Version with 15nt
Briana Mittleman
8/27/2019
Last updated: 2019-08-28
Checks: 6 1
Knit directory: apaQTL/analysis/
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Unstaged changes:
Modified: analysis/NuclearSpecAPAqtl.Rmd
Modified: analysis/PAS_graphs.Rmd
Modified: analysis/PrematureTermQTL.Rmd
Modified: analysis/compareAnnotatedpas.Rmd
Modified: analysis/nucSpecinEQTLs.Rmd
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Modified: code/BothFracDTPlotGeneRegions.sh
Modified: code/Snakefile
Modified: code/apaQTLCorrectPvalMakeQQ.R
Modified: code/apaQTL_Nominal.sh
Modified: code/apaQTL_permuted.sh
Modified: code/apaQTLsnake.err
Modified: code/bam2bw.sh
Modified: code/bed2saf.py
Modified: code/cluster.json
Modified: code/clusterfiltPAS.json
Modified: code/config.yaml
Modified: code/environment.yaml
Modified: code/makePheno.py
Modified: code/mergeAllBam.sh
Modified: code/mergeByFracBam.sh
Modified: code/mergePeaks.sh
Modified: code/peakFC.sh
Modified: code/snakemake.batch
Modified: code/snakemakePAS.batch
Modified: code/snakemakefiltPAS.batch
Modified: code/submit-snakemake.sh
Modified: code/submit-snakemakePAS.sh
Modified: code/submit-snakemakefiltPAS.sh
Deleted: code/test.txt
Deleted: reads_graphs.Rmd
Note that any generated files, e.g. HTML, png, CSS, etc., are not included in this status report because it is ok for generated content to have uncommitted changes.
These are the previous versions of the R Markdown and HTML files. If you’ve configured a remote Git repository (see ?wflow_git_remote), click on the hyperlinks in the table below to view them.
| File | Version | Author | Date | Message |
|---|---|---|---|---|
| Rmd | 22e9f6a | brimittleman | 2019-08-28 | add explained |
| html | aacf73d | brimittleman | 2019-08-28 | Build site. |
| Rmd | 1c31e02 | brimittleman | 2019-08-28 | add proportion expained |
| html | a850a6e | brimittleman | 2019-08-28 | Build site. |
| Rmd | 2f37837 | brimittleman | 2019-08-28 | add unexaplined and pqtl res |
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()mkdir ../data/Version15bp6As
mkdir ../data/Version15bp7AsI am going to test 2 filtering versions. I will run these in parallel here. I will put each step of the analysis in the directories above. I will start in the SnakefileFiltPAS with the named SAF file. I will need to convert this to a bed file to use bedtools nuc. I will then filter the final SAF and run the quantification.
These are still on the opposite strand. I will look at the 15 bases upstream of each PAS for T’s.
For + strand: startnew=start-15 endnew=start
for - strand: startnew=end endnew=end +15
mkdir ../data/Version15bp6As/filter15upfiles
mkdir ../data/Version15bp7As/filter15upfilesFilter
python SAF215upbed.py ../data/Version15bp6As/filter15upfiles/APApeaks.ALLChrom.Filtered.Named.GeneLocAnnoPARSED.15up.bed
python SAF215upbed.py ../data/Version15bp7As/filter15upfiles/APApeaks.ALLChrom.Filtered.Named.GeneLocAnnoPARSED.15up.bedRun bedtools nuc on these:
bedtools nuc -s -seq -fi /project2/gilad/briana/genome_anotation_data/genome/Homo_sapiens.GRCh37.75.dna_sm.all.fa -bed ../data/Version15bp6As/filter15upfiles/APApeaks.ALLChrom.Filtered.Named.GeneLocAnnoPARSED.15up.bed > ../data/Version15bp6As/filter15upfiles/APApeaks.ALLChrom.Filtered.Named.GeneLocAnnoPARSED.15upNUC.txt
bedtools nuc -s -seq -fi /project2/gilad/briana/genome_anotation_data/genome/Homo_sapiens.GRCh37.75.dna_sm.all.fa -bed ../data/Version15bp7As/filter15upfiles/APApeaks.ALLChrom.Filtered.Named.GeneLocAnnoPARSED.15up.bed > ../data/Version15bp7As/filter15upfiles/APApeaks.ALLChrom.Filtered.Named.GeneLocAnnoPARSED.15upNUC.txt
Filter out 6 or 7 A. I will do this by making a dictionary with the Ok and outputting only the SAF file PAS in this dictionary.
