Coarse-grained (CG) models are valuable tools for the study of functions of large biomolecules on large length and time scales. The definition of CG representations for huge biomolecules is always a formidable challenge. In this work, we propose a new method called fluctuation maximization coarse-graining (FM-CG) to construct the CG sites of biomolecules. The defined residual in FM-CG converges to a maximal value as the number of CG sites increases, allowing an optimal CG model to be rigorously defined on the basis of the maximum. More importantly, we developed a robust algorithm called stepwise local iterative optimization (SLIO) to accelerate the process of coarse-graining large biomolecules. By means of the efficient SLIO algorithm, the ...
AbstractVarious coarse graining schemes have been proposed to speed up computer simulations of the m...
Molecular dynamics (MD) simulation has remained the most indispensable tool in studying equilibrium/...
We present an algorithm to reconstruct atomistic structures from their corresponding coarse-grained ...
Construction of coarse-grained (CG) models for large biomolecules used for multiscale simulations de...
The computational study of large biomolecular complexes (molecular machines, cytoskeletal filaments,...
AbstractCoarse-grained (CG) models of biomolecules have recently attracted considerable interest bec...
Computational modeling of biological systems is challenging because of the multitude of spatial and ...
ConspectusDue to hierarchic nature of biomolecular systems, their computational modeling calls for m...
The use of coarse-grained (CG) models can significantly increase the time and length scales accessib...
Advances in experimental and computational techniques allow us to study the structure and dynamics o...
AbstractCoarse-grained (CG) models of large biomolecular complexes enable simulations of these syste...
The increasing trend in the recent literature on coarse grained (CG) models testifies their impact i...
The computational resources required by atomistic simulations of biomolecular systems still limit th...
We review some of the computational methods that have been recently applied to the study of biologic...
Coarse-grained molecular dynamics (CGMD) simulations are increasingly being used to analyze the beha...
AbstractVarious coarse graining schemes have been proposed to speed up computer simulations of the m...
Molecular dynamics (MD) simulation has remained the most indispensable tool in studying equilibrium/...
We present an algorithm to reconstruct atomistic structures from their corresponding coarse-grained ...
Construction of coarse-grained (CG) models for large biomolecules used for multiscale simulations de...
The computational study of large biomolecular complexes (molecular machines, cytoskeletal filaments,...
AbstractCoarse-grained (CG) models of biomolecules have recently attracted considerable interest bec...
Computational modeling of biological systems is challenging because of the multitude of spatial and ...
ConspectusDue to hierarchic nature of biomolecular systems, their computational modeling calls for m...
The use of coarse-grained (CG) models can significantly increase the time and length scales accessib...
Advances in experimental and computational techniques allow us to study the structure and dynamics o...
AbstractCoarse-grained (CG) models of large biomolecular complexes enable simulations of these syste...
The increasing trend in the recent literature on coarse grained (CG) models testifies their impact i...
The computational resources required by atomistic simulations of biomolecular systems still limit th...
We review some of the computational methods that have been recently applied to the study of biologic...
Coarse-grained molecular dynamics (CGMD) simulations are increasingly being used to analyze the beha...
AbstractVarious coarse graining schemes have been proposed to speed up computer simulations of the m...
Molecular dynamics (MD) simulation has remained the most indispensable tool in studying equilibrium/...
We present an algorithm to reconstruct atomistic structures from their corresponding coarse-grained ...