Topics
copperCurrency
electrochemistryOrganisation
interplayCompany
reduction potentialAnatomical structure
dynamicsMusic genre
azurinBiomolecule
redoxAnatomical structure
We used direct electrochemistry and MD simulations to investigate the redox reactivity of native azurin and four chimeric cupredoxins, in which the ligand-containing loop of azurin has been replaced either with that of other members of the blue copper family or with synthetic sequences featuring only Ala residues. It turns out that the dynamic interplay between protein and solvent is the key factor determining the redox properties of these hallmark ET systems. In particular, the dynamics of the small, metal-binding loop region controls the outer-sphere reorganization energy. The molecular determinants to the reduction potential were also investigated. Moreover, the dynamics between the protein scaffold and the surrounding solvent proved to ...
Many reduced cupredoxins undergo a pH-dependent structural rearrangement, triggered by protonation o...
The synthesis and structure of a homologous series of cationic N2S2 copper(I) Schiff base complexes ...
Blue copper redox protein azurin (AZ) constitutes an ideal active element for building bionano-optoe...
We used direct electrochemistry and MD simulations to investigate the redox reactivity of native azu...
Understanding the factors governing the rate of electron transfer processes in proteins is crucial n...
Understanding the factors governing the rate of electron transfer processes in proteins is crucial n...
We have coupled hybrid quantum mechanics (density functional theory; Car-Parrinello)/molecular mecha...
The wide range of variability of the reduction potential (E(0)) of blue-copper proteins has been the...
A study of the structure and redox properties of the copper site in azurins by means of EXAFS, NMR, ...
The thermodynamic parameters of protein reduction (Delta H degrees'(rc) and Delta S degrees'(rc)) we...
Cofactors extend the chemistry of life. Redox reactions in photosynthesis, nitrogen fixation, and ot...
To be able to perform Molecular Dynamics (MD) simulations of proteins, a model is needed to describe...
Many reduced cupredoxins undergo a pH-dependent structural rearrangement, triggered by protonation o...
The structural basis of the low reorganization energy of cupredoxins has long been debated. These pr...
Many reduced cupredoxins undergo a pH-dependent structural rearrangement, triggered by protonation o...
Many reduced cupredoxins undergo a pH-dependent structural rearrangement, triggered by protonation o...
The synthesis and structure of a homologous series of cationic N2S2 copper(I) Schiff base complexes ...
Blue copper redox protein azurin (AZ) constitutes an ideal active element for building bionano-optoe...
We used direct electrochemistry and MD simulations to investigate the redox reactivity of native azu...
Understanding the factors governing the rate of electron transfer processes in proteins is crucial n...
Understanding the factors governing the rate of electron transfer processes in proteins is crucial n...
We have coupled hybrid quantum mechanics (density functional theory; Car-Parrinello)/molecular mecha...
The wide range of variability of the reduction potential (E(0)) of blue-copper proteins has been the...
A study of the structure and redox properties of the copper site in azurins by means of EXAFS, NMR, ...
The thermodynamic parameters of protein reduction (Delta H degrees'(rc) and Delta S degrees'(rc)) we...
Cofactors extend the chemistry of life. Redox reactions in photosynthesis, nitrogen fixation, and ot...
To be able to perform Molecular Dynamics (MD) simulations of proteins, a model is needed to describe...
Many reduced cupredoxins undergo a pH-dependent structural rearrangement, triggered by protonation o...
The structural basis of the low reorganization energy of cupredoxins has long been debated. These pr...
Many reduced cupredoxins undergo a pH-dependent structural rearrangement, triggered by protonation o...
Many reduced cupredoxins undergo a pH-dependent structural rearrangement, triggered by protonation o...
The synthesis and structure of a homologous series of cationic N2S2 copper(I) Schiff base complexes ...
Blue copper redox protein azurin (AZ) constitutes an ideal active element for building bionano-optoe...
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