Project description:microRNAs (miRNAs) are a class of small silencing RNAs that have regulatory roles in gene expression. miRNAs interact with Argonaute (AGO) proteins to form effector complexes that can cleave target mRNAs or repress their translation. Rice encodes four AGO1 homologs (AGO1a, AGO1b, AGO1c, and AGO1d). We used an RNAi approach to knock down the four AGO1s. The RNAi lines displayed pleiotropic developmental phenotypes and had increased accumulation of miRNA targets, suggesting the involvement of AGO1s in the miRNA pathway. Three of the AGO1s (AGO1a, AGO1b, and AGO1c complexes) were purified and further characterized. We showed that the three AGO1s all have a strong preference for binding small RNAs (sRNAs) with 5’ U and have Slicer activity. We catalogued the sRNAs in each AGO1 complex by deep sequencing, and found all three AGO1s predominantly bound known miRNAs. Most of the miRNAs were evenly distributed in the three AGO1 complexes, suggesting a redundant role for the AGO1s in the function of these miRNAs. Intriguingly, we also found a subset of miRNAs were specifically incorporated into or excluded from one of the AGO1s, suggesting that there is also functional specialization among the rice AGO1s.

Project description:This SuperSeries is composed of the following subset Series: GSE18248: Sequencing of rice degradome GSE18250: Profiling of small RNA populations in rice total extract and purified AGO1 complexes Refer to individual Series

Project description:In plants, the known microRNAs (miRNAs) are produced as ~21 nucleotide (nt) duplexes from their precursors by Dicer like 1 (DCL1). They are incorporated into Argonaute 1 (AGO1) protein to regulate target gene expression primarily through mRNA cleavage. We report here the discovery of a new class of miRNAs in the model monocot rice (Oryza sativa). These are 24 nt in length and require another member of the Dicer family, DCL3, for their biogenesis. The 24 nt long miRNAs (lmiRNAs) are loaded into AGO4 clade proteins according to hierarchical rules, depending on the upstream biogenesis machinery and the 5’ terminal nucleotide. We demonstrated that lmiRNAs direct DNA methylation at loci from which they are produced as well as in trans at their target genes and play roles in gene regulation. Considered together, our findings define a novel miRNA pathway that mediates DNA methylation. Small RNAs were prepared from Rice total extract in wide type, dcl1, dcl3, rdr2 dbsRNA mutant and AGO4a, AGO4b, and AGO16 complexes, ligated to a 3' adaptor and a 5' acceptor sequentially, and then RT-PCR amplified. PCR products were reamplified using a pair of solexa cloning primers and then provided for sequencing. For technical details, see Wu, L., Zhang, Q., Zhou, H., Ni, F., Wu, X., and Qi, Y. (2009). Rice microRNA effector complexes and targets. The Plant Cell, 21: 3421-3435.

Project description:miRNA levels depend on both biogenesis and turnover. The methyltransferase HEN1 stabilizes plant miRNAs, animal piRNAs, and siRNAs in both kingdoms via 3' terminal methylation. Loss of HEN1 in plants results in non-templated oligo-uridylation and accelerated degradation of miRNAs. In hen1 mutants from Arabidopsis and rice, we found that the patterns of miRNA truncation and uridylation differ substantially among miRNA families, but such patterns for the same miRNA are conserved between species. miR166 and miR163 are truncated predominantly to ~17 and ~16 nt, and subsequently recover via uridylation to approximately their original sizes, 21 and 24 nt, suggesting that in these cases miRNA truncation triggers uridylation. miR171 is untruncated but uridylated to 22 nt in hen1 mutants, gaining the ability to trigger production of phased, secondary siRNAs. Truncated and tailed variants were bound by ARGONAUTE1 (AGO1) in hen1, implying that these events occur while miRNAs are still bound by AGO1. Unexpectedly, a portion of miR158 in wildtype remains unmethylated and thus subject to uridylation and destabilization, suggesting that plants naturally utilize miRNA methylation to modulate miRNA accumulation. Our results suggest that the AGO1-containing RISC complex may undergo programming to reflect each bound miRNA, determining a defined, distinct decay destiny. In this analysis, we sequenced sRNAs from two hen1 mutant alleles in Arabidopsis and three hen1 alleles in rice. In Arabidopsis, the strong hen1-1 allele in the Landsberg erecta (Ler) ecotype is the first hen1 mutant and emerged from an enhancer screen in the hua1-1/hua2-1 background, and hen1-8 in the Columbia (Col) background is a weak allele. In rice, WAVY LEAF1 (WAF1) is the ortholog of Arabidopsis HEN1, and two mutant alleles waf1-1 and waf1-2 each bear a single-base substitution leading to a premature stop codon in the second exon and a non-functional splicing site of the fourth intron, respectively. We identified a third mutant allele of the rice HEN1 gene (Oshen1-3 from the Korean (POSTEC) rice T-DNA mutant population).

