Difference between revisions of "Team:Stanford-Brown/Projects"
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<h2 class="featurette-heading">But how? <span class="small"> with the following projects below</span></h2> | <h2 class="featurette-heading">But how? <span class="small"> with the following projects below</span></h2> | ||
<p class="lead">Donec ullamcorper nulla non metus auctor fringilla. Vestibulum id ligula porta felis euismod semper. Praesent commodo cursus magna, vel scelerisque nisl consectetur. Fusce dapibus, tellus ac cursus commodo.</p> | <p class="lead">Donec ullamcorper nulla non metus auctor fringilla. Vestibulum id ligula porta felis euismod semper. Praesent commodo cursus magna, vel scelerisque nisl consectetur. Fusce dapibus, tellus ac cursus commodo.</p> | ||
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<h2 class="featurette-heading">Polyhydroxyalkanoates <span class="small">Optimizing the production of biological PHA</span></h2> | <h2 class="featurette-heading">Polyhydroxyalkanoates <span class="small">Optimizing the production of biological PHA</span></h2> | ||
<p class="lead">Donec ullamcorper nulla non metus auctor fringilla. Vestibulum id ligula porta felis euismod semper. Praesent commodo cursus magna, vel scelerisque nisl consectetur. Fusce dapibus, tellus ac cursus commodo.</p> | <p class="lead">Donec ullamcorper nulla non metus auctor fringilla. Vestibulum id ligula porta felis euismod semper. Praesent commodo cursus magna, vel scelerisque nisl consectetur. Fusce dapibus, tellus ac cursus commodo.</p> | ||
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<h2 class="featurette-heading">C.A.S.H.<span class="small"> Cellulose Associated Spore HYDRAS, or a biological contractile mechanism</span></h2> | <h2 class="featurette-heading">C.A.S.H.<span class="small"> Cellulose Associated Spore HYDRAS, or a biological contractile mechanism</span></h2> | ||
<p class="lead">Based on work done by Chen et al. at Columbia university, we sought to employ the contractile properties of bacterial spores to use as a contractile mechanism for biOrigami.</p> | <p class="lead">Based on work done by Chen et al. at Columbia university, we sought to employ the contractile properties of bacterial spores to use as a contractile mechanism for biOrigami.</p> | ||
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<h2 class="featurette-heading">CRATER <span class="small">Crisper Assited Transformation Efficient Reaction</span></h2> | <h2 class="featurette-heading">CRATER <span class="small">Crisper Assited Transformation Efficient Reaction</span></h2> |
Revision as of 05:55, 25 August 2015
Welcome to our Projects BiOrigami
See our projects below
But how? with the following projects below
Donec ullamcorper nulla non metus auctor fringilla. Vestibulum id ligula porta felis euismod semper. Praesent commodo cursus magna, vel scelerisque nisl consectetur. Fusce dapibus, tellus ac cursus commodo.
Polystyrene Engineering E. coli to produce polystyrene
Donec ullamcorper nulla non metus auctor fringilla. Vestibulum id ligula porta felis euismod semper. Praesent commodo cursus magna, vel scelerisque nisl consectetur. Fusce dapibus, tellus ac cursus commodo.
Polyhydroxyalkanoates Optimizing the production of biological PHA
Donec ullamcorper nulla non metus auctor fringilla. Vestibulum id ligula porta felis euismod semper. Praesent commodo cursus magna, vel scelerisque nisl consectetur. Fusce dapibus, tellus ac cursus commodo.
C.A.S.H. Cellulose Associated Spore HYDRAS, or a biological contractile mechanism
Based on work done by Chen et al. at Columbia university, we sought to employ the contractile properties of bacterial spores to use as a contractile mechanism for biOrigami.
CRATER Crisper Assited Transformation Efficient Reaction
Donec ullamcorper nulla non metus auctor fringilla. Vestibulum id ligula porta felis euismod semper. Praesent commodo cursus magna, vel scelerisque nisl consectetur. Fusce dapibus, tellus ac cursus commodo.