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inst/doc/multiHiCcompare.R
In multiHiCcompare: Normalize and detect differences between Hi-C datasets when replicates of each experimental condition are available
## ----setup, include = FALSE---------------------------------------------------
knitr::opts_chunk$set(
collapse = TRUE,
comment = "#>"
)
## ---- echo=FALSE, message=FALSE-----------------------------------------------
library(multiHiCcompare)
## ---- eval = FALSE------------------------------------------------------------
# BiocManager::install("multiHiCcompare")
# library(multiHiCcompare)
## ---- eval=FALSE--------------------------------------------------------------
# # read in files
# mat <- read.table("hic_1000000.matrix")
# bed <- read.table("hic_1000000_abs.bed")
# # convert to BEDPE
# dat <- HiCcompare::hicpro2bedpe(mat, bed)
# # NOTE: hicpro2bedpe returns a list of lists.
# # The first list, dat$cis, contains the intrachromosomal contact matrices
# # NOTE: dat$trans contains the interchromosomal
# # contact matrix which is not used in multiHiCcompare.
## ---- eval = FALSE------------------------------------------------------------
# library(BiocParallel)
# numCores <- 20
# register(MulticoreParam(workers = numCores), default = TRUE)
## ---- eval = FALSE------------------------------------------------------------
# library(BiocParallel)
# numCores <- 20
# register(SnowParam(workers = numCores), default = TRUE)
## -----------------------------------------------------------------------------
data("HCT116_r1") # load example sparse matrix
head(HCT116_r1)
colnames(HCT116_r1) <- c('chr', 'region1', 'region2', 'IF') # rename columns
head(HCT116_r1) # matrix ready to be input into multiHiCcompare
## -----------------------------------------------------------------------------
data("HCT116_r1", "HCT116_r2", "HCT116_r3", "HCT116_r4")
hicexp1 <- make_hicexp(HCT116_r1, HCT116_r2, HCT116_r3, HCT116_r4,
groups = c(0, 0, 1, 1),
zero.p = 0.8, A.min = 5, filter = TRUE,
remove.regions = hg19_cyto)
hicexp1
## -----------------------------------------------------------------------------
data("hg19_cyto")
data("hg38_cyto")
hg19_cyto
## ---- eval=FALSE--------------------------------------------------------------
# data("hicexp2")
# hicexp2 <- hic_scale(hicexp2)
## -----------------------------------------------------------------------------
hicexp1 <- cyclic_loess(hicexp1, verbose = FALSE,
parallel = FALSE, span = 0.2)
# make MD plot
MD_hicexp(hicexp1)
## -----------------------------------------------------------------------------
hic_table(hicexp1)
## -----------------------------------------------------------------------------
data("hicexp2")
# perform fastlo normalization
hicexp2 <- fastlo(hicexp2, verbose = FALSE, parallel = FALSE)
# make MD plot
MD_hicexp(hicexp2)
## -----------------------------------------------------------------------------
hicexp1 <- hic_exactTest(hicexp1, p.method = 'fdr',
parallel = FALSE)
# plot results
MD_composite(hicexp1)
## -----------------------------------------------------------------------------
results(hicexp1)
## -----------------------------------------------------------------------------
batch <- c(1,2,1,2)
# produce design matrix
d <- model.matrix(~factor(meta(hicexp2)$group) + factor(batch))
## ---- eval=FALSE--------------------------------------------------------------
# hicexp2 <- hic_glm(hicexp2, design = d, coef = 2, method = "QLFTest", p.method = "fdr", parallel = FALSE)
## ---- eval=FALSE--------------------------------------------------------------
# # use Treat option
# hicexp2 <- hic_glm(hicexp2, design = d, coef = 2, method = "Treat",
# M = 0.5, p.method = "fdr", parallel = FALSE)
## -----------------------------------------------------------------------------
td <- topDirs(hicexp1, logfc_cutoff = 0.5, logcpm_cutoff = 0.5,
p.adj_cutoff = 0.2, return_df = 'pairedbed')
head(td)
## -----------------------------------------------------------------------------
counts <- topDirs(hicexp1, logfc_cutoff = 0.5, logcpm_cutoff = 0.5, p.adj_cutoff = 0.2, alpha = 0.1, return_df = 'bed')
head(counts)
## -----------------------------------------------------------------------------
plot_pvals(counts)
## -----------------------------------------------------------------------------
plot_counts(counts)
## -----------------------------------------------------------------------------
manhattan_hicexp(hicexp1, method = "standard")
## -----------------------------------------------------------------------------
MD_hicexp(hicexp1, prow = 2, pcol = 3)
## -----------------------------------------------------------------------------
MD_composite(hicexp1)
## ---- echo=FALSE--------------------------------------------------------------
sessionInfo()
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multiHiCcompare documentation built on Nov. 8, 2020, 7:04 p.m.
