Lights, Cameras, CRISPR: Biologists Use Gene Editing to Store Movies in DNA – Scientific American

Posted: July 13, 2017 at 9:44 am

Internet users have a variety of format options in which to store their movies, and biologists have now joined the party. Researchers have usedthe microbial immune system CRISPRCasto encode a movie into the genome of the bacteriumEscherichia coli.

The technical achievement, reported on July 12 inNature, is a step towards creating cellular recording systems that are capable of encoding a series of events, says Seth Shipman, a synthetic biologist at Harvard Medical School in Boston, Massachusetts. While studying brain development, Shipman became frustrated by the lack of a technique to capture how cells in the brain take on distinct identities. This inspired him to explore the possibility of making cellular recorders.

Cells have this privileged access to all sorts of information, he says. I would like to have these molecular recordings functioning in the developing nervous system and recording information.

To develop such a system, however, his team would need to establish a method for recording hundreds of events in a cell. Shipman and his colleagues, including Harvard geneticist George Church, harnessed the CRISPRCas immune system best known for enabling researchers to alter genomes with relative ease and accuracy.

Shipmans team exploited the ability tocapture snippets of DNA from invading virusesand store them in an organized array in the host genome. In nature, those snippets then target an enzyme to slice up the invaders DNA. (It is typically this targeted DNA cutting that geneticists harness for gene editing.)

The team designed its system so that these snippets corresponded to pixels in an image. The researchers encoded the shading of each pixelalong with a barcode that indicated its position in the imageinto 33 DNA letters. Each frame of the movie consisted of 104 of these DNA fragments.

The movie that the researchers selected consisted of five frames adapted from British photographer Eadweard MuybridgesHuman and Animal Locomotionseries. The photos show a mare named Annie G. galloping in 1887.

The team introduced the DNA intoE. coliat a rate of one frame per day for five days. The researchers then sequenced the CRISPR regions in a population of bacteria to recover the image. Because the CRISPR system adds DNA snippets sequentially, the position of each snippet in the array could be used to determine the original frame to which the snippet belonged.

The system is a long way from becoming the recorder of which Shipman dreamt while studying the brain. Substantial technological advances are needed to reach that point, notes bioengineer Randall Platt at the Swiss Federal Institute of Technology (ETH) Zurich in Basel. Because no single cell takes up more than one DNA snippet from each frame, the information for the movie is stored across populations of cells. And no one has yet transferred the CRISPR arrays into mammalian cells. Its full of limitations, but this is pioneering work that theyre doing, he says. Its elegant.

Other CRISPRCas systems can convert RNA into DNA that is then inserted into the CRISPR array[2]. This could open up the door to using the arrays to track gene expression without cracking cells open to remove their RNA, Platt notes.

Victor Zhirnov, chief scientist at the Semiconductor Research Corporation in Durham, North Carolina, calls the work revolutionary, and hopes to start tinkering with the technique at his research foundation. Its like this is the first aeroplane flown in 1903: it was just a curiosity, says Zhirnov. But ten years from that, we had aeroplanes almost like what we have today.

This article is reproduced with permission and wasfirst publishedon July 12, 2017.

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Lights, Cameras, CRISPR: Biologists Use Gene Editing to Store Movies in DNA – Scientific American

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