Team:Grenoble/Safety

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<h2 class="lien"id="Paragraphe1">Welcome on our first version of the Wiki !<span> By JB</span></h2>
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<p >This is a temporary version of the Wiki, you might find some blank pages as entire sections are currently under construction. We are working night and day and even more to share our work with other people. We'll be happy to see you around again on these pages in a few days</p>
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<h2>Safety<span>Felix & Eric</span></h2>
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<p>
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Manipulation of living organism allows producing artificial form of life and metabolism. These modifications, although well controlled, require application of the precautionary principle. Caution involves the implementation of different blocking to limit the propagation of these organisms in the nature: <br>
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      <ul>
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        <li> Nutritional blocking: organisms could survive only with artificial substances. In this way, in case of release into the nature such organisms would die. </li>
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        <li> Evolutionary blocking: organisms couldn’t adapt themselves and evolve alone in the nature. This blocking prevents mutations of the organisms that allow them to survive. </li>
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        <li> Preprogrammed cellular death: implementation of a suicide gene which is inhibited during wet work. In this way, organisms couldn’t survive outside the laboratory. </li>
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      </ul>
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<img class="icon" src="https://static.igem.org/mediawiki/2011/3/38/Geof.jpg"/>
 
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<a href="http://syntheticbiology.org/">
 
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<h2 class="lien"id="Paragraphe2">iGEM and the future of synthetic biology<span>By Geoffrey</span></h2>
 
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<p>Now booming, synthetic biology is a scientific field that divides the world into 2 parts. On the one hand, people who believe it will change science and our life. On the over hand, people who believe that synthetic biology is dangerous and it simply means playing God.</p>
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<p>
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Through the iGEM competition, we face to the risks of synthetic biology. So it’s important to deal with safety issues our project could cause.
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<p>Like all new domains of science, many questions may be raised about synthetic biology. Albert Einstein said: “It is strange that science which before seemed to be inoffensive will be turned into a nightmare that frightens everyone”. The goal of iGEM competition is to promote synthetic biology in the scientific community, but also to inform the public about this new science. Synthetic biology is a very controlled science to prevent side-effects and many countries such as France move to a strong legislative supervision in order to respect the ethical issues related to the modification of life.</p>
 
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<p>According to the <a href="http://www.bulletins-electroniques.com/actualites/66814.htm">newsletter of the French Embassy to the United States</a>, the international scientific community recognizes the dangers of synthetic biology and it must identify them precisely. It has especially given to the competition iGEM an important educational role for the scientific community of tomorrow.</p>
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  <ol>
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    <li><strong>Would any of your project ideas raise safety issues in terms of:
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      </strong>
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      <ul>
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<p>However, synthetic biology is a science with an extraordinary potential. Technological advances it could bring are huge. The fields of application are vast, from agriculture to medicine through the environment and energy, synthetic biology offers new possibilities and new alternatives to current technologies. The iGEM competition directly contributes to advance research in all these fields by enabling student teams to contribute in <a href="https://igem.org/Team_Tracks?year=2011">these categories</a>.</p>
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        <li> researcher safety, </li>
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        <li> public safety, or </li>
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        <li> environmental safety? </li>
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      </ul>
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    </li>
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<p>"Open source" policy conveyed by iGEM allows the world to take advantage of advances in this field and thus to improve every year the level of competition and projects. And we can say that the objective is on track, because the number of teams participating in this competition is <a href="https://igem.org/Previous_iGEM_Competitions">constantly increasing</a>.</p>
 
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<p>
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Our project is based on the utilization of mercury, which raises questions about security for the researcher but also for the public and the environment. Mercury is an element that has toxic effects on brain and renal function. During our project, mercury is conserved in the laboratory and is subjected to special treatment for elimination of heavy metals. About searchers, protections are simpler: it is necessary to work without contaminating the material. If it is contaminated, it shall not be touched with bare hands. Hence the use of protective equipment.
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</div>
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<p>
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We are making a device that can quantify a component in water, such as heavy metals pollutants. Two models are being developed. One of them involves the use of the Mer sensor. We therefore need to use mercury to test this system. These raise the environmental issue of the toxic waste management. Liquid having Mercury or tips and dishes that are in contact with this toxic are kept in specials bins. This rubbish bin is then given to a society specialized into toxic waste treatment. A slip monitoring is sign up by every organism that is involved into the production, transportation and treatment of the toxic waste. When the later is cremated, the producer of the waste receive and attestation that must be kept as a proof of the appropriate treatment.
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    <li><strong> Do any of the new BioBrick parts (or devices) that you made this year raise any safety issues? If yes,
 +
      </strong>
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      <ul>
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        <li> did you document these issues in the Registry? </li>
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        <li> how did you manage to handle the safety issue? </li>
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        <li> How could other teams learn from your experience? </li>
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      </ul>
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      </li>
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<p>
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The system we develop needs to be kept off until we want to induce it. In order to achieve that, we develop a post-transcriptional switch mechanism. This system, extracted from Pseudomonas aeruginosa, is highly similar to another one of E. coli. The later involve the management of numerous genes including virulence factors. The bacteria we use don’t have any gene coding for virulence factor so the risk doesn’t exist with our strain.
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<div class="left">
 
