DNAnexus Integration

Overview

When to Use This Skill

• Creating, building, or modifying DNAnexus apps/applets
• Uploading, downloading, searching, or organizing files and records
• Running analyses, monitoring jobs, creating workflows
• Writing scripts using dxpy to interact with the platform
• Setting up dxapp.json, managing dependencies, using Docker
• Processing FASTQ, BAM, VCF, or other bioinformatics files
• Managing projects, permissions, or platform resources

Core Capabilities

1. App Development

• Generate app skeleton with

  dx-app-wizard

• Write Python or Bash apps with proper entry points
• Handle input/output data objects
• Deploy with

  dx build

  or

  dx build --app

• Test apps on the platform

• Bioinformatics pipelines (alignment, variant calling)
• Data processing workflows
• Quality control and filtering
• Format conversion tools

references/app-development.md

• Complete app structure and patterns
• Python entry point decorators
• Input/output handling with dxpy
• Development best practices
• Common issues and solutions

2. Data Operations

• Upload/download files with

  dxpy.upload_local_file()

  and

  dxpy.download_dxfile()

• Create and manage records with metadata
• Search for data objects by name, properties, or type
• Clone data between projects
• Manage project folders and permissions

• Uploading sequencing data (FASTQ files)
• Organizing analysis results
• Searching for specific samples or experiments
• Backing up data across projects
• Managing reference genomes and annotations

references/data-operations.md

• Complete file and record operations
• Data object lifecycle (open/closed states)
• Search and discovery patterns
• Project management
• Batch operations

3. Job Execution

• Launch jobs with

  applet.run()

  or

  app.run()

• Monitor job status and logs
• Create subjobs for parallel processing
• Build and run multi-step workflows
• Chain jobs with output references

• Running genomics analyses on sequencing data
• Parallel processing of multiple samples
• Multi-step analysis pipelines
• Monitoring long-running computations
• Debugging failed jobs

references/job-execution.md

• Complete job lifecycle and states
• Workflow creation and orchestration
• Parallel execution patterns
• Job monitoring and debugging
• Resource management

4. Python SDK (dxpy)

• Work with data object handlers (DXFile, DXRecord, DXApplet, etc.)
• Use high-level functions for common tasks
• Make direct API calls for advanced operations
• Create links and references between objects
• Search and discover platform resources

• Automation scripts for data management
• Custom analysis pipelines
• Batch processing workflows
• Integration with external tools
• Data migration and organization

references/python-sdk.md

• Complete dxpy class reference
• High-level utility functions
• API method documentation
• Error handling patterns
• Common code patterns

5. Configuration and Dependencies

• Write dxapp.json with inputs, outputs, and run specs
• Install system packages (execDepends)
• Bundle custom tools and resources
• Use assets for shared dependencies
• Integrate Docker containers
• Configure instance types and timeouts

• Defining app input/output specifications
• Installing bioinformatics tools (samtools, bwa, etc.)
• Managing Python package dependencies
• Using Docker images for complex environments
• Selecting computational resources

references/configuration.md

• Complete dxapp.json specification
• Dependency management strategies
• Docker integration patterns
• Regional and resource configuration
• Example configurations

Quick Start Examples

Upload and Analyze Data

import dxpy

# Upload input file
input_file = dxpy.upload_local_file("sample.fastq", project="project-xxxx")

# Run analysis
job = dxpy.DXApplet("applet-xxxx").run({
    "reads": dxpy.dxlink(input_file.get_id())
})

# Wait for completion
job.wait_on_done()

# Download results
output_id = job.describe()["output"]["aligned_reads"]["$dnanexus_link"]
dxpy.download_dxfile(output_id, "aligned.bam")

Search and Download Files

import dxpy

# Find BAM files from a specific experiment
files = dxpy.find_data_objects(
    classname="file",
    name="*.bam",
    properties={"experiment": "exp001"},
    project="project-xxxx"
)

# Download each file
for file_result in files:
    file_obj = dxpy.DXFile(file_result["id"])
    filename = file_obj.describe()["name"]
    dxpy.download_dxfile(file_result["id"], filename)