I will make a script that takes the input, output, the number of A’s to filter
python filterSAFforMP.py ../data/Version15bp6As/filter15upfiles/APApeaks.ALLChrom.Filtered.Named.GeneLocAnnoPARSED.15upNUC.txt ../data/Version15bp6As/filter15upfiles/APApeaks.ALLChrom.Filtered.Named.GeneLocAnnoPARSED.15upNUC6A.SAF 6
python filterSAFforMP.py ../data/Version15bp7As/filter15upfiles/APApeaks.ALLChrom.Filtered.Named.GeneLocAnnoPARSED.15upNUC.txt ../data/Version15bp7As/filter15upfiles/APApeaks.ALLChrom.Filtered.Named.GeneLocAnnoPARSED.15upNUC7A.SAF 7Now i can run feature counts for these files:
mkdir ../data/Version15bp6As/peakCoverage/
mkdir ../data/Version15bp7As/peakCoverage/
sbatch fc_filteredPAS6and7As.shpython fixFChead_short.py ../data/Version15bp6As/peakCoverage/APAPeaks.ALLChrom.Filtered.Named.GeneLocAnnoPARSED.15upNUC6A.Nuclear.Quant.fc ../data/Version15bp6As/peakCoverage/APAPeaks.ALLChrom.Filtered.Named.GeneLocAnnoPARSED.15upNUC6A.Nuclear.Quant.fixed.fc
python fixFChead_short.py ../data/Version15bp7As/peakCoverage/APAPeaks.ALLChrom.Filtered.Named.GeneLocAnnoPARSED.15upNUC7A.Nuclear.Quant.fc ../data/Version15bp7As/peakCoverage/APAPeaks.ALLChrom.Filtered.Named.GeneLocAnnoPARSED.15upNUC7A.Nuclear.Quant.fixed.fcMake phenotype
mkdir ../data/Version15bp6As/phenotype/
mkdir ../data/Version15bp7As/phenotype/
python makePheno.py ../data/Version15bp6As/peakCoverage/APAPeaks.ALLChrom.Filtered.Named.GeneLocAnnoPARSED.15upNUC6A.Nuclear.Quant.fixed.fc ../data/peakCoverage/file_id_mapping_Nuclear_Transcript.txt ../data/Version15bp6As/phenotype/APApeak_Phenotype_GeneLocAnno_15bp6A.Nuclear.fc
python makePheno.py ../data/Version15bp7As/peakCoverage/APAPeaks.ALLChrom.Filtered.Named.GeneLocAnnoPARSED.15upNUC7A.Nuclear.Quant.fixed.fc ../data/peakCoverage/file_id_mapping_Nuclear_Transcript.txt ../data/Version15bp7As/phenotype/APApeak_Phenotype_GeneLocAnno_15bp7A.Nuclear.fc
Rscript pheno2countonly.R -I ../data/Version15bp6As/phenotype/APApeak_Phenotype_GeneLocAnno_15bp6A.Nuclear.fc -O ../data/Version15bp6As/phenotype/APApeak_Phenotype_GeneLocAnno_15bp6A.Nuclear.CountsOnly
Rscript pheno2countonly.R -I ../data/Version15bp7As/phenotype/APApeak_Phenotype_GeneLocAnno_15bp7A.Nuclear.fc -O ../data/Version15bp7As/phenotype/APApeak_Phenotype_GeneLocAnno_15bp7A.Nuclear.CountsOnly
python convertNumeric.py ../data/Version15bp6As/phenotype/APApeak_Phenotype_GeneLocAnno_15bp6A.Nuclear.CountsOnly ../data/Version15bp6As/phenotype/APApeak_Phenotype_GeneLocAnno_15bp6A.Nuclear.CountsOnlyNumeric
python convertNumeric.py ../data/Version15bp7As/phenotype/APApeak_Phenotype_GeneLocAnno_15bp7A.Nuclear.CountsOnly ../data/Version15bp7As/phenotype/APApeak_Phenotype_GeneLocAnno_15bp7A.Nuclear.CountsOnlyNumeric
mkdir ../data/Version15bp7As/peaks_5perc/
mkdir ../data/Version15bp6As/peaks_5perc/
