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Literature DB >> 19283383

Maximum tree: a consistent estimator of the species tree.

Abstract

We propose a model based approach to use multiple gene trees to estimate the species tree. The coalescent process requires that gene divergences occur earlier than species divergences when there is any polymorphism in the ancestral species. Under this scenario, speciation times are restricted to be smaller than the corresponding gene split times. The maximum tree (MT) is the tree with the largest possible speciation times in the space of species trees restricted by available gene trees. If all populations have the same population size, the MT is the maximum likelihood estimate of the species tree. It can be shown the MT is a consistent estimator of the species tree even when the MT is built upon the estimates of the true gene trees if the gene tree estimates are statistically consistent. The MT converges in probability to the true species tree at an exponential rate.

Mesh：

Year: 2009 PMID： 19283383 DOI： 10.1007/s00285-009-0260-0

Source DB: PubMed Journal: J Math Biol ISSN： 0303-6812 Impact factor: 2.259

18 in total

Review 1. Perspective: gene divergence, population divergence, and the variance in coalescence time in phylogeographic studies.

Authors: S V Edwards; P Beerli
Journal: Evolution Date: 2000-12 Impact factor: 3.694

2. Origins of the coalescent. 1974-1982.

Authors: J F Kingman
Journal: Genetics Date: 2000-12 Impact factor: 4.562

3. Bayes estimation of species divergence times and ancestral population sizes using DNA sequences from multiple loci.

Authors: Bruce Rannala; Ziheng Yang
Journal: Genetics Date: 2003-08 Impact factor: 4.562

4. Species trees from gene trees: reconstructing Bayesian posterior distributions of a species phylogeny using estimated gene tree distributions.

Authors: Liang Liu; Dennis K Pearl
Journal: Syst Biol Date: 2007-06 Impact factor: 15.683

Maximum tree: a consistent estimator of the species tree.

Review 1. Perspective: gene divergence, population divergence, and the variance in coalescence time in phylogeographic studies.

2. Origins of the coalescent. 1974-1982.

3. Bayes estimation of species divergence times and ancestral population sizes using DNA sequences from multiple loci.

4. Species trees from gene trees: reconstructing Bayesian posterior distributions of a species phylogeny using estimated gene tree distributions.

Review 5. Coalescents and genealogical structure under neutrality.

6. GeneTree: comparing gene and species phylogenies using reconciled trees.

7. MAXIMUM-LIKELIHOOD ESTIMATION OF POPULATION DIVERGENCE TIMES AND POPULATION PHYLOGENY IN MODELS WITHOUT MUTATION.

8. Gene genealogy in three related populations: consistency probability between gene and population trees.

9. Speciational history of Australian grass finches (Poephila) inferred from thirty gene trees.

10. Discordance of species trees with their most likely gene trees.

1. iGLASS: an improvement to the GLASS method for estimating species trees from gene trees.

2. Identifying the rooted species tree from the distribution of unrooted gene trees under the coalescent.

3. On the unranked topology of maximally probable ranked gene tree topologies.

Review 4. Challenges in Species Tree Estimation Under the Multispecies Coalescent Model.

5. Quartet inference from SNP data under the coalescent model.

6. Phylogenetic trees and Euclidean embeddings.

7. Theory and applications of a deterministic approximation to the coalescent model.

8. IDXL: Species Tree Inference Using Internode Distance and Excess Gene Leaf Count.

9. Phylogenomics with incomplete taxon coverage: the limits to inference.

10. A maximum pseudo-likelihood approach for estimating species trees under the coalescent model.