Add to ORKGCharge transfer through biological macromolecules is essential for many biological processes such as, for instance, photosynthesis and respiration. Protons or electrons are transferred between titratable residues or redox-active cofactors, respectively. Transfer rates between these sites depend on the current charge configuration of neighboring sites. Here, we formulate the kinetics of charge-transfer systems in a microstate formalism. A unique transfer rate constant can be assigned to the interconversion of microstates. Mutual interactions between sites participating in the transfer reactions are naturally taken into account. The formalism is applied to the kinetics of electron transfer in the tetraheme subunit and the special pair of the ...
AbstractThe review covers the theory and practice of the determination of kinetic constants for the ...
AbstractThe intramembrane charge transfer has been analyzed in the framework of the ‘fixed-charge-de...
AbstractPhotosystem I is a large macromolecular complex located in the thylakoid membranes of chloro...
Recent developments in the dynamics of the elementary electron transfer reactions are reviewed. Atte...
Continuum electrostatic investigations of charge transfer processes in biological molecules using bi...
AbstractWe study sequential charge transfer within a chain of four heme cofactors located in the c-t...
Mechanistic aspects of some of the early electron transfer steps occurring in photosynthetic reactio...
This paper is focused on the molecular dynamics modeling of the primary charge separation in the pho...
We study sequential charge transfer within a chain of four heme cofactors located in the c-type cyto...
AbstractThe reorganization energy (λ) for electron transfer from the primary electron donor (P*) to ...
AbstractThe kinetics of charge recombination by electron transfer from QA− to P680+ on the reducing ...
A theoretical investigation on the rates of electron-transfer processes Q(I)(-) + Q(II) --> Q(I)(-) ...
AbstractThe coupled motion of electrons and protons occurs in many proteins. Using appropriate tools...
AbstractWe show that the rate at which electrons pass through the respiratory chain in mitochondria ...
The recent determination of the crystallographic structure of a bacterial photosynthetic reaction c...
AbstractThe review covers the theory and practice of the determination of kinetic constants for the ...
AbstractThe intramembrane charge transfer has been analyzed in the framework of the ‘fixed-charge-de...
AbstractPhotosystem I is a large macromolecular complex located in the thylakoid membranes of chloro...
Recent developments in the dynamics of the elementary electron transfer reactions are reviewed. Atte...
Continuum electrostatic investigations of charge transfer processes in biological molecules using bi...
AbstractWe study sequential charge transfer within a chain of four heme cofactors located in the c-t...
Mechanistic aspects of some of the early electron transfer steps occurring in photosynthetic reactio...
This paper is focused on the molecular dynamics modeling of the primary charge separation in the pho...
We study sequential charge transfer within a chain of four heme cofactors located in the c-type cyto...
AbstractThe reorganization energy (λ) for electron transfer from the primary electron donor (P*) to ...
AbstractThe kinetics of charge recombination by electron transfer from QA− to P680+ on the reducing ...
A theoretical investigation on the rates of electron-transfer processes Q(I)(-) + Q(II) --> Q(I)(-) ...
AbstractThe coupled motion of electrons and protons occurs in many proteins. Using appropriate tools...
AbstractWe show that the rate at which electrons pass through the respiratory chain in mitochondria ...
The recent determination of the crystallographic structure of a bacterial photosynthetic reaction c...
AbstractThe review covers the theory and practice of the determination of kinetic constants for the ...
AbstractThe intramembrane charge transfer has been analyzed in the framework of the ‘fixed-charge-de...
AbstractPhotosystem I is a large macromolecular complex located in the thylakoid membranes of chloro...