Project description:Here, we performed single cell RNA sequencing (scRNA-seq) of 1 (one) human fetal lung tissue specimen (18.9 week) and 2 (two) human fetal intestine specimens (12.1 and 18.9 week) (total of 3 (three) independent biological specimens). The data set is composed of approximately 5,000 lung cells and 7,500 intestine cells. Lineages captured across both tissues include but are not limited to epithelium, stroma, immune, neurons and endothelium.
Project description:Here, we performed single cell RNA sequencing (scRNA-seq) of human fetal duodenal tissue samples from 8 individual biological specimens across 7-21 weeks of gestation. The data set is composed of over 37,000 cells (between 3,000-9,000 cells per time point) from diverse intestinal lineages. Lineages captured include epithelium, mesenchyme, immune, neurons, and endothelium. These data were used to specifically interrogate the development and emergence of mesenchymal lineages during human development.
Project description:Here, we performed single-cell RNA sequencing (scRNA-seq) of a human fetal jejunum tissue sample from 1 individual biological specimen age 40 weeks post conception. The data set is composed of cells from diverse intestinal lineages.
Project description:Here, we performed single cell RNA sequencing (scRNA-seq) of human fetal kidney tissue samples from 2 individual biological specimens (13.7 and 15.4 weeks gestation). The data set is composed of approximately 10,000 cells from diverse renal lineages. Lineages captured include nephron progenitors, epithelium, stroma, immune, and endothelium.
Project description:Here, we performed single cell RNA sequencing (scRNA-seq) of human fetal ileum tissue samples from 3 individual biological specimens ages 11.4, 14.4, and 18.9 weeks post conception. The data set is composed of over 16,000 cells from diverse intestinal lineages.
Project description:Here, we used single cell RNA-sequencing (scRNA-seq) to profile 13-week post-conception distal human fetal lung explants cultured in an air liquid interface system and treated with an LGR5 ectodomain adenovirus that inhibits R-Spondin function or control adenovirus. A third, non-infected, condition was also sequenced. We also performed scRNA-seq on distal human fetal lung tissue from an 8.4-week post-conception biological specimen. Diverse cell lineages were captured in all data sets, and include epithelium, mesenchyme, immune, neurons, and endothelium.