Rscript filter5perc.R -P ../data/Version15bp6As/phenotype/APApeak_Phenotype_GeneLocAnno_15bp6A.Nuclear.fc -N ../data/Version15bp6As/phenotype/APApeak_Phenotype_GeneLocAnno_15bp6A.Nuclear.CountsOnlyNumeric -O ../data/Version15bp6As/peaks_5perc/APApeak_Peaks_GeneLocAnno.Nuclear.5_15bp6Aperc.fc
Rscript filter5perc.R -P ../data/Version15bp7As/phenotype/APApeak_Phenotype_GeneLocAnno_15bp7A.Nuclear.fc -N ../data/Version15bp7As/phenotype/APApeak_Phenotype_GeneLocAnno_15bp7A.Nuclear.CountsOnlyNumeric -O ../data/Version15bp7As/peaks_5perc/APApeak_Peaks_GeneLocAnno.Nuclear.5_15bp7Aperc.fc
mkdir ../data/Version15bp7As/phenotype_5perc/
mkdir ../data/Version15bp6As/phenotype_5perc/
python filter5percPheno.py ../data/Version15bp6As/peaks_5perc/APApeak_Peaks_GeneLocAnno.Nuclear.5_15bp6Aperc.fc ../data/Version15bp6As/phenotype/APApeak_Phenotype_GeneLocAnno_15bp6A.Nuclear.fc ../data/Version15bp6As/phenotype_5perc/APApeak_Phenotype_GeneLocAnno_15bp6A.Nuclear.5perc.fc
python filter5percPheno.py ../data/Version15bp7As/peaks_5perc/APApeak_Peaks_GeneLocAnno.Nuclear.5_15bp7Aperc.fc ../data/Version15bp7As/phenotype/APApeak_Phenotype_GeneLocAnno_15bp7A.Nuclear.fc ../data/Version15bp7As/phenotype_5perc/APApeak_Phenotype_GeneLocAnno_15bp7A.Nuclear.5perc.fc
#cut -f1-3,7,8,6 -d " " APApeak_Peaks_GeneLocAnno.Nuclear.5_15bp6Aperc.fc > APApeak_Peaks_GeneLocAnno.Nuclear.5_15bp6Aperc.bed
# cut -f1-3,7,8,6 -d " " APApeak_Peaks_GeneLocAnno.Nuclear.5_15bp7Aperc.fc > APApeak_Peaks_GeneLocAnno.Nuclear.5_15bp7Aperc.bedQTL analysis
module load python
gzip ../data/Version15bp6As/phenotype_5perc/APApeak_Phenotype_GeneLocAnno_15bp6A.Nuclear.5perc.fc
gzip ../data/Version15bp7As/phenotype_5perc/APApeak_Phenotype_GeneLocAnno_15bp7A.Nuclear.5perc.fc
#do in dir
python ../../../code/prepare_phenotype_table.py APApeak_Phenotype_GeneLocAnno_15bp6A.Nuclear.5perc.fc.gz
python ../../../code/prepare_phenotype_table.py APApeak_Phenotype_GeneLocAnno_15bp7A.Nuclear.5perc.fc.gz
sh APApeak_Phenotype_GeneLocAnno_15bp6A.Nuclear.5perc.fc.gz_prepare.sh
head -n 5 APApeak_Phenotype_GeneLocAnno_15bp6A.Nuclear.5perc.fc.gz.PCs > APApeak_Phenotype_GeneLocAnno_15bp6A.Nuclear.5perc.fc.gz.4PCs
sh APApeak_Phenotype_GeneLocAnno_15bp7A.Nuclear.5perc.fc.gz_prepare.sh
head -n 5 APApeak_Phenotype_GeneLocAnno_15bp7A.Nuclear.5perc.fc.gz.PCs > APApeak_Phenotype_GeneLocAnno_15bp7A.Nuclear.5perc.fc.gz.4PCs
mkdir ../data/Version15bp6As/apaQTLPermuted
mkdir ../data/Version15bp6As/apaQTLNominal
mkdir ../data/Version15bp7As/apaQTLPermuted
mkdir ../data/Version15bp7As/apaQTLNominal
sbatch apaQTL_permuted_test6A7A.sh
sbatch apaQTL_nominalv67.sh
cat ../data/Version15bp6As/apaQTLPermuted/APApeak_Phenotype_GeneLocAnno.Nuclear_15bp6A.5perc.fc.gz.qqnorm_chr* > ../data/Version15bp6As/apaQTLPermuted/APApeak_Phenotype_GeneLocAnno.Nuclear_15bp6A.5perc_permRes.txt
