Tímea Mihály scite author profile

Tímea Mihály

3Publications

12Citation Statements Received

41Citation Statements Given

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105

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Babeș-Bolyai University, TU Dortmund University, Martin Luther University Halle-Wittenberg

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Multiple Metal Binding to the 9-Methyladenine Model Nucleobase Involving N1, N6, and N7: Discrete Di- and Trinuclear Species with Different Combinations of Monofunctional Pd^II and Pt^II Entities

et al. 2012

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Several di- and trinuclear metal complexes consisting of the model nucleobase 9-methyladenine (9-MeA) or its mono-deprotonated form (9-MeA(-)) and monofunctional (dien)Pd(II), (dien)Pt(II), (NH(3))(3)Pt(II), or (trpy)Pd(II) in different combinations have been prepared and/or studied in solution by NMR spectroscopy: [{Pd(dien)}(3)(9-MeA(-)-N1,N6,N7)]Cl(3.5)(PF(6))(1.5)·3H(2)O (1), [(dien)Pd(N1-9-MeA-N7)Pt(NH(3))(3)](ClO(4))(4)·9.33H(2)O (2), [(dien)Pt(N1-9-MeA-N7)Pt(NH(3))(3)](ClO(4))(4)·H(2)O (3), and [{(trpy)Pd}(2)(N1,N6-9-MeA(-)-N7)Pt(NH(3))(3)](ClO(4))(5)·3H(2)O (4). A migration product of 3, [(dien)Pt(N6-9-MeA(-)-N7)Pt(NH(3))(3)](3+) (3a), has been identified in solution. Unlike Pt-adenine bonds, Pd-adenine bonds are substantially labile, and consequently all Pd-containing complexes discussed here (1, 2, 4) exist in aqueous solution in equilibria of slowly interconverting species, which give rise to individual resonances in the (1)H NMR spectra. For example, 1 exists in an equilibrium of five adenine-containing species when dissolved in D(2)O, 2 undergoes dissociation to [Pt(NH(3))(3)(9-MeA-N7)](2+) or forms the migration product [(dien)Pd(N6-9-MeA(-)-N7)Pt(NH(3))(3)](3+) (2a), depending on pD, and 4 loses both (trpy)Pd(II) entities as the pD is increased. In no case is Pd binding to N3 of the adenine ring observed. A comparison of the solid-state structures of the two trinuclear complexes 1 and 4 reveals distinct differences between the Pd atoms bonded to N1 and N6 in that these are substantially out of the nucleobase plane in 1, by ca. 0.6 Å and -1.0 Å, respectively, whereas they are coplanar with the 9-MeA(-) plane in 4. These out-of-plane movements of the two (dien)Pd(II) units in 1 are not accompanied by changes in hybridization states of the N1 and N6 atoms.

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Unsupported single-walled water cluster nanotube: A novel hydrogen bonding pattern for water organization

Albertí¹,

Mihály²,

Lippert³

et al. 2012

CrystEngComm

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Synthesis, structure and characterization of adenine-based aminocarbene complexes of platinum(II)

Mihály

Bette

Mihály

et al. 2013

Journal of Organometallic Chemistry

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Tímea Mihály

Multiple Metal Binding to the 9-Methyladenine Model Nucleobase Involving N1, N6, and N7: Discrete Di- and Trinuclear Species with Different Combinations of Monofunctional Pd^II and Pt^II Entities

Unsupported single-walled water cluster nanotube: A novel hydrogen bonding pattern for water organization

Synthesis, structure and characterization of adenine-based aminocarbene complexes of platinum(II)

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Tímea Mihály

Multiple Metal Binding to the 9-Methyladenine Model Nucleobase Involving N1, N6, and N7: Discrete Di- and Trinuclear Species with Different Combinations of Monofunctional PdII and PtII Entities

Unsupported single-walled water cluster nanotube: A novel hydrogen bonding pattern for water organization

Synthesis, structure and characterization of adenine-based aminocarbene complexes of platinum(II)

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Multiple Metal Binding to the 9-Methyladenine Model Nucleobase Involving N1, N6, and N7: Discrete Di- and Trinuclear Species with Different Combinations of Monofunctional Pd^II and Pt^II Entities