酚类化合物在漆酶诱导的木质素氧化模型中催化调解的第一个证据。

Francesca d'Acunzo, Carlo Galli
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引用次数: 103

摘要

磺胺苯酞指示剂苯酚红,尽管它是一种苯酚,因此是这种酚氧化酶的天然底物,但它被来自pinsitus的漆酶氧化的速度却异常缓慢。然而,长时间暴露于漆酶(24小时)后,酚红被氧化超过90%。我们发现,酚红可以氧化转化为共振稳定的苯氧基自由基,在漆酶催化的非酚类底物(4-甲氧基苄基醇)和受阻酚(2,4,6-三叔丁基酚)的氧化中起中介作用。特别是,在4-甲氧基苄基醇的氧化过程中,发现酚红的效率至少是3-羟基苯甲酸酯(一种报道的漆酶的天然酚类介质)的10倍。其他与酚红结构不相似的酚类物质会迅速降解,不能作为漆酶介质。另一方面,几种不同取代的不同pK2值的磺苯酞介导了漆酶的催化作用,其中效率最高的是二氯酚红,其pK2值最低。发现酚红和二氯酚红的中介效率与pH有关,其氧化Ep值(由循环伏安法测定)也与pH有关。我们认为,相对丰富的苯氧阴离子比质子化的苯酚更容易氧化,可能是决定酚醛介质效率的因素之一,以及它形成相对稳定的氧化中间体的能力,这些中间体在以不需要的途径耗尽之前与所需的底物反应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
First evidence of catalytic mediation by phenolic compounds in the laccase-induced oxidation of lignin models.

The sulfonephthalein indicator, phenol red, exhibits an unusually slow rate of oxidation by laccase from Poliporus pinsitus, in spite of the fact that it is a phenol and therefore a natural substrate for this phenoloxidase enzyme. Nevertheless, after prolonged exposure to laccase (24 h) phenol red is oxidized by more than 90%. We found that phenol red, which can be oxidatively converted into a resonance-stabilized phenoxy radical, performs as a mediator in the laccase-catalyzed oxidation of a nonphenolic substrate (4-methoxybenzyl alcohol) and also of a hindered phenol (2,4,6-tri-tert-butylphenol). In particular, phenol red was found to be at least 10 times more efficient than 3-hydroxyanthranilate (a reported natural phenolic mediator of laccase) in the oxidation of 4-methoxybenzyl alcohol. Other phenols, which do not bear structural analogies to phenol red, underwent rapid degradation and did not perform as laccase mediators. On the other hand, several variously substituted sulfonephthaleins, of different pK2 values, mediated the laccase catalysis, the most efficient being dichlorophenol red, which has the lowest pK2 of the series. The mediating efficiency of phenol red and dichlorophenol red was found to be pH dependent, as was their oxidation Ep value (determined by cyclic voltammetry). We argue that the relative abundance of the phenoxy anion, which is easier to oxidize than the protonated phenol, may be one of the factors determining the efficiency of a phenolic mediator, together with its ability to form relatively stable oxidized intermediates that react with the desired substrate before being depleted in undesired routes.

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