Team:Cambridge/Attributions

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(Instrumentation)
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Andreas Petrides from the team led the development of the instrumentation kit along with Paul Mallaband. Electronics and Arduino code was tackled by Andreas, python code by Paul whilst both took part in the mechanical design and sourcing of materials. The testing of the instrumentation was done by Andreas with the aid of Thomas Whittaker who prepared the biological samples.
Andreas Petrides from the team led the development of the instrumentation kit along with Paul Mallaband. Electronics and Arduino code was tackled by Andreas, python code by Paul whilst both took part in the mechanical design and sourcing of materials. The testing of the instrumentation was done by Andreas with the aid of Thomas Whittaker who prepared the biological samples.
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The python code was based on that submitted at [[http://www.blendedtechnologies.com/realtime-plot-of-arduino-serial-data-using-python/231]]. All arduino code was developed by Andreas and Paul. The android application was implemented by Andreas, based on [http://www.amarino-toolkit.net/index.php/home.html<u><span style="color:#000066">Amarino</span></u>]
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The python code was based on that submitted at http://www.blendedtechnologies.com/realtime-plot-of-arduino-serial-data-using-python/231. All arduino code was developed by Andreas and Paul. The android application was implemented by Andreas, based on [http://www.amarino-toolkit.net/index.php/home.html<u><span style="color:#000066">Amarino</span></u>]
projects' open-source code (General Public License).  
projects' open-source code (General Public License).  

Revision as of 22:28, 26 September 2012


Click to view information about the Cambridge team advisors, team members and ... Read More

Contents

Attributions

Each team must clearly attribute work done by the team on this page. They must distinguish work done by the team from work done by others, including the host labs, advisors, instructors, graduate students, and postgraduate masters students.

Sporage and Distribution

The fast promoter swap over strains we used in sporage and distribution were developed based on work by Peter Setlow from the Setlow lab at the University of Connecticut (see references in the project section). Furthermore Barbara and Peter Setlow sent us the two E. coli plasmids used for transformation of B. Subtilis as well as the finalised spores we used in testing the construct. They also provided us with information on sporulation and germination protocols and help with designing primers for biobricking the part.

Paul Mallaband and Stuart Bell from the team made up sporulation and germination medium and carried out imaging of the spores. They also carried out all relevant pcr, gibson and restriction ligation reactions to make a biobrick of the part.

Paul Grant from the Haseloff lab was instrumental in helping with imaging spores and gave advice on staining, slide preparation and microscopy.

Instrumentation

Andreas Petrides from the team led the development of the instrumentation kit along with Paul Mallaband. Electronics and Arduino code was tackled by Andreas, python code by Paul whilst both took part in the mechanical design and sourcing of materials. The testing of the instrumentation was done by Andreas with the aid of Thomas Whittaker who prepared the biological samples.

The python code was based on that submitted at http://www.blendedtechnologies.com/realtime-plot-of-arduino-serial-data-using-python/231. All arduino code was developed by Andreas and Paul. The android application was implemented by Andreas, based on [http://www.amarino-toolkit.net/index.php/home.htmlAmarino] projects' open-source code (General Public License).

Mr. Tim Love from the engineering department gave advice on software design and the Engineering department helped with mechanical build.

Ribosense

Ratiometrica