Ancestry Networks for the Human Cell Atlas
These projects support researchers to contribute healthy, single-cell reference data from ancestrally diverse tissue samples to the Human Cell Atlas, with the aim of creating a more globally representative resource to understand disease.
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This team will develop a cell map of gene expression profiles for healthy immune cell and gallbladder tissue from diverse indigenous and admixed populations across the Americas.
This team will analyze genetic and environmental factors driving transcriptional and epigenomic variation in immune responses at the single-cell level in individuals of African ancestry residing in urban and rural areas.
This team will develop a comprehensive atlas of prostate, breast and human fallopian tube at single-cell resolution across the African diaspora in the U.S., Caribbean, and West and East Africa.
This team will develop an ancestrally diverse atlas of the adult human musculoskeletal system.
This team will develop a comprehensive atlas of the human prostate at single-cell resolution.
This team will build an open source, spatially resolved single-cell atlas from skin tissue samples across a variety of ancestries.
This team will generate a comprehensive, spatially resolved single-cell atlas of the human eye across diverse ancestral backgrounds, compare results against existing data, and integrate into the current cell atlas dataset.
This team will develop a reference atlas of placental cells from understudied populations and examine population-specific vulnerabilities to pregnancy complications.
This team will develop a single-cell multi-omics and spatial transcriptomics atlas of ancestrally diverse, healthy heart tissue.
This team will extensively characterize immune cell variation in healthy tissue sampled from ancestrally diverse Asian populations.
This team will develop a multi-omic single-cell atlas of the immune system of Indonesian people from various ancestral backgrounds and environments.
This team will develop comprehensive single-cell resolution maps of gene expression and epigenetic variation in immune cells from Indigenous South American populations.
This team will develop a single-cell atlas of lymph node vaccine immune responses in ancestrally diverse groups in the U.K. to accelerate vaccine discovery research and encourage a community-driven approach to vaccine research for the benefit of all.
This team will profile the immune cell landscape using a combination of single-cell transcriptomics, proteomics, and epigenomic sequencing technologies in peripheral blood mononuclear cells across diverse Latin American populations.
This team will generate multi-omics maps of the cellular diversity in the human endometrium across diverse ancestries.
This team will generate a single-cell atlas of reproductive and perinatal development of ethnically diverse Nigerian donors to study the effects of environmental factors on pregnancy.
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