Team:Edinburgh/biology(nitritenitratesensing)
From 2009.igem.org
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<center><i><b>Figure 1</b> a) PyeaR repression b) Repression relieved by nitrites. Transcription activated.</i></center> | <center><i><b>Figure 1</b> a) PyeaR repression b) Repression relieved by nitrites. Transcription activated.</i></center> | ||
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Revision as of 21:39, 13 October 2009
Personal note
Before I started working on iGEM, I had never heard of “Synthetic Biology”. I understood that we were going to make genetically modified organisms but did not see how the principles of engineering can be applicable. It is my privilege to be part of the iGEM experience, to witness the shift of biology from discovery science into applied science. iGEM has inspired me to continue working in the field of synthetic biology- my final year project will involve more BioBricking. I am looking forward to the day when BioBricking and assembly of genetic networks will be as easy as building a computer in both prokaryotic and eukaryotic cells - think artificial tissue interfaces!
Evangeline
Before I started working on iGEM, I had never heard of “Synthetic Biology”. I understood that we were going to make genetically modified organisms but did not see how the principles of engineering can be applicable. It is my privilege to be part of the iGEM experience, to witness the shift of biology from discovery science into applied science. iGEM has inspired me to continue working in the field of synthetic biology- my final year project will involve more BioBricking. I am looking forward to the day when BioBricking and assembly of genetic networks will be as easy as building a computer in both prokaryotic and eukaryotic cells - think artificial tissue interfaces!
Evangeline
TNT filled landmines often leak when it contact with the soil (Jenkins et al., 2001). The chemicals leaking from landmines include 1,3-DNB, 2,4-DNT, and 2,4,6-TNT (Jenkins et al., 2001). Subsequently, these chemicals are degraded to nitrites by soil bacteria (French et al., 1998). As such, we expect a radial diffusion gradients of nitrites around a focal point (the landmine). The size of this radius would depend on both the soil structure (e.g. water content, grain size etc) and the age of the landmine.
Our system uses a promoter that is sensitive to both nitrites and nitrates. Endogenously, this promoter controls the expression of the E. coli yeaR-yoaG operon (Lin et al., 2007). We shall henceforth refer to it as PyeaR (Bba_xxxx). Nitrites and nitrates bind to the NsrR repressor to relief repression and activate gene transcription (Figure 1). To learn more about PyeaR’s sensitivity to nitrites/nitrates via our characterization results, click here.
Figure 1 a) PyeaR repression b) Repression relieved by nitrites. Transcription activated.
Our system uses a promoter that is sensitive to both nitrites and nitrates. Endogenously, this promoter controls the expression of the E. coli yeaR-yoaG operon (Lin et al., 2007). We shall henceforth refer to it as PyeaR (Bba_xxxx). Nitrites and nitrates bind to the NsrR repressor to relief repression and activate gene transcription (Figure 1). To learn more about PyeaR’s sensitivity to nitrites/nitrates via our characterization results, click here.
It is also noteworthy that the nitrite feeding into the nitrite-detecting pathway comes from two sources. First, nitrite that has been degraded by soil bacteria can enter the cell. Second, our E. coli features a nitroreductase (PETN reductase) that degrades TNT to nitrites within the cell (Figure 2).
In our system, PyeaR will control the expression of a fusion protein that combines Photobacterium phosphoreum luciferase (Accession #: AY341063, Bba_xxxx) allowing the bacteria to emit
In our system, PyeaR will control the expression of a fusion protein that combines Photobacterium phosphoreum luciferase (Accession #: AY341063, Bba_xxxx) allowing the bacteria to emit
Edinburgh University iGEM Team 2009