We have investigated the effect in solution of synthetic carrier ampholytes on the saturation of human serum transferrin. By spectrophotometric titrations of human serum transferrin with various Fe3+-carrier ampholyte solutions, we demonstrated that under these conditions carrier ampholytes behave as typical chelators, their binding curves being very similar to that obtained with disodium nitrilotriacetate. On performing titration experiments at three different pH values, carrier ampholytes act like nitrilotriacetate at pH 7.5, but the former are more effective iron donors at pH 8.4 and worse iron donors at pH 5.2. Spectrophotometric titrations of isolated C-terminal and N-terminal fragments obtained from human serum transferrin by thermolysin cleavage show no differences between them, and no differences with respect to the whole protein except that they contain half the number of binding sites. In order to determine a site-specificity of iron in the presence of ampholytes, the classical urea/polyacrylamide-gel-electrophoresis technique was adopted. Under saturating conditions carrier ampholyte solutions act mostly on the C-terminal site, whereas desaturating agents remove iron preferentially from the N-terminal site. Our findings support the hypothesis that Ampholine may chelate Fe3+ as well as many other compounds.

Effect of synthetic carrier ampholytes on saturation of human serum transferrin.

D'Alessandro AM;D'ANDREA, Gabriele
1989-01-01

Abstract

We have investigated the effect in solution of synthetic carrier ampholytes on the saturation of human serum transferrin. By spectrophotometric titrations of human serum transferrin with various Fe3+-carrier ampholyte solutions, we demonstrated that under these conditions carrier ampholytes behave as typical chelators, their binding curves being very similar to that obtained with disodium nitrilotriacetate. On performing titration experiments at three different pH values, carrier ampholytes act like nitrilotriacetate at pH 7.5, but the former are more effective iron donors at pH 8.4 and worse iron donors at pH 5.2. Spectrophotometric titrations of isolated C-terminal and N-terminal fragments obtained from human serum transferrin by thermolysin cleavage show no differences between them, and no differences with respect to the whole protein except that they contain half the number of binding sites. In order to determine a site-specificity of iron in the presence of ampholytes, the classical urea/polyacrylamide-gel-electrophoresis technique was adopted. Under saturating conditions carrier ampholyte solutions act mostly on the C-terminal site, whereas desaturating agents remove iron preferentially from the N-terminal site. Our findings support the hypothesis that Ampholine may chelate Fe3+ as well as many other compounds.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11697/19669
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