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12. Annual Report 2019

Author

Thygesen, N., Beetsma, R., Bordignon, M., Duchêne, S., Szczurek, M., Macro & International Economics (ASE, FEB), and Faculteit Economie en Bedrijfskunde

Published
2019

13. Assessment of the fiscal stance appropriate for the euro area in 2019

Author

Thygesen, N., Beetsma, R., Bordignon, M., Duchêne, S., Szczurek, M., and Macro & International Economics (ASE, FEB)

Abstract

On 18 June 2018, the European Fiscal Board (EFB) has published its assessment of the general orientation of fiscal policy in the euro area. The report concludes that the favourable economic outlook offers a prime opportunity to rebuild fiscal buffers. Especially euro area Member States with a high government debt-to-GDP ratio need to do more than simply accrue the budgetary benefits of the economic expansion. Lest we repeat the mistakes of the past and rob ourselves of room to manoeuvre when the next crisis hits, this is the time to move towards a somewhat restrictive orientation of fiscal policy in the euro area. It is also the time to upgrade the EU's fiscal framework and prepare a capacity for joint stabilisation for the euro area.

Published
2018

14. Limited sustained local transmission of HIV-1 CRF01_AE in New South Wales, Australia

Author

Di Giallonardo, F, Pinto, AN, Keen, P, Shaik, A, Carrera, A, Salem, H, Telfer, B, Cooper, C, Price, K, Selvey, C, Holden, J, Bachmann, N, Lee, FJ, Dwyer, DE, Duchêne, S, Holmes, EC, Grulich, AE, Kelleher, AD, Di Giallonardo, F, Pinto, AN, Keen, P, Shaik, A, Carrera, A, Salem, H, Telfer, B, Cooper, C, Price, K, Selvey, C, Holden, J, Bachmann, N, Lee, FJ, Dwyer, DE, Duchêne, S, Holmes, EC, Grulich, AE, and Kelleher, AD

Abstract

Australia’s response to the human immunodeficiency virus type 1 (HIV-1) pandemic led to effective control of HIV transmission and one of the world’s lowest HIV incidence rates—0.14%. Although there has been a recent decline in new HIV diagnoses in New South Wales (NSW), the most populous state in Australia, there has been a concomitant increase with non-B subtype infections, particularly for the HIV-1 circulating recombinant form CRF01_AE. This aforementioned CRF01_AE sampled in NSW, were combined with those sampled globally to identify NSW-specific viral clades. The population growth of these clades was assessed in two-year period intervals from 2009 to 2017. Overall, 109 NSW-specific clades were identified, most comprising pairs of sequences; however, five large clades comprising ≥10 sequences were also found. Forty-four clades grew over time with one or two sequences added to each in different two-year periods. Importantly, while 10 of these clades have seemingly discontinued, the remaining 34 were still active in 2016/2017. Seven such clades each comprised ≥10 sequences, and are representative of individual sub-epidemics in NSW. Thus, although the majority of new CRF01_AE infections were associated with small clades that rarely establish ongoing chains of local transmission, individual sub-epidemics are present and should be closely monitored.

Published
2019

15. BEAST 2.5: An advanced software platform for Bayesian evolutionary analysis

Author

Bouckaert, R, Vaughan, TG, Barido-Sottani, J, Duchêne, S, Fourment, M, Gavryushkina, A, Heled, J, Jones, G, Kühnert, D, De Maio, N, Matschiner, M, Mendes, FK, Müller, NF, Ogilvie, HA, Du Plessis, L, Popinga, A, Rambaut, A, Rasmussen, D, Siveroni, I, Suchard, MA, Wu, CH, Xie, D, Zhang, C, Stadler, T, Drummond, AJ, Bouckaert, R, Vaughan, TG, Barido-Sottani, J, Duchêne, S, Fourment, M, Gavryushkina, A, Heled, J, Jones, G, Kühnert, D, De Maio, N, Matschiner, M, Mendes, FK, Müller, NF, Ogilvie, HA, Du Plessis, L, Popinga, A, Rambaut, A, Rasmussen, D, Siveroni, I, Suchard, MA, Wu, CH, Xie, D, Zhang, C, Stadler, T, and Drummond, AJ

Abstract

© 2019 Bouckaert et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Elaboration of Bayesian phylogenetic inference methods has continued at pace in recent years with major new advances in nearly all aspects of the joint modelling of evolutionary data. It is increasingly appreciated that some evolutionary questions can only be adequately answered by combining evidence from multiple independent sources of data, including genome sequences, sampling dates, phenotypic data, radiocarbon dates, fossil occurrences, and biogeographic range information among others. Including all relevant data into a single joint model is very challenging both conceptually and computationally. Advanced computational software packages that allow robust development of compatible (sub-)models which can be composed into a full model hierarchy have played a key role in these developments. Developing such software frameworks is increasingly a major scientific activity in its own right, and comes with specific challenges, from practical software design, development and engineering challenges to statistical and conceptual modelling challenges. BEAST 2 is one such computational software platform, and was first announced over 4 years ago. Here we describe a series of major new developments in the BEAST 2 core platform and model hierarchy that have occurred since the first release of the software, culminating in the recent 2.5 release.

