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1
The enzymic degradation of alkyl-substituted gentisates, maleates and malates.烷基取代龙胆酸盐、马来酸盐和苹果酸盐的酶促降解
Biochem J. 1971 Mar;122(1):29-40. doi: 10.1042/bj1220029.
2
Gentisic acid and its 3- and 4-methyl-substituted homologoues as intermediates in the bacterial degradation of m-cresol, 3,5-xylenol and 2,5-xylenol.龙胆酸及其3-和4-甲基取代的同系物作为间甲酚、3,5-二甲酚和2,5-二甲酚细菌降解的中间体。
Biochem J. 1971 Mar;122(1):19-28. doi: 10.1042/bj1220019.
3
Pathways for the degradation of m-cresol and p-cresol by Pseudomonas putida.恶臭假单胞菌降解间甲酚和对甲酚的途径。
J Bacteriol. 1975 Apr;122(1):1-6. doi: 10.1128/jb.122.1.1-6.1975.
4
Bacterial metabolism of 5-aminosalicylic acid: enzymic conversion to L-malate, pyruvate and ammonia.5-氨基水杨酸的细菌代谢:酶促转化为L-苹果酸、丙酮酸和氨。
J Gen Microbiol. 1993 May;139(5):1019-25. doi: 10.1099/00221287-139-5-1019.
5
Enzymic formation of D-malate.D-苹果酸的酶促形成。
Biochem J. 1968 Dec;110(4):798-800. doi: 10.1042/bj1100798.
6
Identification of a Specific Maleate Hydratase in the Direct Hydrolysis Route of the Gentisate Pathway.在龙胆酸途径直接水解路线中一种特定苹果酸水合酶的鉴定。
Appl Environ Microbiol. 2015 Sep 1;81(17):5753-60. doi: 10.1128/AEM.00975-15. Epub 2015 Jun 12.
7
Mesaconase Activity of Class I Fumarase Contributes to Mesaconate Utilization by Burkholderia xenovorans.I类富马酸酶的中康酸酶活性有助于嗜麦芽窄食单胞菌利用中康酸。
Appl Environ Microbiol. 2015 Aug 15;81(16):5632-8. doi: 10.1128/AEM.00822-15. Epub 2015 Jun 12.
8
Evidence for isofunctional enzymes used in m-cresol and 2,5-xylenol degradation via the gentisate pathway in Pseudomonas alcaligenes.产碱假单胞菌中通过龙胆酸途径降解间甲酚和2,5-二甲酚所使用的同功酶的证据。
J Bacteriol. 1980 Jul;143(1):59-69. doi: 10.1128/jb.143.1.59-69.1980.
9
Purification and properties of gentisate 1,2-dioxygenase from Moraxella osloensis.奥斯陆莫拉菌中龙胆酸盐1,2-双加氧酶的纯化及性质
J Bacteriol. 1975 Mar;121(3):794-9. doi: 10.1128/jb.121.3.794-799.1975.
10
nag genes of Ralstonia (formerly Pseudomonas) sp. strain U2 encoding enzymes for gentisate catabolism.编码龙胆酸盐分解代谢酶的雷尔氏菌(以前的假单胞菌)属U2菌株的nag基因。
J Bacteriol. 2001 Jan;183(2):700-8. doi: 10.1128/JB.183.2.700-708.2001.

