Convert between sequence file formats (FASTA, FASTQ, GenBank, EMBL) using Biopython Bio.SeqIO. Use when changing file formats or preparing data for different tools.
Install with the open skills CLI (global, non-interactive — available in every Claude Code session):
npx skills add FreedomIntelligence/OpenClaw-Medical-Skills --skill "bio-format-conversion" -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-format-conversion ~/.claude/skills/bio-format-conversionThis skill is a directory: SKILL.md is the entry point; the files below ship with it.
---
name: bio-format-conversion
description: Convert between sequence file formats (FASTA, FASTQ, GenBank, EMBL) using Biopython Bio.SeqIO. Use when changing file formats or preparing data for different tools.
tool_type: python
primary_tool: Bio.SeqIO
---
## Version Compatibility
Reference examples tested with: BioPython 1.83+, samtools 1.19+
Before using code patterns, verify installed versions match. If versions differ:
- Python: `pip show <package>` then `help(module.function)` to check signatures
If code throws ImportError, AttributeError, or TypeError, introspect the installed
package and adapt the example to match the actual API rather than retrying.
# Format Conversion
**"Convert this file to a different format"** → Read records in one format, optionally add missing annotations, and write in the target format.
- Python: `SeqIO.convert()` for direct conversion, or `SeqIO.parse()` + `SeqIO.write()` when modifications are needed (BioPython)
- CLI: `seqkit seq` (SeqKit) for FASTA/FASTQ; `samtools view` for SAM/BAM/CRAM
Convert sequence files between formats using Biopython's Bio.SeqIO module.
## Required Import
```python
from Bio import SeqIO
```
## Core Function
### SeqIO.convert() - Direct Conversion
Convert between formats in a single call. Most efficient method.
```python
count = SeqIO.convert('input.gb', 'genbank', 'output.fasta', 'fasta')
print(f'Converted {count} records')
```
**Parameters:**
- `in_file` - Input filename or handle
- `in_format` - Input format string
- `out_file` - Output filename or handle
- `out_format` - Output format string
**Returns:** Number of records converted
## Common Conversions
| From | To | Notes |
|------|-----|-------|
| GenBank | FASTA | Loses annotations, keeps sequence |
| FASTA | GenBank | Need to add molecule_type |
| FASTQ | FASTA | Loses quality scores |
| FASTA | FASTQ | Need to add quality scores |
| GenBank | EMBL | Usually works directly |
| Stockholm | FASTA | Alignment to sequences |
## Code Patterns
### Simple Conversion
```python
SeqIO.convert('input.gb', 'genbank', 'output.fasta', 'fasta')
```
### GenBank to FASTA
```python
SeqIO.convert('sequence.gb', 'genbank', 'sequence.fasta', 'fasta')
```
### FASTQ to FASTA (drop quality)
```python
SeqIO.convert('reads.fastq', 'fastq', 'reads.fasta', 'fasta')
```
### FASTA to GenBank (requires molecule_type)
**Goal:** Convert FASTA to GenBank format, which requires molecule_type annotation.
**Approach:** Stream records through a generator that injects the missing annotation, then write.
**Reference (BioPython 1.83+):**
```python
records = SeqIO.parse('input.fasta', 'fasta')
def add_molecule_type(records):
for record in records:
record.annotations['molecule_type'] = 'DNA'
yield record
SeqIO.write(add_molecule_type(records), 'output.gb', 'genbank')
```
### FASTA to FASTQ (add dummy quality)
**Goal:** Convert FASTA to FASTQ by assigning uniform placeholder quality scores.
**Approach:** Stream records through a generator that adds phred_quality to each, then write as FASTQ.
**Reference (BioPython 1.83+):**
```python
def add_quality(records, quality=30):
for record in records:
record.letter_annotations['phred_quality'] = [quality] * len(record.seq)
yield record
records = SeqIO.parse('input.fasta', 'fasta')
SeqIO.write(add_quality(records), 'output.fastq', 'fastq')
```
### Batch Convert Multiple Files
**Goal:** Convert all files of one format in a directory to another format.
**Approach:** Glob for input files, apply `SeqIO.convert()` to each, and report per-file counts.
**Reference (BioPython 1.83+):**
```python
from pathlib import Path
for gb_file in Path('.').glob('*.gb'):
fasta_file = gb_file.with_suffix('.fasta')
count = SeqIO.convert(str(gb_file), 'genbank', str(fasta_file), 'fasta')
print(f'{gb_file.name}: {count} records')
```
### Convert with Modifications
```python
from Bio.Seq import Seq
from Bio.SeqRecord import SeqRecord
def uppercase_record(rec):
return SeqRecord(rec.seq.upper(), id=rec.id, description=rec.description)
records = SeqIO.parse('input.fasta', 'fasta')
modified = (uppercase_record(rec) for rec in records)
SeqIO.write(modified, 'output.fasta', 'fasta')
```
### Alignment Format Conversion
```python
from Bio import AlignIO
AlignIO.convert('alignment.sto', 'stockholm', 'alignment.phy', 'phylip')
```
## Format Compatibility Matrix
**Can convert directly (no modifications needed):**
- GenBank <-> EMBL
- FASTA -> any format (may need annotations added)
- Any format -> FASTA (always works, may lose data)
- FASTQ -> FASTA
**Requires adding data:**
- FASTA -> FASTQ (need quality scores)
- FASTA -> GenBank (need molecule_type)
**May lose data:**
- GenBank -> FASTA (loses features, annotations)
- FASTQ -> FASTA (loses quality scores)
- Any rich format -> FASTA
## Common Errors
| Error | Cause | Solution |
|-------|-------|----------|
| `ValueError: missing molecule_type` | FASTA to GenBank | Add molecule_type annotation |
| `ValueError: missing quality scores` | FASTA to FASTQ | Add phred_quality to letter_annotations |
| `KeyError: 'phred_quality'` | Wrong FASTQ variant | Try 'fastq-sanger', 'fastq-illumina' |
## Decision Tree
```
Converting formats?
├── Simple conversion (no data changes)?
│ └── Use SeqIO.convert() directly
├── Need to add annotations?
│ └── Parse, modify records, then write
├── Need to transform sequences?
│ └── Parse, apply transformation, then write
└── Multiple files?
└── Loop with SeqIO.convert() or batch generator
```
## Related Skills
- read-sequences - Parse sequences for custom conversion logic
- write-sequences - Write converted sequences with modifications
- batch-processing - Convert multiple files at once
- compressed-files - Handle compressed input/output during conversion
- alignment-files - For SAM/BAM/CRAM conversion, use samtools view
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