Sihui Zhu scite author profile

Sihui Zhu

2Publications

118Citation Statements Received

29Citation Statements Given

How they've been cited

108

How they cite others

104

Affiliations

University of Chinese Academy of Sciences, Beijing Institute of Genomics, Chinese Academy of Sciences

Publications

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Population Genetics of SARS-CoV-2: Disentangling Effects of Sampling Bias and Infection Clusters

Liu

Zhao

Chen

et al. 2020

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A novel RNA virus, the severe acute respiratory syndrome coronavirus 2 ( SARS-CoV-2 ), is responsible for the ongoing outbreak of coronavirus disease 2019 ( COVID-19 ). Population genetic analysis could be useful for investigating the origin and evolutionary dynamics of COVID-19. However, due to extensive sampling bias and existence of infection clusters during the epidemic spread, direct applications of existing approaches can lead to biased parameter estimations and data misinterpretation. In this study, we first present robust estimator for the time to the most recent common ancestor (TMRCA) and the mutation rate, and then apply the approach to analyze 12,909 genomic sequences of SARS-CoV-2. The mutation rate is inferred to be 8.69 × 10 −4 per site per year with a 95% confidence interval (CI) of [8.61 × 10 −4 , 8.77 × 10 −4 ], and the TMRCA of the samples inferred to be Nov 28, 2019 with a 95% CI of [Oct 20, 2019, Dec 9, 2019]. The results indicate that COVID-19 might originate earlier than and outside of Wuhan Seafood Market. We further demonstrate that genetic polymorphism patterns, including the enrichment of specific haplotypes and the temporal allele frequency trajectories generated from infection clusters, are similar to those caused by evolutionary forces such as natural selection. Our results show that population genetic methods need to be developed to efficiently detangle the effects of sampling bias and infection clusters to gain insights into the evolutionary mechanism of SARS-CoV-2. Software for implementing VirusMuT can be downloaded at https://bigd.big.ac.cn/biocode/tools/BT007081 .

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Origin, loss, and regain of self-incompatibility in angiosperms

Zhao

Zhang

et al. 2021

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The self-incompatibility (SI) system with the broadest taxonomic distribution in angiosperms is based on multiple S-locus F-box genes (SLFs) tightly linked to an S-RNase termed type-1. Multiple SLFs collaborate to detoxify nonself S-RNases while being unable to detoxify self S-RNases. However, it is unclear how such a system evolved, because in an ancestral system with a single SLF, many nonself S-RNases would not be detoxified, giving low cross-fertilization rates. In addition, how the system has been maintained in the face of whole-genome duplications (WGDs) or lost in other lineages remains unclear. Here we show that SLFs from a broad range of species can detoxify S-RNases from Petunia with a high detoxification probability, suggestive of an ancestral feature enabling cross-fertilization and subsequently modified as additional SLFs evolved. We further show, based on its genomic signatures, that type-1 was likely maintained in many lineages, despite WGD, through deletion of duplicate S-loci. In other lineages, SI was lost either through S-locus deletions or by retaining duplications. Two deletion lineages regained SI through type-2 (Brassicaceae) or type-4 (Primulaceae), and one duplication lineage through type-3 (Papaveraceae) mechanisms. Thus, our results reveal a highly dynamic process behind the origin, maintenance, loss, and regain of SI.

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Sihui Zhu

Population Genetics of SARS-CoV-2: Disentangling Effects of Sampling Bias and Infection Clusters

Origin, loss, and regain of self-incompatibility in angiosperms

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