Line 128: | Line 128: | ||
<b>Day 3</b> | <b>Day 3</b> | ||
− | + | <ol><li>Measure the OD600 of both cultures (you will need to dilute a small volume from each sample, as absorbance does not follow a linear regression when OD600 > 1) | |
Note: The cultures were around an OD of .980 | Note: The cultures were around an OD of .980 | ||
− | Aliquot out the equivalent of 10mL of cells (of both cultures) of OD600 = 1 into individual 15mL conical tubes (in triplicate, 6 tubes total) | + | Aliquot out the equivalent of 10mL of cells (of both cultures) of OD600 = 1 into individual 15mL conical tubes (in triplicate, 6 tubes total)</ol></li> |
Centrifuge at top speed for 5 minutes | Centrifuge at top speed for 5 minutes | ||
After centrifugation, cells were resuspended in 9mL 1M Tris-HCl (pH 7.5) and then transferred to 50mL centrifuge tubes | After centrifugation, cells were resuspended in 9mL 1M Tris-HCl (pH 7.5) and then transferred to 50mL centrifuge tubes |
Revision as of 01:11, 1 November 2017
Collaborations
North American Upper Mid-West iGEM Meet-Up
Collaboration with Purdue University
Shared protocol and sent the Purdue iGEM team our bacterial strains and assembled bioreactors to promote repeatability in science.
Connected Purdue team to a professor at MSU for use of a GC/Mass Spectometry instrument
-
Quantification of Benzene via GC/Mass Spectrometry
- Dates of Collaboration: 10/7/17-10/16/17
- Where: GC/Mass Spec Facility- MSU
- -Dr. Dan Jones
Preparing Phage Lysate
- Purpose- The overall genetic construct used to degrade benzene into acetyl-coA and pyruvate consists of 9 enzymes, and was broken into two plasmids to increase the success rate of cloning. Purdue only has been able to clone the first of these two plasmids into E. coli, Upper Operon (UO). The upper operon expresses several enzymes pertaining to benzene degradation, however it does not express the protein transporter necessary for cellular benzene uptake. To get around this obstacle, you will test the induced cellular lysate instead of the living culture via GC.
At the end of this protocol, you should have 30mL of uninduced cellular lysate and 30mL of induced cellular lysate.
-
Materials
- aTc (inducing agent)
- Tris-HCl
- NADH
- 2 autoclaved 125ml Erlenmeyer flasks
- LB broth
- Chloramphenicol
-
Equipment
- Incubator with shaker
- Spectrophotometer (with cuvettes if necessary)
- Sonicator
- In an autoclaved 125ml Erlenmeyer flask, aseptically dispense the following:
- 35mL LB broth
- Chloramphenicol to achieve 25mg/L
- .75mL UO culture from the previous day
- 35mL LB
- 1.75ml wild type E. coli culture from the previous day
- CM (ONLY FOR UO-- to acheive 25mg/L)
- Measure the OD600 of both cultures (you will need to dilute a small volume from each sample, as absorbance does not follow a linear regression when OD600 > 1) Note: The cultures were around an OD of .980 Aliquot out the equivalent of 10mL of cells (of both cultures) of OD600 = 1 into individual 15mL conical tubes (in triplicate, 6 tubes total)
Protocol
Day 1-
1. Inoculate a culture of UO E. coli in LB with chloramphenicol, CM, (25mg/L) from the provided stock culture as well as a culture of wild type E. coli and incubate at 37°C while shaking at approximately 250rpm overnight
- (25mg)(1L/1000mL)(1mL/30mg)(10mL)= 0.0083333mL=> 8.33uL of MSU’s 30mg CM
- 10mL LB + 50uL culture+ 8.33uL CM
- *CM is to only be added to UO, NOT the wild type
- In another autoclaved 125ml Erlenmeyer flask, aseptically dispense the following:
- For the Wild Type E. coli (WT) only: Incubate overnight at <35°C while shaking at approximately 250rpm
- For the UO only: Incubate at 37°C while shaking at approximately 250rpm for 1.5-2.5 hours. After 1.5 hours, check the OD600 periodically until an absorbance of 0.4-0.6 is obtained