Team:SEU O China/Safety

From 2012.igem.org

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</th><th align="center"><a href="https://2012.igem.org/Team:SEU_O_China/Attributions" title="Team:SEU O China/Attributions">Attributions</a>
</th><th align="center"><a href="https://2012.igem.org/Team:SEU_O_China/Attributions" title="Team:SEU O China/Attributions">Attributions</a>
</th></tr></tbody></table>
</th></tr></tbody></table>
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             <p class="heart13 STYLE2">The biosafety </p>
+
             <p align="center" class="STYLE2">welcome to our biosafety page~ </p>
-
             <ol start="1" type="1">
+
             <ol start="1" type="1"><li class="STYLE2"><strong>Would any of your project      ideas raise safety issues in terms of: </strong> </li>
-
              <li class="STYLE2"><strong>Would any of your project      ideas raise safety issues in terms of: <span class="STYLE2"></span></strong> </li>
+
               <ul type="circle" class="STYLE2">
               <ul type="circle" class="STYLE2">
                 <li>researcher safety, </li>
                 <li>researcher safety, </li>
                 <li>public safety, or </li>
                 <li>public safety, or </li>
-
                 <li>environmental safety? </li>
+
                 <li>environmental safety? &nbsp;</li>
               </ul>
               </ul>
             </ol>
             </ol>
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             <p><span class="STYLE2">       No.</span><br />
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             <p class="STYLE2">         No.<br />
-
               <span class="STYLE2"> As our team, SEU_Omega, aims to execute a synthetic biology project based on colony of bacteria, We focus on the biosafety issues that may be raised by bacteria and certain toxic chemicals applied to during the process of transformation, abstraction, PCR and other necessary steps.<br />
+
               &nbsp;&nbsp;&nbsp;&nbsp;As our team, SEU_Omega, aims to execute a synthetic biology project based on colony of bacteria, We focus on the biosafety issues that may be raised by bacteria and certain toxic chemicals applied to during the process of transformation, abstraction, PCR and other necessary steps.<br />
-
               Biological parts include certain kinds of bacteria, which contains the original competent cel BL21 ,DH5<strong>α</strong> or some simple modulated engineering bacteria, and standard kits from iGem 2012 distribution plates. These parts are widespread in modern synthetic biology experiments and have been proved harmless to people in the laboratory.<br />
+
               &nbsp;&nbsp;&nbsp;&nbsp;Biological parts include certain kinds of bacteria, which contains the original competent cell BL21 ,DH5<strong>α</strong> or some simple modulated engineering bacteria, and standard kits from iGem 2012 distribution plates. These parts are widespread in modern synthetic biology experiments and have been proved harmless to people in the laboratory.<br />
-
               Other potential harm may come from chemicals for gel electrophoresis or other molecular  biology experiments. At the very first days, <a href="http://www.chemadvisor.com/harvard/ohsdoc.pl?searchPage=BASIC&amp;search=PARTIAL&amp;entryMode=addMsds&amp;lang=English(US)&amp;mode=base&amp;chem=ethidiumbromide&amp;DB0=checked&amp;file=ohs60703.htm&amp;dbIndex=0">Ethidium Bromide (EtBr)</a> was used to stain DNA for gel electrophoresis. Although toxic and a known carcinogen, ethidium bromide’s harmful effects can be avoided by avoiding direct skin contact. However, as further experiments were conducted, harmless substitutes were found and used. <br />
+
               Other potential harm may come from chemicals for gel electrophoresis or other molecular  biology experiments. At the very first days, <a href="http://www.chemadvisor.com/harvard/ohsdoc.pl?searchPage=BASIC&amp;search=PARTIAL&amp;entryMode=addMsds&amp;lang=English(US)&amp;mode=base&amp;chem=ethidiumbromide&amp;DB0=checked&amp;file=ohs60703.htm&amp;dbIndex=0">Ethidium Bromide (EtBr)</a> was used to stain DNA for gel electrophoresis. Although toxic and a known carcinogen, ethidium bromide’s harmful effects can be avoided by avoiding direct skin contact. However, as further experiments were conducted, harmless substitutes were found and used. <br />
-
               Moreover, ultraviolet (UV) light was used in visualizing stained DNA in gel electrophoresis. In order to get rid of the harm of UV, blocking shields were put out for protection from start to end. <br />
+
               &nbsp; &nbsp;&nbsp;Moreover, ultraviolet (UV) light was used in visualizing stained DNA in gel electrophoresis. In order to get rid of the harm of UV, blocking shields were put out for protection from start to end.<br />
-
               During our whole process of project, no pandemic pathogen was ever used and all related chemicals were carefully taken care of, no matter before, during or after the experiments. We have tried our best to confirm that no harmful substances can be brought out into public or outer environment. </span></p>
+
               During our whole process of project, no pandemic pathogen was ever used and all related chemicals were carefully taken care of, no matter before, during or after the experiments. We have tried our best to confirm that no harmful substances can be brought out into public or outer environment. </p>
-
             <ol start="2" type="1">
+
             <ol start="2" type="1" class="STYLE2">
-
               <li class="STYLE2"><strong>Do any of the new      BioBrick parts (or devices) that you made this year raise any safety      issues? If yes, </strong> </li>
+
               <li><strong>Do any of the new      BioBrick parts (or devices) that you made this year raise any safety      issues? If yes, </strong> </li>
               <ul type="circle">
               <ul type="circle">
-
                 <li class="STYLE2">did you document these        issues in the Registry? </li>
+
                 <li>did you document these        issues in the Registry? </li>
-
