Motivation: Aligning and comparing protein structures is important for understanding their evolutionary and functional relationships. With the rapid growth of protein structure databases in recent years, the need to align, superpose and compare protein structures rapidly and accurately has never been greater. Many structural alignment algorithms have been described in the past 20 years. However, achieving an algorithm that is both accurate and fast remains a considerable challenge. Results: We have developed a novel protein structure alignment algorithm called 'Kpax', which exploits the highly predictable covalent geometry of C(a) atoms to define multiple local coordinate frames in which backbone peptide fragments may be oriented and compar...
Abstract Background Protein tertiary structure comparisons are employed in various fields of contemp...
In molecular biology, a common question often rises about a gene or protein is whether it is related...
BACKGROUND: Protein-structure alignment is a fundamental tool to study protein function, evolution a...
Motivation: Aligning and comparing protein structures is important for understanding their evolution...
International audienceMotivation: Aligning and comparing protein structures is important for underst...
Motivation: Aligning and comparing protein structures is important for understanding their evolution...
Motivation: The Database of known protein structures (PDB) is increasing rapidly. This results in a ...
Structural biologists will perform a significant portion of their future work in silico due to incre...
[Background]: The total number of known three-dimensional protein structures is rapidly increasing. ...
The importance of pairwise protein structural comparison in biomedical research is fueling the searc...
ABSTRACT We present a novel algorithm named FAST for aligning protein three-dimensional structures. ...
Introduction: Similarity analysis of protein structure is considered as a fundamental step to give i...
Abstract: The Protein Structure Alignment Problem (PSAP) consists in finding the best alig...
Abstract Background The task of computing highly accurate structural alignments of proteins in very ...
The POLYFIT rigid-body algorithm for automated global pairwise and multiple protein structural align...
Abstract Background Protein tertiary structure comparisons are employed in various fields of contemp...
In molecular biology, a common question often rises about a gene or protein is whether it is related...
BACKGROUND: Protein-structure alignment is a fundamental tool to study protein function, evolution a...
Motivation: Aligning and comparing protein structures is important for understanding their evolution...
International audienceMotivation: Aligning and comparing protein structures is important for underst...
Motivation: Aligning and comparing protein structures is important for understanding their evolution...
Motivation: The Database of known protein structures (PDB) is increasing rapidly. This results in a ...
Structural biologists will perform a significant portion of their future work in silico due to incre...
[Background]: The total number of known three-dimensional protein structures is rapidly increasing. ...
The importance of pairwise protein structural comparison in biomedical research is fueling the searc...
ABSTRACT We present a novel algorithm named FAST for aligning protein three-dimensional structures. ...
Introduction: Similarity analysis of protein structure is considered as a fundamental step to give i...
Abstract: The Protein Structure Alignment Problem (PSAP) consists in finding the best alig...
Abstract Background The task of computing highly accurate structural alignments of proteins in very ...
The POLYFIT rigid-body algorithm for automated global pairwise and multiple protein structural align...
Abstract Background Protein tertiary structure comparisons are employed in various fields of contemp...
In molecular biology, a common question often rises about a gene or protein is whether it is related...
BACKGROUND: Protein-structure alignment is a fundamental tool to study protein function, evolution a...