Preparative Binding of Coomassie Brilliant Blue to Bovine Serum Albumine at Alkaline PH

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Abstract
Laboratory scale preparation of bovine serum albumin (BSA) stained with Coomassie brilliant blue (CBB) at alkaline pH is first described. Physical-chemical analyses of CBB-BSA showed that the unprotonated (anion) CBB dye binds tightly to BSA in buffered media of pH 8.2. Characteristic differences in spectra λmax and molar absorptivities were found for the free anion CBB dye versus the CBB-BSA complex. Binding studies with low versus high dye/protein concentration ratios at alkaline pH gave values for n, binding site numbers, and K, intrinsic binding coefficient, consistent with those reported in analytical studies under acidic pH, but higher than values for neutral pH. Comparative analyses of Beer's law plots for the alkaline CBB-BSA complex under different experimental conditions showed its high stability toward various interferences, such as pH, strong detergents, temperature, light, prolonged storage, as well as high affinity for tannins. The hydrophobic nature of the CBB-BSA association at alkaline pH was tested.