gget

GitHub

gget是生物信息学CLI/Python工具,统一访问20+数据库。支持基因查询、BLAST、AlphaFold结构及富集分析等快速检索。适用于交互式探索和简单查询,返回JSON或DataFrame格式数据。

backend/cli/skills/biology/gget/SKILL.md synthetic-sciences/openscience

Trigger Scenarios

需要快速查询基因信息或序列分析 进行简单的BLAST搜索或蛋白质结构查找 执行单条记录的富集分析或疾病关联查询

Install

npx skills add synthetic-sciences/openscience --skill gget -g -y
More Options

Non-standard path

npx skills add https://github.com/synthetic-sciences/openscience/tree/main/backend/cli/skills/biology/gget -g -y

Use without installing

npx skills use synthetic-sciences/openscience@gget

指定 Agent (Claude Code)

npx skills add synthetic-sciences/openscience --skill gget -a claude-code -g -y

安装 repo 全部 skill

npx skills add synthetic-sciences/openscience --all -g -y

预览 repo 内 skill

npx skills add synthetic-sciences/openscience --list

SKILL.md

Frontmatter
{
    "name": "gget",
    "license": "BSD-2-Clause license",
    "category": "biology",
    "metadata": {
        "skill-author": "Synthetic Sciences"
    },
    "description": "Fast CLI\/Python queries to 20+ bioinformatics databases. Use for quick lookups: gene info, BLAST searches, AlphaFold structures, enrichment analysis. Best for interactive exploration, simple queries. For batch processing or advanced BLAST use biopython; for multi-database Python workflows use bioservices."
}

gget

Overview

gget is a command-line bioinformatics tool and Python package providing unified access to 20+ genomic databases and analysis methods. Query gene information, sequence analysis, protein structures, expression data, and disease associations through a consistent interface. All gget modules work both as command-line tools and as Python functions.

Important: The databases queried by gget are continuously updated, which sometimes changes their structure. gget modules are tested automatically on a biweekly basis and updated to match new database structures when necessary.

Installation

Install gget in a clean virtual environment to avoid conflicts:

# Using uv (recommended)
uv uv pip install gget

# Or using pip
uv pip install --upgrade gget

# In Python/Jupyter
import gget

Quick Start

Basic usage pattern for all modules:

# Command-line
gget <module> [arguments] [options]

# Python
gget.module(arguments, options)

Most modules return:

  • Command-line: JSON (default) or CSV with -csv flag
  • Python: DataFrame or dictionary

Common flags across modules:

  • -o/--out: Save results to file
  • -q/--quiet: Suppress progress information
  • -csv: Return CSV format (command-line only)

Module Categories

1. Reference & Gene Information

gget ref - Reference Genome Downloads

Retrieve download links and metadata for Ensembl reference genomes.

Parameters:

  • species: Genus_species format (e.g., 'homo_sapiens', 'mus_musculus'). Shortcuts: 'human', 'mouse'
  • -w/--which: Specify return types (gtf, cdna, dna, cds, cdrna, pep). Default: all
  • -r/--release: Ensembl release number (default: latest)
  • -l/--list_species: List available vertebrate species
  • -liv/--list_iv_species: List available invertebrate species
  • -ftp: Return only FTP links
  • -d/--download: Download files (requires curl)

Examples:

# List available species
gget ref --list_species

# Get all reference files for human
gget ref homo_sapiens

# Download only GTF annotation for mouse
gget ref -w gtf -d mouse
# Python
gget.ref("homo_sapiens")
gget.ref("mus_musculus", which="gtf", download=True)

gget search - Gene Search

Locate genes by name or description across species.

