Add to ORKGThe mechanism of ion transport by carrier ionophores is investigated. The electrostatic potential is used as index of the binding energy of a cation with valinomycin and enniatin B. The ion binding capacities of these ionophores are studied as functions of conformation and of distance of an approaching ion-complex. The energetics of dirnerisation and the binding energy profile of an ion in dimers of valinomycin and enniatin B are examined. The binding energy profiles and the electrostatic potential surfaces of valinomycin and enniatin B are compared in relation to their biological activities
The natural product Valinomycin is a well-known transmembrane cation carrier. Despite being uncharge...
AbstractA23187, 4-BrA23187, and ionomycin transport several lanthanide series trivalent cations at e...
Ion-solvent interactions play a very important role in the studies of stoichiometry, structure, and ...
The mechanism of ion transport by carrier ionophores is investigated. The electrostatic potential is...
The mechanism of ion transport by carrier ionophores is investigated. The electrostatic potential is...
Knowledge of the molecular mechanisms involved in ionophore-mediated cation transport would be valua...
Valinomycin is a potent ionophore known for its ability to transport potassium ions across biologica...
Valinomycin is a natural dodecadepsipetide ionophore largely used for selective K+ transport across ...
As a step to increasing the reliability of the calculation of free energies underlying ion binding a...
Even though valinomycin has been employed and studied extensively for over 30 years, the attempts to...
Even though valinomycin has been employed and studied extensively for over 30 years, the attempts to...
The antibiotic action of the ionophore valinomycin is a result of its ability to preferentially bind...
The passage of sodium ions through enniatin B is studied by the CNDO method. Electronic dissociation...
The electrostatic potential of valinomycin in various conformations as obtained by the crystal struc...
The ion-coupled processes that occur in the plasma membrane regulate the cell machineries in all the...
The natural product Valinomycin is a well-known transmembrane cation carrier. Despite being uncharge...
AbstractA23187, 4-BrA23187, and ionomycin transport several lanthanide series trivalent cations at e...
Ion-solvent interactions play a very important role in the studies of stoichiometry, structure, and ...
The mechanism of ion transport by carrier ionophores is investigated. The electrostatic potential is...
The mechanism of ion transport by carrier ionophores is investigated. The electrostatic potential is...
Knowledge of the molecular mechanisms involved in ionophore-mediated cation transport would be valua...
Valinomycin is a potent ionophore known for its ability to transport potassium ions across biologica...
Valinomycin is a natural dodecadepsipetide ionophore largely used for selective K+ transport across ...
As a step to increasing the reliability of the calculation of free energies underlying ion binding a...
Even though valinomycin has been employed and studied extensively for over 30 years, the attempts to...
Even though valinomycin has been employed and studied extensively for over 30 years, the attempts to...
The antibiotic action of the ionophore valinomycin is a result of its ability to preferentially bind...
The passage of sodium ions through enniatin B is studied by the CNDO method. Electronic dissociation...
The electrostatic potential of valinomycin in various conformations as obtained by the crystal struc...
The ion-coupled processes that occur in the plasma membrane regulate the cell machineries in all the...
The natural product Valinomycin is a well-known transmembrane cation carrier. Despite being uncharge...
AbstractA23187, 4-BrA23187, and ionomycin transport several lanthanide series trivalent cations at e...
Ion-solvent interactions play a very important role in the studies of stoichiometry, structure, and ...