DNA-Level Encryption Developed by Researchers to Protect the Secrets of Bioengineered Cells

The biotech industry's engineered cells could become an $8 trillion market by 2035, notes Phys.org. But how do you keep them from being stolen? Their article notes "an uptick in the theft and smuggling of high-value biological materials, including specially engineered cells." In Science Advances, a team of U.S. researchers present a new approach to genetically securing precious biological material. They created a genetic combination lock in which the locking or encryption process scrambled the DNA of a cell so that its important instructions were non-functional and couldn't be easily read or used. The unlocking, or decryption, process involves adding a series of chemicals in a precise order over time — like entering a password — to activate recombinases, which then unscramble the DNA to their original, functional form...

They created a biological keypad with nine distinct chemicals, each acting as a one-digit input. By using the same chemicals in pairs to form two-digit inputs, where two chemicals must be present simultaneously to activate a sensor, they expanded the keypad to 45 possible chemical inputs without introducing any new chemicals. They also added safety penalties — if someone tampers with the system, toxins are released — making it extremely unlikely for an unauthorized person to access the cells.
"The researchers conducted an ethical hacking exercise on the test lock and found that random guessing yielded a 0.2% success rate, remarkably close to the theoretical target of 0.1%."

Monsanto

[unrealmp3]

Monsanto must be drooling at the concept, on which they could use the DMCA if someone attenpt any kind of DRM circumvention.

Re:

[usedtobestine]

DId they try fluoroantimonic acid as a key?

Re:

[dsgrntlxmply]

Looking this entirely heinous stuff up, I found the following compelling product review on Sigma-Aldrich: "It was absolutely too great. And i just prefer it to be single distillation not triple".

Tools of abundance misused from scarcity fears

[Paul Fernhout]

Time to trot out my sig again, sigh: "The biggest challenge of the 21st century is the irony of technologies of abundance in the hands of those still thinking in terms of scarcity."

Biotech if used well could make the Earth near a paradise of abundance for all. Or people could create and enforce artificial scarcity with biotech. People make choices every day about which future they are working towards.

As Bucky Fuller wrote: "Whether it is to be Utopia or Oblivion will be a touch-and-go relay race right up to

Who would guess randomly?

[drinkypoo]

The unlocking, or decryption, process involves adding a series of chemicals in a precise order over time [...] The researchers conducted an ethical hacking exercise on the test lock and found that random guessing yielded a 0.2% success rate

It's really not decryption, is it? Unlocking remains a pretty good description. But more importantly, who would guess randomly? You should be able to model the interactions by now and determine which of them are likely to work. Your attackers are likely to be people with the ability to sequence your creation anyway.

Re:Who would guess randomly?

[phantomfive]

You should be able to model the interactions by now and determine which of them are likely to work.

The decryption works like this:

1) You have a long strip of RNA.
2) The "password" is an enzyme that cuts a piece out of the RNA (and fuses the loose ends).
3) If you cut the RNA in the correct four places, then you end up with the correctly "unencrypted" RNA strip, which then goes on to create the desired structure in the cell.

It's not strong encryption, but it's probably as good as a four digit pin.

Re:

[tragedy]

So not only is it ridiculously unethical, it's utterly pointless and a sad waste and inconvenience or worse for everyone involved? So, a typical DRM scheme.

Makes patents obsolete

[marcle]

This way, Big Pharma can retain a lock on new miracle drugs at high prices for as long as they want.

Re: Makes patents obsolete

[paul_engr]

No, they'll charge you $175 for the privilege of having your sweet blood extracted

Not even over 9000.

[Gravis Zero]

only the exact passcode worked, showing that the odds of an unauthorized person guessing it had dropped to just two in 990, or 0.2%

If you have a real lab, is 1000 different attempts really that hard to do? By hand, it would be a pain but you can automate the process, right?

Also, what if you sequence the encrypted DNA, can you not simply simulate the application of the chemicals? Running about 1000 detailed simulations doesn't strike me as being too computationally intensive to pull off.

\o/

[easyTree]

Cellular DRM. God bless Amerikkka.

Yeah, no

[paul_engr]

We don't need this. Cells are fucking nature. Stop fucking with nature

Re:

[Schoenlepel]

You've been heard... and ignored.

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[Mister Transistor]

This is just a wrapper. They will use it to lock down an actual life saving solution, so unless you pay the literal blood money, you can't access the cure - or even worse, poison yourself or your patient in the process.

No this is much worse than a non-solution to a non-problem, it's a distinct obstacle to sharing, distributing or using an actual solution to a real problem.

Not impressive

[gweihir]

This sounds like typical amateur-level "cryptography", i.e. the kind that experts cannot even be bothered to attack because it is too easy.

Re:

[tragedy]

Look, the codes are printed in dark red on light red in the manual. There's no way anyone could photocopy that.