Scientists preserve DNA in an amber-like polymer (2025)

In the movie "Jurassic Park," scientists extracted DNA that had been preserved in amber for millions of years, and used it to create a population of long-extinct dinosaurs.

Inspired partly by that film, MIT researchers have developed a glassy, amber-like polymer that can be used for long-term storage of DNA, whether entire human genomes or digital files such as photos.

Most current methods for storing DNA require freezing temperatures, so they consume a great deal of energy and are not feasible in many parts of the world. In contrast, the new amber-like polymer can store DNA at room temperature while protecting the molecules from damage caused by heat or water.

The researchers showed that they could use this polymer to store DNA sequences encoding the theme music from Jurassic Park, as well as an entire human genome. They also demonstrated that the DNA can be easily removed from the polymer without damaging it.

"Freezing DNA is the number one way to preserve it, but it's very expensive, and it's not scalable," says James Banal, a former MIT postdoc. "I think our new preservation method is going to be a technology that may drive the future of storing digital information on DNA."

Banal and Jeremiah Johnson, the A. Thomas Geurtin Professor of Chemistry at MIT, are the senior authors of the study, published in the Journal of the American Chemical Society. Former MIT postdoc Elizabeth Prince and MIT postdoc Ho Fung Cheng are the lead authors of the paper.

Capturing DNA

DNA, a very stable molecule, is well-suited for storing massive amounts of information, including digital data. Digital storage systems encode text, photos, and other kind of information as a series of 0s and 1s. This same information can be encoded in DNA using the four nucleotides that make up the genetic code: A, T, G, and C. For example, G and C could be used to represent 0 while A and T represent 1.

DNA offers a way to store this digital information at very high density: In theory, a coffee mug full of DNA could store all of the world's data. DNA is also very stable and relatively easy to synthesize and sequence.

In 2021, Banal and his postdoc advisor, Mark Bathe, an MIT professor of biological engineering, developed a way to store DNA in particles of silica, which could be labeled with tags that revealed the particles' contents. That work led to a spinout called Cache DNA.

One downside to that storage system is that it takes several days to embed DNA into the silica particles. Furthermore, removing the DNA from the particles requires hydrofluoric acid, which can be hazardous to workers handling the DNA.

To come up with alternative storage materials, Banal began working with Johnson and members of his lab. Their idea was to use a type of polymer known as a degradable thermoset, which consists of polymers that form a solid when heated. The material also includes cleavable links that can be easily broken, allowing the polymer to be degraded in a controlled way.

"With these deconstructable thermosets, depending on what cleavable bonds we put into them, we can choose how we want to degrade them," Johnson says.

For this project, the researchers decided to make their thermoset polymer from styrene and a cross-linker, which together form an amber-like thermoset called cross-linked polystyrene. This thermoset is also very hydrophobic, so it can prevent moisture from getting in and damaging the DNA. To make the thermoset degradable, the styrene monomers and cross-linkers are copolymerized with monomers called thionolactones. These links can be broken by treating them with a molecule called cysteamine.

Because styrene is so hydrophobic, the researchers had to come up with a way to entice DNA -- a hydrophilic, negatively charged molecule -- into the styrene.

To do that, they identified a combination of three monomers that they could turn into polymers that dissolve DNA by helping it interact with styrene. Each of the monomers has different features that cooperate to get the DNA out of water and into the styrene. There, the DNA forms spherical complexes, with charged DNA in the center and hydrophobic groups forming an outer layer that interacts with styrene. When heated, this solution becomes a solid glass-like block, embedded with DNA complexes.

The researchers dubbed their method T-REX (Thermoset-REinforced Xeropreservation). The process of embedding DNA into the polymer network takes a few hours, but that could become shorter with further optimization, the researchers say.

To release the DNA, the researchers first add cysteamine, which cleaves the bonds holding the polystyrene thermoset together, breaking it into smaller pieces. Then, a detergent called SDS can be added to remove the DNA from polystyrene without damaging it.

Storing information

Using these polymers, the researchers showed that they could encapsulate DNA of varying length, from tens of nucleotides up to an entire human genome (more than 50,000 base pairs). They were able to store DNA encoding the Emancipation Proclamation and the MIT logo, in addition to the theme music from "Jurassic Park."

After storing the DNA and then removing it, the researchers sequenced it and found that no errors had been introduced, which is a critical feature of any digital data storage system.

The researchers also showed that the thermoset polymer can protect DNA from temperatures up to 75 degrees Celsius (167 degrees Fahrenheit). They are now working on ways to streamline the process of making the polymers and forming them into capsules for long-term storage.

