Team:Heidelberg

From 2014.igem.org

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<h1>THE RING<br />OF <span>FIRE</span></h1>
<h1>THE RING<br />OF <span>FIRE</span></h1>
<p>Welcome to the proteins of tomorrow.<br/>This is the iGEM team Heidelberg‘s wiki page.</p>
<p>Welcome to the proteins of tomorrow.<br/>This is the iGEM team Heidelberg‘s wiki page.</p>
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<p> Click here to view our abstract.
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<p> Click <a href="/Team:Heidelberg/Project#Abstract">here</a> to view our abstract.
<br/>
<br/>
Scroll down to explore our project.
Scroll down to explore our project.

Revision as of 20:59, 9 October 2014

iGEM Logo
Ring of fire Image

iGEM TEAM HEIDELBERG 2014

THE RING
OF FIRE

Welcome to the proteins of tomorrow.
This is the iGEM team Heidelberg‘s wiki page.

Click here to view our abstract.
Scroll down to explore our project.

Hallo, das ist ein test

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Learn more

Hallo, das ist ein test

dhsfjkask sdhfasdf sdhfhsagfdjh sdafjhsgdjfh sdgfhasgjf sdfhagjsd jf jsdgfhgj jdf jgj jhgdhfgsh hghjsdgfjkajgjhfd jajhdgfjsa

Learn more

circular heat-stable
DNMT1

Wouldn´t it be great to amplify DNA in a normal PCR maintaining the epigenetic information coded in methylation patterns?

The problem: DNMT I, an enzyme which is responsible for the establishment and maintenance of the individual methylation pattern of different cell types, is not heat stable. For iGEM 2014 we therefore create a PCR 2.0 with heat-stable DNMT I by circularization.

PCR 2.0

circular heat-stable
Xylanase

Xylanase is an important enzyme for the pulp and paper industry.

Bla bla

In future Xylanase could be used for the production of biofuel.

INDUSTRY

LINK it!

Could every protein becomes heat stable by circularization, even if it´s the most complex of all?

Circularization is a narrow path between gaining heat-stability and loosing function due to deformation. We developed a linker software, which predict the perfect linker depending on the folding structure of every protein.

In an extensive linker screening our software was improved and calibrated using the lambda phage lysozyme.

CALCULATE it!


After calculating eleven days and the breakdown of both computational and mental power we decided to spread the modeling of the linkers.

The iGEM Team Heidelberg developed iGEM@home, a software to divide extensive computing task into many packages and to distribute them to many computers. Now over 1.000 volunteers are calculating for us when their are idle.

As a new tool for the iGEM community this system enables every student team to archieve their modeling without access to big server farms.