Agent skill
bio-epitranscriptomics-m6a-differential
Identify differential m6A methylation between conditions from MeRIP-seq. Use when comparing epitranscriptomic changes between treatment groups or cell states.
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Install this agent skill to your Project
npx add-skill https://github.com/majiayu000/claude-skill-registry/tree/main/skills/data/m6a-differential
SKILL.md
Differential m6A Analysis
exomePeak2 Differential Analysis
r
library(exomePeak2)
# Define sample design
# condition: factor for comparison
design <- data.frame(
condition = factor(c('ctrl', 'ctrl', 'treat', 'treat'))
)
# Differential peak calling
result <- exomePeak2(
bam_ip = c('ctrl_IP1.bam', 'ctrl_IP2.bam', 'treat_IP1.bam', 'treat_IP2.bam'),
bam_input = c('ctrl_Input1.bam', 'ctrl_Input2.bam', 'treat_Input1.bam', 'treat_Input2.bam'),
gff = 'genes.gtf',
genome = 'hg38',
experiment_design = design
)
# Get differential sites
diff_sites <- results(result, contrast = c('condition', 'treat', 'ctrl'))
QNB for Differential Methylation
r
library(QNB)
# Requires count matrices from peak regions
# IP and input counts per sample
qnb_result <- qnbtest(
IP_count_matrix,
Input_count_matrix,
group = c(1, 1, 2, 2) # 1=ctrl, 2=treat
)
# Filter significant
# padj < 0.05, |log2FC| > 1
sig <- qnb_result[qnb_result$padj < 0.05 & abs(qnb_result$log2FC) > 1, ]
Visualization
r
library(ggplot2)
# Volcano plot
ggplot(diff_sites, aes(x = log2FoldChange, y = -log10(padj))) +
geom_point(aes(color = padj < 0.05 & abs(log2FoldChange) > 1)) +
geom_hline(yintercept = -log10(0.05), linetype = 'dashed') +
geom_vline(xintercept = c(-1, 1), linetype = 'dashed')
Related Skills
- m6a-peak-calling - Identify peaks first
- differential-expression - Similar statistical concepts
- modification-visualization - Plot differential sites
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