The maximum entropy method (MEM) is used to numerically invert the kinetics of ligand rebinding at low temperatures to obtain the underlying two-dimensional distribution of activation enthalpies and entropies, g(H,S). A global analysis of the rebinding of carbon monoxide (CO) to myoglobin (Mb), monitored in the Soret band at temperatures from 60 to 150 K, is performed using a Newton-Raphson optimization algorithm. The MEM approach describes the data much better than traditional least-squares analyses, reducing chi 2 by an order of magnitude. The MEM resolves two barrier distributions suggestive of rebinding to different bound conformations of MbCO, the so-called A1 and A3 substates, whose activation barriers have been independently estimate...
Experiments on the dynamics of vibrational fluctuations in myoglobin revealed an interesting behavio...
The free energy profile and the (classical) kinetics of chemical reactions in (soft) condensed phase...
The reliability of the Maximum Entropy Method MEM) to reconstruct finite temperature electron densi...
The maximum entropy method (MEM) is used to numerically invert the kinetics of ligand rebinding at l...
We discuss the application of the maximum entropy method (MEM) to the extraction of rate distributio...
Recombination kinetics of carbon monoxide to myoglobin and protoheme are measured from 0.1 MPa to 19...
The problem of protein dynamics is introduced and its significance explained. Properties of the oxyg...
The binding of small ligands to myoglobin at room temperature appears to be a simple, one-step proce...
CO rebinding kinetics after nanosecond photolysis of myoglobin encapsulated in wet silica gels exhib...
The reliability of the Maximum Entropy Method (MEM) to reconstruct finite temperature electron densi...
AbstractThe kinetics of oxygen geminate binding with the taxonomic substates of MbO2 are reported. T...
Below the glass-transition temperature of the solvent, heme proteins are frozen into static conforma...
The reliability of the Maximum Entropy Method (MEM) to reconstruct finite temperature electron dens...
Molecular tunneling process has been considered by means of radiation theory. The formula for inform...
Below the glass-transition temperature of the solvent, heme proteins are frozen into static conform...
Experiments on the dynamics of vibrational fluctuations in myoglobin revealed an interesting behavio...
The free energy profile and the (classical) kinetics of chemical reactions in (soft) condensed phase...
The reliability of the Maximum Entropy Method MEM) to reconstruct finite temperature electron densi...
The maximum entropy method (MEM) is used to numerically invert the kinetics of ligand rebinding at l...
We discuss the application of the maximum entropy method (MEM) to the extraction of rate distributio...
Recombination kinetics of carbon monoxide to myoglobin and protoheme are measured from 0.1 MPa to 19...
The problem of protein dynamics is introduced and its significance explained. Properties of the oxyg...
The binding of small ligands to myoglobin at room temperature appears to be a simple, one-step proce...
CO rebinding kinetics after nanosecond photolysis of myoglobin encapsulated in wet silica gels exhib...
The reliability of the Maximum Entropy Method (MEM) to reconstruct finite temperature electron densi...
AbstractThe kinetics of oxygen geminate binding with the taxonomic substates of MbO2 are reported. T...
Below the glass-transition temperature of the solvent, heme proteins are frozen into static conforma...
The reliability of the Maximum Entropy Method (MEM) to reconstruct finite temperature electron dens...
Molecular tunneling process has been considered by means of radiation theory. The formula for inform...
Below the glass-transition temperature of the solvent, heme proteins are frozen into static conform...
Experiments on the dynamics of vibrational fluctuations in myoglobin revealed an interesting behavio...
The free energy profile and the (classical) kinetics of chemical reactions in (soft) condensed phase...
The reliability of the Maximum Entropy Method MEM) to reconstruct finite temperature electron densi...