User:Nicole Bonan/Notebook/Chem 571 Lab Notebook/2015/09/30: Difference between revisions

Objective

The purpose of today's lab work is to:

1. Finish taking fluorescence data from yesterday's lab
2. Use a Bradford Assay in order to measure alpha-chymotrypsin degradation as a function of incubation time

Protocol

Dr. Hartings's protocol for today is here. We are following his protocols for fluorescence and for the Bradford Assay.

Fluorescence Analysis of Protease Degradation

Yesterday, we measured the fluorescence of all of our samples of alpha-chymotrypsin + lysozyme. Today, we finished the fluorescence measurements for the alpha-chymotrypsin blanks as follows:

1. We had finished creating our blanks yesterday. Just before we measured the fluorescence of each blank, we combined the following 1.5mL Eppindorf tubes:
   1. 20uL of the blank to be measured
   2. 140uL of Assay Buffer
   3. 40uL of Assay Reagent
2. We then pipetted this mixture into a 1mL quartz cuvette and took fluorescence measurements (excitation wavelength was 390nm and emission wavelengths were 400 to 650nm).

Brasford Analysis of Protease Degradation

1. First, we made a stock solution of our protease, alpha-chymotrypsin, using Tris/CaCl₂ buffer and one of the stock masses of alpha-chymotrypsin that we measured out earlier in the semester. The concentration of this solution was 40.625µM.
2. Next, we prepared 7 samples of AuNP fibers that Dr. Hartings prepared for us:
   1. We spun the samples down at 1500 RPM for 1 minute
   2. We pipetted the water off of the samples
   3. We labeled the samples based on the time that they would be incubated in the 37 degree Celsius water bath:
      1. 2 hours
      2. 1.5 hours
      3. 1 hour
      4. 45 min
      5. 30 min
      6. 15 min
      7. 10 min
   4. We measured the mass of each of the samples (the mass included the mass of the Eppindorff tube and the sample inside it)
   5. Next, we determined how much of our protease stock we should add to each of the sample tubes in order to make the final concentration of alpha-chymotrypsin 1µM and the final volume of the sample 1mL. We did the following calculation:
      Let
      M₁=concentration of protease stock = 40.625µM
      V₁=volume of protease stock needed
      M₂=concentration of alpha-chymotrypsin in the sample tube = 1µM
      V₂=volume of the solution in the sample tube = 1mL
      M₁V₁=M₂V₂
      V₁=(M₂V₂)/(M₁)
      V₁=((1µM)(1mL))/(40.625µM)
      V₁=0.0246mL=24.6µL
   6. After that, we determined and how much Tris/CaCl₂ buffer to add to the sample to bring the volume up to 1mL by subtracting the volume of the protease we added from the final volume of the sample:
      1000µL-24.6µL=975.4µL
   7. We then added the volume of buffer calculated in step 2.6 to each of the sample tubes. We did not add the alpha-chymotrypsin stock; we waited to add this until just before we began each sample's incubation.
3. Next, we prepared 7 blanks:
   1. We labeled each blank with an incubation time, as we did for the samples
   2. We put the same volume of buffer in each blank as we did in each of the standards
4. Next, we added the volume of alpha-chymotrypsin that we calculated in step 2.5 to the 2 hour, 1.5 hour, and 1 hour samples and banks. We vortexed all of these solutions and placed them in the 37 degree Celsius water bath for 2 hours, 1.5 hours, and 1 hour, respectively.
5. We then added the volume of alpha-chymotrypsin calculated in step 2.5 to the 15 minute and 30 minute samples and blanks. We vortexed all of these solutions and placed them in the 37 degree Celsius water bath for 15 minutes and 30 minutes, respectively.
6. We then added the volume of alpha-chymotrypsin calculated in step 2.5 to the 45 minute sample and blank. We vortexed them and placed them in the 37 degree Celsius water bath for 45 minutes.
7. While we were waiting for the solutions to incubate, we pipetted 600µL of pre-mixed Bradford dilution into each of 14 cuvettes. These cuvettes would be the ones from which we took our UV-Vis measurements.
8. When the 15 minute sample and blank were finished incubating, we prepared them for measurement:
   1. We removed them from the water bath and spun the sample (but not the blank) down at 300 RPM for 1 minute
   2. We pipetted 1650µL of buffer into each of the cuvettes that would be used for the 15 min sample and the 15 min blank
   3. We pipetted 750µL of the 15 min sample into the 15 min cuvette. We did the same for the 15 min blank.
9. Next, we recorded the UV-Vis spectrum for the two cuvettes from 400-800nm.
10. After that, we repeated steps 8-9 for the 30 minute, 45 minute, and 1 hour samples and blanks.
11. We then repeated step 5-6 for the 10min sample and blank
12. We repeated steps 8-9 for the 1.5 hour sample and blank
13. We repeated steps 8-9 for the 10 min sample and blank
14. We repeated steps 8-9 for the 2 hour sample and blank

Data and Analysis

Fluorescence

The above figure shows the fluorescence of lysozyme in samples of varying concentrations of alpha-chymotrypsin as a function of the wavelength of incident light. The fluorescence of each sample was corrected for the blanks by subtracting the fluorescence of the blank from the fluorescence of the sample for every wavelength measured. Each curve on the graph represents a different concentration of alpha-chymotrypsin.

The above image shows the fluorescence intensity of lysozyme as a function of the concentration of alpha-chymotrypsin that it is reacted with.

Bradford Assay