Team:LMU-Munich/Application

From 2012.igem.org

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==Protein Screening==
==Protein Screening==
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Designer protein molecules, which bind their desired targets specifically, have numerous uses. Designer proteins are frequently created by constructing and screening libraries of mutated protein variants. Proteins with desired properties are selected for in this method. Despite the success of the method, it is labor intensive and limited in throughput. Individual mutated proteins must be tracked throughout the entire screening process. Our '''Sporo'''beads would eliminate the need to track protein mutants, allowing researchers to screen huge quantities of mutated proteins, only identifying and sequencing these proteins after successful screening. Figure BLAH offers a schematic of the process of using '''Sporo'''beads for protein screening.
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<p align="justify">Designer protein molecules, which bind their desired targets specifically, have numerous uses. Designer proteins are frequently created by constructing and screening libraries of mutated protein variants. Proteins with desired properties are selected for in this method. Despite the success of the method, it is labor intensive and limited in throughput. Individual mutated proteins must be tracked throughout the entire screening process. Our '''Sporo'''beads would eliminate the need to track protein mutants, allowing researchers to screen huge quantities of mutated proteins, only identifying and sequencing these proteins after successful screening. Figure BLAH offers a schematic of the process of using '''Sporo'''beads for protein screening.</p>
==Further Applications==
==Further Applications==
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Ultimately, the ability to express virtually any protein of interest shows great potential for laboratory work. Our '''Sporo'''beads could additionally express TAL effectors, for the binding of sequence-specific DNA stretches. This could allow simple GMO detection of food crops. Besides simply expressing proteins capable of binding elements of interest, our '''Sporo'''beads could express proteins which have enzymatic activity. The 2011 University of Washington iGEM team developed an enzyme, Kumamolisin, which cleaves peptides. The specific substrate of this enzyme is the specific amino acid sequence which causes reactions in individuals with Celiac disease. Such a cleaving enzyme could be used to eliminate irritants from gluten-containing food products.
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<p align="justify">Ultimately, the ability to express virtually any protein of interest shows great potential for laboratory work. Our '''Sporo'''beads could additionally express TAL effectors, for the binding of sequence-specific DNA stretches. This could allow simple GMO detection of food crops. Besides simply expressing proteins capable of binding elements of interest, our '''Sporo'''beads could express proteins which have enzymatic activity. The 2011 University of Washington iGEM team developed an enzyme, Kumamolisin, which cleaves peptides. The specific substrate of this enzyme is the specific amino acid sequence which causes reactions in individuals with Celiac disease. Such a cleaving enzyme could be used to eliminate irritants from gluten-containing food products.</p>

Revision as of 12:15, 25 October 2012

iGEM Ludwig-Maximilians-Universität München Beadzillus

Team-LMU Photo2.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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