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:We used a two-component transgene system to study the RNA-dependent DNA methylation (RdDM) and transcriptional gene silencing (TGS) in Arabidopsis. By profiling the small RNA population in  mutants defected in RdDM or RNA polymerase II-transcribed trigger for generating silencing siRNA, we investigated how repetitive loci such as tandem repeats were regulated transcriptionally through the action of RNA polymerase IV.

Project description:GC-rich coding sequences reduce transposon-like sRNA-mediated transgene silencing in Arabidopsis and maize

Project description:Arabidopsis AGO3 predominantly recruits 24-nucleotide small RNAs to regulate epigenetic silencing [Bisulfite-seq]

Project description:Here we use bisulfite conversion of rRNA depleted RNA combined with high-throughput Illumina sequencing (RBS-seq) to identify single-nucleotide resolution of m5C sites transcriptome-wide in Arabidopsis thaliana roots. m5C sites were analyzed in wild type (WT) and an Arabidopsis T-DNA KO mutant for the RNA methyltransferase TRM4B.

Project description:In Arabidopsis thaliana, ARGONAUTE1 (AGO1) plays a central role[AQ1] in microRNA (miRNA) and small interfering RNA (siRNA)- mediated silencing and is a key component in antiviral responses. The polerovirus F-box P0 protein triggers AGO1 degradation as a viral counterdefense. Here, we identified a motif in AGO1 that is required for its interaction with the S phase kinase-associated protein1-cullin 1-F-box protein (SCF) P0 (SCFP0) complex and subsequent degradation. The AGO1 P0 degron is conserved and confers P0-mediated degradation to other AGO[AQ2] proteins. Interestingly, the degron motif is localized in the DUF1785 domain of AGO1, in which a single point mutation (ago1-57, obtained by forward genetic screening) compromises recognition by SCFP0. Recapitulating formation of the RNA-induced silencing complex in a cell-free system revealed that this mutation impairs RNA unwinding, leading to stalled forms of AGO1 still bound to double-stranded RNAs. In vivo, the DUF1785 is required for unwinding perfectly matched siRNA duplexes, but is mostly dispensable for unwinding imperfectly matched miRNA duplexes. Consequently, its mutation nearly abolishes phased siRNA production and sense transgene posttranscriptional gene silencing. Overall, our work sheds new light on the mode of AGO1 recognition by P0 and the in vivo function of DUF1785 in RNA silencing.

Project description:We report the survey of two repressive epigenetic marks in hand-dissected mature Arabidopsis embryos. DNA from approximately 2500 embryos was extracted for each samples. DNA was treated with bisulfite and fractionated for whole genome bisulfite sequencing to reveal methylated cytosines. Chromatin was fractionnated and immuno-precipited with either anti-H3K9me2 or anti-H3 to test for histone methylation. Both profiles were compared in different mutant backgrounds to survey how small RNA influence reprogramming in the embryo.

Project description:Arabidopsis PHL2 act as the key component of the central regulatory system controlling transcriptional responses to phosphate starvation

Project description:Genome-wide profiling of DNA methylation in two Arabidopsis ecotypes and their reciprocal hybrids - Bisulfite-seq

Project description:How bacteria from the microbiota modulate the physiology of its host is an important question to address. Previous work revealed that the metabolic status of Arabidopsis thaliana was crucial for the specific recruitment of Streptomycetaceae into the microbiota. Here, the Arabidopsis-Actinacidiphila interaction was further depicted by inoculating axenic Arabidopsis with Actinacidiphila cocklensis DSM 42063 or Actinacidiphila bryophytorum DSM 42138(previously named Streptomyces cocklensis and Streptomyces bryophytorum). We demonstrated that these two bacteria colonize A. thaliana wild-type plants, but their colonization efficiency was reduced in a chs5 mutant with defect in isoprenoid, phenylpropanoids and lipids synthesis. We observed that those bacteria affect the growth of the chs5 mutant but not of the wild-type plants. Using a mass spectrometry-based proteomic approach, we showed a modulation of the Arabidopsis proteome and in particular its components involved in photosynthesis or phytohormone homeostasis or perception by A. cocklensis and A. bryophytorum. This study unveils specific aspects of the Actinacidiphila-Arabidopsis interaction, which implies molecular processes impaired in the chs5 mutant and otherwise at play in the wild-type. More generally, this study highlights complex and distinct molecular interactions between Arabidopsis thaliana and bacteria belonging to the Actinacidiphila genus.