Last updated: 2019-09-06
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Knit directory: apaQTL/analysis/
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library(workflowr)
This is workflowr version 1.4.0
Run ?workflowr for help getting started
library(tidyverse)
── Attaching packages ────────────────────────────────────────────────────────────────────────────────────── tidyverse 1.2.1 ──
✔ ggplot2 3.1.1 ✔ purrr 0.3.2
✔ tibble 2.1.1 ✔ dplyr 0.8.0.1
✔ tidyr 0.8.3 ✔ stringr 1.3.1
✔ readr 1.3.1 ✔ forcats 0.3.0
── Conflicts ───────────────────────────────────────────────────────────────────────────────────────── tidyverse_conflicts() ──
✖ dplyr::filter() masks stats::filter()
✖ dplyr::lag() masks stats::lag()
library(reshape2)
Attaching package: 'reshape2'
The following object is masked from 'package:tidyr':
smiths
In this analysis I wil use leafcutter to call PAS with differential ussage between fractions.
I first filter the annotated peak SAF file for peaks passing the 5% coverage in either fraction.
python makeSAFbothfrac5perc.py
mkdir bothFrac_FC
Run feature counts with these peaks with both fractions:
sbatch bothFrac_FC.sh
Fix the header:
python fixFChead_bothfrac.py ../data/bothFrac_FC/APApeaks.ALLChrom.Filtered.Named.GeneLocAnnoPARSED.5percCov.bothfrac.fc ../data/bothFrac_FC/APApeaks.ALLChrom.Filtered.Named.GeneLocAnnoPARSED.5percCov.bothfrac.fixed.fc
Remove location demoniaiton:
mkdir ../data/DiffIso
python fc2leafphen.py
Fix pheno to remove location:
python removeloc_pheno.py ../data/DiffIso/APApeaks.ALLChrom.Filtered.Named.GeneLocAnnoPARSED.5percCov.bothfrac.fixed.forLC.fc ../data/DiffIso/APApeaks.ALLChrom.Filtered.Named.GeneLocAnnoPARSED.5percCov.bothfrac.fixed.forLC_noloc.fc
python subset_diffisopheno.py 1
python subset_diffisopheno.py 2
python subset_diffisopheno.py 3
python subset_diffisopheno.py 4
python subset_diffisopheno.py 5
python subset_diffisopheno.py 6
python subset_diffisopheno.py 7
python subset_diffisopheno.py 8
python subset_diffisopheno.py 9
python subset_diffisopheno.py 10
python subset_diffisopheno.py 11
python subset_diffisopheno.py 12
python subset_diffisopheno.py 13
python subset_diffisopheno.py 14
python subset_diffisopheno.py 15
python subset_diffisopheno.py 16
python subset_diffisopheno.py 18
python subset_diffisopheno.py 19
python subset_diffisopheno.py 20
python subset_diffisopheno.py 21
python subset_diffisopheno.py 22
Make the sample groups file:
python LC_samplegroups.py
The leafcutter environment is not in the three-prime-seq environment. Make sure leafcutter is installed and working.
