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Whole-genome genotyping of human islets using Illumina infinium chips
PubMed Full text in PMC Similar studies
Single-cell multiome (ATAC and RNA) landscapes of human islets in normoglycemia, prediabetes and type 2 diabetes
Integration of human genetics with single cell accessible chromatin profiles across phenotypes identifies islet cell type-specific regulatory programs of type 2 diabetes progression
Single-cell chromatin landscapes of human islets in normoglycemia, prediabetes and type 2 diabetes
PubMed Full text in PMC Similar studies SRA Run Selector
Extended data for pancreas single-cell patch-seq dataset in nondiabetic and T2D
Pancreas single cell patch-seq links physiologic dysfunction in diabetes to transcriptomic phenotypes
Single cell chromatin accessibility identifies pancreatic islet cell type- and state-specific regulatory programs of diabetes risk [Hi-C]
Single-cell chromatin accessibility identifies pancreatic islet cell type- and state-specific regulatory programs of diabetes risk
Single-cell chromatin accessibility identifies pancreatic islet cell type- and state-specific regulatory programs of diabetes risk [RNA-seq]
Single-cell chromatin accessibility identifies pancreatic islet cell type– and state-specific regulatory programs of diabetes risk [snATAC-seq]
Functional characterization of thousands of type 2 diabetes-associated and chromatin-modulating variants under steady state and endoplasmic reticulum stress
Single cell multi-omics analysis deconstructs diabetes-associated β-cell heterogeneity in human islets
miRNA-sequencing of human pancreatic islets and enriched beta-cells
ATAC-seq on human pancreatic islets
Epigenetic dosage determines the major axis of β-cell heterogeneity and stratifies Type-1 and Type-2 β-cells [scRNA-seq]
PubMed Similar studies
Epigenetic dosage identifies two major and functionally distinct β cell subtypes
PubMed Similar studies Analyze with GEO2R
Epigenetic dosage determines the major axis of β-cell heterogeneity and stratifies Type-1 and Type-2 β-cells [ChIP-seq]
Epigenetic dosage determines the major axis of β-cell heterogeneity and stratifies Type-1 and Type-2 β-cells [RNA-seq]
Epigenetic dosage determines the major axis of β-cell heterogeneity and stratifies Type-1 and Type-2 β-cells [DNAmethArray]
Persistent or Transient Human β-cell Dysfunction Induced by Metabolic Stress Associated with Specific Signatures and Shared Gene Expression of Type 2 Diabetes
PubMed Similar studies Analyze with GEO2RSRA Run Selector
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