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SKILL·BF0FBC

bioservices

K-Dense-AI
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О программе

BioServices предоставляет единый Python-интерфейс для запросов к 40+ биоинформатическим базам данных, таким как UniProt и KEGG, через согласованный API. Он лучше всего подходит для сложных рабочих процессов, требующих кросс-базового анализа и преобразования идентификаторов между различными сервисами. Для более простых запросов к одной базе данных рассмотрите альтернативы, такие как gget или biopython.

Быстрая установка

Claude Code

Рекомендуется
Основной
npx skills add K-Dense-AI/claude-scientific-skills -a claude-code
Команда плагинаАльтернативный
/plugin add https://github.com/K-Dense-AI/claude-scientific-skills
Git клонированиеАльтернативный
git clone https://github.com/K-Dense-AI/claude-scientific-skills.git ~/.claude/skills/bioservices

Скопируйте и вставьте эту команду в Claude Code для установки этого навыка

Документация

BioServices

Overview

BioServices is a Python package providing programmatic access to approximately 40 bioinformatics web services and databases. Retrieve biological data, perform cross-database queries, map identifiers, analyze sequences, and integrate multiple biological resources in Python workflows. The package handles both REST and SOAP/WSDL protocols transparently.

Version note: Examples target bioservices 1.16.0 (PyPI, Mar 2026). Requires Python 3.9–3.12. UniProt REST changes in mid-2022 (bioservices ≥1.10) mainly affect tabular columns names — see upstream _legacy_names if parsing breaks. ChEMBL wrappers changed at 1.6.0 (2018 API); use get_similarity, get_substructure, get_molecule instead of pre-1.6 method names.

When to Use This Skill

This skill should be used when:

  • Retrieving protein sequences, annotations, or structures from UniProt, PDB, Pfam
  • Analyzing metabolic pathways and gene functions via KEGG or Reactome
  • Searching compound databases (ChEBI, ChEMBL, PubChem) for chemical information
  • Converting identifiers between different biological databases (KEGG↔UniProt, compound IDs)
  • Running sequence similarity searches (BLAST, MUSCLE alignment)
  • Querying gene ontology terms (QuickGO, GO annotations)
  • Accessing protein-protein interaction data (PSICQUIC, IntactComplex)
  • Mining genomic data (BioMart, ArrayExpress, ENA)
  • Integrating data from multiple bioinformatics resources in a single workflow

Core Capabilities

1. Protein Analysis

Retrieve protein information, sequences, and functional annotations:

from bioservices import UniProt

u = UniProt(verbose=False)

# Search for protein by name
results = u.search("ZAP70_HUMAN", frmt="tab", columns="id,genes,organism")

# Retrieve FASTA sequence
sequence = u.retrieve("P43403", "fasta")

# Map identifiers between databases
kegg_ids = u.mapping(fr="UniProtKB_AC-ID", to="KEGG", query="P43403")

Key methods:

  • search(): Query UniProt with flexible search terms
  • retrieve(): Get protein entries in various formats (FASTA, XML, tab)
  • mapping(): Convert identifiers between databases

Reference: references/services_reference.md for complete UniProt API details.

2. Pathway Discovery and Analysis

Access KEGG pathway information for genes and organisms:

from bioservices import KEGG

k = KEGG()
k.organism = "hsa"  # Set to human

# Search for organisms
k.lookfor_organism("droso")  # Find Drosophila species

# Find pathways by name
k.lookfor_pathway("B cell")  # Returns matching pathway IDs

# Get pathways containing specific genes
pathways = k.get_pathway_by_gene("7535", "hsa")  # ZAP70 gene

# Retrieve and parse pathway data
data = k.get("hsa04660")
parsed = k.parse(data)

# Extract pathway interactions
interactions = k.parse_kgml_pathway("hsa04660")
relations = interactions['relations']  # Protein-protein interactions

# Convert to Simple Interaction Format
sif_data = k.pathway2sif("hsa04660")

Key methods:

  • lookfor_organism(), lookfor_pathway(): Search by name
  • get_pathway_by_gene(): Find pathways containing genes
  • parse_kgml_pathway(): Extract structured pathway data
  • pathway2sif(): Get protein interaction networks

Reference: references/workflow_patterns.md for complete pathway analysis workflows.

