Project description:The goal of this study was to identify AGO1-dependent miRNA and tasiRNA in Arabidopsis by sequencing small RNA from wild type (Col-0) and ago1-25 plants. Keywords: Small RNA

Project description:Sequencing of small RNA libraries prepared from total RNA or RNA extracted from immuno affinity purified AGO1 from Col-0, rns2-2 and rns2-3 flowers. The aim of this experiment was to compare profiles of small RNA expression between Col-0 (wild type) and mutants of the ribonuclease T2 rns2-2 rns2-3 genotypes and characterize AGO1-bound small RNAs in the same genotypes. Two biological replicates of each genotype were prepared and analyzed.

Project description:The goal of this study was to identify AGO1-dependent miRNA and tasiRNA in Arabidopsis by sequencing small RNA from wild type (Col-0) and ago1-25 plants. Keywords: Small RNA Sequencing-by-synthesis technology was used to sequence small RNA from flower tissue (stages 1-12) from wild-type (Col-0) and ago1-25 Arabidopsis thaliana plants. Three biological replicates were sequenced for both Col-0 and ago1-25.

Project description:Arabidopsis thaliana Col-0 inflorescence small RNAs

Project description:Drosophila miRNAs show distinct change in isoform distribution pattern with age. Some miRNAs show accumulation of the short isoforms, while other miRNAs show the accumulation of the long isoforms with age. The increase of the long isoforms of some miRNAs reflects increased 2'-O-methylated miRNA isoforms with age. The increase in 2'-O-methylated miRNA isoforms reflected increased Ago2-loading, but not Ago1-loading of specific miRNA isoforms with age. This raised a question on whether there is global shift in small RNA loading pattern between Ago1 and Ago2 with age. To investigate change in small RNA loading pattern between Ago1 and Ago2 with age, we performed small RNA deep-sequencing of Ago1 vs Ago2-IP small RNAs at 3d and 30d in Drosophila. This analysis revealed global increase of miRNA loading into Ago2, but not into Ago1 with age.

Project description:Small RNA sequences from Arabidopsis thaliana Col-0 inflorescence tissues of three biological replicates. The data were analyzed to identify non-templated nucleotides in Arabidopsis small RNAs.

Project description:Aim and experimental set-up: Sequencing of small RNA from total RNA fractions. The aim of this experiment was to compare profiles of miRNA expression between the following genetic backgrounds: Col-0 (wild type), era1-2 (farnesyl transferase mutant), j2-2/j3-2 + pJ3:J3 (j2/j3 double knockout expressing transgenic J3 under the control of the endogenous J3 promoter), j2-2/j3-2 + pJ3:J3C417S (j2/j3 double knockout expressing transgenic J3 mutated in the farnesylation site (C417S) under the control of the endogenous J3 promoter). Seedlings were grown under sterile conditions for 16 days. Two biological replicates of each genotype were harvested, and total RNA was prepared by Trizol extraction. Small RNA libraries were constructed using NEBNext Small RNA Library Prep Set and sequenced on an Illumina platform. Sequencing of small RNA bound to AGO1 in membrane fractions The aim of this experiment was to characterize AGO1-bound small RNAs in membrane fractions, and to answer two specific questions: Can miRNAs be identified whose association with membrane-bound AGO1 is different between the following four genotypes: Col-0 (wild type), era1-2 (farnesyl transferase mutant), j2-2/j3-2 + pJ3:J3 (j2/j3 double knockout expressing transgenic J3 under the control of the endogenous J3 promoter), j2-2/j3-2 + pJ3:J3C417S (j2/j3 double knockout expressing transgenic J3 mutated in the farnesylation site (C417S) under the control of the endogenous J3 promoter) Is the ratio between reads matching miRNA and miRNA* different between the above four genotypes? Seedlings were grown under sterile conditions for 16 days. Two biological replicates of each genotype were harvested. Microsomes were prepared from 2g of seedling tissue, solubilized by 1% deoxycholate and AGO1 was immunoprecipitated with specific antibodies (Agrisera). Immunopurified AGO1 was eluted from Protein A sepharose beads by competitive elution with antigenic AGO1 peptide. Small RNA was extracted by Trizol extraction from eluted AGO1. Small RNA libraries were constructed using NEBNext Small RNA Library Prep Set and sequenced on an Illumina platform.

Project description:Drosophila miRNAs show distinct change in isoform distribution pattern with age. Some miRNAs show accumulation of the short isoforms, while other miRNAs show the accumulation of the long isoforms with age. The increase of the long isoforms of some miRNAs reflects increased 2'-O-methylated miRNA isoforms with age. The increase in 2'-O-methylated miRNA isoforms reflected increased Ago2-loading, but not Ago1-loading of specific miRNA isoforms with age. This raised a question on whether there is global shift in small RNA loading pattern between Ago1 and Ago2 with age. To investigate change in small RNA loading pattern between Ago1 and Ago2 with age, we performed small RNA deep-sequencing of Ago1 vs Ago2-IP small RNAs at 3d and 30d in Drosophila. This analysis revealed global increase of miRNA loading into Ago2, but not into Ago1 with age. 3d and 30d FLAG-HA-Ago2 male flies were collected. Ago1 and Ago2 were immunoprecipitated by anti-Ago1 and anti-FLAG M2 beads respectively. RNA was purified from the beads, P32-labeled, and small RNA fraction was gel-purififed. Small RNA libraries were prepared using Illumina's TruSeq small RNA sample preparation kit (#RS-200-0012, Illumina, Inc. San Diego, CA), following the manufacturer's protocol. The libraries were multiplexed and sequenced on HiSeq2000 platform (Illumina).

Project description:Small RNA from total RNA (input fraction) and immunoprecipitated HA-AGO1-complexes (IP fraction) were identified using high-throughput sequencing-by-synthesis.

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.