Multiple sequence alignment is increasingly important to bioinformatics, with several applications ranging from phylogenetic analyses to domain identification. There are several ways to perform multiple sequence alignment, an important way of which is the progressive alignment approach studied in this work. Progressive alignment involves three steps: find the distance between each pair of sequences; construct a guide tree based on the distance matrix; finally based on the guide tree align sequences using the concept of aligned profiles. Our contribution is in comparing two main methods of guide tree construction in terms of both efficiency and accuracy of the overall alignment: UPGMA and Neighbor Join methods. Our experimental results indic...
Multiple sequence alignments (MSAs) are used for structural1,2 and evolutionary predictions1,2, but ...
Abstract—This paper introduces a simple and effective approach to improve the accuracy of multiple s...
With the addition of more data in the field of proteomics, the computational methods need to be more...
International audienceDespite the importance of the guide structure calculation in progressive multi...
With the rapid development of genome sequencing, an ever-increasing number of molecular biology anal...
The focus of this thesis is on large-scale progressive protein multiple sequence alignment algorithm...
Background: Guide-trees are used as part of an essential heuristic to enable the calculation of mult...
Abstract Background We propose a multiple sequence alignment (MSA) algorithm and compare the alignme...
Abstract. Aligning multiple DNA or protein sequences is a fundamental step in the analyses of phylog...
Progressive methods for multiple sequence alignment are popular for their simplicity and cost effect...
Multiple sequence alignment is a fundamental part in many bioinformatics applications such as phylog...
Biological sequences have rapidly accumulated due to the development of sequencing technologies. For...
Multiple sequence alignment plays a key role in the computational analysis of biological data. Diffe...
A central focus of computational biology is to organize and make use of vast stores of molecular seq...
A central focus of computational biology is to organize and make use of vast stores of molecular seq...
Multiple sequence alignments (MSAs) are used for structural1,2 and evolutionary predictions1,2, but ...
Abstract—This paper introduces a simple and effective approach to improve the accuracy of multiple s...
With the addition of more data in the field of proteomics, the computational methods need to be more...
International audienceDespite the importance of the guide structure calculation in progressive multi...
With the rapid development of genome sequencing, an ever-increasing number of molecular biology anal...
The focus of this thesis is on large-scale progressive protein multiple sequence alignment algorithm...
Background: Guide-trees are used as part of an essential heuristic to enable the calculation of mult...
Abstract Background We propose a multiple sequence alignment (MSA) algorithm and compare the alignme...
Abstract. Aligning multiple DNA or protein sequences is a fundamental step in the analyses of phylog...
Progressive methods for multiple sequence alignment are popular for their simplicity and cost effect...
Multiple sequence alignment is a fundamental part in many bioinformatics applications such as phylog...
Biological sequences have rapidly accumulated due to the development of sequencing technologies. For...
Multiple sequence alignment plays a key role in the computational analysis of biological data. Diffe...
A central focus of computational biology is to organize and make use of vast stores of molecular seq...
A central focus of computational biology is to organize and make use of vast stores of molecular seq...
Multiple sequence alignments (MSAs) are used for structural1,2 and evolutionary predictions1,2, but ...
Abstract—This paper introduces a simple and effective approach to improve the accuracy of multiple s...
With the addition of more data in the field of proteomics, the computational methods need to be more...