Design of protein structure comparison algorithm is an important research issue, having far reaching implications. In this article, we describe a protein structure comparison scheme, which is capable of detecting correct alignments even in difficult cases, e.g. non-topological similarities. The proposed method computes protein structure alignments by comparing, small substructures, called neighborhoods. Two different types of neighborhoods, sequence and structure, are defined, and two algorithms arising out of the scheme are detailed. A new method for computing equivalences having non-topological similarities from pairwise similarity score is described. A novel and fast technique for comparing sequence neighborhoods is also developed
Multiple local structure comparison helps to identify common structural motifs or conserved binding ...
Motivation: The Database of known protein structures (PDB) is increasing rapidly. This results in a ...
Abstract Background The task of computing highly accurate structural alignments of proteins in very ...
Design of protein structure comparison algorithm is an important research issue, having far reaching...
A method for the quantitative evaluation of structural similarity between protein pairs is developed...
Proteins are very complex physical objects consisting of thousands of atoms and hundreds of amino ac...
'To whom correspondence should be addressed We have developed a new method of protein structure...
none4Not availableopenMarti-Renom, Marc A.; Capriotti, Emidio; Shindyalov, Ilya N.; Bourne, Philip E...
The structural comparison of proteins has become increasingly important as a means to identify prote...
A protein is characterized by both the amino-acid sequence and the threedimensional (3-D) structure ...
AbstractProtein structure comparison by pairwise alignment is commonly used to identify highly simil...
Structural biologists will perform a significant portion of their future work in silico due to incre...
A novel approach for similarity search on protein structure databases is proposed which incorporates...
The importance of pairwise protein structural comparison in biomedical research is fueling the searc...
The function of a protein is primarily determined by its structure and amino acid sequence. Many bio...
Multiple local structure comparison helps to identify common structural motifs or conserved binding ...
Motivation: The Database of known protein structures (PDB) is increasing rapidly. This results in a ...
Abstract Background The task of computing highly accurate structural alignments of proteins in very ...
Design of protein structure comparison algorithm is an important research issue, having far reaching...
A method for the quantitative evaluation of structural similarity between protein pairs is developed...
Proteins are very complex physical objects consisting of thousands of atoms and hundreds of amino ac...
'To whom correspondence should be addressed We have developed a new method of protein structure...
none4Not availableopenMarti-Renom, Marc A.; Capriotti, Emidio; Shindyalov, Ilya N.; Bourne, Philip E...
The structural comparison of proteins has become increasingly important as a means to identify prote...
A protein is characterized by both the amino-acid sequence and the threedimensional (3-D) structure ...
AbstractProtein structure comparison by pairwise alignment is commonly used to identify highly simil...
Structural biologists will perform a significant portion of their future work in silico due to incre...
A novel approach for similarity search on protein structure databases is proposed which incorporates...
The importance of pairwise protein structural comparison in biomedical research is fueling the searc...
The function of a protein is primarily determined by its structure and amino acid sequence. Many bio...
Multiple local structure comparison helps to identify common structural motifs or conserved binding ...
Motivation: The Database of known protein structures (PDB) is increasing rapidly. This results in a ...
Abstract Background The task of computing highly accurate structural alignments of proteins in very ...