Biomod/2013/Dresden

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                         <p>Welcome</p>
                         <p>Welcome</p>
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<p> we, the <em>Dresden Nanormous</em>, use polymers to produce hollow nanocontainers or <em>polymersomes</em>, whose walls contain channels for controlled transport. These channels are built by the <em>DNA-origami</em> technique that way we produce a highly flexible system. By encapsulation of an enyzme and the addition of antibodies we create a <em>smart nanoreactor</em> which could be used to <em>fight cancer</em>!
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<p> we, the <em>Dresden Nanormous</em>, use polymers to produce hollow nanoreactors or <em>polymersomes</em>, whose walls contain channels for controlled transport. These channels are built by the <em>DNA-origami</em> technique that way we produce a highly flexible system. By encapsulation of an enyzme and the addition of antibodies we create a <em>smart nanoreactor</em> which could be used to <em>fight cancer</em>!
                 </div>
                 </div>

Revision as of 10:37, 26 October 2013

How to cure cancer with a plastic ball?

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Welcome

we, the Dresden Nanormous, use polymers to produce hollow nanoreactors or polymersomes, whose walls contain channels for controlled transport. These channels are built by the DNA-origami technique that way we produce a highly flexible system. By encapsulation of an enyzme and the addition of antibodies we create a smart nanoreactor which could be used to fight cancer!

Polymersome

DNA origami channel

Internal reaction

The picture shows a SEM image of our first polymersomes! The average diameter is about 200nm.

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