Team:KULeuven/Zandbak/Home
From 2008.igem.org
Work to be done:
- Fill up the boxes with text and content!!
- Fun stuff
- Dilbert
- Countdown/Number Visitors/...
- Move css files internal
- CSS remark: smaller font tabs
- ...
Global:
- Breadcrumb navigation?
- [http://www.eastonmass.net/tullis/WebsiteNavigation/WebsiteNavigationPaper.htm A study of website navigation =P]
- [http://www.efuse.com/Design/navigation.html Navigation Basics]
- [http://www.smashingmagazine.com/2008/02/26/navigation-menus-trends-and-examples/]
- Wiki faq, tips and tricks for other teams?
- Global css file (h1, h2, ... p, ...): visit Team:KULeuven/Zandbak/Global
- ul needs 1em more paddin-left;
- Error: use of # in lists needs padding
- Error: concreties -> Project D
- Error: concreties -> reset mechanism het prentje
- Error: project -> Summary needs img + img[float="left"]: margin-left: 0;
- Error: Components bar
- Error: h3 needs border-bottom applied to only span child element
- Remark: error in freezer
- Remark: images need extra padding to push back text
- Remark (unrelated): output icon modeling is small
- ...
Wellcome to the KULeuven 2008 iGEM team page!
The 2008 iGEM team of the Katholieke Universiteit Leuven works on a bacterial drug delivery system, for instance for the production of a peptide such as vasoactive intestinal peptide as a potential treatment for Crohn's disease. The bacterial drug delivery system will have several advantages over classical drugs. These are (a) the bacterium will produce the exact amount of drug necessary for each individual by means of a feedback control mechanism, (b) the bacterium will die upon a long symptomless period and (c) a possible development towards drugs being taken up in the bloodstream.
...
BioScenter
Synthetic biology is a new challenge in biosciences. It combines biology and engineering principles to design and build new biological functions and systems. Examples are abound: cancer cell invading bacteria, microbes that take pictures, antimalarial drug producers,... The advantage of using living systems for these purposes is that, once they are designed and built, they are self-reproducible. The challenge, however lies exactly within the design and construction: making biological circuits and devices as robust and predictive as their electrical counterparts. ...
The international Genetically Engineered Machine competition (iGEM) or iGEM competition is a synthetic biology competition for multidisciplinary teams of undergraduate students. It was first organized in 2004 by Drew Endy, Randy Rettberg and Tom Knight of MIT with two goals in mind: to yield new ideas in synthetic biology and to form the future researchers in this new scientific community. Whereas 5 US teams competed in 2004, the 2007 edition already had 750 students and advisors grouped in 54 teams from 19 countries. This year, the competition already counts 83 teams!
The core of the iGEM competition is to design and build a “new genetic machine” with BioBricks. BioBricks are standardized, off the shelf biological parts that are used by genetic network designers. All BioBricks that were made during previous iGEM competitions are registered and documented in the Registry of Standard Biological Parts. Each iGEM competition thus starts from the efforts of the previous years.
Leuven
The Katholieke Universiteit Leuven (KULeuven) was founded almost six hundred years ago. The university's academic fame has attracted scholars and scientists as Justus Lipsius, Gerard Mercator and Andreas Vesalius who have all made valuable contribution to the European intellectual life. The KULeuven can look back on a glorious past, but it also moves with the times. The university's educational concept is modern, with research activities focused on the needs and aspirations of contemporary people and society. The KULeuven is famous not just within the borders of Belgium, but far beyond as well. Being a very lively city of and for students, Leuven aspires to maintain that reputation. In contrast to most university cities, Leuven does not have a closed campus. The university buildings are spread troughout the city and were originally built for completely different purposes.
The Team
- Maarten Breckpot
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Maarten Breckpot
Studies:
1st Master of Applied Sciences and Engineering – Mathematical Engineering
Country:
Belgium - Nick Van Damme
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Nick Van Damme
Studies:
1st Master of Applied Sciences and Engineering – Mathematical Engineering
Country:
Belgium - Benjamien Moeyaert
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Benjamien Moeyaert
Studies:
3rd Bachelor of Biochemistry and Biotechnology
Country:
Belgium - Stefanie Roberfroid
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Stefanie Roberfroid
Studies:
3rd Bachelor of Bioscience Engineering – Biomolecular Engineering
Country:
Belgium - Dries Vercruysse
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Dries Vercruysse
Studies:
1st Master of Applied Sciences and Engineering - Nanoscience and Nanotechnology
Country:
Belgium - Andim Doldurucu
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Andim Doldurucu
Studies:
1st Master of Bioscience Engineering – Nanoscience and Nanotechnology
Country:
Turkey - Hanne Tytgat
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Hanne Tytgat
Studies:
3rd Bachelor of Biochemistry and Biotechnology
Country:
Belgium - Elke Van Assche
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Elke Van Assche
Studies:
3rd Bachelor of Bioscience Engineering – Biomolecular Engineering
Country:
Belgium - Jan Mertens
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Jan Mertens
Studies:
1st Master of Bioscience Engineering – Biomolecular Engineering
Country:
Belgium - Nathalie Busschaert
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Nathalie Busschaert
Studies:
3rd Bachelor of Chemistry
Country:
Belgium - Jonas Demeulemeester
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Jonas Demeulemeester
Studies:
1st Master of Biochemistry and Biotechnology
Country:
Belgium - Antoine Vandermeersch
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Antoine Vandermeersch
Studies:
2nd and 3rd Bachelor of Applied Sciences and Engineering – Electrical and Materials Engineering
Country:
Belgium
The Project
The 2008 iGEM team of the Katholieke Universiteit Leuven works on a bacterial drug delivery system, for instance for the production of a peptide such as vasoactive intestinal peptide as a potential treatment for Crohn's disease. The bacterial drug delivery system will have several advantages over classical drugs. These are (a) the bacterium will produce the exact amount of drug necessary for each individual by means of a feedback control mechanism, (b) the bacterium will die upon a long symptomless period and (c) a possible development towards drugs being taken up in the bloodstream.
... Our project consists of several subsystems. A detailed description about every subsystem can be found by clicking on one of the following pictograms
scroll over the pictograms to get a short description or click on them to go to the corresponding page