Project description:Abstract: Paired-end sequence data has been generated using polyA selected RNA from a range of zebrafish tissues using the Illumina Genome Analyzer. Study description: Zebrafish total RNA was extracted from adult tissue, then polyA selected. After fragmentation and reverse transcription Illumina sequencing libraries were prepared. Paired-end sequence runs were performed with 76 base reads on the Illumina Genome Analyzer. ArrayExpress Release Date: 2011-01-28 Person Roles: submitter Person Last Name: Service Person First Name: Submission Person Mid Initials: Person Email: datahose@sanger.ac.uk Person Phone: Person Address: The Wellcome Trust Sanger Institute, Wellcome Trust Genome Campus, Hinxton, Cambridgeshire, CB10 1SA, United Kingdom Person Affiliation: Wellcome Trust Sanger Institute
Project description:Raw data from E-MTAB-1585 was normalized by using reads per million. https://www.ebi.ac.uk/arrayexpress/experiments/E-MTAB-1585/ Strand specific RNA-Seq data E-MTAB-1585 was normalized and subtracted control from knockdown to generate tracks that more clearly displayed the unusual pattern of RNA expression caused by knockdown of 7SK. The following wig files were generated from multiple samples (i.e.raw data files), as indicated in the 'readme.txt' file. 7sk_3p_KD_norm.wig: 7SK 3P Knockdown normalized 7sk_3p_KDF_norm.wig: 7SK 3P Knockdown normalized (Forward) 7sk_3p_KDR_norm.wig: 7SK 3P Knockdown normalized (Reverse) 7sk_5p_KD_norm.wig: 7SK 5P Knockdown normalized 7sk_5p_KDF_norm.wig: 7SK 5P Knockdown normalized (Forward) 7sk_5p_KDR_norm.wig: 7SK 5P Knockdown normalized (Reverse) 7sk_Control_norm.wig: 7SK Control normalized 7sk_ControlF_norm.wig: 7SK Control normalized (Forward) 7sk_ControlR_norm.wig: 7SK Control normalized (Reverse) 7sk_3p_KDF-ControlF.wig: 7SK 3P Knockdown-Control (Forward) 7sk_3p_KDR-ControlR.wig: 7SK 3P Knockdown-Control (Reverse) 7sk_5p_KDF-ControlF.wig: 7SK 5P Knockdown-Control (Forward) 7sk_5p_KDR-ControlR.wig: 7SK 5P Knockdown-Control (Reverse)
Project description:Crosslinking immunoprecipitation and sequencing was used to characterize nucleocapsid-RNA interactions in Rift Valley fever virus infection. This data set includes illumina HiSeq paired-end reads of Rift Valley fever virus infected HEK293 cells. The sequencing libraries were generated from nucleocapsid-bound RNAs.
Project description:We performed high coverage scRNA-Seq on a pool of MCF7 and HEK293-ZRT cells in a 9:1 ratio, respectively, using a total of 853 cells in this experiment. Detection of mobile element expression at the locus-specific level requires high sequencing depth. Here, MCF7 and HEK293-ZRT single cells have been sequenced to a sufficient level to quanitfy LINE1 expression in single cells and compare expression differences between individual cells. Single-cell RNA sequencing was carried out on individual cells using the 10X Genomics Chromium™ Single Cell 3’ Library & Gel Bead Kit v3 and 150 cycle kit. 750 cells were targeted for sequencing.
Project description:Sequencing the Zebrafish transcriptome from a range of tissues and developmental stages using the Illumina Genome Analyzer Paired-end sequence data has been generated using polyA selected RNA from a range of zebrafish tissues and developmental stages using the Illumina Genome Analyzer. These data have been used to improve the gene annotation of the zebrafish genome. Study description: Zebrafish total RNA was extracted from embryonic and adult tissue, then polyA selected. After fragmentation and reverse transcription Illumina sequencing libraries were prepared. Paired-end sequence runs were performed with 36, 37, 54 and 76 base reads on the Illumina Genome Analyzer. ArrayExpress Release Date: 2011-03-11 Person Roles: submitter Person Last Name: Collins Person First Name: John Person Mid Initials: E Person Email: jec@sanger.ac.uk Person Phone: 01233 834244 Person Address: Wellcome Trust Genome Campus, Hinxton, Cambridgeshire, CB10 1HH, United Kingdom Person Affiliation: Wellcome Trust Sanger Institute
Project description:This project studies TDP43, which is an RNA binding protein implicated in Motor Neuron Disease. As an RNA-binding protein, TDP43 is known to influences poly-adenylation site choice. For this project, we have inserted a single copy of the GFP-tagged TDP43 gene into the FLPIn Locus of HEk293 cells. We use these Hek293 FLipIn lines to instigate the effect of different deletion and mutation constructs of TDP-43 in their ability to rescue the depletion (siRNA) of the endogenous TDP-43 protein. We are comparing siRNA mediated KD in triplicates for each of the 7 cell lines to the Dox-induced rescues in triplicates. We are using a customised Lexogen Quantseq 3’ end sequencing method that allows us to multiplex cDNAs straight after the reverse transcription. The samples were pooled into barcoded sub-groups, each group will have the Lexogen barcode (i7 indices) in addition.