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MCAT Chemical and Physical Foundations of Biological Systems 14
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Use the following information to answer questions: The Bradford assay is a common analytical technique that is used to measure the concentration of protein in a solution. It is both a spectroscopic and colorimetric procedure that is based on the absorbance shift of the Coomassie Brilliant Blue G-250 dye (Figure 1). The dye exists in the three forms: cationic (red), neutral (green), and anionic (blue). Under the acidic conditions used to perform the assay, the red form of the dye binds the protein and is converted to a stable blue anionic form, disrupting the native state of the protein and... Show more
MCAT Chemical and Physical Foundations of Biological Systems 14
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7 Questions

1. Which amino acid might accept a proton from the dye?
2. How might SDS interact with the dye to disrupt the Bradford assay?
3. How might SDS interact with the dye to disrupt the Bradford assay?
4. Which amino acid might accept a proton from the dye?
5. The absorbance of a newly discovered protein at 595 nm is determined, normalized with the appropriate baseline spectrum. If the protein concentration is to be directly calculated from this absorbance, what additional information is needed?
6. Why might SDS be present in a purified protein solution immediately following a standard purification procedure?
7. The Beer-Lambert law relates light absorption to the properties of the material of interest through the equation A = εbc, where A is absorbance in the Bradford assay, ε is the molar absorptivity (L mol–1 cm–1) of the material, b is the path length of the cuvette containing the sample in the spectrometer, and c is the concentration (mol/L) of the material in solution. If one wishes to determine the molar absorptivity of a particular protein, it is absolutely essential that