Parameters:

  • searchwords: One or more search terms (case-insensitive)
  • -s/--species: Target species (e.g., 'homo_sapiens', 'mouse')
  • -r/--release: Ensembl release number
  • -t/--id_type: Return 'gene' (default) or 'transcript'
  • -ao/--andor: 'or' (default) finds ANY searchword; 'and' requires ALL
  • -l/--limit: Maximum results to return

Returns: ensembl_id, gene_name, ensembl_description, ext_ref_description, biotype, URL

Examples:

# Search for GABA-related genes in human
gget search -s human gaba gamma-aminobutyric

# Find specific gene, require all terms
gget search -s mouse -ao and pax7 transcription
# Python
gget.search(["gaba", "gamma-aminobutyric"], species="homo_sapiens")

gget info - Gene/Transcript Information

Retrieve comprehensive gene and transcript metadata from Ensembl, UniProt, and NCBI.

Parameters:

  • ens_ids: One or more Ensembl IDs (also supports WormBase, Flybase IDs). Limit: ~1000 IDs
  • -n/--ncbi: Disable NCBI data retrieval
  • -u/--uniprot: Disable UniProt data retrieval
  • -pdb: Include PDB identifiers (increases runtime)

Returns: UniProt ID, NCBI gene ID, primary gene name, synonyms, protein names, descriptions, biotype, canonical transcript

Examples:

# Get info for multiple genes
gget info ENSG00000034713 ENSG00000104853 ENSG00000170296

# Include PDB IDs
gget info ENSG00000034713 -pdb
# Python
gget.info(["ENSG00000034713", "ENSG00000104853"], pdb=True)

gget seq - Sequence Retrieval

Fetch nucleotide or amino acid sequences for genes and transcripts.

Parameters:

  • ens_ids: One or more Ensembl identifiers
  • -t/--translate: Fetch amino acid sequences instead of nucleotide
  • -iso/--isoforms: Return all transcript variants (gene IDs only)

Returns: FASTA format sequences

Examples:

# Get nucleotide sequences
gget seq ENSG00000034713 ENSG00000104853

# Get all protein isoforms
gget seq -t -iso ENSG00000034713
# Python
gget.seq(["ENSG00000034713"], translate=True, isoforms=True)

2. Sequence Analysis & Alignment

gget blast - BLAST Searches

BLAST nucleotide or amino acid sequences against standard databases.

Parameters:

  • sequence: Sequence string or path to FASTA/.txt file
  • -p/--program: blastn, blastp, blastx, tblastn, tblastx (auto-detected)
  • -db/--database:
    • Nucleotide: nt, refseq_rna, pdbnt
    • Protein: nr, swissprot, pdbaa, refseq_protein
  • -l/--limit: Max hits (default: 50)
  • -e/--expect: E-value cutoff (default: 10.0)
  • -lcf/--low_comp_filt: Enable low complexity filtering
  • -mbo/--megablast_off: Disable MegaBLAST (blastn only)

Examples:

# BLAST protein sequence
gget blast MKWMFKEDHSLEHRCVESAKIRAKYPDRVPVIVEKVSGSQIVDIDKRKYLVPSDITVAQFMWIIRKRIQLPSEKAIFLFVDKTVPQSR

# BLAST from file with specific database
gget blast sequence.fasta -db swissprot -l 10
# Python
gget.blast("MKWMFK...", database="swissprot", limit=10)

gget blat - BLAT Searches

Locate genomic positions of sequences using UCSC BLAT.

Parameters:

  • sequence: Sequence string or path to FASTA/.txt file
  • -st/--seqtype: 'DNA', 'protein', 'translated%20RNA', 'translated%20DNA' (auto-detected)
  • -a/--assembly: Target assembly (default: 'human'/hg38; options: 'mouse'/mm39, 'zebrafinch'/taeGut2, etc.)

Returns: genome, query size, alignment positions, matches, mismatches, alignment percentage

Examples:

# Find genomic location in human
gget blat ATCGATCGATCGATCG

# Search in different assembly
gget blat -a mm39 ATCGATCGATCGATCG
# Python
gget.blat("ATCGATCGATCGATCG", assembly="mouse")

gget muscle - Multiple Sequence Alignment

Align multiple nucleotide or amino acid sequences using Muscle5.

