Difference between revisions of "Team:York/Collaborations"

 
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<h2> Collaborations</h2>
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<h1> Collaborations</h1>
  
<h3>Testing Water Samples From Around the World</h3>
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<h2>Testing Water Samples From Around the World</h2>
  
 
<p> As our project aims to develop a product to remove phosphate out of wastewater, we chose to test water samples from around the world for phosphate concentration. We would like to thank the iGEM teams- TU Eindhoven, Technion Israel and Leuven for their water samples! We also received water samples from Derby, Egypt, Yorkshire and Manchester. </p>
 
<p> As our project aims to develop a product to remove phosphate out of wastewater, we chose to test water samples from around the world for phosphate concentration. We would like to thank the iGEM teams- TU Eindhoven, Technion Israel and Leuven for their water samples! We also received water samples from Derby, Egypt, Yorkshire and Manchester. </p>
  
<h4>Methods</h4>
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<h3>Methods</h3>
 
<p>200uL of all drinking water samples were pipetted directly in to the 96 well plate. All river water and bog water samples were filter sterilised to remove solid particles before 200uL of each sample was plated. A set of phosphate standards were prepared and 30uL of dye was then added before the plate was left to equilibrate for 30 minutes in the dark.  Following equilibration, the optical density of each well was read at 650nm using a plate reader. The concentration of phosphate in each sample well could then be determined using the equation of the standard curve. </p>
 
<p>200uL of all drinking water samples were pipetted directly in to the 96 well plate. All river water and bog water samples were filter sterilised to remove solid particles before 200uL of each sample was plated. A set of phosphate standards were prepared and 30uL of dye was then added before the plate was left to equilibrate for 30 minutes in the dark.  Following equilibration, the optical density of each well was read at 650nm using a plate reader. The concentration of phosphate in each sample well could then be determined using the equation of the standard curve. </p>
  
 
<img src="https://static.igem.org/mediawiki/2015/thumb/0/0d/WaterCollaborationYork.png/800px-WaterCollaborationYork.png">
 
<img src="https://static.igem.org/mediawiki/2015/thumb/0/0d/WaterCollaborationYork.png/800px-WaterCollaborationYork.png">
<h4>Results</h4>
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<p>Figure 1: Standard curve generated using standards made following the ABCAM (ab65622) protocol.</p>
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<h3>Results</h3>
 
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<td>Cairo (Egypt)</td>
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<p>Figure 1: Standard curve generated using standards made following the ABCAM (ab65622) protocol.</p>
 
  
  
  
<h3>Cloning assembly guide</h3>
 
<p>At the beginning of the summer, TU Eindhoven reached out and asked iGEM teams around the world about which DNA assembly methods they were using. They have put together a cloning guide using information sent from 13 teams, one of which was us! Check out their guide and see what they worked on <a href="https://2015.igem.org/Team:TU_Eindhoven"> here</a>. </p>   
 
  
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<h2>Cloning assembly guide</h2>
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<p>At the beginning of the summer, TU Eindhoven reached out and asked iGEM teams around the world about which DNA assembly methods they were using. They have put together a cloning guide using information sent from 13 teams, one of which was us! We wrote them a detailed description of our gibson assembly techniques. Check out their <a href="https://2015.igem.org/Team:TU_Eindhoven/Collaborations/CloningGuide/FullScreen">guide</a> below and see what they worked on <a href="https://2015.igem.org/Team:TU_Eindhoven"> here</a>. </p>  
Sharing and collaboration are core values of iGEM. We encourage you to reach out and work with other teams on difficult problems that you can more easily solve together.
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<h4> Which other teams can we work with? </h4>
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You can work with any other team in the competition, including software, hardware, high school and other tracks. You can also work with non-iGEM research groups, but they do not count towards the <a hreef="https://2015.igem.org/Judging/Awards#Medals">iGEM team collaboration gold medal criterion</a>.
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In order to meet the gold medal criteria on helping another team, you must complete this page and detail the nature of your collaboration with another iGEM team.
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Here are some suggestions for projects you could work on with other teams:
 
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<li> Test another team's software</li>
 
<li> Help build and test another team's hardware project</li>
 
<li> Mentor a high-school team</li>
 
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Latest revision as of 21:05, 18 September 2015

Collaborations

Testing Water Samples From Around the World

As our project aims to develop a product to remove phosphate out of wastewater, we chose to test water samples from around the world for phosphate concentration. We would like to thank the iGEM teams- TU Eindhoven, Technion Israel and Leuven for their water samples! We also received water samples from Derby, Egypt, Yorkshire and Manchester.

Methods

200uL of all drinking water samples were pipetted directly in to the 96 well plate. All river water and bog water samples were filter sterilised to remove solid particles before 200uL of each sample was plated. A set of phosphate standards were prepared and 30uL of dye was then added before the plate was left to equilibrate for 30 minutes in the dark. Following equilibration, the optical density of each well was read at 650nm using a plate reader. The concentration of phosphate in each sample well could then be determined using the equation of the standard curve.

Figure 1: Standard curve generated using standards made following the ABCAM (ab65622) protocol.

Results

Area Mean Phosphate Concentrtion(mM)
Leuven (Belgium) 0.009401801
Estonia 0.002675309
Derbyshire (UK) 0.023863758
Hurghada (Egypt) 0.004581148
Haifa (Israel) 0.004283043
Lagos (Portugal) 0.054098124
Yorkshire (UK) 0.009075668
Eindhoven (Netherlands) 0.007258156
Cheshire (UK) 0.004153099

Cloning assembly guide

At the beginning of the summer, TU Eindhoven reached out and asked iGEM teams around the world about which DNA assembly methods they were using. They have put together a cloning guide using information sent from 13 teams, one of which was us! We wrote them a detailed description of our gibson assembly techniques. Check out their guide below and see what they worked on here.


Feel free to browse through the cloning guide.