Published
2019

18. Annual Report 2018

Author

Thygesen, N., Beetsma, R., Bordignon, M., Duchêne, S., Szczurek, M., and Macro & International Economics (ASE, FEB)

Published
2018

20. Correction: The paradox of HBV evolution as revealed from a 16th century mummy.

Author

Patterson Ross, Z, Klunk, J, Fornaciari, G, Giuffra, V, Duchêne, S, Duggan, AT, Poinar, D, Douglas, MW, Eden, J-S, Holmes, EC, Poinar, HN, Patterson Ross, Z, Klunk, J, Fornaciari, G, Giuffra, V, Duchêne, S, Duggan, AT, Poinar, D, Douglas, MW, Eden, J-S, Holmes, EC, and Poinar, HN

Abstract

[This corrects the article DOI: 10.1371/journal.ppat.1006750.].

Published
2018

22. 17th century variola virus reveals the recent history of smallpox

Author

Duggan, AT, Perdomo, MF, Piombino-Mascali, D, Marciniak, S, Poinar, D, Emery, MV, Buchmann, JP, Duchêne, S, Jankauskas, R, Humphreys, M, Golding, GB, Southon, J, Devault, A, Rouillard, J-M, Sahl, JW, Dutour, O, Hedman, K, Sajantila, A, Smith, GL, Holmes, EC, Poinar, HN, Medicum, Klaus Hedman / Principal Investigator, Department of Virology, Clinicum, Forensic Medicine, Virus infections and immunity, PaleOmics Laboratory, Smith, Geoffrey [0000-0002-3730-9955], and Apollo - University of Cambridge Repository

Subjects
Lithuanian Mummy Project, ORIGIN, molecular clock, DNA, variola virus, phylogeny, SEQUENCE, EVOLUTION, DISEASE, Variola virus genome, mummified remains, Lithuania, smallpox, 3111 Biomedicine, ancient DNA, GENOMICS
Abstract

Smallpox holds a unique position in the history of medicine. It was the first disease for which a vaccine was developed and remains the only human disease eradicated by vaccination. Although there have been claims of smallpox in Egypt, India, and China dating back millennia [1-4], the timescale of emergence of the causative agent, variola virus (VARV), and how it evolved in the context of increasingly widespread immunization, have proven controversial [4-9]. In particular, some molecular-clock-based studies have suggested that key events in VARV evolution only occurred during the last two centuries [4-6] and hence in apparent conflict with anecdotal historical reports, although it is difficult to distinguish smallpox from other pustular rashes by description alone. To address these issues, we captured, sequenced, and reconstructed a draft genome of an ancient strain of VARV, sampled from a Lithuanian child mummy dating between 1643 and 1665 and close to the time of several documented European epidemics [1, 2, 10]. When compared to vaccinia virus, this archival strain contained the same pattern of gene degradation as 20$^{th}$ century VARVs, indicating that such loss of gene function had occurred before ca. 1650. Strikingly, the mummy sequence fell basal to all currently sequenced strains of VARV on phylogenetic trees. Molecular-clock analyses revealed a strong clock-like structure and that the timescale of smallpox evolution is more recent than often supposed, with the diversification of major viral lineages only occurring within the 18$^{th}$ and 19$^{th}$ centuries, concomitant with the development of modern vaccination.

Published
2016

23. Genome-scale rates of evolutionary change in bacteria

Author

Duchêne, S, Holt, KE, Weill, FX, Le Hello, S, Hawkey, J, Edwards, DJ, Fourment, M, Holmes, EC, Duchêne, S, Holt, KE, Weill, FX, Le Hello, S, Hawkey, J, Edwards, DJ, Fourment, M, and Holmes, EC

Abstract

Estimating the rates at which bacterial genomes evolve is critical to understanding major evolutionary and ecological processes such as disease emergence, long-term host-pathogen associations and short-term transmission patterns. The surge in bacterial genomic data sets provides a new opportunity to estimate these rates and reveal the factors that shape bacterial evolutionary dynamics. For many organisms estimates of evolutionary rate display an inverse association with the time-scale over which the data are sampled. However, this relationship remains unexplored in bacteria due to the difficulty in estimating genome-wide evolutionary rates, which are impacted by the extent of temporal structure in the data and the prevalence of recombination. We collected 36 whole genome sequence data sets from 16 species of bacterial pathogens to systematically estimate and compare their evolutionary rates and assess the extent of temporal structure in the absence of recombination. The majority (28/36) of data sets possessed sufficient clock-like structure to robustly estimate evolutionary rates. However, in some species reliable estimates were not possible even with 'ancient DNA' data sampled over many centuries, suggesting that they evolve very slowly or that they display extensive rate variation among lineages. The robustly estimated evolutionary rates spanned several orders of magnitude, from approximately 10-5 to 10-8 nucleotide substitutions per site year-1. This variation was negatively associated with sampling time, with this relationship best described by an exponential decay curve. To avoid potential estimation biases, such time-dependency should be considered when inferring evolutionary time-scales in bacteria.

Published
2016

24. Characterization of phosphatase and TENsin homolog deleted on chromosome 10 (PTEN) in chicken muscle

Author

Tesseraud, Sophie, Vaudin, Pascal, Duchêne, S., Dupont, Joëlle, ProdInra, Migration, Unité de Recherches Avicoles (URA), Institut National de la Recherche Agronomique (INRA), Physiologie de la reproduction et des comportements [Nouzilly] (PRC), Institut National de la Recherche Agronomique (INRA)-Institut Français du Cheval et de l'Equitation [Saumur]-Université de Tours-Centre National de la Recherche Scientifique (CNRS), and Institut National de la Recherche Agronomique (INRA)-Institut Français du Cheval et de l'Equitation [Saumur]-Université de Tours (UT)-Centre National de la Recherche Scientifique (CNRS)

Subjects
[SDV] Life Sciences [q-bio], [SDV]Life Sciences [q-bio], [INFO]Computer Science [cs], [INFO] Computer Science [cs], ComputingMilieux_MISCELLANEOUS, SIGNAL
Abstract

National audience

Published
2004

29. Garnet re-equilibration by coupled dissolution-reprecipitation: evidence from textural, major element and oxygen isotope zoning of 'cloudy' garnet.

