--- a
+++ b/6-Figure scripts/Fig S4.R
@@ -0,0 +1,146 @@
+library(data.table)
+library(dplyr)
+library(reshape2)
+library(ggplot2)
+library(ggdendro)
+library(readxl)
+library(ggpubr)
+
+excel_sheets("Fig S4 Source Data.xlsx")
+
+# Figure S4 ---------------------------------
+CorrDf_metab.metag_neu <- read_excel("Fig S4 Source Data.xlsx", sheet = "MetaG-MetaB Full")
+CorrDf_metab.trans_neu <- read_excel("Fig S4 Source Data.xlsx", sheet = "Trans-MetaB")
+CorrDf_spupro.trans_neu <- read_excel("Fig S4 Source Data.xlsx", sheet = "Trans-Sputpro")
+CorrDf_serpro.trans_neu <- read_excel("Fig S4 Source Data.xlsx", sheet = "Trans-Serpro")
+
+keyStr_df <- cbind.data.frame(dfnameStr = c("metag","metab","trans","serpro","spupro"),
+                              colStr = c("MetaG","MetaB","Trans","Cyto","Cyto"),
+                              stringsAsFactors=F)
+
+# nodes and types
+nodeXs <- c("metab","serpro","spupro")  #do not change the sequences of elements in nodeXs 
+nodeYs <- c("metag","trans")  #do not change the sequences of elements in nodeYs 
+ENtypes <- c("neu")
+
+for(enType in ENtypes){
+  #  enType = ENtypes[2]
+  
+  for(nodex in nodeXs){
+    # nodex = nodeXs[1]
+    
+    for(nodey in nodeYs){
+      # nodey = nodeYs[2]
+      
+      
+      corrDfName <- paste("CorrDf_",nodex,".",nodey,"_",enType,sep = "")
+      if(!exists(corrDfName)) next
+      
+      CorrDf <- eval(parse(text = corrDfName))
+      
+      NodeXCol <- which(sapply(CorrDf, function(x) all(grepl(keyStr_df$colStr[which(keyStr_df$dfnameStr == nodex)], x) )) )
+      colnames(CorrDf)[NodeXCol] <- "NodeX"
+      
+      NodeYCol <- which(sapply(CorrDf, function(x) all(grepl(keyStr_df$colStr[which(keyStr_df$dfnameStr == nodey)], x) )) )
+      colnames(CorrDf)[NodeYCol] <- "NodeY"
+      
+      
+      # organize the orders of nodex and nodey
+      dat_r.w <- CorrDf %>% reshape2::dcast(NodeY ~ NodeX, value.var = "Correlation")
+      rownames(dat_r.w) <- dat_r.w$NodeY; dat_r.w <- dat_r.w[-1]
+      
+      if(T){
+        df <- t(dat_r.w) 
+        x <- as.matrix(scale(df))
+        dd.col <- as.dendrogram(hclust(dist(x)))
+        col.ord <- order.dendrogram(dd.col)
+        
+        dd.row <- as.dendrogram(hclust(dist(t(x))))
+        row.ord <- order.dendrogram(dd.row)
+        
+        xx <- scale(df)[col.ord, row.ord] 
+        xx_names <- attr(xx, "dimnames") 
+        #df <- as.data.frame(xx)
+        ddata_x <- dendro_data(dd.row) 
+        ddata_y <- dendro_data(dd.col) 
+      } 
+      if(!exists(paste("order_",nodey,sep = ""))) assign(paste("order_",nodey,sep = ""), xx_names[[2]],envir = .GlobalEnv)
+      if(!exists(paste("order_",nodex,sep = ""))) assign(paste("order_",nodex,sep = ""), xx_names[[1]],envir = .GlobalEnv)
+      
+      
+      order_nodex <- eval(parse(text = paste("order_",nodex,sep = "")))
+      order_nodey <- eval(parse(text = paste("order_",nodey,sep = "")))
+      
+      if(!all(unique(CorrDf$NodeX) %in% order_nodex) ) {print(paste("not all nodes of ", nodex," were in predefined order so stop",sep = ""));break}
+      if(!all(unique(CorrDf$NodeY) %in% order_nodey) ) {print(paste("not all nodes of ", nodey," were in predefined order so stop",sep = ""));break}
+      
+      