Parameters:

  • fasta: Sequences or path to FASTA/.txt file
  • -s5/--super5: Use Super5 algorithm for faster processing (large datasets)

Returns: Aligned sequences in ClustalW format or aligned FASTA (.afa)

Examples:

# Align sequences from file
gget muscle sequences.fasta -o aligned.afa

# Use Super5 for large dataset
gget muscle large_dataset.fasta -s5
# Python
gget.muscle("sequences.fasta", save=True)

gget diamond - Local Sequence Alignment

Perform fast local protein or translated DNA alignment using DIAMOND.

Parameters:

  • Query: Sequences (string/list) or FASTA file path
  • --reference: Reference sequences (string/list) or FASTA file path (required)
  • --sensitivity: fast, mid-sensitive, sensitive, more-sensitive, very-sensitive (default), ultra-sensitive
  • --threads: CPU threads (default: 1)
  • --diamond_db: Save database for reuse
  • --translated: Enable nucleotide-to-amino acid alignment

Returns: Identity percentage, sequence lengths, match positions, gap openings, E-values, bit scores

Examples:

# Align against reference
gget diamond GGETISAWESQME -ref reference.fasta --threads 4

# Save database for reuse
gget diamond query.fasta -ref ref.fasta --diamond_db my_db.dmnd
# Python
gget.diamond("GGETISAWESQME", reference="reference.fasta", threads=4)

3. Structural & Protein Analysis

gget pdb - Protein Structures

Query RCSB Protein Data Bank for structure and metadata.

Parameters:

  • pdb_id: PDB identifier (e.g., '7S7U')
  • -r/--resource: Data type (pdb, entry, pubmed, assembly, entity types)
  • -i/--identifier: Assembly, entity, or chain ID

Returns: PDB format (structures) or JSON (metadata)

Examples:

# Download PDB structure
gget pdb 7S7U -o 7S7U.pdb

# Get metadata
gget pdb 7S7U -r entry
# Python
gget.pdb("7S7U", save=True)

gget alphafold - Protein Structure Prediction

Predict 3D protein structures using simplified AlphaFold2.

Setup Required:

# Install OpenMM first
uv pip install openmm

# Then setup AlphaFold
gget setup alphafold

Parameters:

  • sequence: Amino acid sequence (string), multiple sequences (list), or FASTA file. Multiple sequences trigger multimer modeling
  • -mr/--multimer_recycles: Recycling iterations (default: 3; recommend 20 for accuracy)
  • -mfm/--multimer_for_monomer: Apply multimer model to single proteins
  • -r/--relax: AMBER relaxation for top-ranked model
  • plot: Python-only; generate interactive 3D visualization (default: True)
  • show_sidechains: Python-only; include side chains (default: True)

Returns: PDB structure file, JSON alignment error data, optional 3D visualization

Examples:

# Predict single protein structure
gget alphafold MKWMFKEDHSLEHRCVESAKIRAKYPDRVPVIVEKVSGSQIVDIDKRKYLVPSDITVAQFMWIIRKRIQLPSEKAIFLFVDKTVPQSR

# Predict multimer with higher accuracy
gget alphafold sequence1.fasta -mr 20 -r
# Python with visualization
gget.alphafold("MKWMFK...", plot=True, show_sidechains=True)

# Multimer prediction
gget.alphafold(["sequence1", "sequence2"], multimer_recycles=20)

gget elm - Eukaryotic Linear Motifs

Predict Eukaryotic Linear Motifs in protein sequences.