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<img class="icon" src="https://static.igem.org/mediawiki/2011/6/6e/Felix.png"/>
 
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<a href="http://syntheticbiology.org/">
 
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<h2 class="lien"id="Paragraphe2">A great human adventure<span>By Félix</span></h2>
 
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<p>iGEM competition includes about 160 teams (more or less 2000 students) over the world. There will be a first regional jamboree in different regions such as Europe, Asia, America,… and then a third of us will go to Boston for the last jamboree. This will be the first opportunities for most of students to meet people from so many universities at once ! We ‘ll be hosting at the same places, sharing breakfast and even partying together !... We ‘ll be able to discuss abouts many topics related to our fields, share ideas, and to see how others managed their work by watching their presentations.</p>
 
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<p>iGEM competition is not just about doing scientific work in order to get a medal, but is also about doing all of what an engineer or researcher needs to do ! Each team needs to set up contacts and collaboration with other groups. Sharing bricks or helping others is a criteria for winning a gold medal! We also need to get funds in order to finance our work…. So we  must make a project that fits some challenge of our society ! As every one knows, new technologies rise up new ethical issues. This aspect has to be considered on every single project !</p>
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    <li><strong>Is there a local biosafety group, committee, or review board at your institution? </strong>
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        <ul>
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            <li> If yes, what does your local biosafety group think about your project? </li>
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            <li> If no, which specific biosafety rules or guidelines do you have to consider in your country? </li>
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        </ul>
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    </li>
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<img class="floated" src="greenzap/images/mit.jpg"/>
 
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<p>Now that we have found an interesting  project  which seems ethic, and can be useful for the society, we are on the way for 4 month of intense work ! Our group is made of 12 people with very different education , that have to understand and synchronise each other. Since we are spread out in multiple places, we already meet once a week in order to coordinate or work. This need of an efficient communication within the team is an exiting part of the project ! </p>
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<p>
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All partner laboratories have a Facility Security Engineer. This person is responsible of the global security and check that all workers respect lab security rules.
 +
<p>
 +
Rules are more or less restrictive for the scientist but follow same goals: protection of experimenter, persons who are in the experimental area, the local, and environment preservation. Our project is based on biomolecular experimentations. Each partner laboratories where we work are specialized in molecular biology and so have the needed equipment. What the Facility Security Engineer think about our project? Not particular attentions are needed concerning molecular biology experimentation but we are aware about chemical risks that can exist during manipulations. Most important risks are BET and mercury using. To avoid these latters, experiments are performed under chemical hoods and used contaminated materials are sterilized.
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<p>
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Chemical garbages are stored in specific barrels. Decontamination society retrieves these trashes.
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    <li><strong>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? </strong></li>
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<p>
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From the environmental point of view, simple and efficiency methods can be used like bacteria not able to survive outside by use Amino Acids which not existing in nature. It’s too possible to use rare carbon source for the bacteria. We can also use a suicide gene repress by a chemical molecule not found out of a laboratory. Another ways is to make bacteria weak face to the micro-organisms natural selection. For the researcher’s safety in lab, the work in sterile middle, overall and gloves wearing and all other standard protections things are evidently recommended.
 +
To increase the safety off iGEM competition, we think about bacteria which have an inducible essential gene for binary division by a chemical not existing or rare in nature, by this way the bacteria can’t be divide itself so it will be not selected and going to disappear nearly.
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    </ol></td>
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  <td><p>&nbsp;</p>    </td>
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</tr>
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</table>
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<p>
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We will soon discuss with people that have already worked with mercury or others heavy metals. At CEA some researchers worked on Microsystems devices to detect and quantify these pollutants. They will share their experience and knowledge with us about the way to conduct safe experiments with these chemicals and also about technical aspect of existing measurement device. We would like to compare our work, our biosystem to “technological only” system that already exist, in terms of precision, sensitivity, reliability and costs.
 +
<p>
 +
So our work for the safety section of our wiki is not over, it will continue all over our project and after the jamborees. Indeed, we plan to present our work and the synthetic biology to a larger public: companies which fund us, school in our villages and town, a conference at “Midi Minatec”, ... 
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Revision as of 18:22, 9 August 2011



