Advances in experimental and computational techniques allow us to study the structure and dynamics of large biomolecular assemblies at increasingly higher resolution. However, with increasing structural detail it can be challenging to unravel the mechanism underlying the function of molecular machines. One reason is that atomistic simulations become computationally prohibitive. Moreover it is difficult to rationalize the functional mechanism of systems composed of tens of thousands to millions of atoms by following each atom's movements. Coarse graining (CG) allows us to understand biological structures from a hierarchical perspective and to gradually zoom into the adequate level of structural detail. This article introduces a Bayesian appr...
AbstractVarious coarse graining schemes have been proposed to speed up computer simulations of the m...
We recently developed a new coarse-grained model of protein structure and dynamics [Dawid et al. J. ...
A generalized understanding of protein dynamics is an unsolved scientific problem, the solution of w...
Advances in experimental and computational techniques allow us to study the structure and dynamics o...
Coarse-grained (CG) simulations have allowed access to larger length scales and longer time scales i...
Computational modeling of biological systems is challenging because of the multitude of spatial and ...
We review some of the computational methods that have been recently applied to the study of biologic...
127 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2008.Molecular dynamics simulation...
AbstractCoarse-grained (CG) models of biomolecules have recently attracted considerable interest bec...
ConspectusDue to hierarchic nature of biomolecular systems, their computational modeling calls for m...
Coarse grain (CG) models allow long-scale simulations with a much lower computational cost than that...
Theoretical prediction of protein structures and dynamics is essential for understanding the molecul...
Molecular dynamics simulations at the atomic scale are a powerful tool to study the structure and dy...
We present an algorithm to reconstruct atomistic structures from their corresponding coarse-grained ...
Nucleic acids play a crucial role in the storage, transportation and expression of our genetic infor...
AbstractVarious coarse graining schemes have been proposed to speed up computer simulations of the m...
We recently developed a new coarse-grained model of protein structure and dynamics [Dawid et al. J. ...
A generalized understanding of protein dynamics is an unsolved scientific problem, the solution of w...
Advances in experimental and computational techniques allow us to study the structure and dynamics o...
Coarse-grained (CG) simulations have allowed access to larger length scales and longer time scales i...
Computational modeling of biological systems is challenging because of the multitude of spatial and ...
We review some of the computational methods that have been recently applied to the study of biologic...
127 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2008.Molecular dynamics simulation...
AbstractCoarse-grained (CG) models of biomolecules have recently attracted considerable interest bec...
ConspectusDue to hierarchic nature of biomolecular systems, their computational modeling calls for m...
Coarse grain (CG) models allow long-scale simulations with a much lower computational cost than that...
Theoretical prediction of protein structures and dynamics is essential for understanding the molecul...
Molecular dynamics simulations at the atomic scale are a powerful tool to study the structure and dy...
We present an algorithm to reconstruct atomistic structures from their corresponding coarse-grained ...
Nucleic acids play a crucial role in the storage, transportation and expression of our genetic infor...
AbstractVarious coarse graining schemes have been proposed to speed up computer simulations of the m...
We recently developed a new coarse-grained model of protein structure and dynamics [Dawid et al. J. ...
A generalized understanding of protein dynamics is an unsolved scientific problem, the solution of w...