AbstractIt is not merely the position of residues that is critically important for a protein's function and stability, but also their interactions. We illustrate, by using a network construction on a set of 595 nonhomologous proteins, that regular packing is preserved in short-range interactions, but short average path lengths are achieved through some long-range contacts. Thus, lying between the two extremes of regularity and randomness, residues in folded proteins are distributed according to a “small-world” topology. Using this topology, we show that the core residues have the same local packing arrangements irrespective of protein size. Furthermore, we find that the average shortest path lengths are highly correlated with residue fluctu...
Abstract Background The three-dimensional structure of a protein can be described as a graph where n...
Motivation: Starting from linear chains of amino acids, the spontaneous folding of proteins into the...
This is the published version, also available here: http://dx.doi.org/10.1063/1.3498743.Structure fl...
It is not merely the position of residues that is critically important for a protein’s function and ...
AbstractIt is not merely the position of residues that is critically important for a protein's funct...
AbstractA protein structure is represented as a network of residues whereby edges are determined by ...
Abstract: We have recently shown that residues in folded proteins are distributed according to a sma...
AbstractResidue networks representing 595 nonhomologous proteins are studied. These networks exhibit...
Proteins have been abstracted as a network of interacting amino acids and much attention has been pa...
Here, we represent protein structures as residue interacting networks, which are assumed to involve ...
Residue networks representing 595 nonhomologous proteins are studied. These networks exhibit univers...
In the last years, small-world behavior has been extensively described for proteins, when they are r...
A protein structure is represented as a network of residues whereby edges are determined by intra-mo...
Here, we represent protein structures as residue interacting networks, which are assumed to involve ...
Motivation: Starting from linear chains of amino acids, the spontaneous folding of proteins into the...
Abstract Background The three-dimensional structure of a protein can be described as a graph where n...
Motivation: Starting from linear chains of amino acids, the spontaneous folding of proteins into the...
This is the published version, also available here: http://dx.doi.org/10.1063/1.3498743.Structure fl...
It is not merely the position of residues that is critically important for a protein’s function and ...
AbstractIt is not merely the position of residues that is critically important for a protein's funct...
AbstractA protein structure is represented as a network of residues whereby edges are determined by ...
Abstract: We have recently shown that residues in folded proteins are distributed according to a sma...
AbstractResidue networks representing 595 nonhomologous proteins are studied. These networks exhibit...
Proteins have been abstracted as a network of interacting amino acids and much attention has been pa...
Here, we represent protein structures as residue interacting networks, which are assumed to involve ...
Residue networks representing 595 nonhomologous proteins are studied. These networks exhibit univers...
In the last years, small-world behavior has been extensively described for proteins, when they are r...
A protein structure is represented as a network of residues whereby edges are determined by intra-mo...
Here, we represent protein structures as residue interacting networks, which are assumed to involve ...
Motivation: Starting from linear chains of amino acids, the spontaneous folding of proteins into the...
Abstract Background The three-dimensional structure of a protein can be described as a graph where n...
Motivation: Starting from linear chains of amino acids, the spontaneous folding of proteins into the...
This is the published version, also available here: http://dx.doi.org/10.1063/1.3498743.Structure fl...