Setup Required:

gget setup elm

Parameters:

  • sequence: Amino acid sequence or UniProt Acc
  • -u/--uniprot: Indicates sequence is UniProt Acc
  • -e/--expand: Include protein names, organisms, references
  • -s/--sensitivity: DIAMOND alignment sensitivity (default: "very-sensitive")
  • -t/--threads: Number of threads (default: 1)

Returns: Two outputs:

  1. ortholog_df: Linear motifs from orthologous proteins
  2. regex_df: Motifs directly matched in input sequence

Examples:

# Predict motifs from sequence
gget elm LIAQSIGQASFV -o results

# Use UniProt accession with expanded info
gget elm --uniprot Q02410 -e
# Python
ortholog_df, regex_df = gget.elm("LIAQSIGQASFV")

4. Expression & Disease Data

gget archs4 - Gene Correlation & Tissue Expression

Query ARCHS4 database for correlated genes or tissue expression data.

Parameters:

  • gene: Gene symbol or Ensembl ID (with --ensembl flag)
  • -w/--which: 'correlation' (default, returns 100 most correlated genes) or 'tissue' (expression atlas)
  • -s/--species: 'human' (default) or 'mouse' (tissue data only)
  • -e/--ensembl: Input is Ensembl ID

Returns:

  • Correlation mode: Gene symbols, Pearson correlation coefficients
  • Tissue mode: Tissue identifiers, min/Q1/median/Q3/max expression values

Examples:

# Get correlated genes
gget archs4 ACE2

# Get tissue expression
gget archs4 -w tissue ACE2
# Python
gget.archs4("ACE2", which="tissue")

gget cellxgene - Single-Cell RNA-seq Data

Query CZ CELLxGENE Discover Census for single-cell data.

Setup Required:

gget setup cellxgene

Parameters:

  • --gene (-g): Gene names or Ensembl IDs (case-sensitive! 'PAX7' for human, 'Pax7' for mouse)
  • --tissue: Tissue type(s)
  • --cell_type: Specific cell type(s)
  • --species (-s): 'homo_sapiens' (default) or 'mus_musculus'
  • --census_version (-cv): Version ("stable", "latest", or dated)
  • --ensembl (-e): Use Ensembl IDs
  • --meta_only (-mo): Return metadata only
  • Additional filters: disease, development_stage, sex, assay, dataset_id, donor_id, ethnicity, suspension_type

Returns: AnnData object with count matrices and metadata (or metadata-only dataframes)

Examples:

# Get single-cell data for specific genes and cell types
gget cellxgene --gene ACE2 ABCA1 --tissue lung --cell_type "mucus secreting cell" -o lung_data.h5ad

# Metadata only
gget cellxgene --gene PAX7 --tissue muscle --meta_only -o metadata.csv
# Python
adata = gget.cellxgene(gene=["ACE2", "ABCA1"], tissue="lung", cell_type="mucus secreting cell")

gget enrichr - Enrichment Analysis

Perform ontology enrichment analysis on gene lists using Enrichr.

Parameters:

  • genes: Gene symbols or Ensembl IDs
  • -db/--database: Reference database (supports shortcuts: 'pathway', 'transcription', 'ontology', 'diseases_drugs', 'celltypes')
  • -s/--species: human (default), mouse, fly, yeast, worm, fish
  • -bkg_l/--background_list: Background genes for comparison
  • -ko/--kegg_out: Save KEGG pathway images with highlighted genes
  • plot: Python-only; generate graphical results

Database Shortcuts:

  • 'pathway' → KEGG_2021_Human
  • 'transcription' → ChEA_2016
  • 'ontology' → GO_Biological_Process_2021
  • 'diseases_drugs' → GWAS_Catalog_2019
  • 'celltypes' → PanglaoDB_Augmented_2021

Examples:

# Enrichment analysis for ontology
gget enrichr -db ontology ACE2 AGT AGTR1

# Save KEGG pathways
gget enrichr -db pathway ACE2 AGT AGTR1 -ko ./kegg_images/
# Python with plot
gget.enrichr(["ACE2", "AGT", "AGTR1"], database="ontology", plot=True)

gget bgee - Orthology & Expression

Retrieve orthology and gene expression data from Bgee database.

