Amplicon sequence variant (ASV) inference from 16S rRNA or ITS amplicon sequencing using DADA2. Covers quality filtering, error learning, denoising, and chimera removal. Use when processing demultiplexed amplicon FASTQ files to generate an ASV table for downstream analysis.
Install with the open skills CLI (global, non-interactive — available in every Claude Code session):
npx skills add FreedomIntelligence/OpenClaw-Medical-Skills --skill "bio-microbiome-amplicon-processing" -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-microbiome-amplicon-processing ~/.claude/skills/bio-microbiome-amplicon-processingThis skill is a directory: SKILL.md is the entry point; the files below ship with it.
---
name: bio-microbiome-amplicon-processing
description: Amplicon sequence variant (ASV) inference from 16S rRNA or ITS amplicon sequencing using DADA2. Covers quality filtering, error learning, denoising, and chimera removal. Use when processing demultiplexed amplicon FASTQ files to generate an ASV table for downstream analysis.
tool_type: r
primary_tool: dada2
---
## Version Compatibility
Reference examples tested with: DADA2 1.30+, cutadapt 4.4+
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.
# Amplicon Processing with DADA2
**"Process my 16S amplicon data to get ASVs"** → Denoise amplicon sequencing reads into exact amplicon sequence variants (ASVs) through quality filtering, error model learning, and chimera removal.
- R: `dada2::filterAndTrim()` → `learnErrors()` → `dada()` → `removeBimeraDenovo()`
## Complete DADA2 Workflow
```r
library(dada2)
path <- 'raw_reads'
fnFs <- sort(list.files(path, pattern = '_R1_001.fastq.gz', full.names = TRUE))
fnRs <- sort(list.files(path, pattern = '_R2_001.fastq.gz', full.names = TRUE))
sample_names <- sapply(strsplit(basename(fnFs), '_'), `[`, 1)
# Quality profiles
plotQualityProfile(fnFs[1:2])
plotQualityProfile(fnRs[1:2])
```
## Quality Filtering and Trimming
```r
filtFs <- file.path('filtered', paste0(sample_names, '_F_filt.fastq.gz'))
filtRs <- file.path('filtered', paste0(sample_names, '_R_filt.fastq.gz'))
names(filtFs) <- sample_names
names(filtRs) <- sample_names
# Filter parameters depend on amplicon region and read length
out <- filterAndTrim(fnFs, filtFs, fnRs, filtRs,
truncLen = c(240, 160), # Trim to quality scores
maxN = 0, # No ambiguous bases
maxEE = c(2, 2), # Max expected errors
truncQ = 2, # Truncate at first Q <= 2
rm.phix = TRUE, # Remove PhiX
compress = TRUE,
multithread = TRUE)
```
## Error Rate Learning
```r
errF <- learnErrors(filtFs, multithread = TRUE)
errR <- learnErrors(filtRs, multithread = TRUE)
# Visualize error rates
plotErrors(errF, nominalQ = TRUE)
```
## Sample Inference (Denoising)
```r
dadaFs <- dada(filtFs, err = errF, multithread = TRUE)
dadaRs <- dada(filtRs, err = errR, multithread = TRUE)
# Check results
dadaFs[[1]]
```
## Merge Paired Reads
```r
mergers <- mergePairs(dadaFs, filtFs, dadaRs, filtRs, verbose = TRUE)
# Check merge success
head(mergers[[1]])
```
## Construct Sequence Table
```r
seqtab <- makeSequenceTable(mergers)
dim(seqtab)
# Check length distribution
table(nchar(getSequences(seqtab)))
```
## Remove Chimeras
```r
seqtab_nochim <- removeBimeraDenovo(seqtab, method = 'consensus',
multithread = TRUE, verbose = TRUE)
# Percentage retained
sum(seqtab_nochim) / sum(seqtab)
```
## Track Reads Through Pipeline
**Goal:** Generate a per-sample summary table showing how many reads survived each DADA2 processing step for quality assessment.
**Approach:** Extract read counts from each pipeline stage (filtering, denoising, merging, chimera removal) and combine into a single tracking matrix.
```r
getN <- function(x) sum(getUniques(x))
track <- cbind(out, sapply(dadaFs, getN), sapply(dadaRs, getN),
sapply(mergers, getN), rowSums(seqtab_nochim))
colnames(track) <- c('input', 'filtered', 'denoisedF', 'denoisedR', 'merged', 'nonchim')
rownames(track) <- sample_names
track
```
## ITS-Specific Processing
```r
# For ITS, use cutadapt to remove primers first (variable length amplicons)
# Then skip truncLen (don't truncate ITS to fixed length)
out_its <- filterAndTrim(fnFs, filtFs, fnRs, filtRs,
maxN = 0, maxEE = c(2, 2), truncQ = 2,
minLen = 50, # Minimum length
rm.phix = TRUE, compress = TRUE, multithread = TRUE)
```
## Related Skills
- taxonomy-assignment - Assign taxonomy to ASVs
- read-qc/quality-reports - Pre-DADA2 quality assessment
- diversity-analysis - Analyze ASV table
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