Difference between revisions of "Team:Duke/Collaborations"

 
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<h3>Collaboration with the Gaston Day School iGEM Team</h3>
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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<td align="center"><img src="https://static.igem.org/mediawiki/2016/b/b8/T--Duke--Collab.jpg" style="width:640px;height:480px;"></td>
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<p>We collaborated with the Gaston Day School team this year to provide advice and analysis of their project. We maintained a line of communication and advised their team on how to proceed with Arabinose Induction to characterize certain part submissions. We also contributed an E. coli cell line meant for arabinose induction to help their procedures. We discussed ideas about each other's projects and possible courses of action. We sent Parth Patel, a graduate of the Gaston Day iGEM team, to personally discuss plans and relay samples. We plan to help with transformation of colicin from original stocks into plates that contain antibiotic resistance so that the Gaston Day team's project may further progress.</p>
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<caption align="bottom" style="text-align: center">Henna Saqibo, Lilith Tang, Parth Patel, and William Henry conversing over project plans.</caption>
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<p><br>We collaborated with the <a href="https://2016.igem.org/Team:Gaston_Day">Gaston Day School</a> team this year to provide advice and analysis of their project. We maintained a line of communication and advised their team on how to proceed with Arabinose Induction to characterize certain part submissions. We sent them a specialized E. coli strain optimized for Arabinose Induction to replace the E. Coli K-12 strain that was being used. This specialized strain has been used in our lab from North Carolina and sent to them. We consulted our faculty mentor and engaged in thorough troubleshooting of their issues such that errors in procedures were identified and modified for better experimental results. We sent Parth Patel, a graduate of the Gaston Day iGEM team, to personally discuss plans, identify courses of action, and relay samples, creating a solid bridge of information and aid to the team. We analyzed a colicin sample transformed in the pSB1C3 backbone through gel electrophoresis and sent back sequencing results that could not have been readily obtained by the team to determine the status of their transformations and further troubleshoot procedures. Following the competition we will continue to aid the team by doing transformations of colicin from original stocks into plates that contain antibiotic resistance so that the Gaston Day team's project may further progress from a solid baseline.</p>
  
 
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Latest revision as of 02:53, 20 October 2016

Collaboration with the Gaston Day School iGEM Team

Henna Saqibo, Lilith Tang, Parth Patel, and William Henry conversing over project plans.


We collaborated with the Gaston Day School team this year to provide advice and analysis of their project. We maintained a line of communication and advised their team on how to proceed with Arabinose Induction to characterize certain part submissions. We sent them a specialized E. coli strain optimized for Arabinose Induction to replace the E. Coli K-12 strain that was being used. This specialized strain has been used in our lab from North Carolina and sent to them. We consulted our faculty mentor and engaged in thorough troubleshooting of their issues such that errors in procedures were identified and modified for better experimental results. We sent Parth Patel, a graduate of the Gaston Day iGEM team, to personally discuss plans, identify courses of action, and relay samples, creating a solid bridge of information and aid to the team. We analyzed a colicin sample transformed in the pSB1C3 backbone through gel electrophoresis and sent back sequencing results that could not have been readily obtained by the team to determine the status of their transformations and further troubleshoot procedures. Following the competition we will continue to aid the team by doing transformations of colicin from original stocks into plates that contain antibiotic resistance so that the Gaston Day team's project may further progress from a solid baseline.