cat ../data/Version15bp7As/apaQTLPermuted/APApeak_Phenotype_GeneLocAnno.Nuclear_15bp7A.5perc.fc.gz.qqnorm_chr* > ../data/Version15bp7As/apaQTLPermuted/APApeak_Phenotype_GeneLocAnno.Nuclear_15bp7A.5perc_permRes.txt
cat ../data/Version15bp6As/apaQTLNominal/APApeak_Phenotype_GeneLocAnno.Nuclear_15bp6A.5perc.fc.gz.qqnorm_chr* >../data/Version15bp6As/apaQTLNominal/APApeak_Phenotype_GeneLocAnno.Nuclear_15bp6A.5perc_nomRes.txt
cat ../data/Version15bp7As/apaQTLNominal/APApeak_Phenotype_GeneLocAnno.Nuclear_15bp7A.5perc.fc.gz.qqnorm_chr* >../data/Version15bp7As/apaQTLNominal/APApeak_Phenotype_GeneLocAnno.Nuclear_15bp7A.5perc_nomRes.txt
Rscript apaQTLCorrectedpval_6or7a.R
QTL6A=read.table("../data/Version15bp6As/apaQTLPermuted/APApeak_Phenotype_GeneLocAnno.Nuclear_15bp6A.5perc_permResBH.txt", stringsAsFactors = F, header = T) %>% separate(pid, into=c("Chr", "Start", "End", "PeakID"), sep=":") %>% separate(PeakID, into=c("Gene", "Loc", "Strand","Peak"), sep="_")
QTL6ASog= QTL6A %>% filter(-log10(bh)>=1)
nrow(QTL6ASog)[1] 576QTL7A=read.table("../data/Version15bp7As/apaQTLPermuted/APApeak_Phenotype_GeneLocAnno.Nuclear_15bp7A.5perc_permResBH.txt", stringsAsFactors = F, header = T) %>% separate(pid, into=c("Chr", "Start", "End", "PeakID"), sep=":") %>% separate(PeakID, into=c("Gene", "Loc", "Strand","Peak"), sep="_")
QTL7Sog= QTL7A %>% filter(-log10(bh)>=1)
nrow(QTL7Sog)[1] 586Explained v unexplained QTL
mkdir ../data/Version15bp6As/ApaByEgene
mkdir ../data/Version15bp7As/ApaByEgene
python subsetpermAPAwithGenelist_2versions.py ../data/Li_eQTLs/explainedEgenes.txt 6 ../data/Version15bp6As/ApaByEgene/ApaexplainedeGenes.txt
python subsetpermAPAwithGenelist_2versions.py ../data/Li_eQTLs/explainedEgenes.txt 7 ../data/Version15bp7As/ApaByEgene/ApaexplainedeGenes.txt
python subsetpermAPAwithGenelist_2versions.py ../data/Li_eQTLs/UnexplainedEgenes.txt 6 ../data/Version15bp6As/ApaByEgene/ApaUnaexplainedeGenes.txt
python subsetpermAPAwithGenelist_2versions.py ../data/Li_eQTLs/UnexplainedEgenes.txt 7 ../data/Version15bp7As/ApaByEgene/ApaUnexplainedeGenes.txt
python subsetApanoteGene_2versions.py 6 ../data/Version15bp6As/ApaByEgene/ApaNOTeGene.txt
python subsetApanoteGene_2versions.py 7 ../data/Version15bp7As/ApaByEgene/ApaNOTeGene.txt
6As
six.notE=read.table("../data/Version15bp6As/ApaByEgene/ApaNOTeGene.txt",stringsAsFactors = F,col.names = c("pid", "nvar", "shape1", "shape2", "dummy", "sid", "dist", "npval", "slope", "ppval", "bpval"))
six.ex=read.table("../data/Version15bp6As/ApaByEgene/ApaexplainedeGenes.txt",stringsAsFactors = F,col.names = c("pid", "nvar", "shape1", "shape2", "dummy", "sid", "dist", "npval", "slope", "ppval", "bpval"))
