Synthetic biology is the application of engineering principles to living systems to create new biological capabilities: from bacteria that make insulins, microorganisms that generate biofuels, or processes that transform CO₂ into materials. In other words: to move from studying life to designing it.
The title of the Future Trends Forum – “Synthetic biology is going digital”– It points to a key transformation. Some experts are already talking about digital biology to describe a field in which DNA, data, artificial intelligence, automation and biological synthesis are beginning to be integrated into increasingly powerful design platforms. The idea helps explain the convergence between biology and digital technologies, but it’s best not to take the analogy too far: biology can be designed with digital tools, but it still happens in living, physical, evolutionary, and hard-to-predict systems.
For centuries, humanity has used living organisms without fully understanding their inner workings: we fermented with yeast to produce bread, we selected citrus fruits to make their fruits sweeter generation after generation, and we domesticated wolves until their descendants became docile dogs. All of these uses took place long before we knew what a gene was. Later we learned to read DNA, that four-letter code where living beings store instructions. Today we are entering a different stage: life is beginning to be treated as a technological platform.
As happened before with electricity, chemistry or computing, synthetic biology seeks to turn a natural phenomenon into a technological basis. The difference is that here the raw material is not silicon, steel or oil. It’s life.