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Team:Peking R
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<th width="733" scope="col"><p class="mainbody">In our project, we are aiming at establishing an<span class="project"> <span class="ziti">extensible</span></span> and <span class="project">versatile platform</span> for the <span class="project">softcoding of genetic program</span> in bacteria, composed of a <span class="project">toolbox</span> and a <span class="project">methodology</span> --The toolbox consists of interoperable and truly <span class="project">modular ligand-responsive riboswitches/ribozymes</span>, while the methodology is <span class="project">automated design</span><span class="mainbody"> of <span class="project">synthetic ribosome binding sites</span></span> (RBS) with customized <span class="project">translation rate</span>. When combining them together, a quantitative correlation between the concentration of specific ligand and synthetic RBS strength can be established. To learn more, please <a href="https://2011.igem.org/Team:Peking_R/Project/zmq" class="project"><span class="project">click</span></a> here.</p><p class="mainbody"> </p></th> | <th width="733" scope="col"><p class="mainbody">In our project, we are aiming at establishing an<span class="project"> <span class="ziti">extensible</span></span> and <span class="project">versatile platform</span> for the <span class="project">softcoding of genetic program</span> in bacteria, composed of a <span class="project">toolbox</span> and a <span class="project">methodology</span> --The toolbox consists of interoperable and truly <span class="project">modular ligand-responsive riboswitches/ribozymes</span>, while the methodology is <span class="project">automated design</span><span class="mainbody"> of <span class="project">synthetic ribosome binding sites</span></span> (RBS) with customized <span class="project">translation rate</span>. When combining them together, a quantitative correlation between the concentration of specific ligand and synthetic RBS strength can be established. To learn more, please <a href="https://2011.igem.org/Team:Peking_R/Project/zmq" class="project"><span class="project">click</span></a> here.</p><p class="mainbody"> </p></th> | ||
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<th scope="row"><p class="mainbody">We are planning to submit a set of <span class="parts">riboswitches/ribozymes</span> which can response to different <span class="parts">ligands</span>. Besides, we are going to hand in parts containing vio operon which are optimized to produce more<span class="parts"> violacein</span> in bacteria.Click <a href="https://2011.igem.org/Team:Peking_R/Parts/zmq"><span class="parts">here</span></a> to learn more.</p></th> | <th scope="row"><p class="mainbody">We are planning to submit a set of <span class="parts">riboswitches/ribozymes</span> which can response to different <span class="parts">ligands</span>. Besides, we are going to hand in parts containing vio operon which are optimized to produce more<span class="parts"> violacein</span> in bacteria.Click <a href="https://2011.igem.org/Team:Peking_R/Parts/zmq"><span class="parts">here</span></a> to learn more.</p></th> | ||
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Revision as of 04:02, 3 October 2011
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In our project, we are aiming at establishing an extensible and versatile platform for the softcoding of genetic program in bacteria, composed of a toolbox and a methodology --The toolbox consists of interoperable and truly modular ligand-responsive riboswitches/ribozymes, while the methodology is automated design of synthetic ribosome binding sites (RBS) with customized translation rate. When combining them together, a quantitative correlation between the concentration of specific ligand and synthetic RBS strength can be established. To learn more, please click here.
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To know more about us and our work, please visit our Team page and our Notebook. |
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We are planning to submit a set of riboswitches/ribozymes which can response to different ligands. Besides, we are going to hand in parts containing vio operon which are optimized to produce more violacein in bacteria.Click here to learn more. |
This part shows our human practice project concernning on how the development synthetic biology affects the process of horizontal gene transfer between bacteria and influences public health. To learn more, please click here |
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This part describes measures taken to ensure biosafety in our project, answering frequently asked questions concerning environment and public health. To get more information, please click here. |
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It's an unforgettable summer we fight for our dreams and the honour of Peking iGEM team. Photos recorded every footprint of everyone. Please click here to join us together! |
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