Difference between revisions of "Part:BBa K1682000"
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===RFU measurement of 4 mutants=== | ===RFU measurement of 4 mutants=== | ||
[[Image:HKUST-Rice_2015_4_promoter_RFU_+_GFP_syn_rate.png|900px|center]] | [[Image:HKUST-Rice_2015_4_promoter_RFU_+_GFP_syn_rate.png|900px|center]] | ||
− | '''''Fig 3&4. Activity of PkdpF in E. coli DH10B in different K+ concentrations'''Fluorescence/absorbance versus [K+] plot is shown on the left while the GFP synthesis rate versus [K+] plot is on the right. A, T(wild type), C, and G represent A mutant, wild type promoter, C mutant and G mutant respectively. Cells were pre-cultured, washed and sub-cultured as previously described in RPU measurement. Measurement took place when OD600=0.4. 2 other measurements were taken every 15 mins afterwards for GFP synthesis rate. Error bar are presented in SEM.'' | + | '''''Fig 3&4. Activity of PkdpF in E. coli DH10B in different K+ concentrations''' Fluorescence/absorbance versus [K+] plot is shown on the left while the GFP synthesis rate versus [K+] plot is on the right. A, T(wild type), C, and G represent A mutant, wild type promoter, C mutant and G mutant respectively. Cells were pre-cultured, washed and sub-cultured as previously described in RPU measurement. Measurement took place when OD600=0.4. 2 other measurements were taken every 15 mins afterwards for GFP synthesis rate. Error bar are presented in SEM.'' |
Both C and G mutants expressed higher fluorescence compared to the wild type and the A mutant. As the [K+] went up, the activity of PkdpF decreased. The expression levels of both the C and G mutant promoters were significantly higher than the wild type promoter, while the A mutant was always the lowest. At 0 mM [K+], both the C and G mutants expressed fluorescence which was about 1.7 times higher than the A mutant and wild type promoter. At 0.2 mM [K+], expression of both C and G mutants were 1.7 times higher than the wild type promoter, and 3 times higher compared to the A mutant. This might be caused by the difference in binding affinity between RNA polymerase and PkdpF variants (Brewster, 2012). The dynamic range of our promoters is between 0 to 0.1 mM of K+. | Both C and G mutants expressed higher fluorescence compared to the wild type and the A mutant. As the [K+] went up, the activity of PkdpF decreased. The expression levels of both the C and G mutant promoters were significantly higher than the wild type promoter, while the A mutant was always the lowest. At 0 mM [K+], both the C and G mutants expressed fluorescence which was about 1.7 times higher than the A mutant and wild type promoter. At 0.2 mM [K+], expression of both C and G mutants were 1.7 times higher than the wild type promoter, and 3 times higher compared to the A mutant. This might be caused by the difference in binding affinity between RNA polymerase and PkdpF variants (Brewster, 2012). The dynamic range of our promoters is between 0 to 0.1 mM of K+. |
Revision as of 18:47, 13 September 2015
Contents
Wild Type PkdpF - potassium responsive promoter
Biology of PkdpF
The potassium ion uptake in E. coli is regulated by several systems under different conditions. The potassium ion transporters, Trk and Kup are constitutively expressed (Epstein & Kim, 1971) while KdpFABC, another transporter is activated under low [K+] conditions (Laimins et al., 1981).
The kdpFABC operon is controlled by the KdpDE two-component system (TCS) which consists of KdpD, a membrane-bound sensor kinase, and KdpE, a cytoplasmic response regulator (Polarek, 1992; Walderhaug, 1992). KdpD is stimulated by both intracellular and extracellular K+ (Jung, 2000; Jung, 2001; Roe, 2000; Yan, 2011a; Laermann, 2013). KdpD phosphorylates KdpE upon low potassium concentration (Voelkner, 1993; Puppe, 1996; Jung, 1997a; Jung, 2000). Under an increase in [K+], KdpD phosphatase activity will be enhanced, causing a decrease in phospho-KdpE and kdpFABC expression. Phosphorylated KdpE turns on the expression of kdpFABC (Zhang, 2014a; Laermann, 2013).
Construct for characterization
Fig 2. K+ sensing construct with reporter.
To make a potassium-sensing device, we obtained the promoter, PkdpF, and combined it with a GFP reporter, BBa_E0240, in BioBrick RFC10 standard so that the promoter activity in different potassium level can be detected and characterized.
Removal of EcoRI illegal site
To make PkdpF compatible with RFC10 standard and, as so, readily accessible to iGEM community, we designed variants of it with the EcoRI site removed. We mutated the thymine at -15 position to guanine, cytosine and adenine. The wild type promoter and the 3 variants are expected to be different in activity because of the difference in binding energy between the promoter and RNA polymerase (Brewster, 2012). Therefore, we characterized all of them to compare their strengths by relative fluorescence intensity, so as to obtain comprehensive knowledge in the activity and working range of the four promoters. For convenience, we denote them as A mutant, G mutant and C mutant respectively in the following context.
RFU measurement of 4 mutants
Fig 3&4. Activity of PkdpF in E. coli DH10B in different K+ concentrations Fluorescence/absorbance versus [K+] plot is shown on the left while the GFP synthesis rate versus [K+] plot is on the right. A, T(wild type), C, and G represent A mutant, wild type promoter, C mutant and G mutant respectively. Cells were pre-cultured, washed and sub-cultured as previously described in RPU measurement. Measurement took place when OD600=0.4. 2 other measurements were taken every 15 mins afterwards for GFP synthesis rate. Error bar are presented in SEM.
Both C and G mutants expressed higher fluorescence compared to the wild type and the A mutant. As the [K+] went up, the activity of PkdpF decreased. The expression levels of both the C and G mutant promoters were significantly higher than the wild type promoter, while the A mutant was always the lowest. At 0 mM [K+], both the C and G mutants expressed fluorescence which was about 1.7 times higher than the A mutant and wild type promoter. At 0.2 mM [K+], expression of both C and G mutants were 1.7 times higher than the wild type promoter, and 3 times higher compared to the A mutant. This might be caused by the difference in binding affinity between RNA polymerase and PkdpF variants (Brewster, 2012). The dynamic range of our promoters is between 0 to 0.1 mM of K+.
Promoter function measurement in different strain
At [K+] lower than 0.0125 mM, the acitivity of G mutant in DH10B was significantly greater than that in TK2240 strain. Activity of PkdpF in DH10B strain decreased with increasing concentrations, while it remained stable in TK2240. Above 0.05 mM [K+], the activity of PkdpF in TK2240 strain exceeded that in the DH10B strain. Since TK2240 is defective in its Trk and Kup systems, it can only rely on the Kdp system for K+ uptake, thereby explaining the higher promoter activity observed beyond 0.05 mM [K+].
RPU measurement
In order to assemble a device that can be widely used by iGEM community, we characterized PkdpF by relative promoter unit (RPU) measurement. Additionally, relative fluorescence unit (RFU) measurement has also been done to compare the activities between wild type promoters and 3 variants.
- 10INCOMPATIBLE WITH RFC[10]Illegal EcoRI site found at 61
- 12INCOMPATIBLE WITH RFC[12]Illegal EcoRI site found at 61
- 21INCOMPATIBLE WITH RFC[21]Illegal EcoRI site found at 61
- 23INCOMPATIBLE WITH RFC[23]Illegal EcoRI site found at 61
- 25INCOMPATIBLE WITH RFC[25]Illegal EcoRI site found at 61
- 1000COMPATIBLE WITH RFC[1000]