Cache DNA, a company started by Banal and Bathe, with Johnson as a member of the scientific advisory board, is now working on further developing DNA storage technology. The earliest application they envision is storing genomes for personalized medicine, and they also anticipate that these stored genomes could undergo further analysis as better technology is developed in the future.

"The idea is, why don't we preserve the master record of life forever?" Banal says. "Ten years or 20 years from now, when technology has advanced way more than we could ever imagine today, we could learn more and more things. We're still in the very infancy of understanding the genome and how it relates to disease."

The research was funded by the National Science Foundation.

Scientists preserve DNA in an amber-like polymer (2025)

FAQs

Scientists preserve DNA in an amber-like polymer? ›

The glassy, amber-like polymer can be used for long-term storage of DNA, such as entire human genomes or digital files such as photos. Caption: MIT researchers have devised a way to encapsulate DNA into a thermoset polymer known as cross-linked polystyrene.

Can you preserve DNA in amber? ›

Rigorous attempts to reproduce these DNA sequences from amber- and copal-preserved bees and flies have failed to detect any authentic ancient insect DNA. Lack of reproducibility suggests that DNA does not survive over millions of years even in amber, the most promising of fossil environments.

What new polymer have MIT scientists developed to store DNA? ›

To address the DNA storage concerns, the MIT researchers developed Thermoset-REinforced Xeropreservation (T-REX) method. This technique stores DNA in a glassy, amber-like polymer at room temperature and protects DNA from heat and water damage.

How is DNA preserved? ›

Among the most often used preservation method of samples collected for DNA analyses is freezing. Freezing at −80 °C or in liquid nitrogen (−196 °C) [11], [13] is most often used for long term storage; for short term storage −20 to −28 °C is preferred [10], [14].

Can a human be stored in amber? ›

Anything can be preserved in Amber. But the problem is you need a huge amount of amber to do that. And getting that much amber is difficult. Another problem is Human have soft-outer tissue coated with lots of microorganism.

Could you preserve a human in amber? ›

Eventually, the resin will turn to amber. The only problem is that you would need to find a very large… tree, because the amount of amber created by this process is generally quite small. It might be possible to fossilise your head, but probably not your whole body.

What is the new DNA technology? ›

The next level of DNA advancement is sometimes called “next generation sequencing,” Gamette said. He said the sensitive and sophisticated technology allows forensic scientists to do more with less DNA. “What we're also looking at, is more sequencing in the human genome and looking specifically at that individual's DNA.

What is the future storage of DNA? ›

Harvard scientists estimated a single gram of DNA can hold around 215 petabytes of information. It's also extremely stable, meaning it could outlast mechanical or digital storage methods by decades or more, and it's not like the format is going to change.

What polymers are used in gene therapy? ›

Typical examples of biodegradable polysaccharides for gene-delivery applications include chitosan (CS), hyaluronic acid (HA), dextran, and β-cyclodextrin (β-CD). Their chemical structures are shown in Figure 3. Figure 3 Chemical structures of natural biodegradable polymers for gene delivery.

How do you preserve DNA for millions of years? ›

With their “T-REX” method, DNA embedded in the polymer could be used for long-term storage of genomes or digital data such as photos and music.

How long does preserved DNA last? ›

The molecule of life has a lifespan of its own. A study of DNA extracted from the leg bones of extinct moa birds in New Zealand found that the half-life of DNA is 521 years. So every 1,000 years, 75 per cent of the genetic information is lost. After 6.8 million years, every single base pair is gone.

Who has the oldest human DNA in the world? ›

These cases of extreme DNA preservation are rare and share a few important factors in common: the specimens are found in very cold, very dry environments, typically buried in permafrost or frozen in caves. The oldest hominin DNA recovered comes from a Neanderthal around 400,000 years old (Meyer et al.

Can you preserve anything in amber? ›

Collectors and scientists have found not just bugs entombed in tree resin, but even animals as large as lizards, frogs and salamanders can be preserved in impressive detail. Skin, scales, fur and feathers are just some of the incredibly detailed features found in amber.

Can DNA samples from insects preserved in amber can date back? ›

DNA samples from insects preserved in amber can date back to before the time of the dinosaurs, which died out 65 million years ago. George Poinar of Oregon State University, for example, has even extracted muscle tissue from a 125-million-year-old Lebanese weevil.

Can blood be preserved in amber? ›

Two monkeys grooming each other about 20-30 million years ago may have helped produce a remarkable new find - the first fossilized red blood cells from a mammal, preserved so perfectly in amber that they appear to have been prepared for display in a laboratory.

Can amber preserve an entire organism? ›

What is an amber ? This is another type of fossilization where the organism is entrapped in a biologically inert environment and it is preserved wholly. For the insects, which frequently occur in this type of fossilization, "chitinous skeletons are little altered, but the soft inner tissues are missing."

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