Difference between revisions of "Team:Cooper Union/Attributions"

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<h3>Wetware/TdT work</h3>
 
<h3>Wetware/TdT work</h3>
<ui>Members who ensured that the biology of Loomino was possible
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<ui>Members who ensured that the biology of Loomino was possible.
 
<li>Tushar Nichakawade</li>
 
<li>Tushar Nichakawade</li>
 
<li>Keith Joseph</li>
 
<li>Keith Joseph</li>
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<li>John Song</li>
 
<li>John Song</li>
 
</ui>
 
</ui>
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<h3>Dac Anh</h3>
 
<h3>Dac Anh</h3>
 
We'd like to thank Dac Anh, a graduate mentor who formerly worked at Mount Sinai's Icahn School of Medicine, for his assistance on the design of the device. His input allowed us to properly plan for taking the project into the next step, and explained the possibility of using microfluidics to improve on the current model.
 
We'd like to thank Dac Anh, a graduate mentor who formerly worked at Mount Sinai's Icahn School of Medicine, for his assistance on the design of the device. His input allowed us to properly plan for taking the project into the next step, and explained the possibility of using microfluidics to improve on the current model.

Revision as of 04:43, 18 September 2015

Cooper Union 2015 iGEM



Attributions

This project is a continuation of work started by the 2014 Cooper Union IGEM team.

Hardware

Members that designed and built Loomino to fulfill the mechanics needed to efficiently run the biology.
  • Yingfu Ma
  • Karlin Yeh
  • Susung Choi
    •

    Software

    Members who programmed the Arduino to perform the actions fluently and in succession.
  • Susung Choi
  • John Song
  • Lily Lin
    •

    Wetware/TdT work

    Members who ensured that the biology of Loomino was possible.
  • Tushar Nichakawade
  • Keith Joseph
  • Jean Lam
  • Christopher Lastihenos
  • John Song
    •

    Dac Anh

    We'd like to thank Dac Anh, a graduate mentor who formerly worked at Mount Sinai's Icahn School of Medicine, for his assistance on the design of the device. His input allowed us to properly plan for taking the project into the next step, and explained the possibility of using microfluidics to improve on the current model.

    Hardware

    This part of the project encompasses the physical device. It involves work with fluidics devices, thermocyclers, and circuitry. Hardware team members closely collaborated to insure that all these different parts would work together

    Software

    This was the coding part of the project. It involves coding the arduino to control the loomino device along with designing the team website.

    Wetware

    The wet work of this project encompassed all genetic engineering components. TdT based experiments were carried out by these team members. People who worked on this designed sequences, ran digests and ligations, and transformed bacteria. All protocols involving preparation of glass slides were grouped with wetware because the skills needed for these protocols better matched the wetware team's specialties.

    What should this page have?
    • General Support
    • Project support and advice
    • Fundraising help and advice
    • Lab support
    • Difficult technique support
    • Project advisor support
    • Wiki support
    • Presentation coaching
    • Human Practices support
    • Thanks and acknowledgements for all other people involved in helping make a successful iGEM team