About Our Project
From the Moon to Mars: A New Frontier in Sustainable Space Biology
July 21st, 1969: Neil Armstrong becomes the first man to ever set foot on the Moon, paving the way for a new era of space exploration.
"Not IF, but WHEN"
Over 50 years later, humanity looks toward a new frontier: Mars.
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Since 1964, multiple government agencies and private companies have invested billions of dollars in Mars missions.
However, there are many challenges that stand in the way of Mars exploration.
The Payload Problem
- To bring 1lb of materials from Earth to Mars: ~$1 million
- Launch Costs: $61 million
- One-way trip from Earth → Mars: 8-9 months
- Mars → Earth: 3 years
This means that resources must be either pre-delivered or made on-site. Even simple polymers could become high-value materials in the early stages of colonization.
Bioplastics and Earth's Push for Sustainability
Back on Earth, efforts are underway to move away from petroleum-based plastics and toward carbon-negative bioplastics, where polymers are renewable and biodegradable.
2 Promising Candidates:
- Copolymers Polyhydroxybutyrate (PHB) & Polyhydroxyvalerate (PHV)
- Biodegradable and lightweight
- Together known as PHBV
These plastics can be easily produced by genetically modifying microbes, which has proven difficult to work with given our limited resources.
Our Solution
Introducing PHAntom – PHA Novel Tools for Off-world Manufacturing
Our Objectives: Genetically engineer E. coli to:
- Produce PHBV
- Fixate CO₂
- Generate acetate, a byproduct of PHBV production
Implementation:
- Engineering E. coli to function under CO₂-rich conditions
- Used as an in-situ resource utilization (ISRU) platform to transform Martian air into usable materials
- PHBV → ideal for space applications & 3D printing on Mars
- Enables on-site creation of tools, infrastructure, and essentials without Earth resupply
- Reduces trip frequency and payload cost
PHAntom: A New Era of Space Biology
PHAntom is more than just a biomanufacturing platform; it represents a vision for sustainable space colonization.
By merging cutting-edge advances in synthetic biology with the constraints and opportunities of Mars, we offer a scalable, modular solution to create materials using nothing but microbes and the Martian atmosphere — turning the dream of off-world living into a biological reality.