Parameters:

  • ens_id: Ensembl gene ID or NCBI gene ID (for non-Ensembl species). Multiple IDs supported when type=expression
  • -t/--type: 'orthologs' (default) or 'expression'

Returns:

  • Orthologs mode: Matching genes across species with IDs, names, taxonomic info
  • Expression mode: Anatomical entities, confidence scores, expression status

Examples:

# Get orthologs
gget bgee ENSG00000169194

# Get expression data
gget bgee ENSG00000169194 -t expression

# Multiple genes
gget bgee ENSBTAG00000047356 ENSBTAG00000018317 -t expression
# Python
gget.bgee("ENSG00000169194", type="orthologs")

gget opentargets - Disease & Drug Associations

Retrieve disease and drug associations from OpenTargets.

Parameters:

  • Ensembl gene ID (required)
  • -r/--resource: diseases (default), drugs, tractability, pharmacogenetics, expression, depmap, interactions
  • -l/--limit: Cap results count
  • Filter arguments (vary by resource):
    • drugs: --filter_disease
    • pharmacogenetics: --filter_drug
    • expression/depmap: --filter_tissue, --filter_anat_sys, --filter_organ
    • interactions: --filter_protein_a, --filter_protein_b, --filter_gene_b

Examples:

# Get associated diseases
gget opentargets ENSG00000169194 -r diseases -l 5

# Get associated drugs
gget opentargets ENSG00000169194 -r drugs -l 10

# Get tissue expression
gget opentargets ENSG00000169194 -r expression --filter_tissue brain
# Python
gget.opentargets("ENSG00000169194", resource="diseases", limit=5)

gget cbio - cBioPortal Cancer Genomics

Plot cancer genomics heatmaps using cBioPortal data.

Two subcommands:

search - Find study IDs:

gget cbio search breast lung

plot - Generate heatmaps:

Parameters:

  • -s/--study_ids: Space-separated cBioPortal study IDs (required)
  • -g/--genes: Space-separated gene names or Ensembl IDs (required)
  • -st/--stratification: Column to organize data (tissue, cancer_type, cancer_type_detailed, study_id, sample)
  • -vt/--variation_type: Data type (mutation_occurrences, cna_nonbinary, sv_occurrences, cna_occurrences, Consequence)
  • -f/--filter: Filter by column value (e.g., 'study_id:msk_impact_2017')
  • -dd/--data_dir: Cache directory (default: ./gget_cbio_cache)
  • -fd/--figure_dir: Output directory (default: ./gget_cbio_figures)
  • -dpi: Resolution (default: 100)
  • -sh/--show: Display plot in window
  • -nc/--no_confirm: Skip download confirmations

Examples:

# Search for studies
gget cbio search esophag ovary

# Create heatmap
gget cbio plot -s msk_impact_2017 -g AKT1 ALK BRAF -st tissue -vt mutation_occurrences
# Python
gget.cbio_search(["esophag", "ovary"])
gget.cbio_plot(["msk_impact_2017"], ["AKT1", "ALK"], stratification="tissue")

gget cosmic - COSMIC Database

Search COSMIC (Catalogue Of Somatic Mutations In Cancer) database.

Important: License fees apply for commercial use. Requires COSMIC account credentials.

Parameters:

  • searchterm: Gene name, Ensembl ID, mutation notation, or sample ID
  • -ctp/--cosmic_tsv_path: Path to downloaded COSMIC TSV file (required for querying)
  • -l/--limit: Maximum results (default: 100)

Database download flags:

  • -d/--download_cosmic: Activate download mode
  • -gm/--gget_mutate: Create version for gget mutate
  • -cp/--cosmic_project: Database type (cancer, census, cell_line, resistance, genome_screen, targeted_screen)
  • -cv/--cosmic_version: COSMIC version
  • -gv/--grch_version: Human reference genome (37 or 38)
  • --email, --password: COSMIC credentials

Examples:

# First download database
gget cosmic -d --email user@example.com --password xxx -cp cancer

# Then query
gget cosmic EGFR -ctp cosmic_data.tsv -l 10
# Python
gget.cosmic("EGFR", cosmic_tsv_path="cosmic_data.tsv", limit=10)

5. Additional Tools

gget mutate - Generate Mutated Sequences

Generate mutated nucleotide sequences from mutation annotations.