six.un=read.table("../data/Version15bp6As/ApaByEgene/ApaUnaexplainedeGenes.txt",stringsAsFactors = F, col.names = c("pid", "nvar", "shape1", "shape2", "dummy", "sid", "dist", "npval", "slope", "ppval", "bpval") )
six.un=na.omit(six.un)qqplot(-log10(runif(nrow(six.notE))), -log10(six.notE$bpval), xlab="-log10(Uniform)", ylab="-log10(beta pval)", main="Nuclear 6A Apa")
points(sort(-log10(runif(nrow(six.ex)))), sort(-log10(six.ex$bpval)),col= alpha("Red"))
points(sort(-log10(runif(nrow(six.un)))), sort(-log10(six.un$bpval)),col= alpha("Blue"))
abline(0,1)
legend("topleft", legend=c("Not eGenes", "Explained eGenes", "Unexplained eGenes"),col=c("black", "red", "blue"), pch=16,bty = 'n')
| Version | Author | Date |
|---|---|---|
| a850a6e | brimittleman | 2019-08-28 |
7As
seven.notE=read.table("../data/Version15bp7As/ApaByEgene/ApaNOTeGene.txt",stringsAsFactors = F,col.names = c("pid", "nvar", "shape1", "shape2", "dummy", "sid", "dist", "npval", "slope", "ppval", "bpval"))
seven.ex=read.table("../data/Version15bp7As/ApaByEgene/ApaexplainedeGenes.txt",stringsAsFactors = F,col.names = c("pid", "nvar", "shape1", "shape2", "dummy", "sid", "dist", "npval", "slope", "ppval", "bpval"))
seven.un=read.table("../data/Version15bp7As/ApaByEgene/ApaUnexplainedeGenes.txt",stringsAsFactors = F, col.names = c("pid", "nvar", "shape1", "shape2", "dummy", "sid", "dist", "npval", "slope", "ppval", "bpval") )
seven.un=na.omit(seven.un)qqplot(-log10(runif(nrow(seven.notE))), -log10(seven.notE$bpval), xlab="-log10(Uniform)", ylab="-log10(beta pval)", main="Nuclear 7A Apa")
points(sort(-log10(runif(nrow(seven.ex)))), sort(-log10(seven.ex$bpval)),col= alpha("Red"))
points(sort(-log10(runif(nrow(seven.un)))), sort(-log10(seven.un$bpval)),col= alpha("Blue"))
abline(0,1)
legend("topleft", legend=c("Not eGenes", "Explained eGenes", "Unexplained eGenes"),col=c("black", "red", "blue"), pch=16,bty = 'n')
| Version | Author | Date |
|---|---|---|
| a850a6e | brimittleman | 2019-08-28 |
python convertNominal2SNPloc2Versions.py 6
python convertNominal2SNPloc2Versions.py 7
mkdir ../data/Version15bp6As/overlapeQTL
mkdir ../data/Version15bp7As/overlapeQTL
sbatch run_getAPAfromeQTL_version6.7.shnomnames=c("peakID", 'snp','dist', 'pval', 'slope')
SixapaUnexplained=read.table("../data/Version15bp6As/overlapeQTL/apa_unexplainedQTLs.txt", stringsAsFactors = F, col.names = nomnames) %>% separate(peakID, into=c("chr","start","end","geneID"), sep=":") %>% separate(geneID, into=c("gene", "loc", "strand", "PASnum"), sep="_") %>% group_by(gene, snp) %>% mutate(nPeaks=n(), adjPval=pval* nPeaks) %>% dplyr::slice(which.min(adjPval))
SixapaUnexplained_sig= SixapaUnexplained %>% filter(adjPval<.05)
