Abstract
Affinity labeling with palmitic acid was used to identify long chain fatty acid-binding sites of bovine serum albumin. [1-14C]Palmitic acid was activated by esterification with N-ethyl-5-phenyl-isoxazolium-3'-sulfonate (Woodward's Reagent K). The product was purified by chromatography and shown to compete with unesterified fatty acids for binding sites on bovine serum albumin. Activated [14C]palmitic acid coupled covalently to albumin producing [14C]palmitoyl-albumins containing from 0.12 to a maximum of 6.9 mol of attached label per mol of albumin. The presence of the covalently attached affinity label depressed binding of other long chain fatty acids to albumin. Albumin carrying 1 eq. of [14C]palmitate was cleaved using cyanogen bromide, pepsin, and trypsin. Radioactive peptides were isolated by high pressure liquid chromatography. Three peptides accounted for greater than 90% of the label. Residues labeled with [14C]palmitate were identified as Lys-116, Lys-349 and Lys-473, and the relative distribution of label was 10, 45, and 45% respectively, consistent with the presence of two strong binding sites in the COOH-terminal half of albumin and a somewhat weaker site in the NH2-terminal half.
Highlights
Materials-Albumin was crystallized bovine plasma albumin from Reheis Chemical Co. (Division of Armour Pharmaceutical)
WRK-palmitate and Palmitate Competition for Albumin Sites-Binding of WRK-palmitate to albumin was assessed using an immobilized albumin system [14]
Much of the unreacted WRK-palmitate was hydrolyzed, andthe product albumin containeda significant amount of noncovalently attached palmitate which was removed by conventional defatting procedures [10]
Summary
Materials-Albumin was crystallized bovine plasma albumin from Reheis Chemical Co. (Division of Armour Pharmaceutical). WRK-palmitate did notreact effectively with lysozyme, O0 ovalbumin, or gamma-globulinwhether compared to albumin on a mol per mol or a mol per weight basis (Table 11).None of these proteins is thought to have a binding site for fatty acid.
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