An efficient tree reconstruction method (IQPNNI) is introduced to reconstruct a phylogenetic tree based on DNA or amino acid sequence data. Our approach combines various fast algorithms to generate a list of potential candidate trees. The key ingredient is the definition of so-called important quartets (IQs), which allow the computation of an intermediate tree in O(n(2)) time for n sequences. The resulting tree is then further optimized by applying the nearest neighbor interchange (NNI) operation. Subsequently a random fraction of the sequences is deleted from the best tree found so far. The deleted sequences are then re-inserted in the smaller tree using the important quartet puzzling (IQP) algorithm. These steps are repeated several times...
Abstract. Among the distance based algorithms in phylogenetic tree reconstruction, the neighbor-join...
Biologists seek to reconstruct evolutionary trees for increasing number of species, n, from aligned ...
In this thesis we present a novel algorithm, HyperCleaning*, for effectively inferring phylogenetic...
The benefits of experimental algorithmics and algorithm engineering need to be extended to applicati...
SUMMARY: IQPNNI is a program to infer maximum-likelihood phylogenetic trees from DNA or protein data...
Abstract. A major task in evolutionary biology is to determine the ancestral relationships among the...
Abstract.—Phylogenetic tree estimation plays a critical role in a wide variety of molecular studies,...
Gene families are growing rapidly, but standard methods for inferring phylogenies do not scale to al...
Reconstructing phylogenetic (evolutionary) trees is a major research problem in biology, but unfortu...
Academic and industrial research in the late 90s have brought about an exponential explosion of DNA ...
As DNA sequencing accelerates, gene families are growing rapidly, but stan-dard methods for inferrin...
Phylogenetic reconstruction from gene rearrangements has attracted increasing attention from biologi...
Understanding the evolutionary relationships among species based on their genetic information is one...
Phylogenetics is the study and identification of evolutionary patterns and structures in nature; thi...
The construction of evolutionary trees is a fundamental problem in biology, and yet methods for reco...
Abstract. Among the distance based algorithms in phylogenetic tree reconstruction, the neighbor-join...
Biologists seek to reconstruct evolutionary trees for increasing number of species, n, from aligned ...
In this thesis we present a novel algorithm, HyperCleaning*, for effectively inferring phylogenetic...
The benefits of experimental algorithmics and algorithm engineering need to be extended to applicati...
SUMMARY: IQPNNI is a program to infer maximum-likelihood phylogenetic trees from DNA or protein data...
Abstract. A major task in evolutionary biology is to determine the ancestral relationships among the...
Abstract.—Phylogenetic tree estimation plays a critical role in a wide variety of molecular studies,...
Gene families are growing rapidly, but standard methods for inferring phylogenies do not scale to al...
Reconstructing phylogenetic (evolutionary) trees is a major research problem in biology, but unfortu...
Academic and industrial research in the late 90s have brought about an exponential explosion of DNA ...
As DNA sequencing accelerates, gene families are growing rapidly, but stan-dard methods for inferrin...
Phylogenetic reconstruction from gene rearrangements has attracted increasing attention from biologi...
Understanding the evolutionary relationships among species based on their genetic information is one...
Phylogenetics is the study and identification of evolutionary patterns and structures in nature; thi...
The construction of evolutionary trees is a fundamental problem in biology, and yet methods for reco...
Abstract. Among the distance based algorithms in phylogenetic tree reconstruction, the neighbor-join...
Biologists seek to reconstruct evolutionary trees for increasing number of species, n, from aligned ...
In this thesis we present a novel algorithm, HyperCleaning*, for effectively inferring phylogenetic...