Abstract
Ty-1 presents an atypical dominant resistance gene that codes for an RNA-dependent RNA polymerase (RDR) of the gamma class and confers resistance to tomato yellow leaf curl virus (TYLCV) and other geminiviruses. Tomato lines bearing Ty-1 not only produce relatively higher amounts of viral small interfering (vsi)RNAs, but viral DNA also exhibits a higher amount of cytosine methylation. Whether Ty-1 specifically enhances posttranscriptional gene silencing (PTGS), leading to a degradation of RNA target molecules and primarily relying on 21–22 nucleotides (nts) siRNAs, and/or transcriptional gene silencing (TGS), leading to the methylation of cytosines within DNA target sequences and relying on 24-nts siRNAs, was unknown. In this study, small RNAs were isolated from systemically TYLCV-infected leaves of Ty-1 encoding tomato plants and susceptible tomato Moneymaker (MM) and sequence analyzed. While in susceptible tomato plants vsiRNAs of the 21-nt size class were predominant, their amount was drastically reduced in tomato containing Ty-1. The latter, instead, revealed elevated levels of vsiRNAs of the 22- and 24-nt size classes. In addition, the genomic distribution profiles of the vsiRNAs were changed in Ty-1 plants compared with those from susceptible MM. In MM three clear hotspots were seen, but these were less pronounced in Ty-1 plants, likely due to enhanced transitive silencing to neighboring viral genomic sequences. The largest increase in the amount of vsiRNAs was observed in the intergenic region and the V1 viral gene. The results suggest that Ty-1 enhances an antiviral TGS response. Whether the elevated levels of 22 nts vsiRNAs contribute to an enhanced PTGS response or an additional TGS response involving a noncanonical pathway of RNA dependent DNA methylation remains to be investigated.
Highlights
RNA interference (RNAi) is a highly conserved mechanism in eukaryotes involved in several processes like gene regulation, development, and silencing of transposable elements (Han et al, 2004; Ding and Voinnet, 2007; Erdmann and Picard, 2020)
Tomato lines containing Ty-1 were previously shown to contain increased amounts of viral small interfering RNAs (vsiRNAs) during tomato yellow leaf curl virus (TYLCV) infection compared to susceptible MM plants
A first step was made to unravel the role of Ty-1, a dominant resistance gene protein against geminiviruses and member of the RDRγ class, in the biogenesis of siRNAs
Summary
RNA interference (RNAi) is a highly conserved mechanism in eukaryotes involved in several processes like gene regulation, development, and silencing of transposable elements (Han et al, 2004; Ding and Voinnet, 2007; Erdmann and Picard, 2020). One strand of 24-nt siRNA loads into a RISC complex containing AGO4 as the core component, which assists in the search for complementary target DNA sequences via an RNA scaffold This leads to the methylation of cytosine residues within the target DNA sequence via recruitment of DNA methyltransferases (Law and Jacobsen, 2010; Mallory and Vaucheret, 2010; Duan et al, 2015), and this pathway is generally named transcriptional gene silencing (TGS). RNA viruses are targeted by the PTGS pathway only, while DNA viruses are prone to both PTGS and TGS
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