Team:LMU-Munich/Why Beadzillus

From 2012.igem.org

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All types of filters are filled with some type of matrix which determine the function of the filter. To maximize the surface in a miminal volume, beads are commonly applied in any kind of filters. These microbeads have a certain size and can display protein on their surface for functional use of them. Then the feature of the protein characterize the characteristics of the filter. The coupling of proteins to the beads is based on affinity binding, for example nickle NTA-tags where the protein which carrys the histidin tag binds to the nickel ion.Several companies offer such microbeads with proteins coupled to their surface by using affinity tags.
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All types of filters are filled with some type of matrix which determine the function of the filter. To maximize the surface in a minimal volume, beads are commonly used in all types of filters. These microbeads have a specific size and can display protein on their surface for functional use of the proteins. Then the features of the protein characterize the filter. The coupling of proteins to the beads is based on affinity binding. An example is nickle NTA-tags, in which a protein carrying a histidine tag binds to the nickel ion of the bead. Several companies offer such microbeads with proteins coupled to their surface using affinity tags.
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These beads are usually very expensive, the production is more labourious as the protein has to  be expressed, bound to the beads and then washed again, and the binding of the protein is non-covalent. For this problem, we want to offer a synthetic biology solution in our project '''BEAD'''zillus where we produced biological beads.
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Such beads are usually very expensive -- their production is laborious, as the protein has to  be expressed, bound to the beads and then washed. Additionally, the binding of the protein is non-covalent. To solve this problem, we offer a synthetic biology solution in our project '''Bead'''zillus, in which we produced biological beads.
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But what are these biological beads made of? Based on a clever thing, evolution developed millions of years ago endospores of the soil bacteria ''Bacillus subtilis''. They are a dormant life stage of this bacteria which is highly resistant and can survive harsh conditions. To get to know more about the life cycle and the production of endospores have a look at the life cycle of B. subtilis on the next page.
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But what are our biological beads made of? Using clever natural engineering millions of years ago, evolution developed endospores of the soil bacteria ''Bacillus subtilis''. Endospores, which are highly resistant to environmental stressors and can survive harsh conditions, are a dormant life stage of ''Bacillus subtilis''. To get to know more about the life cycle and the production of endospores, have a look at the life cycle of ''B. subtilis'' on the next page.
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Revision as of 11:57, 25 October 2012

iGEM Ludwig-Maximilians-Universität München Beadzillus

Bacillus in urban culture.jpg

The LMU-Munich team is exuberantly happy about the great success at the World Championship Jamboree in Boston. Our project Beadzillus finished 4th and won the prize for the "Best Wiki" (with Slovenia) and "Best New Application Project".

IGEM HQ LMU prize.jpg

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