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inst/scripts/makeTSPCsg.R
In SplicingGraphs: Create, manipulate, visualize splicing graphs, and assign RNA-seq reads to them
### =========================================================================
### makeTSPCsg.R -- Script for making the SplicingGraphs object for the TSPC
### project
### -------------------------------------------------------------------------
### The TSPC data is on the rhinos.
TSPC_path <- "/shared/labs/mmcintos/proj/Solexa/TSPC"
TSPC_subdirs <- c("BAI1", "CYB561", "DAPL1", "ITGB8", "KIAA0319L",
"LGSN", "MKRN3", "MUC16", "ST14", "TREM2")
#stopifnot(identical(file.path(TSPC_path, TSPC_subdirs), setdiff(list.dirs(TSPC_path), TSPC_path)))
### Transcripts T-4 and T-5 in MUC16 both have their 2nd exon included in
### their 3rd exon ==> splicing graph theory doesn't apply.
exclude_subdirs <- "MUC16"
keep_subdirs <- setdiff(TSPC_subdirs, exclude_subdirs)
subdir_paths <- file.path(TSPC_path, keep_subdirs)
library(SplicingGraphs)
TSPC_utils_path <- system.file("scripts", "TSPC-utils.R",
package="SplicingGraphs", mustWork=TRUE)
source(TSPC_utils_path)
### Make the SplicingGraphs object.
TSPCsg <- make_TSPC_SplicinGraphs(subdir_paths)
### Compute the BAM status matrix.
### BAM status:
### ".": BAM file doesn't exist;
### "0": file is empty (no alignments);
### "s": single-end;
### "p": paired-end;
### "m": mixed single-/paired-end.
sample_names <- get_TSPC_sample_names(subdir_paths)
bam_status_matrix <- make_TSPC_bam_status_matrix(subdir_paths, sample_names)
dim(bam_status_matrix)
bam_status_matrix[ , 1:8]
### A close look at the matrix reveals that:
### - 9 TSPC genes, only 7 with BAM files: BAI1, CYB561, DAPL1, ITGB8, LGSN,
### MKRN3, and ST14. No BAM files for KIAA0319L and TREM2.
### - 54 TSPC samples: 42 have single-end reads, 12 have paired-end reads.
### Compute the "BAM gap rate" matrix.
bam_gaprate_matrix <- make_TSPC_bam_gaprate_matrix(subdir_paths, sample_names)
bam_gaprate_matrix[ , 1:8]
### Compute the matrix of "Gapped Read Compatibility Ratio" (this takes about
### 3 min 20 sec on rhino02).
grcr_matrix <- make_TSPC_grcr_matrix(TSPCsg, subdir_paths, sample_names)
grcr_matrix[ , 1:8]
### Assign the reads to the SplicingGraphs object (this takes about 4 min on
### rhino02).
TSPCsg <- assign_TSPC_reads(TSPCsg, subdir_paths, sample_names)
### Serialized the SplicingGraphs object.
save(TSPCsg, file="TSPCsg.rda", compress="xz")
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SplicingGraphs documentation built on Nov. 8, 2020, 5:58 p.m.
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### =========================================================================
### makeTSPCsg.R -- Script for making the SplicingGraphs object for the TSPC
### project
### -------------------------------------------------------------------------
### The TSPC data is on the rhinos.
TSPC_path <- "/shared/labs/mmcintos/proj/Solexa/TSPC"
TSPC_subdirs <- c("BAI1", "CYB561", "DAPL1", "ITGB8", "KIAA0319L",
"LGSN", "MKRN3", "MUC16", "ST14", "TREM2")
#stopifnot(identical(file.path(TSPC_path, TSPC_subdirs), setdiff(list.dirs(TSPC_path), TSPC_path)))
### Transcripts T-4 and T-5 in MUC16 both have their 2nd exon included in
### their 3rd exon ==> splicing graph theory doesn't apply.
exclude_subdirs <- "MUC16"
keep_subdirs <- setdiff(TSPC_subdirs, exclude_subdirs)
subdir_paths <- file.path(TSPC_path, keep_subdirs)
library(SplicingGraphs)
TSPC_utils_path <- system.file("scripts", "TSPC-utils.R",
package="SplicingGraphs", mustWork=TRUE)
source(TSPC_utils_path)
### Make the SplicingGraphs object.
TSPCsg <- make_TSPC_SplicinGraphs(subdir_paths)
### Compute the BAM status matrix.
### BAM status:
### ".": BAM file doesn't exist;
### "0": file is empty (no alignments);
### "s": single-end;
### "p": paired-end;
### "m": mixed single-/paired-end.
sample_names <- get_TSPC_sample_names(subdir_paths)
bam_status_matrix <- make_TSPC_bam_status_matrix(subdir_paths, sample_names)
dim(bam_status_matrix)
bam_status_matrix[ , 1:8]
### A close look at the matrix reveals that:
### - 9 TSPC genes, only 7 with BAM files: BAI1, CYB561, DAPL1, ITGB8, LGSN,
### MKRN3, and ST14. No BAM files for KIAA0319L and TREM2.
### - 54 TSPC samples: 42 have single-end reads, 12 have paired-end reads.
### Compute the "BAM gap rate" matrix.
bam_gaprate_matrix <- make_TSPC_bam_gaprate_matrix(subdir_paths, sample_names)
bam_gaprate_matrix[ , 1:8]
### Compute the matrix of "Gapped Read Compatibility Ratio" (this takes about
### 3 min 20 sec on rhino02).
grcr_matrix <- make_TSPC_grcr_matrix(TSPCsg, subdir_paths, sample_names)
grcr_matrix[ , 1:8]
### Assign the reads to the SplicingGraphs object (this takes about 4 min on
### rhino02).
TSPCsg <- assign_TSPC_reads(TSPCsg, subdir_paths, sample_names)
### Serialized the SplicingGraphs object.
save(TSPCsg, file="TSPCsg.rda", compress="xz")
Try the SplicingGraphs package in your browser
Any scripts or data that you put into this service are public.
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.
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