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gtex

Queries GTEx portal for tissue-specific gene expression, eQTLs, and sQTLs. Useful for linking GWAS variants to gene regulation and interpreting non-coding variant effects.

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/superpowers:gtex

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The Genotype-Tissue Expression (GTEx) project provides a comprehensive resource for studying tissue-specific gene expression and genetic regulation across 54 non-diseased human tissues from nearly 1,000 individuals. GTEx v10 (the latest release) enables researchers to understand how genetic variants regulate gene expression (eQTLs) and splicing (sQTLs) in a tissue-specific manner, which is crit...

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references/api_reference.md

SKILL.md

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Last CommitMay 15, 2026

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GTEx Database

Overview

Key resources:

GTEx Portal: https://gtexportal.org/
GTEx API v2: https://gtexportal.org/api/v2/
Data downloads: https://gtexportal.org/home/downloads/adult-gtex/
Documentation: https://gtexportal.org/home/documentationPage

When to Use This Skill

Use GTEx when:

GWAS locus interpretation: Identifying which gene a non-coding GWAS variant regulates via eQTLs
Tissue-specific expression: Comparing gene expression levels across 54 human tissues
eQTL colocalization: Testing if a GWAS signal and an eQTL signal share the same causal variant
Multi-tissue eQTL analysis: Finding variants that regulate expression in multiple tissues
Splicing QTLs (sQTLs): Identifying variants that affect splicing ratios
Tissue specificity analysis: Determining which tissues express a gene of interest
Gene expression exploration: Retrieving normalized expression levels (TPM) per tissue

Core Capabilities

1. GTEx REST API v2

Base URL: https://gtexportal.org/api/v2/

The API returns JSON and does not require authentication. All endpoints support pagination.

import requests

BASE_URL = "https://gtexportal.org/api/v2"

def gtex_get(endpoint, params=None):
    """Make a GET request to the GTEx API."""
    url = f"{BASE_URL}/{endpoint}"
    response = requests.get(url, params=params, headers={"Accept": "application/json"})
    response.raise_for_status()
    return response.json()

2. Gene Expression by Tissue

import requests
import pandas as pd

def get_gene_expression_by_tissue(gene_id_or_symbol, dataset_id="gtex_v10"):
    """Get median gene expression across all tissues."""
    url = "https://gtexportal.org/api/v2/expression/medianGeneExpression"
    params = {
        "gencodeId": gene_id_or_symbol,
        "datasetId": dataset_id,
        "itemsPerPage": 100
    }
    response = requests.get(url, params=params)
    data = response.json()

    records = data.get("data", [])
    df = pd.DataFrame(records)
    if not df.empty:
        df = df[["tissueSiteDetailId", "tissueSiteDetail", "median", "unit"]].sort_values(
            "median", ascending=False
        )
    return df

# Example: get expression of APOE across tissues
df = get_gene_expression_by_tissue("ENSG00000130203.10")  # APOE GENCODE ID
# Or use gene symbol (some endpoints accept both)
print(df.head(10))
# Output: tissue name, median TPM, sorted by highest expression

3. eQTL Lookup

import requests
import pandas as pd

def query_eqtl(gene_id, tissue_id=None, dataset_id="gtex_v10"):
    """Query significant eQTLs for a gene, optionally filtered by tissue."""
    url = "https://gtexportal.org/api/v2/association/singleTissueEqtl"
    params = {
        "gencodeId": gene_id,
        "datasetId": dataset_id,
        "itemsPerPage": 250
    }
    if tissue_id:
        params["tissueSiteDetailId"] = tissue_id

    all_results = []
    page = 0
    while True:
        params["page"] = page
        response = requests.get(url, params=params)
        data = response.json()
        results = data.get("data", [])
        if not results:
            break
        all_results.extend(results)
        if len(results) < params["itemsPerPage"]:
            break
        page += 1

    df = pd.DataFrame(all_results)
    if not df.empty:
        df = df.sort_values("pval", ascending=True)
    return df

# Example: Find eQTLs for PCSK9
df = query_eqtl("ENSG00000169174.14")
print(df[["snpId", "tissueSiteDetailId", "slope", "pval", "gencodeId"]].head(20))

