Add to ORKGWassermoleküle formen Netzwerke, die einen erheblichen Einfluss auf die Protein-Ligand Bingung nehmen. Sowohl strukturelle als auch thermodynamische Daten werden miteinander korreliert. Durch Molekulardynamische Simulationen werden Netzwerke erfolgreich reproduziert und vorhergesagt
Ab4'uci.t — The structures and reactivities of proteins are markedly influenced by water. In co...
The prediction of the binding affinity between a protein and ligands is one of the most challenging ...
Water molecules play a crucial role in mediating the interaction between a ligand and a macromolecul...
Wassermoleküle formen Netzwerke, die einen erheblichen Einfluss auf die Protein-Ligand Bingung nehme...
Wassermoleküle spielen oft eine entscheidende Rolle bei der Bindung von Liganden an Proteine. Zum ei...
Dieser Artikel behandelt Computer-Simulationen mit unterschiedlichen Modellen zur Untersuchung des E...
Water is a crucial participant in virtually all cellular functions. Evidently, water molecules in th...
Die präzise Berechnung der freien Bindungsenergien von Protein-Ligand Komplexen ist ein F...
Es wird zunehmend klar, daß die alte Sichtweise, Proteine existierten im Gleichgewicht zw...
Water is the most abundant molecule in biological systems and is ubiquitous in nature. Despite this...
Although water is undoubtedly an essential mediator of protein-ligand interactions, whether or not s...
For molecular dynamics simulations of hydrated proteins a simple yet reliable model for the intermol...
In the last decade tremendous progress has been made in the study of complex heterogeneous systems l...
This thesis concerns different areas of molecular dynamics (MD) simulations. In the first part of th...
Theoretical biophysics is increasingly and successfully applied to decipher basic questions that ari...
Ab4'uci.t — The structures and reactivities of proteins are markedly influenced by water. In co...
The prediction of the binding affinity between a protein and ligands is one of the most challenging ...
Water molecules play a crucial role in mediating the interaction between a ligand and a macromolecul...
Wassermoleküle formen Netzwerke, die einen erheblichen Einfluss auf die Protein-Ligand Bingung nehme...
Wassermoleküle spielen oft eine entscheidende Rolle bei der Bindung von Liganden an Proteine. Zum ei...
Dieser Artikel behandelt Computer-Simulationen mit unterschiedlichen Modellen zur Untersuchung des E...
Water is a crucial participant in virtually all cellular functions. Evidently, water molecules in th...
Die präzise Berechnung der freien Bindungsenergien von Protein-Ligand Komplexen ist ein F...
Es wird zunehmend klar, daß die alte Sichtweise, Proteine existierten im Gleichgewicht zw...
Water is the most abundant molecule in biological systems and is ubiquitous in nature. Despite this...
Although water is undoubtedly an essential mediator of protein-ligand interactions, whether or not s...
For molecular dynamics simulations of hydrated proteins a simple yet reliable model for the intermol...
In the last decade tremendous progress has been made in the study of complex heterogeneous systems l...
This thesis concerns different areas of molecular dynamics (MD) simulations. In the first part of th...
Theoretical biophysics is increasingly and successfully applied to decipher basic questions that ari...
Ab4'uci.t — The structures and reactivities of proteins are markedly influenced by water. In co...
The prediction of the binding affinity between a protein and ligands is one of the most challenging ...
Water molecules play a crucial role in mediating the interaction between a ligand and a macromolecul...