Bovine serum albumin interaction

This experiment provides a nice example of the application of spectroscopy to biochemistry. After presenting the basic theory for the spectroscopic treatment of protein-ligand interactions, a procedure for characterizing the binding of methyl orange to bovine serum albumin is described. 

Three different types of columns packed with gels of different pore sizes are available. Columns should be selected that are suitable for the molecular weight range of specific samples, as each type has a different exclusion limit (Fig. 6.41, page 215). Bovine serum albumin (BSA), myoglobin, and lysozyme show good peak shapes using only 100 mM of sodium phosphate buffer as an eluent. There is no need to add any salt to the eluent to reduce the ionic interaction between protein and gel. 

Lewis, S.D., Misra, D.C. and Shafer, J.A. (1980) Determination of interactive thiol ionizations in bovine serum albumin, glutathione, and other thiols by potentiometric difference titration. Biochemistry, 19, 6129-6180. 

Membranes offer a format for interaction of an analyte with a stationary phase alternative to the familiar column. For certain kinds of separations, particularly preparative separations involving strong adsorption, the membrane format is extremely useful. A 5 x 4 mm hollow-fiber membrane layered with the protein bovine serum albumin was used for the chiral separation of the amino acid tryptophan, with a separation factor of up to 6.6.62 Diethey-laminoethyl-derivatized membrane disks were used for high-speed ion exchange separations of oligonucleotides.63 Sulfonated membranes were used for peptide separations, and reversed-phase separations of peptides, steroids, and aromatic hydrocarbons were accomplished on C18-derivatized membranes. 

Figure 5. Fluorescence anisotropy of F-D labelled heparin-antithrombin interaction. F-D-heparin (0.02 fluoresceins per uronic acid) at 0.1 mg/ml was incubated with different concentrations of antithrombin (open circles) or bovine serum albumin (solid diamonds) in 20 mM sodium phosphate buffer, pH 7.4.

Coradin, T., Coupe, A. and Livage, J. (2003) Interactions of bovine serum albumin and lysozyme with sodium silicate solutions. Cdloids and Surfaces B-Biointerfaces, 29, 189-196. 

The interaction between 4-(4-hydroxybut-2-ynyloxy)-3-(phenylsulfonyl)-l,2,5-oxadiazole-2-oxide 16 and bovine serum albumin (BSA) was studied by spectroscopic methods including fluorescence and UV-Vis absorption spectroscopy. The results indicate that molecules 16 bind with BSA forming 1 1 complex. Thermodynamic parameters, such as AH, AG, and A.Y, were calculated. The results indicate that the binding reaction is mainly entropy driven and hydrophobic forces play a major role in this reaction <2006CHJ1050>. 

The mechanism of adsorption of drugs by montmorillonite has been studied using infrared (IR) spectroscopy and XPD [68,69]. X-ray diffractometry and a host of other techniques were used to study the interaction of bovine serum albumin with the surface of a microcrystalline aluminum oxide hydroxide compound [70]. 

R. D. Tilton, A. P. Gast, and C. R. Robertson, Surface diffusion of interacting proteins. Effect of concentration on the lateral mobility of adsorbed bovine serum albumin, Biophys. J. 58, 1321-1326 (1990). 

The ability of proteins to form enantioselective interactions with a large variety of drugs is used in chiral affinity chromatography. Protein CSPs that are most frequently used for the enantioseparation of pharmaceuticals include bovine serum albumin (BSA), human serum albumin... 

K. Murakami, T. Sano and T. Yasunaga, Bull. Chem. Soc. Japan 54, 862 (1981). This is unusual case where there are no temperature-jump relaxations. The interaction of bovine serum albumin with bromophenol blue is accompanied by four relaxations which are attributed to a fast second-order interaction followed by three first-order steps. 

The phosphate backbone of DNA molecules often results in undesirable electrostatic interactions with the substrate. Although the electrostatic interactions of DNA can be utilized for physical adsorption of DNA to the surface, this process can also lead to the nonspecific physical adsorption of target DNA on the surface. Rather than sample DNA hybridizing to the probe, it can adsorb to the surface and lead to interferences with the final detection call. Nonspecific adsorption effects have primarily been examined by the microarray community. Blocking strategies have been developed to prevent these nonspecific interactions. Succinic anhydride (SA) and bovine serum albumin (BSA) are two common methods to prevent nonspecific adsorption on amine modified surfaces. Blocking strategies are desired to react with or pas-... 

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