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inst/demos/trem2/go.R
In trena: Fit transcriptional regulatory networks using gene expression, priors, machine learning
library(RPostgreSQL)
library(TReNA)
library(gplots)
library (RColorBrewer)
#------------------------------------------------------------------------------------------------------------------------
source("../../../../BDDS/trenadb/src/utils.R")
#------------------------------------------------------------------------------------------------------------------------
if(!exists("db.trena"))
db.trena <- dbConnect(PostgreSQL(), user="trena", password="trena", dbname="trena", host="whovian")
if(!exists("db.gtf"))
db.gtf <- dbConnect(PostgreSQL(), user= "trena", password="trena", dbname="gtf", host="whovian")
if(!exists("trem2")){
tbl.tmp <- dbGetQuery(db.gtf, "select * from hg38human where gene_name='TREM2' and moleculetype='gene'")
trem2 <- list(chrom=tbl.tmp[1, "chr"], start=tbl.tmp[1, "start"])
}
if(!exists("db.hint"))
db.hint <- dbConnect(PostgreSQL(), user="trena", password="trena", dbname="hint", host="whovian")
if(!exists("db.wellington"))
db.wellington <- dbConnect(PostgreSQL(), user="trena", password="trena", dbname="wellington", host="whovian")
if(!exists("tbl.genesmotifs"))
tbl.genesmotifs <- dbGetQuery(db.trena, "select * from tfmotifs")
#------------------------------------------------------------------------------------------------------------------------
target.gene <- "TREM2"
shoulder <- 1000
chrom <- trem2$chrom
start <- trem2$start - shoulder
end <- trem2$start + shoulder
tbl.h <- createHintTable(chrom, start, end)
motifs <- unique(tbl.h$motif.h)
candidate.tfs <- sort(unique(subset(tbl.genesmotifs, motif %in% tbl.h$motif)$gene))
if(!exists("mtx.tcx")) # "mtx.tcx" "mtx.tcx.ctl" "mtx.tcx.ad"
print(load("~/github/Private_Cory_Data/inst/extdata/prepped.tcx.matrices.RData"))
matrices <- list(all=mtx.tcx, ad=mtx.tcx.ad, ctl=mtx.tcx.ctl)
results <- lapply(matrices, function(mtx){
stopifnot(target.gene %in% rownames(mtx))
candidate.regulators <- intersect(candidate.tfs, rownames(mtx))
genes.of.interest <- c(target.gene, candidate.regulators)
mtx.sub <- mtx[genes.of.interest,]
mtx.adjusted <- asinh(mtx.sub)
trena <- TReNA(mtx.assay=mtx.adjusted, solver="lasso", quiet=FALSE)
tbl <- solve(trena, target.gene, candidate.regulators, extraArgs=list(alpha=0.1, lambda=NULL))
})
results2 <- lapply(names(results), function(name){
column.names <- colnames(results[[name]])
new.names <- paste(name, column.names, sep=".")
colnames(results[[name]]) <- new.names
results[[name]]
})
names(results2) <- names(results)
all.tfs <- sort(unique(c(rownames(results2[[1]]),
rownames(results2[[2]]),
rownames(results2[[3]]))))
all.conditions <- c(colnames(results2[[1]]),
colnames(results2[[2]]),
colnames(results2[[3]]))
m <- matrix(0, nrow=length(all.tfs), ncol=length(all.conditions), dimnames=list(all.tfs, all.conditions))
for(i in 1:length(results2)){
mtx <- as.matrix(results2[[i]])
row.names <- rownames(mtx)
column.names <- colnames(mtx)
print(row.names)
print(column.names)
print(mtx[row.names, column.names])
print(m[row.names, column.names])
m[row.names, column.names] <- mtx
}
m.beta <- m[, grep("beta", colnames(m))]
m.beta.noAll <- m.beta[, -(grep("all", colnames(m.beta)))]
heatmap.2(m.beta, margins=c(10,10), trace='none')
heatmap.2(m.beta.noAll, margins=c(10,10), trace='none', cexCol=2)
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trena documentation built on Nov. 15, 2020, 2:07 a.m.
