biopython
FreeNo executable scriptsNot checkedComprehensive molecular biology toolkit. Use for sequence manipulation, file parsing (FASTA/GenBank/PDB), phylogenetics, and programmatic NCBI/PubMed access (Bi
About this skill
Biopython: Computational Molecular Biology in Python
Overview
Biopython is a comprehensive set of freely available Python tools for biological computation. It provides functionality for sequence manipulation, file I/O, database access, structural bioinformatics, phylogenetics, and many other bioinformatics tasks. The current version is Biopython 1.87 (released 30 March 2026). It supports Python 3.10-3.14 and PyPy3.10, and requires NumPy. Biopython 1.87 also addresses CVE-2025-68463 in Bio.Entrez.Parser when parsing untrusted files, so prefer 1.87+ for workflows that parse externally supplied Entrez XML.
When to Use This Skill
Use this skill when:
- Working with biological sequences (DNA, RNA, or protein)
- Reading, writing, or converting biological file formats (FASTA, GenBank, FASTQ, PDB, mmCIF, etc.)
- Accessing NCBI databases (GenBank, PubMed, Protein, Gene, etc.) via Entrez
- Running BLAST searches or parsing BLAST results
- Performing sequence alignments (pairwise or multiple sequence alignments)
- Analyzing protein structures from PDB files
- Creating, manipulating, or visualizing phylogenetic trees
- Finding sequence motifs or analyzing motif patterns
- Calculating sequence statistics (GC content, molecular weight, melting temperature, etc.)
- Performing structural bioinformatics tasks
- Working with population genetics data
- Any other computational molecular biology task
Core Capabilities
Biopython is organized into modular sub-packages, each addressing specific bioinformatics domains:
- Sequence Handling - Bio.Seq and Bio.SeqIO for sequence manipulation and file I/O
- Alignment Analysis - Bio.Align and Bio.AlignIO for pairwise and multiple sequence alignments
- Database Access - Bio.Entrez for programmatic access to NCBI databases
- BLAST Operations - Bio.Blast for running and parsing BLAST searches
- Structural Bioinformatics - Bio.PDB for working with 3D protein structures
- Phylogenetics - Bio.Phylo for phylogenetic tree manipulation and visualization
- Advanced Features - Motifs, population genetics, sequence utilities, and more
Installation and Setup
Install the current stable Biopython release with an explicit version pin for reproducibility:
uv pip install "biopython==1.87"
For NCBI database access, always set your email address (required by NCBI). For reusable software, set a stable Entrez.tool value and register the tool/email with NCBI. For higher rate limits (10 req/s instead of 3 req/s), read only NCBI_API_KEY from the environment — do not hardcode keys or load unrelated environment variables:
import os
from Bio import Entrez
Entrez.email = "[email protected]" # required — use your real email
Entrez.tool = "your_tool_name" # optional but recommended for reusable software
# Optional: register at https://www.ncbi.nlm.nih.gov/account/settings/
if api_key := os.environ.get("NCBI_API_KEY"):
Entrez.api_key = api_key
Using This Skill
This skill provides comprehensive documentation organized by functionality area. When working on a task, consult the relevant reference documentation:
1. Sequence Handling (Bio.Seq & Bio.SeqIO)
Reference: references/sequence_io.md
Use for:
- Creating and manipulating biological sequences
- Reading and writing sequence files (FASTA, GenBank, FASTQ, etc.)
- Converting between file formats
- Extracting sequences from large files
- Sequence translation, transcription, and reverse complement
- Working with SeqRecord objects
Quick example:
from Bio import SeqIO
# Read sequences from FASTA file
for record in SeqIO.parse("sequences.fasta", "fasta"):
print(f"{record.id}: {len(record.seq)} bp")
# Convert GenBank to FASTA
SeqIO.convert("input.gb", "genbank", "output.fasta", "fasta")
2. Alignment Analysis (Bio.Align & Bio.AlignIO)
Reference: references/alignment.md
Use for:
- Pairwise sequence alignment (global and local)
- Reading and writing multiple sequence alignments
- Using substitution matrices (BLOSUM, PAM)
- Calculating alignment statistics
- Customizing alignment parameters
Quick example:
from Bio import Align
# Pairwise alignment
aligner = Align.PairwiseAligner()
aligner.mode = 'global'
alignments = aligner.align("ACCGGT", "ACGGT")
print(alignments[0])
3. Database Access (Bio.Entrez)
Reference: references/databases.md
Use for:
- Searching NCBI databases (PubMed, GenBank, Protein, Gene, etc.)