sbatch run_leafcutterDiffIso.sh
Rscript /project2/gilad/briana/davidaknowles-leafcutter-c3d9474/scripts/leafcutter_ds.R –num_threads 4 ../data/DiffIso/APApeaks.ALLChrom.Filtered.Named.GeneLocAnnoPARSED.5percCov.bothfrac.fixed.forLC.fc_22.txt ../data/bothFrac_FC/sample_groups.txt -o ../data/DiffIso/TN_diff_isoform_chr22.txt
Concatinate results:
awk '{if(NR>1)print}' ../data/DiffIso/TN_diff_isoform_chr*.txt_effect_sizes.txt > ../data/DiffIso/TN_diff_isoform_allChrom.txt_effect_sizes.txt
awk '{if(NR>1)print}' ../data/DiffIso/TN_diff_isoform_chr*.txt_cluster_significance.txt > ../data/DiffIso/TN_diff_isoform_AllChrom_cluster_significance.txt
sig=read.table("../data/DiffIso/TN_diff_isoform_AllChrom_cluster_significance.txt",sep="\t" ,col.names = c('status','loglr','df','p','cluster','p.adjust'),stringsAsFactors = F) %>% filter(status=="Success")
sig$p.adjust=as.numeric(as.character(sig$p.adjust))
qqplot(-log10(runif(nrow(sig))), -log10(sig$p.adjust),ylab="-log10 Total Adjusted Leafcutter pvalue", xlab="-log 10 Uniform expectation", main="Leafcutter differencial isoform analysis between fractions")
abline(0,1)
tested_genes=nrow(sig)
tested_genes
[1] 9221
sig_genes=sig %>% filter(p.adjust<.05)
number_sig_genes=nrow(sig_genes)
number_sig_genes
[1] 6946
sig_genesonly=sig_genes %>% separate(cluster,into=c("chrom", "geneName"), sep = ":") %>% dplyr::select(geneName)
write.table(sig_genesonly, file="../data/sigDiffGenes.txt", col.names = T, row.names = F, quote = F)
effectsize=read.table("../data/DiffIso/TN_diff_isoform_allChrom.txt_effect_sizes.txt", stringsAsFactors = F, col.names=c('intron', 'logef' ,'Nuclear', 'Total','deltaPAU')) %>% filter(intron != "intron")
write.table(effectsize,file="../data/DiffIso/EffectSizes.txt", quote = F, col.names = T, row.names = F)
effectsize$deltaPAU=as.numeric(as.character(effectsize$deltaPAU))
effectsize$logef=as.numeric(as.character(effectsize$logef))
Plot delta PAU:
plot(sort(effectsize$deltaPAU),main="Leafcutter delta PAU", ylab="Delta PAU", xlab="PAS Index")
Filter PAU > .2
effectsize_deltaPAU= effectsize %>% filter(abs(deltaPAU) > .2)
nrow(effectsize_deltaPAU)
[1] 1764
effectSize_highdiffGenes=effectsize_deltaPAU %>% separate(intron, into=c("chrom", "start", "end", "GeneName"), sep=":") %>% dplyr::select(GeneName) %>% unique()
write.table(effectSize_highdiffGenes, file="../data/highdiffsiggenes.txt", col.names = F, row.names = F, quote = F)
Genes in this set:
effectsize_deltaPAU_Genes= effectsize_deltaPAU %>% separate(intron, into=c("chrom", "start", "end","gene"),sep=":") %>% group_by(gene) %>% summarise(nperGene=n())
nrow(effectsize_deltaPAU_Genes)
[1] 1334
Filter >.2 in
effectsize_deltaPAU_nuclear= effectsize_deltaPAU %>% filter(deltaPAU < -0.2)
#write out at bed
#need strand info
PAS=read.table("../data/PAS/APAPAS_GeneLocAnno.5perc.bed", stringsAsFactors = F,col.names = c("chrom", "start", "end", "peak", "score", "strand") )%>% separate(peak, into=c("peaknum","peakID"), sep=":") %>% separate(peakID, into=c("gene", "loc"), sep="_") %>% dplyr::select(gene, strand) %>% unique()
effectsize_deltaPAU_nuclear_bed=effectsize_deltaPAU_nuclear %>% separate(intron, into=c("chr", "peakStart", "peakEnd", "gene"), sep=":") %>% inner_join(PAS, by="gene") %>% mutate(PASstart=ifelse(strand=="+", as.integer(peakEnd)-1, as.integer(peakStart)+1)) %>% mutate(PASend=ifelse(strand=="+", as.integer(peakEnd), as.integer(peakStart))) %>% mutate(score=".") %>% dplyr::select(chr, peakStart, peakEnd, gene, score, strand)
