A Minigenome Study of Hazara Nairovirus Genomic Promoters.

Hazara nairovirus (HAZV) is a trisegmented RNA virus most closely related to Crimean-Congo hemorrhagic fever virus (CCHFV) in the order The terminal roughly 20 nucleotides (nt) of its genome ends are highly complementary, similar to those of other segmented negative-strand RNA viruses (sNSV), and act as promoters for RNA synthesis. These promoters contain two elements: the extreme termini of both strands (promoter element 1 [PE1]) are conserved and virus specific and are found bound to separate sites on the polymerase surface in crystal structures of promoter-polymerase complexes. The following sequences (PE2) are segment specific, with the potential to form double-stranded RNA (dsRNA), and the latter aspect is also important for promoter activity. Nairovirus genome promoters differ from those of peribunyaviruses and arenaviruses in that they contain a short single-stranded region between the two regions of complementarity. Using a HAZV minigenome system, we found the single-stranded nature of this region, as well as the potential of the following sequence to form dsRNA, is essential for reporter gene expression. Most unexpectedly, the sequence of the PE2 dsRNA appears to be equally important for promoter activity. These differences in sNSV PE2 promoter elements are discussed in light of our current understanding of the initiation of RNA synthesis. A minigenome system for HAZV, closely related to CCHFV, was used to study its genome replication. HAZV genome ends, like those of other sNSV, such as peribunyaviruses and arenaviruses, are highly complementary and serve as promoters for genome synthesis. These promoters are composed of two elements: the extreme termini of both 3' and 5' strands that are initially bound to separate sites on the polymerase surface in a sequence-specific fashion and the following sequences with the potential to anneal but whose sequence is not important. Nairovirus promoters differ from the other sNSV cited in that they contain a short single-stranded RNA (ssRNA) region between the two elements. The single-stranded nature of this region is an essential element of the promoter, whereas its sequence is unimportant. The sequence of the following complementary region is unexpectedly also important, a possible rare example of sequence-specific dsRNA recognition.