The hydroxylation of tryptophan. |
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Authors: | Z Maskos J D Rush W H Koppenol |
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Institution: | Biodynamics Institute, Louisiana State University, Baton Rouge 70803-1800. |
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Abstract: | Products of the chemical hydroxylation of tryptophan by Fenton and Udenfriend reactions are similar to those obtained by ionizing radiation. When tryptophan is exposed to either of these systems, a mixture of four hydroxytryptophans, oxindole-3-alanine, and N-formylkynurenine is formed. This observation indicates that the hydroxyl radical attacks the aromatic nucleus as well as the 2 and 3 positions of the pyrrole ring. During gamma-radiolysis of nitrous oxide-saturated tryptophan solution and in the absence of oxygen or ferric edta, the hydroxyl radical adduct (or hydroxycyclohexadienyl radical) of tryptophan undergoes dimerization and polymerization, which results in a yellow product with maximal absorbance at 425 nm. In the presence of ferric edta, or in a Fenton system, the hydroxyl radical adduct disproportionates, and hydroxylated derivatives are formed. The yields of the hydroxytryptophans are proportional to the concentration of ferric edta to a limiting yield of 54% of the theoretical yield, which is taken to be one hydroxylated product per two hydroxyl radicals. Under these conditions, 4-, 5-, 6-, and 7-hydroxy-derivatives of tryptophan are found in the proportion 4:2:2:3, respectively. The presence of dioxygen during gamma-radiolysis increases the yield of N-formylkynurenine, but does not affect the total yield of hydroxytryptophans. Similarly, tryptophan subjected to the Udenfriend reaction yields 4-, 5-, 6-, and 7-hydroxytryptophan and N-formylkynurenine in approximately equal amounts. |
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