write.table(effectsize_deltaPAU_nuclear_bed, file="../data/PAS/UsedMoreNuclearPAU2.bed", col.names = F, row.names = F, quote = F,sep = "\t")
Filter >.2 in Total:
effectsize_deltaPAU_total= effectsize_deltaPAU %>% filter(deltaPAU > 0.2)
effectsize_deltaPAU_total_bed=effectsize_deltaPAU_total %>% separate(intron, into=c("chr", "peakStart", "peakEnd", "gene"), sep=":") %>% inner_join(PAS, by="gene") %>% mutate(PASstart=ifelse(strand=="+", as.integer(peakEnd)-1, as.integer(peakStart)+1)) %>% mutate(PASend=ifelse(strand=="+", as.integer(peakEnd), as.integer(peakStart))) %>% mutate(score=".") %>% dplyr::select(chr, peakStart, peakEnd, gene, score, strand)
write.table(effectsize_deltaPAU_total_bed, file="../data/PAS/UsedMoreTotalPAU2.bed", col.names = F, row.names = F, quote = F,sep="\t")
Sort the files:
sort -k1,1 -k2,2n ../data/PAS/UsedMoreTotalPAU2.bed > ../data/PAS/UsedMoreTotalPAU2.sort.bed
sort -k1,1 -k2,2n ../data/PAS/UsedMoreNuclearPAU2.bed > ../data/PAS/UsedMoreNuclearPAU2.sort.bed
Pull in location information for each PAS:
PAS=read.table("../data/peaks_5perc/APApeaks.ALLChrom.Filtered.Named.GeneLocAnnoPARSED.5percCov.bothfrac.SAF",stringsAsFactors = F,header = T) %>% separate(GeneID, into=c("num", "chr", "start", "end", "strand", "geneID"), sep=":") %>% separate(geneID, into=c("gene", "loc"),sep="_") %>% mutate(intron=paste("chr", Chr, ":", Start, ":", End, ":", gene,sep="")) %>% select(intron, loc)
effectsize_deltaPAU_total_loc=effectsize_deltaPAU_total %>% inner_join(PAS, by="intron")
ggplot(effectsize_deltaPAU_total_loc,aes(x=loc)) + geom_histogram(stat="count") + labs(title="Location of Total peaks >.2 PAU")
Warning: Ignoring unknown parameters: binwidth, bins, pad
effectsize_deltaPAU_nuclear_loc=effectsize_deltaPAU_nuclear %>% inner_join(PAS, by="intron")
ggplot(effectsize_deltaPAU_nuclear_loc,aes(x=loc)) + geom_histogram(stat="count") + labs(title="Location of Nuclear peaks >.2 PAU")
Warning: Ignoring unknown parameters: binwidth, bins, pad
Version | Author | Date |
---|---|---|
9d0950c | brimittleman | 2019-06-13 |
I will want to look at proportions. I need to know how many peaks are in each location:
PAS_loc =PAS%>% group_by(loc) %>% summarise(nloc=n())
effectsize_deltaPAU_total_locProp=effectsize_deltaPAU_total_loc %>% group_by(loc) %>% summarise(nloctotal=n())
effectsize_deltaPAU_nuclear_locProp=effectsize_deltaPAU_nuclear_loc %>% group_by(loc) %>% summarise(nlocnuclear=n())
effectsize_deltaPAUProp_tot=effectsize_deltaPAU_total_locProp %>% inner_join(PAS_loc, by="loc") %>% mutate(Proportion_tot=nloctotal/nloc)
effectsize_deltaPAUProp_nuc=effectsize_deltaPAU_nuclear_locProp %>% inner_join(PAS_loc, by="loc") %>% mutate(Proportion_nuc=nlocnuclear/nloc)
ggplot(effectsize_deltaPAUProp_tot, aes(x=loc, y=Proportion_tot)) + geom_bar(stat="identity") + labs(y="Proportion of all called PAS", title="Location of high Total used PAS")
ggplot(effectsize_deltaPAUProp_nuc, aes(x=loc, y=Proportion_nuc)) + geom_bar(stat="identity") + labs(y="Proportion of all called PAS", title="Location of high nuclear used PAS")
Version | Author | Date |
---|---|---|
9d0950c | brimittleman | 2019-06-13 |
Merge to 1 figure:
