Difference between revisions of "Team:Warwick/Project"

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<h4>Brixells</h4>

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<h4>Brixells: Achieving Spatial Organisation of Cells</h4>

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Our team's aim is to create a tool box allowing the selective allocation of specific cell types to an engineered DNA scaffold, using zinc finger binding proteins on an E. coli model. Our research would allow for the self assembly of complex multi-type cell structures. The project will advance in progressive bands of complexity: designing and cloning the zinc finger coated E. coli cells, constructing DNA structure to allow for the cells to bind, further development of the zinc finger binding proteins allowing for multiple cell types to coexist on the DNA structure, and finally designing complex 3-D structures that the cells will be able to self assemble into. This has possible applications throughout medicine. Our research would contribute potentially to 3-D printing organic tissues, allowing for customised living tissues to be engineered.

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<br><br><br><h5>Our aim is to develop a technique which allows precision control over the positioning of cells in space. </h5>

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</p>

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<~~dl class~~="~~tabs">~~

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<p><br>Our goal can be broken down into two main steps:

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~~<dd class="active"><a href="#simple1">E~~.~~Coli<~~/~~a><~~/dd>

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<ul>

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<~~dd class=""~~><~~a href="#simple2"~~>~~DNA Origami~~</a><~~/dd>~~

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<li> 1. Developing a method that enables cells to bind to a specific area. </li>

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~~<dd class=""><a href="#simple3"~~>Our ~~Idea</~~a></dd>

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<li> 2. Creating a target to which the cells can attach. </li>

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~~</dl>~~

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<~~ul class="tabs-content"~~>

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</ul>

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<~~li class="active" id="simple1Tab"~~>

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By modifying cells to express (and display) zinc finger proteins on their surface, we can engineer cells that have the ability to recognise and bind to specific sequences of double stranded DNA. The arrangement of these DNA strands can then allow the cells to be positioned in the desired area.

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<p>

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~~We have chosen to use~~ <i>E. ~~coli~~</i> ~~as the model for our concept for multiple reasons:~~

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<~~blockquote~~> ~~It is the one of the most studied microorganisms, any changed we make~~ to the ~~genome are unlikely to have unexpected results~~. </~~blockquote~~>

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~~<blockquote> When made electrocompetent or chemically competetent it readily accepts plasmids.~~ </~~blockquote~~>

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<br><br> Zinc finger proteins are intracellular molecules that recognise (and bind) unique strands of double stranded DNA. We expressed these zinc fingers on the surface of our cell by attaching them to transmembrane proteins.

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~~<blockquote> It has a rapid generation time so~~ we can ~~grow a lot~~ of it in ~~a short time period~~. ~~</blockquote>~~

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~~And most importantly:~~

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<br>Using 4 different zinc fingers and anchor proteins, we planned to optimise the system by finding the best combinations of zinc fingers to anchor proteins.

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<~~blockquote~~> ~~It can be cultured easily and inexpensively in a lab, so any mistakes we make when experimenting won't bankrupt us!~~ <~~/blockquote~~>

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</p>

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<br>By using immunofluorescence microscopy we were able to test the 2 main steps to achieving our goal. We looked at whether our anchor proteins were being expressed, as well as the binding between our zinc fingers and their unique binding domains.

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<~~div class="six columns noleftmargin"~~>

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~~<p>~~

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<h5>Accomplishments:</h5>

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<~~img src="" alt=""~~><b>~~Fun diagram~~ of ~~<i>E~~. ~~coli!</i></b>~~

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</p>

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<ul>

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<p>

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<li> Presenting at the iGEM Giant Jamboree (Boston) 2015.</li>

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<img src="https://static.igem.org/mediawiki/2015/e/e7/~~WarwickCell-ecoli~~.~~gif" alt="~~"><b>~~E.Coli Diagram~~</b>

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<li> Presenting at the Westminster iGEM meetup. </li>

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</p>

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<li> Submitting 6 new parts to the <a href= "https://2015.igem.org/Team:Warwick/Parts">registry</a>.</li>

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<~~/div~~>

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<li> Running sessions in schools to teach the students about synthetic biology.</li>