4. Single-Tissue eQTL by Variant

import requests

def query_variant_eqtl(variant_id, tissue_id=None, dataset_id="gtex_v10"):
    """Get all eQTL associations for a specific variant."""
    url = "https://gtexportal.org/api/v2/association/singleTissueEqtl"
    params = {
        "variantId": variant_id,  # e.g., "chr1_55516888_G_GA_b38"
        "datasetId": dataset_id,
        "itemsPerPage": 250
    }
    if tissue_id:
        params["tissueSiteDetailId"] = tissue_id

    response = requests.get(url, params=params)
    return response.json()

# GTEx variant ID format: chr{chrom}_{pos}_{ref}_{alt}_b38
# Example: "chr17_43094692_G_A_b38"

5. Multi-Tissue eQTL (eGenes)

import requests

def get_egenes(tissue_id, dataset_id="gtex_v10"):
    """Get all eGenes (genes with at least one significant eQTL) in a tissue."""
    url = "https://gtexportal.org/api/v2/association/egene"
    params = {
        "tissueSiteDetailId": tissue_id,
        "datasetId": dataset_id,
        "itemsPerPage": 500
    }

    all_egenes = []
    page = 0
    while True:
        params["page"] = page
        response = requests.get(url, params=params)
        data = response.json()
        batch = data.get("data", [])
        if not batch:
            break
        all_egenes.extend(batch)
        if len(batch) < params["itemsPerPage"]:
            break
        page += 1
    return all_egenes

# Example: all eGenes in whole blood
egenes = get_egenes("Whole_Blood")
print(f"Found {len(egenes)} eGenes in Whole Blood")

6. Tissue List

import requests

def get_tissues(dataset_id="gtex_v10"):
    """Get all available tissues with metadata."""
    url = "https://gtexportal.org/api/v2/dataset/tissueSiteDetail"
    params = {"datasetId": dataset_id, "itemsPerPage": 100}
    response = requests.get(url, params=params)
    return response.json()["data"]

tissues = get_tissues()
# Key fields: tissueSiteDetailId, tissueSiteDetail, colorHex, samplingSite
# Common tissue IDs:
# Whole_Blood, Brain_Cortex, Liver, Kidney_Cortex, Heart_Left_Ventricle,
# Lung, Muscle_Skeletal, Adipose_Subcutaneous, Colon_Transverse, ...

7. sQTL (Splicing QTLs)

import requests

def query_sqtl(gene_id, tissue_id=None, dataset_id="gtex_v10"):
    """Query significant sQTLs for a gene."""
    url = "https://gtexportal.org/api/v2/association/singleTissueSqtl"
    params = {
        "gencodeId": gene_id,
        "datasetId": dataset_id,
        "itemsPerPage": 250
    }
    if tissue_id:
        params["tissueSiteDetailId"] = tissue_id

    response = requests.get(url, params=params)
    return response.json()

Query Workflows

Workflow 1: Interpreting a GWAS Variant via eQTLs

Identify the GWAS variant (rs ID or chromosome position)
Convert to GTEx variant ID format (chr{chrom}_{pos}_{ref}_{alt}_b38)
Query all eQTL associations for that variant across tissues
Check effect direction: is the GWAS risk allele the same as the eQTL effect allele?
Prioritize tissues: select tissues biologically relevant to the disease
Consider colocalization using coloc (R package) with full summary statistics

import requests, pandas as pd

def interpret_gwas_variant(variant_id, dataset_id="gtex_v10"):
    """Find all genes regulated by a GWAS variant."""
    url = "https://gtexportal.org/api/v2/association/singleTissueEqtl"
    params = {"variantId": variant_id, "datasetId": dataset_id, "itemsPerPage": 500}
    response = requests.get(url, params=params)
    data = response.json()

    df = pd.DataFrame(data.get("data", []))
    if df.empty:
        return df
    return df[["geneSymbol", "tissueSiteDetailId", "slope", "pval", "maf"]].sort_values("pval")

# Example
results = interpret_gwas_variant("chr1_154453788_A_T_b38")
print(results.groupby("geneSymbol")["tissueSiteDetailId"].count().sort_values(ascending=False))

