Difference between revisions of "Team:TU Dresden/Project/Peptidosomes"

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To address these major biological and technical questions, the TU Dresden iGEM team presents EncaBcillus. Using <i>Bacillus subtilis</i> as model organism we introduce a new fundamental approach for cultivation of bacteria: the Peptidsomes. These Peptidosmes are buildup of self-assembled dipeptide phenylalanines (FF) and are able to form spherical cages. The cages hold back the bacteria from the surrounding but are freely diffusible for smaller molecules. We show, that <i>B. subtilis</i> is able to grow, while encapsulated inside of the Pepdiosomes and demonstrate the applicability of two (fluorescence and luminescence) reports for the use with Pepdiosomes.  
 
To address these major biological and technical questions, the TU Dresden iGEM team presents EncaBcillus. Using <i>Bacillus subtilis</i> as model organism we introduce a new fundamental approach for cultivation of bacteria: the Peptidsomes. These Peptidosmes are buildup of self-assembled dipeptide phenylalanines (FF) and are able to form spherical cages. The cages hold back the bacteria from the surrounding but are freely diffusible for smaller molecules. We show, that <i>B. subtilis</i> is able to grow, while encapsulated inside of the Pepdiosomes and demonstrate the applicability of two (fluorescence and luminescence) reports for the use with Pepdiosomes.  
 
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Having established this new method of bacterial immobilization, we present fully standalone applications using Peptidsomes:  
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While having established this new method of bacterial immobilization, we proudly present standalone applications using Peptidsomes:  
  
 
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Revision as of 12:53, 29 October 2017

It´s a trap!

Short Description

Peptidosomes are great.

Background

Bacteria are omnipresent in biotechnology and applied projects. They can be used as hosts to produce nearly any biological compound of interest such as: drugs, vaccines, enzymes, antibiotics or even fuels and solvents. Their fast life cycle and comparable low requirements of living conditions highlight their industrial relevance. Over the last decades, the main focus to increase yields laid on extensive metabolic engineering and optimizing growth conditions.

Yet, there are more aspect which need to be considered when producing a compound of interest. First, where is the product of interest found: inside of the producing strain or will it be secreted to the surrounding media? Second, what is necessary to separate the valuable end-product from the bacteria? And maybe most important, how to assure a safe use of genetically engineered production strains?
If you would like to know more on encabsulated bacteria in Peptdisomes and boosting the production of a compound of interest check out our: Signal Peptide Toolbox and Peptide Secretion sections.

To address these major biological and technical questions, the TU Dresden iGEM team presents EncaBcillus. Using Bacillus subtilis as model organism we introduce a new fundamental approach for cultivation of bacteria: the Peptidsomes. These Peptidosmes are buildup of self-assembled dipeptide phenylalanines (FF) and are able to form spherical cages. The cages hold back the bacteria from the surrounding but are freely diffusible for smaller molecules. We show, that B. subtilis is able to grow, while encapsulated inside of the Pepdiosomes and demonstrate the applicability of two (fluorescence and luminescence) reports for the use with Pepdiosomes.

While having established this new method of bacterial immobilization, we proudly present standalone applications using Peptidsomes: