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<p style="text-align:center"><b>Figure.2</b> Construction of biosensor HcaR circuit.The orange arrowheads represent promoters. RBSs are shown as green ovals. Squares in dark red refers to terminators B0015. | <p style="text-align:center"><b>Figure.2</b> Construction of biosensor HcaR circuit.The orange arrowheads represent promoters. RBSs are shown as green ovals. Squares in dark red refers to terminators B0015. | ||
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| + | <p id="Figure2"><B>Figure 2.</B> RBS and Pc constitutive promoter library for HcaR biosensor. X-axis stands for different construction of biosensor HcaR. Y-axis denotes induction ratios. The HcaR biosensor with <a href="https://parts.igem.org/Part:BBa_J23106">J23106</a> is a strong constitutive promoter, and <a href="https://parts.igem.org/Part:BBa_B0032">B0032</a> is a weak RBS, and this construction performed well, which showed the induction ratio higher than 25 folds. | ||
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== Reference == | == Reference == | ||
Revision as of 15:12, 27 September 2013
HcaR-Terminator
For detailed information concerning HcaR, please visit 2013 Peking iGEM Biosensor HcaR
Introduction
HcaR is a 32,838 Da (296 amino acids) protein, which belongs to LysR family. Its’N-terminal domain functions in DNA binding via a helix-turn-helix motif, while C-terminal domain functions in multimerization. As an activator, HcaR activates the expression of hca cluster when exposed to ligands. It detects limited profile of ligands, including 3-phenylpropionic acid (PPA) and cinnamic acid (CnA) [1]. Another gene cluster mhp locates downstream hca cluster. hca and mhp clusters are involved in the catabolism of PPA and CnA in E.coli (Fig.1). The enzymes encoded by hca cluster degrade PPA and CnA to 2,3-DHPPA and 2,3-DHCnA respectively, which serve as the substrates of the mhp cluster. The enzymes in mhp cluster function in the cleavage of aromatic ring.
Fig.1 The degradation pathway of PPA and CnA.
Compared with the sole 2,3-DHPPA, the special induction effect of PPA and 2,3-DHPPA is obtained, although PPA doesn't behave as inducer when alone. Based on the result and the observation of different binding site of PPA with MhpR, it is deduced that PPA and 2,3-DHPPA have synergistic effect to the activation of MhpR expression [2]. (That is to say, PPA enhances the activation effect as a cooperator of 2,3-DHPPA instead of a ligand.) The same effect is observed in 3-HPPA along with PPA.
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25INCOMPATIBLE WITH RFC[25]Illegal NgoMIV site found at 849
Illegal AgeI site found at 522 - 1000COMPATIBLE WITH RFC[1000]
Characterization of Biosensor
Construction and tunning
Ph/HcaR biosensor circuit is constructed. The coding sequence of HcaR was obtained from the genome of E. coli K12 via PCR. A Pc library of constitutive promoters at different intensities are constructed to fine-tune the biosensor, including BBa_J23113, J23109, J23114 and J23106 (Fig.2).
Figure.2 Construction of biosensor HcaR circuit.The orange arrowheads represent promoters. RBSs are shown as green ovals. Squares in dark red refers to terminators B0015.
'''Pc and RBS Library'''
Figure 2. RBS and Pc constitutive promoter library for HcaR biosensor. X-axis stands for different construction of biosensor HcaR. Y-axis denotes induction ratios. The HcaR biosensor with J23106 is a strong constitutive promoter, and B0032 is a weak RBS, and this construction performed well, which showed the induction ratio higher than 25 folds.
ON/OFF test
When tested HcaR biosensor adopting Pc J23106 and RBS B0032 with 78 aromatic compounds following Test Protocol 1[http://2013.igem.org/Team:Peking/Team/Notebook/Protocols], ON/OFF test via microplate reader showed that HcaR worked as a specific sensor to PPA (Fig.3).
Figure.3 Results of On/Off test of biosensor HcaR adopting circuit ''Ph''/J23106-HcaR. HcaR specifically responds to PPA (1000 μM) with the induction ration over 2. Horizontal axis represents different kinds of inducers. Vertical axis stands for induction ratio calculated from fluorescence intensity.
Dose-response curve
PPA was used to test dose-response curve of Ph-B0032/J23106-HcaR and Ph-B0034/J23106-HcaR biosensors.(Fig 4)
Figure.4 Dose-response curve for HcaR with constitutive promoter'' Pc'' J23106 in collocation with RBS B0032 and B0034 respectively. Horizontal axis represents PPA at the concentration of 0µM, 10µM, 30µM, 100µM, 300µM and 1000µM respectively. Vertical axis stands for fluorescence intensity.
Reference
[1] Díaz, E., Ferrández, A., & García, J. L. (1998). Characterization of the hca Cluster Encoding the Dioxygenolytic Pathway for Initial Catabolism of 3-Phenylpropionic Acid in Escherichia coliK-12. Journal of bacteriology, 180(11), 2915-2923. [2] Manso, I., Torres, B., Andreu, J. M., Menéndez, M., Rivas, G., Alfonso, C., ... & Galán, B. (2009). 3-Hydroxyphenylpropionate and phenylpropionate are synergistic activators of the MhpR transcriptional regulator from Escherichia coli. Journal of Biological Chemistry, 284(32), 21218-21228.