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TopHap: rapid inference of key phylogenetic structures from common haplotypes in large genome collections with limited diversity

https://doi.org/10.1093/bioinformatics/btac186

Caraballo-Ortiz, Marcos A. ; Miura, Sayaka ; Sanderford, Maxwell ; Dolker, Tenzin ; Tao, Qiqing ; Weaver, Steven ; Pond, Sergei L. K. ; Kumar, Sudhir ; Schwartz, ed., Russell ( March 2022 , Bioinformatics)

Abstract Motivation
Building reliable phylogenies from very large collections of sequences with a limited number of phylogenetically informative sites is challenging because sequencing errors and recurrent/backward mutations interfere with the phylogenetic signal, confounding true evolutionary relationships. Massive global efforts of sequencing genomes and reconstructing the phylogeny of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) strains exemplify these difficulties since there are only hundreds of phylogenetically informative sites but millions of genomes. For such datasets, we set out to develop a method for building the phylogenetic tree of genomic haplotypes consisting of positions harboring common variants to improve the signal-to-noise ratio for more accurate and fast phylogenetic inference of resolvable phylogenetic features.
Results
We present the TopHap approach that determines spatiotemporally common haplotypes of common variants and builds their phylogeny at a fraction of the computational time of traditional methods. We develop a bootstrap strategy that resamples genomes spatiotemporally to assess topological robustness. The application of TopHap to build a phylogeny of 68 057 SARS-CoV-2 genomes (68KG) from the first year of the pandemic produced an evolutionary tree of major SARS-CoV-2 haplotypes. This phylogeny is concordant with the mutation tree inferred using the co-occurrence pattern of mutations and recovers key phylogenetic relationships from more traditional analyses. We also evaluated alternative roots of the SARS-CoV-2 phylogeny and found that the earliest sampled genomes in 2019 likely evolved by four mutations of the most recent common ancestor of all SARS-CoV-2 genomes. An application of TopHap to more than 1 million SARS-CoV-2 genomes reconstructed the most comprehensive evolutionary relationships of major variants, which confirmed the 68KG phylogeny and provided evolutionary origins of major and recent variants of concern.
Availability and implementation
TopHap is available at https://github.com/SayakaMiura/TopHap.
Supplementary information
Supplementary data are available at Bioinformatics online.

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An Evolutionary Portrait of the Progenitor SARS-CoV-2 and Its Dominant Offshoots in COVID-19 Pandemic

https://doi.org/10.1093/molbev/msab118

Kumar, Sudhir ; Tao, Qiqing ; Weaver, Steven ; Sanderford, Maxwell ; Caraballo-Ortiz, Marcos A ; Sharma, Sudip ; Pond, Sergei L ; Miura, Sayaka ( May 2021 , Molecular Biology and Evolution)
Yeager, Meredith (Ed.)
Abstract Global sequencing of genomes of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has continued to reveal new genetic variants that are the key to unraveling its early evolutionary history and tracking its global spread over time. Here we present the heretofore cryptic mutational history and spatiotemporal dynamics of SARS-CoV-2 from an analysis of thousands of high-quality genomes. We report the likely most recent common ancestor of SARS-CoV-2, reconstructed through a novel application and advancement of computational methods initially developed to infer the mutational history of tumor cells in a patient. This progenitor genome differs from genomes of the first coronaviruses sampled in China by three variants, implying that none of the earliest patients represent the index case or gave rise to all the human infections. However, multiple coronavirus infections in China and the United States harbored the progenitor genetic fingerprint in January 2020 and later, suggesting that the progenitor was spreading worldwide months before and after the first reported cases of COVID-19 in China. Mutations of the progenitor and its offshoots have produced many dominant coronavirus strains that have spread episodically over time. Fingerprinting based on common mutations reveals that the same coronavirus lineage has dominated North America for most of the pandemic in 2020. There have been multiple replacements of predominant coronavirus strains in Europe and Asia as well as continued presence of multiple high-frequency strains in Asia and North America. We have developed a continually updating dashboard of global evolution and spatiotemporal trends of SARS-CoV-2 spread (http://sars2evo.datamonkey.org/).
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A new method for inferring timetrees from temporally sampled molecular sequences

https://doi.org/10.1371/journal.pcbi.1007046

Miura, Sayaka ; Tamura, Koichiro ; Tao, Qiqing ; Huuki, Louise A. ; Kosakovsky Pond, Sergei L. ; Priest, Jessica ; Deng, Jiamin ; Kumar, Sudhir ; Tanaka, Mark M. ( January 2020 , PLOS Computational Biology)

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