seurat-八-boxplot:不同组间不同细胞的基因表达.md 2.5 KB
title: Seurat (八) BoxPlot:不同组间不同细胞的基因表达 tags: [] id: '1231' categories:
- - 单细胞下游分析
生物信息学
date: 2021-11-03 19:20:15
f_image_output <- function(fileName, image, width=1920, height=1080, lc_pdf=T, lc_resolution=72){ if(lc_pdf){ width = width / lc_resolution height = height / lc_resolution pdf(paste(fileName, ".pdf", sep=""), width = width, height = height) }else{ png(paste(fileName, ".png", sep=""), width = width, height = height) } print(image) dev.off() } options(repr.plot.width=12, repr.plot.height=12) options(ggrepel.max.overlaps = Inf) f_icg_boxp <- function(lc_exp, lc_icg, lc_g, title = NULL){ lc_exp_L = melt(lc_exp[lc_icg, rownames(lc_g)]) lc_exp_L <- cbind(lc_exp_L, rownames(lc_exp_L)) colnames(lc_exp_L)=c('value','sample') if(is.data.frame(lc_g)){ lc_exp_L$group = lc_g[[1]] }else{ lc_exp_L$group = lc_g } p=ggplot(lc_exp_L,aes(x=group,y=value,fill=group))+geom_boxplot() p=p+stat_summary(fun="mean",geom="point",shape=23,size=3,fill="red") p=p+theme_set(theme_set(theme_bw(base_size=20))) p=p+theme(text=element_text(face='bold'),axis.text.x=element_text(angle=30,hjust=1),axis.title=element_blank()) if (length(title) == 0){title = lc_icg} p=p+ggtitle(title)+theme(plot.title = element_text(hjust = 0.5)) p } f_bp_gcg <- function(sObject, lc_groupN, lc_labelN, gG){ ss <- SplitObject(sObject, split.by = lc_groupN) lc_N = names(ss)[1] p = f_icg_boxp(ss[[lc_N]][['RNA']]@data, gG, ss[[lc_N]][[lc_labelN]], sprintf('%s in %s', gG, lc_N)) for (lc_N in names(ss)[-1]){ p = p + f_icg_boxp(ss[[lc_N]][['RNA']]@data, gG, ss[[lc_N]][[lc_labelN]], sprintf('%s in %s', gG, lc_N)) } p + plot_layout(ncol = 3) } f_br_cluster_f <- function(sObject, lc_groupN){ lc_filter <- unlist(unique(sObject[[lc_groupN]])) lc_filter <- lc_filter[!is.na(lc_filter)] lc_filter } f_metadata_removeNA <- function(sObject, lc_groupN){ sObject@meta.data <- sObject@meta.data[colnames(sObject),] sObject <- subset(x = sObject, !!sym(lc_groupN)%in%f_br_cluster_f(sObject, lc_groupN)) sObject } scRNA_split = readRDS("~/zlliu/R_output/21.09.21.SingleR/scRNA.rds") scRNA_split <- f_metadata_removeNA(scRNA_split, 'Region') f_bp_gcg(scRNA_split, 'Region', 'hM1_hmca_class', 'NRXN3')
