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Say hello to the epi-bit, a new approach to DNA data storage

(2024/10/25)


Scientists have developed a new approach to using DNA as a data storage medium, slashing the cost and time of writing to the biological substance.

For decades, scientists have been studying the potential of deoxyribonucleic acid, which contains the genetic instructions for the development and function of an organism, as a material for data storage owing to its phenomenal data density.

In theory, a single gram of DNA could store 215,000 terabytes of data, but since the first demonstration of its data storage potential, scientists have struggled to show how it could become part of a practical computing system.

[1]

Well-established techniques rely on making DNA sequences from scratch to create the DNA storage medium. The process known as "de novo" is time-consuming, expensive, and prone to errors.

[2]

[3]

Researchers [4]have already developed other techniques for storing data directly in the DNA of living bacteria cells by using a electromagnetic technique.

However, the current research goes one step further by employing naturally occurring methylation, the process that is part of the epigenetic modification of DNA, which occurs during an individual's lifetime rather than between generations.

[5]

In a [6]paper in Nature this week , Peking University associate professor Cheng Zhang and colleagues describe a demonstration encoding data in the so-called "epi-bits" and reproducing an image of a Chinese rubbing (16,833 bits) and a photo of a panda (252,504 bits) using their synthesis-free method. They argue it is capable of encoding and reading data at a vastly improved rate compared to earlier approaches.

In an accompanying article, University of Washington computer science researchers Carina Imburgia and Jeff Nivala said Zhang's team had marked "a new direction in DNA-based data storage that has the potential to bypass the time and cost limitations of conventional approaches."

In addition to improving the performance of DNA storage, the researchers also widened its usability. They created a platform called iDNAdrive and showed that 60 volunteers from diverse academic backgrounds could use it to manually encode approximately 5,000 bits of text data.

[7]Heart of glass: Human genome stored for 'eternity' in 5D memory crystal

[8]In homage to Jurassic Park, researchers store DNA in amber-like polymer

[9]Microfluidic processor brings us one step closer to a future of squishy DNA computing

[10]Boffins store text message inside E coli bacteria using electromagnetic signal – and you'll never guess what it says

"Our framework presents a new modality of DNA data storage that is parallel, programmable, stable and scalable. Such an unconventional modality opens up avenues towards practical data storage and dual-mode data functions in biomolecular systems," the authors said.

"With DNA data storage entering the dawn of commercialization, the epi-bit framework demonstrates potential directions in parallel molecular information storage with prefabricated modularity."

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However, there is a long way to go before the technique can compete with mainstream computing. For a start, there is speed. Even with efforts to improve speed using epi-bit barcodes instead of DNA-sequence barcodes and an automated liquid-handling platform, the rate for writing data was 40 bits per second. An SSD might be expected to read and write at 200-550 MBps.

Meanwhile, Imburgia and Nivala point to questions about the long-term stability of methyl marks created using the technique.

Yet more challenges await in using the technique to create RAM, which allows random access to any part of stored data. "In the epi-bit system, the entire database would need to be sequenced to access any subset of the files, which would be inefficient using nanopore sequencing."

While the costs of the epi-bit approach were greater than those of current DNA data systems, that hurdle might be overcome with further process optimization and automation, the commentators said. ®

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[4] https://www.theregister.com/2021/01/12/e_coli_dna_data_storage/

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[6] https://www.nature.com/articles/s41586-024-08040-5

[7] https://www.theregister.com/2024/09/21/human_genome_5d_memory_crystal/

[8] https://www.theregister.com/2024/06/17/researchers_amber_like_polymer_storage/

[9] https://www.theregister.com/2021/09/15/microfluidic_processor/

[10] https://www.theregister.com/2021/01/12/e_coli_dna_data_storage/

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[12] https://whitepapers.theregister.com/



Martin Summers

And soon after commercial realisation, we will see the first biological real computer virus?

Just got to go vaccinate the PC...

Fruit and Nutcase

And soon after commercial realisation

That would be for the storage of porn

b0llchit

You mean, bacteria multiplying with sex?

Neil Barnes

Surely bacteria are asexual?

b0llchit

Not when porn is involved!

Mentat74

Well... They were talking about a chinese rubbing...

Evolution

b0llchit

Picture this, the natural biome interacting with the storage. Plenty opportunity for Frankenstein Monsters evolving from the data.

Dubious

ThatOne

Slow (DNA is a highly specialized WORM medium), not very resilient (decays), what is there not to like? There might be a reason Nature doesn't use DNA for RAM (aka "everyday memory"), just saying.

Re: Dubious

DJO

The main issue it's a bugger to read.

Nature uses transcriptase to copy segments to RNA fragments and then the ribosomes deal with those to make proteins etc. There other ways it handles DNA but that is the most common.

We have to use sodding great machines to duplicate and read the DNA strands, slowly, very slowly.

Fun fact - If you took all the cellular nuclear DNA from a human and stretched it out end-to-end. That person would be very dead. Also the strand would reach from here to the sun, roughly 13 times.

If you took ALL the DNA in a human including mitochondrial DNA, the DNA in all the bacteria and the various microscopic critters that live in and on us it would probably exceed 40 AU in length

There is a bog-standard way to combine several files in one - cpio. Or tar.
No need to bring Apple Shit-For-Design(tm)(r) when standard tools are quite
enough.

- Alexander Viro on linux-kernel