Pharmaceuticals & Biotech

Optimize protein crystallization in microgravity.

Design and refine biological processes for space-based manufacturing. Reach viable formulations faster with simulation-driven pre-flight design.

The challenge

Protein crystallization in microgravity is high-potential — but slow to optimize.

Microgravity produces larger, more uniform protein crystals — critical for drug discovery and biologics development. But each flight is expensive and opportunities are limited. Traditional approaches rely on trial and error across multiple missions.

Average cost to crystallize
a single protein in space

$2M+

Flights needed without
simulation guidance

6–9

Time per iteration cycle

6 mo

How G-SPACE helps

Simulate crystallization conditions before flight.

Pre-flight parameter optimization

Model protein behavior under microgravity conditions and identify optimal crystallization parameters before committing to a flight.

Post-flight data analysis

Automatically analyze crystallization outcomes to understand what worked and why. Feed insights directly into the next experiment design.

Yield prediction

Predict crystal quality and yield for different configurations, so you can prioritize the most promising approaches.

Use cases

Applications in pharma & biotech

Protein crystallization for structure-based drug design
Biologics formulation and stability testing
Monoclonal antibody production optimization
Gene therapy vector manufacturing
Vaccine development and purification

Ready to start

See how G-SPACE accelerates pharma & biotech R&D.

Book a demo tailored to your protein crystallization or biologics workflow.

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