Filter reads by quality scores, length, and N content using Trimmomatic and fastp. Apply sliding window trimming, remove low-quality bases from read ends, and discard reads below thresholds. Use when reads have poor quality tails or require minimum quality 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-read-qc-quality-filtering" -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-read-qc-quality-filtering ~/.claude/skills/bio-read-qc-quality-filteringThis skill is a directory: SKILL.md is the entry point; the files below ship with it.
---
name: bio-read-qc-quality-filtering
description: Filter reads by quality scores, length, and N content using Trimmomatic and fastp. Apply sliding window trimming, remove low-quality bases from read ends, and discard reads below thresholds. Use when reads have poor quality tails or require minimum quality for downstream analysis.
tool_type: cli
primary_tool: trimmomatic
---
## Version Compatibility
Reference examples tested with: Trimmomatic 0.39+, cutadapt 4.4+, fastp 0.23+
Before using code patterns, verify installed versions match. If versions differ:
- CLI: `<tool> --version` then `<tool> --help` to confirm flags
If code throws ImportError, AttributeError, or TypeError, introspect the installed
package and adapt the example to match the actual API rather than retrying.
# Quality Filtering
Trim low-quality bases and filter reads using Trimmomatic sliding window or fastp quality filtering.
**"Filter reads by quality"** → Remove low-quality bases and discard reads below quality/length thresholds.
- CLI: `trimmomatic PE` with SLIDINGWINDOW and MINLEN options
- CLI: `fastp --qualified_quality_phred 20 --length_required 50`
## Trimmomatic Quality Operations
### Single-End Mode
```bash
trimmomatic SE -phred33 \
input.fastq.gz output.fastq.gz \
LEADING:3 TRAILING:3 SLIDINGWINDOW:4:15 MINLEN:36
```
### Paired-End Mode
```bash
trimmomatic PE -phred33 -threads 4 \
input_R1.fastq.gz input_R2.fastq.gz \
output_R1_paired.fastq.gz output_R1_unpaired.fastq.gz \
output_R2_paired.fastq.gz output_R2_unpaired.fastq.gz \
LEADING:3 TRAILING:3 SLIDINGWINDOW:4:15 MINLEN:36
```
### Trimmomatic Operations
| Operation | Syntax | Description |
|-----------|--------|-------------|
| LEADING | LEADING:Q | Remove leading bases below quality Q |
| TRAILING | TRAILING:Q | Remove trailing bases below quality Q |
| SLIDINGWINDOW | SLIDINGWINDOW:W:Q | Cut when W-bp window average < Q |
| MINLEN | MINLEN:L | Discard reads shorter than L |
| CROP | CROP:L | Cut read to max length L |
| HEADCROP | HEADCROP:N | Remove first N bases |
| AVGQUAL | AVGQUAL:Q | Drop read if average quality < Q |
| MAXINFO | MAXINFO:L:S | Balance length and quality |
| TOPHRED33 | TOPHRED33 | Convert to Phred33 encoding |
| TOPHRED64 | TOPHRED64 | Convert to Phred64 encoding |
### Common Trimmomatic Recipes
```bash
# Standard quality trimming
trimmomatic SE input.fq output.fq \
SLIDINGWINDOW:4:20 MINLEN:36
# Aggressive 3' trimming
trimmomatic SE input.fq output.fq \
TRAILING:20 SLIDINGWINDOW:4:20 MINLEN:36
# Trim both ends, strict filtering
trimmomatic SE input.fq output.fq \
LEADING:10 TRAILING:10 SLIDINGWINDOW:4:25 MINLEN:50
# Keep fixed length (for some tools)
trimmomatic SE input.fq output.fq \
CROP:100 MINLEN:100
# Remove first 10 bases (e.g., random primers)
trimmomatic SE input.fq output.fq \
HEADCROP:10 MINLEN:36
```
### SLIDINGWINDOW Details
```bash
SLIDINGWINDOW:<windowSize>:<requiredQuality>