Parameters:

  • sequences: FASTA file path or direct sequence input (string/list)
  • -m/--mutations: CSV/TSV file or DataFrame with mutation data (required)
  • -mc/--mut_column: Mutation column name (default: 'mutation')
  • -sic/--seq_id_column: Sequence ID column (default: 'seq_ID')
  • -mic/--mut_id_column: Mutation ID column
  • -k/--k: Length of flanking sequences (default: 30 nucleotides)

Returns: Mutated sequences in FASTA format

Examples:

# Single mutation
gget mutate ATCGCTAAGCT -m "c.4G>T"

# Multiple sequences with mutations from file
gget mutate sequences.fasta -m mutations.csv -o mutated.fasta
# Python
import pandas as pd
mutations_df = pd.DataFrame({"seq_ID": ["seq1"], "mutation": ["c.4G>T"]})
gget.mutate(["ATCGCTAAGCT"], mutations=mutations_df)

gget gpt - OpenAI Text Generation

Generate natural language text using OpenAI's API.

Setup Required:

gget setup gpt

Important: Free tier limited to 3 months after account creation. Set monthly billing limits.

Parameters:

  • prompt: Text input for generation (required)
  • api_key: OpenAI authentication (required)
  • Model configuration: temperature, top_p, max_tokens, frequency_penalty, presence_penalty
  • Default model: gpt-3.5-turbo (configurable)

Examples:

gget gpt "Explain CRISPR" --api_key your_key_here
# Python
gget.gpt("Explain CRISPR", api_key="your_key_here")

gget setup - Install Dependencies

Install/download third-party dependencies for specific modules.

Parameters:

  • module: Module name requiring dependency installation
  • -o/--out: Output folder path (elm module only)

Modules requiring setup:

  • alphafold - Downloads ~4GB of model parameters
  • cellxgene - Installs cellxgene-census (may not support latest Python)
  • elm - Downloads local ELM database
  • gpt - Configures OpenAI integration

Examples:

# Setup AlphaFold
gget setup alphafold

# Setup ELM with custom directory
gget setup elm -o /path/to/elm_data
# Python
gget.setup("alphafold")

Common Workflows

Workflow 1: Gene Discovery to Sequence Analysis

Find and analyze genes of interest:

# 1. Search for genes
results = gget.search(["GABA", "receptor"], species="homo_sapiens")

# 2. Get detailed information
gene_ids = results["ensembl_id"].tolist()
info = gget.info(gene_ids[:5])

# 3. Retrieve sequences
sequences = gget.seq(gene_ids[:5], translate=True)

Workflow 2: Sequence Alignment and Structure

Align sequences and predict structures:

# 1. Align multiple sequences
alignment = gget.muscle("sequences.fasta")

# 2. Find similar sequences
blast_results = gget.blast(my_sequence, database="swissprot", limit=10)

# 3. Predict structure
structure = gget.alphafold(my_sequence, plot=True)

# 4. Find linear motifs
ortholog_df, regex_df = gget.elm(my_sequence)

Workflow 3: Gene Expression and Enrichment

Analyze expression patterns and functional enrichment:

# 1. Get tissue expression
tissue_expr = gget.archs4("ACE2", which="tissue")

# 2. Find correlated genes
correlated = gget.archs4("ACE2", which="correlation")

# 3. Get single-cell data
adata = gget.cellxgene(gene=["ACE2"], tissue="lung", cell_type="epithelial cell")

# 4. Perform enrichment analysis
gene_list = correlated["gene_symbol"].tolist()[:50]
enrichment = gget.enrichr(gene_list, database="ontology", plot=True)

