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Sample GSM5567849 Query DataSets for GSM5567849
Status Public on Nov 10, 2021
Title S3_02
Sample type SRA
 
Source name Intestinal organoid
Organism Mus musculus
Characteristics sample type: Ex vivo cell culture
batch: batch2
tissue: organoid
Growth protocol Intestinal organoids used were isolated from mouse crypts from dissociated mouse intestinal stem cell colonies from 5-10 week old heterozygous Lgr5-eGFP-IRES-CreERT2 mice. Isolation of Lgr5 eGFP+ stem cell population and initial culture was performed as described elsewhere. For developmental experiments, organoids were dissociated into cell suspensions and cells were embedded in Matrigel.
Extracted molecule polyA RNA
Extraction protocol After bead-cell in droplet co-encapsulation, the gel loading tip containing the sample droplets was transferred to a bead collection chip inlet (cp-chip; as described to in Lab on a chip). Droplets in the tip were flushed to bead collection chip. After beads were captured, washing was performed as in Drop-seq with 6X SSC and Reverse transcription buffer using the same tip. Reverse transcription solution was added to beads and recovery chip was placed on a heating block.
After bead-cell in droplet co-encapsulation, the gel loading tip containing the sample droplets was transferred to a bead collection chip inlet (cp-chip; as described in Lab on a chip). Droplets in the tip were flushed to bead collection chip. Subsequently to bead capture, washing was performed as in Drop-seq with SSC and Reverse transcription buffer directly in the recovery chip. Reverse transcription solution was added to the beads and the recovery chip was placed on a heating block to perform first strand cDNA synthesis (RT) for 90 minutes at 42oC. After RT reaction beads were washed on the recovery chip with TE-SDS once, with TE-TW twice and with Tris once. The beads were treated with Exonuclease I for 45 minutes at 37oC to remove single-stranded oligonucleotides on beads. After Exonuclease I treatment, beads were washed with TE-SDS once, with TE-TW twice (as after reverse transcription). Beads were then eluted from the recovery chip in dH2O. cDNA was amplified for 18 – 23 cycles using Kapa HiFi Hot start ready mix. cDNA was purified with CleanPCR magnetic beads using 0.6X ratio to remove small cDNA fragments and primers. To assess the cDNA yield and quality concentration was measured using Qubit and cDNA traces quality was assessed using Fragment Analyzer (Agilent). cDNA was tagmented with in-house Tn5 (generated as described in Picelli et al..) and the library was purified using CleanPCR magnetic beads (0.6X ratio).
Libraries were sequenced on a NextSeq 500 system (Illumina) following recommendations from original protocol (20 bp for read 1 and 50 bp for read2). 
 
Library strategy RNA-Seq
Library source transcriptomic
Library selection cDNA
Instrument model Illumina NextSeq 500
 
Data processing Drop-seq tools package on the EPFL SCITAS HPC platform. After trimming and sequence tagging, reads were aligned to the mouse  reference genome (mm10) using STAR (version 2.7.0.e). https://github.com/mccrowjp/Dropseq
Following the alignment, the gene annotation was added, bead synthesis errors were corrected and cell barcodes extracted. Subsequently, the BAM files containing the processed data were used to obtain digital gene expression matrices.
Downstream data analysis was carried out usingR (version 3.5.0) using Seurat (version 3.1.1) and uwot (version 0.1.3).
Genome_build: mm10
Supplementary_files_format_and_content: tab-delimited text files include read-count matrices for each organoid
 
Submission date Sep 08, 2021
Last update date Nov 10, 2021
Contact name Marjan Biočanin
E-mail(s) marjan.biocanin@epfl.ch
Organization name EPFL
Department SV-IBI
Lab Laboratory for systems biology and genetics/UPDE
Street address Station 19, SV 3820
City Lausanne
State/province Vaud
ZIP/Postal code 1015
Country Switzerland
 
Platform ID GPL19057
Series (2)
GSE148093 Low-input, deterministic profiling of single-cell transcriptomes reveals individual intestinal organoid subtypes comprised of single, dominant cell types
GSE183692 Low-input, deterministic profiling of single-cell transcriptomes reveals individual intestinal organoid subtypes comprised of single, dominant cell types [split organoids]
Relations
BioSample SAMN21357939
SRA SRX12105552

Supplementary file Size Download File type/resource
GSM5567849_merged_s3_02.txt.gz 173.5 Kb (ftp)(http) TXT
SRA Run SelectorHelp
Raw data are available in SRA
Processed data provided as supplementary file

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