Chengyang Ji scite author profile

Monkeypox virus (MPXV) has generally circulated in West and Central Africa since its emergence. Recently, sporadic MPXV infections in several nonendemic countries have attracted widespread attention. Here, we conducted a systematic analysis of the recent outbreak of MPXV‐2022, including its genomic annotation and molecular evolution. The phylogenetic analysis indicated that the MPXV‐2022 strains belong to the same lineage of the MPXV strain isolated in 2018. However, compared with the MPXV strain in 2018, in total 46 new consensus mutations were observed in the MPXV‐2022 strains, including 24 nonsynonymous mutations. By assigning mutations to 187 proteins encoded by the MPXV genome, we found that 10 proteins in the MPXV are more prone to mutation, including D2L‐like, OPG023, OPG047, OPG071, OPG105, OPG109, A27L‐like, OPG153, OPG188, and OPG210 proteins. In the MPXV‐2022 strains, four and three nucleotide substitutions are observed in OPG105 and OPG210, respectively. Overall, our studies illustrated the genome evolution of the ongoing MPXV outbreak and pointed out novel mutations as a reference for further studies.

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One year of SARS-CoV-2 evolution

Wang

Zhou

et al. 2021

Cell Host & Microbe

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Mutations, Recombination and Insertion in the Evolution of 2019-nCoV

Niu

Wang

et al. 2020

Preprint

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Background:The 2019 novel coronavirus (2019-nCoV or SARS-CoV-2) has spread more rapidly than any other betacoronavirus including SARS-CoV and MERS-CoV.However, the mechanisms responsible for infection and molecular evolution of this virus remained unclear. 5 Methods: We collected and analyzed 120 genomic sequences of 2019-nCoV including 11 novel genomes from patients in China. Through comprehensive analysis of the available genome sequences of 2019-nCoV strains, we have tracked multiple inheritable SNPs and determined the evolution of 2019-nCoV relative to other coronaviruses. 10 Results: Systematic analysis of 120 genomic sequences of 2019-nCoV revealed cocirculation of two genetic subgroups with distinct SNPs markers, which can be used to trace the 2019-nCoV spreading pathways to different regions and countries. Although 2019-nCoV, human and bat SARS-CoV share high homologous in overall genome structures, they evolved into two distinct groups with different receptor entry specificities 15through potential recombination in the receptor binding regions. In addition, 2019-nCoV has a unique four amino acid insertion between S1 and S2 domains of the spike protein, which created a potential furin or TMPRSS2 cleavage site. Conclusions:Our studies provided comprehensive insights into the evolution and spread of the 2019-nCoV. Our results provided evidence suggesting that 2019-nCoV 20 may increase its infectivity through the receptor binding domain recombination and a cleavage site insertion. author/funder. All rights reserved. No reuse allowed without permission.

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Chengyang Ji

Genomic annotation and molecular evolution of monkeypox virus outbreak in 2022

One year of SARS-CoV-2 evolution

Mutations, Recombination and Insertion in the Evolution of 2019-nCoV

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