3. Compound Database Searches

Search and cross-reference compounds across multiple databases:

from bioservices import KEGG, UniChem

k = KEGG()

# Search compounds by name
results = k.find("compound", "Geldanamycin")  # Returns cpd:C11222

# Get compound information with database links
compound_info = k.get("cpd:C11222")  # Includes ChEBI links

# Cross-reference KEGG → ChEMBL using UniChem
u = UniChem()
chembl_id = u.get_compound_id_from_kegg("C11222")  # Returns CHEMBL278315

Common workflow:

  1. Search compound by name in KEGG
  2. Extract KEGG compound ID
  3. Use UniChem for KEGG → ChEMBL mapping
  4. ChEBI IDs are often provided in KEGG entries

Reference: references/identifier_mapping.md for complete cross-database mapping guide.

4. Sequence Analysis

Run BLAST searches and sequence alignments. NCBI requires a contact email — prefer the NCBI_EMAIL environment variable (same convention as BioPython Entrez and other repo skills):

import os
from bioservices import NCBIblast

s = NCBIblast(verbose=False)
email = os.environ["NCBI_EMAIL"]  # set before running: export [email protected]

# Run BLASTP against UniProtKB
jobid = s.run(
    program="blastp",
    sequence=protein_sequence,
    stype="protein",
    database="uniprotkb",
    email=email,
)

# Check job status and retrieve results
s.getStatus(jobid)
results = s.getResult(jobid, "out")

Note: BLAST jobs are asynchronous. Check status before retrieving results.

5. Identifier Mapping

Convert identifiers between different biological databases:

from bioservices import UniProt, KEGG

# UniProt mapping (many database pairs supported)
u = UniProt()
results = u.mapping(
    fr="UniProtKB_AC-ID",  # Source database
    to="KEGG",              # Target database
    query="P43403"          # Identifier(s) to convert
)

# KEGG gene ID → UniProt
kegg_to_uniprot = u.mapping(fr="KEGG", to="UniProtKB_AC-ID", query="hsa:7535")

# For compounds, use UniChem
from bioservices import UniChem
u = UniChem()
chembl_from_kegg = u.get_compound_id_from_kegg("C11222")

Supported mappings (UniProt):

  • UniProtKB ↔ KEGG
  • UniProtKB ↔ Ensembl
  • UniProtKB ↔ PDB
  • UniProtKB ↔ RefSeq
  • And many more (see references/identifier_mapping.md)

6. Gene Ontology Queries

Access GO terms and annotations:

from bioservices import QuickGO

g = QuickGO(verbose=False)

# Retrieve GO term information
term_info = g.Term("GO:0003824", frmt="obo")

# Search annotations
annotations = g.Annotation(protein="P43403", format="tsv")

7. Protein-Protein Interactions

Query interaction databases via PSICQUIC:

from bioservices import PSICQUIC

s = PSICQUIC(verbose=False)

# Query specific database (e.g., MINT)
interactions = s.query("mint", "ZAP70 AND species:9606")

# List available interaction databases
databases = s.activeDBs

Available databases: MINT, IntAct, BioGRID, DIP, and 30+ others.

Multi-Service Integration Workflows

BioServices excels at combining multiple services for comprehensive analysis. Common integration patterns:

Complete Protein Analysis Pipeline

Execute a full protein characterization workflow:

export [email protected]
python scripts/protein_analysis_workflow.py ZAP70_HUMAN
# Or pass email as optional second argument if NCBI_EMAIL is unset
python scripts/protein_analysis_workflow.py ZAP70_HUMAN [email protected]

This script demonstrates:

  1. UniProt search for protein entry
  2. FASTA sequence retrieval
  3. BLAST similarity search
  4. KEGG pathway discovery
  5. PSICQUIC interaction mapping

Pathway Network Analysis

Analyze all pathways for an organism:

python scripts/pathway_analysis.py hsa output_directory/

Extracts and analyzes:

