Background: Two central problems in computational biology are the determination of the alignment and phylogeny of a set of biological sequences. The traditional approach to this problem is to first build a multiple alignment of these sequences, followed by a phylogenetic reconstruction step based on this multiple alignment. However, alignment and phylogenetic inference are fundamentally interdependent, and ignoring this fact leads to biased and overconfident estimations. Whether the main interest be in sequence alignment or phylogeny, a major goal of computational biology is the co-estimation of both. Results: We developed a fully Bayesian Markov chain Monte Carlo method for coestimating phylogeny and sequence alignment, under the Thorn...
<div><p>The Multiple Sequence Alignment (MSA) is a computational abstraction that represents a parti...
<p>This thesis concerns the use of protein structure to improve phylogenetic inference. There has b...
We are amidst an ongoing flood of sequence data arising from the application of high-throughput tech...
Abstract Background Two central problems in computational biology are the determination of the align...
A central problem in computational biology is the inference of phylogeny given a set of DNA or prote...
A central focus of computational biology is to organize and make use of vast stores of molecular seq...
A central focus of computational biology is to organize and make use of vast stores of molecular seq...
Traditionally, phylogeny and sequence alignment are estimated separately: first estimate a multiple ...
For sequences that are highly divergent, there is often insufficient information to infer accurate a...
Molecular evolutionary biology allows us to look into the past by analyzing sequences of amino acids...
For sequences that are highly divergent, there is often insufficient information to infer accurate a...
For sequences that are highly divergent, there is often insufficient information to infer accurate a...
The Multiple Sequence Alignment (MSA) is a computational abstraction that represents a partial summa...
Alignment-free methods, in which shared properties of sub-sequences (e. g. identity or match length)...
BackgroundPhylogenies of rapidly evolving pathogens can be difficult to resolve because of the small...
<div><p>The Multiple Sequence Alignment (MSA) is a computational abstraction that represents a parti...
<p>This thesis concerns the use of protein structure to improve phylogenetic inference. There has b...
We are amidst an ongoing flood of sequence data arising from the application of high-throughput tech...
Abstract Background Two central problems in computational biology are the determination of the align...
A central problem in computational biology is the inference of phylogeny given a set of DNA or prote...
A central focus of computational biology is to organize and make use of vast stores of molecular seq...
A central focus of computational biology is to organize and make use of vast stores of molecular seq...
Traditionally, phylogeny and sequence alignment are estimated separately: first estimate a multiple ...
For sequences that are highly divergent, there is often insufficient information to infer accurate a...
Molecular evolutionary biology allows us to look into the past by analyzing sequences of amino acids...
For sequences that are highly divergent, there is often insufficient information to infer accurate a...
For sequences that are highly divergent, there is often insufficient information to infer accurate a...
The Multiple Sequence Alignment (MSA) is a computational abstraction that represents a partial summa...
Alignment-free methods, in which shared properties of sub-sequences (e. g. identity or match length)...
BackgroundPhylogenies of rapidly evolving pathogens can be difficult to resolve because of the small...
<div><p>The Multiple Sequence Alignment (MSA) is a computational abstraction that represents a parti...
<p>This thesis concerns the use of protein structure to improve phylogenetic inference. There has b...
We are amidst an ongoing flood of sequence data arising from the application of high-throughput tech...