Team:Grenoble-EMSE-LSU/Project/Biology

From 2013.igem.org

(Difference between revisions)
Line 121: Line 121:
                                         In these experiments we simply put an additional light source inside the incubator in order to illuminate two cultures at once, at 100% and 50% light intensity respectively. The light sources were switched on 195 minutes after inoculation, until the end of the kinetic experiment (600 min). Another sample of KR-expressing M15 bacteria was kept in the dark, as a negative control. Results of OD610 and fluorescence measurements are shown in Fig. 2.<br><br></p>
                                         In these experiments we simply put an additional light source inside the incubator in order to illuminate two cultures at once, at 100% and 50% light intensity respectively. The light sources were switched on 195 minutes after inoculation, until the end of the kinetic experiment (600 min). Another sample of KR-expressing M15 bacteria was kept in the dark, as a negative control. Results of OD610 and fluorescence measurements are shown in Fig. 2.<br><br></p>
                                         <p align="center"><img src="" alt="" width="750px"></p>
                                         <p align="center"><img src="" alt="" width="750px"></p>
-
                                         <p id="legend">Figure 2.<br>OD610 (A) and fluorescence (630 nm) (B) as a function of time for 3 different bacterial cell samples, under different light conditions. The sample kept in the dark is represented in blue, the ones illuminated at 50 and 100% of the maximal intensity in red and green, respectively. The light sources were switched on 195 min after inoculation, until the end of the experiment. Error bars represent standard errors of duplicates.</p>
+
                                         <p id="legend">Figure 2.<br>OD610 (A) and fluorescence (630 nm) (B) as a function of time for 3 different bacterial cell samples, under different light conditions. The sample kept in the dark is represented in blue, the ones illuminated at 50 and 100% of the maximal intensity in red and green, respectively. The light sources were switched on 195 min after inoculation, until the end of the experiment. Error bars represent standard errors of duplicates.<br><br></p>
                                         <p>Optical density values of the 3 bacterial cell samples start differing 105 min after the light sources are switched on. ROS-mediated intracellular damages start accumulating inside the bacteria after t = 195 min, leading to a significant change in the number of living cells after t = 300 min (Fig 2.A). For all cultures, OD610 increases after time point 300 min, but at different rates that depend on the intensity of illumination.<br><br>
                                         <p>Optical density values of the 3 bacterial cell samples start differing 105 min after the light sources are switched on. ROS-mediated intracellular damages start accumulating inside the bacteria after t = 195 min, leading to a significant change in the number of living cells after t = 300 min (Fig 2.A). For all cultures, OD610 increases after time point 300 min, but at different rates that depend on the intensity of illumination.<br><br>
                                         According to our expectations, the sample in which the biomass increases the most is the one that was kept in the dark, the condition in which no ROS is produced by KR.<br>
                                         According to our expectations, the sample in which the biomass increases the most is the one that was kept in the dark, the condition in which no ROS is produced by KR.<br>

Revision as of 12:54, 2 October 2013

Grenoble-EMSE-LSU, iGEM


Grenoble-EMSE-LSU, iGEM

Retrieved from "http://2013.igem.org/Team:Grenoble-EMSE-LSU/Project/Biology"