effectsize_deltaPAUProp_both= effectsize_deltaPAUProp_nuc %>% inner_join(effectsize_deltaPAUProp_tot, by=c("loc","nloc")) %>% dplyr::rename(Nuclear=Proportion_nuc, Total=Proportion_tot) %>% select(loc, Nuclear, Total)
effectsize_deltaPAUProp_both_melt= effectsize_deltaPAUProp_both %>% melt(id.vars="loc", variable.name="Fraction", value.name = "Proportion")
effectsize_deltaPAUProp_both_melt$Fraction=as.character(effectsize_deltaPAUProp_both_melt$Fraction)
ggplot(effectsize_deltaPAUProp_both_melt, aes(x=loc, y=Proportion, by=Fraction, fill=Fraction)) + geom_bar(stat="identity", position="dodge") + scale_fill_manual(values=c("deepskyblue3","darkviolet")) + labs(title="Proportion of PAS differential used by location",x="") +scale_x_discrete(labels = c('Coding','5kb downstream','Intronic',"3' UTR", "5' UTR")) +theme(axis.text.x = element_text(angle = 90, hjust = 1)) + theme(legend.position = c(0.1,.9), legend.direction = "horizontal") + theme(panel.background = element_blank())
effectsize_deltaPAU_total_locProp
# A tibble: 5 x 2
loc nloctotal
<chr> <int>
1 cds 30
2 end 63
3 intron 126
4 utr3 916
5 utr5 38
sum(effectsize_deltaPAU_total_locProp$nloctotal)
[1] 1173
effectsize_deltaPAU_nuclear_locProp
# A tibble: 5 x 2
loc nlocnuclear
<chr> <int>
1 cds 9
2 end 83
3 intron 387
4 utr3 101
5 utr5 11
sum(effectsize_deltaPAU_nuclear_locProp$nlocnuclear)
[1] 591
effectsize_deltaPAUProp_both_melt_sm=effectsize_deltaPAUProp_both_melt %>% filter(loc=="intron" | loc=="utr3")
ggplot(effectsize_deltaPAUProp_both_melt_sm, aes(x=loc, y=Proportion, by=Fraction, fill=Fraction)) + geom_bar(stat="identity", position="dodge") + scale_fill_manual(values=c("deepskyblue3","darkviolet")) + labs(title="Differencially Used PAS",x="", y="Proportion of All PAS at Location") +scale_x_discrete(labels = c('Intronic',"3' UTR")) +theme(axis.text.x = element_text(angle = 45, hjust = 1)) + theme(legend.position ="bottom", legend.direction = "horizontal") + theme(panel.background = element_blank(),text = element_text(size=16), plot.title = element_text(size = 20, face = "bold"),axis.text.x = element_text(size=14),axis.text.y = element_text(size=14))
effectsize_deltaPAUProp_both_melt_sm
loc Fraction Proportion
1 intron Nuclear 0.030250918
2 utr3 Nuclear 0.004996537
3 intron Total 0.009849136
4 utr3 Total 0.045315128
#intronic
prop.test(x=c(387,126), n=c(591,1173),alternative = "greater")
2-sample test for equality of proportions with continuity
correction
data: c(387, 126) out of c(591, 1173)
X-squared = 568.34, df = 1, p-value < 2.2e-16
alternative hypothesis: greater
95 percent confidence interval:
0.5106946 1.0000000
sample estimates:
prop 1 prop 2
0.6548223 0.1074169
#3' utr
prop.test(x=c(101,916), n=c(591,1173),alternative = "less")
2-sample test for equality of proportions with continuity
correction
data: c(101, 916) out of c(591, 1173)
X-squared = 596.48, df = 1, p-value < 2.2e-16
alternative hypothesis: less
95 percent confidence interval:
-1.0000000 -0.5764348
sample estimates:
prop 1 prop 2
0.1708968 0.7809037
More differentiall used in total. this makes sense because there are more used peaks in the nuclear which evens out the distribution of the ratios.
I want to create a data frame that has the location proportion distribution based on different \(\Delta\) PAU. 0-.1 .1-.2 .2-.3 .3-.4 .4-.5 >.5
First I will seperate the total and nuclear but the sign of the \(\Delta\) PAU.