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</li>

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<li> Educating the general public about synthetic biology.</li>

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<li> <a href= "https://2015.igem.org/Team:Warwick/Collaborations">Collaborating</a> with various iGEM teams. </li>

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~~<p>~~

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<li> Hosting 6 interns. </li>

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~~Consectetur adipiscing elit~~. ~~Et non ex maxima parte de tota iudicabis? Item de contrariis, a quibus ad genera formasque generum.~~

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<li> Discussing our idea with professionals in<a href= "https://2015.igem.org/Team:Warwick/Modelling3"> 3D printing</a>.</li>

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</p>

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<li> Conducting a survey to gauge public opinion of synthetic biology.</li>

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<p>

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<li> Speaking to various researchers about how our idea could be used in their field in the <a href= "<a href= "https://2015.igem.org/Team:Warwick/PracticesFuture">future</a>.</li>

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<~~img src~~="~~images~~/~~check~~.~~png" alt="~~"> ~~genera formasque~~

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<li> Improving the <a href= "https://2015.igem.org/Team:Warwick/Description">characterisation</a> of part JO4450 in the registry.</li>

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</p>

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<li> Successfully campaigning for and receiving £34,550 in funding. </li>

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<p>

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<~~img src="images/check~~.~~png" alt=""> quibus ad genera~~

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</p>

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~~Et non ex maxima parte de tota iudicabis? Item de contrariis, a quibus ad genera formasque generum venerunt~~. ~~Sit enim idem caecus, debilis. Duo Reges: constructio interrete.~~

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<i>"~~Adipiscing elit~~. ~~Et non ex maxima parte de tota iudicabis? Item de contrariis, a quibus ad genera formasque generum~~."</i>

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Difference between revisions of "Team:Warwick/Project"

Latest revision as of 20:25, 18 September 2015

Open Menu

Brixells: Achieving Spatial Organisation of Cells

Our aim is to develop a technique which allows precision control over the positioning of cells in space.

Accomplishments:

