Last updated: 2019-11-14
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File | Version | Author | Date | Message |
---|---|---|---|---|
Rmd | 4ad7bce | brimittleman | 2019-11-15 | look at results of cluster lift |
html | dc91b0a | brimittleman | 2019-11-11 | Build site. |
Rmd | b5ba82e | brimittleman | 2019-11-11 | add diff expression and diff splicing |
library(tidyverse)
── Attaching packages ───────────────────────────────────────────────────────── tidyverse 1.2.1 ──
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── Conflicts ──────────────────────────────────────────────────────────── tidyverse_conflicts() ──
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library(reshape2)
Attaching package: 'reshape2'
The following object is masked from 'package:tidyr':
smiths
I want to use the RNA seq I collected to also perform a differential splicing analysis with leafcutter. I will follow the pipeline found at http://davidaknowles.github.io/leafcutter/articles/Usage.html. For a first pass I will use the bam files from the snakemake and differential expression analysis pipeline.
I will get clusters in both species then perform reciprocal liftover. I can use a liftover pipeline similar to the one I used for the differnetial PAS analysis.
Pipeline from example on leafcutter github.
for bamfile in `ls run/geuvadis/*chr1.bam`; do
echo Converting $bamfile to $bamfile.junc
samtools index $bamfile
regtools junctions extract -a 8 -m 50 -M 500000 $bamfile -o $bamfile.junc
echo $bamfile.junc >> test_juncfiles.txt
done
python ../clustering/leafcutter_cluster_regtools.py -j test_juncfiles.txt -m 50 -o testYRIvsEU -l 500000
At this point I will be able to liftover the junctions. I can use the human corrdinates for the differential splicing step.
../scripts/leafcutter_ds.R --num_threads 4 ../example_data/testYRIvsEU_perind_numers.counts.gz example_geuvadis/groups_file.txt
I now have my RNA seq for each species. I can write a script that runs the junctions for each species.
sbatch converBam2Junc.sh
sbatch quantJunc.sh
Now I need to do reciprocal liftover with the clusters.
Chain files are in /data/chainFiles/ * panTro5ToHg38.over.chain
* hg38ToPanTro5.over.chain
I first need to make bedfiles with these clusters.
The clusters all have _NA I dont this this is correct.
gunzip ../Human/data/RNAseq/DiffSplice/humanJunc_perind.counts.gz
gunzip ../Chimp/data/RNAseq/DiffSplice/chimpJunc_perind.counts.gz
python cluster2bed.py ../Human/data/RNAseq/DiffSplice/humanJunc_perind.counts ../Human/data/RNAseq/DiffSplice/humanJunc.bed
python cluster2bed.py ../Chimp/data/RNAseq/DiffSplice/chimpJunc_perind.counts ../Chimp/data/RNAseq/DiffSplice/chimpJunc.bed
sbatch clusterLiftprimary.sh
Evaluate results:
(this code is from the lift for the PAS)
unliftedH=read.table("../Human/data/RNAseq/DiffSplice/humanJunc_unlifted.bed",stringsAsFactors = F) %>% nrow()
unliftedC=read.table("../Chimp/data/RNAseq/DiffSplice/chimpJunc_unlifted.bed",stringsAsFactors = F) %>% nrow()
liftedH=read.table("../Human/data/RNAseq/DiffSplice/humanJunc_inChimp.bed",stringsAsFactors = F) %>% nrow()
liftedC=read.table("../Chimp/data/RNAseq/DiffSplice/chimpJunc_inHuman.bed",stringsAsFactors = F) %>% nrow()
primaryUnC=c("Chimp","Unlifted", unliftedC)
primaryUnH=c("Human","Unlifted", unliftedH)
primaryLH=c("Human","Lifted", liftedH)
primaryLC=c("Chimp","Lifted", liftedC)
header=c("species", "liftStat", "PAS")
primaryDF= as.data.frame(rbind(primaryLH,primaryLC, primaryUnH,primaryUnC))
colnames(primaryDF)=header
primaryDF$PAS=as.numeric(as.character(primaryDF$PAS))
