The Unusual Structure of a Novel RNA Replicon in Rice *

A linear, plasmid-like, double-stranded RNA (dsRNA) was isolated from rice, and its entire sequence of 13,952 nucleotides (nt) was determined. The dsRNA encodes a single, unusually long, open reading frame (13,716 nt, 4,572 amino acid residues), which includes an RNA helicase-like domain and an RNA-dependent RNA polymerase-like domain. A series of Northern hybridization and primer extension experiments revealed that the coding (sense) strand of the dsRNA contains a discontinuity (nick) at a position 1,211 nt (or 1, 256 nt) from the 5’ end. This discontinuity divides not only the coding strand of dsRNA molecule into a 1,211-nt fragment and a 12,741-nt fragment (or a 1, 256-nt fragment and a 12, 696-nt fragment) but also divides the long open reading frame into a 5’ part of 1,045 nt (348 amino acid residues) and a 3’ part of 12,671 nt (4,224 amino acid residues) or a 5’ part of 1,090 nt (363 amino acid residues) and a 3’ part of 12,626 nt (4,209 amino acid residues). It seems likely that almost all dsRNA molecules in rice plants contain such a discontinuity. This rice dsRNA appears to be a novel and unique RNA replicon.