Team:Caltech/Project/Experiments
From 2014.igem.org
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Project Overview
Project Details Materials and Methods The Experiments Results Data Analysis Conclusions References |
Testing Export of Signaling LigandTo test these quorum sensing systems’ viability in E. coli, we tried to construct plasmids containing our genes of interest and transformed them into E. coli. Due to technical issues, we were successful in cloning plasmids carrying the lamBDCA and fsrABC quorum systems' export genes. In addition to the genes of interest, each plasmid also contained the coding sequence for 3xFLAG at the 5' end of the sequence encoding the signaling ligand (resulting in a 3xFLAG at the N-terminus of the signaling ligand after translation). These FLAG tags were blotted against in the Western blots we eventually ran to detect the presence of the signaling ligands. These 3xFLAG tags were ultimately removed from the plasmids after their usefulness in Western blotting had expired. Based on how the peptide precursors of the signaling ligands of the quorum sensing systems were translated and cleaved, we expected to see several discrete protein fragments in the Western blot. These fragments are detailed in Figure 1 & Figure 2.
Liquid chromatography mass spectroscopy (LC/MS) analysis was also performed on the supernatants of cell cultures expressing the plasmids we had constructed. LC/MS is a process that starts by separating a liquid sample by size and composition via injection into a filtration column. After the sample passes through, its variously sized components are ionized, and their mass-to-charge ratios (m/z) are computed via mass spectroscopy by analyzing the effects of electromagnetic fields on the particles. The data obtained from these experiments were compared to existing characterization data for these signaling ligands to determine the presence or absence of the signaling ligand in the supernatant. According to the scientific literature, previous analysis of the lam signaling ligand had demonstrated that strong peaks were expected to be seen at m/z ratios of 260.1, 345.2, 373.2, and 577.3 after roughly 27 minutes flowing through the column (at a flow rate of 0.2 mL/min) [1]. Testing Signaling Ligand ReceptionTo test the AgrC/AgrA two-component system in E. coli, we designed three plasmid constructs. The first plasmid construct contained the AgrC gene with 4 SH3 scaffold domains attached at the C-terminus. The second and third constructs both contained the AgrA gene along with a GFP reporter regulated by the P2 promoter, but the constructs differed in that only one of the constructs had an SH3 peptide attached to the AgrA gene. The SH3 scaffolds were used in order to allow us to induce signal transduction without the AIP inducer, by means of colocalizing the AgrC histidine kinase and AgrA response regulator. Unfortunately, induction of the two-component system via the scaffold mechanism could not be tested because we failed to successfully clone the plasmid containing the AgrA-SH3 gene. Testing Combinatorial Promoter Logic |