examples/code/EB_Zhao2019/4_plotIc.randomGene.R
In xyang2uchicago/BioTIP: BioTIP: An R package for characterization of Biological Tipping-Point
#setwd("F:/projects/scRNA/results/AJ/GSE130146_xy/Results_1k/LibrarySize/GSE130146_robustness/")
setwd("E:/Git_Holly/scRNAseq_examples/result/EB_Zhao2019")
# PubMed ID 29311656
# GRCm38.p4
# annotation from the Ensembl database, version 84.
#
library(SingleCellExperiment)
library(scater)
library(scran)
library(dplyr)
library(BioTIP)
####################################################################
## generate the Ic scores for 100 random genes
####################################################################
load('../../data/EB_Zhao2019/sce.GSE130146_noenderdormPgerm.RData')
sce
# class: SingleCellExperiment
# dim: 4000 1531
# metadata(1): Samples
# assays(2): counts logcounts
# rownames(4000): Mesp1 Dppa5a ... 6330408A02Rik Tmem231
# rowData names(2): ID Symbol
# colnames(1531): AAACCTGAGTTTCCTT-1 AAACCTGCATGAAGTA-1 ...
# TTTGTCATCGGCTTGG-1 TTTGTCATCTGCTTGC-1
# colData names(14): Sample Barcode ... C_Leiden_1.2 C_Soft
# reducedDimNames(3): PCA TSNE UMAP
# altExpNames(0):
table(sce$C_SNNGraph_k5)
# 1 10 11 12 14 17 3 4 5 6 7 8 9
# 102 38 208 34 39 11 289 98 86 75 151 160 240
logmat <- as.matrix(logcounts(sce))
samplesL <- split(rownames(colData(sce)), f = sce$C_SNNGraph_k5)
lengths(samplesL)
n.sim = 100
n.gene = 50
Ic <- matrix(nrow=n.sim, ncol=length(samplesL))
# 1 10 11 12 14 17 3 4 5 6 7 8 9
# 102 38 208 34 39 11 289 98 86 75 151 160 240
set.seed(2022)
for(i in 1:n.sim){
random.gene <- sample(rownames(logmat), n.gene)
Ic[i,] <- getIc(logmat, samplesL, random.gene, fun="cor")
}
colnames(Ic) <- paste0('C',names(samplesL))
save(Ic, file=paste0('existing.Ic_',n.gene,'gene.RData') )
# reorder according to pesudo orders
Ic <- Ic[,c('C12', 'C6','C7','C10', 'C9', 'C4','C1','C3', 'C11', 'C8', 'C5', 'C14', 'C17' )]
average.Ic <- apply(Ic,2,mean)
pdf(file='average.Ic_50randomgene.pdf', height=3)
boxplot(Ic,xaxt='n',
xlab='cell cluster', main='EB',
las=1)
lines(1:length(average.Ic), average.Ic, type='b', col='red')
axis(1, at=1:length(average.Ic),labels= names(average.Ic), las=2)
dev.off()
wilcox.test(Ic[,'C9'], Ic[,'C4']) # p-value < 2.2e-16
wilcox.test(Ic[,'C4'], Ic[,'C1']) # p-value = 0.004505
xyang2uchicago/BioTIP documentation built on June 30, 2024, 10:14 p.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
#setwd("F:/projects/scRNA/results/AJ/GSE130146_xy/Results_1k/LibrarySize/GSE130146_robustness/")
setwd("E:/Git_Holly/scRNAseq_examples/result/EB_Zhao2019")
# PubMed ID 29311656
# GRCm38.p4
# annotation from the Ensembl database, version 84.
#
library(SingleCellExperiment)
library(scater)
library(scran)
library(dplyr)
library(BioTIP)
####################################################################
## generate the Ic scores for 100 random genes
####################################################################
load('../../data/EB_Zhao2019/sce.GSE130146_noenderdormPgerm.RData')
sce
# class: SingleCellExperiment
# dim: 4000 1531
# metadata(1): Samples
# assays(2): counts logcounts
# rownames(4000): Mesp1 Dppa5a ... 6330408A02Rik Tmem231
# rowData names(2): ID Symbol
# colnames(1531): AAACCTGAGTTTCCTT-1 AAACCTGCATGAAGTA-1 ...
# TTTGTCATCGGCTTGG-1 TTTGTCATCTGCTTGC-1
# colData names(14): Sample Barcode ... C_Leiden_1.2 C_Soft
# reducedDimNames(3): PCA TSNE UMAP
# altExpNames(0):
table(sce$C_SNNGraph_k5)
# 1 10 11 12 14 17 3 4 5 6 7 8 9
# 102 38 208 34 39 11 289 98 86 75 151 160 240
logmat <- as.matrix(logcounts(sce))
samplesL <- split(rownames(colData(sce)), f = sce$C_SNNGraph_k5)
lengths(samplesL)
n.sim = 100
n.gene = 50
Ic <- matrix(nrow=n.sim, ncol=length(samplesL))
# 1 10 11 12 14 17 3 4 5 6 7 8 9
# 102 38 208 34 39 11 289 98 86 75 151 160 240
set.seed(2022)
for(i in 1:n.sim){
random.gene <- sample(rownames(logmat), n.gene)
Ic[i,] <- getIc(logmat, samplesL, random.gene, fun="cor")
}
colnames(Ic) <- paste0('C',names(samplesL))
save(Ic, file=paste0('existing.Ic_',n.gene,'gene.RData') )
# reorder according to pesudo orders
Ic <- Ic[,c('C12', 'C6','C7','C10', 'C9', 'C4','C1','C3', 'C11', 'C8', 'C5', 'C14', 'C17' )]
average.Ic <- apply(Ic,2,mean)
pdf(file='average.Ic_50randomgene.pdf', height=3)
boxplot(Ic,xaxt='n',
xlab='cell cluster', main='EB',
las=1)
lines(1:length(average.Ic), average.Ic, type='b', col='red')
axis(1, at=1:length(average.Ic),labels= names(average.Ic), las=2)
dev.off()
wilcox.test(Ic[,'C9'], Ic[,'C4']) # p-value < 2.2e-16
wilcox.test(Ic[,'C4'], Ic[,'C1']) # p-value = 0.004505
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Embedding an R snippet on your website
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.