Project description:We grafted Transcriptional Gene Silencing (TGS)-inducing wild type Arabidopsis and a mutant that is compromised in 24 nucleotide (nt) small RNA (sRNA) production onto a wild type reporter line. We observed that 21-24 nt sRNAs were transmitted across a graft union yet only the 24 nt sRNAs directed RNA-dependent DNA methylation (RdDM) and TGS of a transgene promoter in meristematic cells. Analysis of sRNAs associated with mobile TGS by deep sequencing, biological replicates. 10 unique samples, 5 biological replicates.

Project description:We grafted Transcriptional Gene Silencing (TGS)-inducing wild type Arabidopsis and a mutant that is compromised in 24 nucleotide (nt) small RNA (sRNA) production onto a wild type reporter line. We observed that 21-24 nt sRNAs were transmitted across a graft union yet only the 24 nt sRNAs directed RNA-dependent DNA methylation (RdDM) and TGS of a transgene promoter in meristematic cells.

Project description:ARGONAUTE (AGO) proteins are the major effectors of RNA silencing. In Arabidopsis, loading of 21-22-nt long small RNAs into AGOs results in post-transcriptional gene silencing (PTGS) by mRNA cleavage and/or translational repression. On the other hand, loading of 24-nt sRNAs results in transcriptional gene silencing (TGS) by RNA directed DNA methylation (RdDM). The Arabidopsis genome encodes 10 AGOs, which are known, for most, to belong to either pathway. Here we characterized the cell specific role of Arabidopsis AGO3. It is specifically expressed in tissue close to vascular termination and strongly accumulates in chalazal seed integuments. AGO3 encodes a functional AGO able to bind sRNAs with a preference for 24nt in length with a 5’ nucleotide bias for Adenosine. Down-regulation of AGO3 affects gene expression in siliques and its expression is strongly induced in the plant vasculature upon proteasome inhibition. Our results suggest that AGO3 might act to regulate gene expression by a novel RNA silencing pathway involving 24nt sRNA-directed PTGS.

Project description:ARGONAUTE (AGO) proteins are the major effectors of RNA silencing. In Arabidopsis, loading of 21-22-nt long small RNAs into AGOs results in post-transcriptional gene silencing (PTGS) by mRNA cleavage and/or translational repression. On the other hand, loading of 24-nt sRNAs results in transcriptional gene silencing (TGS) by RNA directed DNA methylation (RdDM). The Arabidopsis genome encodes 10 AGOs, which are known, for most, to belong to either pathway. Here we characterized the cell specific role of Arabidopsis AGO3. It is specifically expressed in tissue close to vascular termination and strongly accumulates in chalazal seed integuments. AGO3 encodes a functional AGO able to bind sRNAs with a preference for 24nt in length with a 5’ nucleotide bias for Adenosine. Down-regulation of AGO3 affects gene expression in siliques and its expression is strongly induced in the plant vasculature upon proteasome inhibition. Our results suggest that AGO3 might act to regulate gene expression by a novel RNA silencing pathway involving 24nt sRNA-directed PTGS.

Project description:Protein-protein interaction between DNA dependent RNA polymerase IV and RNA dependent RNA polymerase2. The coupled activities of the physically associated polymerases lead to the biogenesis of dsRNAs that serve as precursors of 24nt siRNAs.

Project description:We examined sRNA populations in the Arabidopsis ecotypes C24, Landsberg erecta (Ler), and their reciprocal hybrids which display strong intra-species heterosis. The parental ecotypes had significant differences in their sRNA epigenomes and associated methylation profiles. The hybrids differed greatly from the parents in their sRNA epigenomes including a marked reduction in 24nt sRNA associated with loci that differed in the frequency of 24nt sRNAs between the parents.

Project description:We examined sRNA populations in the Arabidopsis ecotypes C24, Landsberg erecta (Ler), and their reciprocal hybrids which display strong intra-species heterosis. The parental ecotypes had significant differences in their sRNA epigenomes and associated methylation profiles. The hybrids differed greatly from the parents in their sRNA epigenomes including a marked reduction in 24nt sRNA associated with loci that differed in the frequency of 24nt sRNAs between the parents. Examination of sRNA populations from two-week old seedlings from Arabidopsis ecotypes C24, Ler, and their two reciprocal hybrids.

Project description:Root-knot nematodes (RKNs) induce inside the vascular cylinder the giant cells (GCs) imbibed into a gall. Gene-repression in early developing GCs could be facilitated by small RNAs (sRNA) as miRNAs. 24nt-sRNAs, rasiRNAs and 21-22nt-sRNAs can also mediate epigenetic mechanisms. Three sRNA libraries from 3dpi galls and three from uninfected root segments were sequenced following Illumina-Solexa technology.

Project description:Root-knot nematodes (RKNs) induce inside the vascular cylinder the giant cells (GCs) imbibed into a gall. Gene-repression in early developing GCs could be facilitated by small RNAs (sRNA) as miRNAs. 24nt-sRNAs, rasiRNAs and 21-22nt-sRNAs can also mediate epigenetic mechanisms. Three sRNA libraries from 3dpi galls and three from uninfected root segments were sequenced following Illumina-Solexa technology. Three sRNA libraries from 3dpi galls and three from uninfected root segments were sequenced

Project description:RNA-directed DNA methylation (RdDM) is a small interfering RNA (siRNA)-mediated epigenetic modification that contributes to transposon silencing in plants. RdDM requires a complex transcriptional machinery that includes specialized RNA polymerases, named Pol IV and Pol V, as well as chromatin remodelling proteins, transcription factors, RNA binding proteins, and other plant-specific proteins whose functions are not yet clarified. In Arabidopsis thaliana, DICER-LIKE3 and members of the ARGONAUTE4 group of AROGONAUTE (AGO) proteins are involved, respectively, in generating and using 24-nt siRNAs that trigger methylation and transcriptional gene silencing (TGS) of homologous promoter sequences. AGO proteins act in silencing effector complexes by anchoring the 3’ and 5’ ends of the guide siRNAs at their N-terminal PAZ domain and MID domain, respectively. In addition, many AGO proteins cleave complementary target RNAs through an endonuclease (‘slicer’) activity in their C-terminal PIWI domain. AGO4 is the main AGO protein implicated in the RdDM pathway. Here we report the identification of the related AGO6 in a forward genetic screen for mutants defective in RdDM and TGS in shoot and root apical meristems in Arabidopsis thaliana. The identification of AGO6, and not AGO4, in our screen is consistent with the primary expression of AGO6 in shoot and root growing points and the preferential association of Pol V with AGO6. Examination of siRNA abundance in the trasngenic wild type plant (contains trigger and silencer transgenes) and the ago6-4 mutant.