colnames(effectsize)=c("intron", "logef","Nuclear", "Total", "deltaPAU")
Total_dpau= effectsize %>% filter(deltaPAU > 0) %>% inner_join(PAS, by="intron") %>% select(-logef, -Nuclear,-Total) %>% mutate(fraction="Total", PAU_Cat=ifelse(deltaPAU <.1, "<.1", ifelse(deltaPAU >=.1 & deltaPAU <.2, "<.2", ifelse(deltaPAU >=.2 & deltaPAU <.3, "<.3", ifelse(deltaPAU >=.3 & deltaPAU <.4, "<.4", "<.5")))))
Nuclear_dpau= effectsize %>% filter(deltaPAU <0) %>% inner_join(PAS, by="intron") %>% select(-logef,-Nuclear,-Total) %>% mutate(fraction="Nuclear", PAU_Cat=ifelse(deltaPAU >-.1, "<.1", ifelse(deltaPAU <=-.1 & deltaPAU > -.2, "<.2", ifelse(deltaPAU <=-.2 & deltaPAU >-.3, "<.3", ifelse(deltaPAU <=-.3 & deltaPAU >-.4, "<.4", "<.5")))))
Merge these together to start grouping:
allPAU=as.data.frame(rbind(Total_dpau, Nuclear_dpau)) %>% group_by(fraction, PAU_Cat, loc ) %>% summarise(nperLoc=n()) %>% full_join(PAS_loc, by ="loc") %>% mutate(Prop=nperLoc/nloc)
Plot it:
ggplot(allPAU, aes(x=loc,y=Prop, group=fraction, fill=fraction)) + geom_bar(stat="identity", position = "dodge") + facet_wrap(~PAU_Cat)+ scale_fill_manual(values=c("deepskyblue3","darkviolet")) + theme(axis.text.x = element_text(angle = 90, hjust = 1)) + labs(title="Proportion of PAS by location and delta PAU")
Version | Author | Date |
---|---|---|
3e79995 | brimittleman | 2019-06-24 |
allPAU_remove.1= allPAU %>% filter(PAU_Cat != "<.1")
ggplot(allPAU_remove.1, aes(x=loc,y=Prop, group=fraction, fill=fraction)) + geom_bar(stat="identity", position = "dodge") + facet_wrap(~PAU_Cat)+ scale_fill_manual(values=c("deepskyblue3","darkviolet")) + theme(axis.text.x = element_text(angle = 90, hjust = 1)) + labs(title="Proportion of PAS by location and delta PAU")
Proportion within group:
allPAU_ingroup= allPAU %>% mutate(nCat=sum(nperLoc),proppercat=nperLoc/nCat)
ggplot(allPAU_ingroup, aes(x=loc,y=proppercat, group=fraction, fill=fraction)) + geom_bar(stat="identity", position = "dodge") + facet_wrap(~PAU_Cat)+ scale_fill_manual(values=c("deepskyblue3","darkviolet")) + theme(axis.text.x = element_text(angle = 90, hjust = 1)) + labs(title="Proportion of PAS by location and delta PAU")
I need to pull in the TSS information so I can look at the distance between the differentially used peaks and by distance .
tss=read.table("../../genome_anotation_data/refseq.ProteinCoding.bed",col.names = c("chrom", "start", "end", "gene", "score", "strand") ,stringsAsFactors = F) %>% mutate(TSS= ifelse(strand=="+", start, end)) %>% select(gene, TSS, strand)
Seperate effect size introns:
PAS base for + strand is end, PAS for neg stand in -
effectsize_TSS= effectsize %>% separate(intron, into=c("chrom", "start", "end", "gene"),sep=":") %>% mutate(fraction=ifelse(deltaPAU < 0, "nuclear", "total")) %>% inner_join(tss, by="gene") %>% mutate(dist2PAS=ifelse(strand=="+", as.numeric(end)-as.numeric(TSS), as.numeric(TSS)-as.numeric(start)))
effectsize_TSS_tot= effectsize_TSS %>% filter(fraction=="total") %>% mutate( PAU_Cat=ifelse(deltaPAU <.1, "<.1", ifelse(deltaPAU >=.1 & deltaPAU <.2, "<.2", ifelse(deltaPAU >=.2 & deltaPAU <.3, "<.3", ifelse(deltaPAU >=.3 & deltaPAU <.4, "<.4", "<.5")))))
