[Type text]
Lab Report Experiment 3 (Spectrophotometry) Determining Protein Concentration of Unknown Solutions : The Biuret Protein Assay Introduction
Why should you care about protein concentrations in solutions? There are a number of reason reasons. s. In many many lab experim experiments ents,, for exampl example, e, determ determini ining ng the amount amount of protei protein n biomolecules in a given solution is essential. The objectives of this experiment are to determine the protein concentrations of an unknown solution using the Biuret method of protein assay, and to learn how to use spectrophotometer in measuring the absorbance of different protein concentrations. The Biuret method requires the solution being tested be mixed with a Biuret reagent and run through a spectrophotometer. Methods
For this experiment, five test tubes, each filled with different concentrations of bovine serum albumine (BSA) ; 0 mg/ml, 2 mg/ml, 5 mg/ml, 8 mg/ml and 10 mg/ml, and labeled as tube 1, 2, 3, 4, and 5 respectively. The first tube containing only distilled water acts as reference or control. The dilution was done by bringing the total volume to 1.00 ml with distilled water. 4 ml of Biuret reagent was then added to each tube and being vortex immediately after that. The solutions were left for about 30 minutes. To determine the absor absorba bance nce of thes thesee solu soluti tions ons,, a smal smalll amoun amountt of each each solu soluti tion on was was place placed d in a spectrometer and the absorbance readings were taken, ranging from 0 to 0.7. Using the conce concent ntra rati tion on data data and abso absorb rbanc ancee data data of BSA BSA prot protei ein, n, a stan standar dard d curv curvee can can be constructed, which is presented as the graph of absorbance vs concentration. In the second part of this experiment, the unknown samples were prepared with different concentrations using the techniques of 1, 1/2, 1/10 and 1/100. Each solution was then being added with Biuret reagent and immediately vortex, then left for about 30 minutes. Next Next,, the the leve levell of abso absorp rpti tion on was was recor recorde ded d usin using g a spec spectr trop ophot hotom omet eter er.. Fina Finall lly, y, concentrations of the unknowns were estimated using the standard curve plotted using data from the first part of the experiment.
Results
Tube 1 (reference) 2 3 4 5 Unknown 1 Unknown 1/2 Unknown 1/10 Unknown 1/100
Concentration of protein (mg/ml) 0 2 5 8 10
Absorbance at 550nm (AU) 0.1787 0.2868 0.5787 0.6816 0.8383 1.4625 1.4438 0.736 0.2819
Corrected Absorbance (AU) 0.0000 0.1081 0.4000 0.5029 0.6596 1.2838 1.2651 0.5573 0.1032
Absorbance vs concentration 0.8000
U 0.6000 A ( e c n a 0.4000 b r o s b A 0.2000
0.0000 0
2
4
6
8
Concentration (mg/ml)
Figure 1 : Absorbance vs concentration graph. Concentration of unknown 1/10 = Concentration of unknown 1/100 =
mg/ml mg/ml
10
12
[Type text]
Discussion
Proteins are polymers made up of amino acids joined by peptide bonds. These peptide bonds have partial double bonds character and absorb light. These feature is also important in measurement of absorbency. Biuret reagent contains Cu2+ ion which form complex with peptide bonds of the protein. The Biuret method is not highly sensitive but it is the most linear because its colour depends on a direct complex between Cu2+ and peptide bonds of the proteins. Thus, the colour may slightly different depending on the concentrations of the proteins. A standard curve (Figure 1) was graphed using data from the five samples of known absorbance and concentration. Unknown solution 1/10 and unknown solution 1/100 have absorbance of 0.5573 and 0.1032 respectively, when ran through the spectrometer. These points are then plotted on the y-axis of the graph and a line is drawn to the curve. The intersection of both points show the protein concentration of unknown 1/10 as mg/ml and unknown 1/100 as mg/ml. However, concentrations of unknown 1 and unknown 1/2 could not be determined using this standard curve because the absorbance for both unknowns are more than the range of recorded absorbance of five samples of BSA.
Conclusion
From the standard curve plotted using the data recorded in this experiment, it can be concluded that the amount of absorbance is directly proportional to the concentration of proteins. In other words, the higher the concentration of protein, the higher the level of absorption. Also, it is dependant on the amount of water in the solution. When the amount of water increases, the concentration will decrease, thus the absorbance will also decrease. By using the standard curve from data of this experiment, it is easier to determine the concentration of unknown protein solution by first determining its level of absorption.
Reference
1. http://www.iscid.org/encyclopedia/Protein_Assay 2. http://www.freeonlineresearchpapers.com/node/257 3. Lab Manual