Statistical inconsistency of the unrooted minimize deep coalescence criterion

Autor: Ayed A. R. Alanzi, James H. Degnan
Rok vydání: 2020
Předmět:
0106 biological sciences
0301 basic medicine
Leaves
Social Sciences
Variation (game tree)
Plant Science
01 natural sciences
Biochemistry
Coalescent theory
Trees
Nucleic Acids
Quantitative Biology::Populations and Evolution
Psychology
Coalescence (chemistry)
Phylogeny
Mathematics
Data Management
Caterpillars
Multidisciplinary
Animal Behavior
Plant Anatomy
Gene tree
Eukaryota
Phylogenetic Analysis
Plants
Quantitative Biology::Genomics
Biological Evolution
Phylogenetics
Insects
Moths and Butterflies
Medicine
Imitation
Algorithms
Research Article
Computer and Information Sciences
Arthropoda
Genetic Speciation
Science
010603 evolutionary biology
Statistics
Nonparametric
03 medical and health sciences
Genetics
Animals
Humans
Evolutionary Systematics
Computer Simulation
Taxonomy
Evolutionary Biology
Behavior
Models
Statistical
Models
Genetic
Organisms
Biology and Life Sciences
Correction
Statistical model
DNA
Invertebrates
030104 developmental biology
Taxon
Evolutionary biology
Genetic Loci
Tree (set theory)
Zoology
Entomology
Software
Zdroj: PLoS ONE
PLoS ONE, Vol 16, Iss 5, p e0251107 (2021)
ISSN: 1932-6203
Popis: Species trees, which describe the evolutionary relationships between species, are often inferred from gene trees, which describe the ancestral relationships between sequences sampled at different loci from the species of interest. A common approach to inferring species trees from gene trees is motivated by supposing that gene tree variation is due to incomplete lineage sorting, also known as deep coalescence. One of the earliest methods motivated by deep coalescence is to find the species tree that minimizes the number of deep coalescent events needed to explain discrepancies between the species tree and input gene trees. This minimize deep coalescence (MDC) criterion can be applied in both rooted and unrooted settings. where either rooted or unrooted gene trees can be used to infer a rooted species tree. Previous work has shown that MDC is statistically inconsistent in the rooted setting, meaning that under a probabilistic model for deep coalescence, the multispecies coalescent, for some species trees, increasing the number of input gene trees does not make the method more likely to return a correct species tree. Here, we obtain analogous results in the unrooted setting, showing conditions leading to inconsistency of the MDC criterion using the multispecies coalescent model with unrooted gene trees for four taxa and five taxa.
Databáze: OpenAIRE
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