+      CorrDf$NodeX <- factor(CorrDf$NodeX, levels = order_nodex)
+      CorrDf$NodeY <- factor(CorrDf$NodeY, levels = order_nodey)
+      
+      CorrDf$ColorType <- sapply(c(1:nrow(CorrDf)), 
+                                 function(i) {
+                                   if(CorrDf$Linked[i] == "Y") return("Y") else if(CorrDf$`P-value`[i] >= 0.05) return("N_ns") else if(CorrDf$Correlation[i]>0) return("N_sig_posCorr") else return("N_sig_negCorr")
+                                 })
+      
+      CorrDf$absCorr <- abs(CorrDf$Correlation)
+      
+      
+      CorrDf <- CorrDf %>% filter( NodeX %in% order_nodex) %>% filter(NodeY %in% order_nodey)
+      CorrDf$NodeX <- factor(CorrDf$NodeX, levels = order_nodex)
+      CorrDf$NodeY <- factor(CorrDf$NodeY, levels = order_nodey)
+      
+      
+      p <- ggplot(data = CorrDf, aes(x=NodeX,y=NodeY))+
+        geom_tile(aes(fill=ColorType, alpha=absCorr),color="white") +
+        theme(axis.text.x = element_text(angle = 90))+
+        #scale_fill_manual(values=c("white","#e2e2e2","#cc0202"))+
+        scale_fill_manual(values = c("white","#c1c1ff","#ffb6b6","#cc0202")) +
+        #scale_alpha(limits = c(0.0,1.0), range = c(0,0.6))+
+        theme(  panel.grid.major = element_blank(),
+                panel.grid.minor = element_blank(),
+                panel.background = element_blank())
+      # axis.title.x = element_text(colour=NA),
+      # axis.title.y = element_blank())
+      
+      assign(paste("HeatP_",nodex,".",nodey,"_",enType,sep = ""), p, envir = .GlobalEnv)
+      
+    }
+    
+    
+  }
+  
+  
+  assign(paste("order_metab_",enType,sep = ""), order_metab, envir = .GlobalEnv)
+  assign(paste("order_metag_",enType,sep = ""), order_metag, envir = .GlobalEnv)
+  assign(paste("order_trans_",enType,sep = ""), order_trans, envir = .GlobalEnv)
+  assign(paste("order_serpro_",enType,sep = ""), order_serpro, envir = .GlobalEnv)
+  assign(paste("order_spupro_",enType,sep = ""), order_spupro, envir = .GlobalEnv)
+  
+  remove(order_metab,order_metag,order_trans, order_serpro, order_spupro)
+}
+
+
+
+
+# Fig S4. NEU integrated plot
+ggarrange(ggarrange(HeatP_metab.trans_neu + 
+                      theme(legend.position = "none", axis.text.x = element_blank(),axis.text.y = element_blank()) +
+                      xlab("MetaB") + ylab("Trans"), 
+                    HeatP_spupro.trans_neu + 
+                      theme(legend.position = "none", axis.text.x = element_blank(),axis.text.y = element_blank()) +
+                      xlab("Sputum") + ylab("Trans"),
+                    HeatP_serpro.trans_neu + 
+                      theme(legend.position = "none", axis.text.x  = element_blank(),axis.text.y = element_blank()) +
+                      xlab("Serum") + ylab("Trans"),
+                    nrow = 1, widths = c(0.55,0.3,0.15)),
+          ggarrange(HeatP_metab.metag_neu + 
+                      theme(legend.position = "none", axis.text.x = element_blank(),axis.text.y = element_blank()) +
+                      xlab("MetaB") + ylab("MetaG"), 
+                    ggplot() + geom_text(aes(x=0,y=0),label="NEU") + theme_dendro(), 
+                    nrow = 1, widths = c(0.55,0.45)),
+          nrow = 2,heights = c(0.6,0.4))
+
+
+
+