Add to ORKGThe ionic strength dependence of the bimolecular electron transfer (ET) reaction between Clostridium pasteurianum rubredoxin(III) and photochemically generated [Ru(bpy)_3]^+ has been investigated. The reaction is fast and close to the diffusion-controlled limit. Dynamic ionic strength effects on all kinetics parameters (work terms, driving force, and reorganization free energy) have been incorporated in the data analysis; the effects on the intermolecular work terms are large and dominate in the driving force region close to the activationless limit. The variation in ET rate constant over the 0.005−2.0 M ionic strength range is quantitatively consistent with the high negative charge (−9e where e is the unit electric charge) and size (crysta...
Abstract: The interaction and electron transfer (ET) between rubredoxin (Rd) and rubredoxin: oxygen ...
The reduction kinetics of two differently charged cytochromes c, horse cytochrome c and Rhodosprillu...
Semiclassical theory predicts that the rates of electron transfer (ET) reactions depend on the react...
The ionic strength dependence of the bimolecular electron transfer (ET) reaction between Clostridium...
AbstractThe protein matrix of an electron transfer protein creates an electrostatic environment for ...
Photoreaction between (bipy) 3 Ru 2+ (1) and iron(III) leads to efficient, reversible electron trans...
The electron-transfer (ET) reactions of metalloproteins are potentially far more complex than those...
It is a common believe that intra-protein electron transfer (ET) involving reactants and products th...
The kinetics of long-range electron transfer (ET) have been measured in Ru(NH_3)_4L(His 39) derivati...
A recent and important approach to investigating electron transfer mechanisms of redox proteins has ...
The intra-molecular, proton-coupled electron transfer from a tyrosine residue to covalently linked t...
To access the intrinsic, diffusion free, rate constant of bimolecular photoinduced electron transfer...
Electron transfers in photosynthesis and respiration commonly occur between protein-bound prosthetic...
Photosynthesis, respiration, nitrogen fixation, drug metabolism, DNA synthesis, and immune response ...
8 pages, figures, and tables statistics.The influence of electrostatic forces on the formation of, a...
Abstract: The interaction and electron transfer (ET) between rubredoxin (Rd) and rubredoxin: oxygen ...
The reduction kinetics of two differently charged cytochromes c, horse cytochrome c and Rhodosprillu...
Semiclassical theory predicts that the rates of electron transfer (ET) reactions depend on the react...
The ionic strength dependence of the bimolecular electron transfer (ET) reaction between Clostridium...
AbstractThe protein matrix of an electron transfer protein creates an electrostatic environment for ...
Photoreaction between (bipy) 3 Ru 2+ (1) and iron(III) leads to efficient, reversible electron trans...
The electron-transfer (ET) reactions of metalloproteins are potentially far more complex than those...
It is a common believe that intra-protein electron transfer (ET) involving reactants and products th...
The kinetics of long-range electron transfer (ET) have been measured in Ru(NH_3)_4L(His 39) derivati...
A recent and important approach to investigating electron transfer mechanisms of redox proteins has ...
The intra-molecular, proton-coupled electron transfer from a tyrosine residue to covalently linked t...
To access the intrinsic, diffusion free, rate constant of bimolecular photoinduced electron transfer...
Electron transfers in photosynthesis and respiration commonly occur between protein-bound prosthetic...
Photosynthesis, respiration, nitrogen fixation, drug metabolism, DNA synthesis, and immune response ...
8 pages, figures, and tables statistics.The influence of electrostatic forces on the formation of, a...
Abstract: The interaction and electron transfer (ET) between rubredoxin (Rd) and rubredoxin: oxygen ...
The reduction kinetics of two differently charged cytochromes c, horse cytochrome c and Rhodosprillu...
Semiclassical theory predicts that the rates of electron transfer (ET) reactions depend on the react...