Team:SDU-Denmark/safety-b

From 2010.igem.org

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==== Analysis of parts and devices ====
==== Analysis of parts and devices ====
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'''SopII'''  – No homogenity when blasted. The gene is mentioned in Halobacterium salinarum R1 [1] and in Natronomonas pharaonis DSM 2160[2] as being protein coding. The protein is a light dependant iontransporter, and is often seen with the halophilic bacteria (halophilic: organisms that thrive in high concentrations of salt). So it might make non extremophiles more competitive in environments with high salt concentrations. The word: “might“ should be underlined, as it of course takes several genes / proteins to make it more durable in high salt concentrated areas . This clearly is a risk. If a bacterium were to gain the advantage, to survive in high salt concentrations, it would mean we could create diverse bacteria which more easily can survive, and proliferate in completely different environment, than we usually meet them. The outcome of “old” bacteria proliferating in another environment than usual is not easy to foresee.
'''SopII'''  – No homogenity when blasted. The gene is mentioned in Halobacterium salinarum R1 [1] and in Natronomonas pharaonis DSM 2160[2] as being protein coding. The protein is a light dependant iontransporter, and is often seen with the halophilic bacteria (halophilic: organisms that thrive in high concentrations of salt). So it might make non extremophiles more competitive in environments with high salt concentrations. The word: “might“ should be underlined, as it of course takes several genes / proteins to make it more durable in high salt concentrated areas . This clearly is a risk. If a bacterium were to gain the advantage, to survive in high salt concentrations, it would mean we could create diverse bacteria which more easily can survive, and proliferate in completely different environment, than we usually meet them. The outcome of “old” bacteria proliferating in another environment than usual is not easy to foresee.
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[http://www.ncbi.nlm.nih.gov/gene/5953632[7]]
[http://www.ncbi.nlm.nih.gov/gene/5953632[7]]
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=== Is there a local biosafety group, committee, or review board at our institution? ===
=== Is there a local biosafety group, committee, or review board at our institution? ===
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==== Which laws and guidelines we have to consider in Denmark ====
==== Which laws and guidelines we have to consider in Denmark ====
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'''Laws and guidelines to be considered in Denmark'''
'''Laws and guidelines to be considered in Denmark'''
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As we're working with relatively harmless strains of E. coli (mg1655 and TOP10), it has not been necessary to locate a safer, compatible host, donor or system, but we have nonetheless attempted to locate such systems for wholesomeness, although without luck.
As we're working with relatively harmless strains of E. coli (mg1655 and TOP10), it has not been necessary to locate a safer, compatible host, donor or system, but we have nonetheless attempted to locate such systems for wholesomeness, although without luck.
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==== Assessment by local bio-safety group ====
==== Assessment by local bio-safety group ====
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'''The Group'''
'''The Group'''
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[http://www.bmwf.gv.at/fileadmin/user_upload/forschung/gentechnik/2009-41-EC.pdf [1]]
[http://www.bmwf.gv.at/fileadmin/user_upload/forschung/gentechnik/2009-41-EC.pdf [1]]
[https://www.retsinformation.dk/Forms/R0710.aspx?id=121099 [2]]
[https://www.retsinformation.dk/Forms/R0710.aspx?id=121099 [2]]
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=== Our ideas on 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! ===
=== Our ideas on 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! ===
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===== The ideas behind the watermark =====
===== The ideas behind the watermark =====
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To increase public safety we propose to introduce a water-marking standard
To increase public safety we propose to introduce a water-marking standard
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V.        information on how to neutralize organism, and, if available, kill-code
V.        information on how to neutralize organism, and, if available, kill-code
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===== Placing the watermark =====
===== Placing the watermark =====
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The initial thought was to insert the watermark into the genome of the bacteria, as to increase the stability of the watermark in the bacteria. However, as all parts inserted into the bacteria are placed in plasmids, it would make no sense to insert the watermark into the genome. The bacteria could transfer their plasmids to other bacteria, and retain their watermark, and the watermark would have become useless, persisting in bacteria that have no modified material at all.
The initial thought was to insert the watermark into the genome of the bacteria, as to increase the stability of the watermark in the bacteria. However, as all parts inserted into the bacteria are placed in plasmids, it would make no sense to insert the watermark into the genome. The bacteria could transfer their plasmids to other bacteria, and retain their watermark, and the watermark would have become useless, persisting in bacteria that have no modified material at all.
