BackgoundUnknown protein structures can be predicted from known structures (the scaffolds) with sequences sufficiently homologous to that of the target, based on the observation that similar sequences usually adopt the same fold. When structural equivalences between residues in the scaffold and target proteins are expressed in terms of conserved interatomic distances, the resulting ‘distance geometry’ representation provides an elegant mechanism for simultaneous restraint satisfaction and bias-free conformation space exploration.ResultsWe present a homology modelling algorithm based on distance geometry that relies on the gradual projection of simple model chain coordinates into Euclidean spaces with decreasing dimensionality. The similarit...
The prediction of protein structures is a current issue of great significance in structural bioinfor...
The flexibility of the polypeptide fold of proteins is essentially due to the rotational freedom abo...
Matching two geometric objects in two-dimensional (2D) and three-dimensional (3D) spaces is a centra...
BackgoundUnknown protein structures can be predicted from known structures (the scaffolds) with sequ...
A distance geometry based protein modelling algorithm is presented which relies on the projection of...
Background: Distance geometry methods allow protein structures to be constructed using a large numbe...
Cluster distance geometry is a recent generalization of distance geometry whereby protein structures...
Modeling methods to derive 3D-structure of proteins have been recently developed. Protein homology-m...
The ab initio prediction of a protein's 3D-structure from its amino acid sequence remains an un...
Understanding the protein main-chain conformational space forms the basis for the modelling of prote...
Abstract: Distance geometry has been a broadly useful tool for dealing with conformational calculati...
We describe a largely automatic procedure for building protein structures from sequence alignments w...
Homology modeling plays a central role in determining protein structure in the structural genomics p...
The flexibility of the polypeptide fold of proteins is essentially due to the rotational freedom abo...
International audienceWe discuss a discretization-based solution approach for a classic problem in g...
The prediction of protein structures is a current issue of great significance in structural bioinfor...
The flexibility of the polypeptide fold of proteins is essentially due to the rotational freedom abo...
Matching two geometric objects in two-dimensional (2D) and three-dimensional (3D) spaces is a centra...
BackgoundUnknown protein structures can be predicted from known structures (the scaffolds) with sequ...
A distance geometry based protein modelling algorithm is presented which relies on the projection of...
Background: Distance geometry methods allow protein structures to be constructed using a large numbe...
Cluster distance geometry is a recent generalization of distance geometry whereby protein structures...
Modeling methods to derive 3D-structure of proteins have been recently developed. Protein homology-m...
The ab initio prediction of a protein's 3D-structure from its amino acid sequence remains an un...
Understanding the protein main-chain conformational space forms the basis for the modelling of prote...
Abstract: Distance geometry has been a broadly useful tool for dealing with conformational calculati...
We describe a largely automatic procedure for building protein structures from sequence alignments w...
Homology modeling plays a central role in determining protein structure in the structural genomics p...
The flexibility of the polypeptide fold of proteins is essentially due to the rotational freedom abo...
International audienceWe discuss a discretization-based solution approach for a classic problem in g...
The prediction of protein structures is a current issue of great significance in structural bioinfor...
The flexibility of the polypeptide fold of proteins is essentially due to the rotational freedom abo...
Matching two geometric objects in two-dimensional (2D) and three-dimensional (3D) spaces is a centra...