effectsize_TSS_nuc=effectsize_TSS %>% filter(fraction=="nuclear") %>% mutate( PAU_Cat=ifelse(deltaPAU >-.1, "<.1", ifelse(deltaPAU <=-.1 & deltaPAU > -.2, "<.2", ifelse(deltaPAU <=-.2 & deltaPAU >-.3, "<.3", ifelse(deltaPAU <=-.3 & deltaPAU >-.4, "<.4", "<.5")))))
effectsize_TSS_cat=as.data.frame(rbind(effectsize_TSS_tot, effectsize_TSS_nuc)) %>% filter(dist2PAS >0)
ggplot(effectsize_TSS_cat, aes(x=log10(dist2PAS), by=fraction, fill=fraction))+ geom_density(alpha=.4) + facet_grid(~PAU_Cat) + labs(title="Distance to TSS for differentialy used PAS")+scale_fill_manual(values=c("deepskyblue3","darkviolet"))
length=read.table("../../genome_anotation_data/refseq.ProteinCoding.bed",col.names = c("chrom", "start", "end", "gene", "score", "strand") ,stringsAsFactors = F) %>% mutate(length=abs(end-start)) %>% mutate(TSS= ifelse(strand=="+", start, end)) %>% select(gene, length,TSS, strand)
effectsize_length= effectsize %>% separate(intron, into=c("chrom", "start", "end", "gene"),sep=":") %>% mutate(fraction=ifelse(deltaPAU < 0, "nuclear", "total")) %>% inner_join(length, by="gene") %>% mutate(PercLength=ifelse(strand=="+", ((as.numeric(end)-as.numeric(TSS))/as.numeric(length)), (1-(as.numeric(start)-as.numeric(TSS))/as.numeric(length))))
effectsize_length_tot= effectsize_length %>% filter(fraction=="total") %>% mutate( PAU_Cat=ifelse(deltaPAU <.1, "<.1", ifelse(deltaPAU >=.1 & deltaPAU <.2, "<.2", ifelse(deltaPAU >=.2 & deltaPAU <.3, "<.3", ifelse(deltaPAU >=.3 & deltaPAU <.4, "<.4", "<.5")))))
effectsize_length_nuc=effectsize_length %>% filter(fraction=="nuclear") %>% mutate( PAU_Cat=ifelse(deltaPAU >-.1, "<.1", ifelse(deltaPAU <=-.1 & deltaPAU > -.2, "<.2", ifelse(deltaPAU <=-.2 & deltaPAU >-.3, "<.3", ifelse(deltaPAU <=-.3 & deltaPAU >-.4, "<.4", "<.5")))))
effectsize_length_cat=as.data.frame(rbind(effectsize_length_tot, effectsize_length_nuc)) %>% filter(PercLength<=1 & PercLength >0)
effectsize_length_catall=as.data.frame(rbind(effectsize_length_tot, effectsize_length_nuc))
ggplot(effectsize_length_cat, aes(x=PercLength, by=fraction, fill=fraction))+ geom_histogram(alpha=.4,bins=10) + facet_grid(~PAU_Cat) + labs(title="Location of differentially used PAS within a gene body ")+scale_fill_manual(values=c("deepskyblue3","darkviolet"))
summary(effectsize_length_catall$PercLength)
Min. 1st Qu. Median Mean 3rd Qu. Max.
-16763.99 0.89 1.04 22.93 1.91 86510.07
summary(effectsize$logef)
Min. 1st Qu. Median Mean 3rd Qu. Max.
-2.241524 -0.319633 -0.006858 0.000000 0.329087 2.456682
ggplot(effectsize_length_cat, aes(x=PercLength, by=fraction, fill=fraction))+ geom_histogram(,bins=50) + labs(title="Location of differentially used PAS \nwithin a gene body", fill="Fraction", y="Number of PAS", x="Percent of Gene Length")+scale_fill_manual(values=c("deepskyblue3","darkviolet"),labels = c("Nuclear", "Total"))+ theme(legend.position = c(0.1,.9), legend.direction = "horizontal")+ theme(panel.background = element_blank())
Version | Author | Date |
---|---|---|
3e79995 | brimittleman | 2019-06-24 |
densitylocdifuse=ggplot(effectsize_length_cat, aes(x=PercLength, by=fraction, fill=fraction))+ geom_density(alpha=.75) + labs(title="Location of differentially used PAS \nwithin a gene body", fill="Fraction", x="Percent of Gene Length")+scale_fill_manual(values=c("deepskyblue3","darkviolet"),labels = c("Nuclear", "Total"))+ theme(legend.position = "bottom", legend.direction = "horizontal")+ theme(panel.background = element_blank(),text = element_text(size=16), plot.title = element_text(size = 20, face = "bold"))
