Researchers Store Entire Human Genome on ‘Everlasting’ 5D Memory Crystal

Researchers Store Entire Human Genome on ‘Everlasting’ 5D Memory Crystal

Unlike other data storage formats that degrade over time, 5D memory crystals can store up to 360 terabytes of information without loss for billions of years, even at high temperatures, according to a team of scientists at the University of Southampton. The 5D crystal is equivalent to fused quartz, one of the most chemically and thermally durable materials on Earth. It can withstand the high and low extremes of freezing, fire and temperatures of up to 1,000 degrees Celsius (1,832 degrees Fahrenheit). The crystal can also withstand direct impact force of up to 10 ton per cm2 and is unchanged by long exposure to cosmic radiation.

The 5D memory crystal. Image credit: University of Southampton.

The 5D memory crystal. Image credit: University of Southampton.

University of Southampton’s Professor Peter Kazansky and colleagues use ultra-fast lasers to precisely inscribe data into nanostructured voids orientated within silica — with feature sizes as small as 20 nm.

Unlike marking only on the surface of a 2D piece of paper or magnetic tape, this method of encoding uses two optical dimensions and three spatial co-ordinates to write throughout the material — hence the ‘5D’ in its name.

The longevity of the crystals means they will outlast humans and other species. Currently it’s not possible to synthetically create humans, plants and animals using genetic information alone, but there have been major advances in synthetic biology in recent years.

“We know from the work of others that genetic material of simple organisms can be synthesized and used in an existing cell to create a viable living specimen in a lab,” Professor Kazansky said.

“The 5D memory crystal opens up possibilities for other researchers to build an everlasting repository of genomic information from which complex organisms like plants and animals might be restored should science in the future allow.”

Memory of Mankind archive in Hallstatt, Austria. Image credit: University of Southampton.

Memory of Mankind archive in Hallstatt, Austria. Image credit: University of Southampton.

To test this concept, the researchers created a 5D memory crystal creating containing the full human genome.

For the approximately 3 billion letters in the genome, each letter was sequenced 150 times to make sure it was in that position.

The crystal is stored in the Memory of Mankind archive, a special time capsule within a salt cave in Hallstatt, Austria.

When designing the crystal, the researchers considered if the data held within it might be retrieved by an intelligence (species or machine) which comes after us in the distant future.

Indeed, it might be found so far into the future that no frame of reference exists.

“The visual key inscribed on the crystal gives the finder knowledge of what data is stored inside and how it could be used,” Professor Kazansky said.

Above the dense planes of data held within, the key shows the universal elements (hydrogen, oxygen, carbon and nitrogen); the four bases of the DNA molecule (adenine, cytosine, guanine and thymine) with their molecular structure; their placement in the double helix structure of DNA; and how genes position into a chromosome, which can then be inserted into a cell.

For a visual indication of which species the 5D memory crystal relates to, the team paid homage to the Pioneer space craft plaques which were launched by NASA on a path to take it beyond the confines of the Solar System.

“We don’t know if memory crystal technology will ever follow these plaques in distance traveled but each disk can be expected with a high degree of confidence to exceed their survival time,” Professor Kazansky said.

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This article is a version of a press-release provided by the University of Southampton.


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