# Scan from 5' to 3'
# Cut when average quality in window drops below threshold
# Common settings: 4:15, 4:20, 5:20
# Conservative (keep more, lower quality)
SLIDINGWINDOW:4:15
# Moderate
SLIDINGWINDOW:4:20
# Strict (keep less, higher quality)
SLIDINGWINDOW:4:25
```
## fastp Quality Filtering
### Basic Quality Filtering
```bash
# Quality filtering (default Q15)
fastp -i in.fq -o out.fq
# Custom quality threshold
fastp -i in.fq -o out.fq -q 20
# Sliding window from 5' end
fastp -i in.fq -o out.fq --cut_front --cut_front_window_size 4 --cut_front_mean_quality 20
# Sliding window from 3' end
fastp -i in.fq -o out.fq --cut_tail --cut_tail_window_size 4 --cut_tail_mean_quality 20
# Aggressive right-side trimming (recommended)
fastp -i in.fq -o out.fq --cut_right --cut_right_window_size 4 --cut_right_mean_quality 20
```
### fastp Quality Options
```bash
# Global mean quality filter
fastp -i in.fq -o out.fq -q 20 -e 25
# -q: per-base quality threshold
# -e: average quality threshold for entire read
# Unqualified bases threshold
fastp -i in.fq -o out.fq --unqualified_percent_limit 40
# Discard if >40% bases below quality threshold
# N base filtering
fastp -i in.fq -o out.fq -n 5
# Discard reads with >5 N bases
```
### Paired-End with fastp
```bash
fastp -i R1.fq -I R2.fq -o out_R1.fq -O out_R2.fq \
--cut_right \
--cut_right_window_size 4 \
--cut_right_mean_quality 20 \
-q 20 -l 36
```
### Length Filtering
```bash
# Trimmomatic
trimmomatic SE input.fq output.fq MINLEN:50
# fastp
fastp -i in.fq -o out.fq -l 50 # min length
fastp -i in.fq -o out.fq --length_limit 150 # max length
```
## Cutadapt Quality Trimming
```bash
# Trim 3' end below Q20
cutadapt -q 20 -o out.fq in.fq
# Trim both ends
cutadapt -q 20,20 -o out.fq in.fq
# With minimum length
cutadapt -q 20 -m 36 -o out.fq in.fq
# Paired-end
cutadapt -q 20 -m 36 -o R1.fq -p R2.fq in_R1.fq in_R2.fq
```
## Combined Adapter + Quality Trimming
### Trimmomatic Full Pipeline
```bash
trimmomatic PE -threads 4 -phred33 \
R1.fq.gz R2.fq.gz \
R1_paired.fq.gz R1_unpaired.fq.gz \
R2_paired.fq.gz R2_unpaired.fq.gz \
ILLUMINACLIP:TruSeq3-PE-2.fa:2:30:10:2:keepBothReads \
LEADING:3 TRAILING:3 SLIDINGWINDOW:4:20 MINLEN:36
```
### Cutadapt Full Pipeline
```bash
cutadapt \
-a AGATCGGAAGAGC -A AGATCGGAAGAGC \
-q 20 -m 36 \
-o R1_trimmed.fq.gz -p R2_trimmed.fq.gz \
R1.fq.gz R2.fq.gz
```
## Poly-G Trimming (NovaSeq/NextSeq)
NextSeq and NovaSeq use two-color chemistry, causing poly-G artifacts at read ends.
```bash
# fastp auto-detects and trims poly-G
fastp -i in.fq -o out.fq --trim_poly_g
# Disable auto-detection
fastp -i in.fq -o out.fq --disable_trim_poly_g
# Trimmomatic (manual approach)
# Add poly-G to adapter file
```
## Quality Thresholds
| Phred | Error Rate | Use Case |
|-------|------------|----------|
| Q10 | 10% | Very lenient |
| Q15 | 3% | fastp default |
| Q20 | 1% | Common threshold |
| Q25 | 0.3% | Strict |
| Q30 | 0.1% | Very strict |
## Related Skills
- adapter-trimming - Remove adapters before quality filtering
- quality-reports - Check quality before/after filtering
- fastp-workflow - All-in-one preprocessing
Use when facing 2+ independent tasks that can be worked on without shared state or sequential dependencies
Use when completing tasks, implementing major features, or before merging to verify work meets requirements
Use when encountering any bug, test failure, or unexpected behavior, before proposing fixes