Workflow 2: Gene Expression Atlas

Get median expression for a gene across all tissues
Identify the primary expression site(s)
Compare with disease-relevant tissues
Download raw data for statistical comparisons

Workflow 3: Tissue-Specific eQTL Analysis

Select tissues relevant to your disease
Query all eGenes in that tissue
Cross-reference with GWAS-significant loci
Identify co-localized signals

Key API Endpoints

Endpoint	Description
`/expression/medianGeneExpression`	Median TPM by tissue for a gene
`/expression/geneExpression`	Full distribution of expression per tissue
`/association/singleTissueEqtl`	Significant eQTL associations
`/association/singleTissueSqtl`	Significant sQTL associations
`/association/egene`	eGenes in a tissue
`/dataset/tissueSiteDetail`	Available tissues with metadata
`/reference/gene`	Gene metadata (GENCODE IDs, coordinates)
`/variant/variantPage`	Variant lookup by rsID or position

Datasets Available

ID	Description
`gtex_v10`	GTEx v10 (current; ~960 donors, 54 tissues)
`gtex_v8`	GTEx v8 (838 donors, 49 tissues) — older but widely cited

Best Practices

Use GENCODE IDs (e.g., ENSG00000130203.10) for gene queries; the .version suffix matters for some endpoints
GTEx variant IDs use the format chr{chrom}_{pos}_{ref}_{alt}_b38 (GRCh38) — different from rs IDs
Handle pagination: Large queries (e.g., all eGenes) require iterating through pages
Tissue nomenclature: Use tissueSiteDetailId (e.g., Whole_Blood) not display names for API calls
FDR correction: GTEx uses FDR < 0.05 (q-value) as the significance threshold for eQTLs
Effect alleles: The slope field is the effect of the alternative allele; positive = higher expression with alt allele

Data Downloads (for large-scale analysis)

For genome-wide analyses, download full summary statistics rather than using the API:

# All significant eQTLs (v10)
wget https://storage.googleapis.com/adult-gtex/bulk-qtl/v10/single-tissue-cis-qtl/GTEx_Analysis_v10_eQTL.tar

# Normalized expression matrices
wget https://storage.googleapis.com/adult-gtex/bulk-gex/v10/rna-seq/GTEx_Analysis_v10_RNASeQCv2.4.2_gene_reads.gct.gz

Additional Resources

GTEx Portal: https://gtexportal.org/
API documentation: https://gtexportal.org/api/v2/
Data downloads: https://gtexportal.org/home/downloads/adult-gtex/
GitHub: https://github.com/broadinstitute/gtex-pipeline
Citation: GTEx Consortium (2020) Science. PMID: 32913098

gtex

Popularity

Invocation

Context Preview

Supporting Files

SKILL.md

gtex

Popularity

Invocation

Context Preview

Supporting Files

SKILL.md

GTEx Database

Overview

When to Use This Skill

Core Capabilities

1. GTEx REST API v2

2. Gene Expression by Tissue

3. eQTL Lookup

4. Single-Tissue eQTL by Variant

5. Multi-Tissue eQTL (eGenes)

6. Tissue List

7. sQTL (Splicing QTLs)

Query Workflows

Workflow 1: Interpreting a GWAS Variant via eQTLs

Workflow 2: Gene Expression Atlas

Workflow 3: Tissue-Specific eQTL Analysis

Key API Endpoints

Datasets Available

Best Practices

Data Downloads (for large-scale analysis)

Additional Resources

Similar Skills

GTEx Database

Overview

When to Use This Skill

Core Capabilities

1. GTEx REST API v2

2. Gene Expression by Tissue

3. eQTL Lookup

4. Single-Tissue eQTL by Variant

5. Multi-Tissue eQTL (eGenes)

6. Tissue List

7. sQTL (Splicing QTLs)

Query Workflows

Workflow 1: Interpreting a GWAS Variant via eQTLs

Workflow 2: Gene Expression Atlas

Workflow 3: Tissue-Specific eQTL Analysis

Key API Endpoints

Datasets Available

Best Practices

Data Downloads (for large-scale analysis)

Additional Resources

Similar Skills