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- The Human Protein Atlas
The atlas for all human proteins in cells and tissues using various omics: antibody-based imaging, transcriptomics, MS-based proteomics, and systems biology Sections include the Tissue, Brain, Single Cell Type, Tissue Cell Type, Pathology, Disease Blood Atlas, Immune Cell, Blood Protein, Subcellular, Cell Line, Structure, and Interaction
- Introduction - The Human Protein Atlas
A cluster comparison between the HPA pipeline and Tabula Sapiens can be found here Learn about: mRNA and protein expression in single cell types; if a gene is enriched in a particular cell type (specificity) which genes have a similar expression profile across cell types (expression cluster)
- The Human Protein Atlas
The open access resource for human proteins Search for specific genes proteins or explore the 12 different sections
- The Human Protein Atlas
Version: 20 1 Atlas updated: 2021-02-24 release history Proteome analysis based on 26941 antibodies targeting 17165 unique proteins
- Downloadable data - The Human Protein Atlas
We thank Mark Thompson, Rajaram Kaliyaperumal and Eelke van der Horst (LUMC, The Netherlands), and Christine Chichester (SIB, Switzerland) for providing templates for generating the first beta-release of HPA nanopublications
- The Human Protein Atlas
HPA 21: Read about the new features: image of the day Research Articles: Read our key publications: Educational videos: Journey into the body: SARS-CoV-2 related proteins Digital collection: History of the Human Protein Atlas: read more Recent news Wed, 18 Jun 2025 The long sought-after ER-importer of ATP
- The human cell types - The Human Protein Atlas
A cluster comparison between the HPA pipeline and Tabula Sapiens can be found here Learn about: mRNA and protein expression in single cell types; if a gene is enriched in a particular cell type (specificity) which genes have a similar expression profile across cell types (expression cluster)
- Assays and annotation - The Human Protein Atlas
Consensus transcript expression levels for each gene were summarized in 50 human tissues based on transcriptomics data from the two sources HPA and GTEx The consensus nTPM value for each gene and tissue type represents the maximum nTPM value based on HPA and GTEx
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