Team:Fudan-Shanghai/Safety
From 2011.igem.org
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+ | <head> <title>2011 iGEM Fudan-Shanghai safety</TITLE> | ||
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+ | <h1 align=left><font color=#4A4AFF> Safety issues:</h1> | ||
+ | <b>Our team takes safety issues seriously throughout the project, and we follow Fudan university safety regulations in the lab. | ||
+ | </b><br></font> | ||
- | + | <table border=5 bordercolor=white Cellpadding=20 Cellspacing=0 width=950> | |
- | + | <tr height=200 width=900 bgcolor=#CCFFFF valign=top> | |
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- | + | <td><h1>Researcher Safety</h1> | |
- | + | All team members are students in the school of life sciences and are well trained through teaching and lab rotations. Protective measures involve gloves, masks and labcoats. The labs we use are equipped with safety facilities, so researcher safety is guaranteed. | |
- | + | </td> | |
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- | All team members are students in the school of life sciences and are well trained through teaching and lab rotations. Protective measures involve gloves, masks and labcoats. The labs we use are equipped with safety facilities, so researcher safety is guaranteed. | + | <td><h1>Public Safety</h1> |
- | + | We will work on non-pathogenic lab strains of E. coli and both the host bacteria and plasmids will be restrained strictly within the lab. Plus, as you may recall, the aim of our project is to create three parts: the tree, neon lights and a system of dinner service. None of these parts involves direct interaction with the public, so there is little risk to public safety from our project. | |
- | + | </td> | |
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- | We will work on non-pathogenic lab strains of E. coli and both the host bacteria and plasmids will be restrained strictly within the lab. Plus, as you may recall, the aim of our project is to create three parts: the tree, neon lights and a system of dinner service. None of these parts involves direct interaction with the public, so there is little risk to public safety from our project. | + | <td><h1>Enviromental Safety</h1> |
- | + | The only advantage of our bacteria over natural ones is antibiotic resistance, which is commonly used in biological labs. Plus, all plates will be boiled thoroughly to kill the bacteria before disposal. So, our project does not pose a risk to environmental safety. | |
- | + | </td> | |
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- | The only advantage of our bacteria over natural ones is antibiotic resistance, which is commonly used in biological labs. Plus, all plates will be boiled thoroughly to kill the bacteria before disposal. | + | |
- | + | </tr> | |
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- | + | <tr height=200 width=900 bgcolor=#CCFFFF valign=top> | |
- | In this year’s project, we do not create any new parts; rather, we select parts from the registry, and modify them to serve particular purposes. The genes or biobricks that we work with are of known properties. The devices we created are mainly used for communication between different E.coli; the production of colors; the expression of regulatory proteins. So the risk, if any, is very little. | + | <td><h1>Local Biosafety Group</h1> |
- | + | In China, the main concerns for biosafety are pathogenic microbes and the genetically modified crops. In our project, we use non-pathogenic E.coli and the created devices will be restrained in the labs we work in. Therefore no laws or regulations regarding the biosafety issue are violated. | |
- | + | </td> | |
- | + | <td><h1>BioBrick Parts and Devices</h1> | |
- | + | In this year’s project, we do not create any new parts; rather, we select parts from the registry, and modify them to serve particular purposes. The genes or biobricks that we work with are of known properties. The devices we created are mainly used for communication between different E.coli; the production of colors; the expression of regulatory proteins. So the risk, if any, is very little. | |
- | + | </td> | |
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- | + | <td><h1>Biosafety for Future iGEM Competition</h1> | |
- | In the brain-storm process, one team member came up with the idea of creating a bio-machine to circumspect the harmful aspect of Solidago canadensis, a Canadian plant which was introduced into China as an ornamental flower. Her idea was that if this plant reached a certain population, the synthesis of a toxic protein is commenced, thus the growth of foreign plant is restrained. This idea can be applied generally to the field of synthetic biology and to future iGEM competition. So our concern is that each modified organism should be equipped with a suicide mechanism, which is triggered by the population density. In that case, even if the genetically modified organism is released accidentally into the environment, this mechanism could prevent mass harm. | + | In the brain-storm process, one team member came up with the idea of creating a bio-machine to circumspect the harmful aspect of Solidago canadensis, a Canadian plant which was introduced into China as an ornamental flower. Her idea was that if this plant reached a certain population, the synthesis of a toxic protein is commenced, thus the growth of foreign plant is restrained. This idea can be applied generally to the field of synthetic biology and to future iGEM competition. So our concern is that each modified organism should be equipped with a suicide mechanism, which is triggered by the population density. In that case, even if the genetically modified organism is released accidentally into the environment, this mechanism could prevent mass harm. |
+ | </td> | ||
+ | </tr> | ||
+ | </table> | ||
+ | </body> | ||
+ | </html> |
Revision as of 07:57, 4 October 2011
Safety issues:
Our team takes safety issues seriously throughout the project, and we follow Fudan university safety regulations in the lab.Researcher SafetyAll team members are students in the school of life sciences and are well trained through teaching and lab rotations. Protective measures involve gloves, masks and labcoats. The labs we use are equipped with safety facilities, so researcher safety is guaranteed. |
Public SafetyWe will work on non-pathogenic lab strains of E. coli and both the host bacteria and plasmids will be restrained strictly within the lab. Plus, as you may recall, the aim of our project is to create three parts: the tree, neon lights and a system of dinner service. None of these parts involves direct interaction with the public, so there is little risk to public safety from our project. |
Enviromental SafetyThe only advantage of our bacteria over natural ones is antibiotic resistance, which is commonly used in biological labs. Plus, all plates will be boiled thoroughly to kill the bacteria before disposal. So, our project does not pose a risk to environmental safety. |
Local Biosafety GroupIn China, the main concerns for biosafety are pathogenic microbes and the genetically modified crops. In our project, we use non-pathogenic E.coli and the created devices will be restrained in the labs we work in. Therefore no laws or regulations regarding the biosafety issue are violated. |
BioBrick Parts and DevicesIn this year’s project, we do not create any new parts; rather, we select parts from the registry, and modify them to serve particular purposes. The genes or biobricks that we work with are of known properties. The devices we created are mainly used for communication between different E.coli; the production of colors; the expression of regulatory proteins. So the risk, if any, is very little. |
Biosafety for Future iGEM CompetitionIn the brain-storm process, one team member came up with the idea of creating a bio-machine to circumspect the harmful aspect of Solidago canadensis, a Canadian plant which was introduced into China as an ornamental flower. Her idea was that if this plant reached a certain population, the synthesis of a toxic protein is commenced, thus the growth of foreign plant is restrained. This idea can be applied generally to the field of synthetic biology and to future iGEM competition. So our concern is that each modified organism should be equipped with a suicide mechanism, which is triggered by the population density. In that case, even if the genetically modified organism is released accidentally into the environment, this mechanism could prevent mass harm. |