Compare Nuclear Fraction PAS Double filter
Briana Mittleman
1/21/2020
Last updated: 2020-01-26
Checks: 7 0
Knit directory: Comparative_APA/analysis/
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Unstaged changes:
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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 | bb7b019 | brimittleman | 2020-01-26 | add color to effect plot |
| html | 5910b06 | brimittleman | 2020-01-24 | Build site. |
| Rmd | ea17340 | brimittleman | 2020-01-24 | add phylo/dnds/go |
| html | f002978 | brimittleman | 2020-01-22 | Build site. |
| Rmd | 46c489b | brimittleman | 2020-01-22 | nuclear diff filtered |
library(reshape2)
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()Compare nuclear fraction PAS between human and chimp. I need to fiter the phenotypes fixed for leafcutter further to have only the double filtered PAS.
I need a fc file with the human and chimp nuclear samples. I will make a group file with the identifier being human or chimp.
These were created with prepareCleanLiftedFC_5perc4LC.py (in human and chimp extra analysis TvN)
../Chimp/data/CleanLiftedPeaks4LC/ALLPAS_postLift_LocParsed_Chimp_fixed4LC.fc ../Human/data/CleanLiftedPeaks4LC/ALLPAS_postLift_LocParsed_Human_fixed4LC.fc
mkdir ../data/NuclearHvC_DFPAS=read.table("../data/PAS_doubleFilter/PAS_10perc_either_HumanCoord_BothUsage_meta_doubleFilter.txt", header = T, stringsAsFactors = F) %>% mutate(chrom=paste(chr,start,end,gene, sep=":"))human=read.table("../Human/data/CleanLiftedPeaks4LC/ALLPAS_postLift_LocParsed_Human_fixed4LC.fc", stringsAsFactors = F, header = T) %>% rownames_to_column(var="chrom") %>% filter(chrom %in% PAS$chrom)
chimp=read.table("../Chimp/data/CleanLiftedPeaks4LC/ALLPAS_postLift_LocParsed_Chimp_fixed4LC.fc", stringsAsFactors = F, header = T)%>% rownames_to_column(var="chrom")%>% filter(chrom %in% PAS$chrom)Allsamps=human %>% full_join(chimp,by="chrom")
AllNuclear=Allsamps %>% dplyr::select(chrom,contains("_N")) %>% column_to_rownames(var="chrom")
write.table(AllNuclear, "../data/NuclearHvC_DF/ALLPAS_postLift_LocParsed_HvC_Nuclear_fixed4LC_Doublefilt.fc",row.names = T, col.names = T, quote = F)I will make the id file here.
Inds=colnames(AllNuclear)
Species=c(rep("Human",6), rep("Chimp", 6))
idFileDF=as.data.frame(cbind(Inds,Species))
write.table(idFileDF, "../data/NuclearHvC_DF/sample_goups.txt",row.names = F, col.names = F, quote = F)Split by chromosome.
mkdir ../data/DiffIso_Nuclear_DF/
python subset_diffisopheno_Nuclear_HvC_DF.py 1
python subset_diffisopheno_Nuclear_HvC_DF.py 2
python subset_diffisopheno_Nuclear_HvC_DF.py 3
python subset_diffisopheno_Nuclear_HvC_DF.py 4
python subset_diffisopheno_Nuclear_HvC_DF.py 5
python subset_diffisopheno_Nuclear_HvC_DF.py 6
python subset_diffisopheno_Nuclear_HvC_DF.py 7
python subset_diffisopheno_Nuclear_HvC_DF.py 8
python subset_diffisopheno_Nuclear_HvC_DF.py 9
python subset_diffisopheno_Nuclear_HvC_DF.py 10
python subset_diffisopheno_Nuclear_HvC_DF.py 11
python subset_diffisopheno_Nuclear_HvC_DF.py 12
python subset_diffisopheno_Nuclear_HvC_DF.py 13
python subset_diffisopheno_Nuclear_HvC_DF.py 14
python subset_diffisopheno_Nuclear_HvC_DF.py 16
python subset_diffisopheno_Nuclear_HvC_DF.py 18
python subset_diffisopheno_Nuclear_HvC_DF.py 19
python subset_diffisopheno_Nuclear_HvC_DF.py 20
python subset_diffisopheno_Nuclear_HvC_DF.py 21
python subset_diffisopheno_Nuclear_HvC_DF.py 22Run leafcutter:
sbatch runNuclearDiffIso_DF.shConcatinate results:
