| name | bio-alignment-io |
| description | Read, write, and convert multiple sequence alignment files using Biopython Bio.AlignIO. Supports Clustal, PHYLIP, Stockholm, FASTA, Nexus, and other alignment formats for phylogenetics and conservation analysis. Use when reading, writing, or converting alignment file formats. |
| tool_type | python |
| primary_tool | Bio.AlignIO |
Version Compatibility
Reference examples tested with: BioPython 1.83+
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.
Alignment File I/O
Read, write, and convert multiple sequence alignment files in various formats.
Required Import
Goal: Load modules for reading, writing, and manipulating multiple sequence alignments.
Approach: Import AlignIO for file I/O and supporting classes for programmatic alignment construction.
from Bio import AlignIO
from Bio.Align import MultipleSeqAlignment
from Bio.SeqRecord import SeqRecord
from Bio.Seq import Seq
Supported Formats
| Format | Extension | Read | Write | Description |
|---|
clustal | .aln | Yes | Yes | Clustal W/X output |
fasta | .fasta, .fa | Yes | Yes | Aligned FASTA |
phylip | .phy | Yes | Yes | Interleaved PHYLIP |
phylip-sequential | .phy | Yes | Yes | Sequential PHYLIP |
phylip-relaxed | .phy | Yes | Yes | PHYLIP with long names |
stockholm | .sto, .stk | Yes | Yes | Pfam/Rfam annotated |
nexus | .nex | Yes | Yes | NEXUS format |
emboss | .txt | Yes | No | EMBOSS tools output |
fasta-m10 | .txt | Yes | No | FASTA -m 10 output |
maf | .maf | Yes | Yes | Multiple Alignment Format |
mauve | .xmfa | Yes | No | progressiveMauve output |
msf | .msf | Yes | No | GCG MSF format |
Reading Alignments
"Read an alignment file" → Parse an alignment file into an alignment object with sequences and metadata accessible.
Goal: Load alignment data from files in various formats (Clustal, PHYLIP, Stockholm, FASTA).
Approach: Use AlignIO.read() for single-alignment files or AlignIO.parse() for files containing multiple alignments.
Single Alignment File
from Bio import AlignIO
alignment = AlignIO.read('alignment.aln', 'clustal')
print(f'Alignment length: {alignment.get_alignment_length()}')
print(f'Number of sequences: {len(alignment)}')
Multiple Alignments in One File
for alignment in AlignIO.parse('multi_alignment.sto', 'stockholm'):
print(f'Alignment with {len(alignment)} sequences, length {alignment.get_alignment_length()}')
Read as List
alignments = list(AlignIO.parse('alignments.phy', 'phylip'))
print(f'Read {len(alignments)} alignments')
Writing Alignments
Goal: Save alignment data to files in standard formats for downstream tools or archival.
Approach: Use AlignIO.write() with the target format specifier, supporting single or multiple alignments and file handles.
Write Single Alignment
AlignIO.write(alignment, 'output.fasta', 'fasta')
Write Multiple Alignments
alignments = [alignment1, alignment2, alignment3]
count = AlignIO.write(alignments, 'output.sto', 'stockholm')
print(f'Wrote {count} alignments')
Write to Handle
with open('output.aln', 'w') as handle:
AlignIO.write(alignment, handle, 'clustal')
Format Conversion
"Convert alignment format" → Transform an alignment file from one format to another (e.g., Clustal to PHYLIP).
Goal: Convert alignment files between formats for compatibility with different analysis tools.
Approach: Use AlignIO.convert() for direct one-step conversion, or read-modify-write for cases requiring intermediate manipulation.
Direct Conversion (Most Efficient)
AlignIO.convert('input.aln', 'clustal', 'output.phy', 'phylip')
With Alphabet Specification
AlignIO.convert('input.sto', 'stockholm', 'output.nex', 'nexus', molecule_type='DNA')
Manual Conversion (When Modification Needed)
alignment = AlignIO.read('input.aln', 'clustal')
AlignIO.write(alignment, 'output.fasta', 'fasta')
Accessing Alignment Data
Goal: Navigate and extract data from alignment objects including sequences, columns, and slices.