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1
Purification and Initial Characterization of 3-Hydroxybenzoate 6-Hydroxylase From a Halophilic Strain AD-3.来自嗜盐菌株AD-3的3-羟基苯甲酸6-羟化酶的纯化及初步表征
Front Microbiol. 2018 Jul 6;9:1335. doi: 10.3389/fmicb.2018.01335. eCollection 2018.
2
Formation of Dimethylmuconolactones from Dimethylphenols by Alcaligenes eutrophus JMP 134.阿氏假单胞菌 JMP134 由二甲基苯酚生成二甲基巴豆基内酯。
Appl Environ Microbiol. 1995 Jun;61(6):2159-65. doi: 10.1128/aem.61.6.2159-2165.1995.
3
Molecular and biochemical characterization of the xlnD-encoded 3-hydroxybenzoate 6-hydroxylase involved in the degradation of 2,5-xylenol via the gentisate pathway in Pseudomonas alcaligenes NCIMB 9867.嗜碱假单胞菌NCIMB 9867中通过龙胆酸途径参与2,5-二甲苯酚降解的xlnD编码的3-羟基苯甲酸6-羟化酶的分子和生化特性
J Bacteriol. 2005 Nov;187(22):7696-702. doi: 10.1128/JB.187.22.7696-7702.2005.
4
Functional identification of novel genes involved in the glutathione-independent gentisate pathway in Corynebacterium glutamicum.谷氨酸棒杆菌中参与非谷胱甘肽依赖的龙胆酸途径的新基因的功能鉴定。
Appl Environ Microbiol. 2005 Jul;71(7):3442-52. doi: 10.1128/AEM.71.7.3442-3452.2005.
5
Emergent mechanistic diversity of enzyme-catalysed beta-diketone cleavage.酶催化β-二酮裂解的新出现的机制多样性
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6
Development of catechol 2,3-dioxygenase-specific primers for monitoring bioremediation by competitive quantitative PCR.用于通过竞争性定量PCR监测生物修复的儿茶酚2,3-双加氧酶特异性引物的开发。
Appl Environ Microbiol. 2000 Feb;66(2):678-83. doi: 10.1128/AEM.66.2.678-683.2000.
7
Characterization of the endogenous plasmid from Pseudomonas alcaligenes NCIB 9867: DNA sequence and mechanism of transfer.产碱假单胞菌NCIB 9867内源性质粒的特性:DNA序列与转移机制
J Bacteriol. 2000 Jan;182(1):81-90. doi: 10.1128/JB.182.1.81-90.2000.
8
Purification and characterization of gentisate 1,2-dioxygenases from Pseudomonas alcaligenes NCIB 9867 and Pseudomonas putida NCIB 9869.产碱假单胞菌NCIB 9867和恶臭假单胞菌NCIB 9869中龙胆酸盐1,2-双加氧酶的纯化与特性分析
Appl Environ Microbiol. 1999 Mar;65(3):946-50. doi: 10.1128/AEM.65.3.946-950.1999.
9
Purification and some properties of maleylpyruvate hydrolase and fumarylpyruvate hydrolase from Pseudomonas alcaligenes.产碱假单胞菌中马来酰丙酮酸水解酶和富马酰丙酮酸水解酶的纯化及某些性质
J Bacteriol. 1980 Jul;143(1):70-7. doi: 10.1128/jb.143.1.70-77.1980.
10
Evidence for isofunctional enzymes used in m-cresol and 2,5-xylenol degradation via the gentisate pathway in Pseudomonas alcaligenes.产碱假单胞菌中通过龙胆酸途径降解间甲酚和2,5-二甲酚所使用的同功酶的证据。
J Bacteriol. 1980 Jul;143(1):59-69. doi: 10.1128/jb.143.1.59-69.1980.

本文引用的文献

1
The effect of citrate on the rotation of the molybdate complexes of malate, citramalate and isocitrate.柠檬酸盐对苹果酸、柠苹酸和异柠檬酸的钼酸盐络合物旋转的影响。
Biochem J. 1943 Sep;37(3):334-8. doi: 10.1042/bj0370334.
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Metabolism of l-Malate and d-Malate by a Species of Pseudomonas.一种假单胞菌对L-苹果酸和D-苹果酸的代谢
J Bacteriol. 1970 Dec;104(3):1197-202. doi: 10.1128/jb.104.3.1197-1202.1970.
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[Paper partition micro chromatography of non-volatile, water-soluble aliphatic acids].[非挥发性水溶性脂肪酸的纸分配微色谱法]
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Enzymic hydration of mesaconate by Pseudomonas fluorescens.
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The enzymic oxidation of gentisic acid.龙胆酸的酶促氧化作用。
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[The constituents of Pyrola japonica Sieb. V. The structure of pyrolatins. (3)..].[鹿蹄草的成分。V. 鹿蹄草素的结构。(3)..]
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2-Isopropylmalate and 3-isopropylmalate as intermediates in leucine biosynthesis.
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Enzymatic formation of alpha-isopropylmalic acid, an intermediate in leucine biosynthesis.亮氨酸生物合成中间体α-异丙基苹果酸的酶促形成。
J Biol Chem. 1963 Jul;238:2445-52.
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The solid-state infrared absorption of the optically active and racemic straight-chain alpha-amino acids.
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烷基取代龙胆酸盐、马来酸盐和苹果酸盐的酶促降解

The enzymic degradation of alkyl-substituted gentisates, maleates and malates.

作者信息

Hopper D J, Chapman P J, Dagley S

出版信息

Biochem J. 1971 Mar;122(1):29-40. doi: 10.1042/bj1220029.

