Computational Insights on the Geometrical Arrangements of Cu(II) with a Mixed-Donor N<sub>3</sub>S<sub>3</sub> Macrobicyclic Ligand

Algarra, Andrés G.; Aullón, Gabriel; Bernhardt, Paul V.; Martı́nez, Manuel

doi:10.1021/ic402533j

Cited by 6 publications

(2 citation statements)

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“…3b, bottom), thus showing the typical lack of ΔS ≠ /ΔV ≠ correlation associated with the involvement of mechanistically determinant hydrogen bonding interactions in the transition state of the reaction. 62,[79][80][81][82] This fact fully agrees with the important outer-sphere interactions indicated in the previous paragraphs, not even hampered by the high ionic strength used in the study. 83 Hydrogen bonding seems to be crucial for this process, the fact being a keystone in biologically relevant reactivity; the inherent dissociatively activated Co III substitution mechanisms are severely tuned by associative interactions in the outer-sphere encounter complex.…”

Section: Reaction Of Cis-[co(cyclen)(h 2 O) 2 ] 3+ With Chlorides Pho...supporting

confidence: 90%

The role of hydroxo-bridged dinuclear species and the influence of “innocent” buffers in the reactivity of cis-[CoIII(cyclen)(H2O)2]3+ and [CoIII(tren)(H2O)2]3+ complexes with biologically relevant ligands at physiological pH

2014

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In view of the relevance of the reactivity of inert tetraamine Co(III) complexes having two substitutionally active cis positions capable of interact with biologically relevant ligands, the study of the reaction of cis-[Co(cyclen)(H2O)2](3+) and [Co(tren)(H2O)2](3+) with chlorides, inorganic phosphate and 5'-CMP (5'-cytidinemonophosphate) has been pursued at physiological pH. The results indicate that, in addition to the actuation of the expected labilising conjugate-base mechanism, the formation of mono and inert bis hydroxo-bridged species is relevant for understanding their speciation and reactivity. The reactivity pattern observed also indicates the key role played by the "innocent" buffers frequently used in most in vitro studies, which can make the results unreliable in many cases. The differences between the reactivity of inorganic and biologically relevant phosphates has also been found to be remarkable, with outer-sphere hydrogen bonding interactions being a dominant factor for the process. While for the inorganic phosphate substitution process the formation of μ-η(2)-OPO2O represents the termination of the reactivity monitored, for 5'-CMP only the formation of η(1)-OPO3 species is observed, which evolve with time to the final dead-end bis hydroxo-bridged complexes. The promoted hydrolysis of the 5'-CMP phosphate has not been observed in any of the processes studied.

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Section: Reaction Of Cis-[co(cyclen)(h 2 O) 2 ] 3+ With Chlorides Pho...supporting

confidence: 90%

The role of hydroxo-bridged dinuclear species and the influence of “innocent” buffers in the reactivity of cis-[CoIII(cyclen)(H2O)2]3+ and [CoIII(tren)(H2O)2]3+ complexes with biologically relevant ligands at physiological pH

2014

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“…This can be associated with the attachment of a poorer Lewis base (p K a(thymidine) = 9.8) (compared with the aqua ligand), thus leaving a higher positive charge density on the Co III center, making the protonation of the remaining hydroxo ligand more difficult. Although computational methods should potentially improve the understanding of these types of interactions and diffusion-controlled proton transfers, inclusion of specific solvent interactions in the mechanisms of reactions is not a generally solved problem. ,− …”

Section: Resultsmentioning

confidence: 99%

Kinetico-Mechanistic Studies of Nucleoside and Nucleotide Substitution Reactions of Co^III Complexes of Fully Alkylated Cyclen

Martı́nez

Vázquez

2015

Inorg. Chem.