Author

MARTIN, L. A. J., BALLÈVRE, M., BOULVAIS, P., HALFPENNY, A., VANDERHAEGHE, O., DUCHÊNE, S., and DELOULE, E.

Subjects
GARNET, CRYSTALS, POROSITY, OSMOSIS, CRYSTALLOGRAPHY
Abstract

The analysis of texture, major element and oxygen isotope compositions of cloudy garnet crystals from a metapelite sampled on Ikaria Island (Greece) is used to assess the model of growth and re-equilibration of these garnet crystals and to reconstruct the pressure-temperature-fluid history of the sample. Garnet crystals show complex textural and chemical zoning. Garnet cores (100-200 μm) are devoid of fluid inclusions. They are characterized by growth zoning demonstrated by a bell-shaped profile of spessartine component (7-3 mol.%), an increase in grossular from 14 to 22 mol.% and δO values between 9.5 ± 0.3‰ and 10.4 ± 0.2‰. Garnet inner rims (90-130 μm) are fluid inclusion-rich and show a decreasing grossular component from 22 to 5 mol.%. The trend of the spessartine component observed in the inner rim allows two domains to be distinguished. In contrast to domain I, where the spessartine content shows the same trend as in the core, the spessartine content of domain II increases outwards from 2 to 14 mol.%. The δO values decrease towards the margins of the crystals to a lowest value of 7.4 ± 0.2‰. The outer rims (<10 μm) are devoid of fluid inclusions and have the same chemical composition as the outermost part of domain II of the inner rim. Garnet crystals underwent a four-stage history. Stage 1: garnet growth during the prograde path in a closed system for oxygen. Garnet cores are remnants of this growth stage. Stage 2: garnet re-equilibration by coupled dissolution-reprecipitation at the temperature peak (630 < T < 650 °C). This causes the creation of porosity as the coupled dissolution-reprecipitation process allows chemical (Ca) and isotopic (O) exchange between garnet inner rims and the matrix. The formation of the outer rim is related to the closure of porosity. Stage 3: garnet mode decreases during the early retrograde path, but garnet is still a stable phase. The resulting garnet composition is characterized by an increasing Mn content in the inner rim's domain II caused by intracrystalline diffusion. Stage 4: dissolution of garnet during the late retrograde path as garnet is not a stable phase anymore. This last stage forms corroded garnet. This study shows that coupled dissolution-reprecipitation is a possible re-equilibration process for garnet in metamorphic rocks and that intra-mineral porosity is an efficient pathway for chemical and isotopic exchange between garnet and the matrix, even for otherwise slow diffusing elements. [ABSTRACT FROM AUTHOR]

Published
2011
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30. Chronotoxicity of a Copper (II) Complex with a Linear Tetradentate Ligandin Mice.

Author

Do Thanh, X., Djebbar-Sid, S., Duchêne, S., Benali-Baïtich, O., Bouet, G., and Khan, M.A.

Subjects
IN vivo toxicity testing, PHYSIOLOGICAL effects of copper, LIGANDS (Biochemistry), PHYSIOLOGY
Abstract

In vitro copper (II) complex presents antimitotic effects. Inthis work, we have studied the in vivo seasonal toxic effects ofcopper (II), ligand (H[sub 2] L) and the complex [Cu(H[sub 2] L)(H[sub 2] O)[sub 2] ]Cl[sub 2] ·4H[sub 2] O in male Swissmice. During spring, an i.p. injection of CuCl[sub 2] in aqueous NaCl (9 g·l[sup -1] ) up to 0.05 μmol·kg[sup -1] b.w. (body weight) killed 60% of the rodents after 6 days. LD100 wasup to 0.3 μmol·kg[sup -1] ; H[sub 2] L was welltolerated, while the complex was 30% lethal with 50 μmol·kg[sup -1] . In autumn, mice were less sensitive to CuCl[sub 2] , andboth ligand and complex were equally tolerated and this leads to the conclusionthat, in vivo, chronotoxicities of copper (II) and complex in NaClaqueous solutions are quite different in spring and autumn seasons. [ABSTRACT FROM AUTHOR]

Published
2001
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31. 17$^{th}$ Century Variola Virus Reveals the Recent History of Smallpox

Author

Duggan, AT, Perdomo, MF, Piombino-Mascali, D, Marciniak, S, Poinar, D, Emery, MV, Buchmann, JP, Duchêne, S, Jankauskas, R, Humphreys, M, Golding, GB, Southon, J, Devault, A, Rouillard, J-M, Sahl, JW, Dutour, O, Hedman, K, Sajantila, A, Smith, GL, Holmes, EC, and Poinar, HN

Subjects
smallpox, Lithuanian Mummy Project, evolution, molecular clock, variola virus, phylogeny, ancient DNA, 3. Good health
Abstract

