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Team:KULeuven/Safety
From 2011.igem.org
How safe is “safe enough”?
1. Introduction
Synthetic biology is a way of engineering organisms that do not exist in nature, by simplifying the complexity of biological systems through abstraction using standard building blocks, called Biobricks. While creating an organism, the researchers and the students have to think twice whether their actions are safe for the environment and public.
In E.D. Frosti we added several mechanisms to ensure the biosafety. We thought about the dangers E.D. Frosti could entail and the impact it would have on the environment and even for mankind if something goes wrong. But the question remains: How safe is “safe enough”?
2. Safety in the lab
The Irish novelist S. Lover said:” It’s better to be safe than sorry”. While working in the lab, this is the key sentence that the K.U. Leuven iGEM team 2011 kept in mind. We are working in a laboratory with biosafety level 1 because the host organisms we use are non-infectious. Every student working in the laboratory attended and passed the course ‘ safety and laboratory practice .[1] We apply the standard rules of Good Laboratory Practices; we always wear a lab coat, lab glasses and if using chemicals or handling organisms, we wear gloves. In addition, a member of the safety institution of our university ‘Health – Safety – Environment’ (HSE) or the advisors are constantly present to guide, assist and help the students. We reported the project to our department by filling out the forms ‘risk assessment for experiment with hazardous biological materials’. In this form we considered the danger of working with genetically modified organisms.
3. Safety and the environment
Marcus Schmidt wrote a chapter: “Do I understand what I can create?” [2] Synthetic biology opened a whole new world for scientists where they can ‘try’ to create everything they have ever dreamed of. There are many remarkable ideas, from an organism that detects when people get sick and cure them immediately, such as Dr. coli, to bacteria that fill micro cracks in concrete such as the Bacillafilla. [3, 4] The aim of these projects was to help people and improve the quality of their life.
But we have to keep in mind that there are also people who may not have the best intentions when creating a genetically manipulated organism. Though biosecurity – the prevention of intentional release of pathogens and toxins – is not something we can control, it is important to think about what happens if our creation falls in the hands of the wrong people. [2] And finally, we consider that even when we have good intentions, we can still, unintentionally, create something really dangerous.
The strain E. coli that we are using, MG1655, is a derivate of K-12 and has the same properties. E.coli K-12 normally doesn’t colonize the human intestine. This strain is used commercially and has not any known adverse effects on human, animals or the environment. If these bacteria were to be exposed to the environment, they would have little chance to survive. (1) Indeed, they would have to compete with other organisms for nutritional sources and E. coli would lose this competition since the other organisms are adapted to their habitat, while E. coli is adapted to live in the mammalian digestive system. [5, 6, 7]
The basic idea of our project is to make the bacteria E.D. Frosti, which makes ice nucleating proteins or anti-freeze proteins, and then kills itself. Afterwards, we would add the bacteria with the ice nucleating proteins on their membrane in cold water, (the bacteria only acts as a physical carrier of the proteins) which allows the water to freeze faster, more crystallized and at a higher temperature. On the other hand, bacteria coated with the anti-freeze protein can be used to induce ice melting, so e.g. that instead of sprinkling salt on the roads, the bacteria can be sprinkled out. But if something went wrong in our project, this could have major consequences for nature and mankind. We worked out our biosafety issues with the Fault Tree Analysis theory. This method defines unwanted scenarios and traces them backward to the necessary precautions that are needed to avoid these failures. [2]
