Team:Cambridge-JIC

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                        <h1>Cambridge JIC</h1>
 
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                        <h4>Welcome to the page for the Cambridge University team,<br />affiliated with the John Innes Centre in Norwich.</h4>
 
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                    <h2 class="section-heading">mösbi - a plant biosensor for everyone</h2>
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                    <p class="lead"><b>mӧsbi</b> stands for <b>m</b>archantia <b>o</b>pen-<b>s</b>ource <b>bi</b>osensor. mӧsbi encapsulates the team's vision of creating a user-friendly, open-source biosensor using the liverwort <i>Marchantia polymorpha</i>. With its sturdy genetic framework and modularity, mӧsbi represents a new step in popularising synthetic biology and making it accessible to a large audience. Click <a href="https://2014.igem.org/Team:Cambridge-JIC/Project/Overview">here</a> to find out more.</p>
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                    <h2 class="section-heading"><i>Marchantia polymorpha</i> as a new chassis</h2>
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                    <p class="lead"> <i><b>Marchantia polymorpha</b></i> is our novel, eukaryotic multicellular chassis. Being a liverwort, it is one of the most primitive land plants around. Its small size and relative genetic simplicity make it easy to work with and an exciting new model organism in synthetic biology. Content to grow on agar plates, marchantia can be bioengineered in a standard lab with minimal extra equipment. Click <a href="https://2014.igem.org/Team:Cambridge-JIC/Marchantia/Background">here</a> to find out more about the plant and our work to develop the chassis; and <a href="https://2014.igem.org/Team:Cambridge-JIC/Guide">here</a> to learn how to get started using <i>Marchantia</i> in your own iGEM project.</p>
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                <h2 class="section-heading">PhytoSpy: A modular plant biosensor</h2>
 
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                        <dt>Aim</dt>
 
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                        <p> Build a modular biosensor using, for the first time in iGEM, the lower plant chassis Marchantia Polymorpha.<br><br><br><br><br><br>Click <a href="Team:Cambridge-JIC/Project">here</a> to read more about our project.</p>
 
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                        <dt>Plan </dt>
 
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                        <p> Use Marchantia as a flexible biosensor. The input, processing and output functionality are parceled into separate modules which are linked using transcription factors and inducible promoters. The modules can be interchanged, allowing many devices to be constructed from the same library of components.</p>
 
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                        <p> Produce input, processing and output modules in separate plants which can be combined through Mendelian crossing. We want to make plant biosensors accessible to the home enthusiast in the same way that electronics is made accessible by Arduino. </p>
 
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                    <h2 class="section-heading">Results</h2>
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                    <p class="lead">We successfully transformed hundreds of individual plants, resulting in the first expression of chromoproteins in <i>Marchantia</i>, and probably the first expression of chromoproteins in any plant. We successfully built an arduino-controlled growth chamber, characterised an enzyme new to iGEM and amended the community's knowledge of an existing registry entry. A known <i>Marchantia</i> promoter was also added to the registry, along with 27 candidate promoters from the <i>Marchantia</i>genome. They are part of a <i>Marchantia</i> starter kit part collection that also includes terminators, direction sequences, etc. Finally, we submitted an RFC with collaboration of two other iGEM teams, establishing a unified Type IIS based grammar for plant synthetic biologist: PlantSyntax. Click <a href="https://2014.igem.org/Team:Cambridge-JIC/Results/Lab">here</a> for more result details, and <a href="https://2014.igem.org/Team:Cambridge-JIC/ExecSummary">here</a> for our executive summary.</p>
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                    <h2 class="section-heading">Our team</h2>
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                    <p class="lead">We are 9 Cambridge science undergraduates from various backgrounds and with all kinds of fascinating and curious interests. Click <a href="https://2014.igem.org/Team:Cambridge-JIC/Team">here</a> to learn more about the team.</p>
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                    <h2 class="section-heading">Our team</h2>
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                    <p class="lead">Click <a href="https://2014.igem.org/Team:Cambridge-JIC/Team">here</a> to meet the team</p>
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Latest revision as of 01:17, 18 October 2014

Cambridge iGEM 2014



mösbi - a plant biosensor for everyone

mӧsbi stands for marchantia open-source biosensor. mӧsbi encapsulates the team's vision of creating a user-friendly, open-source biosensor using the liverwort Marchantia polymorpha. With its sturdy genetic framework and modularity, mӧsbi represents a new step in popularising synthetic biology and making it accessible to a large audience. Click here to find out more.


Marchantia polymorpha as a new chassis

Marchantia polymorpha is our novel, eukaryotic multicellular chassis. Being a liverwort, it is one of the most primitive land plants around. Its small size and relative genetic simplicity make it easy to work with and an exciting new model organism in synthetic biology. Content to grow on agar plates, marchantia can be bioengineered in a standard lab with minimal extra equipment. Click here to find out more about the plant and our work to develop the chassis; and here to learn how to get started using Marchantia in your own iGEM project.


Results

We successfully transformed hundreds of individual plants, resulting in the first expression of chromoproteins in Marchantia, and probably the first expression of chromoproteins in any plant. We successfully built an arduino-controlled growth chamber, characterised an enzyme new to iGEM and amended the community's knowledge of an existing registry entry. A known Marchantia promoter was also added to the registry, along with 27 candidate promoters from the Marchantiagenome. They are part of a Marchantia starter kit part collection that also includes terminators, direction sequences, etc. Finally, we submitted an RFC with collaboration of two other iGEM teams, establishing a unified Type IIS based grammar for plant synthetic biologist: PlantSyntax. Click here for more result details, and here for our executive summary.


Our team

We are 9 Cambridge science undergraduates from various backgrounds and with all kinds of fascinating and curious interests. Click here to learn more about the team.