Team:SDU-Denmark/safety-b

From 2010.igem.org

(Difference between revisions)
(Photosensor)
(Risk-assessment for Individual Parts)
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The BioBrick’s product is not in itself toxic, but we do not recommend using this BioBrick for any type of system in humans or animals for the following reasons:  
The BioBrick’s product is not in itself toxic, but we do not recommend using this BioBrick for any type of system in humans or animals for the following reasons:  
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*Retinoic acid, which retinal can degrade into, can affect gene expression and function of almost any cell, including cells of the immune system; it also plays a fundamental role in cellular functions by activating nuclear receptors (11).  
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*Retinoic acid, which retinal can degrade into, can affect gene expression and function of almost any cell, including cells of the immune system; it also plays a fundamental role in cellular functions by activating nuclear receptors (1).  
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*Vitamin A toxicity can lead to hepatic congestion and fibrosis (12).  
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*Vitamin A toxicity can lead to hepatic congestion and fibrosis (2).  
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*Vitamin A and its derivatives have been implicated as chemopreventive and differentiating agents in a variety of cancers (13).  
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*Vitamin A and its derivatives have been implicated as chemopreventive and differentiating agents in a variety of cancers (3).  
These effects are not directly associated with the enzyme itself, but have been observed in humans. It is highly unlikely that high enough doses can be reached with this biobrick. Please see references for more information about the diseases.  
These effects are not directly associated with the enzyme itself, but have been observed in humans. It is highly unlikely that high enough doses can be reached with this biobrick. Please see references for more information about the diseases.  
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====Environmental impact====
====Environmental impact====
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To our knowledge retinal should not play a significant role in environmental processes or would disrupt natural occurring symbiosis.  
To our knowledge retinal should not play a significant role in environmental processes or would disrupt natural occurring symbiosis.  
The biobrick should not increase its host’s ability to spread, survive outside the laboratory, and will most likely decrease its ability to replicate.
The biobrick should not increase its host’s ability to spread, survive outside the laboratory, and will most likely decrease its ability to replicate.
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Beta-caroten monooxygenase is found in a wide variety of different bacteria, insects and animals (5). As such we would be cautious as to letting a system containing this BioBrick into the wild, since it's function might conflict with existing systems. On the other hand one might argue that since it's function is already available in nature, the function is widely available.  
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Beta-caroten monooxygenase is found in a wide variety of different bacteria, insects and animals (4). As such we would be cautious as to letting a system containing this BioBrick into the wild, since it's function might conflict with existing systems. On the other hand one might argue that since it's function is already available in nature, the function is widely available.  
The product of the BioBrick, retinal, also plays an important function in nature and animals. For this reason we fell that the BioBrick could be used in controlled settings, but not in the wild.  
The product of the BioBrick, retinal, also plays an important function in nature and animals. For this reason we fell that the BioBrick could be used in controlled settings, but not in the wild.  
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====Potential pathogenicity====
====Potential pathogenicity====
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This biobrick increases the potential of its host to move. Increased motility has been associated the bacteria’s ability to invade humans (1); on the other hand it has also been shown that bacteria that loss the function of the FlhDC operon, are considerable better at colonizing the intestine (2), and so an increased expression might decrease a hosts ability to colonize and invade humans. It is impossible to ensure, that this plasmid is not transferred to pathogenic bacteria since the FlhDC operons is used in a wide array of other bacteria that are known to be pathogenic.
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This biobrick increases the potential of its host to move. Increased motility has been associated the bacteria’s ability to invade humans (5); on the other hand it has also been shown that bacteria that loss the function of the FlhDC operon, are considerable better at colonizing the intestine (6), and so an increased expression might decrease a hosts ability to colonize and invade humans. It is impossible to ensure, that this plasmid is not transferred to pathogenic bacteria since the FlhDC operons is used in a wide array of other bacteria that are known to be pathogenic.
A number of effector cells in the human immune system react specifically to bacteria’s flagella, and so a hyperflagellated host will most likely induce a stronger immune response.  
A number of effector cells in the human immune system react specifically to bacteria’s flagella, and so a hyperflagellated host will most likely induce a stronger immune response.  
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''Is your construct watermarked?''
''Is your construct watermarked?''
No.
No.
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References
 
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1. Young GM, Badger JL, Miller VL. Motility is required to initiate host cell invasion by Yersinia enterocolitica. Infect. Immun. 2000 Jul;68(7):4323-4326.
 
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2. Gauger EJ, Leatham MP, Mercado-Lubo R, Laux DC, Conway T, Cohen PS. Role of Motility and the flhDC Operon in Escherichia coli MG1655 Colonization of the Mouse Intestine. Infect. Immun. 2007 Jul 1;75(7):3315-3324.
 
