how does synthetic biology work?

hint: it has a lot to do with harnessing the power of bacteria, like E. coli. Read More

Synthetic biology, as we’ve previously defined it, is a testament to nature, science, human ingenuity, and imagination. At the heart of this transformative field lies the idea that we can engineer living organisms to produce molecules found in nature and new ingredients with a specific function.

One of the organisms that has emerged as a powerhouse for manufacturing industrial, medical, and beauty products is the humble bacterium Escherichia coli, or E. coli, the most studied bacteria.

microscope image of Escherichia coli (E. coli)

Given how instrumental E. coli has been in foundational biological research, it’s no surprise that scientists have harnessed its natural capabilities, transforming it into an easy-to-customize platform for manufacturing valuable medicines and ingredients. 

E. coli’s role as a microscopic factory allows it to produce vegan versions of the ingredients we know and love. Traditional sources of animal-derived ingredients, such as carmine in food coloring, can be replaced by alternatives produced by genetically engineered E. coli. It can be programmed to manufacture compounds without the need for animals, offering vegan-friendly alternatives without compromising on quality or efficacy.

THE PROCESS OF MICROORGANISMS’ DNA BEING USED TO EXPRESS DIFFERENT GENES

Synthetic biology also allows us to combine science with creativity to create new proteins inspired by nature to solve complex problems. With each engineered breakthrough, we inch closer to a more sustainable future that offers products that keep us healthier while unlocking new forms of personal creativity. 

We’ll be continuing our into synthetic biology deep dive here on the blog. Check back to learn more about this exciting new blend of science and imagination, and its impact on the evolution of expression. 

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