primaryDF= primaryDF %>% group_by(species) %>% mutate(nPAS=sum(PAS)) %>% ungroup() %>% mutate(proportion=PAS/nPAS)
ggplot(primaryDF,aes(x=species, y=PAS, fill=liftStat)) + geom_bar(stat="identity",position = "dodge") + scale_fill_brewer(palette = "Dark2") + labs(title="Primary Liftover Results")
ggplot(primaryDF,aes(x=species, y=proportion, fill=liftStat)) + geom_bar(stat="identity",position = "dodge") + scale_fill_brewer(palette = "Dark2") + labs(title="Primary Liftover Results")
Look at the lifted:
OriginalHuman=read.table("../Human/data/RNAseq/DiffSplice/humanJunc.bed",stringsAsFactors = F)
liftedHuman=read.table("../Human/data/RNAseq/DiffSplice/humanJunc_inChimp.bed",stringsAsFactors = F)
OriginalChimp=read.table("../Chimp/data/RNAseq/DiffSplice/chimpJunc.bed",stringsAsFactors = F)
liftedChimp=read.table("../Chimp/data/RNAseq/DiffSplice/chimpJunc_inHuman.bed",stringsAsFactors = F)
Reverse lift:
re_unliftedH=read.table("../Human/data/RNAseq/DiffSplice/humanJunc_inChimp_B2Human_unlifted.bed",stringsAsFactors = F) %>% nrow()
re_unliftedC=read.table("../Chimp/data/RNAseq/DiffSplice/chimpJunc_inHuman_B2Chimp_unlifted.bed",stringsAsFactors = F) %>% nrow()
re_liftedH=read.table("../Human/data/RNAseq/DiffSplice/humanJunc_inChimp_B2Human.bed",stringsAsFactors = F) %>% nrow()
re_liftedC=read.table("../Chimp/data/RNAseq/DiffSplice/chimpJunc_inHuman_B2Chimp.bed",stringsAsFactors = F) %>% nrow()
re_UnC=c("Chimp","Unlifted", re_unliftedC)
re_UnH=c("Human","Unlifted", re_unliftedH)
re_LH=c("Human","Lifted", re_liftedH)
re_LC=c("Chimp","Lifted", re_liftedC)
header=c("species", "liftStat", "PAS")
re_DF= as.data.frame(rbind(re_LH,re_LC, re_UnH,re_UnC))
colnames(re_DF)=header
re_DF$PAS=as.numeric(as.character(re_DF$PAS))
re_DF= re_DF %>% group_by(species) %>% mutate(nPAS=sum(PAS)) %>% ungroup() %>% mutate(proportion=PAS/nPAS)
ggplot(re_DF,aes(x=species, y=PAS, fill=liftStat)) + geom_bar(stat="identity",position = "dodge") + scale_fill_brewer(palette = "Dark2") + labs(title="Reverse Liftover Results")
ggplot(re_DF,aes(x=species, y=proportion, fill=liftStat)) + geom_bar(stat="identity",position = "dodge") + scale_fill_brewer(palette = "Dark2")+ labs(title="Reverse Liftover Results")
How many lifted both ways?
#human
re_liftedH/nrow(OriginalHuman)
[1] 0.9200983
#chimp
re_liftedC/nrow(OriginalChimp)
[1] 0.9193779
The next step will be to find the corresponding clusters. This is important because I will need to get the quantifications for the same introns and clusters. To do this I will need to write code that looks for the intron location from the primary lift in the reverse lift.
For now I will only look at those introns identified in both species. I need to do this because I need junctions we have quantifications for in both species.
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
loaded via a namespace (and not attached):
[1] tidyselect_0.2.5 haven_1.1.2 lattice_0.20-38
[4] colorspace_1.3-2 generics_0.0.2 htmltools_0.3.6
[7] yaml_2.2.0 rlang_0.4.0 later_0.7.5
[10] pillar_1.3.1 glue_1.3.0 withr_2.1.2
[13] RColorBrewer_1.1-2 modelr_0.1.2 readxl_1.1.0
[16] plyr_1.8.4 munsell_0.5.0 gtable_0.2.0
[19] workflowr_1.5.0 cellranger_1.1.0 rvest_0.3.2
[22] evaluate_0.12 labeling_0.3 knitr_1.20
[25] httpuv_1.4.5 broom_0.5.1 Rcpp_1.0.2
[28] promises_1.0.1 scales_1.0.0 backports_1.1.2
[31] jsonlite_1.6 fs_1.3.1 hms_0.4.2
[34] digest_0.6.18 stringi_1.2.4 grid_3.5.1
[37] rprojroot_1.3-2 cli_1.1.0 tools_3.5.1
[40] magrittr_1.5 lazyeval_0.2.1 crayon_1.3.4
[43] whisker_0.3-2 pkgconfig_2.0.2 xml2_1.2.0
[46] lubridate_1.7.4 assertthat_0.2.0 rmarkdown_1.10
[49] httr_1.3.1 rstudioapi_0.10 R6_2.3.0
[52] nlme_3.1-137 git2r_0.26.1 compiler_3.5.1