===[http://partsregistry.org/wiki/index.php?title=Part:BBa_K343003 Photosensor (Part K343003)]===
===[http://partsregistry.org/wiki/index.php?title=Part:BBa_K343003 Photosensor (Part K343003)]===
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====Potential pathogenicity====
====Potential pathogenicity====
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This BioBrick consists of three different parts: The first 224 amino acid residues come from the NpSopII gene from halobacteria, encoding a blue-light photon receptor with 15 residues removed at the C-terminal. The following 9 amino acids are a linker. The last part is HtrII fused with Tsr from E. Coli. The complex' first 125 amino acid residues come from HtrII and the remaining 279 from Tsr (1). NpHtrII is thought to function in signal transduction and activation of microbial signalling cascades (2).   
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This BioBrick consists of three different parts: The first 224 amino acid residues come from the NpSopII gene from halobacteria, encoding a blue-light photon receptor with 15 residues removed at the C-terminal. The following 9 amino acids are a linker. The last part is HtrII fused with Tsr from E. Coli. The complex' first 125 amino acid residues come from HtrII and the remaining 279 from Tsr (7). NpHtrII is thought to function in signal transduction and activation of microbial signalling cascades (8).   
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A single article has been written about haloarchaea in humans indicating that these played a role in patients with inflammatory bowl disease (3), but there is no evidence that the genes or near homologs, this BioBrick is made from, are involved in any disease process, toxic products or invasion properties. They do not regulate the immune system in any way.
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A single article has been written about haloarchaea in humans indicating that these played a role in patients with inflammatory bowl disease (9), but there is no evidence that the genes or near homologs, this BioBrick is made from, are involved in any disease process, toxic products or invasion properties. They do not regulate the immune system in any way.
====Environmental impact====
====Environmental impact====
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No.
No.
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Referencer
 
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1. Jung KH, Spudich EN, Trivedi VD, Spudich JL. An archaeal photosignal-transducing module mediates phototaxis in Escherichia coli. J. Bacteriol. 2001 Nov;183(21):6365-6371.
 
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2. Mennes N, Klare JP, Chizhov I, Seidel R, Schlesinger R, Engelhard M. Expression of the halobacterial transducer protein HtrII from Natronomonas pharaonis in Escherichia coli. FEBS Lett. 2007 Apr 3;581(7):1487-1494.
 
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3. Oxley APA, Lanfranconi MP, Würdemann D, Ott S, Schreiber S, McGenity TJ, et al. Halophilic archaea in the human intestinal mucosa. Environ Microbiol [Internet]. 2010 Apr 23 [cited 2010 Oct 26];Available from: http://www.ncbi.nlm.nih.gov/pubmed/20438582
 
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===References===
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# Spiegl N, Didichenko S, McCaffery P, Langen H, Dahinden CA. Human basophils activated by mast cell-derived IL-3 express retinaldehyde dehydrogenase-II and produce the immunoregulatory mediator retinoic acid. Blood. 2008 Nov 1;112(9):3762-71.
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# Russell RM. The vitamin A spectrum: from deficiency to toxicity. American Journal of Clinical Nutrition, Vol. 71, No. 4, 878-884, April 2000.
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# Pasquali D, Thaller C, Eichele G. Abnormal level of retinoic acid in prostate cancer tissues. J Clin Endocrinol Metab. 1996 Jun;81(6):2186-91.
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# Bryant DA, Frigaard N. Prokaryotic photosynthesis and phototrophy illuminated. Trends Microbiol. 2006 Nov;14(11):488-496.
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# Young GM, Badger JL, Miller VL. Motility is required to initiate host cell invasion by Yersinia enterocolitica. Infect. Immun. 2000 Jul;68(7):4323-4326.
 +
# Gauger EJ, Leatham MP, Mercado-Lubo R, Laux DC, Conway T, Cohen PS. Role of Motility and the flhDC Operon in Escherichia coli MG1655 Colonization of the Mouse Intestine. Infect. Immun. 2007 Jul 1;75(7):3315-3324.
 +
# Jung KH, Spudich EN, Trivedi VD, Spudich JL. An archaeal photosignal-transducing module mediates phototaxis in Escherichia coli. J. Bacteriol. 2001 Nov;183(21):6365-6371.
 +
# Mennes N, Klare JP, Chizhov I, Seidel R, Schlesinger R, Engelhard M. Expression of the halobacterial transducer protein HtrII from Natronomonas pharaonis in Escherichia coli. FEBS Lett. 2007 Apr 3;581(7):1487-1494.
 +
# Oxley APA, Lanfranconi MP, Würdemann D, Ott S, Schreiber S, McGenity TJ, et al. Halophilic archaea in the human intestinal mucosa. Environ Microbiol [Internet]. 2010 Apr 23 [cited 2010 Oct 26];Available from: http://www.ncbi.nlm.nih.gov/pubmed/20438582
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Revision as of 11:24, 26 October 2010