Journal article
Decoding the Fundamental Drivers of Phylodynamic Inference
LA Featherstone, S Duchene, TG Vaughan
Molecular Biology and Evolution | Published : 2023
Abstract
Despite its increasing role in the understanding of infectious disease transmission at the applied and theoretical levels, phylodynamics lacks a well-defined notion of ideal data and optimal sampling. We introduce a method to visualize and quantify the relative impact of pathogen genome sequence and sampling times - two fundamental sources of data for phylodynamics under birth-death-sampling models - to understand how each drives phylodynamic inference. Applying our method to simulated data and real-world SARS-CoV-2 and H1N1 Influenza data, we use this insight to elucidate fundamental trade-offs and guidelines for phylodynamic analyses to draw the most from sequence data. Phylodynamics promi..
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Grants
Awarded by Australian Research Council
Funding Acknowledgements
& nbsp;L.A.F. is grateful to Swissnex for awarding a Student Research Scholarship to foster this research. S.D. and L.A.F. has received funding from the Australian Research Council (DE190100805), the Australian Medical Research Futures Fund (MRF9200006), and the National Health and Medical Research Council (APP1157586). This research was supported by The University of Melbourne's Research Computing Services and the Petascale Campus Initiative. The authors are also grateful to Art Poon and one other anonymous reviewer for feedback that significantly improved the manuscript.