Structural comparison of multiple-chain protein complexes is essential in many studies of protein–protein interactions. We develop a new algorithm, MM-align, for sequence-independent alignment of protein complex structures. The algorithm is built on a heuristic iteration of a modified Needleman–Wunsch dynamic programming (DP) algorithm, with the alignment score specified by the inter-complex residue distances. The multiple chains in each complex are first joined, in every possible order, and then simultaneously aligned with cross-chain alignments prevented. The alignments of interface residues are enhanced by an interface-specific weighting factor. MM-align is tested on a large-scale benchmark set of 205 × 3897 non-homologous multiple-chain...
An algorithm is presented for the multiple alignment of protein sequences that is both accurate and ...
Background: The alignment of two or more protein sequences provides a powerful guide in the predicti...
The increasing number of available protein structures requires efficient tools for multiple structur...
Structural comparison of multiple-chain protein complexes is essential in many studies of protein–pr...
©The Author 2005. Published by Oxford University Press. All rights reserved.. The definitive version...
©2008 Pandit and Skolnick; licensee BioMed Central Ltd. This is an Open Access article distributed u...
The long-standing problem of constructing protein structure alignments is of central importance in c...
We show how a basic pairwise alignment procedure can be improved to more accurately align conserved ...
<div><p>Proteins are flexible, and this flexibility has an essential functional role. Flexibility ca...
The alignment of two protein structures is a fundamental problem in structural bioinformatics.Their ...
An algorithm is presented for the multiple alignment of protein sequences that is both accurate and ...
Structural biologists will perform a significant portion of their future work in silico due to incre...
Multiple comparison or alignmentof protein sequences has become a fundamental tool in many different...
Background: Multiple sequence alignment algorithms are very important tools in molecular biology tod...
Motivation: Aligning and comparing protein structures is important for understanding their evolution...
An algorithm is presented for the multiple alignment of protein sequences that is both accurate and ...
Background: The alignment of two or more protein sequences provides a powerful guide in the predicti...
The increasing number of available protein structures requires efficient tools for multiple structur...
Structural comparison of multiple-chain protein complexes is essential in many studies of protein–pr...
©The Author 2005. Published by Oxford University Press. All rights reserved.. The definitive version...
©2008 Pandit and Skolnick; licensee BioMed Central Ltd. This is an Open Access article distributed u...
The long-standing problem of constructing protein structure alignments is of central importance in c...
We show how a basic pairwise alignment procedure can be improved to more accurately align conserved ...
<div><p>Proteins are flexible, and this flexibility has an essential functional role. Flexibility ca...
The alignment of two protein structures is a fundamental problem in structural bioinformatics.Their ...
An algorithm is presented for the multiple alignment of protein sequences that is both accurate and ...
Structural biologists will perform a significant portion of their future work in silico due to incre...
Multiple comparison or alignmentof protein sequences has become a fundamental tool in many different...
Background: Multiple sequence alignment algorithms are very important tools in molecular biology tod...
Motivation: Aligning and comparing protein structures is important for understanding their evolution...
An algorithm is presented for the multiple alignment of protein sequences that is both accurate and ...
Background: The alignment of two or more protein sequences provides a powerful guide in the predicti...
The increasing number of available protein structures requires efficient tools for multiple structur...