Sequence divergence derives from either point substitution or indel (insertion or deletion) processes. We investigated the rates of these two processes both in protein and non-protein coding DNA. We aligned sequence pairs using two pair-hidden Markov models (PHMMs) conjoined by one silent state. The two PHMMs had their own set of parameters to model rates in their respective regions. The aim was to test the hypothesis that the indel mutation rate mimics the point mutation rate. That is, indels are found less often in conserved regions (slow point substitution rate) and more often in non-conserved regions (fast point substitution rate). Both polypeptides and rRNA molecules in our data exhibited a clear distinction between slow and fast rates...
Comparison of sequences that have descended from a common ancestor based on an explicit stochastic m...
DNA sequence alignments are usually not homogeneous. Mosaic structures may result as a consequence o...
Molecular evolutionary biology allows us to look into the past by analyzing sequences of amino acids...
Abstract Sequence divergence derives from either point substitution or indel (insertion or deletion)...
MOTIVATION: The two mutation processes that have the largest impact on genome evolution at small sca...
We present an improved phylogenetic factorial hidden Markov model (FHMM) for detecting two types of ...
To understand how protein segments are inserted and deleted during divergent evolution, a set of pai...
We develop techniques to estimate the statistical significance of gap-free alignments between two ge...
International audienceModern methods to detecting adaptive evolution from interspecific protein-codi...
BackgroundDespite the long-anticipated possibility of putting sequence alignment on the same footing...
Abstract Background Despite the long-anticipated possibility of putting sequence alignment on the sa...
Abstract Background Non-coding DNA sequences comprise a very large proportion of the total genomic c...
Summary: Sequences of proteins evolve by accumulating substitutions together with insertions and del...
Two macromolecular sequences which have evolved from a common ancestor sequence will tend to include...
Since several decades, sequence alignment is a widely used tool in bioinformatics. For instance, fin...
Comparison of sequences that have descended from a common ancestor based on an explicit stochastic m...
DNA sequence alignments are usually not homogeneous. Mosaic structures may result as a consequence o...
Molecular evolutionary biology allows us to look into the past by analyzing sequences of amino acids...
Abstract Sequence divergence derives from either point substitution or indel (insertion or deletion)...
MOTIVATION: The two mutation processes that have the largest impact on genome evolution at small sca...
We present an improved phylogenetic factorial hidden Markov model (FHMM) for detecting two types of ...
To understand how protein segments are inserted and deleted during divergent evolution, a set of pai...
We develop techniques to estimate the statistical significance of gap-free alignments between two ge...
International audienceModern methods to detecting adaptive evolution from interspecific protein-codi...
BackgroundDespite the long-anticipated possibility of putting sequence alignment on the same footing...
Abstract Background Despite the long-anticipated possibility of putting sequence alignment on the sa...
Abstract Background Non-coding DNA sequences comprise a very large proportion of the total genomic c...
Summary: Sequences of proteins evolve by accumulating substitutions together with insertions and del...
Two macromolecular sequences which have evolved from a common ancestor sequence will tend to include...
Since several decades, sequence alignment is a widely used tool in bioinformatics. For instance, fin...
Comparison of sequences that have descended from a common ancestor based on an explicit stochastic m...
DNA sequence alignments are usually not homogeneous. Mosaic structures may result as a consequence o...
Molecular evolutionary biology allows us to look into the past by analyzing sequences of amino acids...