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Sample GSM3385469 Query DataSets for GSM3385469
Status Public on May 08, 2019
Title RSV_Control_whole blood [MS0166]
Sample type SRA
 
Source name RSV_Control
Organism Mus musculus
Characteristics mouse model: Respiratory syncytial virus (RSV)
mouse strain: C57BL/6
condition: Control
infection protocol: Plaque-purified human RSV A2 strain originally obtained from the ATCC was grown to high titer (≥107 focus-forming units per ml) in Hep-2 cells, snap frozen, and assayed for infectivity prior to use. Female C57BL/6/J mice (MRC NIMR) were infected i.n. with 1x106 FFU of RSV diluted in 100ml PBS. Control uninfected mice received PBS only. Lung samples were collected from individual mice on day 2 post infection.
mouse number: 10
tissue: Whole blood
Extracted molecule total RNA
Extraction protocol Blood was collected in Tempus reagent (Life Technologies) at 1:2 ratio. Total RNA was extracted using the PerfectPure RNA Blood Kit (5 PRIME). Globin RNA was depleted from total RNA (1.5–2 µg) using the Mouse GLOBINclear kit (Ambion).
Globin-reduced RNA (200 ng) was used to prepare cDNA libraries using the TruSeq Stranded mRNA HT Library Preparation Kit (Illumina). Quality and integrity of the tagged libraries were initially assessed with the HT DNA HiSens Reagent kit (Perkin Elmer) using a LabChip GX bioanalyser (Caliper Life Sciences/Perkin Elmer). Tagged libraries were then sized and quantitated in duplicate (Agilent TapeStation system) using D1000 ScreenTape and reagents (Agilent). Libraries were normalised, pooled and then clustered using the HiSeq® 3000/4000 PE Cluster Kit (Illumina). The libraries were imaged and sequenced on an Illumina HiSeq 4000 sequencer using the HiSeq® 3000/4000 SBS kit (Illumina) at a minimum of 25 million paired-end reads (75 bp/100 bp) per sample.
 
Library strategy RNA-Seq
Library source transcriptomic
Library selection cDNA
Instrument model Illumina HiSeq 4000
 
Description MS0166_S37_L007
Data processing Raw paired-end RNA-seq data was subjected to quality control using FastQC (Babraham Bioinformatics) and MultiQC. Trimmomatic v0.36 was used to remove the adapters and filter raw reads below 36 bases long, and leading and trailing bases below quality 25. The filtered reads were aligned to the Mus musculus genome Ensembl GRCm38 (release 86) using HISAT2 v2.0.4 with default settings and RF rna-strandedness, including unpaired reads, resulting from Trimmomatic, using option -U. The mapped and aligned reads were quantified to obtain the gene-level counts using HtSeq v0.6.1 with default settings and reverse strandedness. Raw counts were processed using the bioconductor package DESeq2 v1.12.4 in R v3.3.1, and normalised using the DESeq method to remove the library-specific artefacts. Variance stabilizing transformation was applied to obtain normalised log2 gene expression values. Further quality control was performed using principal component analysis, boxplots, histograms and density plots.
Raw_counts_Blood_6_module_generation.xlsx: Raw counts generated from paired-end RNA-seq fastq files, aligned using HISAT2 and quantified using HtSeq
DESeq_normalised_counts_Blood_6_module_generation.xlsx: Normalised counts generated using the DESeq method to remove the library-specific artefacts
DESeq_VSTlog2_normalised_values_Blood_6_module_generation.xlsx: Log2 expression values generated from normalised counts using variance stabilizing transformation in DESeq2
Genome_build: Mus musculus genome Ensembl GRCm38 (release 86)
Supplementary_files_format_and_content: Excel files containing raw counts, DESeq2 normalized counts, and DESeq2 log2 expression values
 
Submission date Sep 12, 2018
Last update date May 08, 2019
Contact name Akul Singhania
E-mail(s) [email protected]
Phone +442037963319
Organization name The Francis Crick Institute
Street address 1 Midland Road
City London
ZIP/Postal code NW1 1AT
Country United Kingdom
 
Platform ID GPL21103
Series (2)
GSE119851 Global transcriptional profiling unveils the interferon network in blood and tissues across different diseases [RNA-seq_blood6_module_generation]
GSE119856 Global transcriptional profiling unveils the interferon network in blood and tissues across different diseases
Relations
BioSample SAMN10038045
SRA SRX4672847

Supplementary data files not provided
SRA Run SelectorHelp
Raw data are available in SRA
Processed data are available on Series record

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