Storing data on DNA using synthetic fossils: Robert Grass and Wendelin Stark named European Inventor Award 2021 finalists
- Austrian and Swiss researchers nominated for European Patent Office (EPO) prize for creating stable data storage on glass-encapsulated DNA
- Inspired by fossils, data is encoded into DNA format and encased within tiny glass spheres that protect it from decay caused by the elements over time
- Invention currently used to trace product origin throughout supply chains and as a data storage medium, has the potential to protect information for millennia
Munich, 4 May 2021 - The European Patent Office (EPO) announces that the Austrian and Swiss researchers Robert N. Grass and Wendelin Stark have been nominated as finalists in the "Research" category of the European Inventor Award 2021 for their invention of glass-encapsulated DNA data storage. The invention provides a novel method of preserving data converted into genetic code using artificial fossilisation with tiny glass spheres.
Grass and Stark, chemical engineering professors at ETH Zurich (Swiss Federal Institute of Technology in Zurich) overcame the challenges of storing data on synthetic DNA. By developing a way to encapsulate data in DNA inside tiny glass spheres - and recover it without error - they created a storage format with the potential to protect valuable data for millennia, as well as a robust DNA barcode for supply chain use.
"Grass and Stark demonstrate that an innovative, cross-disciplinary approach can produce technological advancements with potential benefits for many future generations to come, especially in light of the increasing digitalisation of every aspect of society," says EPO President António Campinos, announcing the European Inventor Award 2021 finalists. "With patent protection, they turned their research into a business with real-world applications".
The winners of the 2021 edition of the EPO's annual innovation prize
will be announced at a ceremony starting at 19:00 CEST on 17 June, which has
this year been reimagined as a digital event for a global audience.
Mimicking fossils to overcome digital data decay
Humanity is generating data at an astounding rate but much of this is either stored on hard drives and servers, which have finite lifetimes rarely extending beyond a decade, or on magnetic tape or even floppy disk, which start to decay and degrade after 20 years. Grass and Stark's invention paves the way for long-term data storage that overcomes this impermanence by mimicking the DNA-storing capabilities of fossils.
The two met in 2004 after Stark was appointed Assistant Professor at the ETH Zurich's Department of Chemistry and Applied Biosciences. That same year, Grass joined as one of Stark's first PhD students. They shared one trait in particular: an engineering mindset that drove them to research and build new technologies that translate medical or biology-focused technologies into practical inventions in other fields.
DNA writing (synthesis) and reading (sequencing) was one such area that captured their attention, specifically the idea that DNA - in addition to storing the genetic information of every living creature - could be used as a means of preserving data. This is done by converting digital data (a series of zeros and ones) into a corresponding sequence of the four DNA base pairs. While DNA data storage had already been proved possible by other scientists, including US geneticist George Church in 2012, one obstacle to this method remained: unprotected DNA strands soon chemically degrade after exposure to water, air and heat. They found inspiration for a solution in fossils, where DNA is preserved for hundreds of thousands of years. "The challenge was clear; make DNA stable," explains Grass. "Fossils proved to be the way to go, so we studied the chemical structure of glass precipitates on DNA, which eventually led us to the encapsulation technology."
In 2012, Grass's team (under Stark's guidance) recreated this protective effect by sealing synthetic DNA inside glass particles with diameters up to 10 000 times thinner than a sheet of paper. Once the desired data is converted into DNA - using a synthesis technique that includes error-correction coding from fellow ETH Zurich scientist Dr Reinhard Heckel, thereby making up for DNA damage and data loss - this DNA is encapsulated in glass particles. Although these non-porous "glass fossils" protect the DNA from most corrosive agents and temperature damage, the DNA can be easily recovered and read by treating the particles with a fluoride solution that can dissolve glass, but which does not harm the information. Using this method, Grass's team was able to achieve error-free data recovery after a week's storage at 70°C - a period at increased temperatures which is the environmental exposure equivalent of 2 000 years of storage in average central Europe temperatures.
With proof that their technology worked, ETH Zurich filed a European patent application for Grass and Stark's invention which was granted in 2018.
Imagining a world written in DNA
Grass and Stark took their concept from research to reality by commercialising it through the ETH spin-off company Haelixa AG, established in 2016. The company is one of several ETH spin-offs co-founded by the researchers, who see them as an excellent way to bring patented inventions to market. "If you want to make a company and get investment from a university or funding agency, you have to have a very compelling story about your intellectual property protection," says Grass. "This is why patent applications are an extremely important step."
