Multiple sequence alignment plays a key role in the computational analysis of biological data. Different programs are developed to analyze the sequence similarity. This paper highlights the algorithmic techniques of the most popular multiple sequence alignment programs. These programs are then evaluated on the basis of execution time and scalability. The overall performance of these programs is assessed to highlight their strengths and weaknesses with reference to their algorithmic techniques. In terms of overall alignment quality, T-Coffee and Mafft attain the highest average scores, whereas K-align has the minimum computation time
Abstract Multiple sequence alignment as a means of comparing DNA, RNA or amino acid sequences is an ...
With the rapid development of genome sequencing, an ever-increasing number of molecular biology anal...
Multiple Sequence Alignment gives insight into evolutionary, structural and functional relationships...
Multiple sequence alignment plays a key role in the computational analysis of biological data. Diffe...
Aligning multiple biological sequences such as protein sequences or DNA/RNA sequences is a fundament...
Multiple sequence alignments (MSAs) have become one of the most studied approaches in bioinformatics...
Sequence similarity alignment is a basic information processing method in bioinformatics. It is very...
Sequence similarity alignment is a basic information processing method in bioinformatics. It is very...
BACKGROUND: Multiple sequence alignment (MSA) is an extremely useful tool for molecular and evolutio...
An ever-increasing number of biological modelingmethods depend on the assembly of an accuratemultipl...
The alignment of biological sequences is crucial for the transfer of annotation from model organisms...
The fact that biological sequences can be represented as strings belonging to a finite alphabet (A, ...
AbstractA renewed interest in the multiple sequence alignment problem has given rise to several new ...
One of the most fundamental operations in biological sequence analysis is multiple sequence alignmen...
Background: We propose a multiple sequence alignment (MSA) algorithm and compare the alignment-qual...
Abstract Multiple sequence alignment as a means of comparing DNA, RNA or amino acid sequences is an ...
With the rapid development of genome sequencing, an ever-increasing number of molecular biology anal...
Multiple Sequence Alignment gives insight into evolutionary, structural and functional relationships...
Multiple sequence alignment plays a key role in the computational analysis of biological data. Diffe...
Aligning multiple biological sequences such as protein sequences or DNA/RNA sequences is a fundament...
Multiple sequence alignments (MSAs) have become one of the most studied approaches in bioinformatics...
Sequence similarity alignment is a basic information processing method in bioinformatics. It is very...
Sequence similarity alignment is a basic information processing method in bioinformatics. It is very...
BACKGROUND: Multiple sequence alignment (MSA) is an extremely useful tool for molecular and evolutio...
An ever-increasing number of biological modelingmethods depend on the assembly of an accuratemultipl...
The alignment of biological sequences is crucial for the transfer of annotation from model organisms...
The fact that biological sequences can be represented as strings belonging to a finite alphabet (A, ...
AbstractA renewed interest in the multiple sequence alignment problem has given rise to several new ...
One of the most fundamental operations in biological sequence analysis is multiple sequence alignmen...
Background: We propose a multiple sequence alignment (MSA) algorithm and compare the alignment-qual...
Abstract Multiple sequence alignment as a means of comparing DNA, RNA or amino acid sequences is an ...
With the rapid development of genome sequencing, an ever-increasing number of molecular biology anal...
Multiple Sequence Alignment gives insight into evolutionary, structural and functional relationships...