Characterization of the components and activity of Sonchus yellow net rhabdovirus polymerase

Abstract

Sonchus yellow net virus (SYNV) is the best-characterized member of a group of plant rhabdoviruses that replicate in the host cell nucleus. Using a recently developed method for partial purification of active SYNV polymerase by salt extraction of nuclei from infected plant tissue (J. D. O. Wagner et al, J. Virol. 70:468-477, 1996), we have identified the nucleocapsid (N), M2, and L proteins as polymerase complex components (based on copurification with the polymerase activity and by coimmunoprecipitation assays). Furthermore, the L protein was shown by antibody inhibition analysis to be a functional component of the polymerase. A second complex of M2 and L proteins, thought to be a precursor to the polymerase complex, was also identified. In addition, we conducted a detailed characterization of SYNV RNA synthesis in vitro. The results demonstrate that the RNAs are transcribed sequentially, beginning with the N mRNA and followed successively by the remaining five mRNAs in the order of their genome organization. Gene expression conforms to a cascade pattern, with synthesis of the 3'-proximal N mRNA occurring at the highest level, followed by consecutively lower levels of transcription from each subsequent gene. The reaction conditions favor transcription over minus-sense RNA replication, which, we posit, is inhibited near specific signal sequences located on the antigenomic template. The results support the concept that the mechanism of transcription is highly conserved among diverse rhabdoviruses and are compatible with a unified model for the regulation of genomic and antigenomic RNA synthesis.