Comprehensive multi-omics disease characterization integrating genomics, transcriptomics, proteomics, pathway, and therapeutic layers for systems-level understanding. Produces a detailed multi-omics report with quantitative confidence scoring (0-100), cross-layer gene concordance analysis, biomarker candidates, therapeutic opportunities, and mechanistic hypotheses. Uses 80+ ToolUniverse tools across 8 analysis layers. Use when users ask about disease mechanisms, multi-omics analysis, systems biology of disease, biomarker discovery, or therapeutic target identification from a disease perspective.
Characterize diseases across multiple molecular layers (genomics, transcriptomics, proteomics, pathways) to provide systems-level understanding of disease mechanisms, identify therapeutic opportunities, and discover biomarker candidates.
KEY PRINCIPLES:
Apply when users:
NOT for (use other skills instead):
tooluniverse-drug-target-validationtooluniverse-adverse-event-detectiontooluniverse-disease-researchtooluniverse-variant-interpretationtooluniverse-gwas-* skillstooluniverse-systems-biology| Parameter | Required | Description | Example |
|---|---|---|---|
| disease | Yes | Disease name, OMIM ID, EFO ID, or MONDO ID | Alzheimer disease, MONDO_0004975 |
| tissue | No | Tissue/organ of interest | brain, liver, blood |
| focus_layers | No | Specific omics layers to emphasize | genomics, transcriptomics, pathways |
Data Availability (0-40 points):
Evidence Concordance (0-40 points):
Evidence Quality (0-20 points):
| Score | Tier | Interpretation |
|---|---|---|
| 80-100 | Excellent | Comprehensive multi-omics coverage, high confidence, strong cross-layer concordance |
| 60-79 | Good | Good coverage across most layers, some gaps |
| 40-59 | Moderate | Moderate coverage, limited cross-layer integration |
| 0-39 | Limited | Limited data, single-layer analysis dominates |
| Tier | Symbol | Criteria | Examples |
|---|---|---|---|
| T1 | [T1] | Direct human evidence, clinical proof | FDA-approved drug, GWAS hit (p<5e-8), clinical trial result |
| T2 | [T2] | Experimental evidence | Differential expression (validated), functional screen, mouse KO |
| T3 | [T3] | Computational/database evidence | PPI network, pathway mapping, expression correlation |
| T4 | [T4] | Annotation/prediction only | GO annotation, text-mined association, predicted interaction |
Create this file structure at the start: {disease_name}_multiomic_report.md
# Multi-Omics Disease Characterization: {Disease Name}
**Report Generated**: {date}
**Disease Identifiers**: (to be filled)
**Multi-Omics Confidence Score**: (to be calculated)
---
## Executive Summary
(2-3 sentence disease mechanism synthesis - fill after all layers complete)
---
## 1. Disease Definition & Context
### Disease Identifiers
| System | ID | Source |
|--------|-----|--------|
### Description
### Synonyms
### Disease Hierarchy (parents/children)
### Affected Tissues/Organs
### Therapeutic Areas
**Sources**: (tools used)
---
## 2. Genomics Layer
### 2.1 GWAS Associations
| SNP | P-value | Effect | Gene | Study | Source |
|-----|---------|--------|------|-------|--------|
### 2.2 GWAS Studies Summary
| Study ID | Trait | Sample Size | Year | Source |
|----------|-------|-------------|------|--------|
### 2.3 Associated Genes (Genetic Evidence)
| Gene | Ensembl ID | Association Score | Evidence Type | Source |
|------|------------|-------------------|---------------|--------|
### 2.4 Rare Variants (ClinVar)
| Variant | Gene | Clinical Significance | Source |
|---------|------|-----------------------|--------|
### Genomics Layer Summary
- Total GWAS hits:
- Top genes by genetic evidence:
- Genetic architecture:
**Sources**: (tools used)
---
## 3. Transcriptomics Layer
### 3.1 Differential Expression Studies
| Experiment | Condition | Up-regulated | Down-regulated | Source |