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library(RPostgreSQL)
library(TReNA)
library(gplots)
library (RColorBrewer)
#------------------------------------------------------------------------------------------------------------------------
source("../../../../BDDS/trenadb/src/utils.R")
#------------------------------------------------------------------------------------------------------------------------
if(!exists("db.trena"))
db.trena <- dbConnect(PostgreSQL(), user="trena", password="trena", dbname="trena", host="whovian")
if(!exists("db.gtf"))
db.gtf <- dbConnect(PostgreSQL(), user= "trena", password="trena", dbname="gtf", host="whovian")
if(!exists("trem2")){
tbl.tmp <- dbGetQuery(db.gtf, "select * from hg38human where gene_name='TREM2' and moleculetype='gene'")
trem2 <- list(chrom=tbl.tmp[1, "chr"], start=tbl.tmp[1, "start"])
}
if(!exists("db.hint"))
db.hint <- dbConnect(PostgreSQL(), user="trena", password="trena", dbname="hint", host="whovian")
if(!exists("db.wellington"))
db.wellington <- dbConnect(PostgreSQL(), user="trena", password="trena", dbname="wellington", host="whovian")
if(!exists("tbl.genesmotifs"))
tbl.genesmotifs <- dbGetQuery(db.trena, "select * from tfmotifs")
#------------------------------------------------------------------------------------------------------------------------
target.gene <- "TREM2"
shoulder <- 1000
chrom <- trem2$chrom
start <- trem2$start - shoulder
end <- trem2$start + shoulder
tbl.h <- createHintTable(chrom, start, end)
motifs <- unique(tbl.h$motif.h)
candidate.tfs <- sort(unique(subset(tbl.genesmotifs, motif %in% tbl.h$motif)$gene))
if(!exists("mtx.tcx")) # "mtx.tcx" "mtx.tcx.ctl" "mtx.tcx.ad"
print(load("~/github/Private_Cory_Data/inst/extdata/prepped.tcx.matrices.RData"))
matrices <- list(all=mtx.tcx, ad=mtx.tcx.ad, ctl=mtx.tcx.ctl)
results <- lapply(matrices, function(mtx){
stopifnot(target.gene %in% rownames(mtx))
candidate.regulators <- intersect(candidate.tfs, rownames(mtx))
genes.of.interest <- c(target.gene, candidate.regulators)
mtx.sub <- mtx[genes.of.interest,]
mtx.adjusted <- asinh(mtx.sub)
trena <- TReNA(mtx.assay=mtx.adjusted, solver="lasso", quiet=FALSE)
tbl <- solve(trena, target.gene, candidate.regulators, extraArgs=list(alpha=0.1, lambda=NULL))
})
results2 <- lapply(names(results), function(name){
column.names <- colnames(results[[name]])
new.names <- paste(name, column.names, sep=".")
colnames(results[[name]]) <- new.names
results[[name]]
})
names(results2) <- names(results)
all.tfs <- sort(unique(c(rownames(results2[[1]]),
rownames(results2[[2]]),
rownames(results2[[3]]))))
all.conditions <- c(colnames(results2[[1]]),
colnames(results2[[2]]),
colnames(results2[[3]]))
m <- matrix(0, nrow=length(all.tfs), ncol=length(all.conditions), dimnames=list(all.tfs, all.conditions))
for(i in 1:length(results2)){
mtx <- as.matrix(results2[[i]])
row.names <- rownames(mtx)
column.names <- colnames(mtx)
print(row.names)
print(column.names)
print(mtx[row.names, column.names])
print(m[row.names, column.names])
m[row.names, column.names] <- mtx
}
m.beta <- m[, grep("beta", colnames(m))]
m.beta.noAll <- m.beta[, -(grep("all", colnames(m.beta)))]
heatmap.2(m.beta, margins=c(10,10), trace='none')
heatmap.2(m.beta.noAll, margins=c(10,10), trace='none', cexCol=2)
Try the trena 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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