The AI Operating System for Protein Design.
Programmable Proteins for a Sustainable Future.
Chondrule, your hub for
Carbon Capture Enzymes
Industrial Decarbonization
Orchestrate enzyme solutions to accelerate carbon capture and breakdown of industrial polymers to drive a circular economy.
Agricultural Resilience
Sustainable Bio-discovery
Discover resilient biomolecules to optimize crop yield, enhance drought resistance, and create sustainable fertilizers.
Rare Earth Biomining
Sustainable Mineral Extraction
Deploy specialized proteins to extract critical minerals from mines and industrial waste, replacing toxic chemicals with a clean, biological loop.
Biopolymer Synthesis
High-Performance Materials
Engineer next-generation performance materials that are biodegradable, ultra-strong, and inspired by nature.
Planetary Exploration
Extraterrestrial Resource Use
Lunar and asteroid regolith mining with proteins engineered for stability in extreme extraterrestrial environments.
Sustainable Construction
Carbon-Negative Cement
Harness designer proteins to facilitate biomineralization, growing self-healing concrete and structural bio-bricks with zero industrial emissions.
From Prompt to Protein.
Zero background in biochemistry or protein engineering required. Describe what you want your protein to do in plain English, and Chondrule OS translates your prompt into a fully optimized, validated design in minutes, not months.
Architect
Natural Language Interface
Translate complex industrial needs from natural language to technical blueprints. Our proprietary models assess feasibility and scope the optimal design parameters for your specific protein target.
Orchestrate
Pipeline Assembly
Dynamically assemble state-of-the-art computational pipelines. Chondrule OS selects the best-in-class models to solve your unique biological challenge.
Execute
Managed Compute
Deploy designs instantly to high-performance GPU clusters. We automate the DevOps of protein design, handling hardware scaling so you can focus on the science.
Refine
Active Learning Loop
Close the gap between simulation and reality. Integrate experimental wet-lab data to iteratively fine-tune generative models, making the engine smarter with every cycle.
Programmable Proteins.
One engine. Infinite applications. We deploy molecular machinery across the hardest problems in the 21st-century economy.
Phosphate Mobilization
Unlocking soil phosphorus to eliminate synthetic fertilizers.
Engineer stable phosphatase variants to mobilize soil-bound phosphorus, eliminating reliance on destructive chemical fertilizers.
Tailings Remediation
Heavy metal chelation from toxic mining runoff.
Design custom peptide matrices to selectively chelate and immobilize toxic heavy metals from acid mine drainage, protecting water ecosystems.
Ocean Carbon Storage
Accelerated silicate weathering for marine carbon capture.
Architect specialized peptides to accelerate alkaline mineral dissolution by 100x, facilitating rapid marine carbon capture.
Active Bio-Packaging
Biodegradable barrier films with active oxygen scavenging.
Design compostable plant-protein coatings embedded with oxygen-scavenging enzymes and antimicrobial peptides to triple food shelf life.
Bio-Composite Adhesives
Mussel-inspired structural binders with zero VOCs.
Architect adhesive protein matrices inspired by mussel foot proteins to replace toxic formaldehyde resins in engineered wood panels.
Methane Mitigation
Converting potent methane emissions into liquid methanol.
Engineer stable, soluble methane monooxygenase variants for industrial biofilters, converting point-source methane into liquid methanol.
Built by Pioneers.
Deep domain expertise across planetary chemistry and molecular architecture.
PhD, Planetary Science (UC Davis)
Expert in geochemistry and mass-dependent isotope fractionation
NASA Fellow, ex-BCG consultant in sustainability, experienced in building Agentic AI platforms
The future of discovery is autonomous.
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