VGsim: scalable viral genealogy simulator for global pandemic

Vladimir Shchur; Vadim Spirin; Dmitry Sirotkin; Evgeni Burovski; Nicola De Maio; Russel Corbett-Detig

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VGsim: scalable viral genealogy simulator for global pandemic

Vladimir Shchur; Vadim Spirin; Dmitry Sirotkin; Evgeni Burovski; Nicola De Maio; Russel Corbett-Detig.

Afiliación

Vladimir Shchur; HSE University
Vadim Spirin; HSE University
Dmitry Sirotkin; HSE University
Evgeni Burovski; HSE University
Nicola De Maio; European Molecular Biology Laboratory, European Bioinformatics Institute
Russel Corbett-Detig; UC Santa Cruz

Preprint en En | PREPRINT-MEDRXIV | ID: ppmedrxiv-21255891

ABSTRACT

ABSTRACT

Accurate simulation of complex biological processes is an essential component of developing and validating new technologies and inference approaches. As an effort to help contain the COVID-19 pandemic, large numbers of SARS-CoV-2 genomes have been sequenced from most regions in the world. More than 5.5 million viral sequences are publicly available as of November 2021. Many studies estimate viral genealogies from these sequences, as these can provide valuable information about the spread of the pandemic across time and space. Additionally such data are a rich source of information about molecular evolutionary processes including natural selection, for example allowing the identification of new variants with transmissibility and immunity evasion advantages. To our knowledge, there is no framework that is both efficient and flexible enough to simulate the pandemic to approximate world-scale scenarios and generate viral genealogies of millions of samples. Here, we introduce a new fast simulator VGsim which addresses the problem of simulation genealogies under epidemiological models. The simulation process is split into two phases. During the forward run the algorithm generates a chain of population-level events reflecting the dynamics of the pandemic using an hierarchical version of the Gillespie algorithm. During the backward run a coalescent-like approach generates a tree genealogy of samples conditioning on the population-level events chain generated during the forward run. Our software can model complex population structure, epistasis and immunity escape. The code is freely available at https//github.com/Genomics-HSE/VGsim.

Licencia

cc_by_nc_nd

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Texto completo: 1 Colección: 09-preprints Base de datos: PREPRINT-MEDRXIV Tipo de estudio: Prognostic_studies Idioma: En Año: 2021 Tipo del documento: Preprint

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Texto completo: 1 Colección: 09-preprints Base de datos: PREPRINT-MEDRXIV Tipo de estudio: Prognostic_studies Idioma: En Año: 2021 Tipo del documento: Preprint