Smallpox holds a unique position in the history of medicine. It was the first disease for which a vaccine was developed and remains the only human disease eradicated by vaccination. Although there have been claims of smallpox in Egypt, India, and China dating back millennia [1-4], the timescale of emergence of the causative agent, variola virus (VARV), and how it evolved in the context of increasingly widespread immunization, have proven controversial [4-9]. In particular, some molecular-clock-based studies have suggested that key events in VARV evolution only occurred during the last two centuries [4-6] and hence in apparent conflict with anecdotal historical reports, although it is difficult to distinguish smallpox from other pustular rashes by description alone. To address these issues, we captured, sequenced, and reconstructed a draft genome of an ancient strain of VARV, sampled from a Lithuanian child mummy dating between 1643 and 1665 and close to the time of several documented European epidemics [1, 2, 10]. When compared to vaccinia virus, this archival strain contained the same pattern of gene degradation as 20$^{th}$ century VARVs, indicating that such loss of gene function had occurred before ca. 1650. Strikingly, the mummy sequence fell basal to all currently sequenced strains of VARV on phylogenetic trees. Molecular-clock analyses revealed a strong clock-like structure and that the timescale of smallpox evolution is more recent than often supposed, with the diversification of major viral lineages only occurring within the 18$^{th}$ and 19$^{th}$ centuries, concomitant with the development of modern vaccination.

32. ClockstaRX: Testing Molecular Clock Hypotheses With Genomic Data.

Author

Duchêne DA, Duchêne S, Stiller J, Heller R, and Ho SYW

Subjects
Genomics, Genome, Biological Evolution, Phylogeny, Evolution, Molecular, Models, Genetic
Abstract

Phylogenomic data provide valuable opportunities for studying evolutionary rates and timescales. These analyses require theoretical and statistical tools based on molecular clocks. We present ClockstaRX, a flexible platform for exploring and testing evolutionary rate signals in phylogenomic data. Here, information about evolutionary rates in branches across gene trees is placed in Euclidean space, allowing data transformation, visualization, and hypothesis testing. ClockstaRX implements formal tests for identifying groups of loci and branches that make a large contribution to patterns of rate variation. This information can then be used to test for drivers of genomic evolutionary rates or to inform models for molecular dating. Drawing on the results of a simulation study, we recommend forms of data exploration and filtering that might be useful prior to molecular-clock analyses., (© The Author(s) 2024. Published by Oxford University Press on behalf of Society for Molecular Biology and Evolution.)

Published
2024
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33. Promiscuous evolution of Group A Streptococcal M and M-like proteins.

Author

Frost HR, Guglielmini J, Duchêne S, Lacey JA, Sanderson-Smith M, Steer AC, Walker MJ, Botteaux A, Davies MR, and Smeesters PR

Subjects
Antigens, Bacterial genetics, Bacterial Outer Membrane Proteins genetics, Carrier Proteins genetics, Carrier Proteins metabolism, Virulence Factors genetics, Bacterial Proteins genetics, Bacterial Proteins metabolism, Streptococcus pyogenes genetics, Streptococcus pyogenes metabolism
Abstract

Group A Streptococcus (GAS) M and M-like proteins are essential virulence factors and represent the primary epidemiological marker of this pathogen. Protein sequences encoding 1054 M, Mrp and Enn proteins, from 1668 GAS genomes, were analysed by SplitsTree4, partitioning around medoids and co-occurrence. The splits network and groups-based analysis of all M and M-like proteins revealed four large protein groupings, with multiple evolutionary histories as represented by multiple edges for most splits, leading to 'M-family-groups' (FG) of protein sequences: FG I, Mrp; FG II, M protein and Protein H; FG III, Enn; and FG IV, M protein. M and Enn proteins formed two groups with nine sub-groups and Mrp proteins formed four groups with ten sub-groups. Discrete co-occurrence of M and M-like proteins were identified suggesting that while dynamic, evolution may be constrained by a combination of functional and virulence attributes. At a granular level, four distinct family-groups of M, Enn and Mrp proteins are observable, with Mrp representing the most genetically distinct of the family-group of proteins. While M and Enn protein families generally group into three distinct family-groups, horizontal and vertical gene flow between distinct GAS strains is ongoing.

Published
2023
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34. What drives the acceptability of restrictive health policies: An experimental assessment of individual preferences for anti-COVID 19 strategies.

Author

Blayac T, Dubois D, Duchêne S, Nguyen-Van P, Ventelou B, and Willinger M

Abstract

The public acceptability of a policy is an important issue in democracies, in particular for anti-COVID-19 policies, which require the adherence of the population to be applicable and efficient. Discrete choice experiment (DCE) can help elicit preference ranking among various policies for the whole population and subgroups. Using a representative sample of the French population, we apply DCE methods to assess the acceptability of various anti-COVID-19 measures, separately and as a package. Owing to the methods, we determine the extent to which acceptability depends on personal characteristics: political orientation, health vulnerability, or age. The young population differs in terms of policy preferences and their claim for monetary compensation, suggesting a tailored policy for them. The paper provides key methodological tools based on microeconomic evaluation of individuals' preferences for improving the design of public health policies., Competing Interests: None., (© 2022 Published by Elsevier B.V.)

Published
2022
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35. Did Mindful People Do Better during the COVID-19 Pandemic? Mindfulness Is Associated with Well-Being and Compliance with Prophylactic Measures.

Author

Wen X, Rafaï I, Duchêne S, and Willinger M

Subjects
Communicable Disease Control, Humans, Masks, Pandemics prevention & control, COVID-19 epidemiology, COVID-19 prevention & control, Mindfulness
Abstract

This paper investigates the relationship between mindfulness and well-being within the context of compliance with prophylactic measures in the time of COVID-19. We conducted a large-scale survey among a representative sample of the French population. We measured mindfulness, using the Mindful Attention Awareness Scale, and the extent to which respondents were impacted by COVID-19 in terms of their mood and quality of sleep, as well as how they complied with prophylactic measures. Our results suggest that more mindful individuals were less negatively impacted by COVID-19 with regard to their sleep and mood. Concerning the prophylactic measures, we obtained mixed results: more mindful participants were more likely to respect lockdowns, physical distancing and to cough in their sleeves, but did not wash their hands, wear masks or avoid touching their face more often than less mindful individuals.

