Team:UST-Beijing

From 2011.igem.org

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     <td><h2>Safety</h2>
     <td><h2>Safety</h2>
       <p class="STYLE11">We had a serious discussion before and we asked ourselves the following four questions. And of course, We got the answers. </p>
       <p class="STYLE11">We had a serious discussion before and we asked ourselves the following four questions. And of course, We got the answers. </p>
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       <p><span class="STYLE11"><strong>1.Would any of your project ideas raise safety issues in terms of: researcher  safety, public safety, or environmental safety?</strong> Since modern time molecular  biology and gene engineering is a &quot;reverse engineering&quot; process, which means  that we discover and acquire research tools from the existing genes and  structures, our iGEM projects in theory might influence natural and existing  biological structures and functions in our laboratory.However, any reagents made in our lab is not infectious or contiguous; even in  the case of being released by accident, will not impose safety threats to our  lab members, people around us, general public, or environment in general. Early  pioneers of molecular biology developed a self-disciplined code of ethics to  prevent intentional usage of biological reagents, and engineered a stack of  laboratory-dependent species for research-only use to prevent unintentional  release and contamination of the environment. We plan to inherit the high  standard ethical code of action and common molecular biology reagents to meet  the requirement for human and environmental safety. In addition, we will  introduce biosafety issues and guide-lines to the undergraduate students of life  science major as an inseparable part of the academic curriculum to advocate  biosafety awareness and promote biosafety education. </span><a href="javascript:;" class="STYLE11">Read more &gt;</a></p>
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       <p><span class="STYLE11"><strong>1.Would any of your project ideas raise safety issues in terms of: researcher  safety, public safety, or environmental safety?</strong> Since modern time molecular  biology and gene engineering is a &quot;reverse engineering&quot; process, which means  that we discover and acquire research tools from the existing genes and  structures, our iGEM projects in theory might influence natural and existing  biological structures and functions in our laboratory.However, any reagents made in our lab is not infectious or contiguous; even in  the case of being released by accident, will not impose safety threats to our  lab members, people around us, general public, or environment in general. Early  pioneers of molecular biology developed a self-disciplined code of ethics to  prevent intentional usage of biological reagents, and engineered a stack of  laboratory-dependent species for research-only use to prevent unintentional  release and contamination of the environment. We plan to inherit the high  standard ethical code of action and common molecular biology reagents to meet  the requirement for human and environmental safety. In addition, we will  introduce biosafety issues and guide-lines to the undergraduate students of life  science major as an inseparable part of the academic curriculum to advocate  biosafety awareness and promote biosafety education. </span><a href="javascript:;" class="STYLE11">Read more &gt;</a></p><td><a href=https://2011.igem.org/Team:UST-Beijing/safety class="navText">Safety</a></td>
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     <td width="203" valign="top"><h2>Notebook</h2></td>
     <td width="203" valign="top"><h2>Notebook</h2></td>

Revision as of 07:00, 19 August 2011

<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Transitional//EN" "http://www.w3.org/TR/xhtml1/DTD/xhtml1-transitional.dtd"> Home Page

 

Header image  

UST-Beijing

 

 
 
 

 
 
Welcome to UST-Beijing

 


Image 1 Visual of our campus
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Image 2

Back to the Team Wikis
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Back to the Main_Page

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Instructors

Prof.Ching Song

Doc. Huai Zhang

 

PROJECT

We using lacI DNA-binding domain and LXRbeta ligand-binding domain, we made an artificial bile acid receptor which can regulate expression of target gene within a natural lacI operon. As proof of principle, we demonstrate that regulation of bacteria gene expression by host eukaryocyte metabolites is achievable using chimeric nuclear receptors. Through directed molecular evolution, a harmonious signal network regulating metabolism of both prokaryocytes and their host eukaryocytes in the digestive tract is feasible.

 

 

 

 

Parts Submitted to the Registry

 

 
Acknowledgement

TEAM

These are our team members for the 2011 iGEM, Do you want to know more about us ? click here>

 

sponsors

Safety

We had a serious discussion before and we asked ourselves the following four questions. And of course, We got the answers.

1.Would any of your project ideas raise safety issues in terms of: researcher safety, public safety, or environmental safety? Since modern time molecular biology and gene engineering is a "reverse engineering" process, which means that we discover and acquire research tools from the existing genes and structures, our iGEM projects in theory might influence natural and existing biological structures and functions in our laboratory.However, any reagents made in our lab is not infectious or contiguous; even in the case of being released by accident, will not impose safety threats to our lab members, people around us, general public, or environment in general. Early pioneers of molecular biology developed a self-disciplined code of ethics to prevent intentional usage of biological reagents, and engineered a stack of laboratory-dependent species for research-only use to prevent unintentional release and contamination of the environment. We plan to inherit the high standard ethical code of action and common molecular biology reagents to meet the requirement for human and environmental safety. In addition, we will introduce biosafety issues and guide-lines to the undergraduate students of life science major as an inseparable part of the academic curriculum to advocate biosafety awareness and promote biosafety education. Read more >

Safety

Notebook