Project description:We provided a full spectrum analysis for E. histolytica AGO2-2 associated 27nt small RNAs. Additionally, comparative analysis of small RNA populations from virulent and non-virulent amebic strains indicates that small RNA populations may regulate virulence genes. AGO2-2 bound small RNAs from E. histolytica strain HM-1:IMSS were immunoprecipitated and sequenced using 454 technology. Three independant sequencing runs were perfomed using the same RNA sample. In addition, size selected small RNAs from E. histolytica strain Rahman were sequenced with the same technology. One sequencing run was performed on this sample.

Project description:Purpose: We aimed to identify miRNAs which are induced by the Activin/Nodal effectors, P-Smad2/3, in order to further our understanding of how P-Smad2/3 controls downstream gene expression in mouse ES cells to regulate crucial biological processes. Methods: We used a previously developed Tetracycline-On (Tet-On) system (TAG1) to manipulate the levels of P-Smad2/3 in mouse ES cells and performed an Illumina deep-sequencing screen to identify miRNAs which followed the P-Smad2/3 pathway. Results: We filtered the deep-seq data to identify a list of 28 miRNAs which showed a >1.25 fold increase in response to P-Smad2/3 induction and a >1.25 fold decrease in response to P-Smad2/3 repression. Conclusions: Our study represents a comprehensive global profiling of miRNA expression in response to changes in P-Smad2/3 levels in mouse ES cells. miRNA profiles of TAG1 cells which were untreated (control), SB-431541 treated (P-Smad2/3 repressed), or Dox treated (P-Smad2/3 induced), were generated using Illumina GAII.

Project description:MicroRNAs are instructions used by the genetic programs of a cell to fine-regulate protein expression levels. In order to gain insight into the full spectrum of miRNA regulation in a particular cellular context, we have exploited the idea that doubling the quantity of the endogenous miRNAs by transfection would enhance downregulation of the normally targeted transcripts. To this end, we isolated the small RNA fraction from cells in culture and transfected it into an identical culture in an amount corresponding to that of the endogenous miRNAs. A comparative gene expression analysis between transfected and mock-transfected cells revealed a large number of modestly downregulated genes. In silico analysis using TargetScan 5 revealed that a very high number of the expressed genes are predicted targets of the endogenous miRNAs, which we identified by deep-sequencing the small RNA fraction. Network analysis of the downregulated genes showed that miRNAs are involved in the simultaneous regulation of many pathways by targeting key molecules that interact with multiple pathways, suggesting a role of miRNAs in the synchronization of the activities of different pathways. Interestingly, we found a very high percentage of the genes regulated by miRNAs to be related to genetic disorders. This suggests that miRNAs might play a key role in maintaining homeostasis in processes that result in disease states when disregulated. Such a crucial role for miRNA regulation further underlines its importance for cell and organism survival. These results also confirm the important experimental value of our methodology as a high throughput tool for the identification of genes endogenously regulated by miRNAs. We isolated the small RNA fraction (20-200 bp) from one culture of normal human fibroblasts and performed quantitative deep sequencing on the Illumina/Solexa platform. We obtained a total of 19E06 sequences, which were blasted against mRNA, RFAM and repbase. The result revealed that the content of this fraction was shared (in % copy numbers) by rRNA: 1.03%, tRNA: 2.3649%, snRNA: 0.0611%, snoRNA: 1.3803%, mRNA: 1.8183%, ncRNA mapped to Rfam: 6.0411%, sequences mapped to repbase: 3.4146%, and the remaining 83% were pre-miRNA and miRNA. A total of 702 human miRNAs were detected. This number was reduced to 324 after filtering out all miRNAs with a copy number of less than 3.

Project description:Bone marrow-derived neutrophils from C57BL/6J mice were treated with 10% LLC1 conditional medium or normal medium as the control for 2 hours, then processed using the SimpleChIP Enzymatic Chromatin IP Kit according to the manufacturer’s instructions. Antibodies against Smad3 and IgG isotype were used for immunoprecipitation. We performed ChIP-seq for Smad3 immuno-enriched DNA (Input and Smad3-IP) and mapped clean sequences against GRCm38 using Bowtie2, and peaks were identified using model-based analysis for ChIP-Seq (MACS) with default parameters.

