Complete genome analysis of coxsackievirus A2 and A5 strains in Changsha / 中国热带医学

ABSTRACT

@#Abstract Objective　To investigate the molecular characteristic and evolutionary trends of full-genome sequences of coxsackievirus A2 (CV-A2) and A5 (CV-A5) in Changsha City. Methods　The CV-A2 and CV-A5 strains were isolated and detected from patients with hand, foot and mouth disease (HFMD) cases. The full-genome sequences of CV-A2 and CV-A5 strains were obtained using NGS sequencing. Homology and phylogenetic tree analysis were performed, and the recombination regions of the strains were examined by SimPlot software. Results　The full-genome sequences of CV-A2 and CV-A5 strains were obtained from routine surveillance cases of HFMD in Changsha in 2019. The CV-A2 strain was named S281/Changsha/CHN/2019 with the full-genome sequence of 7 422 bp long; the CV-A5 strain was named S272/Changsha/CHN/2019 with the full-genome sequence of 7 425 bp long. Homology analysis of the isolates by comparison with the nucleic acid sequences of CV-A2 and other CV-A2 strains in China showed that the non-structural protein region shared lower similarity than that of structural protein region. The CV-A2 showed 79.20% similarity with Fleetwood strain (NC038306), showed the highest similarity 95.60% with MN419014 strain from Hubei Province. The non-structural protein 3C and 3D region shared the lowest similarity with MN419014, 90.51 and 92.06%, respectively. Phylogenetic tree analysis showed that 3C and 3D regions were located in the CV-A4 branch. Amino acid mutation sites were found in non-structural protein region, and the amino acid sequence in structural protein region was conserved. SimPlot analysis showed that genetic recombination was found in the 3C and 3D region of CV-A2 strains. The full-genome sequence of CV-A5 showed 80.7% similarity with the Swartz (AY421763) and 97.43% similarity with the strain (MH111030) from Australian. Homology analysis showed that the non-structural protein region shared lower similarity than that of structural protein region, based on full-genome of CV-A5. Phylogenetic tree analysis showed that CV-A5 and MH111030 were in the same branch, indicating that CV-A5 strain not from local. The amino acid sequence of CV-A5 strain was conserved. Conclusions　The CV-A2 strain in Changsha City shared genome sequence information with CV-A4, and the CV-A5 strain was imported from abroad. Our findings are expected to understand the molecular and recombination characteristics of CV-A2 and CV-A5, provided the data of evolution and genetic features of the coxsackievirus, and interrupt disease transmission in a timely and effective manner.