                 <li class="STYLE2">how did you manage to        handle the safety issue? </li>
+
                 <li>how did you manage to        handle the safety issue? </li>
-
                 <li class="STYLE2">How could other teams        learn from your experience? </li>
+
                 <li>How could other teams        learn from your experience? </li>
               </ul>
               </ul>
             </ol>
             </ol>
-
             <p class="STYLE2">      No.<br />
+
             <p class="STYLE2">      No.<br />
-
               Our idea concerns the control of the pattern of colony, which would utilize light sensing as a switch to manipulate the differentiation of cells and a quorum sensing system of AHL would govern the holistic pattern with antisense RNA effecting the division rate.<br />
+
               &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Our idea concerns the control of the pattern of colony, which would utilize light sensing as a switch to manipulate the differentiation of cells and a quorum sensing system of AHL would govern the holistic pattern with antisense RNA effecting the division rate.<br />
-
               All these parts were tested on the level of bacteria and would not effecting the normal rate of other species under non-labarotory environment.</p>
+
               All these parts were tested on the level of bacteria and would not effecting the normal rate of other species under non-labarotory environment.</p>
-
             <ol start="3" type="1">
+
             <ol start="3" type="1" class="STYLE2">
-
              <li class="STYLE2"><strong>Is there a local      biosafety group, committee, or review board at your institution? </strong> </li>
+
              <li><strong>Is there a local      biosafety group, committee, or review board at your institution? </strong> </li>
-
               <ul type="circle" class="STYLE2">
+
               <ul type="circle">
                 <li>If yes, what does your        local biosafety group think about your project? </li>
                 <li>If yes, what does your        local biosafety group think about your project? </li>
-
                 <li>If no, which specific       biosafety rules or guidelines do you have to consider in your country? </li>
+
                 <li>If no, which specific biosafety       rules or guidelines do you have to consider in your country? </li>
               </ul>
               </ul>
             </ol>
             </ol>
-
             <p class="STYLE2">       Yes..<br />
+
             <p class="STYLE2">       Yes..<br />
-
               We do have several professors and advisors supervise our experiments during our iGem process. All new experiments would be weighed on safety by experienced teachers before execution.<br />
+
               &nbsp;&nbsp;&nbsp;&nbsp;We do have several professors and advisors supervise our experiments during our iGem process. All new experiments would be weighed on safety by experienced teachers before execution.<br />
               In addition, we have meticulously refer  to the rules made by Experiment Center of Biomaterial and Biotechnology.  For further information of this set of rules,  please visit the website:     <a href="http://www.lmbe.seu.edu.cn/cailiao/guizhangzhidu.html">http://www.lmbe.seu.edu.cn/cailiao/guizhangzhidu.html</a> <br />
               In addition, we have meticulously refer  to the rules made by Experiment Center of Biomaterial and Biotechnology.  For further information of this set of rules,  please visit the website:     <a href="http://www.lmbe.seu.edu.cn/cailiao/guizhangzhidu.html">http://www.lmbe.seu.edu.cn/cailiao/guizhangzhidu.html</a> <br />
-
               Finally, according to the <a href="http://www.sepa.gov.cn/BCHMEN/217306378602020864/20040116/1045170.shtml">Safety Administration Regulation on Genetic Engineering</a> made by National Biosafety Office, our project pertains to Level 1, which is harmless to people or environment. For further information of this set of rules, please visit the website:   <a href="http://www.biosafety.gov.cn/gjzcfg/flfg/200401/t20040115_88044.htm">http://www.biosafety.gov.cn/gjzcfg/flfg/200401/t20040115_88044.htm</a> </p>
+
               Finally, according to the <a href="http://www.sepa.gov.cn/BCHMEN/217306378602020864/20040116/1045170.shtml">Safety Administration Regulation on Genetic Engineering</a> made by National Biosafety Office, our project pertains to Level 1, which is harmless to people or environment. For further information of this set of rules, please visit the website:   <a href="http://www.biosafety.gov.cn/gjzcfg/flfg/200401/t20040115_88044.htm">http://www.biosafety.gov.cn/gjzcfg/flfg/200401/t20040115_88044.htm</a></p>
-
             <ol start="4" type="1">
+
             <ol start="4" type="1" class="STYLE2">
-
              <li class="STYLE2"><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>
+
              <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>
             </ol>
             </ol>
-
          <p>&nbsp;</p>
+
            <p class="STYLE2">&nbsp;&nbsp;&nbsp;&nbsp;From the initial design of our system, we have begun considering the  problem of biosafety for our project. The application of the light sensor is  just similar to a protection switch for the whole system. No continual step  would be taken without the expression of this very first promoter and  obviously, the physical condition of light can be easily manipulated by any  laboratory.<br />
-
<!--  
+
              &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Moreover, we recommend that a special tag should be added to the  plasmid to distinguish the characteristics of each sample. This would require  the classification of parts based on their potential danger.<br />
 +
              &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Last but not least, the database of parts and devices can be updated  into such a form that the input and output of parts can be expressed more  clearly. Clearer classification would lead to more convenient design to avoid biosafety  problems. </p>
 +
            <p class="heart13 STYLE2">&nbsp;</p>
 +
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Revision as of 16:14, 28 August 2012

