Abstract Motivation: The steady growth of the number of available protein structures has constantly motivated the development of new algorithms for detecting structural correspondences in proteins. Detecting structural equivalences in two or more proteins is computationally demanding as it typically entails the exploration of the combinatorial space of all possible amino acid pairings in the parent proteins. The search is often aided by the introduction of various constraints such as considering protein fragments, rather than single amino acids, and/or seeking only sequential correspondences in the given proteins. An additional challenge is represented by the difficulty of associating to a given alignment, a reliable a priori...
The computation of protein sequence alignments is one of the most fundamental tasks in computational...
International audienceFinding similarities between protein structures is a crucial task in molecular...
none4Not availableopenMarti-Renom, Marc A.; Capriotti, Emidio; Shindyalov, Ilya N.; Bourne, Philip E...
Motivation: The steady growth of the number of available protein structures has constantly motivated...
Background Multiple structure alignments have received increasing attention in recent years as an al...
Multiple comparison or alignmentof protein sequences has become a fundamental tool in many different...
The alignment of two protein structures is a fundamental problem in structural bioinformatics.Their ...
Structural biologists will perform a significant portion of their future work in silico due to incre...
We present two algorithms that use spectral methods to align protein folds. One of the algorithms is...
Accurate comparative analysis tools for low-homology proteins remains a difficult challenge in compu...
To assess the similarities and the differences among protein structures, a variety of structure ali...
The importance of pairwise protein structural comparison in biomedical research is fueling the searc...
Accurate comparative analysis tools for low-homology proteins remains a difficult challenge in compu...
Comparing the 3D structures of proteins is an important but computationally hard problem in bioinfor...
Proteins are complex biological molecules that perform a vast array of functions crucial to life. A ...
The computation of protein sequence alignments is one of the most fundamental tasks in computational...
International audienceFinding similarities between protein structures is a crucial task in molecular...
none4Not availableopenMarti-Renom, Marc A.; Capriotti, Emidio; Shindyalov, Ilya N.; Bourne, Philip E...
Motivation: The steady growth of the number of available protein structures has constantly motivated...
Background Multiple structure alignments have received increasing attention in recent years as an al...
Multiple comparison or alignmentof protein sequences has become a fundamental tool in many different...
The alignment of two protein structures is a fundamental problem in structural bioinformatics.Their ...
Structural biologists will perform a significant portion of their future work in silico due to incre...
We present two algorithms that use spectral methods to align protein folds. One of the algorithms is...
Accurate comparative analysis tools for low-homology proteins remains a difficult challenge in compu...
To assess the similarities and the differences among protein structures, a variety of structure ali...
The importance of pairwise protein structural comparison in biomedical research is fueling the searc...
Accurate comparative analysis tools for low-homology proteins remains a difficult challenge in compu...
Comparing the 3D structures of proteins is an important but computationally hard problem in bioinfor...
Proteins are complex biological molecules that perform a vast array of functions crucial to life. A ...
The computation of protein sequence alignments is one of the most fundamental tasks in computational...
International audienceFinding similarities between protein structures is a crucial task in molecular...
none4Not availableopenMarti-Renom, Marc A.; Capriotti, Emidio; Shindyalov, Ilya N.; Bourne, Philip E...