Add to ORKGRecently we showed that the three-dimensional structure of proteins can be investigated from a network perspective, where the amino acid residues represent the nodes in the network and the noncovalent interactions between them are considered for the edge formation. In this study, the dynamical behavior of such networks is examined by considering the example of T4 lysozyme. The equilibrium dynamics and the process of unfolding are followed by simulating the protein at 300 K and at higher temperatures (400 K and 500 K), respectively. The snapshots of the protein structure from the simulations are represented as protein structure networks in which the strength of the noncovalent interactions is considered an important criterion in the construc...
The intricate three-dimensional geometries of protein tertiary structures underlie protein function ...
Network theory has become an excellent method of choice through which biological data are smoothly i...
Four methods are compared to drive the unfolding of a protein: (1) high temperature (T-run), (2) hig...
AbstractRecently we showed that the three-dimensional structure of proteins can be investigated from...
Recently we showed that the three-dimensional structure of proteins can be investigated from a netwo...
AbstractThis study views each protein structure as a network of noncovalent connections between amin...
This study views each protein structure as a network of noncovalent connections between amino acid s...
This study views each protein structure as a network of noncovalent connections between amino acid s...
The three-dimensional structures of proteins often show a modular architecture comprised of discrete...
We have performed molecular dynamics simulations for a total duration of more than 10 ls (with most ...
AbstractExperimental and theoretical studies have showed that the native-state topology conceals a w...
Communication within and across proteins is crucial for the biological functioning of proteins. Expe...
Communication within and across proteins is crucial for the biological functioning of proteins. Ex...
AbstractA natural mutant of human lysozyme, D67H, causes hereditary systemic nonneuropathic amyloido...
The intricate three-dimensional geometries of protein tertiary structures underlie protein function ...
The intricate three-dimensional geometries of protein tertiary structures underlie protein function ...
Network theory has become an excellent method of choice through which biological data are smoothly i...
Four methods are compared to drive the unfolding of a protein: (1) high temperature (T-run), (2) hig...
AbstractRecently we showed that the three-dimensional structure of proteins can be investigated from...
Recently we showed that the three-dimensional structure of proteins can be investigated from a netwo...
AbstractThis study views each protein structure as a network of noncovalent connections between amin...
This study views each protein structure as a network of noncovalent connections between amino acid s...
This study views each protein structure as a network of noncovalent connections between amino acid s...
The three-dimensional structures of proteins often show a modular architecture comprised of discrete...
We have performed molecular dynamics simulations for a total duration of more than 10 ls (with most ...
AbstractExperimental and theoretical studies have showed that the native-state topology conceals a w...
Communication within and across proteins is crucial for the biological functioning of proteins. Expe...
Communication within and across proteins is crucial for the biological functioning of proteins. Ex...
AbstractA natural mutant of human lysozyme, D67H, causes hereditary systemic nonneuropathic amyloido...
The intricate three-dimensional geometries of protein tertiary structures underlie protein function ...
The intricate three-dimensional geometries of protein tertiary structures underlie protein function ...
Network theory has become an excellent method of choice through which biological data are smoothly i...
Four methods are compared to drive the unfolding of a protein: (1) high temperature (T-run), (2) hig...