AbstractProtein structure comparison by pairwise alignment is commonly used to identify highly similar substructures in pairs of proteins and provide a measure of structural similarity based on the size and geometric similarity of the match. These scores are routinely applied in analyses of protein fold space under the assumption that high statistical significance is equivalent to a meaningful relationship, however the truth of this assumption has previously been difficult to test since there is a lack of automated methods which do not rely on the same underlying principles. As a resolution to this we present a method based on the use of topological descriptions of global protein structure, providing an independent means to assess the abili...
Motivation. Protein fold recognition is a key step for template-based modeling approaches to protein...
Proteins are complex biological molecules that perform a vast array of functions crucial to life. A ...
The availability of three-dimensional spatial information about protein structures is expanding, as ...
AbstractProtein structure comparison by pairwise alignment is commonly used to identify highly simil...
Structural genomics aims to experimentally determine nearly all protein folds by 2010, which makes ...
Motivation: What constitutes a baseline level of success for protein fold recognition methods? As fo...
A method for the quantitative evaluation of structural similarity between protein pairs is developed...
Abstract Background Design of protein structure comparison algorithm is an important research issue,...
MotivationProtein fold recognition is a key step for template-based modeling approaches to protein s...
Background: Several methods are currently available for the comparison of protein structures. These ...
Motivation: Protein structure comparison exhibits differences and similarities of proteins and prote...
The importance of pairwise protein structural comparison in biomedical research is fueling the searc...
Current classification of protein folds are based, ultimately, on visual inspection of similarities....
At present, the most accurate approach to predicting protein structure, comparative modelling, build...
BACKGROUND: Protein-structure alignment is a fundamental tool to study protein function, evolution a...
Motivation. Protein fold recognition is a key step for template-based modeling approaches to protein...
Proteins are complex biological molecules that perform a vast array of functions crucial to life. A ...
The availability of three-dimensional spatial information about protein structures is expanding, as ...
AbstractProtein structure comparison by pairwise alignment is commonly used to identify highly simil...
Structural genomics aims to experimentally determine nearly all protein folds by 2010, which makes ...
Motivation: What constitutes a baseline level of success for protein fold recognition methods? As fo...
A method for the quantitative evaluation of structural similarity between protein pairs is developed...
Abstract Background Design of protein structure comparison algorithm is an important research issue,...
MotivationProtein fold recognition is a key step for template-based modeling approaches to protein s...
Background: Several methods are currently available for the comparison of protein structures. These ...
Motivation: Protein structure comparison exhibits differences and similarities of proteins and prote...
The importance of pairwise protein structural comparison in biomedical research is fueling the searc...
Current classification of protein folds are based, ultimately, on visual inspection of similarities....
At present, the most accurate approach to predicting protein structure, comparative modelling, build...
BACKGROUND: Protein-structure alignment is a fundamental tool to study protein function, evolution a...
Motivation. Protein fold recognition is a key step for template-based modeling approaches to protein...
Proteins are complex biological molecules that perform a vast array of functions crucial to life. A ...
The availability of three-dimensional spatial information about protein structures is expanding, as ...