Published
2022
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36. Phylodynamic Inference of Bacterial Outbreak Parameters Using Nanopore Sequencing.

Author

Steinig E, Duchêne S, Aglua I, Greenhill A, Ford R, Yoannes M, Jaworski J, Drekore J, Urakoko B, Poka H, Wurr C, Ebos E, Nangen D, Manning L, Laman M, Firth C, Smith S, Pomat W, Tong SYC, Coin L, McBryde E, and Horwood P

Subjects
Bacteria genetics, Disease Outbreaks, Genome, Bacterial, High-Throughput Nucleotide Sequencing, Phylogeny, Staphylococcus aureus genetics, Methicillin-Resistant Staphylococcus aureus genetics, Nanopore Sequencing
Abstract

Nanopore sequencing and phylodynamic modeling have been used to reconstruct the transmission dynamics of viral epidemics, but their application to bacterial pathogens has remained challenging. Cost-effective bacterial genome sequencing and variant calling on nanopore platforms would greatly enhance surveillance and outbreak response in communities without access to sequencing infrastructure. Here, we adapt random forest models for single nucleotide polymorphism (SNP) polishing developed by Sanderson and colleagues (2020. High precision Neisseria gonorrhoeae variant and antimicrobial resistance calling from metagenomic nanopore sequencing. Genome Res. 30(9):1354-1363) to estimate divergence and effective reproduction numbers (Re) of two methicillin-resistant Staphylococcus aureus (MRSA) outbreaks from remote communities in Far North Queensland and Papua New Guinea (PNG; n = 159). Successive barcoded panels of S. aureus isolates (2 × 12 per MinION) sequenced at low coverage (>5× to 10×) provided sufficient data to accurately infer genotypes with high recall when compared with Illumina references. Random forest models achieved high resolution on ST93 outbreak sequence types (>90% accuracy and precision) and enabled phylodynamic inference of epidemiological parameters using birth-death skyline models. Our method reproduced phylogenetic topology, origin of the outbreaks, and indications of epidemic growth (Re > 1). Nextflow pipelines implement SNP polisher training, evaluation, and outbreak alignments, enabling reconstruction of within-lineage transmission dynamics for infection control of bacterial disease outbreaks on portable nanopore platforms. Our study shows that nanopore technology can be used for bacterial outbreak reconstruction at competitive costs, providing opportunities for infection control in hospitals and communities without access to sequencing infrastructure, such as in remote northern Australia and PNG., (© The Author(s) 2022. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.)

Published
2022
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37. The first wave of the COVID-19 epidemic in Spain was associated with early introductions and fast spread of a dominating genetic variant.

Author

López MG, Chiner-Oms Á, García de Viedma D, Ruiz-Rodriguez P, Bracho MA, Cancino-Muñoz I, D'Auria G, de Marco G, García-González N, Goig GA, Gómez-Navarro I, Jiménez-Serrano S, Martinez-Priego L, Ruiz-Hueso P, Ruiz-Roldán L, Torres-Puente M, Alberola J, Albert E, Aranzamendi Zaldumbide M, Bea-Escudero MP, Boga JA, Bordoy AE, Canut-Blasco A, Carvajal A, Cilla Eguiluz G, Cordón Rodríguez ML, Costa-Alcalde JJ, de Toro M, de Toro Peinado I, Del Pozo JL, Duchêne S, Fernández-Pinero J, Fuster Escrivá B, Gimeno Cardona C, González Galán V, Gonzalo Jiménez N, Hernáez Crespo S, Herranz M, Lepe JA, López-Causapé C, López-Hontangas JL, Martín V, Martró E, Milagro Beamonte A, Montes Ros M, Moreno-Muñoz R, Navarro D, Navarro-Marí JM, Not A, Oliver A, Palop-Borrás B, Parra Grande M, Pedrosa-Corral I, Pérez González MC, Pérez-Lago L, Pérez-Ruiz M, Piñeiro Vázquez L, Rabella N, Rezusta A, Robles Fonseca L, Rodríguez-Villodres Á, Sanbonmatsu-Gámez S, Sicilia J, Soriano A, Tirado Balaguer MD, Torres I, Tristancho A, Marimón JM, Coscolla M, González-Candelas F, and Comas I

Subjects
COVID-19 virology, Communicable Disease Control methods, Humans, Incidence, Phylogeny, Physical Distancing, Quarantine methods, Quarantine organization & administration, SARS-CoV-2 classification, SARS-CoV-2 pathogenicity, Severity of Illness Index, Spain epidemiology, COVID-19 epidemiology, COVID-19 transmission, Communicable Disease Control organization & administration, Models, Statistical, SARS-CoV-2 genetics
Abstract

The coronavirus disease 2019 (COVID-19) pandemic has affected the world radically since 2020. Spain was one of the European countries with the highest incidence during the first wave. As a part of a consortium to monitor and study the evolution of the epidemic, we sequenced 2,170 samples, diagnosed mostly before lockdown measures. Here, we identified at least 500 introductions from multiple international sources and documented the early rise of two dominant Spanish epidemic clades (SECs), probably amplified by superspreading events. Both SECs were related closely to the initial Asian variants of SARS-CoV-2 and spread widely across Spain. We inferred a substantial reduction in the effective reproductive number of both SECs due to public-health interventions (R e  < 1), also reflected in the replacement of SECs by a new variant over the summer of 2020. In summary, we reveal a notable difference in the initial genetic makeup of SARS-CoV-2 in Spain compared with other European countries and show evidence to support the effectiveness of lockdown measures in controlling virus spread, even for the most successful genetic variants., (© 2021. The Author(s), under exclusive licence to Springer Nature America, Inc.)

