Inter-genogroup reassortment of Rotavirus A (RVA) strains has highlighted the spread of unusual RVA strains worldwide. We previously reported the equine-like G3 RVA as the predominant strain in Indonesia in 2015-2016. However, since July 2017, typical human genotypes G1 and G3 have replaced these strains completely. To understand how dynamic changes in RVA occur in Indonesia, we performed a detailed epidemiological study. A total of 356 stool specimens were collected from hospitalized children in Sidoarjo, Indonesia between 2018 and 2022. Whole-genome sequencing was performed for all 26 RVA-positive samples using next-generation sequencing. Twenty-four samples were determined to be the unusual RVA G9P[4], while two were G9P[6]. Detailed analysis revealed that seven G9P[4] strains had the typical DS-1-like backbone, while the other strains exhibited a double-reassortant profile (G9-N1) on the DS-1-like backbone. The Bayesian evolutionary analyses suggested that the Indonesian G9P[4] strains share a common ancestor with previously reported G9P[4] strains in the VP7 and VP4 genes. G9P[4] DS-1-like strains were identified as the predominant genotype in Indonesia in 2021 for the first time. These results suggest that the G9P[4] strains were generated from the previous G9P[4] strains that had undergone further intra-reassortments with the other circulating strains.
Keywords: G9P[4]; NGS; RVA; complete genome; evolution; reassortment.
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