Project description:Transgenic Arabidopsis plants (AGO2::HA:AGO2) were treated with either mock (10 mM MgCl2) or Pseudomonas syringae pv. tomato (Pst) expressing avrRpt2 (R2) at a concentration of 2 x 107 cfu/ml for 14 hours. sRNAs associated with AGO1 and AGO2 were co-immunoprecipitated using antibodies against either AGO1 (AGO1-IP), or HA (hemagglutinin) (AGO2-IP). As controls, we also gel-purified the 18-28 nt fraction of the total RNAs from an AGO2 mutant (ago2-1). The co-immunoprecipitated or gel-purified RNAs were cloned and sequenced by Illumina deep sequencing. Examination of AGO-associated sRNAs in pathogen-treated or control plants

Project description:Although closely related to plant evolution, polyploid sRNAs (small RNAs) were seldom studied with experiments, especially on genome-wide range. In this study, a rice twin-seeding (two seedlings from the same grain) line SARII-658 was employed to isolate autotriploids. Those autotriploids possess unique merits to study the two interesting topics: (i) natural polyploids; (ii) the autonomy of epigenetic variations (i.e. sRNAs) from genome doubling per se. sRNA libraries were prepared from those diploid-autotriploid twin-seedlings and then were sequenced to produce 13,308,226 short sequence reads in total. Out of the 35,429 miRNA genes and siRNA clusters, 1,547 (4.36%) changed their expression levels for two folds or above after genome doubling (thereinafter, referred those sRNAs as ploidy-sensitive). The expression-unregulated sRNAs (3.71%) were far more than the downregulated ones (0.64%), suggesting that the negative regulation of the coding gene by sRNA increase is more prevalent than the positive regulation during genome doubling. The expression of sRNAs were obviously increased and biased to accumulate toward centromeric and heterochromatic regions, suggesting that sRNAs should play a role in repressing transposition activity during genome doubling. Except transposition activity, the targets of those ploidy-sensitive sRNAs involved many kinds of gene function categories, suggesting an overall regulation of sRNAs to polyploid biological processes. Findings from this study will provide theoretical bases for elucidating epigenetic mechanism of plant and sRNA evolution via genome doubling. Examination of 2 different small RNA expression profilings in 2 ploidy plants.

Project description:We analyzed the small RNAs bound to the fission yeast RITS and ARC complexes, and to Ago1 in wild-type and ARC mutant cells, to gain insight into the molecular role of ARC. We found that ARC contains longer heterochromatic siRNAs than RITS, and that ARC subunit Arb1 is required for loading small RNAs onto Ago1. Sequencing of 18-28 nt small RNAs from Tas3, Arb1 and Ago1 purifications.

Project description:We report flg22 regulate the accumulation of AGO1-bound small RNA in arabidopsis. We find that a number of miRNAs are up- or down-regulated by flg22, a well-studied PAMP. Examination of AGO1-bound small RNAs with or without flg22 treatment.

Project description:miRNAs can regulate target gene expression by mRNA cleavage. Rice degradome sequencing was employed to validate mRNA targets of rice miRNAs. Two rice samples, 3-week-old seedling and young panicles were included in the study.

Project description:To identify blast pathogen elicited miRNAs, four sRNA libraries were constructed: 8749036, A library, susceptible rice cultivar Zhonger-Ruanzhan; 12157795, B library, mock-treated blast resistant line H4; 9937360, C library, blast-treated susceptible rice cultivar Zhonger-Ruanzhan; and 11138187 clean reads, D library, blast-treated blast resistant line H4. The Short Oligonucleotide Analysis Package (SOAP; Beijing Genomics Institute) matched 85.46% (A, 7476714), 79.35% (B, 9647324), 77.70% (C, 7721715) and 76.10% (D, 8476386) sRNA reads to the genome. After removing other RNA categories matched to NCBI Genbank, Rfam database, known rice miRNA precursor, repeat associated RNA and siRNA, the remaining reads: 1681359(A); 3829741(B); 3182403(C); and 3970132(D), were used for further novel miRNA prediction. Since some miRNAs were tissue-specific, time-specific or stress-induced, only 291, 210, 164 and 220 registered miRNAs were identified in libraries A, B, C and D respectively. Thirty-one (A, 9385 reads), 399(B, 41024 read), 351(C, 36622 reads) and 333(D, 38064 reads) unique sRNAs were projected to be candidate miRNAs. Examination of mock-treated rice cultivar, mock-treated blast resistant rice line H4, blast-treated susceptible rice cultivar, and blast-treated blast resistant rice line H4.