Grenoble 2011, Mercuro-Coli iGEM


SafetyFelix & Eric

Manipulation of living organism allows producing artificial form of life and metabolism. These modifications, although well controlled, require application of the precautionary principle. Caution involves the implementation of different blocking to limit the propagation of these organisms in the nature:

  • Nutritional blocking: organisms could survive only with artificial substances. In this way, in case of release into the nature such organisms would die.
  • Evolutionary blocking: organisms couldn’t adapt themselves and evolve alone in the nature. This blocking prevents mutations of the organisms that allow them to survive.
  • Preprogrammed cellular death: implementation of a suicide gene which is inhibited during wet work. In this way, organisms couldn’t survive outside the laboratory.

Through the iGEM competition, we face to the risks of synthetic biology. So it’s important to deal with safety issues our project could cause.

  1. Would any of your project ideas raise safety issues in terms of:
    • researcher safety,
    • public safety, or
    • environmental safety?
  2. Our project is based on the utilization of mercury, which raises questions about security for the researcher but also for the public and the environment. Mercury is an element that has toxic effects on brain and renal function. During our project, mercury is conserved in the laboratory and is subjected to special treatment for elimination of heavy metals. About searchers, protections are simpler: it is necessary to work without contaminating the material. If it is contaminated, it shall not be touched with bare hands. Hence the use of protective equipment.

    We are making a device that can quantify a component in water, such as heavy metals pollutants. Two models are being developed. One of them involves the use of the Mer sensor. We therefore need to use mercury to test this system. These raise the environmental issue of the toxic waste management. Liquid having Mercury or tips and dishes that are in contact with this toxic are kept in specials bins. This rubbish bin is then given to a society specialized into toxic waste treatment. A slip monitoring is sign up by every organism that is involved into the production, transportation and treatment of the toxic waste. When the later is cremated, the producer of the waste receive and attestation that must be kept as a proof of the appropriate treatment.

  3. Do any of the new BioBrick parts (or devices) that you made this year raise any safety issues? If yes,
    • did you document these issues in the Registry?
    • how did you manage to handle the safety issue?
    • How could other teams learn from your experience?
  4. The system we develop needs to be kept off until we want to induce it. In order to achieve that, we develop a post-transcriptional switch mechanism. This system, extracted from Pseudomonas aeruginosa, is highly similar to another one of E. coli. The later involve the management of numerous genes including virulence factors. The bacteria we use don’t have any gene coding for virulence factor so the risk doesn’t exist with our strain.

  5. 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?
    • If no, which specific biosafety rules or guidelines do you have to consider in your country?
  6. All partner laboratories have a Facility Security Engineer. This person is responsible of the global security and check that all workers respect lab security rules.

    Rules are more or less restrictive for the scientist but follow same goals: protection of experimenter, persons who are in the experimental area, the local, and environment preservation. Our project is based on biomolecular experimentations. Each partner laboratories where we work are specialized in molecular biology and so have the needed equipment. What the Facility Security Engineer think about our project? Not particular attentions are needed concerning molecular biology experimentation but we are aware about chemical risks that can exist during manipulations. Most important risks are BET and mercury using. To avoid these latters, experiments are performed under chemical hoods and used contaminated materials are sterilized.

    Chemical garbages are stored in specific barrels. Decontamination society retrieves these trashes.

  7. 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?
  8. From the environmental point of view, simple and efficiency methods can be used like bacteria not able to survive outside by use Amino Acids which not existing in nature. It’s too possible to use rare carbon source for the bacteria. We can also use a suicide gene repress by a chemical molecule not found out of a laboratory. Another ways is to make bacteria weak face to the micro-organisms natural selection. For the researcher’s safety in lab, the work in sterile middle, overall and gloves wearing and all other standard protections things are evidently recommended. To increase the safety off iGEM competition, we think about bacteria which have an inducible essential gene for binary division by a chemical not existing or rare in nature, by this way the bacteria can’t be divide itself so it will be not selected and going to disappear nearly.

 

We will soon discuss with people that have already worked with mercury or others heavy metals. At CEA some researchers worked on Microsystems devices to detect and quantify these pollutants. They will share their experience and knowledge with us about the way to conduct safe experiments with these chemicals and also about technical aspect of existing measurement device. We would like to compare our work, our biosystem to “technological only” system that already exist, in terms of precision, sensitivity, reliability and costs.

So our work for the safety section of our wiki is not over, it will continue all over our project and after the jamborees. Indeed, we plan to present our work and the synthetic biology to a larger public: companies which fund us, school in our villages and town, a conference at “Midi Minatec”, ...