Fujiwara M, Golovleva L A, Saeki Y, Nozaki M, Hayaishi O
J Biol Chem. 1975 Jul 10;250(13):4848-55.
Pyrocatechase (catechol 1,2-oxidoreductase (decyclizing), EC 1.13.11.1), a ferric ion-containing dioxygenase from Pseudomonas arvilla C-1, catalyzes the intradiol cleavage of catechol with insertion of 2 atoms of molecular oxygen to form cis,cis-muconic acid. The enzyme also catalyzed the oxidation of various catechol derivatives, including 4-methylcatechol, 4-chlorocatechol, 4-formylcatechol (protocatechualdehyde), 4,5-dichlorocatechol, 3,5-dichlorocatechol, 3-methylcatechol, 3-methoxycatechol, and 3-hydroxycatechol (pyrogallol). All of these substrates gave products having an absorption maximum at around 260 nm, which is characteristic of cis,cis-muconic acid derivatives. However, when 3-methylcatechol was used as substrate, the product formed showed two absorption maxima at 390 and 260 nm. These two absorption maxima were found to be attributable to two different products, 2-hydroxy-6-oxo-2,4-heptadienoic acid and 5-carboxy-2-methyl-2,4-pentadienoic acid (2-methylmuconic acid). The former was produced by the extradiol cleavage between the carbon atom carrying the hydroxyl group and the carbon atom carrying the hydroxyl group and the carbon atom carrying the methyl group; the latter by an intradiol cleavage between two hydroxyl groups. Since these products were unstable, they were converted to and identified as 6-methylpyridine-2-carboxylic acid and 2-methylmuconic acid dimethylester, respectively. Similarly, 3-methoxycatechol gave two products, namely, 2-hydroxy-5-methoxycarbonyl-2,4-pentadienoic acid and 5-carboxy-2-methoxy-2,4-pentadienoic acid (2-methoxymuconic acid). With 3-methylcatechol as substrate, the ratio of intradiol and extradiol cleavage activities of Pseudomonas pyrocatechase during purification was almost constant and was about 17. The final preparation of the enzyme was homogeneous when examined by disc gel electrophoresis and catalyzed both reactions simultaneously with the same ratio as during purification. All attempts to resolve the enzyme into two components with separate activities, including inactivation of the enzyme with urea or heat, treatment with sulfhydryl-blocking reagents or chelating agents, and inhibition of the enzyme with various inhibitors, proved unsuccessful. These results strongly suggest that Pseudomonas pyrocatechase is a single enzyme, which catalyzes simultaneously both intradiol and extradiol cleavages of some 3-substituted catechols.
邻苯二酚酶(儿茶酚1,2 -氧化还原酶(环化),EC 1.13.11.1),一种来自假单胞菌C - 1的含铁离子双加氧酶,催化儿茶酚的间位裂解并插入2个分子氧原子形成顺,顺-粘康酸。该酶还催化各种儿茶酚衍生物的氧化,包括4 -甲基儿茶酚、4 -氯儿茶酚、4 -甲酰基儿茶酚(原儿茶醛)、4,5 -二氯儿茶酚、3,5 -二氯儿茶酚、3 -甲基儿茶酚、3 -甲氧基儿茶酚和3 -羟基儿茶酚(连苯三酚)。所有这些底物产生的产物在260nm左右有最大吸收峰,这是顺,顺-粘康酸衍生物的特征。然而,当以3 -甲基儿茶酚为底物时,形成的产物在390nm和260nm处有两个最大吸收峰。发现这两个最大吸收峰分别归因于两种不同的产物,2 -羟基-6 -氧代-2,4 -庚二烯酸和5 -羧基-2 -甲基-2,4 -戊二烯酸(2 -甲基粘康酸)。前者是通过携带羟基的碳原子与携带甲基的碳原子之间的邻位裂解产生的;后者是通过两个羟基之间的间位裂解产生的。由于这些产物不稳定,它们分别转化并鉴定为6 -甲基吡啶-2 -羧酸和2 -甲基粘康酸二甲酯。同样,3 -甲氧基儿茶酚产生两种产物,即2 -羟基-5 -甲氧基羰基-2,4 -戊二烯酸和5 -羧基-2 -甲氧基-2,4 -戊二烯酸(2 -甲氧基粘康酸)。以3 -甲基儿茶酚为底物时,假单胞菌邻苯二酚酶在纯化过程中间位和邻位裂解活性的比例几乎恒定,约为17。通过圆盘凝胶电泳检测,该酶的最终制剂是均一的,并且以与纯化过程相同的比例同时催化这两种反应。所有将该酶分解为具有不同活性的两个组分的尝试,包括用尿素或加热使酶失活、用巯基封闭试剂或螯合剂处理以及用各种抑制剂抑制该酶,都证明是不成功的。这些结果强烈表明假单胞菌邻苯二酚酶是一种单一酶,它同时催化某些3 -取代儿茶酚的间位和邻位裂解。
