Computational design of sequences for a given structure is generally studied by exhaustively enumerating the sequence space or by searching in such a large space, which is prohibitively expensive. However, we point out that the protein topology has a wealth of information, which can be exploited to design sequences for a chosen structure. In this paper, we present a computationally efficient method for ranking the residue sites in a given native-state structure, which enables us to design sequences for a chosen structure. The premise for the method is that the topology of the graph representing the energetically interacting neighbours in a protein plays an important role in the inverse-folding problem. While our previous work (which was als...
In this work, they try to understand the protein folding problem using pair-wise hydrophobic interac...
Computational protein design aims to predict protein sequences that will fold into a given three-dim...
Proteins are complex systems as the Anfinsen’s thermodynamic hypothesis highlights. Their complexity...
Computational design of sequences for a given structure is generally studied by exhaustively enumera...
Computational design of sequences for a given structure is generally studied by exhaustively enumera...
The notion of optimization is inherent in protein design. A long linear chain of twenty types of ami...
A general strategy has been developed based on graph theoretical methods, for finding amino acid seq...
Protein sequence design is a natural inverse problem to protein structure prediction: given a target...
Protein sequence design is a natural inverse problem to protein structure prediction: given a target...
Inverse protein folding concerns the identification of an amino acid sequence that folds to a given ...
Computational sequence design methods are used to engineer proteins with desired properties such as ...
The problem of finding amino acid sequences able to fold into a defined three-dimensional (3D) stru...
In this paper, we present numerical evidence that supports the notion of minimization in the seque...
Protein design is motivated by the desire to study, understand, and exploit the versatile structures...
In this paper, we present numerical evidence that supports the notion of minimization in the sequenc...
In this work, they try to understand the protein folding problem using pair-wise hydrophobic interac...
Computational protein design aims to predict protein sequences that will fold into a given three-dim...
Proteins are complex systems as the Anfinsen’s thermodynamic hypothesis highlights. Their complexity...
Computational design of sequences for a given structure is generally studied by exhaustively enumera...
Computational design of sequences for a given structure is generally studied by exhaustively enumera...
The notion of optimization is inherent in protein design. A long linear chain of twenty types of ami...
A general strategy has been developed based on graph theoretical methods, for finding amino acid seq...
Protein sequence design is a natural inverse problem to protein structure prediction: given a target...
Protein sequence design is a natural inverse problem to protein structure prediction: given a target...
Inverse protein folding concerns the identification of an amino acid sequence that folds to a given ...
Computational sequence design methods are used to engineer proteins with desired properties such as ...
The problem of finding amino acid sequences able to fold into a defined three-dimensional (3D) stru...
In this paper, we present numerical evidence that supports the notion of minimization in the seque...
Protein design is motivated by the desire to study, understand, and exploit the versatile structures...
In this paper, we present numerical evidence that supports the notion of minimization in the sequenc...
In this work, they try to understand the protein folding problem using pair-wise hydrophobic interac...
Computational protein design aims to predict protein sequences that will fold into a given three-dim...
Proteins are complex systems as the Anfinsen’s thermodynamic hypothesis highlights. Their complexity...