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Syst Biol. 2018 Sep 21. doi: 10.1093/sysbio/syy061. [Epub ahead of print]

Long-branch attraction in species tree estimation: inconsistency of partitioned likelihood and topology-based summary methods.

Author information

1
Department of Mathematics, University of Wisconsin-Madison, 480 Lincoln Dr, Madison WI.
2
Department of Statistics, The University of Illinois at Urbana-Champaign, 725 S Wright St #101, Champaign IL.
3
Department of Computer Science, The University of Illinois at Urbana-Champaign, 201 North Goodwin Avenue, Urbana IL.

Abstract

With advances in sequencing technologies, there are now massive amounts of genomic data from across all life, leading to the possibility that a robust Tree of Life can be constructed. However, "gene tree heterogeneity", which is when different genomic regions can evolve differently, is a common phenomenon in multi-locus datasets, and reduces the accuracy of standard methods for species tree estimation that do not take this heterogeneity into account. New methods have been developed for species tree estimation that specifically address gene tree heterogeneity, and that have been proven to converge to the true species tree when the number of loci and number of sites per locus both increase (i.e., the methods are said to be "statistically consistent"). Yet, little is known about the biologically realistic condition where the number of sites per locus is bounded. We show that when the sequence length of each locus is bounded (by any arbitrarily chosen value), the most common approaches to species tree estimation that take heterogeneity into account (i.e., traditional fully partitioned concatenated maximum likelihood and newer approaches, called summary methods, that estimate the species tree by combining estimated gene trees) are not statistically consistent, even when the heterogeneity is extremely constrained. The main challenge is the presence of conditions such as long branch attraction that create biased tree estimation when the number of sites is restricted. Hence, our study uncovers a fundamental challenge to species tree estimation using both traditional and new methods.

PMID:
30247732
DOI:
10.1093/sysbio/syy061

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