rings joined via a spiro connection. The Cu(ii) complex of hygromycin B in water solution was characterized by (1)H-NMR, UV-Vis, EPR and CD spectroscopy, combined with potentiometric measurements. The spin-lattice relaxation enhancements were interpreted by the Solomon-Bloembergen-Morgan theory, allowing us to calculate copper-proton distances that were used to build a model of the complex by molecular mechanics and dynamics calculations. The fidelity of the proposed molecular model was checked by ROESY maps. Moreover DNA damage by the Cu(ii)-hygromycin B system was also investigated, showing single and double strand scissions exerted by the complex at concentrations in the range 1-5 mM. Addition of either hydrogen peroxide or ascorbic acid to each sample resulted in the shift of the cleavage potency towards lower concentrations of the complex.

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Mapping the interactions of selected antibiotics and their Cu²⁺ complexes with the antigenomic delta ribozyme

et al. 2013

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The interactions of selected antibiotics with the trans-acting antigenomic delta ribozyme were mapped. Ribozyme with two oligonucleotide substrates was used, one uncleavable with deoxycytidine at the cleavage site, mimicking the initial state of ribozyme, and the other with an all-RNA substrate mimicking, after cleavage, the product state. Mapping was performed with a set of RNA structural probing methods: Pb 2+ -induced cleavage, nuclease digestion, and the selective 2′-hydroxyl acylation analyzed by primer extension (SHAPE) approach. The experimental results combined with molecular modeling revealed different binding sites for neomycin B, amikacin and actinomycin D inside the ribozyme structure. Neomycin B, an aminoglycoside antibiotic, which strongly inhibited the catalytic properties of delta ribozyme, was bound to the pocket formed by the P1 stem, the P1.1 pseudoknot, and the J4/2 junction. Amikacin showed less effective binding to the ribozyme catalytic core, resulting in weak inhibition. Complexes of these aminoglycosides with Cu 2+ ions were bound to the same ribozyme regions, but more effectively, showing lower K d values. On the other hand, the Cu 2+ complex of the cyclopeptide antibiotic actinonomycin D was preferentially intercalated into the P2 and the P4 doublestranded region, and was three times more potent in ribozyme inhibition than the free antibiotic. In addition, some differences in SHAPE reactivities between the ribozyme forms containing all-RNA and deoxycytidine-modified substrates in the J4/2 region were detected, pointing to different ribozyme conformations before and after the cleavage event.

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The impact of isomers of hemiaminal-1,2,4-triazole conjugates differently substituted in the phenyl ring and their Cu2+ complexes on the catalytic activity of the antigenomic delta ribozyme

Wrońska

Wrzesiński

Jeżowska‐Bojczuk

et al. 2012

Journal of Inorganic Biochemistry

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