Figure 5.
Identification of active regulons and gene signatures in primitive and definitive iRBCs. (A) Heat map of top 10 differentially expressed regulons across Seurat erythroid clusters. (B) Heat map of a selection of differentially active regulons in erythroid clusters. The color intensity represents the average regulon activity, z-score normalized by row. (C) Violin plot illustrating regulon activity of BCL11A and SOX6 in erythroid clusters. (D) Split violin plot of BCL11A, SOX6, and KLF1 regulon activity in FL-definitive erythroid clusters. Definitive iRBCs are shown in green and FL sample is shown in blue. Adjusted P-values are calculated using Wilcoxon rank sum test with Bonferroni correction (§Padj < 1e-4, #Padj < 1e-8). (E) GSEA analysis of FL and definitive and primitive-derived RBC. Normalized enrichment scores of significant pathways (Padj < .01) are shown.

Identification of active regulons and gene signatures in primitive and definitive iRBCs. (A) Heat map of top 10 differentially expressed regulons across Seurat erythroid clusters. (B) Heat map of a selection of differentially active regulons in erythroid clusters. The color intensity represents the average regulon activity, z-score normalized by row. (C) Violin plot illustrating regulon activity of BCL11A and SOX6 in erythroid clusters. (D) Split violin plot of BCL11A, SOX6, and KLF1 regulon activity in FL-definitive erythroid clusters. Definitive iRBCs are shown in green and FL sample is shown in blue. Adjusted P-values are calculated using Wilcoxon rank sum test with Bonferroni correction (§Padj < 1e-4, #Padj < 1e-8). (E) GSEA analysis of FL and definitive and primitive-derived RBC. Normalized enrichment scores of significant pathways (Padj < .01) are shown.

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