Add to ORKGThis review describes recent progress of atomistic simulations to promote the understanding of the role of the solvent in biophysics and biochemistry. Fundamental aspects of aqueous solutions and their importance for the rationalization of biomolecular arrangements and metabolic transport are discussed. Many of these insights were obtained from molecular dynamics simulations performed during the last three decades. In combination with quantum mechanical descriptions this approach nowadays advanced to a reliable tool for the investigation of biochemical reactions. Apart from passive coordination of the reactants, the solvent studies may also address proton transfer over chains of hydrogen bonded molecules
Biomolecular simulation is increasingly central to understanding and designing biological molecules ...
In the study of biochemical processes,c omputer simulation is a valuable tool. Computer simulation c...
Biomolecular simulation is increasingly central to understanding and designing biological molecules ...
This review describes recent progress of atomistic simulations to promote the understanding of the r...
This review describes recent progress of atomistic simulations to promote the understanding of the r...
To understand the functioning of living organisms on a molecular level, it is crucial to dissect the...
A comprehensive view of the current methods for modeling solvent environments with contributions fro...
In the study of biochemical processes,c omputer simulation is a valuable tool. Computer simulation c...
In the study of biochemical processes,c omputer simulation is a valuable tool. Computer simulation c...
Atomistic simulation has become an important tool for studying the structures, dynamics, and functio...
Biomolecular simulation is increasingly central to understanding and designing biological molecules ...
In the study of biochemical processes,c omputer simulation is a valuable tool. Computer simulation c...
Biomolecular simulation is increasingly central to understanding and designing biological molecules ...
In the study of biochemical processes,c omputer simulation is a valuable tool. Computer simulation c...
In the study of biochemical processes,c omputer simulation is a valuable tool. Computer simulation c...
Biomolecular simulation is increasingly central to understanding and designing biological molecules ...
In the study of biochemical processes,c omputer simulation is a valuable tool. Computer simulation c...
Biomolecular simulation is increasingly central to understanding and designing biological molecules ...
This review describes recent progress of atomistic simulations to promote the understanding of the r...
This review describes recent progress of atomistic simulations to promote the understanding of the r...
To understand the functioning of living organisms on a molecular level, it is crucial to dissect the...
A comprehensive view of the current methods for modeling solvent environments with contributions fro...
In the study of biochemical processes,c omputer simulation is a valuable tool. Computer simulation c...
In the study of biochemical processes,c omputer simulation is a valuable tool. Computer simulation c...
Atomistic simulation has become an important tool for studying the structures, dynamics, and functio...
Biomolecular simulation is increasingly central to understanding and designing biological molecules ...
In the study of biochemical processes,c omputer simulation is a valuable tool. Computer simulation c...
Biomolecular simulation is increasingly central to understanding and designing biological molecules ...
In the study of biochemical processes,c omputer simulation is a valuable tool. Computer simulation c...
In the study of biochemical processes,c omputer simulation is a valuable tool. Computer simulation c...
Biomolecular simulation is increasingly central to understanding and designing biological molecules ...
In the study of biochemical processes,c omputer simulation is a valuable tool. Computer simulation c...
Biomolecular simulation is increasingly central to understanding and designing biological molecules ...