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Retrieval of the watermark should be easy, in the event of a rogue bacteria spreading havoc in the environment. Standardized placement of the watermark within the part should make it possible to easily retrieving the watermark through sequencing. Thus, if a rogue bacteria is discovered, it should be a simple matter to sequence the part, and obtain the license. Then it is just a matter of consulting the parts-registry to access all available information on the part and on how to contact the creating team. Getting a bacteria sequenced is a technology which is easy to access, and a lot of companies worldwide offers sequencing of bacteria, in addition it is a relative speedy process, which further makes the identification of a malign bacteria, and its properties relatively easy.
Retrieval of the watermark should be easy, in the event of a rogue bacteria spreading havoc in the environment. Standardized placement of the watermark within the part should make it possible to easily retrieving the watermark through sequencing. Thus, if a rogue bacteria is discovered, it should be a simple matter to sequence the part, and obtain the license. Then it is just a matter of consulting the parts-registry to access all available information on the part and on how to contact the creating team. Getting a bacteria sequenced is a technology which is easy to access, and a lot of companies worldwide offers sequencing of bacteria, in addition it is a relative speedy process, which further makes the identification of a malign bacteria, and its properties relatively easy.
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===== A full description of the modified organism =====
===== A full description of the modified organism =====
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A full description of the modified organism should ideally contain the following information
A full description of the modified organism should ideally contain the following information
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This clause is intended as security measure. Should the bacteria be released into the environment, the parts-registry site should contain information on how to neutralize the bacteria. If the bacteria has an kill-code inserted, the site should describe how to enact the self-destruct mechanism.
This clause is intended as security measure. Should the bacteria be released into the environment, the parts-registry site should contain information on how to neutralize the bacteria. If the bacteria has an kill-code inserted, the site should describe how to enact the self-destruct mechanism.
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===== Anticipated problems =====
===== Anticipated problems =====
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'''Code deterioration'''
'''Code deterioration'''
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Should a bacteria be used for a malign purpose it would be quite easy to insert a false watermark to blame others. So we need to keep in mind that a plot could be made against someone. However, if anyone was interested in harming as many as possible, this person probably wouldn’t care about watermarking at all. This also means that we cannot expect watermarking to play a part in any legal case.
Should a bacteria be used for a malign purpose it would be quite easy to insert a false watermark to blame others. So we need to keep in mind that a plot could be made against someone. However, if anyone was interested in harming as many as possible, this person probably wouldn’t care about watermarking at all. This also means that we cannot expect watermarking to play a part in any legal case.
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==== kill-code ====  
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==== Kill-code ====  
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-Why should we consider inserting kill-codes in genetically modified organisms
-Why should we consider inserting kill-codes in genetically modified organisms
-What should an efficient kill-code contain
-What should an efficient kill-code contain
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We suggest level 3 and 4 bacteria would be edible for insertion of a kill-code. Level 1 bacteria pose little to no threat to human beings or the environment, and insertion of a kill-code would not be relevant. Level 2 organisms too would not pose any notable threat, and insertion of a kill-code would be overkill.
We suggest level 3 and 4 bacteria would be edible for insertion of a kill-code. Level 1 bacteria pose little to no threat to human beings or the environment, and insertion of a kill-code would not be relevant. Level 2 organisms too would not pose any notable threat, and insertion of a kill-code would be overkill.
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Level 3 and 4 organisms however pose moderate to serious threat to human beings, animals, plants and the environment at large. Should any of these organisms escape into the outside world, they would cause considerable harm to the milieu.
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Level 3 and 4 organisms however pose moderate to serious threat to human beings, animals, plants and the environment at large. Should any of these organisms escape into the outside world, they would cause considerable harm to the environment.
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== Appendix I: risk assessment of the project ==
== Appendix I: risk assessment of the project ==

Revision as of 11:23, 21 October 2010