Protein sequence alignment has become a widely used method in the study of newly sequenced proteins. Most sequence alignment methods use an affine gap penalty to assign scores to insertions and deletions. Although affine gap penalties represent the relative ease of extending a gap compared with initializing a gap, it is still an obvious oversimplification of the real processes that occur during sequence evolution. To improve the efficiency of sequence alignment methods and to obtain a better understanding of the process of sequence evolution, we wanted to find a more accurate model of insertions and deletions in homologous proteins. In this work, we extract the probability of a gap occurrence and the resulting gap length distribution in dis...
Preliminary work to improve on the gap placement in a novel multiple sequence threading method is pr...
Motivation: Although pairwise sequence alignment is essential in comparative genomic sequence analys...
Background The alignment of multiple protein sequences is one of the most commonly performed tasks ...
To understand how protein segments are inserted and deleted during divergent evolution, a set of pai...
Rigorous computation methods are needed to unleash the power hidden in the DNA and protein sequences...
An analysis of insertions and deletions (indels) occurring in a databank of multiple sequence alignm...
Abstract Background There have been many algorithms a...
The model of insertions and deletions in biological sequences, first formulated by Thorne, Kishino, ...
[[abstract]]The common-use gap penalty strategies, constant penalty and affine gap penalty, have bee...
Comparison of sequences that have descended from a common ancestor based on an explicit stochastic m...
Summary: Sequences of proteins evolve by accumulating substitutions together with insertions and del...
Reconstructing the evolutionary history of biological sequences will provide a better understanding ...
Since several decades, sequence alignment is a widely used tool in bioinformatics. For instance, fin...
Sequence divergence derives from either point substitution or indel (insertion or deletion) processe...
Background: General protein evolution models help determine the baseline expectations for the evolut...
Preliminary work to improve on the gap placement in a novel multiple sequence threading method is pr...
Motivation: Although pairwise sequence alignment is essential in comparative genomic sequence analys...
Background The alignment of multiple protein sequences is one of the most commonly performed tasks ...
To understand how protein segments are inserted and deleted during divergent evolution, a set of pai...
Rigorous computation methods are needed to unleash the power hidden in the DNA and protein sequences...
An analysis of insertions and deletions (indels) occurring in a databank of multiple sequence alignm...
Abstract Background There have been many algorithms a...
The model of insertions and deletions in biological sequences, first formulated by Thorne, Kishino, ...
[[abstract]]The common-use gap penalty strategies, constant penalty and affine gap penalty, have bee...
Comparison of sequences that have descended from a common ancestor based on an explicit stochastic m...
Summary: Sequences of proteins evolve by accumulating substitutions together with insertions and del...
Reconstructing the evolutionary history of biological sequences will provide a better understanding ...
Since several decades, sequence alignment is a widely used tool in bioinformatics. For instance, fin...
Sequence divergence derives from either point substitution or indel (insertion or deletion) processe...
Background: General protein evolution models help determine the baseline expectations for the evolut...
Preliminary work to improve on the gap placement in a novel multiple sequence threading method is pr...
Motivation: Although pairwise sequence alignment is essential in comparative genomic sequence analys...
Background The alignment of multiple protein sequences is one of the most commonly performed tasks ...