We describe a new program for the alignment of multiple biological sequences that is both statistically motivated and fast enough for problem sizes that arise in practice. Our Fast Statistical Alignment program is based on pair hidden Markov models which approximate an insertion/deletion process on a tree and uses a sequence annealing algorithm to combine the posterior probabilities estimated from these models into a multiple alignment. FSA uses its explicit statistical model to produce multiple alignments which are accompanied by estimates of the alignment accuracy and uncertainty for every column and character of the alignment—previously available only with alignment programs which use computationally-expensive Markov Chain Monte Carlo ap...
Multiple Sequence Alignment gives insight into evolutionary, structural and functional relationships...
The human genome consists of various patterns and sequences that are of biolog- ical signi cance. Ca...
Multiple sequence alignments play a central role in the annotation of novel genomes. Given the biolo...
We describe a new program for the alignment of multiple biological sequences that is both statistica...
Multiple sequence alignment plays a key role in the computational analysis of biological data. Diffe...
Multiple sequence alignments (MSAs) have become one of the most studied approaches in bioinformatics...
AbstractA renewed interest in the multiple sequence alignment problem has given rise to several new ...
Background: We propose a multiple sequence alignment (MSA) algorithm and compare the alignment-qual...
Summary: In this work we present a web-based tool for estimating multiple alignment quality using Ba...
The alignment of biological sequences is crucial for the transfer of annotation from model organisms...
Background A standard procedure in many areas of bioinformatics is to use a single multiple seque...
Multiple sequence alignments are fundamental to many sequence analysis methods. Most alignments are ...
An essential tool in biology is the alignment of multiple sequences. Biologists use multiple sequenc...
BACKGROUND: Multiple sequence alignment (MSA) is an extremely useful tool for molecular and evolutio...
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...
The human genome consists of various patterns and sequences that are of biolog- ical signi cance. Ca...
Multiple sequence alignments play a central role in the annotation of novel genomes. Given the biolo...
We describe a new program for the alignment of multiple biological sequences that is both statistica...
Multiple sequence alignment plays a key role in the computational analysis of biological data. Diffe...
Multiple sequence alignments (MSAs) have become one of the most studied approaches in bioinformatics...
AbstractA renewed interest in the multiple sequence alignment problem has given rise to several new ...
Background: We propose a multiple sequence alignment (MSA) algorithm and compare the alignment-qual...
Summary: In this work we present a web-based tool for estimating multiple alignment quality using Ba...
The alignment of biological sequences is crucial for the transfer of annotation from model organisms...
Background A standard procedure in many areas of bioinformatics is to use a single multiple seque...
Multiple sequence alignments are fundamental to many sequence analysis methods. Most alignments are ...
An essential tool in biology is the alignment of multiple sequences. Biologists use multiple sequenc...
BACKGROUND: Multiple sequence alignment (MSA) is an extremely useful tool for molecular and evolutio...
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...
The human genome consists of various patterns and sequences that are of biolog- ical signi cance. Ca...
Multiple sequence alignments play a central role in the annotation of novel genomes. Given the biolo...