Our Journey

When we first saw that The National Institute of Chemistry was looking for team members to present the colours of Slovenia iGEM HS Division, we thought it would be a great opportunity to do what something we were interested in and learn something new. We applied to the call for applications and hoped for the best. Parts of the application procedure were writing a motivational letter, attending an interview, taking part in a personality test and, the toughest of them all, solve a scientific problem.
 14 months ago, we knew nothing about synthetic biology because we only learned the basics in our biology and chemistry classes. We had no clue how demanding the project is going to be at the time.

When we started with our team meetings in September and October 2014,  we first had to learn the basics of biochemistry and biotechnology.  Through autumn and winter we have had having lessons two afternoons per week after school. We learned about cloning, plasmids, PCR and biobricks. Moreover, we learned how to edit wiki pages, use bioinformatics programs and data bases. At the same time we were also studying the additional literature and developing our ideas. We learned about E. coli, conditions for its optimal growth and bioreactors. Finally, we got to enter the labs where we practiced basic lab techniques and protocols, such as pipetting with micropipettes. We also cut the vectors with restriction enzymes for the first time and tested our samples using agarose gel electrophoresis.  It needless to say how fascinated we were when we were actually able to see several pieces of DNA of different lengths.  It was a great experience because we were tutored by university professors and scientists who were really able to explain to us everything thoroughly.

Afterwards we decided to divide in two working groups: biotechnologists and synthetic biologists. Biotechnologists worked under the supervision of The National Institute of Chemistry while synthetic biologists worked under the supervision of The Faculty of Chemistry and Chemical Technology. We also held regular team meetings during which we organized our teamwork and exchanged our results and experience.
  When we first actually started working in the lab we wanted to obtain the genes needed for building our construct from a mixed culture which we knew also contained Clostridium. We wanted to do so because The Laboratory for Environmental Sciences and Engineering already used this culture for their own experiments and we wanted to make use of it as well. As our DNA purification from mixed culture was unsuccessful we decided to go a step further and order pure culture and purify the DNA out of it. However, this was also unsuccessful and we decided to order synthetic DNA segments from IDT Technologies. These arrived in late June and since then we spent more or less every day in the lab.

We spent the following months sweating in the lab. Our days consisted of cloning, doing colony PCRs, testing our samples, hoping for positive results of agarose gel electrophoresis and crying as this was rarely the case. At the same time we prepared different mediums to see what best suits for E. coli's growth, measured absorbance, worked in both aerobic and anaerobic conditions (the following were especially fun), carried out the ecotoxicological tests, isolated n-butanol, prepared different mediums again and analysed tons of results.

Besides the lab work we also filmed a short clip about our project and presented our project and principles of synthetic biology to a wider audience. We met the Slovenian prime minister while doing so and made sure he understood what we were trying to accomplish. We established our very first crowdfunding campaign on Indiegogo, wrote articles, collaborated with other iGEM teams, searched for sponsors and designed our wiki.

To be honest, we have never imagined how demanding it would be to manage such a project. In fact, it turned out to be much more than just a scientific research. Being a part of this project was a great opportunity to experience real-life scientific teamwork, develop organisational and leadership skills. On the other hand we had to overcome a lot of obstacles, from having troubles with bureaucracy to not being able to get our vectors into bacteriae. It was then when we realized only we are the ones responsible for the project and that it is on us to reach out for help. We learned that in the end you always have to do what you have to do, no matter how hard it may seem. Perhaps the crucial lesson of this summer was about the importance of collaboration with others or, to put it another way, to stick together through thick and thin.