Team:TU Munich

From 2012.igem.org

(Difference between revisions)
Line 3: Line 3:
== Abstract ==
== Abstract ==
-
[[File:TUM12_AE120612001.jpg|300px||right||]
+
[[File:TUM12_AE120612001.jpg|300px||right||]]
The TU Munich iGEM Team engineers ''Saccharomyces cerevisiae'', also known as baker's yeast, in order to contribute to a new generation of functional foods with nutritionally valuable ingredients. More specifically, the team currently designs and produces BioBricks to introduce the metabolic pathways for the substances Xanthohumol (anticancerogenic), Limonene (flavor of lime), Caffeine (CNS stimulant) and the protein Thaumatin (sweetener, E957). To achieve this goal the team adapts a yeast shuttle vector (pYES2), uses a yeast integration vector for stable transfections and creates and characterizes constitutive, alcohol- and light-inducible promoter systems. Combining these BioBricks will enable the team to brew iGEM’s first SynBio Beer.
The TU Munich iGEM Team engineers ''Saccharomyces cerevisiae'', also known as baker's yeast, in order to contribute to a new generation of functional foods with nutritionally valuable ingredients. More specifically, the team currently designs and produces BioBricks to introduce the metabolic pathways for the substances Xanthohumol (anticancerogenic), Limonene (flavor of lime), Caffeine (CNS stimulant) and the protein Thaumatin (sweetener, E957). To achieve this goal the team adapts a yeast shuttle vector (pYES2), uses a yeast integration vector for stable transfections and creates and characterizes constitutive, alcohol- and light-inducible promoter systems. Combining these BioBricks will enable the team to brew iGEM’s first SynBio Beer.

Revision as of 14:31, 16 August 2012


Abstract

TUM12 AE120612001.jpg

The TU Munich iGEM Team engineers Saccharomyces cerevisiae, also known as baker's yeast, in order to contribute to a new generation of functional foods with nutritionally valuable ingredients. More specifically, the team currently designs and produces BioBricks to introduce the metabolic pathways for the substances Xanthohumol (anticancerogenic), Limonene (flavor of lime), Caffeine (CNS stimulant) and the protein Thaumatin (sweetener, E957). To achieve this goal the team adapts a yeast shuttle vector (pYES2), uses a yeast integration vector for stable transfections and creates and characterizes constitutive, alcohol- and light-inducible promoter systems. Combining these BioBricks will enable the team to brew iGEM’s first SynBio Beer.