# ______________________________________________________________________ # # # This demo draw chromosome ideogram with padding area between # chromosomes, highlights, and chromosome names, label gene names # in the second data track and put connectors between chromosome # ideogram and gene names. # # Usage: # # library(RCircos); # demo("RCircos.Gene.Connector.Demo"); # ______________________________________________________________________ # # Load RCircos package and defined parameters # _________________________________________________________________ # xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx library(RCircos); # Load gene label data and human cytoband data # _________________________________________________________________ # xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx data(RCircos.Gene.Label.Data); data(UCSC.HG19.Human.CytoBandIdeogram); cyto.info <- UCSC.HG19.Human.CytoBandIdeogram; # Setup RCircos core components: # _________________________________________________________________ # xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx RCircos.Set.Core.Components(cyto.info, NULL, 10, 5); # Ready to make Circos plot. Open the graphic device (pdf file) # _________________________________________________________________ # xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx out.file <- "RCircos.Gene.Connector.Demo.pdf"; pdf(file=out.file, height=8, width=8); RCircos.Set.Plot.Area(); title("RCircos Gene and Connector Plot Demo"); # Draw chromosome ideogram # _________________________________________________________________ # xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx message("Draw chromosome ideogram ...\n"); RCircos.Chromosome.Ideogram.Plot(); # Connectors in first track and gene names in the second track. # _________________________________________________________________ # xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx message("Add Gene and connector tracks ...\n"); data(RCircos.Gene.Label.Data); direction <- "in"; track.num <- 1; RCircos.Gene.Connector.Plot(RCircos.Gene.Label.Data, track.num, direction); gene.data <- RCircos.Gene.Label.Data; gene.colors <- rep("black", nrow(gene.data)) gene.colors[which(gene.data$Gene=="TP53")] <- "red"; gene.colors[which(gene.data$Gene=="BRCA2")] <- "red"; gene.colors[which(gene.data$Gene=="RB1")] <- "red"; gene.colors[which(gene.data$Gene=="JAK1")] <- "blue"; gene.colors[which(gene.data$Gene=="JAK2")] <- "blue"; gene.data["PlotColor"] <- gene.colors; name.col <- 4; track.num <- 2; RCircos.Gene.Name.Plot(gene.data, name.col, track.num, direction); # track.num <- 1; direction <- "out"; RCircos.Gene.Connector.Plot(RCircos.Gene.Label.Data, track.num, direction); track.num <- 2; RCircos.Gene.Name.Plot(gene.data, name.col, track.num, direction); # Close the graphic device and clear memory # _________________________________________________________________ # xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx dev.off(); message("R Circos Demo Done ...\n\n");