Multiple sequence alignments are fundamental to many sequence analysis methods. Most alignments are computed using the progressive alignment heuristic. These methods are starting to become a bottleneck in some analysis pipelines when faced with data sets of the size of many thousands of sequences. Some methods allow computation of larger data sets while sacrificing quality, and others produce high‐quality alignments, but scale badly with the number of sequences. In this paper, we describe a new program called Clustal Omega, which can align virtually any number of protein sequences quickly and that delivers accurate alignments. The accuracy of the package on smaller test cases is similar to that of the high‐quality aligners. On larger data s...
Multiple sequence alignment is a central topic of extensive research in computational biology. Basic...
Motivation: Protein sequence alignment plays a critical role in computational biology as it is an in...
MOTIVATION: We introduce a novel approach to multiple alignment that is based on an algorithm for ra...
Multiple sequence alignments are fundamental to many sequence analysis methods. Most alignments are ...
Received 23.7.11; accepted 6.9.11 Multiple sequence alignments are fundamental to many sequence anal...
Multiple sequence alignments are fundamental to many sequence analysis methods. Most alignments are ...
The Clustal series of programs are widely used in molecular biology for the multiple alignment of bo...
Abstract Background In a previous paper, we introduced MUSCLE, a new program for creating multiple a...
An algorithm is presented for the multiple alignment of protein sequences that is both accurate and ...
An algorithm is presented for the multiple alignment of protein sequences that is both accurate and ...
AMPS (Alignment of Multiple Protein Sequences) is a set of programs for the multiple alignment of pr...
The alignment of biological sequences is crucial for the transfer of annotation from model organisms...
BACKGROUND: Multiple sequence alignment (MSA) is an extremely useful tool for molecular and evolutio...
Abstract Background There have been many algorithms and software programs implemented for the infere...
The focus of this thesis is on large-scale progressive protein multiple sequence alignment algorithm...
Multiple sequence alignment is a central topic of extensive research in computational biology. Basic...
Motivation: Protein sequence alignment plays a critical role in computational biology as it is an in...
MOTIVATION: We introduce a novel approach to multiple alignment that is based on an algorithm for ra...
Multiple sequence alignments are fundamental to many sequence analysis methods. Most alignments are ...
Received 23.7.11; accepted 6.9.11 Multiple sequence alignments are fundamental to many sequence anal...
Multiple sequence alignments are fundamental to many sequence analysis methods. Most alignments are ...
The Clustal series of programs are widely used in molecular biology for the multiple alignment of bo...
Abstract Background In a previous paper, we introduced MUSCLE, a new program for creating multiple a...
An algorithm is presented for the multiple alignment of protein sequences that is both accurate and ...
An algorithm is presented for the multiple alignment of protein sequences that is both accurate and ...
AMPS (Alignment of Multiple Protein Sequences) is a set of programs for the multiple alignment of pr...
The alignment of biological sequences is crucial for the transfer of annotation from model organisms...
BACKGROUND: Multiple sequence alignment (MSA) is an extremely useful tool for molecular and evolutio...
Abstract Background There have been many algorithms and software programs implemented for the infere...
The focus of this thesis is on large-scale progressive protein multiple sequence alignment algorithm...
Multiple sequence alignment is a central topic of extensive research in computational biology. Basic...
Motivation: Protein sequence alignment plays a critical role in computational biology as it is an in...
MOTIVATION: We introduce a novel approach to multiple alignment that is based on an algorithm for ra...