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Microbial metabolism of the pyridine ring. The hydroxylation of 4-hydroxypyridine to pyridine-34-diol (34-dihydroxypyridine) by 4-hydroxypyridine 3-hydroxylase

机译：吡啶环的微生物代谢。 4-羟基吡啶3-羟化酶将4-羟基吡啶羟化为吡啶-34-二醇（34-二羟基吡啶）

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1. The first metabolic step in the biodegradation of 4-hydroxypyridine by an Agrobacterium sp. was hydroxylation to form pyridine-3,4-diol. 2. Extracts required 1mol of O2 and 1mol of NADH or NADPH for the conversion of 4-hydroxypyridine into pyridine-3,4-diol, suggesting that the enzyme responsible, 4-hydroxypyridine-3-hydroxylase, was a mixed function mono-oxygenase. 3. After treatment with acidic (NH4)2SO4 the enzyme required FAD for activity; FMN and riboflavin would not substitute for FAD. 4. The rate of anaerobic reduction of FAD by NAD(P)H was increased more than tenfold in the presence of 4-hydroxypyridine, suggesting that the mechanism of hydroxylation was similar to that of other aromatic hydroxylases which are of the mono-oxygenase type. 5. The partially purified enzyme was extremely specific for its heterocyclic substrate but would utilize either NADH or NADPH. 6. 4-Hydroxypyridine-3-hydroxylase was strongly inhibited by high substrate concentration (above 0.5mm) especially below pH7.5. 8. The inflexion at pH8.4 in a pKm versus pH plot, together with strong inhibition by p-chloromercuribenzoate, suggested a role for thiol groups in substrate binding.

机译：1.农杆菌属生物降解4-羟基吡啶的第一步代谢步骤。羟基化形成吡啶-3，4-二醇。 2.提取物需要1mol的O2和1mol的NADH或NADPH才能将4-羟基吡啶转化为3,4-吡啶吡啶，这表明负责的酶4-羟基吡啶-3-羟化酶是一种混合功能的单加氧酶。 3.用酸性（NH4）2SO4处理后，酶需要FAD才能发挥活性； FMN和核黄素不能替代FAD。 4.在4-羟基吡啶存在下，NAD（P）H对FAD的厌氧还原速率增加了十倍以上，这表明羟基化的机理与其他单加氧酶类型的芳族羟化酶相似。 5.部分纯化的酶对其杂环底物具有极高的特异性，但会利用NADH或NADPH。 6.高底物浓度（0.5mm以上），尤其是在pH7.5以下，会强烈抑制4-羟基吡啶-3-羟化酶。 8.在pKm相对于pH曲线中，pH8.4的变化，以及对氯mercuribenzoate的强烈抑制作用，表明硫醇基团在底物结合中起作用。

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期刊名称 Biochemical Journal
作者
G. Keith Watson; Charles Houghton; Ronald B. Cain;
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年(卷),期 1974(140),2
年度 1974
页码 265–276
总页数 12
原文格式 PDF
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中图分类分子生物学;
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1. Microbial metabolism of the pyridine ring. The hydroxylation of 4-hydroxypyridine to pyridine-3,4-diol (3,4-dihydroxypyridine) by 4-hydroxypyridine 3-hydroxylase [J] . Charles Houghton, G. Keith Watson, Ronald B. Cain The biochemical journal . 1974,第2期

机译：吡啶环的微生物代谢。 4-羟基吡啶3-羟化酶将4-羟基吡啶羟化为吡啶-3,4-二醇（3,4-二羟基吡啶）
2. The metabolism of 4-hydroxypyridine by Agrobacterium sp.: a new ring cleavage of the pyridine nucleus [J] . C Houghton, G K Watson, R B Cain The biochemical journal . 1969,第4期

机译：农杆菌对4-羟基吡啶的代谢：吡啶核的新环裂解
3. Microbial metabolism of the pyridine ring. The metabolism of pyridine-3,4-diol (3,4-dihydroxypyridine) by Agrobacterium sp [J] . Charles Houghton, G. Keith Watson, Ronald B. Cain The biochemical journal . 1974,第2期

机译：吡啶环的微生物代谢。农杆菌属细菌对3,4-二醇（3,4-二羟基吡啶）的代谢
4. Microbial metabolism of the pyridine ring. The metabolism of pyridine-34-diol (34-dihydroxypyridine) by Agrobacterium sp [O] . G. Keith Watson, Charles Houghton, Ronald B. Cain 1974

机译：吡啶环的微生物代谢。农杆菌属细菌对34-二醇（34-二羟基吡啶）的代谢
5. Microbial metabolism of the pyridine ring. The hydroxylation of 4-hydroxypyridine to pyridine-3,4-diol (3,4-dihydroxypyridine) by 4-hydroxypyridine 3-hydroxylase [O] . Watson, G. Keith, Houghton, Charles, Cain, Ronald B. 1974

机译：吡啶环的微生物代谢。 4-羟基吡啶3-羟化酶将4-羟基吡啶羟化为吡啶-3,4-二醇（3,4-二羟基吡啶）

Microbial metabolism of the pyridine ring. The hydroxylation of 4-hydroxypyridine to pyridine-34-diol (34-dihydroxypyridine) by 4-hydroxypyridine 3-hydroxylase

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