Generate variant statistics, sample concordance, and quality metrics using bcftools stats and gtcheck. Use when evaluating variant quality, comparing samples, or summarizing VCF contents.
Install with the open skills CLI (global, non-interactive — available in every Claude Code session):
npx skills add FreedomIntelligence/OpenClaw-Medical-Skills --skill "bio-vcf-statistics" -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-vcf-statistics ~/.claude/skills/bio-vcf-statisticsThis skill is a directory: SKILL.md is the entry point; the files below ship with it.
---
name: bio-vcf-statistics
description: Generate variant statistics, sample concordance, and quality metrics using bcftools stats and gtcheck. Use when evaluating variant quality, comparing samples, or summarizing VCF contents.
tool_type: cli
primary_tool: bcftools
---
## Version Compatibility
Reference examples tested with: bcftools 1.19+, numpy 1.26+
Before using code patterns, verify installed versions match. If versions differ:
- Python: `pip show <package>` then `help(module.function)` to check signatures
- 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.
# VCF Statistics
Generate statistics and quality metrics using bcftools.
## Statistics Tools
| Command | Purpose |
|---------|---------|
| `bcftools stats` | Comprehensive variant statistics |
| `bcftools gtcheck` | Sample concordance and relatedness |
| `bcftools query` | Custom summaries |
## bcftools stats
**Goal:** Generate comprehensive variant statistics including counts, Ti/Tv ratio, and quality distributions.
**Approach:** Run bcftools stats and parse section-tagged output lines (SN, TSTV, AF, QUAL, DP).
**"How many variants are in this VCF?"** → Compute summary counts, substitution types, and quality distributions from variant records.
### Basic Statistics
```bash
bcftools stats input.vcf.gz > stats.txt
```
### View Key Metrics
```bash
bcftools stats input.vcf.gz | grep "^SN"
```
Output sections:
- `SN` - Summary numbers
- `TSTV` - Transitions/transversions
- `SiS` - Singleton stats
- `AF` - Allele frequency distribution
- `QUAL` - Quality distribution
- `IDD` - Indel distribution
- `ST` - Substitution types
- `DP` - Depth distribution
### Summary Numbers (SN)
```bash
bcftools stats input.vcf.gz | grep "^SN" | cut -f3-
```
Reports:
- Number of samples
- Number of records
- Number of SNPs
- Number of indels
- Number of multiallelic sites
- Number of multiallelic SNPs
### Transition/Transversion Ratio
```bash
bcftools stats input.vcf.gz | grep "^TSTV"
```
Expected Ti/Tv ratio:
- Whole genome: ~2.0-2.1
- Exome: ~2.8-3.3
### Per-Sample Statistics
```bash
bcftools stats -s - input.vcf.gz > per_sample.txt
```
### Compare Two VCFs
```bash
bcftools stats input1.vcf.gz input2.vcf.gz > comparison.txt
```
### Region-Specific Stats
```bash
bcftools stats -r chr1:1000000-2000000 input.vcf.gz > region_stats.txt
```
### Exome Statistics
```bash
bcftools stats -R exome.bed input.vcf.gz > exome_stats.txt
```
## Plotting Statistics
**Goal:** Visualize variant statistics as publication-quality plots.
**Approach:** Pipe bcftools stats output to plot-vcfstats to generate PDF and PNG plots.
### Generate Plots
```bash
bcftools stats input.vcf.gz > stats.txt
plot-vcfstats -p output_dir stats.txt
```
Creates:
- `output_dir/summary.pdf`
- Individual PNG files
### Comparison Plots
```bash
bcftools stats file1.vcf.gz file2.vcf.gz > comparison.txt
plot-vcfstats -p comparison_dir comparison.txt
```
## bcftools gtcheck
**Goal:** Verify sample identity and detect sample swaps by comparing genotype concordance.
**Approach:** Use bcftools gtcheck to compute pairwise discordance rates between samples or against a reference panel.
### Check Sample Identity
```bash
bcftools gtcheck -g reference.vcf.gz query.vcf.gz
```
Reports concordance between samples.
