Team:Oxford/Results
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<h1>dcmA-sfGFP is expressed in E. coli</h1> | <h1>dcmA-sfGFP is expressed in E. coli</h1> | ||
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+ | DCMA-sfGFP can be expressed in E.coli. E. coli cells were transformed with the construct in figure A. Once transformed, the expression of dcmA-sfGFP was induced using IPTG at various concentrations (see figure 2 and 3). It was shown that there is a basal level of expression when using this system however upon induction, there was a significant increase in the protein levels. Following this conformation that dcmA-sfGFP is expressed in E. coli, an assay that has been previously used to measure the activity of DCM dehalongenase (Krausova, 2003) was utilised to access the activity of the protein product. Upon addition of DCM to the cell lysate, there was no change in the NAD+/NADH2 ratio. However, upon addition of the positive control formate, there was a change. This suggests the cell extract has no activity towards DCM. This may be due to a point mutation that was introduced during PCR. Further experiments will have to be performed to determine if this is the reason no activity is observed. <br><br> | ||
- | <img src="https://static.igem.org/mediawiki/2014/e/e5/DCMAsfGFP.jpg" max- | + | <img src="https://static.igem.org/mediawiki/2014/e/e5/DCMAsfGFP.jpg" max-width="20%" style="float:right;position:relative; width:80%; margin-right:10%;margin-bottom:2%;margin-left:10%;"/><br> |
- | <strong>Figure 1</strong> | + | <strong>Figure 1</strong><br> |
(A) The IPTG inducible construct used in these experiments.<br> | (A) The IPTG inducible construct used in these experiments.<br> | ||
(B)A western blot showing the expression of a protein at 62 kDa (the calculated molecular weight of DCMA-sfGFP). The existence of some protein product at 0 mM IPTG suggests that the promoter is slightly ‘leaky’ and allows a basal expression level when no inducer is present. <br> | (B)A western blot showing the expression of a protein at 62 kDa (the calculated molecular weight of DCMA-sfGFP). The existence of some protein product at 0 mM IPTG suggests that the promoter is slightly ‘leaky’ and allows a basal expression level when no inducer is present. <br> | ||
- | (C) The image shows the expression of GFP under blue LED light in E. coli at various concentrations of the inducer IPTG. The graph quantifies the observed fluorescence, correcting for differences in optical density at 600 nm. Expression significantly increases with IPTG concentration as expected well above the basal level at 0 mM IPTG <br> | + | (C) The image shows the expression of GFP under blue LED light in E. coli at various concentrations of the inducer IPTG. The graph quantifies the observed fluorescence, correcting for differences in optical density at 600 nm. Expression significantly increases with IPTG concentration as expected well above the basal level at 0 mM IPTG. <br> |
+ | (D)The reaction mechanism of the assay we used to measure DCM dehalogenase activity (Krausova, 2003). The enzyme that catalyses the first step is DCMA, the second step is catalysed by formate dehydrogenase. By adding formate it can be determined which step is not working if the assay does not initially work, thus it acts as a positive control. | ||
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Latest revision as of 03:47, 18 October 2014