Team:TU Munich/Project/Safety

From 2012.igem.org

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(iGEM Questioniare)
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*environmental safety?
*environmental safety?
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There are dangerous substances used in our lab. The following list features a few important examples:
 
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<ol><li>In every laboratory of molecular biology, specific chemicals are required for staining of DNA, in order to make it visible on Agarose gels. Most of them directly intercalate into the double strand of DNA, which makes them carcinogenic. A commonly used, but rather dangerous substance is ethidium bromide. In our lab, we use SYBR® Gold. It is less hazardous than ethidium bromide, but can still be carcinogenic if it comes into direct contact with human skin. Protective gloves should be made from nitrile rubber and changed frequently to prevent contamination with SYBR® Gold. All gels and materials that came into contact with SYBR® Gold need to be disposed of separately. This is done in order to prevent their unintended leakage into the environment, with subsequent harm to humans, animals and plants.</li>
 
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<li>Methods of molecular biology often require strong acids or bases, like sulfuric acid, or toxic substances such as methanol. They need to be handled with extreme caution and also need to be separately disposed.</li>
 
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<li>Many devices in the lab can be potentially dangerous towards researchers, if they are used carelessly or in the wrong way. There are lamps emitting ultraviolet radiation, which can be carcinogenic.</li>
 
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</ol>
 
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If all these measures are taken, the potential danger for researchers, other people and the environment can be reduced to a minimum.
 
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There are several different bacterial strains used in our lab for transformation of BioBrick parts, which have been manipulated in some way to make sure that they are harmless. The strains used in our lab, like the <i>Escherichia coli</i> strain DH5 alpha, are derived from <i>E. coli</i> K-12. K-12 is a safety strain, as the bacteria carry several auxotrophies. This means that they are dependent on certain sources of carbon, amino acids and other nutrients. Without them, growth is not or only in a restricted way possible. ''STATEMENT ABOUT YEAST STRAINS HERE''
 
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If despite all precautions humans are infected with bacteria, the first weapon of choice are always antibiotics. They specifically kill bacteria, while keeping side effects for the patient to a minimum. Bacteria can be resistant against antibiotics. The genes responsible for this are often used as selection markers during cloning. With respect to killing them however, antibiotic resistances can make bacteria more dangerous. The number of supplied resistances should therefore be reduced to no more than necessary.
 
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The bacteria are not motile and auxotroph, so they cannot survive in minimal medium (with only glucose as C source), but need additional aminoacids to survive. Since nothing from the lab is taken into public and stays inside there should be no safety issues considering public or environmental safety. Furthermore, used <i>E. coli</i> cultures and waste containing biologic material is autoclaved at 121 °C before being thrown away. This ensures that no genetically modified material can reach the outside of the lab.
 
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<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>
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<p>Every department at TU Munich needs a safety delegate. </p>
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<p>We do not have an Institutional Biosafety Committee. All checks concerning safety in laboratories are taken care of by state officials. In general, working with genetically modified organisms in Germany is regulated by the "Gesetz zur Regelung der Gentechnik (GenTG)" (law for the regulation of gentetic engineering, see above).</p>
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Every department at TU Munich needs a safety delegate.
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<p>Before starting work in a lab, every participient has to get a safety instruction and an instruction in the lab, which were both obligatory. Our supervisor of safety, ''NAME HERE'', made us familiar with the lab and explained the safety rules when handling with dangerous biological or chemical substances (e.g. SYBR® Gold) or devices. - also showed us how to properly act in an emergency and where to find help, like showers or fire extinguishers. Fore more information, also refer to section 1 above.</p>
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''who is this, did we talk to him?''
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The lab we work in is classified as BSL 1 (biosafety level 1), according to the European Union Directive 2000/54/EG and the German '''"Gesetz zur Regelung der Gentechnik (GenTG)"''' (<a href="http://bundesrecht.juris.de/gentsv/index.html" target="_blank">law for the regulation of genetic engineering</a>, text in German only). There is a total of four Biosafety levels, with BSL 1 being the lowest and BSL 4 being the highest.
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Work inside a BSL 1 lab, such as ours, involves no devices that are potentially harmful to the researchers if they act corresponding to the general precautionary measures. Especially, no pathogenic organisms are used, as the bacterial strains in our lab do not possess mechanisms necessary for survival outside of the lab, or in the human body.  

Revision as of 19:52, 30 August 2012


Safety


iGEM Questioniare


1. Would any of your project ideas raise safety issues in terms of:

  • researcher safety,
  • public safety, or
  • environmental safety?



2. 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?

Xanthohumol / Limonene / Caffeine

gefahrenstoffkennzeichnungen, but expression levels should be way below critical concentrations

Thaumatin

accepted additive


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?
  • If no, which specific biosafety rules or guidelines do you have to consider in your country?

Every department at TU Munich needs a safety delegate. who is this, did we talk to him?

The lab we work in is classified as BSL 1 (biosafety level 1), according to the European Union Directive 2000/54/EG and the German "Gesetz zur Regelung der Gentechnik (GenTG)" (<a href="http://bundesrecht.juris.de/gentsv/index.html" target="_blank">law for the regulation of genetic engineering</a>, text in German only). There is a total of four Biosafety levels, with BSL 1 being the lowest and BSL 4 being the highest.

Work inside a BSL 1 lab, such as ours, involves no devices that are potentially harmful to the researchers if they act corresponding to the general precautionary measures. Especially, no pathogenic organisms are used, as the bacterial strains in our lab do not possess mechanisms necessary for survival outside of the lab, or in the human body.


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?

Bavarian Purity Law