Protein Assay Lab: the following are LDH Concentrations: LDH SAMPLE 1: 0.0065 mg/ml LDH SAMPLE 2:...

In a protein assay, the original sample was first diluted 1/5. Then 5ml of the diluted...

In a protein assay, the original sample was first diluted 1/5. Then 5ml of the diluted sample was mixed with 20ml of reactants to give 25 ml total. 5 mL were removed from the 25 mL mixture. The 5mL contained 3 mg of protein. What was the concentration of protein in the original sample?

Absorbance Values for BSA Standard Curve BSA Concentration (mg/mL) Absorbance Trial 1 Absorbance Trial 2 Absorbance...

Absorbance Values for BSA Standard Curve BSA Concentration (mg/mL) Absorbance Trial 1 Absorbance Trial 2 Absorbance Trial 3 Absorbance Trial 4 Absorbance Trial 5 Absorbance Trial 6 0.2 0.239 0.247 0.195 0.234 0.287 0.280 0.4 0.510 0.499 0.513 0.522 0.586 0.549 0.6 0.796 0.771 0.695 0.754 0.799 0.800 0.8 1.045 1.002 0.999 1.023 1.015 1.018 1.0 1.260 1.197 1.045 1.200 1.243 1.107 Absorbance Values for IgG Standard Curve IgG Concentration (mg/mL) Absorbance Trial 1 Absorbance Trial 2 Absorbance Trial 3...

You start with a solution that is 60 mg/ml of protein and perform a series of...

You start with a solution that is 60 mg/ml of protein and perform a series of serial dilutions on it. Please fill in the table below with the appropriate concentrations at each dilution. Concentration (mg/ml) Absorbance 1 60 .750 2 .340 3 .180 4 .08 5 .02 You have a mystery solution that has an absorbance of .250. Using the table, give an approximation or a range of concentrations that could be that or those of the mystery solution. Justify...

You are performing a Bradford assay. You construct your standard curve (concentration in mg/mL on the...

You are performing a Bradford assay. You construct your standard curve (concentration in mg/mL on the x-axis, Absorbance on the y-axis) and derive a trendline with an equation of y = 0.25x (the intercept is set to zero because you blanked your spectrophotometer correctly). You dilute protein A using the volumes given below, to a final volume of 1000 μL, and measure the absorbance: 6 μL to 1000 μL = Abs 0.04 80 μL to 1000 μL = Abs 0.15...

1) Tell me how you would prepare 200 mL of a 200 mM MOPS (3-[N-morpholino]propanesulfonic acid,...

1) Tell me how you would prepare 200 mL of a 200 mM MOPS (3-[N-morpholino]propanesulfonic acid, FW 209.3) buffer at pH 7.5 using the Henderson Hasselbalch equation. You have only the solid acid form of MOPS available to you to make the buffer. How else could you prepare this buffer in a more speedy and pratical way? Be specific as possible. 2) I isolated a pure protein (W) and determined the protein content using the UV, Lowry, BCA, and Coomassie...

1)You are given a protein solution with a concentration of 0.15 mg/ml. We need 10 µg...

1)You are given a protein solution with a concentration of 0.15 mg/ml. We need 10 µg for an experiment. What volume of the protein solution do we need? My answer: Convert 0.15 mg/ml to μg/ μl and you will get 150 μg/ μl. C = M/V rearrange for Volume V= M/C , V= (10 μg)/(150 μg/ μl) = 0.06667 μg/ μl 2) Suppose we want to prepare a solution containing 100 µg of the protein at a concentration of 1...

For an equilibrium constant lab. 2. If the reaction in question 1 is correct, the concentrations...

For an equilibrium constant lab. 2. If the reaction in question 1 is correct, the concentrations of Fe3+ at equilibrium in each sample would be the same as you calculated in part 2 of the calculations section. But the values for the equilibrium concentrations of SCN- would change. Show how they would be calculated. 3. Look at the % deviation section of the calculations table. Choose the two samples with the least % deviation. Write the values from the table...

1. A solution of 7.50 mg of a small protein in 5.00 mL aqueous solution has...

1. A solution of 7.50 mg of a small protein in 5.00 mL aqueous solution has an osmotic pressure of 5.05 torr at 23.1 degrees celcius. What is the molar mass of the protein? 2. A 179 mg sample of a nonelectrolyte isolated from throat lozenges was dissolved in enough water to make 10.0 mL of solution at 25 degrees celcius. The osmotic pressure of the resulting solution was 4.81 atm. Calculate the molar mass of the compound.

The concentration of an undiluted sample is 26.4 mg/ml. To calculate that answer, the concentration of...

The concentration of an undiluted sample is 26.4 mg/ml. To calculate that answer, the concentration of the diluted sample was multiplied by the dilution factor. Knowing that the dilution factor is 2, work backwards to determine the concentration of the DILUTED sample. A. 13.2 mg/ml B. 132.0 mg/ml C. 1.32 mg/ml D. 26.4 mg/ml What is the unit used to describe cell solutions measured in a spectrophotometer? Cells/milliliter Grams (g) Optical density (OD) Meters (m) Spectroscopy is based on the...

2. A purified protein sample contains 10,000 mg of total protein in the starting fraction(F1) and...

2. A purified protein sample contains 10,000 mg of total protein in the starting fraction(F1) and 100 mg of total protein in the final fraction (F final)and has an enzyme activity of 10mmole of ATP synthesized/sec (10 units) in the starting fraction(F1) and 1 mmole of ATP synthesized/sec (1 unit) inthe final fraction(Ffinal). What is the specific activity of the final purified (F final) fraction? A. 100 B. 0.01 C. 1x10^5 D. 1X10^6 E. None of the above 3. What...