nrow(SixapaUnexplained_sig)/nrow(SixapaUnexplained)[1] 0.1518771SixapaExplained=read.table("../data/Version15bp6As/overlapeQTL/apa_explainedQTLs.txt", stringsAsFactors = F, col.names = nomnames) %>% separate(peakID, into=c("chr","start","end","geneID"), sep=":") %>% separate(geneID, into=c("gene", "loc", "strand", "PASnum"), sep="_") %>% group_by(gene, snp) %>% mutate(nPeaks=n(), adjPval=pval* nPeaks) %>% dplyr::slice(which.min(adjPval))
SixapaExplained_sig= SixapaExplained %>% filter(adjPval<.05)
nrow(SixapaExplained_sig)/nrow(SixapaExplained)[1] 0.126071SevenapaUnexplained=read.table("../data/Version15bp7As/overlapeQTL/apa_unexplainedQTLs.txt", stringsAsFactors = F, col.names = nomnames) %>% separate(peakID, into=c("chr","start","end","geneID"), sep=":") %>% separate(geneID, into=c("gene", "loc", "strand", "PASnum"), sep="_") %>% group_by(gene, snp) %>% mutate(nPeaks=n(), adjPval=pval* nPeaks) %>% dplyr::slice(which.min(adjPval))
SevenapaUnexplained_sig= SevenapaUnexplained %>% filter(adjPval<.05)
nrow(SevenapaUnexplained_sig)/nrow(SevenapaUnexplained)[1] 0.1482112SevenapaExplained=read.table("../data/Version15bp7As/overlapeQTL/apa_explainedQTLs.txt", stringsAsFactors = F, col.names = nomnames) %>% separate(peakID, into=c("chr","start","end","geneID"), sep=":") %>% separate(geneID, into=c("gene", "loc", "strand", "PASnum"), sep="_") %>% group_by(gene, snp) %>% mutate(nPeaks=n(), adjPval=pval* nPeaks) %>% dplyr::slice(which.min(adjPval))
SevenapaExplained_sig= SevenapaExplained %>% filter(adjPval<.05)
nrow(SevenapaExplained_sig)/nrow(SevenapaExplained)[1] 0.1221001Pqtl
mkdir ../data/Version15bp6As/ApaByPgene
mkdir ../data/Version15bp7As/ApaByPgene
python subsetpermAPAwithGenelist_2versions.py ../data/Battle_pQTL/psQTLGeneNames.txt 6 ../data/Version15bp6As/ApaByPgene/ApaPSGenes.txt
python subsetpermAPAwithGenelist_2versions.py ../data/Battle_pQTL/esQTLGenes.txt 6 ../data/Version15bp6As/ApaByPgene/ApaESGenes.txt
python subsetpermAPAwithGenelist_2versions.py ../data/Battle_pQTL/psQTLGeneNames.txt 7 ../data/Version15bp7As/ApaByPgene/ApaPSGenes.txt
python subsetpermAPAwithGenelist_2versions.py ../data/Battle_pQTL/esQTLGenes.txt 7 ../data/Version15bp7As/ApaByPgene/ApaESGenes.txt
python subsetAPAnotEorPgene_2versions.py 6 ../data/Version15bp6As/ApaByPgene/ApaNOTPorEGenes.txt
python subsetAPAnotEorPgene_2versions.py 7 ../data/Version15bp7As/ApaByPgene/ApaNOTPorEGenes.txt
6As
six.notEorP=read.table("../data/Version15bp6As/ApaByPgene/ApaNOTPorEGenes.txt",stringsAsFactors = F,col.names = c("pid", "nvar", "shape1", "shape2", "dummy", "sid", "dist", "npval", "slope", "ppval", "bpval"))
six.PS=read.table("../data/Version15bp6As/ApaByPgene/ApaPSGenes.txt",stringsAsFactors = F,col.names = c("pid", "nvar", "shape1", "shape2", "dummy", "sid", "dist", "npval", "slope", "ppval", "bpval"))
six.ES=read.table("../data/Version15bp6As/ApaByPgene/ApaESGenes.txt",stringsAsFactors = F, col.names = c("pid", "nvar", "shape1", "shape2", "dummy", "sid", "dist", "npval", "slope", "ppval", "bpval") )