Haelixa's glass fossils have proved to be highly useful as a robust barcode for tracking purposes - the miniscule DNA-containing particles are applied to a product or substance and later retrieved for verification. The technique has been used to trace underground water flow and verify products in supply chains, such as organic cotton and conflict-free gemstones that have been sourced from suppliers with certified ethical extraction practices.
The potential of Grass and Stark's invention as data storage is also gaining impetus as it becomes possible to store greater quantities of data. In 2018, to promote the technology, the album ‘Mezzanine' by Massive Attack was re-released on DNA format by the researchers encoding a 15 MB data file into strands of synthetic DNA. The technique gained further publicity in 2020, when the first episode of the Netflix series "Biohackers" - a 100 MB video file - was successfully stored on DNA. The high cost of writing synthetic DNA largely limits its use currently, but Grass and Stark are working to cut costs by simplifying DNA synthesis equipment. Grass is confident new technology will make it possible to access megabytes of DNA storage for only a few euros in the coming years, making it ideal for securely storing valuable information.
With this aim in mind, the inventors continue their research. "We envision a world not too far down the road where reading DNA is really accessible in everyday technology," says Grass. "If you take the world we work in, reading and writing DNA is like taking pen to paper - a much more commonplace medium for people to interact with."
Notes to the editor
About the
inventors
Professor Robert N. Grass was born in Bregenz, Austria, on 5
December 1979. Grass began his association with ETH Zurich in 1999, with an
undergraduate degree in chemical engineering and received his PhD from the
university in 2007, writing his thesis on the topic of nanopowder synthesis and
application. After completing his PhD, Grass created the ETH spin-off companies
TurboBeads LLC and hemotune AG. The
glass-encapsulated DNA storage method that his team has been developing since
2012 is being commercialised by two of his former PhD students with the ETH
spin-off Haelixa AG - which he co-founded in 2016. In parallel to this work, he
continues to carry out research at ETH Zurich as Titulary Professor at the
Functional Materials Laboratory, a position he has held since 2017. He has an
h-index of 47 (Google Scholar), noting a very high level of publication productivity
and impact.
Professor Wendelin Jan Stark was born in Zurich, Switzerland, on 2 June 1976. Stark studied at ETH Zurich, where he completed a master's degree in chemistry in 2000, followed by a PhD in mechanical and process engineering in 2002. In 2003, Stark was elected as Assistant Professor, Department of Chemistry and Applied Biosciences and promoted to Associate Professor in 2009. Stark became Full Professor and Head of the Functional Materials Engineering Chair in 2014. During his time at ETH Zurich, Stark has co-founded 10 companies - including Haelixa AG and TurboBeads LLC - and has written more than 300 papers. He was also elected to the United Nations Scientific Advisory Panel for the Global Environmental Outlook (2014-19). His h-index is 76 (Google Scholar), noting a very high level of publication productivity and impact and that he is one of the top cited scientists in his field.
Stark is named in 24 European patents, and Grass in 13. They are named as co-inventors in EP2831268, granted in 2018, for which they are nominated for the European Inventor Award.
About the European Inventor Award
The European Inventor Award is one of Europe's most prestigious innovation prizes. Launched by the
EPO in 2006, it honours individual inventors and teams of inventors whose
pioneering inventions provide answers to some of the biggest challenges of our
times. The finalists and winners are selected by an independent jury consisting of international authorities from the fields of business,
politics, science, academia and research who examine the proposals for their
contribution towards technical progress, social development, economic
prosperity and job creation in Europe. The Award is conferred in five
categories (Industry, Research, SMEs, Non-EPO countries and Lifetime
achievement). In addition, the public selects the winner of the Popular Prize from among the 15 finalists through online voting.
About the EPO
With 6 400 staff, the European Patent Office (EPO) is one of the largest public service institutions in Europe. Headquartered
in Munich with offices in Berlin, Brussels, The Hague and Vienna, the EPO was
founded with the aim of strengthening co-operation on patents in Europe.
Through the EPO's centralised patent granting procedure, inventors are able to
obtain high-quality patent protection in up to 44 countries, covering a market
of some 700 million people. The EPO is also the world's leading authority
in patent information and patent searching.
Media contacts European Patent Office
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