Abstract Background There have been many algorithms and software programs implemented for the inference of multiple sequence alignments of protein and DNA sequences. The "true" alignment is usually unknown due to the incomplete knowledge of the evolutionary history of the sequences, making it difficult to gauge the relative accuracy of the programs. Results We tested nine of the most often used protein alignment programs and compared their results using sequences generated with the simulation software Simprot which creates known alignments under realistic and controlled evolutionary scenarios. We have simulated more than 30000 alignment sets using various evolutionary histories in order to define strengths and weaknesses of each program tes...
The focus of this thesis is on large-scale progressive protein multiple sequence alignment algorithm...
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 ...
Abstract Background There have been many algorithms a...
The estimation of multiple sequence alignments of protein sequences is a basic step in many bioinfor...
International audienceMultiple comparison or alignmentof protein sequences has become a fundamental ...
The alignment of biological sequences is crucial for the transfer of annotation from model organisms...
Introduction In the last 20 years, many multiple-sequence alignment programs based on various princ...
The accuracy of an alignment between two protein sequences can be improved by including other detect...
Abstract: Protein sequence alignment is one of the crucial tasks of computational biology which form...
International audienceMotivation: Multiple sequence alignment programs have proved to be very useful...
Many bioinformatics analyses use multiple sequence alignments (MSAs) as their input data. Therefore,...
The basic algorithms for alignment of two or more protein sequences are explained. Alternative metho...
The problem of aligning multiple protein sequences is essential to many biological analyses, but mos...
BACKGROUND: Multiple sequence alignment (MSA) is an extremely useful tool for molecular and evolutio...
The focus of this thesis is on large-scale progressive protein multiple sequence alignment algorithm...
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 ...
Abstract Background There have been many algorithms a...
The estimation of multiple sequence alignments of protein sequences is a basic step in many bioinfor...
International audienceMultiple comparison or alignmentof protein sequences has become a fundamental ...
The alignment of biological sequences is crucial for the transfer of annotation from model organisms...
Introduction In the last 20 years, many multiple-sequence alignment programs based on various princ...
The accuracy of an alignment between two protein sequences can be improved by including other detect...
Abstract: Protein sequence alignment is one of the crucial tasks of computational biology which form...
International audienceMotivation: Multiple sequence alignment programs have proved to be very useful...
Many bioinformatics analyses use multiple sequence alignments (MSAs) as their input data. Therefore,...
The basic algorithms for alignment of two or more protein sequences are explained. Alternative metho...
The problem of aligning multiple protein sequences is essential to many biological analyses, but mos...
BACKGROUND: Multiple sequence alignment (MSA) is an extremely useful tool for molecular and evolutio...
The focus of this thesis is on large-scale progressive protein multiple sequence alignment algorithm...
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 ...