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Lysis Selection System

Lysis Characterization

Introduction

We cloned the Berkeley Lysis cassette ([http://partsregistry.org/Part:BBa_K112808 BBa_K112808]) under control of the T7 promoter into a low copy number plasmid ([http://partsregistry.org/Part:pSB3K1 pSB3K1]). We tested lysis of cells haboring this plasmid in a platereader experiment. Lysis resulted in a drop in optical density after induction with IPTG. We observed a strong dependence on IPTG concentration.

To learn more about how IPTG induction tests work, click here.

Experimental Setup

1) We made liquid cultures of BL21 cells containing the plasmids with the lysis cassette driven by a T7 promoter. These plasmids have Kanamycin resistance, so the cultures were made using 5 mL of LB medium with 5 uL of 50 ug/uL Kanamycin and grown overnight.

2) 1:10 dilutions of cells to LB medium were made by adding 100 uL of cells to 900 uL of LB with 1 uL of Kanamycin. From this 1 mL mix, we pipetted 100 uL into the wells of a 96 well plate.

3) Each well was covered with 20 uL of mineral oil to avoid evaporation. Then we set the platereader to shake continuously and take optical density measurements at 600 nm wavelength every ten minutes.

4) We waited an hour and a half (approximately) until the cells had reached their log-linear growth phase. Then we took out the plate and added 1 uL of IPTG to each well. We made triplicate data for each concentration of IPTG (0 uM for negative control, 50 uM, 100 uM, 250 uM, and 500 uM).

5) The plate was set again into the platereader, where we ran it for 12 hours with continous shaking. Optical density measurements were made every ten minutes.

Results

Data was produced in triplicate via the 96 well plate. This graphic shows the mean over the three data points for the measurements taken every 10 minutes, with the exception of the 250 uM curve for which only two data points were available for the time evolution. The values on the y-axis are optical density (OD) at 600nm, while the x-axis represents time. The curves indicate that maximal lysis is produced with 500 uM IPTG, and that lesser degrees of lysis can be obtained with smaller doses of IPTG.

The dose-response graph above was also made using triplicate data. This time, the functional T7-lysis plasmid (C2) was tested against two negative controls: a T7-RFP plasmid (which should only fluoresce, not lyse) and a plasmid containing a non-functional lysis cassette driven by a T7 promoter (C11). The points of each curve are the OD values of each replicate averaged over the last hour of the experiment. For the lysis plasmid we observed a strong lysis response with increasing IPTG concentrations. Both controls show no significant change in endpoint OD in respect to IPTG concentration.