Fluorimetric Detection of Insulin in the Presence of Eu(III) - {Pyridine - 2,6 - Dicarboxylate} Tris Complex
| Autor: | GÖK, Elmas, ATEŞ, Serdar |
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| Jazyk: | turečtina |
| Rok vydání: | 2014 |
| Předmět: | |
| Zdroj: | Volume: 25, Issue: 1 81-91 Turkish Journal of Chemistry |
| ISSN: | 1300-0527 1303-6130 |
| Popis: | Bovine insulin solutions (pH=9.3) have maximum absorption at 278 \pm 2 nm and an intrinsic emission at 305 nm when excited at 282 nm. The relative fluorescence intensities show linear dependence on its concentration: 10 mg/mL< [Ins] < 200 mg/mL. When Eu(PDA)33- tris complex is added to these solutions, it has a hyperchromic effect at 278 nm absorption band of insulin, sensitizing the emission intensities of central Eu3+ metal ion of the complex at 590 and 615 nm, and simultaneously quenching the emission intensity of hormone at 305 nm. Stern-Volmer plots show that a mechanism of bimolecular quenching at 305 nm and sensitization at 615 nm are valid up to a mole ratio, R = [Eu(PDA)33-]/[Ins] < 2.0. An intramolecular rather than an intermolecular energy transfer is proposed. An apparent binding constant, log Kapp=4.70 \pm 0.13, is calculated for Ins-[Eu(PDA)33-]2 type product, the presence of which may offer a new luminescence technique as a diagnostic tool and an alternative to radio-iodinated (131I -) insulin. A simple, rapid and accurate quantitation of insulin is proposed by using a fixed concentration of Eu(PDA)33-, and measuring its initial F0 at lexc/ lem=282/615 nm and the difference, DF after sensitization when \sim 100 microliters of insulin sample is added. The coefficient of variation (CV), the relative error and minimum detectable amount of bovine insulin hormone are found to be 3.0%, 1.2% and 7.3 \pm 0.2 mg /mL respectively. |
| Databáze: | OpenAIRE |
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