Evolutionary biology, Phylogenomics, Genetics, Phylogenetic tree and Phylogenetics are his primary areas of study. The concepts of his Evolutionary biology study are interwoven with issues in Vertebrate, Genome, Long branch attraction and Botany. The Phylogenomics study combines topics in areas such as Viridiplantae, Data set, Data mining and Data science.
The various areas that Hervé Philippe examines in his Genetics study include Inference and Missing data. In his work, Mixture model, Reconstruction method and Computational biology is strongly intertwined with Tree, which is a subfield of Phylogenetic tree. Phylogenetics and Phylum are commonly linked in his work.
His primary areas of study are Evolutionary biology, Phylogenetic tree, Phylogenetics, Genetics and Phylogenomics. His work in Evolutionary biology addresses subjects such as Long branch attraction, which are connected to disciplines such as Ambulacraria. In Phylogenetic tree, Hervé Philippe works on issues like Computational biology, which are connected to Codon usage bias.
His research integrates issues of Zoology and Ribosomal RNA in his study of Phylogenetics. His Phylogenomics research includes elements of Inference and Missing data. His studies deal with areas such as Lineage and Ctenophora as well as Sister group.
The scientist’s investigation covers issues in Phylogenetic tree, Computational biology, Evolutionary biology, Phylogenetics and Gene. His work on Taxon sampling as part of general Phylogenetic tree research is frequently linked to Signal extraction, thereby connecting diverse disciplines of science. His Computational biology research is multidisciplinary, relying on both Statistical hypothesis testing, Phylogenomics, Multiplex and Codon usage bias.
His Phylogenomics research integrates issues from Genome evolution and Contamination. His research in Evolutionary biology intersects with topics in Sister group, Outgroup and Long branch attraction. His biological study deals with issues like Cluster analysis, which deal with fields such as Benchmark data and Benchmark.
Hervé Philippe mostly deals with Evolutionary biology, Phylogenomics, Sister group, Phylogenetics and Phylogenetic tree. As part of his studies on Evolutionary biology, Hervé Philippe often connects relevant areas like Ambulacraria. Hervé Philippe interconnects Contamination, Multiplex, Computational biology and DNA sequencing in the investigation of issues within Phylogenomics.
Hervé Philippe has researched Sister group in several fields, including Xenoturbella, Outgroup, Xenacoelomorpha and Long branch attraction. His work on Molecular clock as part of his general Phylogenetics study is frequently connected to Pyuridae, Styelidae and Family lacertidae, thereby bridging the divide between different branches of science. His biological study spans a wide range of topics, including Genome, Conservation biology, Thermal physiology and Temperate climate.
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Tunicates and not cephalochordates are the closest living relatives of vertebrates
Frédéric Delsuc;Henner Brinkmann;Daniel Chourrout;Hervé Philippe.
A Bayesian mixture model for across-site heterogeneities in the amino-acid replacement process.
Nicolas Lartillot;Hervé Philippe.
Molecular Biology and Evolution (2004)
Phylogenomics and the reconstruction of the tree of life.
Frédéric Delsuc;Henner Brinkmann;Hervé Philippe.
Nature Reviews Genetics (2005)
A simple and robust statistical test for detecting the presence of recombination.
Trevor C. Bruen;Hervé Philippe;David Bryant;David Bryant.
Resolving Difficult Phylogenetic Questions: Why More Sequences Are Not Enough
Hervé Philippe;Henner Brinkmann;Dennis V. Lavrov;D. Timothy J. Littlewood.
PLOS Biology (2011)
Phylotranscriptomic analysis of the origin and early diversification of land plants
Norman J. Wickett;Siavash Mirarab;Nam Nguyen;Tandy Warnow.
Proceedings of the National Academy of Sciences of the United States of America (2014)
Phylogenomics Revives Traditional Views on Deep Animal Relationships
Hervé Philippe;Romain Derelle;Philippe Lopez;Kerstin Pick;Kerstin Pick.
Current Biology (2009)
MUST, a computer package of Management Utilities for Sequences and Trees
Nucleic Acids Research (1993)
Phylogenomics: the beginning of incongruence?
Olivier Jeffroy;Henner Brinkmann;Frédéric Delsuc;Hervé Philippe.
Trends in Genetics (2006)
The timing of eukaryotic evolution: Does a relaxed molecular clock reconcile proteins and fossils?
Emmanuel J. P. Douzery;Elizabeth A. Snell;Eric Bapteste;Frédéric Delsuc.
Proceedings of the National Academy of Sciences of the United States of America (2004)
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