|
Journal of General Virology |
| First posted online 28 February 2001 | ARTICLE ABSTRACT |
| Rec 2 January 2001; Acc 16 February 2001 | DOI: 10.1099/vir.0.17617-0 |
Yan Zhao, Robert A. Owens and Rosemarie W. Hammond
US Department of Agriculture, Agricultural Research Service, Molecular Plant Pathology Laboratory, Beltsville, Maryland 20705, USA
Potato spindle tuber viroid (PSTVd) is a covalently closed circular RNA molecule of 359 nucleotides that replicates within the nucleus of host cells. To determine how this small, highly structured RNA enters the nucleus, we have developed a virus-based, whole plant in vivo assay that uses green fluorescent protein (GFP) as the reporter molecule. The coding region of GFP was interrupted by insertion of an intron derived from the intervening sequence 2 of the potato ST-LS1 gene. A cDNA copy of the complete PSTVd genome was, in turn, embedded within the intron, and this construct was delivered into Nicotiana benthamiana plants via a vector based on Potato virus X. The intron-containing GFP subgenomic RNA synthesized during virus infection cannot produce a functional GFP unless the RNA is imported into the nucleus, where the intron can be removed and the spliced RNA returned to the cytoplasm. The appearance of green fluorescence in leaf tissues inoculated with constructs containing a full-length PSTVd molecule embedded in the intron indicates that nuclear import and RNA splicing events did occur.
This article is now available in the June 2001 print issue of JGV (vol. 82, 1491–1497). The complete issue of the journal may be seen in electronic form on JGV Online.
Click here for full text HTML
JGV Direct table of contents