|------------|-----------|--------------|----------------|--------|
### 3.2 Expression Atlas Disease Evidence
| Gene | Score | Source |
|------|-------|--------|
### 3.3 Tissue Expression Patterns (GTEx/HPA)
| Gene | Tissue | Expression Level | Source |
|------|--------|-----------------|--------|
### 3.4 Biomarker Candidates (Expression-Based)
| Gene | Tissue Specificity | Fold Change | Evidence | Source |
|------|-------------------|-------------|----------|--------|
### Transcriptomics Layer Summary
- Differential expression datasets:
- Top DEGs:
- Tissue-specific patterns:
**Sources**: (tools used)
---
## 4. Proteomics & Interaction Layer
### 4.1 Protein-Protein Interactions (STRING)
| Protein A | Protein B | Score | Source |
|-----------|-----------|-------|--------|
### 4.2 Hub Genes (Network Centrality)
| Gene | Degree | Betweenness | Role | Source |
|------|--------|-------------|------|--------|
### 4.3 Protein Complexes (IntAct)
| Complex | Members | Function | Source |
|---------|---------|----------|--------|
### 4.4 Tissue-Specific PPI Network
| Gene | Interaction Score | Tissue | Source |
|------|-------------------|--------|--------|
### Proteomics Layer Summary
- Total PPIs:
- Hub genes:
- Network modules:
**Sources**: (tools used)
---
## 5. Pathway & Network Layer
### 5.1 Enriched Pathways (Enrichr/Reactome)
| Pathway | Database | P-value | Genes | Source |
|---------|----------|---------|-------|--------|
### 5.2 Reactome Pathway Details
| Pathway ID | Name | Genes Involved | Source |
|------------|------|----------------|--------|
### 5.3 KEGG Pathways
| Pathway ID | Name | Description | Source |
|------------|------|-------------|--------|
### 5.4 WikiPathways
| Pathway ID | Name | Organism | Source |
|------------|------|----------|--------|
### Pathway Layer Summary
- Top enriched pathways:
- Key pathway nodes:
- Cross-pathway connections:
**Sources**: (tools used)
---
## 6. Gene Ontology & Functional Annotation
### 6.1 Biological Processes
| GO Term | Name | P-value | Genes | Source |
|---------|------|---------|-------|--------|
### 6.2 Molecular Functions
| GO Term | Name | P-value | Genes | Source |
|---------|------|---------|-------|--------|
### 6.3 Cellular Components
| GO Term | Name | P-value | Genes | Source |
|---------|------|---------|-------|--------|
**Sources**: (tools used)
---
## 7. Therapeutic Landscape
### 7.1 Approved Drugs
| Drug | ChEMBL ID | Mechanism | Target | Phase | Source |
|------|-----------|-----------|--------|-------|--------|
### 7.2 Druggable Targets
| Gene | Tractability | Modality | Clinical Precedent | Source |
|------|-------------|----------|-------------------|--------|
### 7.3 Drug Repurposing Candidates
| Drug | Original Indication | Mechanism | Target | Source |
|------|---------------------|-----------|--------|--------|
### 7.4 Clinical Trials
| NCT ID | Title | Phase | Status | Intervention | Source |
|--------|-------|-------|--------|--------------|--------|
### Therapeutic Summary
- Approved drugs:
- Clinical pipeline:
- Novel targets:
**Sources**: (tools used)
---
## 8. Multi-Omics Integration
### 8.1 Cross-Layer Gene Concordance
| Gene | Genomics | Transcriptomics | Proteomics | Pathways | Layers | Evidence Tier |
|------|----------|-----------------|------------|----------|--------|---------------|
### 8.2 Multi-Omics Hub Genes (Top 20)
| Rank | Gene | Layers Found | Key Evidence | Druggable | Source |
|------|------|-------------|--------------|-----------|--------|
### 8.3 Biomarker Candidates
| Biomarker | Type | Evidence Layers | Confidence | Source |
|-----------|------|-----------------|------------|--------|
### 8.4 Mechanistic Hypotheses
1. (Hypothesis with supporting evidence from multiple layers)
2. ...