### Detect Sample Swaps
```bash
bcftools gtcheck -G 1 input.vcf.gz > relatedness.txt
```
Compares all samples pairwise.
### Output Format
```
DC 0 sample1 sample2 0.95 1234 1200
```
Fields:
- DC: Data type (discordance)
- Index
- Sample 1
- Sample 2
- Discordance rate
- Sites compared
- Discordant sites
### Check Against Reference Panel
```bash
bcftools gtcheck -g 1000genomes.vcf.gz unknown_sample.vcf.gz
```
## Quick Statistics with Query
**Goal:** Compute targeted summary statistics using bcftools query and shell tools.
**Approach:** Extract specific fields with bcftools query/view and aggregate with awk for counts, means, and distributions.
### Count Variants
```bash
bcftools view -H input.vcf.gz | wc -l
```
### Count by Type
```bash
# SNPs
bcftools view -v snps -H input.vcf.gz | wc -l
# Indels
bcftools view -v indels -H input.vcf.gz | wc -l
```
### Count PASS Variants
```bash
bcftools view -f PASS -H input.vcf.gz | wc -l
```
### Quality Distribution
```bash
bcftools query -f '%QUAL\n' input.vcf.gz | \
awk '{sum+=$1; count++} END {print "Mean QUAL:", sum/count}'
```
### Depth Distribution
```bash
bcftools query -f '%INFO/DP\n' input.vcf.gz | \
awk '{sum+=$1; count++} END {print "Mean DP:", sum/count}'
```
### Genotype Counts
```bash
# Count heterozygous sites per sample
bcftools query -f '[%GT\t]\n' input.vcf.gz | \
awk -F'\t' '{for(i=1;i<=NF;i++) if($i=="0/1" || $i=="0|1") het[i]++}
END {for(i in het) print "Sample", i, "het:", het[i]}'
```
### Allele Frequency Spectrum
```bash
bcftools query -f '%INFO/AF\n' input.vcf.gz | \
awk '{
if($1<0.01) rare++
else if($1<0.05) low++
else if($1<0.5) common++
else freq++
} END {
print "Rare (<1%):", rare
print "Low (1-5%):", low
print "Common (5-50%):", common
print "Frequent (>50%):", freq
}'
```
## Sample Statistics
**Goal:** Compute per-sample variant counts, genotype distributions, and missingness rates.
**Approach:** Use bcftools query/view/stats per sample to tabulate sample-level metrics.
### List Samples
```bash
bcftools query -l input.vcf.gz
```
### Count Samples
```bash
bcftools query -l input.vcf.gz | wc -l
```
### Per-Sample Variant Counts
```bash
for sample in $(bcftools query -l input.vcf.gz); do
count=$(bcftools view -s "$sample" -H input.vcf.gz | \
bcftools view -c 1 -H | wc -l)
echo "$sample: $count"
done
```
### Missing Genotypes per Sample
```bash
bcftools stats -s - input.vcf.gz | grep "^PSC"
```
## cyvcf2 Statistics
**Goal:** Compute variant statistics programmatically in Python for custom analyses.
**Approach:** Iterate variants with cyvcf2, accumulate counts by type, and compute quality/genotype distributions with numpy.
