R包和数据加载

if(!require(stringr))install.packages('stringr')
if(!require(ggplotify))install.packages("ggplotify")
if(!require(patchwork))install.packages("patchwork")
if(!require(cowplot))install.packages("cowplot")
if(!require(DESeq2))BiocManager::install('DESeq2')
if(!require(edgeR))BiocManager::install('edgeR')
if(!require(limma))BiocManager::install('limma')

rm(list = ls())
load("TCGA-stamgdc.Rdata")
table(group_list)

deseq2

library(DESeq2)
colData <- data.frame(row.names =colnames(exp), 
                      condition=group_list)
if(!file.exists(paste0(cancer_type,"dd.Rdata"))){
  dds <- DESeqDataSetFromMatrix(
  countData = exp,
  colData = colData,
  design = ~ condition)
  dds <- DESeq(dds)
  save(dds,file = paste0(cancer_type,"dd.Rdata"))
}
load(paste0(cancer_type,"dd.Rdata"))
load(file="TCGA-stamdd.Rdata")

# 两两比较
res <- results(dds, contrast = c("condition",rev(levels(group_list))))
resOrdered <- res[order(res$padj),] # 按照P值排序
DEG <- as.data.frame(resOrdered)
head(DEG)

#添加change列标记基因上调下调
logFC_cutoff <- #with(DEG,mean(abs(log2FoldChange)) + 2*sd(abs(log2FoldChange)) )
logFC_cutoff <- 1
DEG$change = as.factor(
  ifelse(DEG$pvalue < 0.05 & abs(DEG$log2FoldChange) > logFC_cutoff,
         ifelse(DEG$log2FoldChange > logFC_cutoff ,'UP','DOWN'),'NOT')
)
head(DEG)

table(DEG$change)
DESeq2_DEG <- DEG
save(DESeq2_DEG,file = "DESeq2_DEG.Rdata")

edgeR

rm(list = ls())
load("TCGA-stamgdc.Rdata")
library(edgeR)

dge <- DGEList(counts=exp,group=group_list)
dge$samples$lib.size <- colSums(dge$counts)
dge <- calcNormFactors(dge) 

design <- model.matrix(~0+group_list)
rownames(design)<-colnames(dge)
colnames(design)<-levels(group_list)

dge <- estimateGLMCommonDisp(dge,design)
dge <- estimateGLMTrendedDisp(dge, design)
dge <- estimateGLMTagwiseDisp(dge, design)

fit <- glmFit(dge, design)
fit2 <- glmLRT(fit, contrast=c(-1,1)) 

DEG=topTags(fit2, n=nrow(exp))
DEG=as.data.frame(DEG)
#logFC_cutoff <- with(DEG,mean(abs(logFC)) + 2*sd(abs(logFC)) )
logFC_cutoff <- 1
DEG$change = as.factor(
  ifelse(DEG$FDR < 0.05 & abs(DEG$logFC) > logFC_cutoff,
         ifelse(DEG$logFC > logFC_cutoff ,'UP','DOWN'),'NOT')
)
head(DEG)
table(DEG$change)
edgeR_DEG <- DEG
save(edgeR_DEG ,file = "edgeR_DEG .Rdata")

limma

rm(list = ls())
load("TCGA-stamgdc.Rdata")
table(group_list)
library(limma)

design <- model.matrix(~0+group_list)
colnames(design)=levels(group_list)
rownames(design)=colnames(exp)

dge <- DGEList(counts=exp)
dge <- calcNormFactors(dge)
logCPM <- cpm(dge, log=TRUE, prior.count=3)

v <- voom(dge,design, normalize="quantile")
fit <- lmFit(v, design)

constrasts = paste(rev(levels(group_list)),collapse = "-")
cont.matrix <- makeContrasts(contrasts=constrasts,levels = design) 
fit2=contrasts.fit(fit,cont.matrix)
fit2=eBayes(fit2)