six_allE=as.data.frame(rbind(six.ex,six.un))
six.PS=na.omit(six.PS)
six.notEorP=na.omit(six.notEorP)
six.ES=na.omit(six.ES)
six.un=na.omit(six.un)qqplot(-log10(runif(nrow(six.notEorP))), -log10(six.notEorP$bpval), xlab="-log10(Uniform)", ylab="-log10(beta pval)", main="6A Nuclear Apa")
points(sort(-log10(runif(nrow(six.PS)))), sort(-log10(six.PS$bpval)),col= alpha("Red"))
points(sort(-log10(runif(nrow(six_allE)))), sort(-log10(six_allE$bpval)),col= alpha("blue"))
abline(0,1)
legend("topleft", legend=c("Neither eGenes nor pGenes", "pGenes", "eGenes"),col=c("black", "red","blue"), pch=16,bty = 'n')
| Version | Author | Date |
|---|---|---|
| aacf73d | brimittleman | 2019-08-28 |
7As
seven.notEorP=read.table("../data/Version15bp7As/ApaByPgene/ApaNOTPorEGenes.txt",stringsAsFactors = F,col.names = c("pid", "nvar", "shape1", "shape2", "dummy", "sid", "dist", "npval", "slope", "ppval", "bpval"))
seven.PS=read.table("../data/Version15bp7As/ApaByPgene/ApaPSGenes.txt",stringsAsFactors = F,col.names = c("pid", "nvar", "shape1", "shape2", "dummy", "sid", "dist", "npval", "slope", "ppval", "bpval"))
seven.ES=read.table("../data/Version15bp7As/ApaByPgene/ApaESGenes.txt",stringsAsFactors = F, col.names = c("pid", "nvar", "shape1", "shape2", "dummy", "sid", "dist", "npval", "slope", "ppval", "bpval") )
seven_allE=as.data.frame(rbind(seven.ex,seven.un))
seven.PS=na.omit(seven.PS)
seven.notEorP=na.omit(seven.notEorP)
seven.ES=na.omit(seven.ES)
seven.un=na.omit(seven.un)qqplot(-log10(runif(nrow(seven.notEorP))), -log10(seven.notEorP$bpval), xlab="-log10(Uniform)", ylab="-log10(beta pval)", main="7A Nuclear Apa")
points(sort(-log10(runif(nrow(seven.PS)))), sort(-log10(seven.PS$bpval)),col= alpha("Red"))
points(sort(-log10(runif(nrow(seven_allE)))), sort(-log10(seven_allE$bpval)),col= alpha("blue"))
abline(0,1)
legend("topleft", legend=c("Neither eGenes nor pGenes", "pGenes", "eGenes"),col=c("black", "red","blue"), pch=16,bty = 'n')
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] forcats_0.3.0 stringr_1.3.1 dplyr_0.8.0.1 purrr_0.3.2
[5] readr_1.3.1 tidyr_0.8.3 tibble_2.1.1 ggplot2_3.1.1
[9] tidyverse_1.2.1
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 workflowr_1.4.0
[9] tools_3.5.1 digest_0.6.18 lubridate_1.7.4 jsonlite_1.6
[13] evaluate_0.12 nlme_3.1-137 gtable_0.2.0 lattice_0.20-38
[17] pkgconfig_2.0.2 rlang_0.4.0 cli_1.1.0 rstudioapi_0.10
[21] yaml_2.2.0 haven_1.1.2 withr_2.1.2 xml2_1.2.0
[25] httr_1.3.1 knitr_1.20 hms_0.4.2 generics_0.0.2
[29] fs_1.3.1 rprojroot_1.3-2 grid_3.5.1 tidyselect_0.2.5
[33] glue_1.3.0 R6_2.3.0 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 stringi_1.2.4 lazyeval_0.2.1 munsell_0.5.0
[49] broom_0.5.1 crayon_1.3.4