Published
2021
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38. Population preferences for inclusive COVID-19 policy responses.

Author

Blayac T, Dubois D, Duchêne S, Nguyen-Van P, Ventelou B, and Willinger M

Subjects
Adolescent, COVID-19 epidemiology, Female, France epidemiology, Humans, Male, Surveys and Questionnaires, Vulnerable Populations psychology, Young Adult, COVID-19 prevention & control, Public Opinion, Public Policy
Published
2021
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39. Genomic epidemiology reveals transmission patterns and dynamics of SARS-CoV-2 in Aotearoa New Zealand.

Author

Geoghegan JL, Ren X, Storey M, Hadfield J, Jelley L, Jefferies S, Sherwood J, Paine S, Huang S, Douglas J, Mendes FK, Sporle A, Baker MG, Murdoch DR, French N, Simpson CR, Welch D, Drummond AJ, Holmes EC, Duchêne S, and de Ligt J

Subjects
Adolescent, Adult, Aged, Aged, 80 and over, COVID-19 virology, Child, Child, Preschool, Female, Geography, Humans, Infant, Infant, Newborn, Male, Middle Aged, New Zealand epidemiology, Pandemics, Phylogeny, SARS-CoV-2 classification, SARS-CoV-2 physiology, Whole Genome Sequencing methods, Young Adult, COVID-19 epidemiology, Genome, Viral genetics, Genomics methods, SARS-CoV-2 genetics
Abstract

New Zealand, a geographically remote Pacific island with easily sealable borders, implemented a nationwide 'lockdown' of all non-essential services to curb the spread of COVID-19. Here, we generate 649 SARS-CoV-2 genome sequences from infected patients in New Zealand with samples collected during the 'first wave', representing 56% of all confirmed cases in this time period. Despite its remoteness, the viruses imported into New Zealand represented nearly all of the genomic diversity sequenced from the global virus population. These data helped to quantify the effectiveness of public health interventions. For example, the effective reproductive number, R e of New Zealand's largest cluster decreased from 7 to 0.2 within the first week of lockdown. Similarly, only 19% of virus introductions into New Zealand resulted in ongoing transmission of more than one additional case. Overall, these results demonstrate the utility of genomic pathogen surveillance to inform public health and disease mitigation.

Published
2020
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40. The Recovery, Interpretation and Use of Ancient Pathogen Genomes.

Author

Duchêne S, Ho SYW, Carmichael AG, Holmes EC, and Poinar H

Subjects
Animals, Bacteria genetics, Biological Evolution, Evolution, Molecular, Genome genetics, Genome, Bacterial genetics, Genomics methods, Humans, Microbiota genetics, Mycobacterium leprae genetics, Mycobacterium tuberculosis genetics, Phylogeny, Treponema genetics, Variola virus genetics, Vibrio cholerae genetics, Yersinia pestis genetics, Bacteria pathogenicity, DNA, Ancient analysis, DNA, Bacterial genetics
Abstract

The ability to sequence genomes from ancient biological material has provided a rich source of information for evolutionary biology and engaged considerable public interest. Although most studies of ancient genomes have focused on vertebrates, particularly archaic humans, newer technologies allow the capture of microbial pathogens and microbiomes from ancient and historical human and non-human remains. This coming of age has been made possible by techniques that allow the preferential capture and amplification of discrete genomes from a background of predominantly host and environmental DNA. There are now near-complete ancient genome sequences for three pathogens of considerable historical interest - pre-modern bubonic plague (Yersinia pestis), smallpox (Variola virus) and cholera (Vibrio cholerae) - and for three equally important endemic human disease agents - Mycobacterium tuberculosis (tuberculosis), Mycobacterium leprae (leprosy) and Treponema pallidum pallidum (syphilis). Genomic data from these pathogens have extended earlier work by paleopathologists. There have been efforts to sequence the genomes of additional ancient pathogens, with the potential to broaden our understanding of the infectious disease burden common to past populations from the Bronze Age to the early 20 th century. In this review we describe the state-of-the-art of this rapidly developing field, highlight the contributions of ancient pathogen genomics to multidisciplinary endeavors and describe some of the limitations in resolving questions about the emergence and long-term evolution of pathogens., (Crown Copyright © 2020. Published by Elsevier Inc. All rights reserved.)

Published
2020
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42. Linking Branch Lengths across Sets of Loci Provides the Highest Statistical Support for Phylogenetic Inference.

Author

Duchêne DA, Tong KJ, Foster CSP, Duchêne S, Lanfear R, and Ho SYW

Subjects
Computer Simulation, Models, Genetic, Phylogeny
Abstract

Evolution leaves heterogeneous patterns of nucleotide variation across the genome, with different loci subject to varying degrees of mutation, selection, and drift. In phylogenetics, the potential impacts of partitioning sequence data for the assignment of substitution models are well appreciated. In contrast, the treatment of branch lengths has received far less attention. In this study, we examined the effects of linking and unlinking branch-length parameters across loci or subsets of loci. By analyzing a range of empirical data sets, we find consistent support for a model in which branch lengths are proportionate between subsets of loci: gene trees share the same pattern of branch lengths, but form subsets that vary in their overall tree lengths. These models had substantially better statistical support than models that assume identical branch lengths across gene trees, or those in which genes form subsets with distinct branch-length patterns. We show using simulations and empirical data that the complexity of the branch-length model with the highest support depends on the length of the sequence alignment and on the numbers of taxa and loci in the data set. Our findings suggest that models in which branch lengths are proportionate between subsets have the highest statistical support under the conditions that are most commonly seen in practice. The results of our study have implications for model selection, computational efficiency, and experimental design in phylogenomics., (© The Author(s) 2019. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2020
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43. The molecular clock of Mycobacterium tuberculosis.

