The influence of a transmembrane pH gradient on protonation probabilities of bacteriorhodopsin: the structural basis of the back-pressure effect.
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GMCT : A Monte Carlo simulation package for macromolecular receptorsFactors influencing the energetics of electron and proton transfers in proteins. What can be learned from calculations.Factors that differentiate the H-bond strengths of water near the Schiff bases in bacteriorhodopsin and Anabaena sensory rhodopsin.Proteorhodopsin Photocycle Kinetics Between pH 5 and pH 9.Continuum Electrostatic Calculation on Bovine Rhodopsin: Protonation and the Effect of the Membrane Potential.Molecular mechanism of substrate selectivity of the arginine-agmatine Antiporter AdiC
P2860
The influence of a transmembrane pH gradient on protonation probabilities of bacteriorhodopsin: the structural basis of the back-pressure effect.
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The influence of a transmembra ...... s of the back-pressure effect.
@en
The influence of a transmembra ...... s of the back-pressure effect.
@nl
type
label
The influence of a transmembra ...... s of the back-pressure effect.
@en
The influence of a transmembra ...... s of the back-pressure effect.
@nl
prefLabel
The influence of a transmembra ...... s of the back-pressure effect.
@en
The influence of a transmembra ...... s of the back-pressure effect.
@nl
P1476
The influence of a transmembra ...... s of the back-pressure effect.
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P2093
Nicolas Calimet
P304
P356
10.1016/J.JMB.2004.03.075
P407
P577
2004-06-01T00:00:00Z