BACKGROUND: Genomic sequence alignment is a powerful method for genome analysis and annotation, as alignments are routinely used to identify functional sites such as genes or regulatory elements. With a growing number of partially or completely sequenced genomes, multiple alignment is playing an increasingly important role in these studies. In recent years, various tools for pair-wise and multiple genomic alignment have been proposed. Some of them are extremely fast, but often efficiency is achieved at the expense of sensitivity. One way of combining speed and sensitivity is to use an anchored-alignment approach. In a first step, a fast search program identifies a chain of strong local sequence similarities. In a second step, regions betwee...
Motivation: Accurate alignments between entire genomes are crucial for comparative genomics. However...
We describe a multiple alignment program named MAP2 based on a generalized pairwise global align-men...
Morgenstern B, Rinner O, Abdeddaïm S, et al. Exon discovery by genomic sequence alignment. Bioinfor...
Abstract Background Genomic sequence alignment is a powerful method for genome analysis and annotati...
Cross-species sequence comparison is a powerful approach to analyze functional sites in genomic sequ...
Background: Automated software tools for multiple alignment often fail to produce biologically meani...
Abstract Background Existing tools for multiple-sequence alignment focus on aligning protein sequenc...
Technology advancements have helped biologists gather massive amount of biological data including ge...
An information theory based multiple alignment ("Malign") method was used to align the DNA...
Abstract: In many situations, automated multi-alignment programs are not able to correctly align fam...
With the rapid development of genome sequencing, an ever-increasing number of molecular biology anal...
Morgenstern B, Frech K, Dress A, Werner T. DIALIGN: finding local similarities by multiple sequence ...
We describe a multiple alignment program named MAP2 based on a generalized pairwise global align-men...
Abstract. Multiple sequence alignment is an important method in Bioinformatics, for in-stance, to re...
Biological pairwise sequence alignment can be used as a method for arranging two biological sequence...
Motivation: Accurate alignments between entire genomes are crucial for comparative genomics. However...
We describe a multiple alignment program named MAP2 based on a generalized pairwise global align-men...
Morgenstern B, Rinner O, Abdeddaïm S, et al. Exon discovery by genomic sequence alignment. Bioinfor...
Abstract Background Genomic sequence alignment is a powerful method for genome analysis and annotati...
Cross-species sequence comparison is a powerful approach to analyze functional sites in genomic sequ...
Background: Automated software tools for multiple alignment often fail to produce biologically meani...
Abstract Background Existing tools for multiple-sequence alignment focus on aligning protein sequenc...
Technology advancements have helped biologists gather massive amount of biological data including ge...
An information theory based multiple alignment ("Malign") method was used to align the DNA...
Abstract: In many situations, automated multi-alignment programs are not able to correctly align fam...
With the rapid development of genome sequencing, an ever-increasing number of molecular biology anal...
Morgenstern B, Frech K, Dress A, Werner T. DIALIGN: finding local similarities by multiple sequence ...
We describe a multiple alignment program named MAP2 based on a generalized pairwise global align-men...
Abstract. Multiple sequence alignment is an important method in Bioinformatics, for in-stance, to re...
Biological pairwise sequence alignment can be used as a method for arranging two biological sequence...
Motivation: Accurate alignments between entire genomes are crucial for comparative genomics. However...
We describe a multiple alignment program named MAP2 based on a generalized pairwise global align-men...
Morgenstern B, Rinner O, Abdeddaïm S, et al. Exon discovery by genomic sequence alignment. Bioinfor...