Requirement of sense transcription for homology-dependent virus resistance and trans-inactivation

Abstract

Transgenic tobacco plants carrying post-transcriptionally silenced (L) or conditionally high-expressing (H(c)) cauliflower mosaic virus 35S promoter:β-glucuronidase (GUS) transgenes were tested for their ability to support replication of a potato virus X derivative with an inserted GUS coding sequence (PVX.GUS). PVX.GUS accumulated to high levels on non-transformed tobacco. In contrast, both L and H(c) tobacco were resistant to PVX.GUS. Another line, 271, carries a 35S-driven transgene that can down-regulate transcription from any other 35S promoter in trans. When the 271 locus was introduced into the L and H°lines, virus resistance was suppressed. The L tobacco line also trans-inactivated transient GUS expression from an extra-chromosomal T-DNA delivered by Agrobacterium. This trans-inactivation was not observed when the 271 locus was present. In addition, it was found that the 271 locus suppressed the virus resistance normally conferred by a 35S-driven transgene derived from the PVX replicase open reading frame. These results indicate that sense transcription is required for a transgene to condition hemology-dependent virus resistance and post-transcriptional trans-inactivation.