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19 Apr 2023

In case of DRAGEN COVID Lineage tool, the minimum accepted alignment score was set to 22 and results with scores <22 were discarded. Bioinformatics 30, 13121313 (2014). All three approaches to removal of recombinant genomic segments point to a single ancestral lineage for SARS-CoV-2 and RaTG13. 1 Phylogenetic relationships in the C-terminal domain (CTD). By mid-January 2020, the virus was spreading widely within Hubei province and by early March SARS-CoV-2 was declared a pandemic8. Zhou, H. et al. When viewing the last 7kb of the genome, a clade of viruses from northern China appears to cluster with sequences from southern Chinese provinces but, when inspecting trees from different parts of ORF1ab, the N. China clade is phylogenetically separated from the S. China clade. performed Srecombination analysis. Med. A., Filip, I., AlQuraishi, M. & Rabadan, R. Recombination and lineage-specific mutations led to the emergence of SARS-CoV-2. Pangolins: What are they and why are they linked to Covid-19? - Inverse M.F.B. Mol. Nguyen, L.-T., Schmidt, H. A., Von Haeseler, A. 90, 71847195 (2016). RegionB is 5,525nt long. An initial genomic sequence analysis found that the reemergence of COVID-19 in New Zealand was caused by a SARS-CoV-2 from the (now ancestral) lineage B.1.1.1 of the pangolin nomenclature ( 17 ). When the genomic data included both coding and non-coding regions we used a single GTR+ substitution model; for concatenated coding genes we partitioned the alignment by codon position and specified an independent GTR+ model for each partition with a separate gamma model to accommodate inter-site rate variation. a, Breakpoints identified by 3SEQ illustrated by percentage of sequences (out of 68) that support a particular breakpoint position. As of December 2, 2021, SJdRP, a medium-sized city in the Northwest region of So Paulo state, Brazil (Fig. The S1 protein of Pangolin-CoV is much more closely related to SARS-CoV-2 than to RaTG13. Evol. 84, 31343146 (2010). Background & objectives: Several phylogenetic classification systems have been devised to trace the viral lineages of the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Mol. Sliding window analysis of changes in the patterns of sequence similarity between human SARS-CoV-2, and pangolin and bat coronaviruses as described further in Fig. The rate of genome generation is unprecedented, yet there is currently no coherent nor accepted scheme for naming the expanding . stand-alone pangolin work flows or Illumina DRAGEN COVID Lineage App (v3.5.5) following the default parameters. Furthermore, the other key feature thought to be instrumental in the ability of SARS-CoV-2 to infect humansa polybasic cleavage site insertion in the Sproteinhas not yet been seen in another close bat relative of the SARS-CoV-2 virus. J. Virol. Our third approach involved identifying breakpoints and masking minor recombinant regions (with gaps, which are treated as unobserved characters in probabilistic phylogenetic approaches). Due to the absence of temporal signal in the sarbecovirus datasets, we used informative prior distributions on the evolutionary rate to estimate divergence dates. Evolutionary origins of the SARS-CoV-2 sarbecovirus lineage responsible for the COVID-19 pandemic. 3). Nat. Slider with three articles shown per slide. When the first genome sequence of SARS-CoV-2, Wuhan-Hu-1, was released on 10January 2020 (GMT) on Virological.org by a consortium led by Zhang6, it enabled immediate analyses of its ancestry. Emerg. In our analyses of the sarbecovirus datasets, we incorporated the uncertainty of the sampling dates when exact dates were not available. Preprint at https://doi.org/10.1101/2020.05.28.122366 (2020). Posterior distributions were approximated through Markov chain Monte Carlo sampling, which were run sufficiently long to ensure effective sampling sizes >100. SARS-CoV-2 genetic lineages in the United States are routinely monitored through epidemiological investigations, virus genetic sequence-based surveillance, and laboratory studies. Genomic characterisation and epidemiology of 2019 novel coronavirus: implications for virus origins and receptor binding. 95% credible interval bars are shown for all internal node ages. In December 2019, a cluster of pneumonia cases epidemiologically linked to an open-air live animal market in the city of Wuhan (Hubei Province), China1,2 led local health officials to issue an epidemiological alert to the Chinese Center for Disease Control and Prevention and the World Health Organizations (WHO) China Country Office. 1, vev016 (2015). # File containing the ID of the samples, the Sequence of the haplotype, the Continent, the country, the Region, the Data, the Lineage of Pangolin and Nextstrain clade, and the haplotype number # In this order # Could be obtained from the database COVID-19: A Catastrophe or Opportunity for Pangolin Conservation? - Nature Identifying SARS-CoV-2-related coronaviruses in Malayan pangolins Biol. PLoS Pathog. Sequences were aligned by MAFTT58 v.7.310, with a final alignment length of 30,927, and used in the analyses below. Coronavirus Disease 2019 (COVID-19) Situation Report 51 (World Health Organization, 2020). Because these subclades had different phylogenetic relationships in regionD (Supplementary Fig. the development of viral diversity. Now, the two researchers used genomic sequencing to compare the DNA of the new coronavirus in humans with that in animals and found a 99% match with pangolins. PDF How COVID-19 Variants Get Their Name - doh.wa.gov 17, 15781579 (1999). The coronavirus genome that these researchers had assembled, from pangolin lung-tissue samples, contained some gene regions that were ninety-nine per cent similar to equivalent parts of the SARS . 