Multiple sequence alignment (MSA), used in biocomputing to study similarities between different genomic sequences, is known to require important memory and computation resources. Nowadays, researchers are aligning thousands of these sequences, creating new challenges in order to solve the problem using the available resources efficiently. Determining the efficient amount of resources to allocate is important to avoid waste of them, thus reducing the economical costs required in running for example a specific cloud instance. The pairwise alignment is the initial key step of the MSA problem, which will compute all pair alignments needed. We present a method to determine the optimal amount of memory and computation resources to allocate by the...
Biological sequence alignment is an important and challenging task in bioinformatics. Alignment may ...
Abstract Background The multiple sequence alignment (MSA) is a classic and powerful technique for se...
Multiple sequence alignments (MSAs) have become one of the most studied approaches in bioinformatics...
Abstract. Multiple Sequence Alignment (MSA) is one of the most fundamen-tal problems in computationa...
Multiple Sequence Alignment (MSA) is one of the most fundamental problems in computational molecular...
The genome sequence alignment problems are very important ones from the computational biology perspe...
Multiple sequence alignment (MSA) is a technique for finding similarity in many sequences. This tech...
Sequence Alignment is a basic operation in Bioinformatics that is performed thousands of times, on d...
Multiple sequence alignment (MSA) is a very common bioinformatics technique used in biological and m...
Multiple sequence alignment (MSA) is important in functional, structural and evolutionary studies of...
Abstract Background Multiple sequence alignment (MSA) is a fundamental analysis method used in bioin...
The challenge of comparing two or more genomes that have undergone recombination and substantial amo...
Multiple sequence alignment plays a key role in the computational analysis of biological data. Diffe...
Abstract. Multiple sequence alignment (MSA) is important in functional, struc-tural and evolutionary...
Biological pairwise sequence alignment can be used as a method for arranging two biological sequence...
Biological sequence alignment is an important and challenging task in bioinformatics. Alignment may ...
Abstract Background The multiple sequence alignment (MSA) is a classic and powerful technique for se...
Multiple sequence alignments (MSAs) have become one of the most studied approaches in bioinformatics...
Abstract. Multiple Sequence Alignment (MSA) is one of the most fundamen-tal problems in computationa...
Multiple Sequence Alignment (MSA) is one of the most fundamental problems in computational molecular...
The genome sequence alignment problems are very important ones from the computational biology perspe...
Multiple sequence alignment (MSA) is a technique for finding similarity in many sequences. This tech...
Sequence Alignment is a basic operation in Bioinformatics that is performed thousands of times, on d...
Multiple sequence alignment (MSA) is a very common bioinformatics technique used in biological and m...
Multiple sequence alignment (MSA) is important in functional, structural and evolutionary studies of...
Abstract Background Multiple sequence alignment (MSA) is a fundamental analysis method used in bioin...
The challenge of comparing two or more genomes that have undergone recombination and substantial amo...
Multiple sequence alignment plays a key role in the computational analysis of biological data. Diffe...
Abstract. Multiple sequence alignment (MSA) is important in functional, struc-tural and evolutionary...
Biological pairwise sequence alignment can be used as a method for arranging two biological sequence...
Biological sequence alignment is an important and challenging task in bioinformatics. Alignment may ...
Abstract Background The multiple sequence alignment (MSA) is a classic and powerful technique for se...
Multiple sequence alignments (MSAs) have become one of the most studied approaches in bioinformatics...