Poor conformational sampling is the most significant problem in determining stable molecular conformations and free energy changes in molecular systems. This problem is particularly difficult for large molecules such as proteins for which the dimensionality of the conformational space can be of thousands of degrees of freedom. In this work we describe a new method, collective coordinate expansive spaces, for efficient conformational sampling of molecules. The new method performs a dimensional reduction of the molecular system using principal components analysis in dihedral space. The reduced dimensionality representation is subsequently used for conformational sampling by means of a randomized exploration technique. The new method was teste...
A novel method for exploring macrocycle conformational space, Prime macrocycle conformational sampli...
The ability to efficiently sample structurally diverse protein conformations allows one to gain a hi...
In this article, we present a method for the enhanced molecular dynamics simulation of protein and D...
Several problems in protein biochemistry, such as functional analysis, transition state analysis, st...
Conformational sampling by direct optimization of an all-atom energy function is ineffective and ine...
The ability to efficiently sample a protein’s conformational space allows one to understand how a pr...
Abstract In this study we compare the three algorithms for the generation of conformer ensembles Bio...
We report the development of a method to improve the sampling of protein conformational space in mol...
peer reviewedComputational simulations of conformational sampling in general, and of macromolecular ...
Motivated by recently developed computational techniques for studying protein flexibility, and their...
The difficulties encountered in sampling of systems with rough energy landscapes using present metho...
The properties and functions of (bio)molecules are closely related to their molecular conformations....
Computer simulations of biomolecules such as molecular dynamics simulations are limited by the time ...
Motivated by recently developed computational techniques for studying protein flexibility, and their...
Enhanced sampling methods remain of continuing interest over the past decades because they are able ...
A novel method for exploring macrocycle conformational space, Prime macrocycle conformational sampli...
The ability to efficiently sample structurally diverse protein conformations allows one to gain a hi...
In this article, we present a method for the enhanced molecular dynamics simulation of protein and D...
Several problems in protein biochemistry, such as functional analysis, transition state analysis, st...
Conformational sampling by direct optimization of an all-atom energy function is ineffective and ine...
The ability to efficiently sample a protein’s conformational space allows one to understand how a pr...
Abstract In this study we compare the three algorithms for the generation of conformer ensembles Bio...
We report the development of a method to improve the sampling of protein conformational space in mol...
peer reviewedComputational simulations of conformational sampling in general, and of macromolecular ...
Motivated by recently developed computational techniques for studying protein flexibility, and their...
The difficulties encountered in sampling of systems with rough energy landscapes using present metho...
The properties and functions of (bio)molecules are closely related to their molecular conformations....
Computer simulations of biomolecules such as molecular dynamics simulations are limited by the time ...
Motivated by recently developed computational techniques for studying protein flexibility, and their...
Enhanced sampling methods remain of continuing interest over the past decades because they are able ...
A novel method for exploring macrocycle conformational space, Prime macrocycle conformational sampli...
The ability to efficiently sample structurally diverse protein conformations allows one to gain a hi...
In this article, we present a method for the enhanced molecular dynamics simulation of protein and D...