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Team:SEU O China/Safety

From 2012.igem.org

HomeTeam Official Team Profile Project Parts Submitted to the Registry Modeling Notebook Safety Attributions

welcome to our biosafety page~

  1. Would any of your project ideas raise safety issues in terms of:
    • researcher safety,
    • public safety, or
    • environmental safety?  

        No.
    As our team, SEU_Omega, aims to execute a synthetic biology project based on colony of bacteria, We focus on the biosafety issues that may be raised by bacteria and certain toxic chemicals applied to during the process of transformation, abstraction, PCR and other necessary steps.
    Biological parts include certain kinds of bacteria, which contains the original competent cell BL21 ,DH5α or some simple modulated engineering bacteria, and standard kits from iGem 2012 distribution plates. These parts are widespread in modern synthetic biology experiments and have been proved harmless to people in the laboratory.
Other potential harm may come from chemicals for gel electrophoresis or other molecular biology experiments. At the very first days, Ethidium Bromide (EtBr) was used to stain DNA for gel electrophoresis. Although toxic and a known carcinogen, ethidium bromide’s harmful effects can be avoided by avoiding direct skin contact. However, as further experiments were conducted, harmless substitutes were found and used.
    Moreover, ultraviolet (UV) light was used in visualizing stained DNA in gel electrophoresis. In order to get rid of the harm of UV, blocking shields were put out for protection from start to end.
During our whole process of project, no pandemic pathogen was ever used and all related chemicals were carefully taken care of, no matter before, during or after the experiments. We have tried our best to confirm that no harmful substances can be brought out into public or outer environment.

  1. 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?

      No.
     Our idea concerns the control of the pattern of colony, which would utilize light sensing as a switch to manipulate the differentiation of cells and a quorum sensing system of AHL would govern the holistic pattern with antisense RNA effecting the division rate.
All these parts were tested on the level of bacteria and would not effecting the normal rate of other species under non-labarotory environment.

  1. 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?

       Yes..
    We do have several professors and advisors supervise our experiments during our iGem process. All new experiments would be weighed on safety by experienced teachers before execution.
In addition, we have meticulously refer to the rules made by Experiment Center of Biomaterial and Biotechnology.  For further information of this set of rules, please visit the website:     http://www.lmbe.seu.edu.cn/cailiao/guizhangzhidu.html
Finally, according to the Safety Administration Regulation on Genetic Engineering made by National Biosafety Office, our project pertains to Level 1, which is harmless to people or environment. For further information of this set of rules, please visit the website:   http://www.biosafety.gov.cn/gjzcfg/flfg/200401/t20040115_88044.htm

  1. 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?

    From the initial design of our system, we have begun considering the problem of biosafety for our project. The application of the light sensor is just similar to a protection switch for the whole system. No continual step would be taken without the expression of this very first promoter and obviously, the physical condition of light can be easily manipulated by any laboratory.
     Moreover, we recommend that a special tag should be added to the plasmid to distinguish the characteristics of each sample. This would require the classification of parts based on their potential danger.
     Last but not least, the database of parts and devices can be updated into such a form that the input and output of parts can be expressed more clearly. Clearer classification would lead to more convenient design to avoid biosafety problems.