library(methylSig)
The purpose of this vignette is to show users how to retrofit their methylSig
< 0.99.0 code to work with the refactor in version 0.99.0 and later.
In versions < 0.99.0 of methylSig
, the methylSigReadData()
function read Bismark coverage files, Bismark genome-wide CpG reports, or MethylDackel bedGraphs. Additionally, users could destrand the data, filter by coverage, and filter SNPs.
meth = methylSigReadData(
fileList = files,
pData = pData,
assembly = 'hg19',
destranded = TRUE,
maxCount = 500,
minCount = 10,
filterSNPs = TRUE,
num.cores = 1,
fileType = 'cytosineReport')
In versions >= 0.99.0 of methylSig
, the user should read data with bsseq::read.bismark()
and then apply functions that were once bundled within methylSigReadData()
.
files = c(
system.file('extdata', 'bis_cov1.cov', package='methylSig'),
system.file('extdata', 'bis_cov2.cov', package='methylSig')
)
bsseq_stranded = bsseq::read.bismark(
files = files,
colData = data.frame(row.names = c('test1','test2')),
rmZeroCov = FALSE,
strandCollapse = FALSE
)
After reading data, filter by coverage. Note, we are changing our dataset to something we can use with the downstream functions.
# Load data for use in the rest of the vignette
data(BS.cancer.ex, package = 'bsseqData')
bs = BS.cancer.ex[1:10000]
bs = filter_loci_by_coverage(bs, min_count = 5, max_count = 500)
If the locations of C-to-T and G-to-A SNPs are known, or some other set of location should be removed:
# Construct GRanges object
remove_gr = GenomicRanges::GRanges(
seqnames = c('chr21', 'chr21', 'chr21'),
ranges = IRanges::IRanges(
start = c(9411552, 9411784, 9412099),
end = c(9411552, 9411784, 9412099)
)
)
bs = filter_loci_by_location(bs = bs, gr = remove_gr)
In versions < 0.99.0 of methylSig
, the methylSigTile()
function combined aggregating CpG data over pre-defined tiles and genomic windows.
# For genomic windows, tiles = NULL
windowed_meth = methylSigTile(meth, tiles = NULL, win.size = 10000)
# For pre-defined tiles, tiles should be a GRanges object.
In versions >= 0.99.0 of methylSig
, tiling is separated into two functions, tile_by_regions()
and tile_by_windows()
. Users should chooose one or the other.
windowed_bs = tile_by_windows(bs = bs, win_size = 10000)
# Collapsed promoters on chr21 and chr22
data(promoters_gr, package = 'methylSig')
promoters_bs = tile_by_regions(bs = bs, gr = promoters_gr)
In versions < 0.99.0 of methylSig
, the methylSigCalc
function had a min.per.group
parameter to determine how many samples per group had to have coverage in order to be tested.
result = methylSigCalc(
meth = meth,
comparison = 'DR_vs_DS',
dispersion = 'both',
local.info = FALSE,
local.winsize = 200,
min.per.group = c(3,3),
weightFunc = methylSig_weightFunc,
T.approx = TRUE,
num.cores = 1)
In versions >= 0.99.0 of methylSig
, the min.per.group
functionality is performed by a separate function filter_loci_by_group_coverage()
. Also note the change in form to define dispersion calculations, and the use of local information.
# Look a the phenotype data for bs
bsseq::pData(bs)
#> DataFrame with 6 rows and 2 columns
#> Type Pair
#> <character> <character>
#> C1 cancer pair1
#> C2 cancer pair2
#> C3 cancer pair3
#> N1 normal pair1
#> N2 normal pair2
#> N3 normal pair3
# Require at least two samples from cancer and two samples from normal
bs = filter_loci_by_group_coverage(
bs = bs,
group_column = 'Type',
c('cancer' = 2, 'normal' = 2))
After removing loci with insufficient information, we can now use the diff_methylsig()
test.
# Test cancer versus normal with dispersion from both groups
diff_gr = diff_methylsig(
bs = bs,
group_column = 'Type',
comparison_groups = c('case' = 'cancer', 'control' = 'normal'),
disp_groups = c('case' = TRUE, 'control' = TRUE),
local_window_size = 0,
t_approx = TRUE,
n_cores = 1)
In versions < 0.99.0 of methylSig
, the methylSigDSS
function also had a min.per.group
parameter to determine how many samples per group had to have coverage. Users also couldn’t specify which methylation groups to recover. The form of design
, formula
, and contrast
, remain the same in versions >= 0.99.0.
contrast = matrix(c(0,1), ncol = 1)
result_dss = methylSigDSS(
meth = meth,
design = design1,
formula = '~ group',
contrast = contrast,
group.term = 'group',
min.per.group=c(3,3))
In versions >= 0.99.0 of methylSig
, the single methylSigDSS()
function is replaced by a fit function diff_dss_fit()
and a test functiotn diff_dss_test()
. As with diff_methylsig()
, users should ensure enough samples have sufficient coverage with the filter_loci_by_group_coverage()
function. The design
and formula
are unchanged in their forms.
If a continuous covariate is to be tested, filter_loci_by_group_coverage()
should be skipped, as there are no groups. In prior versions of methylSigDSS()
, this was not possible, and the group constraints were incorrectly applied prior to testing on a continuous covariate.
# IF NOT DONE PREVIOUSLY
# Require at least two samples from cancer and two samples from normal
bs = filter_loci_by_group_coverage(
bs = bs,
group_column = 'Type',
c('cancer' = 2, 'normal' = 2))
# Test the simplest model with an intercept and Type
diff_fit_simple = diff_dss_fit(
bs = bs,
design = bsseq::pData(bs),
formula = as.formula('~ Type'))
#> Fitting DML model for CpG site:
The contrast
parameter is also changed in its form. Note the, additional parameters to specify how to recover group methylation. methylation_group_column
and methylation_groups
should be specified for group versus group comparisons. For continuous covariates, methylation_group_column
is sufficient, and the samples will be grouped into top/bottom 25 percentile based on the continuous covariate column name given in methylation_group_column
.
# Test the simplest model for cancer vs normal
# Note, 2 rows corresponds to 2 columns in diff_fit_simple$X
simple_contrast = matrix(c(0,1), ncol = 1)
diff_simple_gr = diff_dss_test(
bs = bs,
diff_fit = diff_fit_simple,
contrast = simple_contrast,
methylation_group_column = 'Type',
methylation_groups = c('case' = 'cancer', 'control' = 'normal'))
sessionInfo()
#> R version 4.4.0 beta (2024-04-15 r86425)
#> Platform: x86_64-pc-linux-gnu
#> Running under: Ubuntu 22.04.4 LTS
#>
#> Matrix products: default
#> BLAS: /home/biocbuild/bbs-3.19-bioc/R/lib/libRblas.so
#> LAPACK: /usr/lib/x86_64-linux-gnu/lapack/liblapack.so.3.10.0
#>
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#>
#> time zone: America/New_York
#> tzcode source: system (glibc)
#>
#> attached base packages:
#> [1] stats graphics grDevices utils datasets methods base
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#> other attached packages:
#> [1] methylSig_1.16.0 BiocStyle_2.32.0
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