Alignment-free methods for sequence comparisons have become popular in many bioinformatics applications, specifically in the estimation of sequence similarity measures to construct phylogenetic trees. Recently, the average common substring measure, ACS, and its k-mismatch counterpart, ACS-k, have been shown to produce results as effective as multiple-sequence alignment based methods in phylogeny. In this work, we present a novel linear-time heuristic to approximate ACS-k, which is faster than computing the exact ACS-k while being closer to the exact ACS-k values compared to previously published linear-time greedy heuristics
Abstract Background Various approaches to alignment-free sequence comparison are based on the length...
A central focus of computational biology is to organize and make use of vast stores of molecular seq...
Similarity searching tools are generally divided to two distinct groups: Alignment-based and alignme...
Abstract Background Alignment-free sequence comparison approaches have been garnering increasing int...
Background: Alignment-free sequence comparison approaches have been garnering increasing interest in...
International audienceMotivation: Alignment-based methods for sequence analysis have various limitat...
Motivation: Alignment-free sequence comparison methods can compute the pairwise similarity between a...
International audienceMotivation: Alignment-free methods for sequence comparison are increasingly us...
The vast majority of methods available for sequence comparison rely on a first sequence alignment st...
Background: With the progress of modern sequencing technologies a large number of complete genomes ...
Alignment-free approaches are gaining persistent interest in many sequence analysis applications suc...
Copyright © 2012 Inês Soares et al. This is an open access article distributed under the Creative C...
Alignment-free methods, in which shared properties of sub-sequences (e. g. identity or match length)...
Abslract- DNA matching is an important key to understanding genomes, evolution, relationships betwee...
Abstract The increasing throughput of sequencing raises growing needs for methods of sequence analys...
Abstract Background Various approaches to alignment-free sequence comparison are based on the length...
A central focus of computational biology is to organize and make use of vast stores of molecular seq...
Similarity searching tools are generally divided to two distinct groups: Alignment-based and alignme...
Abstract Background Alignment-free sequence comparison approaches have been garnering increasing int...
Background: Alignment-free sequence comparison approaches have been garnering increasing interest in...
International audienceMotivation: Alignment-based methods for sequence analysis have various limitat...
Motivation: Alignment-free sequence comparison methods can compute the pairwise similarity between a...
International audienceMotivation: Alignment-free methods for sequence comparison are increasingly us...
The vast majority of methods available for sequence comparison rely on a first sequence alignment st...
Background: With the progress of modern sequencing technologies a large number of complete genomes ...
Alignment-free approaches are gaining persistent interest in many sequence analysis applications suc...
Copyright © 2012 Inês Soares et al. This is an open access article distributed under the Creative C...
Alignment-free methods, in which shared properties of sub-sequences (e. g. identity or match length)...
Abslract- DNA matching is an important key to understanding genomes, evolution, relationships betwee...
Abstract The increasing throughput of sequencing raises growing needs for methods of sequence analys...
Abstract Background Various approaches to alignment-free sequence comparison are based on the length...
A central focus of computational biology is to organize and make use of vast stores of molecular seq...
Similarity searching tools are generally divided to two distinct groups: Alignment-based and alignme...