### 8.5 Systems-Level Insights
- Key disrupted processes:
- Critical pathway nodes:
- Therapeutic intervention points:
- Testable hypotheses:
---
## Multi-Omics Confidence Score
| Component | Points | Max | Details |
|-----------|--------|-----|---------|
| Genomics data | | 10 | |
| Transcriptomics data | | 10 | |
| Protein data | | 5 | |
| Pathway data | | 10 | |
| Clinical data | | 5 | |
| Multi-layer genes | | 20 | |
| Direction concordance | | 10 | |
| Pathway-gene concordance | | 10 | |
| Genetic evidence quality | | 10 | |
| Clinical validation | | 10 | |
| **TOTAL** | | **100** | |
**Score**: XX/100 - [Tier]
---
## Data Availability Checklist
| Omics Layer | Data Available | Tools Used | Findings |
|-------------|---------------|------------|----------|
| Genomics (GWAS) | Yes/No | | |
| Genomics (Rare Variants) | Yes/No | | |
| Transcriptomics (DEGs) | Yes/No | | |
| Transcriptomics (Expression) | Yes/No | | |
| Proteomics (PPI) | Yes/No | | |
| Proteomics (Expression) | Yes/No | | |
| Pathways (Enrichment) | Yes/No | | |
| Pathways (KEGG/Reactome) | Yes/No | | |
| Gene Ontology | Yes/No | | |
| Drugs/Therapeutics | Yes/No | | |
| Clinical Trials | Yes/No | | |
| Literature | Yes/No | | |
---
## Completeness Checklist
- [ ] Disease disambiguation complete (IDs resolved)
- [ ] Genomics layer analyzed (GWAS + variants)
- [ ] Transcriptomics layer analyzed (DEGs + expression)
- [ ] Proteomics layer analyzed (PPI + interactions)
- [ ] Pathway layer analyzed (enrichment + mapping)
- [ ] Gene Ontology analyzed (BP + MF + CC)
- [ ] Therapeutic landscape analyzed (drugs + targets + trials)
- [ ] Cross-layer integration complete (concordance analysis)
- [ ] Multi-Omics Confidence Score calculated
- [ ] Biomarker candidates identified
- [ ] Hub genes identified
- [ ] Mechanistic hypotheses generated
- [ ] Executive summary written
- [ ] All sections have source citations
---
## References
### Data Sources Used
| # | Tool | Parameters | Section | Items Retrieved |
|---|------|------------|---------|-----------------|
### Database Versions
- OpenTargets: (current)
- GWAS Catalog: (current)
- STRING: (current)
- Reactome: (current)
Objective: Resolve disease to standard identifiers for all downstream queries.
OpenTargets_get_disease_id_description_by_name (primary):
diseaseName (string) - Disease name{data: {search: {hits: [{id, name, description}]}}}MONDO_0004975), NOT colon formatOSL_get_efo_id_by_disease_name (secondary):
disease (string) - Disease name{efo_id, name}OpenTargets_get_disease_description_by_efoId:
efoId (string) - Disease ID (e.g., MONDO_0004975){data: {disease: {id, name, description, dbXRefs}}}OpenTargets_get_disease_synonyms_by_efoId:
efoId (string){data: {disease: {id, name, synonyms: [{relation, terms}]}}}OpenTargets_get_disease_therapeutic_areas_by_efoId:
efoId (string){data: {disease: {id, name, therapeuticAreas: [{id, name}]}}}OpenTargets_get_disease_ancestors_parents_by_efoId:
efoId (string){data: {disease: {id, name, ancestors: [{id, name}]}}}OpenTargets_get_disease_descendants_children_by_efoId:
efoId (string){data: {disease: {id, name, descendants: [{id, name}]}}}OpenTargets_map_any_disease_id_to_all_other_ids:
inputId (string) - Any known disease ID (e.g., OMIM:104300, UMLS:C0002395){data: {disease: {id, name, dbXRefs: [str], ...}}}When disease name returns multiple hits:
After disambiguation, store these for all downstream queries:
efo_id - Primary ID for OpenTargets queries (e.g., MONDO_0004975)disease_name - Canonical name (e.g., Alzheimer disease)synonyms - For literature search expansiontherapeutic_areas - For contextdbXRefs - Cross-references (OMIM, UMLS, DOID, etc.)Objective: Identify genetic variants, GWAS associations, and genetically implicated genes.
