Distinct virus-specific regulation of RNA synthesis across genome segments by thogotovirus polymerases: insights from Oz virus and Dhori virus

Thogotoviruses are a group of tick-borne, six-segmented, negative-sense single-stranded RNA viruses. These viruses encode an RNA-dependent RNA polymerase that recognizes promoter sequences located at the genomic termini to initiate RNA synthesis. The 5' and 3' ends of the genome bind to the polymerase and function as a promoter. Outside the catalytic center, they base-pair with each other to form a double-stranded RNA structure. This structure is referred to as the distal duplex and plays an important role in RNA synthesis. In this study, we investigated how the RNA sequence of the distal duplex influences polymerase activity using minigenome systems of two thogotoviruses, Oz virus (OZV) and Dhori virus (DHOV). Each virus exhibits distinct activities among its six segments. In OZV, one determinant of these differences is the base pair at positions 5'12 and 3'11 within the distal duplex, where promoter activity varies depending on whether the base pair is G:C or A:U. In contrast, the DHOV polymerase is not affected by this difference. These results indicate that, even within the genus Thogotovirus, viruses differ in whether they possess a mechanism that modulates promoter activity based on subtle sequence differences within the distal duplex. Furthermore, phylogenetic analysis and comparison of promoter sequences suggest that thogotoviruses can be divided into groups that do or do not regulate intersegment promoter activity via the base pair at positions 5'12 and 3'11. HighlightsO_LIMinigenome systems of Oz virus and Dhori virus reveal segment-specific differences in promoter activity C_LIO_LIThe distal duplex sequence modulates RNA synthesis in a virus-dependent manner C_LIO_LIThe base pair at positions 5'12/3'11 determines promoter activity in Oz virus but not in Dhori virus C_LIO_LIThogotoviruses can be divided into groups that do or do not regulate promoter activity via distal duplex sequence variation at positions 5'12/3'11 C_LI