Project description:Quiescence modulates stem cell maintenance and regenerative capacity in the aging brain – SMART-seq2

Project description:Single cell RNA-seq of neural stem cells from young and old mice

Project description:10x Genomics Chromium WGS of Tursiops Aduncus

Project description:Early regenerative capacity in the porcine heart

Project description:Single cell Chromatin Accessibility profiling of forelimb bud at stage E11.5 in WT and Hox13 mutant (10x Chromium)

Project description:In this study, we assess technical differences between commonly used single-cell RNA-Sequencing (scRNA-Seq) methods. In this dataset, we assess the RNA detection rates using high-throughput 10x Genomics Chromium system. We mix equal volume of Control Brain RNA (3ul; FirstChoice Total Brain RNA; #AM7962) and ERCC spikes (3ul 1:4 dilution; #4456653) to make a '2x Control RNA+ERCC' master mix. The '2x Control RNA+ERCC' master mix is diluted with equal volume nuclease-free water to make '1x Control RNA+ERCC' master mix. 3ul of '1x Control RNA+ERCC' master mix is added to Chromium single cell suspension and processed as per Chromium guidelines. The sample-data relationship format (SDRF) file for this submission contains only a high-level representation of the sample, library and run information per flow cell, and not per cell. For meta-data at the level of individual cells, please refer to the supplementary file called single_cells_list.txt, which is included as part of this ArrayExpress submission.

Project description:Single cell sequencing with 10X Chromium Next GEM 3' of K562 and mESC cells

Project description:Cis-Regulatory Accessibility Directs Muller Glial Development and Regenerative Capacity

Project description:Chicken genome assembly validation using Chromium 10x linked-read sequencing dataset.

Project description:Background: The adult mammalian heart has limited ability to repair itself following injury. Zebrafish, newts and neonatal mice can regenerate cardiac tissue, largely by cardiac myocyte (CM) proliferation. It is unknown if hearts of young large mammals can regenerate. Methods: We examined the regenerative capacity of the pig heart in neonatal animals (ages: 2, 3 or 14 days postnatal) after myocardial infarction (MI) or sham procedure. Myocardial scar and left ventricular function were determined by cardiac magnetic resonance (CMR) imaging and echocardiography. Bromodeoxyuridine pulse-chase labeling, histology, immunohistochemistry and Western blotting were performed to study cell proliferation, sarcomere dynamics and cytokinesis and to quantify myocardial fibrosis. RNA-sequencing was also performed. Results: After MI, there was early and sustained recovery of cardiac function and wall thickness in the absence of fibrosis in 2-day old pigs. In contrast, older animals developed full-thickness myocardial scarring, thinned walls and did not recover function. Genome wide analyses of the infarct zone revealed a strong transcriptional signature of fibrosis in 14-day old animals that was absent in 2-day old pigs, which instead had enrichment for cytokinesis genes. In regenerating hearts of the younger animals, up to 10% of CMs in the border zone of the MI showed evidence of DNA replication that was associated with markers of myocyte division and sarcomere disassembly. Conclusions: Hearts of large mammals have regenerative capacity, likely driven by cardiac myocyte division, but this potential is lost immediately after birth.