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Epigenetic regulation of miR-193b in liposarcomagenesis.

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Presentation on theme: "Epigenetic regulation of miR-193b in liposarcomagenesis."— Presentation transcript:

1 Epigenetic regulation of miR-193b in liposarcomagenesis.
Epigenetic regulation of miR-193b in liposarcomagenesis. A, density of methylation on chromosome 16 in DLPS1 (blue) and its matched normal adipose tissue (gray). B, methylation in the primary tumor (solid blue; positive and negative strands are dotted and dashed, respectively) and its matched normal adipose tissue (gray) in the region of the putative promoter [position of enrichment of histone H3K4me3 in nine human cell types (20) is indicated by horizontal lines] of miR-193b overlapping the shore of a CpG island (green bar). C, expression of miR-193b in normal adipose tissue samples, WLPS, and DLPS tumors determined by small RNA sequencing. The tumor in which methylation was observed (B) is highlighted (asterisks; P < 10−9, Student t test). D, expression of miR-193b as a function of percent methylation in the putative miR-193b promoter in a panel of both well-differentiated (WD, green) and dedifferentiated (DD, blue; DLPS1 is in red) liposarcomas [n = 17; the diagonal is indicated by dotted line; the red line is the regression (loess)]. E, cumulative distributions of expression changes of predicted miR-193b target genes (≥7-bp seed match length; n = 547 genes with expression data) between DLPS tumors and normal adipose tissues (green) or WLPS tumors and normal adipose tissues (blue) indicate that a greater number of predicted targets had increased expression in DLPS tumors with methylated miR-193b than expected by chance (P as indicated; Kolmogorov-Smirnov). Barry S. Taylor et al. Cancer Discovery 2011;1: ©2011 by American Association for Cancer Research

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