The possibility of accurately describing the internal dynamics of proteins, in terms of movements of a few approximately-rigid subparts, is an appealing biophysical problem with important implications for the analysis and interpretation of data from experiments or numerical simulations. The problem is tackled here by means of a novel variational approach that exploits information about equilibrium fluctuations of interresidues distances, provided, e.g., by atomistic molecular dynamics simulations or coarse-grained models. No contiguity in primary sequence or in space is enforced a priori for amino acids grouped in the same rigid unit. The identification of the rigid protein moduli, or dynamical domains, provides valuable insight into functi...
This paper introduces a basic theoretical background to the description of conformational dynamics o...
Fluctuations of protein three-dimensional structures and large-scale conformational transitions are ...
Hen lysozyme is an enzyme characterized by the presence of two domains whose relative motions are in...
The possibility of accurately describing the internal dynamics of proteins, in terms of movements of...
AbstractThe possibility of accurately describing the internal dynamics of proteins, in terms of move...
The first chapter is devoted to a brief summary of the basic techniques commonly used to characteri...
Protein structures are carefully "designed" to balance the need of thermodynamical stability with th...
Atomistic simulations can not achieve the time and length scales of many important biological proble...
iAbstract Motor proteins are complex macromolecules which have evolved through the biological evolut...
We have recently been investigating the dynamical fine structure of DNA oligonucleotides and protein...
AbstractCoarse-grained (CG) models of biomolecules have recently attracted considerable interest bec...
A deep understanding of the role of motions in the functional mechanisms of biomolecules can potenti...
The overwhelming majority of biological processes relies on the capability of proteins to sustain co...
Abstract. Simulations of protein dynamics may work on different levels of mole-cular detail. The lev...
Recently a novel method was developed to determine Dynamical Domains in proteins from molecular dyna...
This paper introduces a basic theoretical background to the description of conformational dynamics o...
Fluctuations of protein three-dimensional structures and large-scale conformational transitions are ...
Hen lysozyme is an enzyme characterized by the presence of two domains whose relative motions are in...
The possibility of accurately describing the internal dynamics of proteins, in terms of movements of...
AbstractThe possibility of accurately describing the internal dynamics of proteins, in terms of move...
The first chapter is devoted to a brief summary of the basic techniques commonly used to characteri...
Protein structures are carefully "designed" to balance the need of thermodynamical stability with th...
Atomistic simulations can not achieve the time and length scales of many important biological proble...
iAbstract Motor proteins are complex macromolecules which have evolved through the biological evolut...
We have recently been investigating the dynamical fine structure of DNA oligonucleotides and protein...
AbstractCoarse-grained (CG) models of biomolecules have recently attracted considerable interest bec...
A deep understanding of the role of motions in the functional mechanisms of biomolecules can potenti...
The overwhelming majority of biological processes relies on the capability of proteins to sustain co...
Abstract. Simulations of protein dynamics may work on different levels of mole-cular detail. The lev...
Recently a novel method was developed to determine Dynamical Domains in proteins from molecular dyna...
This paper introduces a basic theoretical background to the description of conformational dynamics o...
Fluctuations of protein three-dimensional structures and large-scale conformational transitions are ...
Hen lysozyme is an enzyme characterized by the presence of two domains whose relative motions are in...