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Gradients Do Grow on Trees: A Linear-Time<i>O</i>(<i>N</i>)-Dimensional Gradient for Statistical Phylogenetics

Xiang Ji, Zhenyu Zhang, Andrew J. Holbrook, Akihiko Nishimura, Guy Baele, Andrew Rambaut, Philippe Lemey, Marc A. Suchard

2020Molecular Biology and Evolution43 citationsDOIOpen Access PDF

Abstract

Calculation of the log-likelihood stands as the computational bottleneck for many statistical phylogenetic algorithms. Even worse is its gradient evaluation, often used to target regions of high probability. Order O(N)-dimensional gradient calculations based on the standard pruning algorithm require O(N2) operations, where N is the number of sampled molecular sequences. With the advent of high-throughput sequencing, recent phylogenetic studies have analyzed hundreds to thousands of sequences, with an apparent trend toward even larger data sets as a result of advancing technology. Such large-scale analyses challenge phylogenetic reconstruction by requiring inference on larger sets of process parameters to model the increasing data heterogeneity. To make these analyses tractable, we present a linear-time algorithm for O(N)-dimensional gradient evaluation and apply it to general continuous-time Markov processes of sequence substitution on a phylogenetic tree without a need to assume either stationarity or reversibility. We apply this approach to learn the branch-specific evolutionary rates of three pathogenic viruses: West Nile virus, Dengue virus, and Lassa virus. Our proposed algorithm significantly improves inference efficiency with a 126- to 234-fold increase in maximum-likelihood optimization and a 16- to 33-fold computational performance increase in a Bayesian framework.

Topics & Concepts

Phylogenetic treeBiologyInferenceComputational phylogeneticsBottleneckPhylogeneticsBayesian probabilityTree (set theory)Statistical inferenceAlgorithmSequence (biology)Bayesian inferencePhylogenetic networkEvolutionary biologyMathematicsStatisticsComputer scienceCombinatoricsGeneticsArtificial intelligenceGeneEmbedded systemGenomics and Phylogenetic StudiesEvolution and Paleontology StudiesGenetic diversity and population structure
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