Differentially methylated region (DMR) detection using methylKit tiles, bsseq BSmooth, and DMRcate. Use when identifying contiguous genomic regions with methylation differences between experimental conditions or cell types.
Install with the open skills CLI (global, non-interactive — available in every Claude Code session):
npx skills add FreedomIntelligence/OpenClaw-Medical-Skills --skill "bio-methylation-dmr-detection" -g -a claude-code -yOr manually — clone and copy the skill directory (SKILL.md + companion files):
git clone --depth 1 https://github.com/FreedomIntelligence/OpenClaw-Medical-Skills /tmp/OpenClaw-Medical-Skills && cp -r /tmp/OpenClaw-Medical-Skills/skills/bio-methylation-dmr-detection ~/.claude/skills/bio-methylation-dmr-detectionThis skill is a directory: SKILL.md is the entry point; the files below ship with it.
---
name: bio-methylation-dmr-detection
description: Differentially methylated region (DMR) detection using methylKit tiles, bsseq BSmooth, and DMRcate. Use when identifying contiguous genomic regions with methylation differences between experimental conditions or cell types.
tool_type: r
primary_tool: methylKit
---
## Version Compatibility
Reference examples tested with: GenomicRanges 1.54+
Before using code patterns, verify installed versions match. If versions differ:
- R: `packageVersion('<pkg>')` then `?function_name` to verify parameters
If code throws ImportError, AttributeError, or TypeError, introspect the installed
package and adapt the example to match the actual API rather than retrying.
# DMR Detection
**"Find differentially methylated regions"** → Identify contiguous genomic regions with statistically significant methylation differences between conditions using tiling, smoothing, or kernel-based approaches.
- R: `methylKit::tileMethylCounts()` + `calculateDiffMeth()`, `bsseq::BSmooth()`, `DMRcate::dmrcate()`
## methylKit Tile-Based DMRs
```r
library(methylKit)
# Read and process data
meth_obj <- methRead(location = file_list, sample.id = sample_ids, treatment = treatment,
assembly = 'hg38', pipeline = 'bismarkCoverage')
meth_filt <- filterByCoverage(meth_obj, lo.count = 10, hi.perc = 99.9)
# Create tiles (windows)
tiles <- tileMethylCounts(meth_filt, win.size = 1000, step.size = 1000, cov.bases = 3)
tiles_united <- unite(tiles, destrand = TRUE)
# Differential methylation on tiles
diff_tiles <- calculateDiffMeth(tiles_united, overdispersion = 'MN', mc.cores = 4)
# Get significant DMRs
dmrs <- getMethylDiff(diff_tiles, difference = 25, qvalue = 0.01)
dmrs_hyper <- getMethylDiff(diff_tiles, difference = 25, qvalue = 0.01, type = 'hyper')
dmrs_hypo <- getMethylDiff(diff_tiles, difference = 25, qvalue = 0.01, type = 'hypo')
```
## bsseq BSmooth DMRs
```r
library(bsseq)
# Read Bismark cytosine reports
bs <- read.bismark(files = c('sample1.CpG_report.txt.gz', 'sample2.CpG_report.txt.gz'),
sampleNames = c('ctrl', 'treat'),
rmZeroCov = TRUE,
strandCollapse = TRUE)
# Smooth methylation data
bs_smooth <- BSmooth(bs, mc.cores = 4, verbose = TRUE)
# Filter by coverage
bs_cov <- getCoverage(bs_smooth)
keep <- which(rowSums(bs_cov >= 2) == ncol(bs_cov))
bs_filt <- bs_smooth[keep, ]
# Find DMRs with BSmooth
dmrs_bsseq <- dmrFinder(bs_filt, cutoff = c(-0.1, 0.1), stat = 'tstat.corrected')
```
## DMRcate Method
```r
library(DMRcate)
library(minfi)
# From methylation matrix (beta values)
# Rows = CpGs, columns = samples
design <- model.matrix(~ treatment)
# Run DMRcate
myannotation <- cpg.annotate('array', meth_matrix, what = 'Beta', arraytype = 'EPIC',
design = design, coef = 2)
dmr_results <- dmrcate(myannotation, lambda = 1000, C = 2)
dmr_ranges <- extractRanges(dmr_results)
```
## Annotate DMRs with Genes
**Goal:** Map differentially methylated regions to overlapping genes, promoters, and CpG islands for biological interpretation.
**Approach:** Build a genome annotation set with annotatr, convert DMRs to GRanges, and intersect with genomic features to classify each DMR by functional context.
```r
library(annotatr)
# Build annotations
annots <- build_annotations(genome = 'hg38', annotations = c(
'hg38_basicgenes',
'hg38_genes_promoters',
'hg38_cpg_islands'
))
# Convert DMRs to GRanges
dmr_gr <- as(dmrs, 'GRanges')
# Annotate
dmr_annotated <- annotate_regions(regions = dmr_gr, annotations = annots, ignore.strand = TRUE)
dmr_df <- data.frame(dmr_annotated)
```
## Annotate with genomation
```r
library(genomation)
# Read gene annotations
gene_obj <- readTranscriptFeatures('genes.bed12')
# Annotate DMRs
dmr_gr <- as(dmrs, 'GRanges')
annot_result <- annotateWithGeneParts(dmr_gr, gene_obj)
# Get promoter/exon/intron breakdown
getTargetAnnotationStats(annot_result, percentage = TRUE, precedence = TRUE)
```
## Visualize DMR
```r
library(Gviz)
# Create track for a DMR
chr <- 'chr1'
start <- 1000000
end <- 1010000
# Methylation data track
meth_track <- DataTrack(
range = bs_smooth,
genome = 'hg38',
name = 'Methylation',
type = 'smooth'
)
# Gene annotation track
gene_track <- GeneRegionTrack(TxDb.Hsapiens.UCSC.hg38.knownGene, genome = 'hg38', name = 'Genes')
# Plot
plotTracks(list(meth_track, gene_track), from = start, to = end, chromosome = chr)
```
## Merge Adjacent DMRs
```r
library(GenomicRanges)
dmr_gr <- as(dmrs, 'GRanges')
# Merge DMRs within 500bp
dmr_merged <- reduce(dmr_gr, min.gapwidth = 500)
```
## Export DMRs
```r
# To BED
library(rtracklayer)
export(dmr_gr, 'dmrs.bed', format = 'BED')
# To CSV
dmr_df <- getData(dmrs)
write.csv(dmr_df, 'dmrs.csv', row.names = FALSE)
# To GFF
export(dmr_gr, 'dmrs.gff3', format = 'GFF3')
```
## DMR Comparison Across Methods
| Method | Package | Approach | Best For |
|--------|---------|----------|----------|
| Tiles | methylKit | Fixed windows | Quick analysis |
| BSmooth | bsseq | Smoothing | WGBS data |
| DMRcate | DMRcate | Kernel smoothing | Array data |
| DSS | DSS | Bayesian | Complex designs |
## Key Parameters
### methylKit tileMethylCounts
| Parameter | Default | Description |
|-----------|---------|-------------|
| win.size | 1000 | Window size (bp) |
| step.size | 1000 | Step size (bp) |
| cov.bases | 0 | Min CpGs per tile |
### bsseq dmrFinder
| Parameter | Description |
|-----------|-------------|
| cutoff | Methylation difference threshold |
| stat | Statistic to use |
| maxGap | Max gap between CpGs |
## Related Skills
- methylkit-analysis - Single CpG analysis
- methylation-calling - Generate input files
- pathway-analysis/go-enrichment - Functional annotation of DMR genes
- differential-expression/deseq2-basics - Compare with expression changes
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