Novel structures of two virus-like RNA elements from a diseased isolate of the Dutch elm disease fungus, Ophiostoma novo-ulmi

Abstract

The nucleotide sequences of 2 of the 10 mitochondrial double-stranded (ds) RNA segments in a diseased isolate, Log1/3-8d2 (Ld), of Ophiostoma novo-ulmi, RNA-7 (1057 nucleotides) and RNA-10 (317-330 nucleotides), have been determined. Both RNAs are A-U-rich, but in Southern and Northern blots, no hybridization with mitochondrial DNA or RNA could be detected. Only very short open reading frames were found in both RNAs. As most of its sequence is unrelated to any of the other Ld dsRNAs, RNA-7 may be regarded as a satellite RNA. Northern blotting detected a full-length single-stranded (ss) form of RNA-7 in nucleic acid extracts from Ld. The 5'- and 3'-terminal 39 nucleotides of ssRNA-7 are imperfect inverted complementary repeats of each other, which could cause ssRNA-7 to form a panhandle structure. In addition, the 5'-terminal nucleotides 1-28 and 3'-terminal nucleotides 1032-1057 of ssRNA-7 each contained inverted complementary sequences, allowing the possibility for each terminus to form separate stem-loop structures. The combination of these two structural features has not been found previously in any dsRNA or ssRNA virus RNA-10 was shown to have an unusual structure, consisting of a mosaic of sequences derived from regions of the 5'- and 3'- termini, or just the 5'-terminus, of RNA-7. RNA-10 has a high degree of inverted complementarity, with the potential to be folded into a very stable hairpin structure. A model for the formation of RNA-10 is presented, involving replicase-driven strand switching between (-)-strand and (+)- strand templates during RNA synthesis, followed by utilization of the nascent strand as a primer and template to form a snap-back RNA.