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All modern approaches to molecularphylogenetics require a quantitative model for how genes evolve.
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Molecularphylogenetics is the study of evolutionary relationships between biological sequences, often to infer the evolutionary relationships of organisms.
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Molecularphylogenetics and evolution.
Usage of molecular phylogeny in English
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Here we present a molecularphylogeny of this radiation using data from museum specimens.
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The taxonomy of dermatophytes is currently being reconsidered on the basis of molecularphylogeny.
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Microscopic observations of wood anatomy are combined with an independent molecularphylogeny to answer this question.
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Here we present a molecularphylogeny of Galapagos and other mockingbird populations based on mitochondrial sequence data.
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Here we present a complete molecularphylogeny for the genus based on nuclear and mitochondrial DNA sequences.
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Here, we report the molecularphylogeny of symbiotic and non-symbiotic didemnids based on their 18S rDNA sequences.
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It may play a key role in unifying future studies on molecularphylogeny and updating evolutionary anatomical information.
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An analysis of molecularphylogeny was undertaken to examine whether the evolution of the hepadnavirus family is host-dependent.
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Thus, the impact of effects on genome organization that are not covered by methods of molecularphylogeny can be studied.
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The molecularphylogeny inferred agrees largely with previous results, in splitting H. a. aspersa haplotypes into an eastern and a western group.
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The molecularphylogeny of gyroviruses reveals the existence of two distinct gyrovirus lineages in which GyV11 is phylogenetically distinct from previously reported gyroviruses.
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We compared differing classification schemes for the genera Ramariopsis and Clavulinopsis, most of which are inconsistent with the molecularphylogeny and are statistically rejected.
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We report a molecularphylogeny for a nonavian dinosaur, extending our knowledge of trait evolution within nonavian dinosaurs into the macromolecular level of biological organization.
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Gaps between molecular ages and fossils undermine the validity of time-calibrated molecularphylogenies.
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Molecularphylogeny at the strain level may be widely useful in studies of bacterial epidemiology and virulence.
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Divergence date estimates are central to understand evolutionary processes and depend, in the case of molecularphylogenies, on tests of molecular clocks.