Approach: Use iteration, indexing, and column slicing on the alignment object.
alignment = AlignIO.read('alignment.aln', 'clustal')
for record in alignment:
print(f'{record.id}: {record.seq}')
first_seq = alignment[0]
last_seq = alignment[-1]
column_slice = alignment[:, 10:20]
column = alignment[:, 5]
Working with Alignment Objects
Get Alignment Properties
alignment = AlignIO.read('alignment.aln', 'clustal')
length = alignment.get_alignment_length()
num_seqs = len(alignment)
seq_ids = [record.id for record in alignment]
Slice Alignments
subset = alignment[0:5]
trimmed = alignment[:, 50:150]
region = alignment[0:5, 50:150]
Creating Alignments Programmatically
Goal: Build an alignment object from sequences defined in code rather than read from a file.
Approach: Construct SeqRecord objects with gap characters and wrap them in a MultipleSeqAlignment.
from Bio.Align import MultipleSeqAlignment
from Bio.SeqRecord import SeqRecord
from Bio.Seq import Seq
records = [
SeqRecord(Seq('ACTGACTGACTG'), id='seq1'),
SeqRecord(Seq('ACTGACT-ACTG'), id='seq2'),
SeqRecord(Seq('ACTG-CTGACTG'), id='seq3'),
]
alignment = MultipleSeqAlignment(records)
AlignIO.write(alignment, 'new_alignment.fasta', 'fasta')
Format-Specific Notes
PHYLIP Format
alignment = AlignIO.read('file.phy', 'phylip')
alignment = AlignIO.read('file.phy', 'phylip-sequential')
alignment = AlignIO.read('file.phy', 'phylip-relaxed')
Stockholm Format (with Annotations)
alignment = AlignIO.read('pfam.sto', 'stockholm')
for record in alignment:
print(record.id, record.annotations)
Clustal Format
alignment = AlignIO.read('clustal.aln', 'clustal')
Batch Processing Multiple Files
Goal: Convert a directory of alignment files from one format to another in bulk.
Approach: Glob for input files and iterate, reading each alignment and writing to the target format.
from pathlib import Path
input_dir = Path('alignments/')
output_dir = Path('converted/')
for input_file in input_dir.glob('*.aln'):
alignment = AlignIO.read(input_file, 'clustal')
output_file = output_dir / f'{input_file.stem}.fasta'
AlignIO.write(alignment, output_file, 'fasta')
Alternative: Bio.Align Module I/O
Goal: Use the modern Bio.Align module for alignment I/O with access to newer features like counts and substitutions.
Approach: Use Align.read(), Align.parse(), and Align.write() which return Alignment objects instead of MultipleSeqAlignment.
The newer Bio.Align module provides its own I/O functions that return Alignment objects (instead of MultipleSeqAlignment). These support additional formats and provide access to modern alignment features.
from Bio import Align
alignment = Align.read('alignment.aln', 'clustal')
for alignment in Align.parse('multi.sto', 'stockholm'):
print(f'Alignment with {len(alignment)} sequences')
Align.write(alignment, 'output.fasta', 'fasta')
When to Use Which
| Use Case | Module |
|---|
| Legacy code, MultipleSeqAlignment needed | Bio.AlignIO |
| Modern features (counts, substitutions) | Bio.Align |
| Format conversion | Either works |
| Working with pairwise alignments | Bio.Align |
Quick Reference: Common Operations
| Task | Code |
|---|
| Read single alignment | AlignIO.read(file, format) |
| Read multiple alignments | AlignIO.parse(file, format) |
| Write alignment(s) | AlignIO.write(align, file, format) |
| Convert format | AlignIO.convert(in_file, in_fmt, out_file, out_fmt) |
| Get length | alignment.get_alignment_length() |
| Get sequence count | len(alignment) |
| Slice columns | alignment[:, start:end] |
Common Errors
| Error | Cause | Solution |
|---|
ValueError: No records | Empty file | Check file path and format |
ValueError: More than one record | Multiple alignments with read() | Use parse() instead |
ValueError: Sequences different lengths | Invalid alignment | Ensure all sequences same length |
ValueError: unknown format | Unsupported format string | Check supported formats list |
Related Skills
- pairwise-alignment - Create pairwise alignments with PairwiseAligner
- msa-parsing - Analyze alignment content and annotations
- msa-statistics - Calculate conservation and identity
- sequence-io/format-conversion - Convert sequence (non-alignment) formats
