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Blockchains work like DNA in cells, scientists say

Blockchains work like DNA: A fractal-like green and yellow geometric shape with long arms, apparently made of tiny spheres.
Blockchains work like DNA. Here is a sample of mathematically generated self-organization. It appears similar to the self-organization of some biological systems: for example, DNA as it assembles itself into chromosomes. Image via O. Abramov/ Planetary Science Institute.

A new analogy for ‘life’

Suppose you were studying the possibility of life on other planets. You might begin wondering, what is life? What if you then noticed that some computational systems – systems used for making math-based calculations – share similarities with biological life forms? That might have been the path to a new paper published this month (August 9, 2021) in the peer-reviewed journal Origins of Life and Evolution of Biospheres. In the paper, astrobiologist Oleg Abramov at the Planetary Science Institute and two other scientists proposed what they’re calling a novel definition of life. For example, they said, blockchain systems – the technology behind cryptocurrencies – self-organize in a way similar to how DNA organizes itself into chromosomes, ultimately driving biological evolution. Abramov commented:

This work presents evidence that the order observed in biological systems is fundamentally computational. A promising direction for future research is development of mathematical theories that calculate how biological systems order themselves.

Blockchains work like DNA

Abramov and his team zeroed in on blockchain-based systems as a prime example. In its most basic terms, a blockchain is a digital ledger that can store data. For example, it can record information about cryptocurrency transactions, NFT ownership, and more. Forbes has pointed out that while any conventional database can store this sort of information, blockchain is unique in that it’s completely decentralized. Abramov explained:

The blockchain is an append-only data structure composed of subunits called blocks. [The blocks] are permanently ‘chained’ together … In practice, [the blockchain] is an immutable medium. It contains instructions in the form of computer code and is replicated across thousands of nodes, much like DNA [is replicated] in cells.

The word nodes, by the way, refers to the fact that – rather than a central administrator maintaining a computer in one location – many identical copies of a blockchain database exist in a large network of multiple computers. These many computers are the nodes. And they’re analogous – within the framework of this study – to cells, which contain many identical copies of DNA.

What is life?

Abramov and his colleagues are not suggesting that blockchains are alive, in any sense of that word. But they are suggesting that blockchains exhibit some properties of life. A blockchain responds to its computational environment. It grows, adapts, self-regulates, and replicates in an operationally closed system, much as DNA does. The researchers wrote that, for this reason, blockchain technology can satisfy a theoretical definition of life. Abramov said:

For example, our observations reveal a number of functional and structural similarities between the blockchain and DNA, a self-replicating molecule that is the genetic blueprint for all known life.

What’s more, a blockchain system possesses possible advantages over biological life. For example, a blockchain system can pass traits down to its “offspring” even more efficiently than biological lineages. Once inherited, these traits are enhanced to self-direct their evolution. And unlike our carbon-based human lives, technological forms of life could theoretically enjoy a potentially unlimited lifespan.

Blockchain lifeforms and AI

Blockchain isn’t the only life-like technology in our modern world, the study authors wrote. Artificial intelligence (AI), which is based on artificial neural networks, coordinates operations in the same way a brain does. Is it possible that a product of their combination – a wholly new cybernetic system – could even be on the horizon?

While this train of thought might sound bizarre, a fundamental shift in scientific paradigms may be inevitable with the technological revolution in AI and digital currency on the rise, the study suggests. Who knows? Self-regulating systems might be on track to becoming indistinguishable from the biological life we study every day. Abramov has expressed that, if anything, analyzing computational and biological systems together is a promising direction for future research for scientists who study life in all its forms.

Bottom line: Computational systems share a lot of similarities with biological life forms. Blockchain in particular exhibits some properties of life and may satisfy the definition of life, at least in theory, according to a recent study.

Source: Emergent Bioanalogous Properties of Blockchain-based Distributed Systems

Via The Planetary Science Institute

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