Author

Menardo F, Duchêne S, Brites D, and Gagneux S

Subjects
Bayes Theorem, Biological Clocks physiology, DNA, Bacterial genetics, Evolution, Molecular, Genome, Bacterial, Humans, Models, Biological, Molecular Epidemiology, Mycobacterium bovis genetics, Mycobacterium bovis physiology, Mycobacterium tuberculosis pathogenicity, Mycobacterium tuberculosis physiology, Phylogeny, Polymorphism, Single Nucleotide, Time Factors, Tuberculosis epidemiology, Tuberculosis microbiology, Biological Clocks genetics, Mycobacterium tuberculosis genetics
Abstract

The molecular clock and its phylogenetic applications to genomic data have changed how we study and understand one of the major human pathogens, Mycobacterium tuberculosis (MTB), the etiologic agent of tuberculosis. Genome sequences of MTB strains sampled at different times are increasingly used to infer when a particular outbreak begun, when a drug-resistant clone appeared and expanded, or when a strain was introduced into a specific region. Despite the growing importance of the molecular clock in tuberculosis research, there is a lack of consensus as to whether MTB displays a clocklike behavior and about its rate of evolution. Here we performed a systematic study of the molecular clock of MTB on a large genomic data set (6,285 strains), covering different epidemiological settings and most of the known global diversity. We found that sampling times below 15-20 years were often insufficient to calibrate the clock of MTB. For data sets where such calibration was possible, we obtained a clock rate between 1x10-8 and 5x10-7 nucleotide changes per-site-per-year (0.04-2.2 SNPs per-genome-per-year), with substantial differences between clades. These estimates were not strongly dependent on the time of the calibration points as they changed only marginally when we used epidemiological isolates (sampled in the last 40 years) or three ancient DNA samples (about 1,000 years old) to calibrate the tree. Additionally, the uncertainty and the discrepancies in the results of different methods were sometimes large, highlighting the importance of using different methods, and of considering carefully their assumptions and limitations., Competing Interests: The authors have declared that no competing interests exist.

Published
2019
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44. Author Correction: Atlas of group A streptococcal vaccine candidates compiled using large-scale comparative genomics.

Author

Davies MR, McIntyre L, Mutreja A, Lacey JA, Lees JA, Towers RJ, Duchêne S, Smeesters PR, Frost HR, Price DJ, Holden MTG, David S, Giffard PM, Worthing KA, Seale AC, Berkley JA, Harris SR, Rivera-Hernandez T, Berking O, Cork AJ, Torres RSLA, Lithgow T, Strugnell RA, Bergmann R, Nitsche-Schmitz P, Chhatwal GS, Bentley SD, Fraser JD, Moreland NJ, Carapetis JR, Steer AC, Parkhill J, Saul A, Williamson DA, Currie BJ, Tong SYC, Dougan G, and Walker MJ

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published
2019
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45. Atlas of group A streptococcal vaccine candidates compiled using large-scale comparative genomics.

Author

Davies MR, McIntyre L, Mutreja A, Lacey JA, Lees JA, Towers RJ, Duchêne S, Smeesters PR, Frost HR, Price DJ, Holden MTG, David S, Giffard PM, Worthing KA, Seale AC, Berkley JA, Harris SR, Rivera-Hernandez T, Berking O, Cork AJ, Torres RSLA, Lithgow T, Strugnell RA, Bergmann R, Nitsche-Schmitz P, Chhatwal GS, Bentley SD, Fraser JD, Moreland NJ, Carapetis JR, Steer AC, Parkhill J, Saul A, Williamson DA, Currie BJ, Tong SYC, Dougan G, and Walker MJ

Subjects
Antigens, Bacterial genetics, Antigens, Bacterial immunology, Genome, Bacterial, Genome-Wide Association Study, Humans, Phylogeny, Recombination, Genetic, Streptococcal Infections prevention & control, Streptococcus pyogenes classification, Genomics methods, Streptococcal Vaccines genetics, Streptococcal Vaccines immunology, Streptococcus pyogenes genetics, Streptococcus pyogenes immunology
Abstract

Group A Streptococcus (GAS; Streptococcus pyogenes) is a bacterial pathogen for which a commercial vaccine for humans is not available. Employing the advantages of high-throughput DNA sequencing technology to vaccine design, we have analyzed 2,083 globally sampled GAS genomes. The global GAS population structure reveals extensive genomic heterogeneity driven by homologous recombination and overlaid with high levels of accessory gene plasticity. We identified the existence of more than 290 clinically associated genomic phylogroups across 22 countries, highlighting challenges in designing vaccines of global utility. To determine vaccine candidate coverage, we investigated all of the previously described GAS candidate antigens for gene carriage and gene sequence heterogeneity. Only 15 of 28 vaccine antigen candidates were found to have both low naturally occurring sequence variation and high (>99%) coverage across this diverse GAS population. This technological platform for vaccine coverage determination is equally applicable to prospective GAS vaccine antigens identified in future studies.

Published
2019
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46. Limited Sustained Local Transmission of HIV-1 CRF01&#95;AE in New South Wales, Australia.