awk '{if(NR>1)print}' ../data/DiffIso_Nuclear_DF/TN_diff_isoform_chr*.txt_effect_sizes.txt > ../data/DiffIso_Nuclear_DF/TN_diff_isoform_allChrom.txt_effect_sizes.txt
awk '{if(NR>1)print}' ../data/DiffIso_Nuclear_DF/TN_diff_isoform_chr*.txt_cluster_significance.txt > ../data/DiffIso_Nuclear_DF/TN_diff_isoform_allChrom.txt_significance.txt
Significant clusters:
sig=read.table("../data/DiffIso_Nuclear_DF/TN_diff_isoform_allChrom.txt_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$p.adjust),ylab="-log10 Adjusted Leafcutter pvalue", xlab="-log 10 Uniform expectation", main="Leafcutter differencial isoform analysis between Species")
abline(0,1)
| Version | Author | Date |
|---|---|---|
| f002978 | brimittleman | 2020-01-22 |
tested_genes=nrow(sig)
tested_genes[1] 8544sig_genes=sig %>% filter(p.adjust<.05)
number_sig_genes=nrow(sig_genes)
number_sig_genes[1] 6372Effect Sizes
effectsize=read.table("../data/DiffIso_Nuclear_DF/TN_diff_isoform_allChrom.txt_effect_sizes.txt", stringsAsFactors = F, col.names=c('intron', 'logef' ,'Human', 'Chimp','deltaPAU')) %>% filter(intron != "intron")
effectsize$deltaPAU=as.numeric(as.character(effectsize$deltaPAU))
effectsize$logef=as.numeric(as.character(effectsize$logef))plot(sort(effectsize$deltaPAU),main="Leafcutter delta PAU", ylab="Delta PAU", xlab="PAS Index")
| Version | Author | Date |
|---|---|---|
| f002978 | brimittleman | 2020-01-22 |
Effect size >.2 color:
effectsize_col= effectsize %>% arrange(deltaPAU) %>% mutate(diffuse=ifelse(abs(deltaPAU)>=.2,"Yes", "No"))
effectsize_col$color <- ifelse(effectsize_col$diffuse=="Yes", "red", "black")
plot(sort(effectsize_col$deltaPAU),main="Leafcutter delta PAU", ylab="Delta PAU", xlab="PAS Index",col=alpha(effectsize_col$color, 0.6))
legend("topleft", legend=c("abs(DPAU) > .2, (n=3103)", "Not differentially used (n=37673)"), col=c("red", "black"), pch=16:16, cex=0.8)
Are those discovered used more in chimp those discovered in chimp?
PASinfo=read.table("../data/PAS_doubleFilter/PAS_10perc_either_HumanCoord_BothUsage_meta_doubleFilter.txt",header = T, stringsAsFactors = F)Join this with the effect sizes.
effectsize_sep=effectsize %>% separate(intron, into=c("chr", "start", "end", "gene"),sep=":")
effectsize_sep$start=as.integer(effectsize_sep$start)
effectsize_sep$end=as.integer(effectsize_sep$end)
effectsize_anno=effectsize_sep %>% inner_join(PASinfo, by=c("chr", "start", "end","gene"))ggplot(effectsize_anno, aes(x=disc, y=deltaPAU)) + geom_boxplot()
Volcano plot:
I need the effect sizes and the significance. I need to plot only the top PAS per cluster.
sig_geneP=sig %>% separate(cluster,into = c("chr", "gene"), sep=":") %>% dplyr::select(gene, p.adjust)
effectsizeTop=effectsize_sep %>% group_by(gene) %>% summarise(Min=min(deltaPAU), Max=max(deltaPAU)) %>% mutate(TopdPAU=ifelse(abs(Min)>Max, Min, Max))
#exclude when the max=min
effectsizeTopFilt=effectsizeTop %>% filter(abs(Min) != Max)
effectsize_wES=effectsizeTopFilt %>% inner_join(sig_geneP, by="gene") %>% mutate(Species=ifelse(TopdPAU > 0.2 & p.adjust<.05, "Chimp", ifelse(TopdPAU < -0.2 & p.adjust< .05, "Human", "Neither")))This is the significance for the gene.
ggplot(effectsize_wES,aes(x=TopdPAU, y=-log10(p.adjust))) +geom_point(aes(col=Species),alpha=.5) + labs(title="Top PAS per gene \nExclude 2 PAS genes")+ geom_text(data=subset(effectsize_wES, -log10(p.adjust) >20 & abs(TopdPAU)>.2 ), aes(x=TopdPAU,y=-log10(p.adjust) +2,label=gene))
Not the best way to visualize this because every PAS per gene is assigned the same pvalue.
