All modern approaches to molecular phylogenetics require a quantitative model for how genes evolve.
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This branch of science is called phylogenetics.
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We examined procyonid phylogenetics based on combined data from nine nuclear and two mitochondrial gene segments totaling 6534bp.
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The second section deals with the more recent advances concerning taxonomy, phylogenetics, population studies, molecular identification, diagnosis and vaccination.
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Molecular phylogenetics is the study of evolutionary relationships between biological sequences, often to infer the evolutionary relationships of organisms.
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This study provides a compelling demonstration that, in spite of substantial sequence length, there are significant limitations with single-locus phylogenetics.
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Molecular phylogenetics and evolution.
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Phylogenomics, the integration of phylogenetics with genome data, has emerged as a powerful approach to study the evolution and systematics of species.
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From grouping subsets of cancer samples to tracing subclonal evolution during cancer progression and metastasis, the use of phylogenetics is a powerful systems biology approach.
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Phylogenetics, and the study of evolution in general, is quickly migrating towards using HTS to generate larger and more complex molecular datasets.
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Results: Confirmed phylogenetic results of the viruses were separated into 5 groups.
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The isolated cultures were identified using common microbiological methods and phylogenetic analysis.
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The model also meshes well with maximum likelihood methods for phylogenetic analysis.
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Morphofunctional aspects of the tunic tissue and certain phylogenetic relationships are discussed.
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No serotype or phylogenetic group was specifically linked to children with disease.
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The pattern of haplotype network and phylogenetic tree revealed six major groups.