The importance of pairwise protein structural comparison in biomedical research is fueling the search for algorithms capable of finding more accurate structural match of two input proteins in a timely manner. In recent years, we have witnessed rapid advances in the development of methods for approximate and optimal solutions to the protein structure matching problem. Albeit slow, these methods can be extremely useful in assessing the accuracy of more efficient, heuristic algorithms. We utilize a recently developed approximation algorithm for protein structure matching to demonstrate that a deep search of the protein superposition space leads to increased alignment accuracy with respect to many well-established measures of alignment quality....
Protein structural alignment is an important problem in computational biology. In this paper, we pre...
Background We introduce GASH, a new, publicly accessible program for structural alignment and super...
©The Author 2005. Published by Oxford University Press. All rights reserved.. The definitive version...
The importance of pairwise protein structural comparison in biomedical research is fueling the searc...
none4Not availableopenMarti-Renom, Marc A.; Capriotti, Emidio; Shindyalov, Ilya N.; Bourne, Philip E...
We address the problem of aligning the 3D structures of two proteins. Our pairwise comparisons are b...
The alignment of two protein structures is a fundamental problem in structural bioinformatics.Their ...
To assess the similarities and the differences among protein structures, a variety of structure ali...
Backgound:Techniques for comparison and optimum superimposition of protein structures are indispensa...
Proteins are complex biological molecules that perform a vast array of functions crucial to life. A ...
Background: Protein structural alignment is one of the most fundamental and crucial areas of researc...
Abstract Background While the pairwise alignments produced by sequence similarity searches are a pow...
International audienceProtein structural alignment is an important problem in computational biology....
BACKGROUND: Protein-structure alignment is a fundamental tool to study protein function, evolution a...
AbstractBackgroundProtein structural alignment is one of the most fundamental and crucial areas of r...
Protein structural alignment is an important problem in computational biology. In this paper, we pre...
Background We introduce GASH, a new, publicly accessible program for structural alignment and super...
©The Author 2005. Published by Oxford University Press. All rights reserved.. The definitive version...
The importance of pairwise protein structural comparison in biomedical research is fueling the searc...
none4Not availableopenMarti-Renom, Marc A.; Capriotti, Emidio; Shindyalov, Ilya N.; Bourne, Philip E...
We address the problem of aligning the 3D structures of two proteins. Our pairwise comparisons are b...
The alignment of two protein structures is a fundamental problem in structural bioinformatics.Their ...
To assess the similarities and the differences among protein structures, a variety of structure ali...
Backgound:Techniques for comparison and optimum superimposition of protein structures are indispensa...
Proteins are complex biological molecules that perform a vast array of functions crucial to life. A ...
Background: Protein structural alignment is one of the most fundamental and crucial areas of researc...
Abstract Background While the pairwise alignments produced by sequence similarity searches are a pow...
International audienceProtein structural alignment is an important problem in computational biology....
BACKGROUND: Protein-structure alignment is a fundamental tool to study protein function, evolution a...
AbstractBackgroundProtein structural alignment is one of the most fundamental and crucial areas of r...
Protein structural alignment is an important problem in computational biology. In this paper, we pre...
Background We introduce GASH, a new, publicly accessible program for structural alignment and super...
©The Author 2005. Published by Oxford University Press. All rights reserved.. The definitive version...