吡啶环的微生物代谢。无色杆菌属中马来酰胺酸途径对2-羟基吡啶和3-羟基吡啶的代谢
Microbial metabolism of the pyridine ring. Metabolism of 2- and 3-hydroxypyridines by the maleamate pathway in Achromobacter sp.
作者信息
Cain R B, Houghton C, Wright K A
出版信息
Biochem J. 1974 May;140(2):293-300. doi: 10.1042/bj1400293.
Abstract
- Washed suspensions of two Achromobacter species (G2 and 2L), capable of growth upon 2- and 3-hydroxypyridine respectively as sources of C and N, rapidly oxidized their growth substrate pyridine-2,5-diol (2,5-dihydroxypyridine) and the putative ring-cleavage product maleamate without a lag. Suspensions derived from fumarate plus (NH(4))(2)SO(4) cultures were unable to do so. 2. Extracts of both bacteria oxidized pyridine-2,5-diol with the stoicheiometry of an oxygenase forming 1mol of NH(3)/mol of substrate. 3. Heat-treated extracts, however, formed maleamate and formate with little free NH(3). 4. The conversion of maleamate into maleate plus NH(3) by extracts of strain 2L, fractionated with (NH(4))(2)SO(4), and the metabolism of maleamate and maleate to fumarate by extracts of both strains demonstrated the existence of the enzymes catalysing each reaction of the maleamate pathway in these bacteria. 5. The pyridine-2,5-diol dioxygenase (mol.wt. approx. 340000) in extracts of these Achromobacter species required Fe(2+) (1.7mum) to restore full activity after dialysis or treatment with chelating agents; the enzyme from strain 2L also had a specific requirement for l-cysteine (6.7mm), which could not be replaced by GSH or dithiothreitol. 6. The oxygenase was strongly inhibited in a competitive manner by the isomeric pyridine-2,3- and -3,4-diols.
摘要
- 两种无色杆菌属菌株(G2和2L)的洗涤悬浮液,分别能够以2-羟基吡啶和3-羟基吡啶作为碳源和氮源生长,它们能迅速氧化其生长底物吡啶-2,5-二醇(2,5-二羟基吡啶)和假定的环裂解产物马来酰胺酸,且无延迟期。源自富马酸盐加硫酸铵培养物的悬浮液则无法做到这一点。2. 两种细菌的提取物以加氧酶的化学计量比氧化吡啶-2,5-二醇,每摩尔底物形成1摩尔氨。3. 然而,经热处理的提取物形成马来酰胺酸和甲酸,几乎没有游离氨。4. 用硫酸铵分级分离的2L菌株提取物将马来酰胺酸转化为马来酸加氨,两种菌株的提取物将马来酰胺酸和马来酸代谢为富马酸,这表明这些细菌中存在催化马来酰胺酸途径各反应的酶。5. 这些无色杆菌属菌株提取物中的吡啶-2,5-二醇双加氧酶(分子量约340000)在透析或用螯合剂处理后需要亚铁离子(1.7μM)来恢复全部活性;2L菌株的酶对L-半胱氨酸(6.7mM)也有特定需求,谷胱甘肽或二硫苏糖醇无法替代。6. 该加氧酶受到异构体吡啶-2,3-二醇和-3,4-二醇的竞争性强烈抑制。
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本文引用的文献
1
Spectrophotometric measurements of the enzymatic formation of fumaric and cis-aconitic acids.富马酸和顺乌头酸酶促形成的分光光度测量。
Biochim Biophys Acta. 1950 Jan;4(1-3):211-4. doi: 10.1016/0006-3002(50)90026-6.
2
A press for disrupting bacteria and other micro-organisms.一种用于破坏细菌和其他微生物的压榨机。
Br J Exp Pathol. 1951 Apr;32(2):97-109.
3
The oxidative pentose phosphate cycle. II. Quantitative determination of intermediates and enzymes.磷酸戊糖氧化循环。II. 中间产物和酶的定量测定
Arch Biochem Biophys. 1958 Apr;74(2):306-14. doi: 10.1016/0003-9861(58)90002-x.
4
The bacterial oxidation of nicotinic acid.烟酸的细菌氧化作用。
J Biol Chem. 1957 Oct;228(2):923-45.
5
Ascorbic acid in aromatic hydroxylation. I. A model system for aromatic hydroxylation.抗坏血酸在芳香族羟基化反应中的作用。I. 芳香族羟基化反应的模型体系。
J Biol Chem. 1954 Jun;208(2):731-9.
6
The colorimetric estimation of formaldehyde by means of the Hantzsch reaction.通过汉茨希反应对比色法测定甲醛。
Biochem J. 1953 Oct;55(3):416-21. doi: 10.1042/bj0550416.
7
Studies on fumarase. 4. The effects of inhibitors on fumarase activity.延胡索酸酶的研究。4. 抑制剂对延胡索酸酶活性的影响。
Biochem J. 1953 Aug;55(1):172-7. doi: 10.1042/bj0550172.
8
The metabolism of nicotinic acid. II. 2,5-dihydroxypyridine oxidation, product formation, and oxygen 18 incorporation.烟酸的代谢。II. 2,5 - 二羟基吡啶氧化、产物形成及氧18掺入
J Biol Chem. 1971 Jun 10;246(11):3743-8.
9
The metabolism of nicotinic acid. I. Purification and properties of 2,5-dihydroxypyridine oxygenase from Pseudomonas putida N-9.烟酸的代谢。I. 恶臭假单胞菌N-9中2,5-二羟基吡啶加氧酶的纯化及性质
J Biol Chem. 1971 Jun 10;246(11):3737-42.
10
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Biochem J. 1972 Dec;130(3):879-93. doi: 10.1042/bj1300879.
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