OpenTargets_get_associated_targets_by_disease_efoId (primary):
efoId (string) - Disease EFO/MONDO ID{data: {disease: {id, name, associatedTargets: {count, rows: [{target: {id, approvedSymbol}, score}]}}}}countOpenTargets_get_evidence_by_datasource:
efoId (string), ensemblId (string), optional datasourceIds (array), size (int, default 50){data: {disease: {evidences: {count, rows: [{...evidence details}]}}}}['ot_genetics_portal'] - GWAS/genetics['gene2phenotype', 'genomics_england', 'orphanet'] - Rare variants['eva'] - ClinVar variantsgwas_search_associations (GWAS Catalog):
disease_trait (string), size (int, default 20){data: [{association_id, p_value, or_per_copy_num, or_value, beta, risk_frequency, efo_traits: [{...}], ...}], metadata: {pagination: {totalElements}}}gwas_get_studies_for_trait:
disease_trait (string), size (int){data: [...studies], metadata: {pagination}}gwas_get_variants_for_trait:
disease_trait (string), size (int){data: [...variants], metadata: {pagination}}GWAS_search_associations_by_gene:
gene_name (string)OpenTargets_search_gwas_studies_by_disease:
diseaseIds (array of strings), enableIndirect (bool, default true), size (int, default 10){data: {studies: {count, rows: [{id, studyType, traitFromSource, publicationFirstAuthor, publicationDate, pubmedId, nSamples, nCases, nControls, ...}]}}}clinvar_search_variants:
condition (string) or gene (string), optional max_results (int)OpenTargets_get_evidence_by_datasourceGWAS_search_associations_by_geneMaintain a dictionary of genes found in genomics layer:
genomics_genes = {
'PSEN1': {'score': 0.87, 'evidence': 'genetic', 'ensembl_id': 'ENSG00000080815', 'layer': 'genomics'},
'APP': {'score': 0.82, 'evidence': 'genetic', 'ensembl_id': 'ENSG00000142192', 'layer': 'genomics'},
# ...
}
Objective: Identify differentially expressed genes, tissue-specific expression, and expression-based biomarkers.
ExpressionAtlas_search_differential:
gene (string), condition (string), species (string, default 'homo sapiens')ExpressionAtlas_search_experiments:
gene (string), condition (string), species (string)expression_atlas_disease_target_score:
efoId (string), pageSize (int, required)europepmc_disease_target_score:
efoId (string), pageSize (int, required)HPA_get_rna_expression_by_source (Human Protein Atlas):
gene_name (string), source_type (string: 'tissue', 'blood', 'brain'), source_name (string: e.g., 'brain', 'liver'){status, data: {gene_name, source_type, source_name, expression_value, expression_level, expression_unit}}source_type options: 'tissue', 'blood', 'brain', 'cell_line', 'single_cell'HPA_get_rna_expression_in_specific_tissues:
gene_name (string), tissues (array of strings)HPA_get_cancer_prognostics_by_gene:
gene_name (string)HPA_get_subcellular_location:
gene_name (string)HPA_search_genes_by_query:
query (string)Add transcriptomics genes to tracking:
transcriptomics_genes = {
'APOE': {'expression_score': 0.75, 'tissues': ['brain'], 'evidence': 'differential_expression', 'layer': 'transcriptomics'},
# ...
}
Objective: Map protein-protein interactions, identify hub genes, and characterize interaction networks.
STRING_get_interaction_partners (primary PPI):
protein_ids (array of strings - gene names work), species (int, default 9606), confidence_score (float, default 0.4), limit (int, default 20){status: 'success', data: [{stringId_A, stringId_B, preferredName_A, preferredName_B, ncbiTaxonId, score, nscore, fscore, pscore, ascore, escore, dscore, tscore}]}protein_ids is an array, NOT string. Gene symbols like ['APOE'] workSTRING_get_network:
protein_ids (array), species (int), confidence_score (float)STRING_functional_enrichment:
protein_ids (array), species (int)STRING_ppi_enrichment:
protein_ids (array), species (int)intact_get_interactions:
identifier (string - UniProt ID or gene name)intact_search_interactions:
query (string), first (int, default 0), max (int, default 25)HPA_get_protein_interactions_by_gene:
gene_name (string){gene, interactions, interactor_count, interactors: [...]}humanbase_ppi_analysis:
gene_list (array), tissue (string), max_node (int), interaction (string), string_mode (bool)interaction options: 'coexpression', 'interaction', 'coexpression_and_interaction'. string_mode: true/falseCalculate network centrality metrics:
Objective: Identify enriched biological pathways and cross-pathway connections.
enrichr_gene_enrichment_analysis (primary enrichment):
gene_list (array of gene symbols, min 2), libs (array of library names){status: 'success', data: '{...JSON string with enrichment results...}'}['KEGG_2021_Human'], ['Reactome_2022'], ['WikiPathway_2023_Human'], ['GO_Biological_Process_2023'], ['GO_Molecular_Function_2023'], ['GO_Cellular_Component_2023']data field is a JSON string, needs parsing. Contains connected_paths and per-library resultslibs is REQUIRED as arrayReactomeAnalysis_pathway_enrichment:
identifiers (string - space-separated gene list), optional page_size (int, default 20), include_disease (bool), projection (bool){data: {token, analysis_type, pathways_found, pathways: [{pathway_id, name, species, is_disease, is_lowest_level, entities_found, entities_total, entities_ratio, p_value, fdr, reactions_found, reactions_total}]}}Reactome_map_uniprot_to_pathways:
id (string - UniProt accession)Reactome_get_pathway:
stId (string - Reactome stable ID, e.g., 'R-HSA-73817')Reactome_get_pathway_reactions:
stId (string)kegg_search_pathway:
keyword (string)kegg_get_pathway_info:
pathway_id (string, e.g., 'hsa04930')WikiPathways_search:
query (string), optional organism (string, e.g., 'Homo sapiens')Objective: Characterize biological processes, molecular functions, and cellular components.
