August 30

8/29/18 Plaque Assay with Spot Test Results

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Research Question:

Does the presence of Arthrobacteriophage appear more dominant in one oak tree species compared to another? If so, in this species, is there a correlation between the presence of Arthrobacteriophage and the presence of Oak Wilt Fungus growth?

Objective:

From our Spot Test Monday 8/27/18, we were all hoping to find a plaque, meaning our Bacteriophage were present from our soil collection. Our group was the only full group (1/8)that possibly had plaque present. So the purpose of the Plaque Assay is to solidify our results form our spot test. It will confirm our results from our spot testing.

Materials:

  • Lysate
  • PY Broth
  • PY 2X TA
  • 1M Calcium Chloride
  • .5mL of Arthobacter host
  • Pipettes
  • Agar Plate

Before starting we had to create an aseptic zone to ensure that all bacteria were killed, and the working space would not contaminate our experiments.

  1. Cleaned off the workspace with CiDecon and applied the table with 70% ethanol solution.
  2. Wiped off the table after CiDecon was applied, same with the 70% ethanol solution, only, we let the ethanol solution evaporate.
  3. We then got an ethanol burner, and our aseptic zone was created.

We then started our Plaque Assay

  • We got our Spot Test Dishes from the incubator. We then checked to see if any plaque had formed. Dr. Adair and one of the TA’s said that our Spot Test could potentially have Bacteriophage.
  • Instead of doing two Plaque Assays (since we did have plaque growth form our Spot Test, we were supposed to perform two plaque assays), we did one Plaque Assay since we did not have petri dishes for the entire class. We created a Plaque Assay from our Enriched Lysate, to test if our Spot Test was accurate.
    • Formula “recipe” (figure 1).
      • .5mL Arthobacter + 10 microliter Lysate
      • 2.0 LB Broth
      • 2.5mL 2X TA
      • 22.5 microliter of Calcium Chloride
        • side note this formula x4 since we have three partners plus our group control plate, which the control was split four ways due to the fact we did not have enough petri dishes for the entire class.
  • We then got 0.5mL Arthobacter from the hood, and we then added 10 microliters of our Lysate that was stored in a cap, that was in the refrigerator from the Spot Test. We then let this Solution set for about 12 minutes +/- one minute.
  • We then started to make our agar solution for all of the plates, including the TA control.
  • Added 8mL LB Broth into our 50mL vial.
  • Added 10 microliters of Top Agar.
  • Added 4.5mL of this solution we made in our 50mL vial onto our individual dishes.
    • Side note: each transferred the solution using different pipettes, but this was done outside of the aseptic zone. Result being possible contaminations.
  • We then let the solution sit for about 10 minutes.
  • We then put our dishes in the incubator, upside down.
  • We cleaned our lab space, and one of the TA’s took our Spot Tests to let them grow.
    • Side note- Friday during open lab, we will know if both the spot test grew more plaque, and to see if our Plaque Assay results help support our spot test results.

Plaque Assay Steps (figure. 1)

Spot Test Results

TA Control for Four groups

 

Results:

We had a small plaque appear from the Spot Test, and hopefully the same from the Plaque assay that was done in the lab Wednesday 8/29/18. Results will be known Friday 8/31/18.

Analysis:

This procedure was not hard at all after knowing what to expect from having done the Spot Test a few days before. It was a joy to see the small plaque and to know that group 6 all had successful results. The only thing that was hard for us was to ensure everything thing was done in an aseptic zone. This lab was better, but it could have been better regarding the usage of the pipettes in an aseptic zone.

Future:

We will use the data from the Plaque Assay to determine whether or not we actually have Phage present or not. If not, then we would just repeat the Plaque Assay, and see if our plaque from the Spot Test had grown or not. If not, then ultimately we would have to recollect soil and do this whole procedure again.

 

 

Category: Michael Lum | LEAVE A COMMENT
August 28

8/27/18 Spot Test

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Research Question:

Does the presence of Arthrobacteriophage appear more dominant in one oak tree species compared to another? If so, in this species, is there a correlation between the presence of Arthrobacteriophage and the presence of Oak Wilt Fungus growth?

Objective: The goal of this procedure is to grow our “Bacteriophage” (if we have any). We are trying to see if there are bacteriophage present from our soil sample. From Monday’s experiment, we created an agar for the bacteriophage, to test if phage was present.

Procedures and Protocols:

Materials:

  • CiDecon
  • 70% Ethanol
  • Ethanol Burner
  • 18 ml LB Broth
  • Petri dishes
  • Lysate
  • PY 2X TA
  • Pipettes
  • Micropipettor
  • 1M Calcium Chloride
  • .5ml of Arthrobacter

Before starting we had to create an aseptic zone to ensure that all bacteria were killed, and the working space would not contaminate our experiments.

  1. Cleaned off the workspace with CiDecon and applied the table with 70% ethanol solution.
  2. Wiped off the table after CiDecon was applied, same with the 70% ethanol solution, only, we let the ethanol solution evaporate.
  3. We then got an ethanol burner, and our aseptic zone was created.

