Genetic characterization of the vaccinia virus DNA polymerase: identification of point mutations conferring altered drug sensitivities and reduced fidelity.

Abstract Background According to the differences of antigen and genetic composition, canine coronavirus (CCoV) consists of two genotypes, CCoV-I and CCoV-II. Since 2004, CCoVs with point mutations or deletions of NSPs are contributing to the changes in tropism and virulence in dogs. Results In this study, we isolated a CCoV, designated HLJ-071, from a dead 5-week-old female Welsh Corgi with severe diarrhea and vomit. Sequence analysis suggested that HLJ-071 bearing a complete ORF3abc compared with classic CCoV isolates (1-71, K378 and S378). In addition, a variable region was located between S gene and ORF 3a gene, in which a deletion with 104 nts for HLJ-071 when compared with classic CCoV strains 1-71, S378 and K378. Phylogenetic analysis based on the S gene and complete sequences showed that HLJ-071 was closely related to FCoV II. Recombination analysis suggested that HLJ-071 originated from the recombination of FCoV 79-1683, FCoV DF2 and CCoV A76. Finally, according to cell tropism experiments, it suggested that HLJ-071 could replicate in canine macrophages/monocytes cells. Conclusion The present study involved the isolation and genetic characterization of a variant CCoV strain and spike protein and ORF3abc of CCoV might play a key role in viral tropism, which could affect the replication in monocyte/macrophage cells. It will provide essential information for further understanding the evolution in China.

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Genetic Characterization of Three Distinct Mechanisms Supporting RNA-Driven DNA Repair and Modification Reveals Major Role of DNA Polymerase ζ

Molecular Cell ◽

10.1016/j.molcel.2020.08.011 ◽

2020 ◽

Vol 79 (6) ◽

pp. 1037-1050.e5

Author(s):

Chance Meers ◽

Havva Keskin ◽

Gabor Banyai ◽

Olga Mazina ◽

Taehwan Yang ◽

...

Keyword(s):

Dna Repair ◽

Dna Polymerase ◽

Genetic Characterization

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Characterization of a Second Vaccinia Virus mRNA-Decapping Enzyme Conserved in Poxviruses

Journal of Virology ◽

10.1128/jvi.01668-07 ◽

2007 ◽

Vol 81 (23) ◽

pp. 12973-12978 ◽

Cited By ~ 63

Author(s):

Susan Parrish ◽

Bernard Moss

Keyword(s):

Vaccinia Virus ◽

Point Mutations ◽

Mrna Turnover ◽

Lower Sensitivity ◽

Nudix Hydrolase ◽

Viral Mrnas ◽

Mrna Decapping ◽

Optimal Activity ◽

Decapping Enzyme

ABSTRACT Vaccinia virus (VACV) encodes enzymes that cap the 5′ end of viral mRNAs, which enhances their stability and translation. Nevertheless, recent studies demonstrated that the VACV D10 protein (VACV-WR_115) decaps mRNA, an enzymatic activity not previously shown to be encoded by a virus. The decapping activity of D10 is dependent on a Nudix hydrolase motif that is also present in the VACV D9 protein (VACV-WR_114), which shares 25% sequence identity with D10. Here, we showed that a purified recombinant VACV D9 fusion protein also decaps mRNA and that this activity was abolished by point mutations in the Nudix hydrolase motif. Decapping was specific for a methylated cap attached to RNA and resulted in the liberation of m7GDP. D9 differed from D10 in requiring a longer capped RNA substrate for optimal activity, having greater sensitivity to inhibition by uncapped RNA, and having lower sensitivity to inhibition by nucleotide cap analogs unattached to RNA. Since D9 is expressed early in infection and D10 late, we suggest that the two proteins enhance mRNA turnover and manipulate gene expression in a complementary and overlapping manner.

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