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Sample GSM4667883 Query DataSets for GSM4667883
Status Public on Jul 13, 2020
Title KC pancreas tuft cell 138
Sample type SRA
 
Source name KrasG12D;Ptf1aCre/+ (KC) mouse
Organism Mus musculus
Characteristics strain: Mixed
tissue: Pancreas
cell type: tuft cell
age: 8-10 month
Extracted molecule polyA RNA
Extraction protocol Pancreatic tuft cells were isolated from 3, 8-10 month old KC PanIN-bearing. The pancreas was quickly dissected, minced in 5 ml of DMEM with FBS and allowed to incubate for 2 min. Supernatant and fat were removed and pancreatic tissue was then incubated in 10 ml DMEM supplemented with 1 mg/ml collagenase I (Sigma), 1 mg/ml soybean trypsin inhibitor (Gibco), 1-1.5 mg/ml hyaluronidase (depending on tumor burden, Sigma), and 250 ml of DNAse I, shaking gently at 37°C for a maximum of 30 min. Digestion was monitored and tissue was further digested mechanically by pipetting. Digested tissue was passed through a 100 mm filter, washed with FACS buffer (PBS, 1 mM EDTA, 0.5% BSA), and incubated with ACK lysing buffer (Gibco) to remove red blood cells before staining for FACS. Single cell suspensions were incubated on ice with mouse Fc receptor block (BD Biosciences, 1:200) followed by antigen-specific antibodies in FACS buffer. DAPI (molecular probes, 1:1000) and Annexin V (Biolegend, Pacific Blue conjugate at 1:200) were used to exclude dead and dying cells. Cells were labeled with Cd45 (Alexa Fluor 488), EpCAM (Alexa Fluor 647), and Siglec F (PE) (Biolegend, 1:200). Fluorescence Minus One (FMO) staining controls were included for gating populations of interest. Siglecf+;EpCAM+;Cd45- Cells were FACS purified at the Salk Institute’s Flow Cytometry core facility on a BD Biosciences Influx cell sorter (100-µm size nozzle, 1 x PBS sheath buffer with sheath pressure set to 20 PSI). Cells were sorted in 1-drop Single Cell sort mode for counting accuracy; these were deposited directly into lysis buffer composed of DNase/RNase-free water, Triton X-100, and Ribolock (Thermo Fischer) in a 96 well plate.
10x Genomics scRNA-seq was conducted on immune cells and fibroblasts collected by FACS from caerulein-treated KC and KPouC pancreata. Pancreata were digested and prepared as previously described for tuft cell isolation. Each sample was prepared by flow sorting live immune cells (EpCAM-neg;Cd45+) and non-immune stromal cells (EpCAM-neg;Cd45-neg); PI was used to exclude dead cells. Immune and non-immune stroma from each independent sample were mixed at a 7:3 ratio, respectively, prior to loading on the microfluidic chip with barcoded beads according to 10X Chromium Next GEM Single Cell 3’ (v3.1, Catalog # 1000128, 10x Genomics Inc).
SmartSeq2 libraries were constructed as previously described (Picelli et al., 2014)
10x Genomics: Cell lysis, first strand cDNA synthesis and amplification were carried out according to 10X v3.1 protocol, with cDNA amplification set for 11 cycles. Following sample indexing and bead-based library purification, cDNA fragments distribution and concentration were measured using TapeStation (Agilent Biosystems) and Qubit (ThermoFisher).The libraries were pooled in equal mole ratio and sequenced in two illumine NextSeq 550 PE-75 high-output runs.
 
Library strategy RNA-Seq
Library source transcriptomic
Library selection cDNA
Instrument model Illumina HiSeq 2500
 
Description Tuft_cell_138
Data processing Smartseq2: Reads were aligned to the mm10 mouse genome using STAR version 2.5.3a (73). Mapping was carried out using default parameters, filtering non-canonical introns and allowing up to 10 mismatches per read and only keeping uniquely mapped reads. Raw transcript Samrtseq2: counts were obtained using HTSeq version 0.9.1 (74). The union of all detected genes was compiled into a single expression table (156 cells and 27,998 genes)
Smartseq2: Cells with less than 500 unique genes and genes expressed in fewer than 3 cells were filtered using the Seurat R package. Genes were log-normalized in Seurat.
10x Genomics: fastq files were processed using cellranger 3.1.0 and mm10 reference.The raw sequencing data from each mice was first processed separately in Cell Ranger v3.1.0 using refdata-mm10-3.0.0 and default parameters (10x Genomics). Each dataset captured similar number of cells (~4500 cells/mice) with similar sequencing depth (median ~20k reads/cell). The cellranger filtered gene-by-cell count matrices were loaded to the R package Seurat (v3.1.4) and combined into a single merged matrix. Low-quality cells were further filtered based on the percent of mitochondria gene reads, number of UMI, and number of genes detected (subset = percent.mt <7 & nCount_RNA < 25000 & nFeature_RNA >350)). After removing the low-quality cells, we applied a global-scaling normalization method “LogNormalize” that normalizes the gene expression measurement for each cell by the total expression, mulplies this by a scaling factor of 23,000. The normalized data is further linear transformed by ScaleData() function prior to dimension reduction. Principal components analysis (PCA) was performed on the scaled data by only using the most variable 2000 genes (identified using the default “vst” method). Batch effect between mice were examine in PCA space and no obvious batch effect was observed.
Genome_build: mm10
Supplementary_files_format_and_content: raw read counts per gene per cell
 
Submission date Jul 12, 2020
Last update date Jul 13, 2020
Contact name Zhibo Ma
E-mail(s) [email protected]
Organization name Salk Institute for Biological Studies
Street address 10010 N Torrey Pines Rd
City La Jolla
State/province California
ZIP/Postal code 92037
Country USA
 
Platform ID GPL17021
Series (2)
GSE154259 Tuft cells restrain pancreatic tumorigenesis through paracrine eicosanoid signaling [single-cell RNA-seq]
GSE154260 Tuft cells restrain pancreatic tumorigenesis through paracrine eicosanoid signaling
Relations
BioSample SAMN15512054
SRA SRX8713102

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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