Abstract
Infectious dimeric RNA transcripts are a powerful tool for reverse genetic analyses in viroid studies. However, the construction of dimeric cDNA clones is laborious and time consuming, especially in mutational analyses by in vitro mutagenesis. In this study, we developed a system to synthesize a precisely monomeric linear RNA that could be transcribed in vitro directly from the cDNA clones of four viroid species. The cDNA clones were constructed such that RNA transcription was initiated at the guanine nucleotide of a predicted processing and ligation site in the viroid replication process. Although the transcribed RNAs were considered to possess 5′-triphosphate and 3′-hydroxyl termini, the RNA transcripts were infectious even without in vitro modifications. Additionally, infectivity was detected in the monomeric RNA transcripts, in which transcription was initiated at guanine nucleotides distinct from the predicted processing/ligation site. Moreover, monomeric viroid RNAs bearing 5′-monophosphate, 5′-hydroxyl, or 5′-capped termini were found to be infectious. Northern blot analysis of the pooled total RNA of the plants inoculated with the 5′-terminal modified RNA of potato spindle tuber viroid (PSTVd) indicated that maximum PSTVd accumulation occurred in plants with 5′-monophosphate RNA inoculation, followed by the plants with 5′-triphosphate RNA inoculation. Our system for synthesizing an infectious monomeric linear viroid RNA from a cDNA clone will facilitate mutational analyses by in vitro mutagenesis in viroid research.
Highlights
Infectivity was observed in potato spindle tuber viroid (PSTVd)-Int-G265/C264, PSTVd-Int-G16/U15, and HSVdcitV1(270G)-G284/G283 monomeric RNA transcripts, which were initiated at the guanine nucleotide distinctly different from the processing/ligation site in the viroid replication process (Table 1)
We developed an in vitro transcription system for synthesizing a complete monomeric linear viroid RNA without any non-viroid sequence and with the ability to infect host cells from a cDNA clone
Transcripts initiated at the putative processing/ligation site was apparently higher than that of the pUC9 inserted with the corresponding monomeric cDNAs, and it was either equal to or more than that of the dimeric RNA transcripts (Tables 1 and 2)
Summary
Viroids do not have protein-coding capacity, and they replicate autonomously through a rolling-circle mechanism mediated by the enzymes of the host cells that they invade. Based on structural and biochemical features as well as the mode of replication, viroids can be classified into two families, Pospiviroidae and Avsunviroidae. Members of the family Pospiviroidae form rod-like secondary structures that can be divided into five structural and functional domains (terminal left, TL; pathogenicity, P; central, C or central conserved region, CCR; variable, V; and terminal right, TR). These viroids replicate within the nuclei of the infected cells through the asymmetric pathway of the rolling-circle mechanism. The viroid RNA invading the host cell is imported to the nucleus, where it redirects the host DNA-dependent RNA polymerase II
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