The Bradford assay is a convenient way of determining cell extract protein concentration, as the reagent used is not affected by most of the reducing agents, solvents, thiols, buffers, salts, and metal chelating agents that may be present in the cell extracts. However it's compatibility with detergents is very low, hence is not an ideal method for determination of membrane bound proteins, which have to first be solubilised using detergents to extract.(Thermo Scientific, n.d.)
The Bradford assay is a colorimetric protein assay. The Bradford reagent used contained Commassie Blue dye dissolved in a mixture of methanol and phosphoric acid. Under these high acidic conditions Commassie Blue dye is stable at the doubly-protonated red (cationic) form, but it binds to protein gaining it's most stable un-protonated (anionic) blue form. (Here absorbance maximum [Amax -wavelength at which absorbance is maximum] is shifted from 465 nm to 595 nm with the colour change). .(Thermo Scientific, n.d.)
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The assay is based on the formation of the protein-dye complex which leads to the colour change of the dye. It had been discovered that the formation of the colour is related the protein consisting of the amino acids arginine, lysine and histidine.(Thermo Scientific, n.d.)
This colour change is measured in terms of absorption of light by solution containing the complex. The amount of absorption of light is directly proportional to the amount of protein present in the solution. This colour change instant remains unaltered for about 1 hour allowing enough time to take spectrophotometer readings for all samples. .(Thermo Scientific, n.d.)
BSA (Bovine Serum Albumin) is usually used because of its stability; it has no effect in most biochemical reactions and its low cost; because a great amount can be obtained from the purification of bovine blood, a by-product of the cattle industry. .(Thermo Scientific, n.d.)
BSA protein stock solution it diluted at different levels to make a series of dilutions of known concentration. The Bradford assay is performed on them to illustrate the relationship between, concentration of protein and absorbance of light by protein-complex containing solutions. These values are then used to calibrate a standard graph (Graph1) which can be used as a template in the determination of the unknown protein concentration of the cell extract. .(Thermo Scientific, n.d.)
The aim of this experiment was to determine the concentration of protein of a cell extract using the Bradford method.
Materials and Methods
The materials and method used in the experiment are as stated in the Cell biology and Development- practical guide
Replicates of each test-tube were made. They were made and incubated for the same amounts of time.
All test tubes were incubated for: 20 minutes
Table 1 shows the values of BSA standard solution concentrations and absorbance values used to construct the calibration graph (Graph 1) below. The graph shows there is a steady increase in the absorbance with the increase in concentration of the BSA standard solutions. The graph shows that there is a direct proportionality between the concentration of BSA protein solution and the absorbance by each sample.
Tube 7 replicates were a 1:1 dilution of the cell extract to make a final volume of 100µl (50µl cell extract + 50µl water). Tube 8 replicates contained 100µl of undiluted cell extract. The concentrations were found out using the graph, by extrapolating the values of absorbance for samples 7 and 8. The concentrations of the cell extract in sample 7 in both replicates are 0.37 (mg/cm3) and that of samples 8 are almost double this concentration; 0.69 (mg/cm3).
BSA Standard 1
Unknown cell extract protein
Unknown cell extract protein
Replicates of each tube
Final Concentration of protein in tube (mg/cm3)
Always on Time
Marked to Standard
Absolute amount of protein in tube (µl)
Average Absorbance of replicates of each tube (A)
Table 1. Showing the concentration of BSA standard solutions, corresponding absorbance and the values for the absolute amount of protein in the samples.
Graph 1. The calibration graph showing the direct proportionality of the final concentration of BSA in tube against Average Absorbance by each set of samples.
Since the cell extract in tube 7 was diluted by half the concentration of tube 8 (contained undiluted, cell extract with original concentration), ideally the concentration of cell extract of tube 7 must be twice that of tube 8. But the concentration of the protein of solution in tube 7 is 0.37 (mg/cm3) and that of tube 8 is 0.69 (mg/cm3).
When initial concentration of the cell extract for tube 7 was calculated by using the 0.37(mg/cm3) as the final concentration after dilution, and by taking the dilution factor into consideration, it was found that the initial cell extract concentration was 0.74 (mg/cm3).
Calculation of the initial concentration (of sample in tube 7) by taking dilution factor to consideration:
C1 - Initial concentration
V1 -Initial volume
C2 - Final concentration
V2 - Final volume
C1x 50 = 0.37 x100
C1= 0.74(mg/cm3) .
The obtained values for the initial concentration (undiluted) of the cell extract using the calibration graph and calculated values are similar; 0.69 (mg/cm3) and 0.74 (mg/cm3), although not the same.
The inaccuracy was due to human errors caused during pipetting. E.g. an unnoticed air bubble sucked in when pipetting out cell extract.
The data labelled 0.35 and 0.55 in the Graph 1.were ignored when drawing the best fitted line across the points. This increased the quality of the calibration graph. The absorbance values for the replicates of tube 3 tube 5 had contrast difference in values. This was due to incorrect pipetting during the experiment. The replicates were not identical.
Limitations of the assay are that dye tends to bind with arginyl and lysyl amino acids more readily than other amino acids of proteins, leading to dissimilarity of results of the assay when performed with various proteins, this is the main disadvantage of the assay.( MolecularStation,n.d.)
In addition, the Bradford reagent used is restrained in the presence of detergents, thus membrane bound proteins cannot be assessed using this method as the extraction of them is done using detergents. Proteins which are low-acid soluble cannot be assessed using this method as the Coomassie dye in the Bradford reagent is extremely acidic.(Thermo Scientific, n.d.)
The linear range of the calibration graph is only around 2 µg/ml to 120 µg/ml. This makes it necessary that dilutions of the sample are made before analysis.(HistoSoft,n.d.)
The purpose of the assay was achieved successfully and the concentration of the cell extract was found to be 0.7 (mg/cm3) to the nearest decimal point.