DEG = topTable(fit2, coef=constrasts, n=Inf)
DEG = na.omit(DEG)
#logFC_cutoff <- with(DEG,mean(abs(logFC)) + 2*sd(abs(logFC)) )
logFC_cutoff <- 1
DEG$change = as.factor(
  ifelse(DEG$adj.P.Val < 0.05 & abs(DEG$logFC) > logFC_cutoff,
         ifelse(DEG$logFC > logFC_cutoff ,'UP','DOWN'),'NOT')
)
head(DEG)

#y=as.numeric(exp[rownames(DEG)[10],])
#x=group_list
#boxplot(y~x)
limma_voom_DEG <- DEG
save(limma_voom_DEG ,file = "limma_voom_DEG .Rdata")

3大R包对比

rm(list = ls())
load(file = "edgeR_DEG .Rdata")
load(file="limma_voom_DEG .Rdata")
load(file = "DESeq2_DEG.Rdata")
tj = data.frame(deseq2 = as.integer(table(DESeq2_DEG$change)),
           edgeR = as.integer(table(edgeR_DEG$change)),
           limma_voom = as.integer(table(limma_voom_DEG$change)),
           row.names = c("down","not","up")
          );tj
save(DESeq2_DEG,edgeR_DEG,limma_voom_DEG,group_list,tj,file = paste0(cancer_type,"DEG.Rdata"))

image.png

火山图和热图

rm(list = ls())
load("TCGA-stamDEG.Rdata")
load("TCGA-stamgdc.Rdata")

if(!require(tinyplanet))devtools::install_local("tinyplanet-master.zip",upgrade = F)
library(ggplot2)
library(tinyplanet)
exp[1:4,1:4]
dat = log(exp+1)
pca.plot = draw_pca(dat,group_list);pca.plot
save(pca.plot,file = paste0(cancer_type,"pcaplot.Rdata"))

cg1 = rownames(DESeq2_DEG)[DESeq2_DEG$change !="NOT"]
cg2 = rownames(edgeR_DEG)[edgeR_DEG$change !="NOT"]
cg3 = rownames(limma_voom_DEG)[limma_voom_DEG$change !="NOT"]

h1 = draw_heatmap(dat[cg1,],group_list,scale_before = T)
h2 = draw_heatmap(dat[cg2,],group_list,scale_before = T)
h3 = draw_heatmap(dat[cg3,],group_list,scale_before = T)

#m2d = function(x){
#  mean(abs(x))+2*sd(abs(x))
#}

v1 = draw_volcano(DESeq2_DEG,pkg = 1,logFC_cutoff = 1)
v2 = draw_volcano(edgeR_DEG,pkg = 2,logFC_cutoff = 1)
v3 = draw_volcano(limma_voom_DEG,pkg = 3,logFC_cutoff = 1)

library(patchwork)
(h1 + h2 + h3) / (v1 + v2 + v3) +plot_layout(guides = 'collect')

ggsave(paste0(cancer_type,"heat_vo.png"),width = 15,height = 10)

image.png

韦恩图

rm(list = ls())
load("TCGA-stamDEG.Rdata")
load("TCGA-stamgdc.Rdata")
load("TCGA-stampcaplot.Rdata")
UP=function(df){
  rownames(df)[df$change=="UP"]
}
DOWN=function(df){
  rownames(df)[df$change=="DOWN"]
}

up = intersect(intersect(UP(DESeq2_DEG),UP(edgeR_DEG)),UP(limma_voom_DEG))
down = intersect(intersect(DOWN(DESeq2_DEG),DOWN(edgeR_DEG)),DOWN(limma_voom_DEG))

hp = draw_heatmap(exp[c(up,down),],group_list,scale_before = T,n_cutoff = 1.6)

#上调、下调基因分别画维恩图

up.plot <- draw_venn(UP(DESeq2_DEG),UP(edgeR_DEG),UP(limma_voom_DEG),
                     "UPgene"
)
down.plot <- draw_venn(DOWN(DESeq2_DEG),DOWN(edgeR_DEG),DOWN(limma_voom_DEG),
                       "DOWNgene"
)
#维恩图拼图，终于搞定

library(patchwork)
#up.plot + down.plot
# 就爱玩拼图
pca.plot + hp+up.plot +down.plot
ggsave(paste0(cancer_type,"heat_ve_pca.png"),width = 15,height = 10)

image.png