Workflow 4: Disease and Drug Analysis

Investigate disease associations and therapeutic targets:

# 1. Search for genes
genes = gget.search(["breast cancer"], species="homo_sapiens")

# 2. Get disease associations
diseases = gget.opentargets("ENSG00000169194", resource="diseases")

# 3. Get drug associations
drugs = gget.opentargets("ENSG00000169194", resource="drugs")

# 4. Query cancer genomics data
study_ids = gget.cbio_search(["breast"])
gget.cbio_plot(study_ids[:2], ["BRCA1", "BRCA2"], stratification="cancer_type")

# 5. Search COSMIC for mutations
cosmic_results = gget.cosmic("BRCA1", cosmic_tsv_path="cosmic.tsv")

Workflow 5: Comparative Genomics

Compare proteins across species:

# 1. Get orthologs
orthologs = gget.bgee("ENSG00000169194", type="orthologs")

# 2. Get sequences for comparison
human_seq = gget.seq("ENSG00000169194", translate=True)
mouse_seq = gget.seq("ENSMUSG00000026091", translate=True)

# 3. Align sequences
alignment = gget.muscle([human_seq, mouse_seq])

# 4. Compare structures
human_structure = gget.pdb("7S7U")
mouse_structure = gget.alphafold(mouse_seq)

Workflow 6: Building Reference Indices

Prepare reference data for downstream analysis (e.g., kallisto|bustools):

# 1. List available species
gget ref --list_species

# 2. Download reference files
gget ref -w gtf -w cdna -d homo_sapiens

# 3. Build kallisto index
kallisto index -i transcriptome.idx transcriptome.fasta

# 4. Download genome for alignment
gget ref -w dna -d homo_sapiens

Best Practices

Data Retrieval

  • Use --limit to control result sizes for large queries
  • Save results with -o/--out for reproducibility
  • Check database versions/releases for consistency across analyses
  • Use --quiet in production scripts to reduce output

Sequence Analysis

  • For BLAST/BLAT, start with default parameters, then adjust sensitivity
  • Use gget diamond with --threads for faster local alignment
  • Save DIAMOND databases with --diamond_db for repeated queries
  • For multiple sequence alignment, use -s5/--super5 for large datasets

Expression and Disease Data

  • Gene symbols are case-sensitive in cellxgene (e.g., 'PAX7' vs 'Pax7')
  • Run gget setup before first use of alphafold, cellxgene, elm, gpt
  • For enrichment analysis, use database shortcuts for convenience
  • Cache cBioPortal data with -dd to avoid repeated downloads

Structure Prediction

  • AlphaFold multimer predictions: use -mr 20 for higher accuracy
  • Use -r flag for AMBER relaxation of final structures
  • Visualize results in Python with plot=True
  • Check PDB database first before running AlphaFold predictions

Error Handling

  • Database structures change; update gget regularly: uv pip install --upgrade gget
  • Process max ~1000 Ensembl IDs at once with gget info
  • For large-scale analyses, implement rate limiting for API queries
  • Use virtual environments to avoid dependency conflicts

Output Formats

Command-line

  • Default: JSON
  • CSV: Add -csv flag
  • FASTA: gget seq, gget mutate
  • PDB: gget pdb, gget alphafold
  • PNG: gget cbio plot

Python

  • Default: DataFrame or dictionary
  • JSON: Add json=True parameter
  • Save to file: Add save=True or specify out="filename"
  • AnnData: gget cellxgene

Resources

This skill includes reference documentation for detailed module information:

references/

  • module_reference.md - Comprehensive parameter reference for all modules
  • database_info.md - Information about queried databases and their update frequencies
  • workflows.md - Extended workflow examples and use cases

For additional help:

Version History

  • e9844a4 Current 2026-07-11 17:19

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backend/cli/skills/biology/clinical-reports/SKILL.md
backend/cli/skills/biology/cobrapy/SKILL.md
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