Project description:OBJECTIVE: MicroRNAs (miRNAs, miRs), a class of small non-coding RNA molecules, are posttranscriptional regulators involved in a plethora of cellular functions and have been proposed as potential therapeutic targets in various diseases, including rheumatoid arthritis (RA). In this study, we sought to discover novel miR associations in synovial fibroblasts (SFs), a key cell type mediating RA pathogenesis, by performing miR expression profiling on cells isolated from the human TNF transgenic mouse model (TghuTNF or Tg197). METHODS: miR expression in SFs isolated from 8-week-old, fully diseased TghuTNF and WT littermate control mice were determined by deep sequencing of small RNAs and the arthritic profile was established by pairwise comparisons of the two groups. qRT-PCR analysis was utilised for profile validation purposes and miR quantitation in patient SFs. Dysregulated miR target genes and pathways were predicted via bioinformatic algorithms. Synovial Fibroblasts isolated from TghuTNF mice (2 x biological replicates) and control WT littermate mice (2 x biological replicates)

Project description:Smad2 and Smad3 (Smad2/3) primarily mediates the transforming growth factor-β (TGF-β) signaling that drives cell proliferation, differentiation, and migration. The dynamics of the Smad2/3 phosphorylation provides the key mechanism for regulating the TGF-β signaling pathway. Here we identified NLK as a novel regulator of TGF-β signaling pathway via modulating the phosphorylation of Smad2/3 in the linker region.

Project description:In this study, we employed high-throughput RNA sequencing (RNA-Seq) to identify the Smad3-dependent lncRNAs related to renal inflammation and fibrosis in Smad3 knockout (KO) mouse models of unilateral ureteral obstructive nephropathy (UUO) and immunologically-induced anti-glomerular basement membrane glomerulonephritis (anti-GBM GN). 12 kidney tissue samples of Smad3 KO/WT mice from normal control, UUO at day 5 or anti-GBM GN at day 10 models (n=2 in each group) for whole transcriptome RNA-sequencing.

Project description:Small RNAs constitute a new and unanticipated layer of gene regulation present in the three domains of life. In plants, all organs are ultimately derived from a few pluripotent stem cells localized in specialized structures called apical meristems. The development of meristems involves a coordinated balance between undifferentiated growth and differentiation, a phenomenon requiring a tight regulation of gene expression. We used in vitro cultured embryogenic calli as a model to investigate the roles of meristem-associated small RNAs. Using high-throughput sequencing, we sequenced 20 million short reads with size of 18-30nt from rice undifferentiated and differentiated calli. We confirmed 50 known microRNA families, representing one third of annotated rice microRNAs. Using a specific computational pipeline for plant microRNA identification, we identified 24 novel microRNA families. Among them, 53 microRNA or microRNA* sequences appear to vary in expression between differentiated and undifferentiated calli, suggesting a role in meristem development. Our analysis also revealed a new class of plant small RNAs derived from 5' or 3' ends of mature tRNA analogous to the tRFs in human cancer cell. We independently verified the expression of these small RNAs from 5' end of mature tRNA using qRT-PCR. Examination of 2 different small RNA expression profilings in 2 developmental stages of meristems.

Project description:Study on sequencing biases introduced by library preparation step, namely by ligases. Comparison between standard Illumina protocol and improved High Definition (HD) protocol. Four replicates for N21 (21 random nucleotides), one replicate for N9 (9 random nucleotides), using either standard Illumina protocol or HD protocol

Project description:Preparation of exosomes isolated from semen contain a substantial amount of RNA, mostly from 20 to 100 nucleotides in length. We sequenced separately 20-40 and 40-100 nucleotide fractions of RNA from exosomes isolated from semenal fluid from six healthy donors. We found various classes of small non-coding RNA, including mature microRNA and piwi-RNA, as well as abundant Y RNAs and tRNAs present in both full length and fragmented forms. Specific RNAs were consistently present in all donors. For example, fifteen (of ~2,600 known) microRNAs constituted over 80% of mature microRNA in SE. Additionally, tRNA fragments were strongly enriched for 5M-bM-^@M-^Y-ends of 18-19 or 30-34 nucleotides in length. Size-fractionated small RNA profiles from exosomes isolated from the seminal fluid of six healthy donors