6533b7d8fe1ef96bd126a1cd
RESEARCH PRODUCT
Computational strategies to model the interaction and the reactivity of biologically-relevant transition metal complexes
Iogann TolbatovAlessandro Marronesubject
Inorganic ChemistryTransition metal atomsTransition metalChemistryChemical physicsMaterials ChemistryElectronic levelReactivity (chemistry)Electronic structurePhysical and Theoretical ChemistryQuantum chemistryLiving matterdescription
Abstract Transition metal atoms possess the unique capacity to induce significant changes in the electronic structure of their ligands, often culminating in substantial modification of their chemical behavior, and this ability explains well their evolutionary incorporation into the living matter. Exactly this complexity of metal atom behaviours on the electronic level is the reason of various quantum chemistry strategies have been developed for their description. On the other hand, the application of quantum chemistry methodologies to gain a comprehensive understanding of the interaction between metal and biological matter, can only be approached through adequate modelling of the chemical phenomena in object, sometimes also requiring the support of classical or semiempirical computational methods. This minireview features the tactics developed in our group for analyzing the modus operandi of “transition metals in biology” of various settings: in the active sites of proteins, in the physiological solutions, and incorporated in metallodrug scaffolds.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2022-01-01 | Inorganica Chimica Acta |