Team:Concordia/Project

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<h1><a href="https://2014.igem.org/Team:Concordia">iGEM Concordia 2014</a></h1>
<h1><a href="https://2014.igem.org/Team:Concordia">iGEM Concordia 2014</a></h1>
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<p><a href="https://2014.igem.org/Team:Concordia">Clean Green Lipid Machine</a></p>
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<p><a href="https://2014.igem.org/Team:Concordia">Clean Green Lipid Machines: Synthetic Biology Tools for Microalgae</a></p>
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<li><a href="https://2014.igem.org/Team:Concordia">Homepage</a></li>
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        <li><a href="https://2014.igem.org/Team:Concordia/Parts">The Parts</a></li>
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<li><a href="https://2014.igem.org/Team:Concordia/Notebook">The Notebook</a></li>
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      <li class="outerli"><a class="outera" href="https://2014.igem.org/Team:Concordia">Homepage</a></li>
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      <li class="outerli"><a id="maintab" class="outera" href="https://2014.igem.org/Team:Concordia/Project">The Project</a>
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        <li class="innerli"><a class="innera" href="https://2014.igem.org/Team:Concordia/Project/Sustainability">Sustainability</a></li>
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        <li class="innerli"><a class="innera" href="https://2014.igem.org/Team:Concordia/Project/Introduction">Introduction</a></li>
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        <li class="innerli"><a class="innera" href="https://2014.igem.org/Team:Concordia/Project/Microalgae">Microalgae</a></li>
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        <li class="innerli"><a class="innera" href="https://2014.igem.org/Team:Concordia/Project/Toolkit">Toolkit</a></li>
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      <li class="outerli"><a class="outera" href="https://2014.igem.org/Team:Concordia/Parts">The Parts</a></li>
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   <h2>An introduction:</h2>
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   <h2>Project Abstract</h2>
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  <p>Unicellular microalgae are a varied group of organisms with excellent potential in applied and exploratory synthetic biology. With their photosynthetic and mixotrophic abilities, these organisms have the promise of becoming platforms for carbon-neutral production of both high-value and inexpensive metabolites. Starting with the goal of making microalgae an easier to engineer chassis, we set out to create a specialized toolkit of standardized biological parts. We strove to characterize a complete range of microalgal parts, including promoters, terminators, fluorescent proteins, localization tags, antibiotic markers, and CRISPR/Cas. The diverse group of species we used included four distinct <em>Chlorella spp.</em> and <em>Chlamydomonas reinhardtii</em>. These species display a broad range of growth conditions and metabolic profiles. With the creation of standardized tools for the stable engineering of microalgae, the community will be able to continue asking deeper questions about basic biology and, drastically increase the promise of microalgae as industrial hosts.<p>
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  <p>Unicellular microalgae are a varied group of organisms with excellent potential in applied and exploratory synthetic biology. Compared with the majority of other model and industrial organisms, most microalgae have the environmentally beneficial distinction of being able to carry out photosynthesis. With their photosynthetic and mixotrophic abilities, these organisms have the promise of becoming platforms for carbon-neutral production of both high value and inexpensive metabolites. Additionally, microalgae have the capability to express genes from plants, fungi and prokaryotes making them ideal hosts for combinatorial recombinant gene expression. </p>
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  <p>Non-engineered strains are already being used for biofuels and lipids. With the creation of standardised tools for the stable engineering of microalgae, the community will be able to continue asking deeper questions about basic biology and, drastically increase the promise of microalgae as an industrial chassis.</p>
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  <p>By building and characterising tools for genome scale engineering of multiple genera of microalgae, the Concordia iGEM team has opened a new world for the use of industrially relevant photosynthetic microbes by iGEM teams and researchers alike.
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  <h2>The Concordia Microalgae Toolkit:</h2>
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  <p>Starting with the goal of making microalgae a viable platform in synthetic biology, we set out to create a toolkit of standardised biological parts for use in these organisms. We chose to work with a diverse group of species that included Chlorella vulgaris, Chlorella ellipsodia, Chlorella saccharophilea, Chlorella kessleri, and Chlamydomonas reinhardtii. These species present a broad range of optimum growth conditions and metabolic profiles. </p>
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  <p>Characterised parts in our toolkit include promoters, terminators, fluorescent proteins, localisation tags, antibiotic markers, and CRISPR/Cas. </p>
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<div id="nextpage"><p><a href="https://2014.igem.org/Team:Concordia/Project/Sustainability">Sustainability  --></a></p></div>
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  <p>Our promoter library offers plant, fungal, and viral promoters of varying strengths for control of heterologous gene expression in microalgae. Our terminators were compared alongside a variety of these promoters. Multiple localization signals were investigated to enable a user to perform targeted gene expression. We also systematically characterised the effective concentration ranges for antibiotic use in a manner not yet seen for microalgae. </p>
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  <p>CRISPR/Cas systems have revolutionized genome engineering efforts by providing a quick and efficient means of inserting and deleting DNA from the host’s genome. Our toolkit set out to demonstrate the ability to perform targeted multi-plex genome engineering of microalgae in a manner accessible to any researcher.</p>
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Latest revision as of 22:36, 17 October 2014

iGEM Concordia 2014

Project Abstract

Unicellular microalgae are a varied group of organisms with excellent potential in applied and exploratory synthetic biology. With their photosynthetic and mixotrophic abilities, these organisms have the promise of becoming platforms for carbon-neutral production of both high-value and inexpensive metabolites. Starting with the goal of making microalgae an easier to engineer chassis, we set out to create a specialized toolkit of standardized biological parts. We strove to characterize a complete range of microalgal parts, including promoters, terminators, fluorescent proteins, localization tags, antibiotic markers, and CRISPR/Cas. The diverse group of species we used included four distinct Chlorella spp. and Chlamydomonas reinhardtii. These species display a broad range of growth conditions and metabolic profiles. With the creation of standardized tools for the stable engineering of microalgae, the community will be able to continue asking deeper questions about basic biology and, drastically increase the promise of microalgae as industrial hosts.



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