The microscopic mechanisms of ion hydration and ion selectivity in biomolecular systems are long-standing research topics,in which the difficulty is how to reasonably and accurately describe the ion-water and ion-biom...The microscopic mechanisms of ion hydration and ion selectivity in biomolecular systems are long-standing research topics,in which the difficulty is how to reasonably and accurately describe the ion-water and ion-biomolecule interactions.This paper summarizes the development and applications of the atom-bond electronegativity equalization fluctuating charge force field model,ABEEM/MM,in the investigations of ion hydration,metalloproteins and ion-DNA bases systems.Based on high-level quantum chemistry calculations,the parameters were optimized and the molecular potential functions were constructed and applied to studies of structures,activities,energetics,and thermodynamic and kinetic properties of these ion-containing systems.The results show that the performance of ABEEM/MM is generally better than that of the common force fields,and its accuracy can reach or approach that of the high-level ab initio MP2 method.These studies provide a solid basis for further investigations of ion selectivity in biomolecular systems,the structures and properties of metalloproteins and other related ion-containing systems.展开更多
基金supported by the National Natural Science Foundation of China(21133005 and 20703022)
文摘The microscopic mechanisms of ion hydration and ion selectivity in biomolecular systems are long-standing research topics,in which the difficulty is how to reasonably and accurately describe the ion-water and ion-biomolecule interactions.This paper summarizes the development and applications of the atom-bond electronegativity equalization fluctuating charge force field model,ABEEM/MM,in the investigations of ion hydration,metalloproteins and ion-DNA bases systems.Based on high-level quantum chemistry calculations,the parameters were optimized and the molecular potential functions were constructed and applied to studies of structures,activities,energetics,and thermodynamic and kinetic properties of these ion-containing systems.The results show that the performance of ABEEM/MM is generally better than that of the common force fields,and its accuracy can reach or approach that of the high-level ab initio MP2 method.These studies provide a solid basis for further investigations of ion selectivity in biomolecular systems,the structures and properties of metalloproteins and other related ion-containing systems.