Create Simple App

# src/my-app.py
import dxpy
import subprocess

@dxpy.entry_point('main')
def main(input_file, quality_threshold=30):
    # Download input
    dxpy.download_dxfile(input_file["$dnanexus_link"], "input.fastq")

    # Process
    subprocess.check_call([
        "quality_filter",
        "--input", "input.fastq",
        "--output", "filtered.fastq",
        "--threshold", str(quality_threshold)
    ])

    # Upload output
    output_file = dxpy.upload_local_file("filtered.fastq")

    return {
        "filtered_reads": dxpy.dxlink(output_file)
    }

dxpy.run()

Workflow Decision Tree

1. Need to create a new executable?
   • Yes → Use App Development (references/app-development.md)
   • No → Continue to step 2
2. Need to manage files or data?
   • Yes → Use Data Operations (references/data-operations.md)
   • No → Continue to step 3
3. Need to run an analysis or workflow?
   • Yes → Use Job Execution (references/job-execution.md)
   • No → Continue to step 4
4. Writing Python scripts for automation?
   • Yes → Use Python SDK (references/python-sdk.md)
   • No → Continue to step 5
5. Configuring app settings or dependencies?
   • Yes → Use Configuration (references/configuration.md)

Installation and Authentication

Install dxpy

uv pip install dxpy

Login to DNAnexus

dx login

Verify Installation

dx --version
dx whoami

Common Patterns

Pattern 1: Batch Processing

# Find all FASTQ files
files = dxpy.find_data_objects(
    classname="file",
    name="*.fastq",
    project="project-xxxx"
)

# Launch parallel jobs
jobs = []
for file_result in files:
    job = dxpy.DXApplet("applet-xxxx").run({
        "input": dxpy.dxlink(file_result["id"])
    })
    jobs.append(job)

# Wait for all completions
for job in jobs:
    job.wait_on_done()

Pattern 2: Multi-Step Pipeline

# Step 1: Quality control
qc_job = qc_applet.run({"reads": input_file})

# Step 2: Alignment (uses QC output)
align_job = align_applet.run({
    "reads": qc_job.get_output_ref("filtered_reads")
})

# Step 3: Variant calling (uses alignment output)
variant_job = variant_applet.run({
    "bam": align_job.get_output_ref("aligned_bam")
})

Pattern 3: Data Organization

# Create organized folder structure
dxpy.api.project_new_folder(
    "project-xxxx",
    {"folder": "/experiments/exp001/results", "parents": True}
)

# Upload with metadata
result_file = dxpy.upload_local_file(
    "results.txt",
    project="project-xxxx",
    folder="/experiments/exp001/results",
    properties={
        "experiment": "exp001",
        "sample": "sample1",
        "analysis_date": "2025-10-20"
    },
    tags=["validated", "published"]
)

Best Practices

1. Error Handling: Always wrap API calls in try-except blocks
2. Resource Management: Choose appropriate instance types for workloads
3. Data Organization: Use consistent folder structures and metadata
4. Cost Optimization: Archive old data, use appropriate storage classes
5. Documentation: Include clear descriptions in dxapp.json
6. Testing: Test apps with various input types before production use
7. Version Control: Use semantic versioning for apps
8. Security: Never hardcode credentials in source code
9. Logging: Include informative log messages for debugging
10. Cleanup: Remove temporary files and failed jobs

Resources

references/

• app-development.md - Complete guide to building and deploying apps/applets
• data-operations.md - File management, records, search, and project operations
• job-execution.md - Running jobs, workflows, monitoring, and parallel processing
• python-sdk.md - Comprehensive dxpy library reference with all classes and functions
• configuration.md - dxapp.json specification and dependency management

Getting Help

• Official documentation: https://documentation.dnanexus.com/
• API reference: http://autodoc.dnanexus.com/
• GitHub repository: https://github.com/dnanexus/dx-toolkit
• Support: support@dnanexus.com