We have devised a non-parametric regression-based approach for the estimation of small- and medium-range inter-residual three-dimensional (3d) distances in a protein using only the primary sequence as input. A multivariate analysis of variance technique is used to identify the attributes of the primary sequence that is most effective in determining the tertiary structure. Certain compactness and hydrophobic core building heuristics are used along with the estimated distances in a distance geometry program to predict the 3d-structure (tertiary fold). Our method is found to predict correctly the native topologies of small proteins having up to 150 residues. The sensitivity of the structures to long-range distance constraints is studied by inc...
The validity and accuracy of a proposed tertiary structure of a protein can be assessed in several w...
During the last decade it has become possible to derive the spatial structure of small proteins in s...
Proteins are involved in many cell activities (e.g., molecular transport, mechanical functions, mess...
Background: Distance geometry methods allow protein structures to be constructed using a large numbe...
The method of choice to reveal the conformation of protein molecules in atomic detail has been X-ray...
The prediction of protein structures is a current issue of great significance in structural bioinfor...
AbstractDe novo structure determination of proteins is a significant research issue of bioinformatic...
The ab initio prediction of a protein's 3D-structure from its amino acid sequence remains an un...
The applicability of restrained molecular dynamics for the determination of three-dimensional protei...
AbstractA direct comparison of the metric matrix distance geometry and restrained molecular dynamics...
In this paper, we propose a mixed approach for determining protein structures compatible with distan...
The technique of two-dimensional nuclear magnetic resonance (2D-NMR) has recently assumed an active ...
The technique of two-dimensional nuclear magnetic resonance (2D-NMR) has recently assumed an active ...
Nuclear Magnetic Resonance Spectroscopy (most commonly known as NMR Spectroscopy) is used to generat...
This paper reviews methods for structure determination with interatomic distances and explores possi...
The validity and accuracy of a proposed tertiary structure of a protein can be assessed in several w...
During the last decade it has become possible to derive the spatial structure of small proteins in s...
Proteins are involved in many cell activities (e.g., molecular transport, mechanical functions, mess...
Background: Distance geometry methods allow protein structures to be constructed using a large numbe...
The method of choice to reveal the conformation of protein molecules in atomic detail has been X-ray...
The prediction of protein structures is a current issue of great significance in structural bioinfor...
AbstractDe novo structure determination of proteins is a significant research issue of bioinformatic...
The ab initio prediction of a protein's 3D-structure from its amino acid sequence remains an un...
The applicability of restrained molecular dynamics for the determination of three-dimensional protei...
AbstractA direct comparison of the metric matrix distance geometry and restrained molecular dynamics...
In this paper, we propose a mixed approach for determining protein structures compatible with distan...
The technique of two-dimensional nuclear magnetic resonance (2D-NMR) has recently assumed an active ...
The technique of two-dimensional nuclear magnetic resonance (2D-NMR) has recently assumed an active ...
Nuclear Magnetic Resonance Spectroscopy (most commonly known as NMR Spectroscopy) is used to generat...
This paper reviews methods for structure determination with interatomic distances and explores possi...
The validity and accuracy of a proposed tertiary structure of a protein can be assessed in several w...
During the last decade it has become possible to derive the spatial structure of small proteins in s...
Proteins are involved in many cell activities (e.g., molecular transport, mechanical functions, mess...