Team:Potsdam Bioware/Project/At a Glance

From 2012.igem.org

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(Antibody Generation System)
(Antibody Generation System)
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<b>SocialBricks</b><br>
<b>SocialBricks</b><br>
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The idea of SocialBricks is to divide all human practice acts into different parts: the SocialBricks. Here, the SocialBricks stand for every activity which aims to inform people about the Synthetic Biology. We hope that the term SocialBricks will be accepted like the term BioBrick and will be integrated in a registry to show the society what every team has done for more elucidation.<br>
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The idea of SocialBricks is to divide all human practice activities into different parts: the SocialBricks. Here, the SocialBricks stand for every activity which aims to inform people about the Synthetic Biology. We hope that the term SocialBricks will be accepted like the term BioBrick and will be integrated in a registry to show the society what every team has done for more elucidation.<br>
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For this year we focused on two SocialBricks: “Science meets Politics” and “Science meets People”. For the first one we interviewed politicians from the German parliament: the Bundestag and discussed about Synthetic Biology. For the second part we organized a survey to ask about people's knowledge of Synthetic Biology and for their opinion on this scientific field. We also organized the day of synthetic biology in Potsdam on the main street. We isolated the DNA from bananas with the children and talked to their parents about iGEM, Synthetic Biology and our project.<br>
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For this year we focused on two SocialBricks: “Science meets Politics” and “Science meets People”. For the first one we interviewed politicians from the German parliament: the Bundestag and discussed about Synthetic Biology. For the second part we organized a survey to ask about people's knowledge of Synthetic Biology and for their opinion on this scientific field. We also organized the day of synthetic biology in Potsdam on the main street.<br>
The main result of the human practice this year is that the citizens and the politicians see the great potential of Synthetic Biology but also the challenges of this new scientific field.
The main result of the human practice this year is that the citizens and the politicians see the great potential of Synthetic Biology but also the challenges of this new scientific field.
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[[file:schavan_meeting.jpg|300px|center|thumb|Meeting with the Minister of Education and Research: Prof. Dr. Schavan]]
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'''Potsdam Standard - a hybrid approach to assemble your gene of interest'''<br><br>
'''Potsdam Standard - a hybrid approach to assemble your gene of interest'''<br><br>

Revision as of 12:41, 26 September 2012


Antibody Generation System

The main goal of our antibody generation system is to produce high affine antibodies using an antibody module, a mutation module and a selection module to ensure that the cells that express a high affine antibody survive.
For the antibody module, we transiently and stably transfected CHO cells with two antibody constructs. The first one is a single chain antibody against the epidermal growth factor receptor domain three. Additional transmembrane region and a signal peptide ensure that the construct is presented on the cell surface. The second one contains a nanobody against GFP, a Fc domain, a transmembrane region and a signal peptide that also direct the construct to the surface. A switchable region ensures the possibility of shifting from membrane standing to soluble state of the antibodies with help of Cre recombinase.
The mutation module consists of one key enzyme, the activation induced cytidine deaminase (AID). This enzyme is commonly used in mammalian immune systems to induce the hypermuation and thus antibody maturation in activated B-lymphocytes. We created the wildtype form and a modified variant of this enzyme that has a nuclear localization sequence and no nuclear export sequence. Both of them were used for transfection into CHO cells to induce hypermutation. The transfected AID induces hypermutation in antibody transfected CHO cells and thus change the antibody binding regions stochastically.
To select CHO cells which produce high affine antibodies, we designed the selection module. This module consists of viruses which show the corresponding antigen for the nanobody GFP on the surface by using a fusion protein. The virus has an antibiotic resistance cassette. By binding the high affine antibody with the surface presenting antigen the virus is able to infect the CHO cells efficiently. Consequently, the CHO cells only survive if they produce high affine antibodies mutated by the AID.

SocialBricks

The idea of SocialBricks is to divide all human practice activities into different parts: the SocialBricks. Here, the SocialBricks stand for every activity which aims to inform people about the Synthetic Biology. We hope that the term SocialBricks will be accepted like the term BioBrick and will be integrated in a registry to show the society what every team has done for more elucidation.
For this year we focused on two SocialBricks: “Science meets Politics” and “Science meets People”. For the first one we interviewed politicians from the German parliament: the Bundestag and discussed about Synthetic Biology. For the second part we organized a survey to ask about people's knowledge of Synthetic Biology and for their opinion on this scientific field. We also organized the day of synthetic biology in Potsdam on the main street.
The main result of the human practice this year is that the citizens and the politicians see the great potential of Synthetic Biology but also the challenges of this new scientific field.

Meeting with the Minister of Education and Research: Prof. Dr. Schavan


Potsdam Standard - a hybrid approach to assemble your gene of interest

The main problems in using the classical approach to assemble different parts with restriction enzymes are on one hand ineffective enzymes with different optimum conditions and on the other hand illegal restriction site in the sequence which restricts the use of standard assemblies.
That is the reason why we tried to establish a new RFC with a reduced use of restriction enzymes. This cloning standard is based on the use of thiophosphate primer at the 5’ end for PCR to amplifying the insert. The insert is incubated in iodine/ethanol solution to knock out the 5’ thiophosphates. After that, the new standard cloning vector, developed by us, with a RFP expression cassette as a ligation control is digested with the enzymes Apa I and Sph I. These enzymes generate 3’ overhangs which correspond to the 3’overhang generated by knocking out the thiophosphates. The digested backbone and the pliced insert is mixed, ligated and transformed into E.coli.
To proof the new assembly standard, we insert the AID into the new standard cloning vector using the Potsdam Standard. After sequencing, we saw that the cloning was successful without any mutation in the AID sequence.