Team:Peking/DataPage/Parts

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Each color segment in the central spectrum represents the detection profile of a biosensor. Structural formula highlighted in color stand for the aromatic compounds that can be detected by our biosensors.┝ stand for <a href="https://2013.igem.org/Team:Peking/Project/Plugins">Adaptors</a>, enzymes that convert undetectable compounds into detectable aromatics, thus to expand the detection capacity of some biosensors. <a href="https://static.igem.org/mediawiki/igem.org/2/24/Peking2013_Chemicals_V3%2B.pdf">Click Here</a> for the summary table of the aromatics spectrum and aromatics-sensing profiles of individual biosensors.  
Each color segment in the central spectrum represents the detection profile of a biosensor. Structural formula highlighted in color stand for the aromatic compounds that can be detected by our biosensors.┝ stand for <a href="https://2013.igem.org/Team:Peking/Project/Plugins">Adaptors</a>, enzymes that convert undetectable compounds into detectable aromatics, thus to expand the detection capacity of some biosensors. <a href="https://static.igem.org/mediawiki/igem.org/2/24/Peking2013_Chemicals_V3%2B.pdf">Click Here</a> for the summary table of the aromatics spectrum and aromatics-sensing profiles of individual biosensors.  
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<b>Figure 2.</b> Experimental points and the linear fitting curves of the orthogonality test. The black dashed lines are with the slopes of 1, showing as the reference line. The slopes of the experimental fitting curves were showed in the upside portion of the figure, all of them were around 1. These data showed the orthogonality among inducers of biosensors(a, b) XylS and NahR; (c, d) XylS and HbpR; (e, f) NahR and HbpR, (g, h) XylS and DmpR, (i, j) NahR and DmpR, and (k, l) HbpR and DmpR. The experimental points and linear fitting curves of biosensor and its inducers are marked in different colors: XylS in red, NahR in green, HbpR in orange and DmpR in dark cyan.
<b>Figure 2.</b> Experimental points and the linear fitting curves of the orthogonality test. The black dashed lines are with the slopes of 1, showing as the reference line. The slopes of the experimental fitting curves were showed in the upside portion of the figure, all of them were around 1. These data showed the orthogonality among inducers of biosensors(a, b) XylS and NahR; (c, d) XylS and HbpR; (e, f) NahR and HbpR, (g, h) XylS and DmpR, (i, j) NahR and DmpR, and (k, l) HbpR and DmpR. The experimental points and linear fitting curves of biosensor and its inducers are marked in different colors: XylS in red, NahR in green, HbpR in orange and DmpR in dark cyan.
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Revision as of 15:00, 27 September 2013

Parts


XylS
Main Page-BBa_K1031911
XylS is a σ70-dependent transcriptional factor, which may activate Pm promoter when benzoate acid and its homologous compounds’ binding. We constructed constitutive promoter Pc library to tune its performance. Adaptor of this biosensor can also improve the detection efficiency.
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HbpR
Main Page-BBa_K1031300
HbpR is a σ54-dependent transcriptional factor, which may activate its promoter when 2-Hydroxybiphenol and 2-aminobiphenol’s binding. Tuning Pc constitutive promoter was insufficient for this biosensor, so the RBS library before reporter gene was constructed and remarkably improved the performance.
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NahF
Main Page-BBa_K1031620
NahF is the salicylaldehyde dehydrogenase to transform salicylaldehyde into salicylic acid (salicylate) using NAD+. We tested NahF in E.coli and it showed that the NahF can work as an adaptor for biosensor NahR, meaning that NahF notably improve the performance and range of detection.
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Hybrid Promoter
Main Page-BBa_K1031021
The hybrid promoter is constructed for the band-pass filter. A band-pass filter can be theoretically summarized as an incoherent feed forward loop, consisted of a positive loop and a negative loop. As for the reporter node, a special promoter is used so that the reporter should be controlled by the activator and inhibitor at the same time.
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NahR
Main Page-BBa_K1031610
Pre-existing Part: Main Page-BBa_J61051
BBa_K1031610 is upgraded from previous part BBa_J61051 designed by Arkin Lab. NahR is a 34 kDa transcription factor mined from Pseudomonas putida which binds to nah and sal promoters to activate transcription in response to the inducer salicylate. We constructed a Psal/NahR biosensor circuit using sfGFP as reporter gene. Adaptor of this biosensor not only improves detection efficiency but also expands detection profile.
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Parts for Biosensors

DmpR
BBa_K1031221 BBa_K1031222 BBa_K1031223 BBa_K1031224 are the RBS library of DmpR biosensor's reporter.