5 (NRR1) are conservative in the sense that NRR1 is more likely to be non-recombinant than NRR2 or NRA3. Further information on research design is available in the Nature Research Reporting Summary linked to this article. Stegeman, A. et al. is funded by The National Natural Science Foundation of China Excellent Young Scientists Fund (Hong Kong and Macau; no. Sign up for the Nature Briefing newsletter what matters in science, free to your inbox daily. PubMed 82, 48074811 (2008). 5). Split diversity in constrained conservation prioritization using integer linear programming. Using both prior distributions, this results in six highly similar posterior rate estimates for NRR1, NRR2 and NRA3, centred around 0.00055 substitutions per siteyr1. Our approach resulted in similar posterior rates using two different prior means, implying that the sarbecovirus data do inform the rate estimate even though a root-to-tip temporal signal was not apparent. 3) clusters with viruses from provinces in the centre, east and northeast of China. Phylogenetic trees and exact breakpoints for all ten BFRs are shown in Supplementary Figs. Note that breakpoints can be shared between sequences if they are descendants of the same recombination events. R. Soc. Because 3SEQ is the most statistically powerful of the mosaic methods61, we used it to identify the best-supported breakpoint history for each potential child (recombinant) sequence in the dataset. Anyone you share the following link with will be able to read this content: Sorry, a shareable link is not currently available for this article. More evidence Pangolin not intermediary in transmission of SARS-CoV-2 But some theories suggest that pangolins may be the source of the novel coronavirus. Emergence of SARS-CoV-2 through recombination and strong purifying selection. We thank originating laboratories at South China Agricultural University (Y. Shen, L. Xiao and W. Chen; no. One study suggests that over a century ago, one lineage of coronavirus circulating in bats gave rise to SARS-CoV-2, RaTG13 and a Pangolin coronavirus known as Pangolin-2019, Live Science . Its genome is closest to that of severe acute respiratory syndrome-related coronaviruses from horseshoe bats, and its receptor-binding domain is closest to that of pangolin viruses. Two other bat viruses (CoVZXC21 and CoVZC45) from Zhejiang Province fall on this lineage as recombinants of the RaTG13/SARS-CoV-2 lineage and the clade of Hong Kong bat viruses sampled between 2005 and 2007 (Fig. Stamatakis, A. RAxML version 8: a tool for phylogenetic analysis and post-analysis of large phylogenies. However, formal testing using marginal likelihood estimation41 does provide some evidence of a temporal signal, albeit with limited log Bayes factor support of 3 (NRR1), 10 (NRR2) and 3 (NRA3); see Supplementary Table 1. The difficulty in inferring reliable evolutionary histories for coronaviruses is that their high recombination rate48,49 violates the assumption of standard phylogenetic approaches because different parts of the genome have different histories. The SARS-CoV divergence times are somewhat earlier than dates previously estimated15 because previous estimates were obtained using a collection of SARS-CoV genomes from human and civet hosts (as well as a few closely related bat genomes), which implies that evolutionary rates were predominantly informed by the short-term SARS outbreak scale and probably biased upwards. The sizes of the black internal node circles are proportional to the posterior node support. Nature 583, 282285 (2020). 21, 15081514 (2015). A new SARS-CoV-2 variant (B.1.1.523) capable of escaping immune protections Duchene, S. et al. Boxplots show interquartile ranges, white lines are medians and box whiskers show the full range of posterior distribution. Unlike other viruses that have emerged in the past two decades, coronaviruses are highly recombinogenic14,15,16. Concurrent evidence also proposed pangolins as a potential intermediate species for SARS-CoV-2 emergence and suggested them as a potential reservoir species11,12,13. 62,63), the GTR+ model and 100bootstrap replicateswas inferred for each BFR >500nt. Specifically, progenitors of the RaTG13/SARS-CoV-2 lineage appear to have recombined with the Hong Kong clade (with inferred breakpoints at 11.9 and 20.8kb) to form the CoVZXC21/CoVZC45-lineage. Internet Explorer). The boxplots show divergence time estimates (posterior medians) for SARS-CoV-2 (red) and the 20022003 SARS-CoV virus (blue) from their most closely related bat virus. The histogram allows for the identification of non-recombining regions (NRRs) by revealing regions with no breakpoints. PubMed Central EPI_ISL_410721) and Beijing Institute of Microbiology and Epidemiology (W.-C. Cao, T.T.-Y.L., N. Jia, Y.-W. Zhang, J.-F. Jiang and B.