  • All pathway IDs for organism
  • Protein-protein interactions per pathway
  • Interaction type distributions
  • Exports to CSV/SIF formats

Cross-Database Compound Search

Map compound identifiers across databases:

python scripts/compound_cross_reference.py Geldanamycin

Retrieves:

  • KEGG compound ID
  • ChEBI identifier
  • ChEMBL identifier
  • Basic compound properties

Batch Identifier Conversion

Convert multiple identifiers at once:

python scripts/batch_id_converter.py input_ids.txt --from UniProtKB_AC-ID --to KEGG

Best Practices

Output Format Handling

Different services return data in various formats:

  • XML: Parse using BeautifulSoup (most SOAP services)
  • Tab-separated (TSV): Pandas DataFrames for tabular data
  • Dictionary/JSON: Direct Python manipulation
  • FASTA: BioPython integration for sequence analysis

Rate Limiting and Verbosity

Control API request behavior:

from bioservices import KEGG

k = KEGG(verbose=False)  # Suppress HTTP request details
k.TIMEOUT = 30  # Adjust timeout for slow connections

Error Handling

Wrap service calls in try-except blocks:

try:
    results = u.search("ambiguous_query")
    if results:
        # Process results
        pass
except Exception as e:
    print(f"Search failed: {e}")

Organism Codes

Use standard organism abbreviations:

  • hsa: Homo sapiens (human)
  • mmu: Mus musculus (mouse)
  • dme: Drosophila melanogaster
  • sce: Saccharomyces cerevisiae (yeast)

List all organisms: k.list("organism") or k.organismIds

Integration with Other Tools

BioServices works well with:

  • BioPython: Sequence analysis on retrieved FASTA data
  • Pandas: Tabular data manipulation
  • PyMOL: 3D structure visualization (retrieve PDB IDs)
  • NetworkX: Network analysis of pathway interactions
  • Galaxy: Custom tool wrappers for workflow platforms

Resources

scripts/

Executable Python scripts demonstrating complete workflows:

  • protein_analysis_workflow.py: End-to-end protein characterization
  • pathway_analysis.py: KEGG pathway discovery and network extraction
  • compound_cross_reference.py: Multi-database compound searching
  • batch_id_converter.py: Bulk identifier mapping utility

Scripts can be executed directly or adapted for specific use cases.

references/

Detailed documentation loaded as needed:

  • services_reference.md: Comprehensive list of all 40+ services with methods
  • workflow_patterns.md: Detailed multi-step analysis workflows
  • identifier_mapping.md: Complete guide to cross-database ID conversion

Load references when working with specific services or complex integration tasks.

Installation

uv pip install "bioservices==1.16.0"

Dependencies are installed automatically. Upstream CI tests Python 3.9–3.12 (PyPI, docs).

Credentials

Most services need no API key. Exceptions:

ServiceRequirement
NCBI BLASTContact email via NCBI_EMAIL or email= in NCBIblast.run()
Some EBI servicesOptional; check service docs if rate-limited

Set once per shell session:

export [email protected]

Use a real institutional or lab address — NCBI may contact you about heavy BLAST usage.

Additional Information

For detailed API documentation and advanced features, refer to:

GitHub репозиторий

K-Dense-AI/claude-scientific-skills
Путь: skills/bioservices
0
agent-skillsai-scientistbioinformaticschemoinformaticsclaudeclaude-skills
FAQ

Frequently asked questions

What is the bioservices skill?

bioservices is a Claude Skill by K-Dense-AI. Skills package instructions and resources that Claude loads on demand, so Claude can perform bioservices-related tasks without extra prompting.

How do I install bioservices?

Use the install commands on this page: add bioservices to Claude Code as a plugin, or clone its repository into your skills directory, then restart Claude so it picks up the skill.

What category does bioservices belong to?

bioservices is in the Design category, tagged react, api, automation, design and data.

Is bioservices free to use?

Yes. bioservices is listed on AIMCP and free to install. It runs inside Claude, so no separate service account is required to use the skill itself.

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