Project description:This experiment consists of expression profiles for proteins in human tissues based on immunohistochemistry tissue microarrays. The tissue and cell samples came from 144 normal individuals. Normal tissues are represented by samples from three individuals each (except for endometrium, skin, soft tissue and stomach which are represented by samples from six individuals each), one core per individual. <br> The data presented here is based on The Human Protein Atlas version 13 and Ensembl version 75.37. This entry represents a top level summary of the metadata only. For more information about the immunochemistry assays and how the tissue microarrays work for the assays, please visit the Human Protein Atlas website: http://www.proteinatlas.org/about/assays+annotation#ih
Project description:We perfomed single-cell RNA-sequnecing of around 10,000 cells from normal human liver tissue to construct a human liver cell atlas. We reveal previously unknown subtypes in different cell type compartments. We also use our normal liver cell atlas to infer perturbed phenoytpes of cells from HCC samples, human cells engrafted into a mouse liver and liver organoids.
Project description:In this study, we generated a human inner ear atlas containing three stages of inner ear development. This atlas was used to evaluate the differentiation approach of human pluripotent stem cells in to complex inner ear tissue, known as inner ear organoids. The primary goal of this single-nucleus RNA-sequencing analysis was to capture the cell type diversity of the human inner ear at different stages of development. The secondary goal was to define the similarity of organoid-derived inner ear cell types with the atlas-derived human inner ear cell types and to determine the developmental stage of the organoid-derived inner ear cell types.
Project description:In this study, we quantified the relative protein levels from 12,627 genes across 32 normal human tissue types prepared by the GTEx project. Known and new tissue specific or enriched proteins were identified and compared to transcriptome data. Many ubiquitous transcripts are found to encode highly tissue specific proteins. Discordance in the sites of RNA expression and protein detection also revealed potential sites of synthesis and action of protein signaling molecules. Overall, these results provide an extraordinary resource, and demonstrate that understanding protein levels can provide insights into metabolism, regulation, secretome, and human diseases.
Project description:A DNA methylation atlas of normal human cell types. The atlas includes 205 whole-genome bisulfite sequencing (WGBS) samples, from 39 sorted cell types. The samples were paired-end sequenced with 30x coverage.