Author

Di Giallonardo F, Pinto AN, Keen P, Shaik A, Carrera A, Salem H, Telfer B, Cooper C, Price K, Selvey C, Holden J, Bachmann N, Lee FJ, Dwyer DE, Duchêne S, Holmes EC, Grulich AE, and Kelleher AD

Subjects
Evolution, Molecular, Genotype, HIV Infections virology, High-Throughput Nucleotide Sequencing, Humans, New South Wales epidemiology, Phylogeny, Public Health Surveillance, HIV Infections epidemiology, HIV Infections transmission, HIV-1 genetics
Abstract

Australia's response to the human immunodeficiency virus type 1 (HIV-1) pandemic led to effective control of HIV transmission and one of the world's lowest HIV incidence rates-0.14%. Although there has been a recent decline in new HIV diagnoses in New South Wales (NSW), the most populous state in Australia, there has been a concomitant increase with non-B subtype infections, particularly for the HIV-1 circulating recombinant form CRF01&#95;AE. This aforementioned CRF01&#95;AE sampled in NSW, were combined with those sampled globally to identify NSW-specific viral clades. The population growth of these clades was assessed in two-year period intervals from 2009 to 2017. Overall, 109 NSW-specific clades were identified, most comprising pairs of sequences; however, five large clades comprising ≥10 sequences were also found. Forty-four clades grew over time with one or two sequences added to each in different two-year periods. Importantly, while 10 of these clades have seemingly discontinued, the remaining 34 were still active in 2016/2017. Seven such clades each comprised ≥10 sequences, and are representative of individual sub-epidemics in NSW. Thus, although the majority of new CRF01&#95;AE infections were associated with small clades that rarely establish ongoing chains of local transmission, individual sub-epidemics are present and should be closely monitored.

Published
2019
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47. Genome Analysis of Coxsackievirus A4 Isolates From Hand, Foot, and Mouth Disease Cases in Shandong, China.

Author

Wang M, Li J, Yao MX, Zhang YW, Hu T, Carr MJ, Duchêne S, Zhang XC, Zhang ZJ, Zhou H, Tong YG, Ding SJ, Wang XJ, and Shi WF

Abstract

Coxsackievirus A4 (CVA4) is one of the most prevalent pathogens associated with hand, foot and mouth disease (HFMD), an acute febrile illness in children, and is also associated with acute localized exanthema, myocarditis, hepatitis and pancreatitis. Despite this, limited CVA4 genome sequences are currently available. Herein, complete genome sequences from CVA4 strains ( n = 21), isolated from patients with HFMD in Shandong province, China between 2014 and 2016, were determined and phylogenetically characterized. Phylogenetic analysis of the VP1 gene from a larger CVA4 collection ( n = 175) showed that CVA4 has evolved into four separable genotypes: A, B, C, and D; and genotype D could be further classified in to two sub-genotypes: D1 and D2. Each of the 21 newly described genomes derived from isolates that segregated with sub-genotype D2. The CVA4 genomes displayed significant intra-genotypic genetic diversity with frequent synonymous substitutions occurring at the third codon positions, particularly within the P2 region. However, VP1 was relatively stable and therefore represents a potential target for molecular diagnostics assays and also for the rational design of vaccine epitopes. The substitution rate of VP1 was estimated to be 5.12 × 10 -3 substitutions/site/year, indicative of ongoing CVA4 evolution. Mutations at amino acid residue 169 in VP1 gene may be responsible for differing virulence of CVA4 strains. Bayesian skyline plot analysis showed that the population size of CVA4 has experienced several dynamic fluctuations since 1948. In summary, we describe the phylogenetic and molecular characterization of 21 complete genomes from CVA4 isolates which greatly enriches the known genomic diversity of CVA4 and underscores the need for further surveillance of CVA4 in China.

Published
2019
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48. Tracing Ancient Human Migrations into Sahul Using Hepatitis B Virus Genomes.

Author

Yuen LKW, Littlejohn M, Duchêne S, Edwards R, Bukulatjpi S, Binks P, Jackson K, Davies J, Davis JS, Tong SYC, and Locarnini S

Subjects
Australasia, Genome, Viral, Phylogeography, Evolution, Molecular, Hepatitis B virus genetics, Human Migration
Abstract

The entry point and timing of ancient human migration into continental Sahul (the combined landmass of Australia, New Guinea, and Tasmania) are subject to debate. Unique strains of hepatitis B virus (HBV) are endemic among modern-day Australian Aboriginals (HBV/C4) and Indigenous Melanesians (HBV/C3). We postulated that HBV genomes could be used to infer human population movements because the main HBV transmission route in endemic populations is via mother-to-child for genotypes B and C infections. Phylogenetic and phylogeographic analyses of HBV genomes inferred the origin of HBV/C4 to be >59 thousand years ago (ka) (95% HPD: 34-85 ka), and most likely to have occurred on the Sunda Shelf (southeast extension of the continental shelf of Southeast Asia). Our analysis further suggested an age of >51 ka (95% Highest Posterior Density (HPD): 36-67 ka) for the most recent common ancestor of HBV/C4 in Australia, correlating with the arrival time of anatomically modern humans into Australia, with the entry point suggested along a southern route via Timor. While we also inferred the origin of HBC/C3 to be on the Sunda Shelf, our analyses suggested that it was carried into Melanesia by Indigenous Melanesians who migrated through New Guinea north of the highlands. These findings reveal that HBV genomes can be used to infer ancient human population movements., (© The Author(s) 2019. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2019
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