### Basic Counts
```python
from cyvcf2 import VCF
stats = {'snps': 0, 'indels': 0, 'other': 0}
for variant in VCF('input.vcf.gz'):
if variant.is_snp:
stats['snps'] += 1
elif variant.is_indel:
stats['indels'] += 1
else:
stats['other'] += 1
print(f'SNPs: {stats["snps"]}')
print(f'Indels: {stats["indels"]}')
print(f'Other: {stats["other"]}')
```
### Quality Statistics
```python
from cyvcf2 import VCF
import numpy as np
quals = []
for variant in VCF('input.vcf.gz'):
if variant.QUAL:
quals.append(variant.QUAL)
quals = np.array(quals)
print(f'Mean QUAL: {np.mean(quals):.1f}')
print(f'Median QUAL: {np.median(quals):.1f}')
print(f'Min QUAL: {np.min(quals):.1f}')
print(f'Max QUAL: {np.max(quals):.1f}')
```
### Genotype Distribution
```python
from cyvcf2 import VCF
vcf = VCF('input.vcf.gz')
samples = vcf.samples
hom_ref = [0] * len(samples)
het = [0] * len(samples)
hom_alt = [0] * len(samples)
missing = [0] * len(samples)
for variant in vcf:
for i, gt in enumerate(variant.gt_types):
if gt == 0:
hom_ref[i] += 1
elif gt == 1:
het[i] += 1
elif gt == 3:
hom_alt[i] += 1
else:
missing[i] += 1
for i, sample in enumerate(samples):
print(f'{sample}: HOM_REF={hom_ref[i]}, HET={het[i]}, HOM_ALT={hom_alt[i]}, MISS={missing[i]}')
```
### Transition/Transversion Calculation
```python
from cyvcf2 import VCF
transitions = 0
transversions = 0
ti_pairs = {('A', 'G'), ('G', 'A'), ('C', 'T'), ('T', 'C')}
for variant in VCF('input.vcf.gz'):
if not variant.is_snp:
continue
ref = variant.REF
alt = variant.ALT[0]
if (ref, alt) in ti_pairs:
transitions += 1
else:
transversions += 1
ratio = transitions / transversions if transversions > 0 else 0
print(f'Transitions: {transitions}')
print(f'Transversions: {transversions}')
print(f'Ti/Tv ratio: {ratio:.2f}')
```
## Common Workflows
**Goal:** Run standard QC and comparison workflows for variant call evaluation.
**Approach:** Combine bcftools stats, grep, and plot-vcfstats for before/after filtering comparisons and sample relatedness checks.
### Quality Control Report
```bash
# Generate stats
bcftools stats input.vcf.gz > stats.txt
# Extract key metrics
echo "=== VCF Summary ==="
grep "^SN" stats.txt | cut -f3-
echo ""
echo "=== Ti/Tv Ratio ==="
grep "^TSTV" stats.txt | cut -f5
# Generate plots
plot-vcfstats -p qc_plots stats.txt
```
### Compare Before/After Filtering
```bash
bcftools stats raw.vcf.gz filtered.vcf.gz > comparison.txt
echo "=== Before Filtering ==="
grep "^SN.*raw" comparison.txt | cut -f3-
echo ""
echo "=== After Filtering ==="
grep "^SN.*filtered" comparison.txt | cut -f3-
```
### Sample Relatedness Check
```bash
bcftools gtcheck -G 1 cohort.vcf.gz > relatedness.txt
cat relatedness.txt
```
## Quick Reference
| Task | Command |
|------|---------|
| Full stats | `bcftools stats input.vcf.gz` |
| Summary only | `bcftools stats input.vcf.gz \| grep "^SN"` |
| Ti/Tv ratio | `bcftools stats input.vcf.gz \| grep "^TSTV"` |
| Per-sample | `bcftools stats -s - input.vcf.gz` |
| Compare VCFs | `bcftools stats file1.vcf.gz file2.vcf.gz` |
| Sample check | `bcftools gtcheck -G 1 input.vcf.gz` |
| Plot stats | `plot-vcfstats -p dir stats.txt` |
## Common Errors
| Error | Cause | Solution |
|-------|-------|----------|
| `No data` | Empty VCF | Check if VCF has variants |
| `plot-vcfstats not found` | Not installed | Install with bcftools |
| `Cannot open` | Invalid VCF | Check file format |
## Related Skills
- vcf-basics - View and query VCF files
- filtering-best-practices - Evaluate filter impact
- vcf-manipulation - Compare call sets
- variant-calling - Assess calling quality
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