Difference between revisions of "Team:Utrecht/flipetyfloop"

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Hello You!  
 
Hello You!  
 
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Welcome to our wiki page. We are Team Utrecht from 2018, a very diverse team from the city Utrecht in the Netherlands. Want to know more about our team?
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Hello You!
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Welcome to our wiki page. We are Team Utrecht 2018, a very diverse team from Utrecht University in the Netherlands. Want to know more about our team?
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</br></br>
 
</br></br>
<a href = "https://2018.igem.org/Team:Utrecht/Team"> Click Here </a>
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<a href = "https://2018.igem.org/Team:Utrecht/Team"> Click Here. </a>
  
 
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<div class="customelementC3" style = "top: 3%;left: 19%;width: 30%;">
After taking medication,the drug will get
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Water is arguably our most precious resource.
absorbed, distributed through the body,
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Unfortunately, increased use of pharmaceuticals including antidepressants and chemotherapeutic medications are contaminating this valuable resource.
metabolised and eventually
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excreted from the body.
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<div class="customelementC3" style = "top: 14.8%;left: 37.4%;width: 43%;">
Excreted pharmaceutical products can end up in our sewage systems.
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After human use of these medications, remnants are disposed through the sewage systems and eventually contaminate surface waters, resulting in an increased pollutant concentration in the environment.
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This can happen anywhere: in our homes, schools, hospitals and other healthcare facilities. Other contributors to the rising concern of pharmaceuticals in our waters are drug producing factories.
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<div class="customelementC3" style = "top: 28.1%;left: 13%;width: 35%;">
These pharmaceuticals have shown harmful side effects on marine animals and can possibly be dangerous to humans as well.
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These pharmaceutical waste products are still biologically active in vertebrates. For example, even low concentrations of antidepressants pose a threat to both society and ecological systems.
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For a more detailed discussion you can visit our <a href = "https://2018.igem.org/Team:Utrecht/Description"> Project Description.</a>
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<div class="customelementC3" style = "top: 35.5%;left: 45%;width: 35%;">
  
So we talked to water treatment companies, specialists and other involving parties about this issue.  
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We talked to water treatment companies, specialists and other stakeholders about how to improve current detection methods. Key requirements for our biosensor included safety, accuracy, high measurement rates and low costs.  
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See more on <a href = "https://2018.igem.org/Team:Utrecht/Human_Practices"> Integrated Human Practices.</a>
 
See more on <a href = "https://2018.igem.org/Team:Utrecht/Human_Practices"> Integrated Human Practices.</a>
 
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<div class="customelementC3" style = "top: 44.1%;left: 25%;width: 28%;">
We discovered a problem
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Based on the input of experts and stakeholders, we developed the DeTaXion biosensor. DeTaXion improves identification of antidepressants in water, based on the chemotaxis pathway of E. coli.
involving the analysis of water  
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within these companies and
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For a more detailed discussion you can visit our  <a href = "https://2018.igem.org/Team:Utrecht/Description"> Project Description.</a>
came up with a <a href = "https://2018.igem.org/Team:Utrecht/Design"> Project Design </a> to solve this.
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<div class="customelementC3" style = "top: 47.2%;left: 25.6%;width: 26%;">
We went into the laboratory
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The chemotaxis pathway was adjusted in such a manner that E. coli can detect antidepressants. Upon recognition of the antidepressant agents, the light signal produced by the E. coli changes.
and did some experiments, which
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resulted into interesting <a href = "https://2018.igem.org/Team:Utrecht/Results">findings</a>.
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</div>
 
</div>
  
<div class="customelementC3" style = "top: 65.8%;left: 56%;width: 32%;">
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<div class="customelementC3" style = "top: 54.2%;left: 25.6%;width: 26%;">
We wanted others to know about our project as well. More about this topic can be found in <a href = "https://2018.igem.org/Team:Utrecht/Public_Engagement">Public Engagement</a>.
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To achieve the detection of antidepressants, we set up a three step approach <a href = "https://2018.igem.org/Team:Utrecht/Design"> project design </a>.  
  
Furthermore, we <a href = "https://2018.igem.org/Team:Utrecht/Collaborations">collaborated</a> with other iGEM teams to get valuable insights.
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Next, we performed these steps in the lab, which resulted into interesting <a href = "https://2018.igem.org/Team:Utrecht/Results">findings</a>.
 
</div>
 
</div>
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<div class="customelementC3" style = "top: 65.8%;left: 56%;width: 32%;">
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Since we wanted to enlighten others about biotechnology, water safety and valorisation, we engaged the public at several outreach event, including our <a href = "https://2018.igem.org/Team:Utrecht/Conference"> biotechnology conference </a> and “Weekend of Science”, establishing an open discussion. More about this topic can be found in <a href = "https://2018.igem.org/Team:Utrecht/Public_Engagement">Public Engagement</a>.
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Furthermore, we <a href = "https://2018.igem.org/Team:Utrecht/Collaborations">collaborated</a> with other iGEM teams to get valuable insights.</div>
  
 
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<div class="customelementC3" style = "top: 75.8%;left: 34%;width: 30%;">

Revision as of 07:52, 12 October 2018

Hello You!

Hello You! Welcome to our wiki page. We are Team Utrecht 2018, a very diverse team from Utrecht University in the Netherlands. Want to know more about our team?

Click Here.
Water is arguably our most precious resource. Unfortunately, increased use of pharmaceuticals including antidepressants and chemotherapeutic medications are contaminating this valuable resource.
After human use of these medications, remnants are disposed through the sewage systems and eventually contaminate surface waters, resulting in an increased pollutant concentration in the environment.
These pharmaceutical waste products are still biologically active in vertebrates. For example, even low concentrations of antidepressants pose a threat to both society and ecological systems.
We talked to water treatment companies, specialists and other stakeholders about how to improve current detection methods. Key requirements for our biosensor included safety, accuracy, high measurement rates and low costs. See more on Integrated Human Practices.
Based on the input of experts and stakeholders, we developed the DeTaXion biosensor. DeTaXion improves identification of antidepressants in water, based on the chemotaxis pathway of E. coli. For a more detailed discussion you can visit our Project Description.
The chemotaxis pathway was adjusted in such a manner that E. coli can detect antidepressants. Upon recognition of the antidepressant agents, the light signal produced by the E. coli changes.
To achieve the detection of antidepressants, we set up a three step approach project design . Next, we performed these steps in the lab, which resulted into interesting findings.
Since we wanted to enlighten others about biotechnology, water safety and valorisation, we engaged the public at several outreach event, including our biotechnology conference and “Weekend of Science”, establishing an open discussion. More about this topic can be found in Public Engagement. Furthermore, we collaborated with other iGEM teams to get valuable insights.
We also had to find the means to fund our project.Luckily, some parties were willing to invest their time and capital in us.


We are very grateful to our sponsors and other contributors. A special thank you for your help!
After a lot of late nights, long hours in the laboratory, insightful conversations with stakeholders, some sweat (maybe some tears) and a massive amount of laughter and joy.

We, the Utrecht iGEM team of 2018, proudly present to you:

Detaxion: A biosensor aimed to rapidly identify harmful water-based pharmaceuticals in surface waters.