The monkeypox virus(mpox virus,MPXV)epidemic in 2022 has posed a significant public health risk.Yet,the evolutionary principles of MPXV remain largely unknown.Here,we examined the evolutionary patterns of protein sequ...The monkeypox virus(mpox virus,MPXV)epidemic in 2022 has posed a significant public health risk.Yet,the evolutionary principles of MPXV remain largely unknown.Here,we examined the evolutionary patterns of protein sequences and codon usage in MPXV.We first demonstrated the signal of positive selection in OPG027,specifically in the CladeⅠlineage of MPXV.Subsequently,we discovered accelerated protein sequence evolution over time in the variants responsible for the 2022 outbreak.Furthermore,we showed strong epistasis between amino acid substitutions located in different genes.The codon adaptation index(CAI)analysis revealed that MPXV genes tended to use more non-preferred codons compared to human genes,and the CAI decreased over time and diverged between clades,with CladeⅠ>Ⅱa andⅡb-A>Ⅱb-B.While the decrease in fatality rate among the three groups aligned with the CAI pattern,it remains unclear whether this correlation was coincidental or if the deoptimization of codon usage in MPXV led to a reduction in fatality rates.This study sheds new light on the mechanisms that govern the evolution of MPXV in human populations.展开更多
基金We thank the researchers who generated and shared the sequencing data in the NCBI(Table S4)and GISAID(https://www.gisaid.org/)(Table S5),on which this research is basedThis work is supported by the National Key R&D Projects of China(Grant Nos.2021YFC2301300,2022YFC2304100,and 2022YFC2303401)+2 种基金the National Natural Science Foundation of China(Grant No.82241080)the Beijing Natural Science Foundation,China(Grant No.L222009)the SLS-Qidong Innovation Fund,China,and the Beijing Postdoctoral Research Foundation,China(Grant No.2023-ZZ-018).
文摘The monkeypox virus(mpox virus,MPXV)epidemic in 2022 has posed a significant public health risk.Yet,the evolutionary principles of MPXV remain largely unknown.Here,we examined the evolutionary patterns of protein sequences and codon usage in MPXV.We first demonstrated the signal of positive selection in OPG027,specifically in the CladeⅠlineage of MPXV.Subsequently,we discovered accelerated protein sequence evolution over time in the variants responsible for the 2022 outbreak.Furthermore,we showed strong epistasis between amino acid substitutions located in different genes.The codon adaptation index(CAI)analysis revealed that MPXV genes tended to use more non-preferred codons compared to human genes,and the CAI decreased over time and diverged between clades,with CladeⅠ>Ⅱa andⅡb-A>Ⅱb-B.While the decrease in fatality rate among the three groups aligned with the CAI pattern,it remains unclear whether this correlation was coincidental or if the deoptimization of codon usage in MPXV led to a reduction in fatality rates.This study sheds new light on the mechanisms that govern the evolution of MPXV in human populations.
