Explainer: How Synthetic Biology is Redesigning LifeSynthetic biology (SynBio) is a field of science that involves engineering life for human benefit. It has the potential to reshape many facets of society—from the ways we produce food, to how we detect and cure diseases. It’s a fast-growing field of science. In fact, by 2026, the SynBio market’s global revenue is expected to reach $34.5 billion, at a CAGR of 21.9%. While this fascinating area of research is worth paying attention to, it might be daunting to wrap your head around—especially if you don’t come from a scientific background. With this in mind, here’s an introduction to synthetic biology, and how it works.
What is Synthetic Biology?As we touched on in the introduction, SynBio is an area of scientific research that involves editing and redesigning the biological components, systems, and interactions that make up life. By doing this, SynBio can grant organisms new abilities that are beneficial to humans. It’s similar to genetic engineering, however, it’s slightly more granular. While genetic engineering transfers ready-made genetic material between organisms, SynBio builds new genetic material from scratch. SynBio has applications across a myriad of fields, with research covering everything from space exploration to drug discovery. Here’s a look at five of its real-world applications:
1. Medical TechnologiesSynBio has a wide range of medical applications, including drug discovery, antibody production, and vaccine innovation (it’s been key in the fight against COVID-19). It also plays a significant role in “living drug” development, which is the use of living microbes to treat chronic or severe illnesses.
2. Sustainable EnergiesBiofuel, which is renewable energy that’s derived from living matter, could replace petroleum and diesel in the near future—and synthetic biology technology is helping develop fermentation processes that will produce biofuel more efficiently.
3. BioremediationBioremediation uses living organisms to restore polluted sites to their original condition. This field uses SynBio to try and make the decontamination process more efficient, and to expand the list of contaminants that bioremediation can target.
4. Food and AgricultureSynBio plays a significant role in cellular agriculture, which is the production of agricultural products directly from cells rather than livestock or plants. These modified foods might have higher nutritional value, or might be void of allergens. For instance, this can be used to make plant-based burgers taste more like meat.
5. Space Systems and ExplorationSynthetic biology and 3-D printing have huge potential to sustain life during space exploration. Using SynBio technology, cells and bacteria could be modified to produce a myriad of materials—from plastic to medicine, and even food—and astronauts could print these synthetically engineered materials on-demand while in space.
Zooming in: the Science Behind Synthetic BiologyNow that we’ve touched on SynBio’s use in a wide range of industries, let’s dive into the science behind it. In order to understand the mechanics of SynBio, it’s important to explore the relationship between DNA and protein production. Proteins are the drivers of life in a cell—they’re responsible for carrying out all of life’s functions. They are created through a process called protein synthesis, which relies heavily on DNA. Why is DNA so important in protein production? Because it houses all the information a cell needs for protein synthesis. Once a protein is formed, it embarks on a complex journey throughout the cell, interacting with a number of other proteins and cellular components to perform functions needed for the cell’s survival. This process of protein production and cellular interaction is an example of a biological system. And it’s this biological system that synthetic biologists investigate, and try to manipulate.
The Five Main Areas of ResearchAfter combing through the literature, we identified five major areas of SynBio research:
- In silico Synthetic Biology Meaning “via computer”, this area of SynBio research uses computational simulations to design and predict new biological systems. It’s like using a drawing board before starting a project.
- “Unnatural” Molecular Biology An area of research focused on altering the smallest unit of DNA—nucleotides.
- Bioengineering This area of research deals with larger segments of DNA like genes or chromosomes, and sometimes other cell components that interact with DNA. It aims to create new proteins or protein systems and is the most popular area of SynBio research.
- Synthetic Genomics Focused on altering and manipulating whole genomes (which is the complete set of a cell’s DNA).
- Protocell Synthetic Biology This field of research aims to construct whole cells. This is a step towards creating organisms that are entirely synthetic
Fatburger’s CEO on the Future of Vegan Fast Food
Public Companies2 days ago
Animal Rebellion Swarm Up Government Building In COP26 Protest
Plant-Based16 hours ago
Should You Buy the Dip in Beyond Meat Stock? Analyst Weighs In
Public Companies18 hours ago
How to Counteract the Impact Food Packaging Has on Our Waste Profile
Plant-Based1 day ago
25+ Lab Grown Meat Companies: The Complete List
Public Companies1 day ago
Where to eat: 31 best midnight supper spots in SG for hungry insomniacs
Plant-Based18 hours ago
Vegan Halloween Cupcakes
Plant-Based1 day ago
Oatly Moves Into Sustainable Fashion With Vintage Clothes Drop: With More To Come
Plant-Based1 day ago
‘Stranger Things’ Noah Schnapp Just Launched Vegan Nutella
Plant-Based4 hours ago
Race to Save the Oceans: Fish-Free Seafood Companies Raise $116 Million in Last Six Months
Private Companies1 day ago