enrichr_gene_enrichment_analysis (GO enrichment):
libs=['GO_Biological_Process_2023'] for BPlibs=['GO_Molecular_Function_2023'] for MFlibs=['GO_Cellular_Component_2023'] for CCGO_get_annotations_for_gene:
gene_id (string - gene symbol or UniProt ID)GO_search_terms:
query (string)QuickGO_annotations_by_gene:
gene_product_id (string - UniProt accession, e.g., 'UniProtKB:P02649'), optional aspect (string: 'biological_process', 'molecular_function', 'cellular_component'), taxon_id (int: 9606), limit (int: 25)OpenTargets_get_target_gene_ontology_by_ensemblID:
ensemblId (string)Objective: Map approved drugs, druggable targets, repurposing opportunities, and clinical trials.
OpenTargets_get_associated_drugs_by_disease_efoId (primary):
efoId (string), size (int, REQUIRED - use 100){data: {disease: {knownDrugs: {count, rows: [{drug: {id, name, tradeNames, maximumClinicalTrialPhase, isApproved, hasBeenWithdrawn}, phase, mechanismOfAction, target: {id, approvedSymbol}, disease: {id, name}, urls: [{url, name}]}]}}}}OpenTargets_get_target_tractability_by_ensemblID:
ensemblId (string)OpenTargets_get_associated_drugs_by_target_ensemblID:
ensemblId (string), size (int, REQUIRED)search_clinical_trials:
query_term (string, REQUIRED), optional condition (string), intervention (string), pageSize (int, default 10)query_term is REQUIRED even if condition is providedOpenTargets_get_drug_mechanisms_of_action_by_chemblId:
chemblId (string)drug_targets = {
'PSEN1': {'drugs': ['Semagacestat'], 'tractability': 'small_molecule', 'clinical_phase': 3},
'ACHE': {'drugs': ['Donepezil', 'Galantamine'], 'tractability': 'small_molecule', 'clinical_phase': 4},
# ...
}
Objective: Integrate findings across all layers to identify cross-layer genes, calculate concordance, and generate mechanistic hypotheses.
This is the core integrative step. For each gene found in the analysis:
Count layers: In how many omics layers does this gene appear?
Score genes: Genes appearing in 3+ layers are "multi-omics hub genes"
Direction concordance: Do genetics and expression agree?
For each multi-omics hub gene, assess biomarker potential:
From the integrated data:
Calculate the Multi-Omics Confidence Score (0-100) based on:
Write a 2-3 sentence synthesis covering:
Before presenting to user, verify:
| Tool | Key Parameters | Notes |
|---|---|---|
OpenTargets_get_disease_id_description_by_name | diseaseName | Primary disambiguation |
OSL_get_efo_id_by_disease_name | disease | Secondary disambiguation |
OpenTargets_get_associated_targets_by_disease_efoId | efoId | Returns top 25 genes |
OpenTargets_get_evidence_by_datasource | efoId, ensemblId, datasourceIds[], size | Per-gene evidence |
OpenTargets_search_gwas_studies_by_disease | diseaseIds[], size | GWAS studies |
gwas_search_associations | disease_trait, size | GWAS Catalog |
clinvar_search_variants | condition or gene, max_results | Rare variants |
ExpressionAtlas_search_differential | condition, species | DEGs |
expression_atlas_disease_target_score | efoId, pageSize (REQUIRED) | Expression scores |
europepmc_disease_target_score | efoId, pageSize (REQUIRED) | Literature scores |
HPA_get_rna_expression_by_source | gene_name, source_type, source_name (ALL REQUIRED) | Tissue expression |
STRING_get_interaction_partners | protein_ids[], species (9606), limit | PPI partners |
STRING_get_network | protein_ids[], species | PPI network |
STRING_functional_enrichment | protein_ids[], species | Functional enrichment |
STRING_ppi_enrichment | protein_ids[], species | Network significance |
intact_search_interactions | query, max | Experimental PPIs |