Procedure:

  • Got the enriched solution that was created Friday 8/24 from the tray my TA had.
    • Important side note- my lab partner made my enrichment solution Friday, and she forgot to label the container. She did not label hers as well, but from her notebook, her solution had 13mL of enriched solution. While examining both solutions, we could tell the two solutions were not labeled but had different volumes. She grabbed the one that had the 13mL solution.
  • Used a pipette to obtain 1.5mL of my enrichment solution.
  • Once the solution was in the pipette, I attached a filter to the bottom of my pipette, and this filter filtered out the “bacteriophage” from the other bacteria that were too big to fit in.
  • I set the solution that was just filtered into a small cap, and I sat it down after labeling it “ML Enrichment 8/27”
  • Then we got Petri dishes and labeled it with three circles (NC for our Negative Control, E for our test Enrichment, and D for Direct).
  • Then we got two orange vial tubes, one for our TA Control, and the other was for our agar solution.
  • We then measured out the LB Broth for both the TA Control and our top agar solution. 13.5mL in the top agar and 4.5mL in the TA control.
  • Calcium Chloride was then given to us after our math was complete (formula c1v1=c2v2. Calculations listed below). We used 42.75 for the TA control, and 135 for the top agar solution.
  • We then put 5mL of TA (top agar) onto our TA control dish from our vial tubes.
    • Note that the solution once poured onto the plate had many bubbles.

TA Control Before 8/27/18

TA Control After 8/29/18 (Note- Showing before and after since the group thought the bubbles would affect the outcome of our TA Control after 48 hours of making the solution)

 

  • We then got the TA (top agar) for our actual plates and added it to our vial tubes.
  • We got 1.5mL Arthobacter and mixed it with our solution that added up to 30mL.
  • We each poured 10mL onto each of the three plates (one for each lab partner)
  • We finished pouring the agar and we added 10 µL of enriched, direct, and phage buffer the appropriate sections.
  • Then we put it in the incubator.
  • We put in the incubator around 420.
    • We won’t get a full 48 hours but we will be close
      • Side note- the final three procedures were done by my lab partner.

Calculations:

conversion factors:

1M= 1000mM

1 ml =1000 microliters

C1V1=C2V2

1M(V1)=(4.5mM)(10ml)

1000mM(V1)=(4.5mM)(10000 microliters)

V1=45 microliters

Results:

We will find out Wednesday to see if our spot test fails. This procedure helped to set the stage for Wednesday 8/29.

Analysis: 

The procedure was well organized, and it went smoothly. My lab partner did mess up with the LB broth/calculations/pipette, but overall we managed to do everything on time. My lab partners had to stay after the lab class in order to finish, and they were able to help me with my results. Next time, I will be sure not to touch the tip of the cap so that the bacteria on my fingertips do not fall into the cap, thus contaminating my experiment.

Future:

If the Spot test fails or succeeds, we would still have to do a plaque assay. The only difference is if there are spots from the spot tests, then you would have to do two plaque assays, one for the direct and enrichment.

 

Category: Michael Lum | LEAVE A COMMENT
August 24

8/22/18 Soil Washing/Direct Isolation and Enrichment for Soil sample A

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Rationale: Soil washing and enrichment on soil samples collected from Oak trees around Baylor University’s Campus. Without adding Arthrobacter, we had to create a direct lysate sample for the experiment from the soil. Our particular sample was found at 31*32’40 N 97*7’9” W near Waco Hall.

Materials:

  • CiDecon
  • 70% Ethanol
  • Ethanol Burner
  • .5mL Arthrobacter
  • 15mL conical vial
  • Pipette
  • 50mL tube

Before starting we had to create an aseptic zone to ensure that all bacteria were killed, and the working space would not contaminate our experiments.

  1. Cleaned off the workspace with CiDecon and applied the table with 70% ethanol solution.
  2. Wiped off the table after CiDecon was applied, same with the 70% ethanol solution, only, we let the ethanol solution evaporate.
  3. We then got an ethanol burner, and our aseptic zone was created.

Description of Procedure: 

  • As we were utilizing the aseptic technique, my lab partner opened my 50mL vial (that had the soil), and he placed the top on the table away from the aseptic zone for about five seconds before picking it back up.
    • note possible contamination.
  • I filled the tube with LB broth that Dr. Adair had provided us. As I filled it up to the required mL, Ramen closed my cap, and he sat the tube down over the carriages.
  • I then brought my tube over to the weight, in which it read 51.64g.
  • I then started to shake my tube for the next 15 or so minutes. After the class spinning, we had to find a partner that had a +/- .1mL mass of our broth.
  • I didn’t find anyone, but someone around the range. So I had to add water to my solution. The new mass of my solution read 52.56g.
  • After this, one of the TAs took my solution, and he gave it to Dr. Adair, where she put the many solutions in a centrifuge at 3000g for three minutes.
  • After the three minutes, we went back to the lab with our solutions, where we were told to come back Friday 8/24/18 to finish our findings.
  • Friday- I filtered lysate came out to 16ml Lucy pipetted 6ml into the small 15ml vial for the direct sample and added the Arthrobacter  to the remaining 10ml

Observations:

  • Transferring the first set of LB broth was not done in an aseptic zone.
  • The addition of water before the centrifuge spin was not done in an aseptic zone.

Results: 

The procedure form Wednesday was completed with the direct lysate sample having now been obtained.

Analysis:

The process was difficult, from making sure everything was done in an Aseptic zone (not everything but as in, the opening of our vials, to transferring the LB broth) to the precise measurements, it was a lot the first day. Time aspect played a big part since I was unable to actually finish this step, due to the fact I had a class after. My lab partner did this step and the extraction. Note, after the enriched solution was gathered from Friday, 8/24, my lab partner did not label my solution, but she did record the volumes of the solutions.

Interpretations/Conclusions/Next Steps: 

The procedure was now complete. Friday I filtered lysate came out to 16ml. I will need to be sure that I use the Aseptic technique, and not let my lab partners do my lab in a non-aseptic environment. Next step Monday 8/27/18, I will prep the dish/dishes that I will need in order to run a spot test, and hopefully, I will have bacteriophage.

 

 

 

Category: Michael Lum, Uncategorized | LEAVE A COMMENT