Difference between revisions of "Team:Humboldt Berlin"

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                     <h1>iGEM HU Berlin:</h1>
 
                     <h1>iGEM HU Berlin:</h1>
 
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                         <b>The worldwide plastic pollution of our environment poses a
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                         <b>
                        growing threat to humankind. We, as a team of young aspiring
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We proudly present you the freshwater algae </b><i>Chlamydomonas reinhardtii</i><b>. Chlamy, being easy to cultivate and a well understood model organism, poses a powerful tool for synthetic biology. Using state-of-the-art methods of molecular biology we want to establish the freshwater alga as a platform in the iGEM competition. Considering environmental issues Chlamy poses a favorable tool, possessing the capability to fixate Carbon dioxide. To convince you from Chlamy's potential we are developing a new, environment-friendly way of recycling the most common plastic, polyethylene therephtalate (PET).
                        scientists, want to combat this issue. By modifying the freshwater
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</b>
                        algae </b><i>Chlamydomonas reinhardtii</i><b> we are trying to develop a new,
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                        evironment-friendly way of recycling the most common plastic,
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                        polyethylene therephtalate (PET). Brace yourself, plastic pollution!
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                        We are coming for you! </b>
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Revision as of 19:12, 4 August 2019

iGEM HU Berlin:

We proudly present you the freshwater algae Chlamydomonas reinhardtii. Chlamy, being easy to cultivate and a well understood model organism, poses a powerful tool for synthetic biology. Using state-of-the-art methods of molecular biology we want to establish the freshwater alga as a platform in the iGEM competition. Considering environmental issues Chlamy poses a favorable tool, possessing the capability to fixate Carbon dioxide. To convince you from Chlamy's potential we are developing a new, environment-friendly way of recycling the most common plastic, polyethylene therephtalate (PET).
Team image

Team

Our Team consists of young, aspiring scientists from the fields of Biology and Biophysics. We joined forces with different researchers and other teams to bring our vision forward.

> MEMBERS > COLLABORATION
plastic bottle

Project

Using state-of-the-art methods of molecular biology we want to enable a freshwater alga to degrate the widely used plastic polyethylene therephtalate (PET).

> DESCRIPTION > DESIGN
methods

Parts

Featuring the MoClo-Assembly-Standard we developed multiple combinations of Plasmids containing not only the protein genes but also a multitude of selection markers and various prometers

> OVERVIEW > BASIC PART
safety

Safety

How do we make sure all experiments pose no risk for our researchers and the environment? Read all about our safety rules and plans for containment of our genetically engineered organism.

 
human practice

Human Practise

We sat together with scientists and companies and tried to implement their knowledge in our experimental set-up. Moreover we started to raise awareness for global plastic pollution and answers synthetic biology might have in store.

> OVERVIEW > EDUCATION & ENGAGEMENT