Team:Imperial College London/Wetlab/Results/Colanic
From 2009.igem.org
(→Effect of Ph on colanic acid cells) |
(→Effect of Ph on colanic acid cells) |
||
Line 15: | Line 15: | ||
==Effect of Ph on colanic acid cells== | ==Effect of Ph on colanic acid cells== | ||
[[Image:II09_table1.png]]<br> | [[Image:II09_table1.png]]<br> | ||
- | <b>Table 1: Growth rate at different Ph values for cells with colanic acid </b> | + | <b>Table 1: Growth rate at different Ph values for cells with colanic acid </b><br> |
[[Image:II09_colanic_ph11.png]]<br> | [[Image:II09_colanic_ph11.png]]<br> | ||
<b>Figure 1: Plots of log [absorbance] (optical density) for chemically induced colanic acid cells.</b> Samples X1, X6 and X11 contain cells induced with colanic acid. The linear description stands for linear regression, which was used to estimate the growth rate for different Ph values. | <b>Figure 1: Plots of log [absorbance] (optical density) for chemically induced colanic acid cells.</b> Samples X1, X6 and X11 contain cells induced with colanic acid. The linear description stands for linear regression, which was used to estimate the growth rate for different Ph values. |
Revision as of 00:02, 22 October 2009
Contents |
Background
RcsB (biobrick [http://partsregistry.org/Part:BBa_K200000 BBa_K200000] is the gene responsible for generating a colanic acid capsule around our bacteria. Having a colanic acid capsule around them will protect them from being degraded by the high acidic nature of the stomach environment.
Aim
Here, as proof of concept, we have designed a simple experiment that will show that colanic acid has a protective effect on our growing bacteria in acidic environments (simulating gastric conditions). The method is described below.
Experimental Method
In a multiple well plate, 2 different types of cell cultures were grown, both containing the [http://partsregistry.org/Part:BBa_I13522 BBa_I13522] construct, which is a constitutive promoter expressing GFP. The differences were:
- Some cultures contained colanic acid (chemically induced by p-Fluoro-L-phenylalanine (FPA))
- Some cultures did not contain colanic acid.
Growth rate of the cell cultures and levels of GFP expression were monitored over time, at different Ph values in order to decide if induction using colanic acid provides extra protection to the construct.
Results analysis
Effect of Ph on colanic acid cells
Table 1: Growth rate at different Ph values for cells with colanic acid
Figure 1: Plots of log [absorbance] (optical density) for chemically induced colanic acid cells. Samples X1, X6 and X11 contain cells induced with colanic acid. The linear description stands for linear regression, which was used to estimate the growth rate for different Ph values.
Effect of Ph on non-colanic acid cells
Conclusion