What is iGEM ?iGEM
iGEM -international genetically engineered machine- is an international competition in synthetic biology that was founded by the MIT. In 2017, over 300 student teams are taking part and presenting their self-developed projects to the public. The excellent project attributions will be awarded by an international jury of scientists. The teams, companies, research facilities and other partners cooperate in a variety of ways every year.
But the iGEM Team Aachen is not restricted to synthetic biology, but combines it's project with fitting hardware projects, PR-activities and fundraising. We are interdisciplinarily composed of students from biotechnology, biology, engineering, informatics and economics to master these versatile challenges while working together for the next 9 months.
The iGEM-Team 2017iGEM-Team Aachen 2017
The Project 2017
The iGEM Team Aachen challenges an issue that became a global problem throughout the last years and is not restricted to developing countries anymore. Water shortage and salinization of freshwater originates from wasteful use of water, and due to climate change it will become an even more dramatic problem in the near future.
We will work on the possibilities of desalinating waste water ecologically and, different to current methods, cost- and energy efficient by accumulating sodium and chloride inside a microorganism.
The Aachen iGEM project 2017iGEM-Team Aachen 2017
To accomplish this, we will use an approach of synthetic biology.
Saccharomyces cerevisiae as yeast possesses salt- and osmotolerance mechanisms and will be used as a model organism in this year’s project. The tolerance of this organism towards salts like NaCl is in part based on the efflux of sodium and chloride out of the cell and the accumulation of these ions in the vacuole. This natural tolerance mechanism is now to be modified with the aid of synthetic biology in such a way that the salt efflux from the cell is minimized and the influx from the environment into the cytosol and further into the vacuole is maximized.
To this end, we will modify the transporters already existing in the yeast in the coming months in order to increase their efficiency. In addition, the regulation is altered in such a way that the cell permanently takes up salt, even if the physiological effects of it are rather negative for the metabolism of the organism. In order to maximize the overall salt intake process, additional transporters of the plant Arabidopsis thaliana are adapted for yeast, synthetically modified and integrated into the membranes of the yeasts vacuole.
Please feel free to visit the iGEM Aachen 2017 website at http://2017.igem.org/Team:Aachen
This year, we are again supported by the Schwaneberg Group.
iGEM Team 2016iGEM Aachen 2016
We are the iGEM Team 2016 of the RWTH University. iGEM stands for „international Genetically Engineered Machine” and is a worldwide competition for student groups in the framework of synthetic biology with planning and operating projects on their own.
Our team consists of 16 students of the courses Biotechnology, Biology, Computer Science and Biomedical Engineering. This includes bachelor and master students from RWTH Aachen. Like the other iGEM Teams, the iGEM Team 2016 is also a very international team and is composed of students from Germany, India and China.
During the next six months our team will deal with different strategies to inhibit proteases, while putting the focus on the widly used protease subtilisin. We especially want to achieve this with the strategy of photocaging and the integration of unnatural amino acids in different sides of the protein subtilisin for example in the linker sequence, the binding site and the active site.
During this project we get support from the Schwaneberg Group like the other iGEM Teams Aachen the two years before.