CONTACT US

GET SOCIAL

ABOUT US

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 {{Warwick}}
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-<!-- SLIDER
-================================================== -->
-<div id="ei-slider" class="ei-slider">
-	<ul class="ei-slider-large">
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-		<a href="#link1"><img src="http://i.imgur.com/MEt7jjH.jpeg" alt="image10" class="responsiveslide"></a>
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 <!-- CONTENT
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 <div class="row">
-	<!-- PROJECT DESCRIPTION-->
+    <!-- MAIN CONTENT-->
-	<div class="twelve columns">
+	<div class="eight columns">
 		<div class="sectiontitle">
-			<h4>Brixells</h4>
+			<h4>Brixells: Achieving Spatial Organisation of Cells</h4>
-		</div>
+		</div></div>
-		<p>
+<img src="https://static.igem.org/mediawiki/2015/2/2c/Project_Description_Breakdown_Image.png">
-			Our team's aim is to create a tool box allowing the selective allocation of specific cell types to an engineered DNA scaffold, using zinc finger binding proteins on an E. coli model. Our research would allow for the self assembly of complex multi-type cell structures. The project will advance in progressive bands of complexity: designing and cloning the zinc finger coated E. coli cells, constructing DNA structure to allow for the cells to bind, further development of the zinc finger binding proteins allowing for multiple cell types to coexist on the DNA structure, and finally designing complex 3-D structures that the cells will be able to self assemble into. This has possible applications throughout medicine. Our research would contribute potentially to 3-D printing organic tissues, allowing for customised living tissues to be engineered.
+<br><br><br><h5>Our aim is to develop a technique which allows precision control over the positioning of cells in space. </h5>
-		</p>
-		<dl class="tabs">
+<p><br>Our goal can be broken down into two main steps:
-			<dd class="active"><a href="#simple1">E.Coli</a></dd>
+<ul>
-			<dd class=""><a href="#simple2">DNA Origami</a></dd>
+<li>  1.	Developing a method that enables cells to bind to a specific area. </li>
-			<dd class=""><a href="#simple3">Our Idea</a></dd>
+<li>  2.        Creating a target to which the cells can attach. </li>
-		</dl>
-		<ul class="tabs-content">
+</ul>
-			<li class="active" id="simple1Tab">
+By modifying cells to express (and display) zinc finger proteins on their surface, we can engineer cells that have the ability to recognise and bind to specific sequences of double stranded DNA. The arrangement of these DNA strands can then allow the cells to be positioned in the desired area.
-			<p>
-				 We have chosen to use <i>E. coli</i> as the model for our concept for multiple reasons:
+<br><br><b>What we did:</b>
-<blockquote> It is the one of the most studied microorganisms, any changed we make to the genome are unlikely to have unexpected results. </blockquote>
-<blockquote> When made electrocompetent or chemically competetent it readily accepts plasmids. </blockquote>
+<br><br> Zinc finger proteins are intracellular molecules that recognise (and bind) unique strands of double stranded DNA. We expressed these zinc fingers on the surface of our cell by attaching them to transmembrane proteins.
-<blockquote> It has a rapid generation time so we can grow a lot of it in a short time period. </blockquote>
-And most importantly:
+<br>Using 4 different zinc fingers and anchor proteins, we planned to optimise the system by finding the best combinations of zinc fingers to anchor proteins.
-<blockquote> It can be cultured easily and inexpensively in a lab, so any mistakes we make when experimenting won't bankrupt us! </blockquote>
-			</p>
+<br>By using immunofluorescence microscopy we were able to test the 2 main steps to achieving our goal. We looked at whether our anchor proteins were being expressed, as well as the binding between our zinc fingers and their unique binding domains.
-			<div class="six columns noleftmargin">
+<img src="https://static.igem.org/mediawiki/2015/8/8c/IanpictureiGEM.jpeg">
-				<p>
+<h5>Accomplishments:</h5>
-					<img src="" alt=""><b>Fun diagram of <i>E. coli!</i></b>
-				</p>
+<ul>
-				<p>
+<li> 	Presenting at the iGEM Giant Jamboree (Boston) 2015.</li>
-					<img src="https://static.igem.org/mediawiki/2015/e/e7/WarwickCell-ecoli.gif" alt=""><b>E.Coli Diagram</b>
+<li>	Presenting at the Westminster iGEM meetup. </li>
-				</p>
+<li>	Submitting 6 new parts to the <a href= "https://2015.igem.org/Team:Warwick/Parts">registry</a>.</li>
-						</div>
+<li>	Running sessions in schools to teach the students about synthetic biology.</li>
-			</li>
+<li>	Educating the general public about synthetic biology.</li>
-			<li class="" id="simple2Tab">
+<li>	<a href= "https://2015.igem.org/Team:Warwick/Collaborations">Collaborating</a> with various iGEM teams. </li>
-			<p>
+<li>	Hosting 6 interns. </li>
-				 Consectetur adipiscing elit. Et non ex maxima parte de tota iudicabis? Item de contrariis, a quibus ad genera formasque generum.
+<li>	Discussing our idea with professionals in<a href= "https://2015.igem.org/Team:Warwick/Modelling3"> 3D printing</a>.</li>
-			</p>
+<li>	Conducting a survey to gauge public opinion of synthetic biology.</li>
-			<p>
+<li>	Speaking to various researchers about how our idea could be used in their field in the <a href= "<a href= "https://2015.igem.org/Team:Warwick/PracticesFuture">future</a>.</li>
-				<img src="images/check.png" alt=""> genera formasque
+<li>	Improving the <a href= "https://2015.igem.org/Team:Warwick/Description">characterisation</a> of part JO4450 in the registry.</li>
-			</p>
+<li>	Successfully campaigning for and receiving £34,550 in funding.  </li>
-			<p>
-				<img src="images/check.png" alt=""> quibus ad genera
+</p>
-			</p>
-			<p>
-				 Et non ex maxima parte de tota iudicabis? Item de contrariis, a quibus ad genera formasque generum venerunt. Sit enim idem caecus, debilis. Duo Reges: constructio interrete.
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-				<i>"Adipiscing elit. Et non ex maxima parte de tota iudicabis? Item de contrariis, a quibus ad genera formasque generum."</i>
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