Project description:Blastocysts consist of cells that form the inner cell mass and the trophectoderm. The full transcriptome of bovine blastocyst embryos was examined in this study. Total RNA was isolated from three independent batches of blastocysts. Using Poly(A) capture mRNA was isolated and cDNA libraries prepared using Illumina TruSeq RNA sample Prep Kit. The libraries were sequenced using Illumina HiSeq 4000. This dataset should serve as a baseline for understanding bovine pluripotency and trophoblast stem cells providing a snapshot for functional interpretation of preimplantation embryo development.

Project description:Polaris HiSeq 4000 PGx 10X Cohort

Project description:Stable zebrafish cell lines were created that expressed GFP under the control of a previously characterized mouse Smarcd3 enhancer (10.7554/eLife.03848). Specifically, the 2.7 kb Mouse Smarcd3-F6 sequence (chr5: 24113559 -24116342 from mm9 assembly) was sub-cloned from a gateway entry vector into the Zebrafish Enhancer Detection (ZED). Tol2-mediated transgenesis was performed and stable lines were created. The Smarcd3-F6:EGFPhsc70 allele was used for all genomics experiments. Smarcd3-F6:EGFPhsc70 embryos were dissociated at 10 hours post fertilization for fluorescent activated cell sorting (FACS) to collect GFP+ cells. Single-cell cDNA libraries were prepared using Fluidgim C1 system ((Fluidgim, PN 100-7168 Rev. B1)). 96 single-cell libraries were collected from three batches of experiments and sequenced on the Illumina HiSeq 2500 platform. Data from 92 cells (number of genes detected > 2000) were kept for clustering analysis. For the tube control experiments we performed mRNA-seq on ~4000 cells from the same embryo batches as the scRNA-seq experiments. GFP negative cells were also included to enable a GFP+ versus GFP- comparison. Libraries were made following the Fluidgim C1 mRNA-seq tube control protocol (Fluidgim, PN 100-7168 Rev. B1). Polyadenylated mRNA was captured by Oligo-dT primers and PCR amplified after reverse transcription. Final sequencing libraries were made using Nextera XT DNA Sample Preparation Kit and pair-end sequenced on the Illumina HiSeq 2500 platform.

Project description:Barcode swapping results in the mislabeling of sequencing reads between multiplexed samples on the new patterned flow cell Illumina sequencing machines. This may compromise the validity of numerous genomic assays, especially for single-cell studies where many samples are routinely multiplexed together. The severity and consequences of barcode swapping for single-cell transcriptomic studies remain poorly understood. We have used two statistical approaches to robustly quantify the fraction of swapped reads in each of two plate-based single-cell RNA sequencing datasets. We found that approximately 2.5% of reads were mislabeled between samples on the HiSeq 4000 machine, which is lower than previous reports. We observed no correlation between the swapped fraction of reads and the concentration of free barcode across plates. Further- more, we have demonstrated that barcode swapping may generate complex but artefactual cell libraries in droplet-based single-cell RNA sequencing studies. To eliminate these artefacts, we have developed an algorithm to exclude individual molecules that have swapped between samples in 10X Genomics experiments, exploiting the combinatorial complexity present in the data. This permits the continued use of cutting-edge sequencing machines for droplet-based experiments while avoiding the confounding effects of barcode swapping. This data repository contains the sequencing files associated with the droplet based scRNA-seq dataset in Griffiths et al. (2018). The data presented here should purely used for technical analysis, the biological motivation is nonetheless briefly described in the following: The mammary gland is a unique organ as it undergoes most of its development during puberty and adulthood. Characterising the hierarchy of the various mammary epithelial cells and how they are regulated in response to gestation, lactation and involution is important for understanding how breast cancer develops. Recent studies have used numerous markers to enrich, isolate and characterise the different epithelial cell compartments within the adult mammary gland. However, in all of these studies only a handful of markers were used to define and trace cell populations. Therefore, there is a need for an unbiased and comprehensive description of mammary epithelial cells within the gland at different developmental stages. To this end we used single cell RNA sequencing (scRNAseq) to determine the gene expression profile of individual mammary epithelial cells across four adult developmental stages; nulliparous, mid gestation, lactation and post weaning (full natural involution).

Project description:The sample library was built using ILUMIMA recommended kit, and the original data was sequenced using HiSeq 4000. The simple procedure is as follows: the sample RNA is reverse-transcribed into a cDNA, then a poly A is added at the 3’ End, then the sample is connected to the sequencing connector of the kit, and then PCR amplification is performed. Finally, HiSeq 4000 was used to detect the fault.

Project description:The aim of this study was to quantify the impact of NOD genetic vatiation on the transcriptional programs induced by the alpha beta-TCR at the DN to DP transition in the BDC2.5 TCR Tg model CD4 and CD8-complement mediated depletion followed by FACS Experiment type: BDC2.5 TCR Tg or polyclonal B6g7 versus NOD

Project description:Illumina HiSeq 4000 paired end sequencing of Daphnia magna clonal populations

Project description:Purpose: To establish the steady state heterogeneity of murine Dendritic Epidermal T Cells (DETC) and to investigate the function of their constitutive interaction with neighbouring keratinocytes via Skint1 Methods: CD3+ cells were FACS purified from ear epidermal suspensions prepared from FVB mice administered isotype control or anti-Skint1 antibody 7d prior, then loaded into the 10x Genomics Chromium Platform and sequenced using Illumina HiSeq 4000. Conclusions: This analysis identifies four states of DETC in unperturbed epidermis, and reveals that DETC TCR sensing of keratinocytes via Skint1 potentially enables natural immune surveillance and maintains their thymic maturation signature in the periphery

Project description:Sample index hopping refers to the incorrect sample assignment of a demultiplexed sequencing read in a library pool. To enable benchmarking of methods for measurement of index hopping rate and removal of its artifacts in single-cell RNA-seq data, we developed a validation dataset consisting of a multiplexed library of two samples, in which the true sample of origin of most reads are known. The reads with known sample of origin provide the ground truth for measuring the performance of index hopping correcting methods.

Project description:It is known that ubiquitination is important for T cell receptor (TCR) signaling during T cell activation but the breadth of ubiquitination events triggered during TCR signaling is not completely understood. This dataset utilizes di-glycine remnant profiling combined with mass spectrometry to identify a global landscape of ubiquitination events downstream of the TCR and to quantify changes ubiquitin abundance in response to TCR stimulation. Additionally, whole cell proteomics data were generated to measure protein abundances during TCR stimulation. Mouse primary T cells were isolated, proliferated and either remained resting or stimulated with CD3/CD28 to activate downstream signaling through the TCR and co-stimulatory pathways. Di-glycine remnant profiling and whole cell proteomics was performed on rested cells and cells that had undergone CD3/CD28 TCR stimulation for 4 hours. These data were analyzed to identify the ubiquitination events during TCR activation and to quantify the change in peptide-based ubiquitin abundance and total protein abundance over the course of the 4 hour TCR stimulation. Integration of di-glycine and whole cell proteomics was used to generate protein-specific predictions of whether ubiquitination events downstream of TCR signaling lead to a decrease in associated protein abundance. The analysis of these data suggests that T cell activation leads to an increase in ubiquitination that is not associated with proteasomal or lysosomal degradation.