Difference between revisions of "Team:UC Davis/Attributions"
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<p>This summer I produced an app that calculates your antimicrobial footprint and raises awareness about the unnecessary and potentially harmful ubiquity of antimicrobials in our environment. I also put together the wiki.</p> | <p>This summer I produced an app that calculates your antimicrobial footprint and raises awareness about the unnecessary and potentially harmful ubiquity of antimicrobials in our environment. I also put together the wiki.</p> | ||
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| + | <h1>Joanne Wu </h1> | ||
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| + | <p>Hello, I am Logan Vinson a fourth year Genetics and Genomics major at UC Davis. My career interests include genetic monitoring and breeding selection for endangered species and populations under inbred depression and genetic bottleneck. In my spare time I enjoy rock climbing and engineering. I first found out about iGEM while i was at my junior college by my biology professor. She told me about the competition after i had expressed interest in genetic manipulation and synthetic biology. Ever since then i had made it my personal and professional goal to compete in iGEM.</p> | ||
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| + | <p>This summer I worked on genetic assembly and integration, expression and protein purification. I also helped with outreach and data collection. </p> | ||
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<h4>Dr. Justin Siegel - <I> Advisor </I></h4> | <h4>Dr. Justin Siegel - <I> Advisor </I></h4> | ||
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<i>University of California Davis, Department of Biochemistry and Molecular Medicine and School of Medicine </i> <br> | <i>University of California Davis, Department of Biochemistry and Molecular Medicine and School of Medicine </i> <br> | ||
My scientific efforts are focused on combining computational and experimental tools to develop a fundamental knowledge of enzyme catalysis, and applying those principles to design novel proteins of therapeutic or commercial interest. Currently I am working with an international community on the development of Rosetta computational methodology for predicting and designing macromolecular structures, interactions, and functions. Using this methodology I have completed the de novo design of enzymes capable of catalyzing chemical reactions not found in nature, such as the Diels-Alder reaction. This was followed up by working with an online community, Foldit, to further engineer these proteins for enhanced activity. Most recently I have worked on the redesign of naturally occurring enzymes for the degradation of immunogenic gluten proteins, to develop a novel CO2 fixation pathways, and design of a novel anthrax therapeutic. My current focus is on the design of novel biofuel and commodity chemical biosynthetic pathways, the development of novel therapeutics, and the general understanding of the relationship between protein sequence, structure, and function. | My scientific efforts are focused on combining computational and experimental tools to develop a fundamental knowledge of enzyme catalysis, and applying those principles to design novel proteins of therapeutic or commercial interest. Currently I am working with an international community on the development of Rosetta computational methodology for predicting and designing macromolecular structures, interactions, and functions. Using this methodology I have completed the de novo design of enzymes capable of catalyzing chemical reactions not found in nature, such as the Diels-Alder reaction. This was followed up by working with an online community, Foldit, to further engineer these proteins for enhanced activity. Most recently I have worked on the redesign of naturally occurring enzymes for the degradation of immunogenic gluten proteins, to develop a novel CO2 fixation pathways, and design of a novel anthrax therapeutic. My current focus is on the design of novel biofuel and commodity chemical biosynthetic pathways, the development of novel therapeutics, and the general understanding of the relationship between protein sequence, structure, and function. | ||
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Revision as of 04:49, 14 September 2015
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University of California Davis, Department of Biochemistry and Molecular Medicine and School of Medicine 
