Independent Validation in Peer‑Reviewed Journals
Multiple independent research teams have evaluated the core principles behind our DNA Preservation Technology (640BCE DNA Time Capsule). While we do not disclose the proprietary capsule design publicly, the following studies describe the performance of similar hermetic, inert‑gas micro‑environments for DNA storage:
- Nucleic Acids Research — Demonstrated that dehydrated DNA stored in sealed, oxygen‑free capsules retained integrity after accelerated aging equivalent to centuries at ambient temperature.
- Biopreservation and Biobanking — Compared hermetic capsules to conventional plastic tubes, showing superior stability and recovery rates across multiple DNA sources and extraction methods.
- Conference Proceedings — Validated performance across diverse sample types, with no observable degradation after simulated 100‑year storage conditions.
- Extended Evaluation Studies — Confirmed compatibility with downstream applications such as next‑generation sequencing, even after long‑term storage.
These results are not marketing claims — they are documented in peer‑reviewed literature and reproducible under controlled conditions.
Key Findings from the Research
Across the published studies, several consistent themes emerge:
- Exceptional Stability — DNA stored in hermetic, inert‑gas capsules shows no measurable degradation after accelerated aging equivalent to 100+ years at room temperature.
- Cross‑Sample Robustness — Works with genomic DNA from various organisms and extraction methods.
- Downstream Compatibility — Preserved DNA remains suitable for PCR, sequencing, and other molecular biology workflows.
- Cold‑Chain Independence — Eliminates reliance on freezers, reducing energy costs and vulnerability to power outages.
- Predictive Shelf‑Life Modeling — Arrhenius‑based projections support multi‑century stability under standard indoor conditions.
These findings form the scientific backbone of our DNA Preservation Technology and support its use in applications ranging from personal legacy projects to institutional biobanking.
Applications for Our DNA Preservation Technology
- Personal Legacy Archiving — Preserve your genetic heritage for future generations without the burden of cold storage.
- Research Biobanks — Maintain sample integrity for decades, even in resource‑limited settings.
- Cultural and Historical Projects — Safeguard biodiversity samples, heritage seeds, or ancient DNA for long‑term study.
- Medical and Forensic Use — Store reference samples securely for future analysis without ongoing refrigeration costs.
Why We Limit Public Technical Disclosure
The exact engineering of our DNA Preservation Technology is proprietary. Publicly revealing the full design would compromise our ability to protect intellectual property and maintain supply‑chain security. However, we believe in transparency with qualified partners. That’s why we offer a controlled process for sharing complete technical documentation.
Request Full Technical Dossier Under NDA
If you are a researcher, institutional buyer, investor, or strategic partner, you can request our full technical dossier, which includes:
- Exact peer‑reviewed studies
- Detailed performance data
- Manufacturing and quality‑control protocols
- Long‑term stability projections
- Supply‑chain and sourcing information
How it works:
- Complete the contact form below with your name, organization, role, and intended use case.
- Agree to sign a mutual NDA.
- Once the NDA is executed, we will provide secure access to the full technical package.
Commitment to Scientific Integrity
Our DNA Preservation Technology is not a black box — it is a rigorously tested, scientifically validated solution for deep‑time genetic archiving. Every claim we make is grounded in peer‑reviewed research, reproducible results, and decades of combined expertise in molecular preservation. By combining independent validation with proprietary engineering, we deliver a preservation platform that is both trustworthy and future‑ready, designed to protect genetic material for centuries without reliance on fragile cold‑chain systems.
We believe that safeguarding DNA is not just a technical achievement, but a moral responsibility. This commitment drives us to maintain the highest standards of transparency with qualified partners, to continually refine our methods, and to ensure that every preserved sample retains its integrity for generations to come.
We invite serious inquiries from those who share our vision for protecting genetic information across time — whether for personal legacy, research, cultural heritage, or biodiversity conservation. The science is proven. The technology is ready. The future is waiting, and together we can ensure it remembers.