You have obtained 150 µL of a protein sample of which you want to perform a Bradford Assay. You perform a 10-fold dilution of your sample and use 10 µl of this dilution to quantify the amount of protein using a Bradford assay. You obtain an absorbance value of 0.63. Using the standard curve and equation you obtained in class, determine the concentration of protein (µg/µL) of your original sample. Show your work.
equation: y=0.0139x-0.0153
You have obtained 150 µL of a protein sample of which you want to perform a...
2.(1 point) You have 125 μLof a protein sample. Of this, you dilute30μLinto 120μLof buffer. 50μL of that dilution were used for a Bradford assay and produced an absorbance of 0.53.Using the standard curveyou built in the lab using BSA, find the protein concentration (in μg/μL) of the original protein sample. Show your work. (Hint: first find the dilution fold of the sample that was used for the assay.) Note: equation from standard curve: y=0.0093x + 0.1877 show all work.
You have a protein solution. You take 5 ml of the solution, and add 25 ml of buffer. You then add 50 µl of the dilute protein solution to 50 µl of buffer and 2 ml of Coomassie solution. The resulting absorbance at 595 nm was 0.457. At the same time, you prepared a standard curve for the same protein using the same Coomassie assay protocol (100 µl of sample + 2 ml of coomassie reagent) The linear fit to...
In biochemistry, we use a 'Bradford Assay' to calculate the concentration of protein in a sample. This method uses the same principles of the standard curve from this experiment. In a Bradford Assay, a standard curve is prepared using a known protein, typically Bovine Serum Albumin (BSA), but rather than measuring the density, we can measure a different property - its 'absorbance'. The graph below is representative of a standard curve from a Bradford Assay (with the line equation displayed...
1. You want to prepare a 1:50 dilution of your protein extract in a total volume of 1000 uL. You will need ___ uL of protein extract and ___ uL of water. 2. You are provided with a solution of BSA that is 100 ug/mL and make a 10-2 dilution? What is the resulting concentration of the DILUTED BSA? 3. Which of the following statements about enzymes is true? Select one: a. Enzymes increase the rate of a chemical reaction...
1. You have generated the following standard curve after a Bradford Assay to measure Absorbance vs samples of known BSA concentrations. Now you need to determine the amount of protein in two mitochondria samples taken from fish, one taken from fish under normal conditions and the other taken from fish under oxidative stress. The absorbance reading for the normal fish fraction was A595=175, and the absorbance reading for the stressed fish fraction was A595= 275 Bradford Assay Standard Curve y...
In lab, you diluted your unknown protein solution by combining
14 ?L of unknown protein solution with enough
PBS buffer to obtain a total volume of 100 ?L, then added 1000 ?L Bradford reagent. After waiting ten
minutes, the absorbance at 595 nm was 0.206. Using the standard
curve from the previous question, calculate the total concentration
of protein (in ?gmL) in the original sample.
Slope = 0.02371 Intercept = 0.01132 r2
= 0.973
A Bradford assay was carried out to measure protein concentration. The absorbance of five standard samples and two unknown samples are listed in the table below. The Bradford reaction mixture (1 ml) was prepared as follows: 100 μl sample A or sample B + 200 μl Bradford reagent + 700μl 0.9% NaCl solution sample ID concentration (mM) absorbance (O.D.) std 1 100 0.78 std 2 50 0.4 std 3 25 0.18 std 4 12.5 0.08 std 5 0 0 ...
Sample 1 (Contains His/leu) RNA concentration 943.69 ng/µl. Purity 2.15 (OD 260/280) Sample 2 (Contains 1a2a) RNA concentration 217.96 ng/µl. Purity 2.13 (OD 260/280) Sample 3 (Contains His/leu) RNA concentration 1435.43 ng/µl. Purity 2.16 (OD 260/280) Sample 4 (Contains 1a2a) RNA concentration 1263.04 ng/µl. Purity 2.12 (OD 260/280) Step 1. Math! You want to calculate how many µl will give 10 µg or 15 µg RNA. Your pre-lab question is (1) to compute the volume of RNA required for 10 or...
You have purified a sample of your protein of interest and have measured the A280 of a 1 in 3 dilution of the protein sample (1 cm pathlength). The value you have obtained for A280 was 0.576. Given that you do not know the sequence of your protein, calculate the approximate concentration of your original protein sample in mg/mL. Give your answer to 2 s.f.
You only have 150 pl stock solution that contains 100 mgml of protein. You want to make a set of standards with the concentrations shown below. You need a minimum of 500 l of each standard left after you have finished all your dilutions. Using the technique of serial dilution, explain how you would make your standards by filling in the chart below include the final dilution of the standard as compared to the original stock concentration and the final...