densitylocdifuse
Diff iso gene proportion:
genes_sig=sig %>% separate(cluster,into=c("chr", "gene"), sep=":") %>% group_by(gene) %>% summarise(n=n()) %>% nrow
genes_detlapau= effectSize_highdiffGenes %>% nrow()
testedgenes=read.table("../data/DiffIso/APApeaks.ALLChrom.Filtered.Named.GeneLocAnnoPARSED.5percCov.bothfrac.fixed.forLC.fc",header = T, stringsAsFactors = F) %>% rownames_to_column("ID") %>% select(ID)%>% separate(ID, into=c("chr", "start", "end", "geneID"),sep=":") %>% separate(geneID, into=c("gene", "loc"),sep="_") %>% group_by(gene) %>% summarise(n=n()) %>% nrow()
notsig=testedgenes-genes_sig
sighothighpau=genes_sig-genes_detlapau
cat=c("NotSig", "SigNotHighPAU", "SigandHighPAU")
values=c(unlist(notsig),unlist(sighothighpau),unlist(genes_detlapau))
difiso_df=as.data.frame(cbind(cat, values))
difiso_df$values=as.numeric(as.character(difiso_df$values))
difiso_df=difiso_df%>% mutate(proportion=values/testedgenes)
ggplot(difiso_df, aes(x="",y=proportion, fill=cat)) + geom_bar(stat="identity")+geom_text(aes(label=values))
slices <- c(notsig, sighothighpau,genes_detlapau)
lbls <- c("No Sig PAS", "At least 1 \nSig PAS", "At least 1 Sig PAS\n High Delta PAU")
pct <- round(slices/sum(slices)*100)
lbls <- paste(lbls, pct, sep="\n ") # add percents to labels
lbls <- paste(lbls,"%",sep="") # ad % to labels
pie(slices, labels = lbls,col=c("Azure2", "Aquamarine1","Darkslateblue"))
Version | Author | Date |
---|---|---|
c5bf3fd | brimittleman | 2019-07-02 |
sessionInfo()
R version 3.5.1 (2018-07-02)
Platform: x86_64-pc-linux-gnu (64-bit)
Running under: Scientific Linux 7.4 (Nitrogen)
Matrix products: default
BLAS/LAPACK: /software/openblas-0.2.19-el7-x86_64/lib/libopenblas_haswellp-r0.2.19.so
locale:
[1] LC_CTYPE=en_US.UTF-8 LC_NUMERIC=C
[3] LC_TIME=en_US.UTF-8 LC_COLLATE=en_US.UTF-8
[5] LC_MONETARY=en_US.UTF-8 LC_MESSAGES=en_US.UTF-8
[7] LC_PAPER=en_US.UTF-8 LC_NAME=C
[9] LC_ADDRESS=C LC_TELEPHONE=C
[11] LC_MEASUREMENT=en_US.UTF-8 LC_IDENTIFICATION=C
attached base packages:
[1] stats graphics grDevices utils datasets methods base
other attached packages:
[1] reshape2_1.4.3 forcats_0.3.0 stringr_1.3.1 dplyr_0.8.0.1
[5] purrr_0.3.2 readr_1.3.1 tidyr_0.8.3 tibble_2.1.1
[9] ggplot2_3.1.1 tidyverse_1.2.1 workflowr_1.4.0
loaded via a namespace (and not attached):
[1] Rcpp_1.0.0 cellranger_1.1.0 plyr_1.8.4 compiler_3.5.1
[5] pillar_1.3.1 git2r_0.25.2 highr_0.7 tools_3.5.1
[9] digest_0.6.18 lubridate_1.7.4 jsonlite_1.6 evaluate_0.12
[13] nlme_3.1-137 gtable_0.2.0 lattice_0.20-38 pkgconfig_2.0.2
[17] rlang_0.4.0 cli_1.1.0 rstudioapi_0.10 yaml_2.2.0
[21] haven_1.1.2 withr_2.1.2 xml2_1.2.0 httr_1.3.1
[25] knitr_1.20 hms_0.4.2 generics_0.0.2 fs_1.3.1
[29] rprojroot_1.3-2 grid_3.5.1 tidyselect_0.2.5 glue_1.3.0
[33] R6_2.3.0 fansi_0.4.0 readxl_1.1.0 rmarkdown_1.10
[37] modelr_0.1.2 magrittr_1.5 whisker_0.3-2 backports_1.1.2
[41] scales_1.0.0 htmltools_0.3.6 rvest_0.3.2 assertthat_0.2.0
[45] colorspace_1.3-2 labeling_0.3 utf8_1.1.4 stringi_1.2.4
[49] lazyeval_0.2.1 munsell_0.5.0 broom_0.5.1 crayon_1.3.4