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The solution chemistry of complex [Co{(Me)2(μ-ET)cyclen}(H2O)2](3+) containing a fully substituted tetraammine ligand designed for the avoidance of base-conjugated substitution mechanisms in the 6-8 pH range has been studied. The study should shed some light on the possible involvement of such Co(III) skeleton in inert interactions with biomolecules. The reactivity and speciation of the complex has been found similar to that of the parent cyclen derivative with the presence of mono- and bis-hydroxo-bridged species; at pH < 7.1, all reactivity has been found to be related to the aqua/hydroxo monomeric complexes. Under these pH conditions, the substitution reactions of the aqua/hydroxo ligands by chloride, inorganic phosphate, thymidine, cytidine 5'-monophosphate (5'-CMP), and thymidine-5'-monophosphate (5'-TMP) have been studied at varying conditions; ionic strength has been kept at 1.0 NaClO4 due to the high concentration of 2-(N-morpholino)ethanesulfonic acid (MES) or N-2-hydroxyethylpiperazine-N'-2-ethanesulfonic acid (HEPES) used to ensure buffering. Except for chloride, the process occurs neatly in a one or two step process, showing dissociatively activated substitution mechanisms, having in general large ΔH(⧧), positive ΔS(⧧), and values of ΔV(⧧) close to those corresponding to the liberation of an aqua ligand to the reaction medium. The actuation of noticeable encounter-complex formation equilibrium constants has been found to be the determinant for the reactions with nucleosides and nucleotides, a clear indication of the relevance of hydrogen-bonding interactions in the reactivity of these molecules, even in this highly ionic strength medium. For the substitution of the active aqua/hydroxo ligands with 5'-TMP, the first substitution reaction produces an Nthymine-bound 5'-TMP complex that evolves to a bis-5'-TMP with an Nthymine,Ophosphate-bonding structure. The formation of outer-sphere complexes between the dangling phosphate group of the Nthymine-bound 5'-TMP and the thymine moiety of another entering 5'-TMP has been found to be responsible for this fact, which leaves only the phosphate group for coordination available.

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Kinetico-mechanistic studies on C X (X = H, F, Cl, Br, I) bond activation reactions on organoplatinum(II) complexes

Crespo

Martínez

Nabavizadeh

et al. 2014

Coordination Chemistry Reviews

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Computational Insights on the Geometrical Arrangements of Cu(II) with a Mixed-Donor N₃S₃ Macrobicyclic Ligand

Cited by 6 publications

References 54 publications

The role of hydroxo-bridged dinuclear species and the influence of “innocent” buffers in the reactivity of cis-[CoIII(cyclen)(H2O)2]3+ and [CoIII(tren)(H2O)2]3+ complexes with biologically relevant ligands at physiological pH

The role of hydroxo-bridged dinuclear species and the influence of “innocent” buffers in the reactivity of cis-[CoIII(cyclen)(H2O)2]3+ and [CoIII(tren)(H2O)2]3+ complexes with biologically relevant ligands at physiological pH

Kinetico-Mechanistic Studies of Nucleoside and Nucleotide Substitution Reactions of Co^III Complexes of Fully Alkylated Cyclen

Kinetico-mechanistic studies on C X (X = H, F, Cl, Br, I) bond activation reactions on organoplatinum(II) complexes

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Computational Insights on the Geometrical Arrangements of Cu(II) with a Mixed-Donor N3S3 Macrobicyclic Ligand

Cited by 6 publications

References 54 publications

The role of hydroxo-bridged dinuclear species and the influence of “innocent” buffers in the reactivity of cis-[CoIII(cyclen)(H2O)2]3+ and [CoIII(tren)(H2O)2]3+ complexes with biologically relevant ligands at physiological pH

The role of hydroxo-bridged dinuclear species and the influence of “innocent” buffers in the reactivity of cis-[CoIII(cyclen)(H2O)2]3+ and [CoIII(tren)(H2O)2]3+ complexes with biologically relevant ligands at physiological pH

Kinetico-Mechanistic Studies of Nucleoside and Nucleotide Substitution Reactions of CoIII Complexes of Fully Alkylated Cyclen

Kinetico-mechanistic studies on C X (X = H, F, Cl, Br, I) bond activation reactions on organoplatinum(II) complexes

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Computational Insights on the Geometrical Arrangements of Cu(II) with a Mixed-Donor N₃S₃ Macrobicyclic Ligand

Kinetico-Mechanistic Studies of Nucleoside and Nucleotide Substitution Reactions of Co^III Complexes of Fully Alkylated Cyclen