Team:Tokyo-NoKoGen

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<H2>welcome to our team wiki!</H2>
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<div align="center"><H2><font size="27">welcome to our team wiki!</font></H2></div>
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<div class="imbox"><a href="https://static.igem.org/mediawiki/2012/thumb/9/95/Teamnokogen.JPG/800px-Teamnokogen.JPG" target="new"><img src="https://static.igem.org/mediawiki/2012/thumb/9/95/Teamnokogen.JPG/800px-Teamnokogen.JPG"></a></img><p class="caption">TeamNokoGen</p></div>
 
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<div class="imbox"><a href="https://static.igem.org/mediawiki/2012/thumb/9/95/Teamnokogen.JPG/800px-Teamnokogen.JPG"><img src="https://static.igem.org/mediawiki/2012/thumb/9/95/Teamnokogen.JPG/800px-Teamnokogen.JPG"></a></img><p class="caption">TeamNokoGen</p></div>
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<h3>1.Would any of your project ideas raise safety issues in terms of:
 
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<BR> researcher safety,
 
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<BR> public safety, or
 
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<BR> environmental safety?</h3>
 
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<br> Our project is not expected to raise any safety issues, with respect to the safety of the researchers or the general public. We also do not expect any environmental issues or any risks of malicious use by individuals.
 
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<p>  We will only use typical laboratory E. coli strains (e.g., DH5α) and the engineering experiments we plan to carry out will not introduce any genes that are related to pathogenicity or virulence, or confer any selective advantage were they to be inadvertently or intentionally (maliciously) released into the environment.
 
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<br>  Our laboratory work will be carried out in the laboratories of Prof. Sode (Chief instructor), Prof. Ikebukuro (instructor), Associate Prof. Tsugawa, and Assistant Prof. Ferri (Organizer), which have a biosafety level 2 facility to handle microorganisms and perform genetic engineering experiments. All the bacteria we handle, whether genetically modified or not, will be either stored at -80°C for future use or disposed of after autoclaving.
 
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<h3>2.Do any of the new BioBrick parts (or devices) that you made this year raise any safety issues?</h3>
 
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<br>No,they don’t. Our BioBrick parts do not possess any safety risk for environment and researches. We will make a new BioBrick part that emits bioluminescence. This part is natively expressed in Photobacterium that is non-harmful marine bacterium and we will clone it from that bactera. We are also trying to make light receptor to regulate gene expressing network. We will use BioBrick parts that have already registered as a material to make the network. Thus our new BioBrick part will not raise any safety issues.
 
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<div align="center"><img src="https://static.igem.org/mediawiki/2012/6/6a/Run_communicheria.gif" width="700" height="70"</img></div>
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We created an <i>E. coli</i> for long distance communication. This “<i>Communicheria coli</i>” was inspired by the Pony Express, a rapid mail delivery service in the American Wild West, where mail was relayed by horseback riders. <i>Communicheria coli</i> sends a message, in the form of light, to distant cells, which then relay the message to other distant cells.
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<i>Communicheria coli</i> has light sensors constructed using the light receptor domain of bacterial sensory rhodopsin or the cyanobacterial green light sensor CcaS. In response to light signals, cells will induce their own lux operon to send the message to other distant cells, for example in a separate flask, which will in turn relay the message to other distant cells.
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To improve the effectiveness of our new signal delivery system, we set out to enhance the light intensity, change the light color, and shorten the response time.
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<h3>3.Is there a local biosafety group, committee, or review board at your institution? If yes, what does your local biosafety group think about your project?</h3>
 
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<br>Yes, our institution has own biosafety rules. The Gene Research Center of the Tokyo University of Agriculture and Technology Research Center for Science and Technology [http://www.tuat.ac.jp/%7Eidenshi/index.html (only in Japanese)] deals with biosafety issues. All students have to read the provided guidelines and apply for permission to do genetic engineering before we actually start experiments. All our members had read the guidelines and signed for agreement, and we all have been permitted to carry out genetic engineering experiments.
 
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We did not discuss our project directly with our Institutional Biosafety Committee, but we do follow their regulations and guidelines. Our instructors are monitoring our experiments closely, and they have not identified any safety issues.
 
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<h3>4. Do you have any other ideas how to deal with safety issues that could be useful for future iGEM competitions? How could parts, devices and systems be made even safer through biosafety engineering?</h3>
 
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<br>We think that there is a need to consider safety in three different aspects: researcher’s safety, public safety, environmental safety.
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<br>First, for researcher’s own safety, we think there is a need to add an extra column for registry, to precisely fill in which organism the gene is derived from.
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<br>Next, for public safety, we think it is important to know about the genes we are handling with. Therefore, to help us learn, the system can include a small quiz that we need to answer before registering any biobrick parts.
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<br>Finally, for environmental safety, we should make a check list that each team MUST check, before carrying out any experiments or registering new iGEM parts.
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<h2><a href="https://2012.igem.org/Team:Tokyo-NoKoGen/past_home_page">past home page</a></h2>
 
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Latest revision as of 03:08, 27 September 2012

welcome to our team wiki!

TeamNokoGen




C o l i  e x p r e s s


  We created an E. coli for long distance communication. This “Communicheria coli” was inspired by the Pony Express, a rapid mail delivery service in the American Wild West, where mail was relayed by horseback riders. Communicheria coli sends a message, in the form of light, to distant cells, which then relay the message to other distant cells. Communicheria coli has light sensors constructed using the light receptor domain of bacterial sensory rhodopsin or the cyanobacterial green light sensor CcaS. In response to light signals, cells will induce their own lux operon to send the message to other distant cells, for example in a separate flask, which will in turn relay the message to other distant cells. To improve the effectiveness of our new signal delivery system, we set out to enhance the light intensity, change the light color, and shorten the response time.


※We are sorry, but, if you use Internet Explorer (by Microsoft), this wiki sometimes won't work correctly.