Distribution of two distinct rotavirus B (RVB) strains in the north-central Bangladesh and evidence for reassortment event among human RVB revealed by whole genomic analysis.

Human rotavirus B (RVB), a rare cause of diarrhea in several Asian countries, has been reported to be genetically highly conserved. However, 14 RVB strains with two distinct RNA electropherotypes E1 and E2 (11 and 3 strains, respectively) were detected in adult patients with diarrhea, in Mymensingh in the north-central Bangladesh in 2014. In this study, VP7 gene sequences of all the 14 strains and nearly full-length sequences of all the 11 RNA segments of four RVB (two strains each representing E1 and E2 types) were determined and analyzed phylogenetically. For all the gene segments, sequence identities among strains with the same RNA pattern were higher (99%-100%) than those between strains with different RNA patterns (94-98%). Although all the gene segments of RVB strains were grouped into Indian-Bangladeshi lineage, VP1-3, VP6, VP7, NSP1, NSP2 and NSP5 genes of strains with E1 and E2 types were assigned to distinct sublineages S1 and S2, respectively. E1-strains clustered with Bangladeshi RVB strains reported previously (e.g., Bang117), while E2-strains with those from India (e.g., NIV-1048101), Myanmar, and Nepal. In contrast, VP4, NSP3 and NSP4 genes of both E1 and E2 RVB strains were classified into sublineage S2. These findings indicated that two genetically distinct RVB strains were simultaneously circulating in Mymensingh, Bangladesh. RVB strains with E1 electropherotype were suggested to be reassortants acquiring three gene segments (VP4, NSP3 and NSP4 genes) from the foreign RVB in the genetic background of indigenous Bangladeshi RVB represented by the strain Bang117.

Whole genomic analysis of G2P[4] human Rotaviruses in Mymensingh, north-central Bangladesh.

Rotavirus A (RVA) is a dominant causative agent of acute gastroenteritis in children worldwide. G2P[4] is one of the most common genotypes among human rotavirus (HRV) strains, and has been persistently prevalent in South Asia including Bangladesh. In the present study, whole genome sequences of a total of 16 G2P[4] HRV strains (8 strains each in 2010 and 2013) detected in Mymensingh, north-central Bangladesh were determined. These strains had typical DS-1-like genotype constellation. Most of gene segments from DS-1 genogroup exhibited high level sequence identities to each other (>98%), while slight diversity was observed for VP1, VP3, and NSP4 genes. By phylogenetic analysis, individual RNA segments were classified into one (V) or two-three lineages (V-VI or V-VII). In terms of lineages (sublineages) of 11 gene segments, the 16 Bangladeshi strains could be further classified into four clades (A-D) containing 8 lineage constellations, revealing the presence of three clades (A-C) with three lineage constellations in 2010, and a single clade (D) with four constellations in 2013. Therefore, co-existence of multiple G2P[4] HRV strains with different lineage constellations, and change in clades for the study period were demonstrated. Although amino acids in the antigenic regions on VP7 and VP4 were mostly identical to those of global G2P[4] strains after 2000, VP4 of clade D RVAs in 2013 had alanine and proline at positions 88 and 114, respectively, which are novel substitutions compared with recent global G2P[4] strains. Replacement of lineage constellations associated with unique amino acid changes in the antigenic region in VP4 suggested continuous genetic evolutionary state for emerging new G2P[4] rotavirus strains in Bangladesh.

Whole genomic analyses of equine group A rotaviruses from Japan: evidence for bovine-to-equine interspecies transmission and reassortment events.

Equine group A rotaviruses (RVA) are a major cause of severe diarrhea in foals. The whole genomes of only six common and three unusual equine RVA strains have been analyzed so far. To date, there are no reports on whole genomic analyses of equine RVAs from Asian countries. We report here the whole genomic analyses of three common (strains RVA/Horse-tc/JPN/BI/1981/G3P[12], RVA/Horse-tc/JPN/HH-22/1989/G3P[12] and RVA/Horse-tc/JPN/CH-3/1987/G14P[12]) and an unusual (RVA/Horse-tc/JPN/OH-4/1982/G6P[5]) equine RVA strains isolated from diarrheic foals in Japan. Strains BI, HH-22 and CH-3 shared a largely conserved genotype constellation (G3/G14-P[12]-I2/I6-R2-C2-M3-A10-N2-T3-E2-H7) with each other and with those of common equine RVAs from other continents. Phylogenetically, most of the genes of BI, HH-22 and CH-3 were closely related to those of other common equine RVAs. On the other hand, the NSP2 genes of BI and CH-3 formed a distinct lineage, and were distantly related to the other, major equine RVA cluster within the NSP2-N2 genotype. The NSP4 gene of HH-22 appeared to originate from possible reassortment events involving common equine RVAs and co-circulating bovine or bovine-like equine RVAs, revealing the presence of a bovine RVA-like NSP4 gene on a typical equine RVA genetic backbone. All the 11 gene segments of the unusual equine RVA strain OH-4 were found to be more closely related to those of bovine and bovine-like human RVAs than to those of other RVAs, providing the first conclusive evidence for artiodactyl(likely bovine)-to-equine interspecies transmission events. Taken together, these observations provided important insights into the genetic diversity of equine RVAs.