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4/15/13
-We presented our project today.
-There were a few things that we needed to do better.
- For one, we need to present better background and show how it ties into our research, specifically the need for a capsid library.
- I feel like we could have been a bit more engaging and better rehearsed as well.
- We will need to find a way to test the capsids for viability, and somehow characterize them.
5/1/13
-Today we are going to create a plan to follow throughout the semester. We also talked with Jordan about reagents for performing phage purification on Monday. We also reviewed the methods for our procedure.
- Plan to make an excel sheet that will calculate the needed volumes of reagents for the volume of lysate used.
- Plan how many days it will take to complete the procedure - plan in breaks and time
-Questions to ask Dr. Grose:
- What is less expensive/better - Freeze thaw or use lithium chloride
- Answer: Try both
- Best method for determining phage purification
- Step 3 on 3.3.1.1
- CsCl gradient - we may need someone with experience to help
- Should we plan on using CsCl? Or just plan on PEG? (time to set up gradient)
- Step 7 on 3.2.1 (dialysis??)
5/3/13
-We created an excel sheet to calculate the amounts of each reagent for the experiment we will be running on Monday. :This will allow for easy calculations each time we run the experiment.
5/6/13
-We created more bacteria stock of W1130 and BL21
- For BL21 we put 1 mL of BL21 into 24 mL of LB and incubating overnight at 37 C
- For W3110 we put 1 mL of W3110 into 24 mL of LB and incubating overnight at 37 C
- We also centrifuged 5 mL of t7 lysate in 5 1 mL ependorf tubes at 3050 rpms and separated the phage supernatant into 5 1 mL ependorf tubes and stored it in the fridge.
-We are still waiting on supplies for propagation
-We learned that the T7 Phage requires 24-48 hours to infect.
-Results:
- Our W3310 didn’t grow in the liquid culture we will have to create a new one.
5/8/13
-Most of our reagents came except for our DNase. Hopefully it will come by Friday.
-We created more stock of both BL21 and W3110.
- We added 24 mL of LB to two erlenmeyer flasks.
- We added 1 mL of BL21 to one flask and 2 mL of W3310 to the other.
- The W3310 was then incubated for an hour at 30 C and the BL21 was incubated for an hour at 37 C
4/8/13
-We performed a phage titer test to determine which bacteria would be most viable for our phage propagation.
- We used BL21 and W3110 strains of E. Coli.
- We placed 100 µL of broth into 5 ependorf tubes.
- We used as phage 10 µL of 1L, 10L, 40T4, T4DOS, and T4 infected phage and placed them each in one of tubes labeled -1.
- We performed a dilution series taking out 10 µL each time and placing it into the next tube, 5 times. The total volume in the last tube was 110 µL.
- We added 4.5 mL of 1X top agar to .5 mL of broth and plated it on LB plates.
- We spotted each concentration on the plates and incubated it overnight at 37°C.
-Results from 04/08:
- Phage 10L w/ w3110 had large scale infection every concentration
- Phage 10L w/ BL21 had infection in very large concentrations
- Phage 1L w/ w3110 had infection in very large concentrations
- Phage 1L w/ BL21 had infection in very large concentrations
- Phage T4 DOS w/ w3110 had infection in very large concentrations
- Phage T4 DOS w/ BL21 had infection in very large concentrations
- Phage 40 T4 w/ w311o had no phage infection
- Phage 40 T4 w/ BL21 had large scale infection at every concentration
- Phage T4 inf w/ w311o had large scale infection at every concentration
- Phage T4 inf w/ BL21 had large scale infection at every concentration
- We had a significant amount of running that occurred on almost every plate, so the results were a little difficult to read. We concluded that the phage is a high enough concentration that we would have to do another phage titer to a smaller dilution in order to determine actual concentration. The controls were all a lawn of bacteria.
4/10/13
-We performed titers of T4 infected phage from off of two separate E. Coli strands, BL21 and W3110.
- We added .1mL of the liquid culture to 1 mL of both strands of bacteria.
- After allowing infection to occur overnight, we centrifuged the tubes to separate the bacteria from the phage.
- We separated the supernatant into a new eppendorf tube, and used 10 µL as the 0 concentration.
- We then performed a phage titer using five tubes of 90 µL LB each, adding 10 µL from each one to the next.
- Using a micropipette we spotted 2µL of each dilution onto both 4.5 ml 1x plates and .5 mL W3110 plates.
- To avoid smearing, we allowed the plates to sit for over an hour and then we incubated them at 37 C overnight.
-Results:
- The concentrations we used are still way too strong. We will have to dilute the concentration even further if we want to see anything more than cleared plaques.
4/12/13
-We watched presentations from the Cholera Group Today
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