Team:British Columbia/Notebook

From 2012.igem.org

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</div><div id=note><p align=center><font face=arial narrow size=4><b>Welcome to our Notebook</b></br></br></font></p><font face=arial narrow>
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</div><div id=note><p align=center><font face=arial narrow size=4><b>Welcome to our Notebook</b></font></p><font face=arial narrow>
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Our Notebook is sorted by sub-project. Please use the menu to navigate through our Notebook entries and follow our progress over the year. </div>
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Our Notebook is sorted by sub-project. Please use the menu to navigate through our Notebook entries and follow our progress over the year.</br>
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<b>UBC iGEM Life</b> chronicles the conferences, socials and life outside-of-the-lab of our team.</br>
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<b>Biobrick Construction</b> describes how our team build our parts and improved existing parts from the Parts Registry.</br>
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<b>Bio-Desulfurization</b> recounts the steps our team took to distribute and assess the efficiency of the DSZ bio-desulfurization pathway in a microbial consortia.</div>
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<b>Consortia Dynamics</b> details our team's efforts in measuring population ratios within microbial consortia based on fluorescence readings.</br>
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<b>Consortia Tunability</b> elucidates our team's progress in creating easily tunable microbial consortia based on interdependent auxotrophies.
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Revision as of 02:38, 29 September 2012

British Columbia - 2012.igem.org
UBC iGEM 2012 notebook

Welcome to our Notebook

Our Notebook is sorted by sub-project. Please use the menu to navigate through our Notebook entries and follow our progress over the year.
UBC iGEM Life chronicles the conferences, socials and life outside-of-the-lab of our team.
Biobrick Construction describes how our team build our parts and improved existing parts from the Parts Registry.
Bio-Desulfurization recounts the steps our team took to distribute and assess the efficiency of the DSZ bio-desulfurization pathway in a microbial consortia.
Consortia Dynamics details our team's efforts in measuring population ratios within microbial consortia based on fluorescence readings.
Consortia Tunability elucidates our team's progress in creating easily tunable microbial consortia based on interdependent auxotrophies.