Try this including the matching one. I will make 2 plots. One with human dominant, one with chimp dominant.
effectsizeTopHuman=effectsize_sep %>% group_by(gene) %>% summarise(Min=min(deltaPAU), Max=max(deltaPAU)) %>% mutate(TopdPAU=ifelse(abs(Min) > Max, Min, ifelse(abs(Min)==Max, Min, Max)),TwoPAS=ifelse(abs(Min)==Max, T, F))
effectsize_wES_human=effectsizeTopHuman %>% inner_join(sig_geneP, by="gene") %>% mutate(Species=ifelse(TopdPAU > 0.2 & p.adjust<.05, "Chimp", ifelse(TopdPAU < -0.2 & p.adjust< .05, "Human", "Neither")))
effectsizeTopChimp=effectsize_sep %>% group_by(gene) %>% summarise(Min=min(deltaPAU), Max=max(deltaPAU)) %>% mutate(TopdPAU=ifelse(abs(Max)>=abs(Min), Max, Min), TwoPAS=ifelse(abs(Min)==Max, T, F))
effectsize_wES_chimp=effectsizeTopChimp %>% inner_join(sig_geneP, by="gene") %>% mutate(Species=ifelse(TopdPAU > 0.2 & p.adjust<.05, "Chimp", ifelse(TopdPAU < -0.2 & p.adjust< .05, "Human", "Neither")))ggplot(effectsize_wES_human,aes(x=TopdPAU, y=-log10(p.adjust))) + geom_point(aes(col=Species, shape=TwoPAS),alpha=.5) + labs(title="Top PAS per gene \nHuman dominant for 2 PAS")+ geom_text(data=subset(effectsize_wES_human,-log10(p.adjust) >20 & abs(TopdPAU)>.2 ), aes(x=TopdPAU,y=-log10(p.adjust) +2,label=gene))
| Version | Author | Date |
|---|---|---|
| f002978 | brimittleman | 2020-01-22 |
ggplot(effectsize_wES_chimp,aes(x=TopdPAU, y=-log10(p.adjust))) + geom_point(aes(col=Species, shape=TwoPAS),alpha=.5) + labs(title="Top PAS per gene \nChimp dominant for 2 PAS")+ geom_text(data=subset(effectsize_wES_chimp, -log10(p.adjust) >20 & abs(TopdPAU)>.2), aes(x=TopdPAU,y=-log10(p.adjust) +2,label=gene)) 
Write out the significant genes with >.2 difference.
effectsize_sep_pval=effectsize_sep %>% full_join(sig_geneP, by="gene")
#significant > .2
effectsize_sep_pval_sig= effectsize_sep_pval %>% filter(p.adjust <= .05,abs(deltaPAU) >=0.2)
nrow(effectsize_sep_pval_sig)[1] 3076#genes
effectsize_sep_pval_sig_genes=effectsize_sep_pval_sig %>% dplyr::select(gene) %>% unique()
nrow(effectsize_sep_pval_sig_genes)[1] 2149effectsize_sep_pval_colforsig=effectsize_sep_pval %>% mutate(SigPAU2=ifelse(p.adjust <= .05 &abs(deltaPAU) >=0.2, "Yes","No"))effectsize_wES_chimpOnly= effectsize_wES %>% filter(Species=="Chimp")
effectsize_wES_HumanOnly= effectsize_wES %>% filter(Species=="Human")
write.table(effectsize_sep_pval_colforsig,"../data/DiffIso_Nuclear_DF/AllPAS_withGeneSig.txt", col.names = T, row.names = F, quote = F )
write.table(effectsize_wES_chimpOnly,"../data/DiffIso_Nuclear_DF/SignifianceChimpPAS_2_Nuclear.txt",col.names =T, row.names = F,quote = F)
write.table(effectsize_wES_HumanOnly,"../data/DiffIso_Nuclear_DF/SignifianceHumanPAS_2_Nuclear.txt",col.names =T, row.names = F,quote = F)
write.table(effectsize_sep_pval_sig,"../data/DiffIso_Nuclear_DF/SignifianceEitherPAS_2_Nuclear.txt",col.names =T, row.names = F,quote = F)
write.table(effectsize_sep_pval_sig_genes,"../data/DiffIso_Nuclear_DF/SignifianceEitherGENES_Nuclear.txt",col.names =T, row.names = F,quote = F)
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 reshape2_1.4.3
loaded via a namespace (and not attached):
[1] Rcpp_1.0.2 cellranger_1.1.0 compiler_3.5.1 pillar_1.3.1
[5] later_0.7.5 git2r_0.26.1 plyr_1.8.4 workflowr_1.5.0
[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 scales_1.0.0
[41] backports_1.1.2 promises_1.0.1 htmltools_0.3.6 rvest_0.3.2
[45] assertthat_0.2.0 colorspace_1.3-2 httpuv_1.4.5 labeling_0.3
[49] stringi_1.2.4 lazyeval_0.2.1 munsell_0.5.0 broom_0.5.1
[53] crayon_1.3.4