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## ----setup, include = FALSE---------------------------------------------------
knitr::opts_chunk$set(
collapse = TRUE,
comment = "#>"
)
## ---- echo=FALSE, message=FALSE-----------------------------------------------
library(multiHiCcompare)
## ---- eval = FALSE------------------------------------------------------------
# BiocManager::install("multiHiCcompare")
# library(multiHiCcompare)
## ---- eval=FALSE--------------------------------------------------------------
# # read in files
# mat <- read.table("hic_1000000.matrix")
# bed <- read.table("hic_1000000_abs.bed")
# # convert to BEDPE
# dat <- HiCcompare::hicpro2bedpe(mat, bed)
# # NOTE: hicpro2bedpe returns a list of lists.
# # The first list, dat$cis, contains the intrachromosomal contact matrices
# # NOTE: dat$trans contains the interchromosomal
# # contact matrix which is not used in multiHiCcompare.
## ---- eval = FALSE------------------------------------------------------------
# library(BiocParallel)
# numCores <- 20
# register(MulticoreParam(workers = numCores), default = TRUE)
## ---- eval = FALSE------------------------------------------------------------
# library(BiocParallel)
# numCores <- 20
# register(SnowParam(workers = numCores), default = TRUE)
## -----------------------------------------------------------------------------
data("HCT116_r1") # load example sparse matrix
head(HCT116_r1)
colnames(HCT116_r1) <- c('chr', 'region1', 'region2', 'IF') # rename columns
head(HCT116_r1) # matrix ready to be input into multiHiCcompare
## -----------------------------------------------------------------------------
data("HCT116_r1", "HCT116_r2", "HCT116_r3", "HCT116_r4")
hicexp1 <- make_hicexp(HCT116_r1, HCT116_r2, HCT116_r3, HCT116_r4,
groups = c(0, 0, 1, 1),
zero.p = 0.8, A.min = 5, filter = TRUE,
remove.regions = hg19_cyto)
hicexp1
## -----------------------------------------------------------------------------
data("hg19_cyto")
data("hg38_cyto")
hg19_cyto
## ---- eval=FALSE--------------------------------------------------------------
# data("hicexp2")
# hicexp2 <- hic_scale(hicexp2)
## -----------------------------------------------------------------------------
hicexp1 <- cyclic_loess(hicexp1, verbose = FALSE,
parallel = FALSE, span = 0.2)
# make MD plot
MD_hicexp(hicexp1)
## -----------------------------------------------------------------------------
hic_table(hicexp1)
## -----------------------------------------------------------------------------
data("hicexp2")
# perform fastlo normalization
hicexp2 <- fastlo(hicexp2, verbose = FALSE, parallel = FALSE)
# make MD plot
MD_hicexp(hicexp2)
## -----------------------------------------------------------------------------
hicexp1 <- hic_exactTest(hicexp1, p.method = 'fdr',
parallel = FALSE)
# plot results
MD_composite(hicexp1)
## -----------------------------------------------------------------------------
results(hicexp1)
## -----------------------------------------------------------------------------
batch <- c(1,2,1,2)
# produce design matrix
d <- model.matrix(~factor(meta(hicexp2)$group) + factor(batch))
## ---- eval=FALSE--------------------------------------------------------------
# hicexp2 <- hic_glm(hicexp2, design = d, coef = 2, method = "QLFTest", p.method = "fdr", parallel = FALSE)
## ---- eval=FALSE--------------------------------------------------------------
# # use Treat option
# hicexp2 <- hic_glm(hicexp2, design = d, coef = 2, method = "Treat",
# M = 0.5, p.method = "fdr", parallel = FALSE)
## -----------------------------------------------------------------------------
td <- topDirs(hicexp1, logfc_cutoff = 0.5, logcpm_cutoff = 0.5,
p.adj_cutoff = 0.2, return_df = 'pairedbed')
head(td)
## -----------------------------------------------------------------------------
counts <- topDirs(hicexp1, logfc_cutoff = 0.5, logcpm_cutoff = 0.5, p.adj_cutoff = 0.2, alpha = 0.1, return_df = 'bed')
head(counts)
## -----------------------------------------------------------------------------
plot_pvals(counts)
## -----------------------------------------------------------------------------
plot_counts(counts)
## -----------------------------------------------------------------------------
manhattan_hicexp(hicexp1, method = "standard")
## -----------------------------------------------------------------------------
MD_hicexp(hicexp1, prow = 2, pcol = 3)
## -----------------------------------------------------------------------------
MD_composite(hicexp1)
## ---- echo=FALSE--------------------------------------------------------------
sessionInfo()
Try the multiHiCcompare 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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