-G. Jiang, nos. To estimate non-synonymous over synonymous rate ratios for the concatenated coding genes, we used the empirical Bayes Renaissance countingprocedure67. Virological.org http://virological.org/t/ncovs-relationship-to-bat-coronaviruses-recombination-signals-no-snakes-no-evidence-the-2019-ncov-lineage-is-recombinant/331 (2020). Suchard, M. A. et al. Epidemiology, genetic recombination, and pathogenesis of coronaviruses. Boni, M.F., Lemey, P., Jiang, X. et al. performed recombination analysis for non-recombining regions1 and 2, breakpoint analysis and phylogenetic inference on recombinant segments. Virus Evol. Evol. Green boxplots show the TMRCA estimate for the RaTG13/SARS-CoV-2 lineage and its most closely related pangolin lineage (Guangdong 2019), with the light and dark coloured version based on the HCoV-OC43 and MERS-CoV centred priors, respectively. Identifying SARS-CoV-2 related coronaviruses in Malayan pangolins While pangolins could be acting as intermediate hosts for bat viruses to get into humansthey develop severe respiratory disease38 and commonly come into contact with people through traffickingthere is no evidence that pangolin infection is a requirement for bat viruses to cross into humans. This new approach classifies the newly sequenced genome against all the diverse lineages present instead of a representative select sequences. A tag already exists with the provided branch name. and T.A.C. 4). Anderson, K. G. nCoV-2019 codon usage and reservoir (not snakes v2). PI signals were identified (with bootstrap support >80%) for seven of these eight breakpoints: positions 1,684, 3,046, 9,237, 11,885, 21,753, 22,773 and 24,628. CAS The first available sequence data6 placed this novel human pathogen in the Sarbecovirus subgenus of Coronaviridae7, the same subgenus as the SARS virus that caused a global outbreak of >8,000 cases in 20022003. Wang, H., Pipes, L. & Nielsen, R. Synonymous mutations and the molecular evolution of SARS-Cov-2 origins. Evol. Forni, D., Cagliani, R., Clerici, M. & Sironi, M. Molecular evolution of human coronavirus genomes. Two exceptions can be seen in the relatively close relationship of Hong Kong viruses to those from Zhejiang Province (with two of the latter, CoVZC45 and CoVZXC21, identified as recombinants) and a recombinant virus from Sichuan for which part of the genome (regionB of SC2018 in Fig. The unsampled diversity descended from the SARS-CoV-2/RaTG13 common ancestor forms a clade of bat sarbecoviruses with generalist propertieswith respect to their ability to infect a range of mammalian cellsthat facilitated its jump to humans and may do so again. The species Severe acute respiratory syndrome-related coronavirus: classifying 2019-nCoV and naming it SARS-CoV-2. 68, 10521061 (2019). 94, e0012720 (2020). The Sichuan (SC2018) virus appears to be a recombinant of northern/central and southern viruses, while the two Zhejiang viruses (CoVZXC21 and CoVZC45) appear to carry a recombinant region from southern or central China. The Artic Network receives funding from the Wellcome Trust through project no. We used TreeAnnotator to summarize posterior tree distributions and annotated the estimated values to a maximum clade credibility tree, which was visualized using FigTree. B 281, 20140732 (2014). Menachery, V. D. et al. GitHub - cov-lineages/pangolin: Software package for assigning SARS-CoV-2 genome sequences to global lineages. Rev. To begin characterizing any ancestral relationships for SARS-CoV-2, NRRs of the genome must be identified so that reliable phylogenetic reconstruction and dating can be performed. ISSN 2058-5276 (online). This statement informs us of the possibility that a virus has spilled over from a very rare and shy reptile-looking mammal . We considered (1) the possibility that BFRs could be combined into larger non-recombinant regions and (2) the possibility of further recombination within each BFR. Nat. All sequence data analysed in this manuscript are available at https://github.com/plemey/SARSCoV2origins. Yu, H. et al. Although the human ACE2-compatible RBD was very likely to have been present in a bat sarbecovirus lineage that ultimately led to SARS-CoV-2, this RBD sequence has hitherto been found in only a few pangolin viruses. We named the length-sorted BFRs as: BFRA (ntpositions 13,29119,628, length=6,338nt), BFRB (ntpositions 3,6259,150, length=5,526nt), BFRC (ntpositions 9,26111,795, length=2,535nt), BFRD (ntpositions 27,70228,843, length=1,142nt) and six further regions (EJ). c, Maximum likelihood phylogenetic trees rooted on a 2007 virus sampled in Kenya (BtKy72; root truncated from images), shown for five BFRs of the sarbecovirus alignment. Duchene, S., Holmes, E. C. & Ho, S. Y. W. Analyses of evolutionary dynamics in viruses are hindered by a time-dependent bias in rate estimates. [12] To obtain Med. Preprint at https://doi.org/10.1101/2020.04.20.052019 (2020). This is not surprising for diverse viral populations with relatively deep evolutionary histories. Prolonged SARS-CoV-2 Infection and Intra-Patient Viral Evolu : The Zhou, P. et al. P.L. In the absence of a strong temporal signal, we sought to identify a suitable prior rate distribution to calibrate the time-measured trees by examining several coronaviruses sampled over time, including HCoV-OC43, MERS-CoV, and SARS-CoV virus genomes.

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