- Downloading sequences and records
- Fetching publication information
- Finding related records across databases
- Batch downloading with proper rate limiting
Quick example:
from Bio import Entrez
Entrez.email = "[email protected]"
# Search PubMed
handle = Entrez.esearch(db="pubmed", term="biopython", retmax=10)
results = Entrez.read(handle)
handle.close()
print(f"Found {results['Count']} results")
4. BLAST Operations (Bio.Blast)
Reference: references/blast.md
Use for:
- Running BLAST searches via NCBI web services
- Running local BLAST searches
- Parsing BLAST XML output
- Filtering results by E-value or identity
- Extracting hit sequences
Quick example:
from Bio.Blast import NCBIWWW, NCBIXML
# Run BLAST search
result_handle = NCBIWWW.qblast("blastn", "nt", "ATCGATCGATCG")
blast_record = NCBIXML.read(result_handle)
# Display top hits
for alignment in blast_record.alignments[:5]:
print(f"{alignment.title}: E-value={alignment.hsps[0].expect}")
5. Structural Bioinformatics (Bio.PDB)
Reference: references/structure.md
Use for:
- Parsing PDB and mmCIF structure files
- Navigating protein structure hierarchy (SMCRA: Structure/Model/Chain/Residue/Atom)
- Calculating distances, angles, and dihedrals
- Secondary structure assignment (DSSP)
- Structure superimposition and RMSD calculation
- Extracting sequences from structures
Quick example:
from Bio.PDB import PDBParser
# Parse structure
parser = PDBParser(QUIET=True)
structure = parser.get_structure("1crn", "1crn.pdb")
# Calculate distance between alpha carbons
chain = structure[0]["A"]
distance = chain[10]["CA"] - chain[20]["CA"]
print(f"Distance: {distance:.2f} Å")
6. Phylogenetics (Bio.Phylo)
Reference: references/phylogenetics.md
Use for:
- Reading and writing phylogenetic trees (Newick, NEXUS, phyloXML)
- Building trees from distance matrices or alignments
- Tree manipulation (pruning, rerooting, ladderizing)
- Calculating phylogenetic distances
- Creating consensus trees
- Visualizing trees
Quick example:
from Bio import Phylo
# Read and visualize tree
tree = Phylo.read("tree.nwk", "newick")
Phylo.draw_ascii(tree)
# Calculate distance
distance = tree.distance("Species_A", "Species_B")
print(f"Distance: {distance:.3f}")
7. Advanced Features
Reference: references/advanced.md
Use for:
- Sequence motifs (Bio.motifs) - Finding and analyzing motif patterns
- Population genetics (Bio.PopGen) - GenePop files, Fst calculations, Hardy-Weinberg tests
- Sequence utilities (Bio.SeqUtils) - GC content, melting temperature, molecular weight, protein analysis
- Restriction analysis (Bio.Restriction) - Finding restriction enzyme sites
- Clustering (Bio.Cluster) - K-means and hierarchical clustering
- Genome diagrams (GenomeDiagram) - Visualizing genomic features
Quick example:
from Bio.SeqUtils import gc_fraction, molecular_weight
from Bio.Seq import Seq
seq = Seq("ATCGATCGATCG")
print(f"GC content: {gc_fraction(seq):.2%}")
print(f"Molecular weight: {molecular_weight(seq, seq_type='DNA'):.2f} g/mol")
General Workflow Guidelines
Reading Documentation
When a user asks about a specific Biopython task:
- Identify the relevant module based on the task description
- Read the appropriate reference file using the Read tool
- Extract relevant code patterns and adapt them to the u
Install biopython in Claude Code & Claude Desktop
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Allowed tools
Tools this skill is permitted to call.
Read Write Edit BashBundled files
FAQ
What does the biopython skill do?
Comprehensive molecular biology toolkit. Use for sequence manipulation, file parsing (FASTA/GenBank/PDB), phylogenetics, and programmatic NCBI/PubMed access (Bio.Entrez). Best for batch processing, custom bioinformatics pipelines, BLAST automation. For quick lookups use gget; for multi-service integration use bioservices.
How do I install the biopython skill?
Copy the skill folder into ~/.claude/skills (the Claude Code tab above does this in one command), or install it as a plugin.
Does the biopython skill run scripts?
No, this skill is instructions only (SKILL.md) with no executable scripts.
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