humanbase_ppi_analysis | gene_list[], tissue, max_node, interaction, string_mode (ALL REQ) | Tissue PPI |
enrichr_gene_enrichment_analysis | gene_list[], libs[] (BOTH REQUIRED) | Pathway/GO enrichment |
ReactomeAnalysis_pathway_enrichment | identifiers (space-sep string) | Reactome enrichment |
Reactome_map_uniprot_to_pathways | id (UniProt accession) | Protein-pathway mapping |
kegg_search_pathway | keyword | KEGG pathway search |
WikiPathways_search | query, organism | WikiPathways search |
GO_get_annotations_for_gene | gene_id | GO annotations |
QuickGO_annotations_by_gene | gene_product_id (e.g., 'UniProtKB:P02649') | Detailed GO |
OpenTargets_get_associated_drugs_by_disease_efoId | efoId, size (REQUIRED) | Disease drugs |
OpenTargets_get_target_tractability_by_ensemblID | ensemblId | Druggability |
search_clinical_trials | query_term (REQUIRED), condition, pageSize | Clinical trials |
PubMed_search_articles | query, limit | Literature |
ensembl_lookup_gene | gene_id, species ('homo_sapiens' REQUIRED) | Gene lookup |
MyGene_query_genes | query, species, fields, size | Gene info |
OpenTargets_get_similar_entities_by_disease_efoId | efoId, threshold, size (ALL REQUIRED) | Similar diseases |
{
"data": {
"disease": {
"id": "MONDO_0004975",
"name": "Alzheimer disease",
"associatedTargets": {
"count": 2456,
"rows": [
{
"target": {"id": "ENSG00000080815", "approvedSymbol": "PSEN1"},
"score": 0.87
}
]
}
}
}
}
{
"data": [
{
"association_id": 216440893,
"p_value": 2e-09,
"or_per_copy_num": 0.94,
"or_value": "0.94",
"efo_traits": [{"..."}],
"risk_frequency": "NR"
}
],
"metadata": {"pagination": {"totalElements": 1061816}}
}
{
"status": "success",
"data": [
{
"stringId_A": "9606.ENSP00000252486",
"stringId_B": "9606.ENSP00000466775",
"preferredName_A": "APOE",
"preferredName_B": "APOC2",
"score": 0.999
}
]
}
{
"data": {
"token": "...",
"pathways_found": 154,
"pathways": [
{
"pathway_id": "R-HSA-1251985",
"name": "Nuclear signaling by ERBB4",
"species": "Homo sapiens",
"is_disease": false,
"is_lowest_level": true,
"entities_found": 3,
"entities_total": 47,
"entities_ratio": 0.00291,
"p_value": 4.0e-06,
"fdr": 0.00068,
"reactions_found": 3,
"reactions_total": 34
}
]
}
}
{
"status": "success",
"data": {
"gene_name": "APOE",
"source_type": "tissue",
"source_name": "brain",
"expression_value": "2714.9",
"expression_level": "very high",
"expression_unit": "nTPM"
}
}
{
"status": "success",
"data": "{\"connected_paths\": {\"Path: ...\": \"Total Weight: ...\"}}"
}
NOTE: The data field is a JSON string that needs parsing.
User: "Characterize Alzheimer's disease across omics layers"
-> Run all 8 phases
-> Produce full multi-omics report
User: "What are druggable targets for rheumatoid arthritis?"
-> Emphasize Phase 1 (genomics), Phase 6 (therapeutics), Phase 7 (integration)
-> Focus on tractability and clinical precedent
User: "Find diagnostic biomarkers for pancreatic cancer"
-> Emphasize Phase 2 (transcriptomics), Phase 3 (proteomics), Phase 7 (biomarkers)
-> Focus on tissue-specific expression and diagnostic potential
User: "What pathways are dysregulated in Crohn's disease?"
-> Emphasize Phase 4 (pathways), Phase 5 (GO), Phase 7 (mechanistic hypotheses)
-> Focus on pathway enrichment and cross-pathway connections
User: "What existing drugs could be repurposed for ALS?"
-> Emphasize Phase 1 (genetics), Phase 6 (therapeutic landscape), Phase 7 (repurposing)
-> Focus on drugs targeting disease-associated genes
User: "What are the hub genes and key pathways in type 2 diabetes?"
-> Emphasize Phase 3 (PPI network), Phase 4 (pathways), Phase 7 (network analysis)
-> Focus on hub genes and network modules