HbpR
BBa_K1031300 is the coding sequence of HbpR with terminators.
BBa_K1031301 and BBa_K1031302 are the RBS library of HbpR biosensor's reporter.

HcaR
BBa_K1031410 is the coding sequence of HcaR with terminators.
BBa_K1031441 BBa_K1031442 BBa_K1031443 and BBa_K1031444 are the Pc library of HbpR to tune its performance .
BBa_K1031420 and BBa_K1031421 are the RBS library of HcaR biosensor's reporter.

CapR
BBa_K1031100 is the coding sequence of CapR transcriptional factor.
BBa_K1031111 and BBa_K1031112 are basic sensor construction with different CapR expression level.
BBa_K1031113 and BBa_K1031114 are reporters with different RBS for the CapR biosensor.

HpaR
BBa_K1031510 is the coding sequence of HpaR transcriptional factor.
BBa_K1031520 and BBa_K1031521 are reporters with different RBS for the HpaR biosensor.

NahR
BBa_K1031610 is the NahR biosensor circuit.

PaaX
BBa_K1031710 is the coding sequence of PaaX with terminators.
BBa_K1031742 BBa_K1031743 and BBa_K1031744 are the Pc library of PaaX.

XylS
BBa_K1031911 is the coding sequence of XylS transcriptional factor with terminators.
BBa_K1031912 BBa_K1031913 and BBa_K1031916 are the Pc library of XylS.

XylR
BBa_K1031803 BBa_K1031804 are the RBS library of XylR biosensor's reporter.

Parts for Adaptors

NahF
BBa_K1031620 is the coding sequence of XylS transcriptional factor with terminators.
BBa_K1031621 BBa_K1031622 BBa_K1031623 BBa_K1031624 and BBa_K1031625are the Pc library of NahF.

Parts for Band-Pass Filter


BBa_K1031021 is the hybrid promoter for the reporter node, which can be activated as well as inhibited.
BBa_K1031011 is the transcriptional factor that can activate its cognate promoter, which is used as the activate node in the band-pass filter.
BBa_K1031013 BBa_K1031014 BBa_K1031015 BBa_K1031016 are RBS library to tune the expression of cI, under the control of pSal promoter, which is a crucial part for band-pass filter.

Figure 1. The aromatics spectrum showing the aromatics-sensing profiles of our individual biosensors.
Each color segment in the central spectrum represents the detection profile of a biosensor. Structural formula highlighted in color stand for the aromatic compounds that can be detected by our biosensors.┝ stand for Adaptors, enzymes that convert undetectable compounds into detectable aromatics, thus to expand the detection capacity of some biosensors. Click Here for the summary table of the aromatics spectrum and aromatics-sensing profiles of individual biosensors. Visit Our Wiki

Figure 2. Experimental points and the linear fitting curves of the orthogonality test. The black dashed lines are with the slopes of 1, showing as the reference line. The slopes of the experimental fitting curves were showed in the upside portion of the figure, all of them were around 1. These data showed the orthogonality among inducers of biosensors(a, b) XylS and NahR; (c, d) XylS and HbpR; (e, f) NahR and HbpR, (g, h) XylS and DmpR, (i, j) NahR and DmpR, and (k, l) HbpR and DmpR. The experimental points and linear fitting curves of biosensor and its inducers are marked in different colors: XylS in red, NahR in green, HbpR in orange and DmpR in dark cyan.

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Improved Parts

Part List

Data Plot