Our Labwork is constantly overseen by Ph.D. students, postdocs, and professors of our institute, the Interfaculty Institute of Biochemistry. All of them are very experienced in laboratory work, with expertise from genetics over molecular biology to structural biology. To ensure replicability, we document all of our work in our laboratory notebook.Our Team follows widely used laboratory protocols in an appropriate laboratory facility (biosafety level 1 laboratory, S1), as requested by German law ("Gesetz zur Regelung der Gentechnik (GenTG)," German Gene Technology Law and “Verordnung über die Sicherheitsstufen und Sicherheitsmaßnahmen bei gentechnischen Arbeiten in gentechnischen Anlagen (GenTSV)”, Genetic Technology Safety Regulations Act) to guarantee the safety of the researchers and the public.

The participation in regular meetings about laboratory safety is an essential element of the education at the University of Tuebingen. Additionally, all of our lab members were specially instructed about biosafety. The organisms used in our project, namely Escherichia coli, and Lactobacillus Johnsonii, are not only well-known and considered safe, they even occur naturally in the human intestine. Due to the absence of any pathogenic, toxigenic, or colonizing activities in the organisms and the harmless nature of our parts, there are no safety concerns during our work. Furthermore, the transformed Lactobacillus is nonviable outside a fructose-rich medium, which is another convincing fact regarding the absence of security concerns. In the case of success with the Lactobacillus, we would have tested our system with fructose-intolerant yeast, which has the same safety properties as E. coli and L. johnsonii. We do not plan to experiment with any other organisms. Our project is intended to be used in the laboratory. We are working at an S1 laboratory, which means there are several methods and guidelines to ensure the safety of researchers and the environment, but it limits research to well known and nonhazardous species.

The goal is to make the first step to fighting fructose intolerance. The engineered Lactobacillus will be able to uptake great amount of fructose, thereby reducing the fructose level of the surrounding. To accomplish that, we will overexpress the phosphofructokinase to allow a faster degradation of fructose. Glucose as a prime energy source of the cell will be sealed off by knocking out the glucose-6-phosphate isomerase and the glucose 6-phosphate dehydrogenase, thus leaving the Lactobacillus dependent on fructose. Transporters for sucrose and fructose will be overexpressed to ensure the energy supply of the cells and to drain the surrounding from all fructose.

All organisms we are using in our project are very well characterized and not known to pose any risk or danger to humans or the environment. This also applies to the BioBricks used in our system. According to the German Gene Technology Law, the bacteria, yeast, and recombinant DNA components are classified as S1 according to the German Gene Technology Law (GenTG). Our experiments are conducted under S1 conditions, which implies a lot of safety features. These conditions include the usual safety features of wearing rubber gloves and laboratory coats, sterilizing waste, regularly disinfecting the workspace, etc. The BioBricks designed by our team are not found toxic or dangerous by any means. None of the parts we use are known to have any negative or harmful effect on humans or other organisms.