DOI:10.1042/bj1220029
PMID:5124802
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1176684/
Abstract
  1. Cell-free extracts, prepared from a non-fluorescent Pseudomonas grown on m-cresol, oxidized gentisate and certain alkyl-substituted gentisates with the consumption of 1 mol of oxygen and the formation of 1 mol of pyruvate from 1 mol of substrate. 2. In addition to pyruvate, malate was formed from gentisate; citramalate was formed from 3-methylgentisate and 4-methylgentisate; 2,3-dimethylmalate was formed from 3,4-dimethylgentisate. 3. One enantiomer, d-(-)-citramalate, was formed enzymically from 3-methylgentisate, 4-methylgentisate and citraconate. l-(+)-Citramalate was formed from mesaconate by the same extracts. When examined as its dimethyl ester by gas-liquid chromatography, enzymically formed 2,3-dimethylmalate showed the same behaviour as one of the two racemates prepared from the synthetic compound. 4. Maleate, citraconate and 2,3-dimethylmaleate were rapidly hydrated by cell extracts, but ethylfumarate and 2,3-dimethylfumarate were not attacked. 5. Cell extracts oxidized 1,4-dihydroxy-2-naphthoate to give pyruvate and phthalate. 6. Alkylgentisates were oxidized by a gentisate oxygenase (EC 1.13.1.4) present in Pseudomonas 2,5. The ring-fission products were attacked by maleylpyruvase, but not by fumarylpyruvase, and their u.v.-absorption spectra were those expected for alkyl-substituted maleylpyruvates. 7. When supplemented with ATP, CoA, succinate and Mg(2+) ions, an enzyme system from cells grown with 2,5-xylenol formed pyruvate from d- but not from l-citramalate. Extracts from cells grown with dl-citramalate or with itaconate attacked both d- and l-citramalate; other alkylmalates were cleaved in similar fashion to give pyruvate or 2-oxobutyrate. 8. These results accord with a general sequence of reactions in which the benzene nucleus of an alkylgentisate is cleaved to give an alkyl-substituted maleylpyruvate. The ring-fission products are hydrolysed to give pyruvate, plus alkylmalic acids which then undergo aldol fissions, probably as their CoA esters. In Pseudomonas 2,5 several homologous sequences of this general type appear to be catalysed by a single battery of enzymes with broad substrate specificities, whereas the metabolic capabilities of the fluorescent Pseudomonas 3,5 are more restricted. 9. Intact cells of both organisms metabolize d-malic acid by reactions that have not been elucidated, but are different from those which degrade alkylmalates.
摘要
  1. 从在间甲酚上生长的非荧光假单胞菌制备的无细胞提取物,氧化龙胆酸盐和某些烷基取代的龙胆酸盐,消耗1摩尔氧气,并从1摩尔底物形成1摩尔丙酮酸。2. 除丙酮酸外,龙胆酸盐形成苹果酸;3-甲基龙胆酸盐和4-甲基龙胆酸盐形成柠苹酸;3,4-二甲基龙胆酸盐形成2,3-二甲基苹果酸。3. 一种对映体,即d-(-)-柠苹酸,由3-甲基龙胆酸盐、4-甲基龙胆酸盐和柠康酸盐酶促形成。l-(+)-柠苹酸由甲基反丁烯二酸酯通过相同的提取物形成。当通过气液色谱法作为其二甲酯进行检测时,酶促形成的2,3-二甲基苹果酸与由合成化合物制备的两种外消旋体之一表现出相同的行为。4. 顺丁烯二酸、柠康酸和2,3-二甲基顺丁烯二酸被细胞提取物迅速水合,但富马酸乙酯和2,3-二甲基富马酸未受到攻击。5. 细胞提取物将1,4-二羟基-2-萘甲酸氧化生成丙酮酸和邻苯二甲酸。6. 烷基龙胆酸盐被假单胞菌2,5中存在的龙胆酸加氧酶(EC 1.13.1.4)氧化。环裂解产物被马来酰丙酮酸酶攻击,但不被富马酰丙酮酸酶攻击,并且它们的紫外吸收光谱是烷基取代的马来酰丙酮酸所预期的。7. 当补充ATP、辅酶A、琥珀酸和Mg(2+)离子时,用2,5-二甲苯酚培养的细胞中的酶系统从d-柠苹酸而非l-柠苹酸形成丙酮酸。用dl-柠苹酸或衣康酸培养的细胞提取物攻击d-和l-柠苹酸;其他烷基苹果酸以类似方式裂解生成丙酮酸或2-氧代丁酸。8. 这些结果与一般反应序列一致,其中烷基龙胆酸盐的苯核被裂解生成烷基取代的马来酰丙酮酸。环裂解产物被水解生成丙酮酸,加上烷基苹果酸,然后烷基苹果酸可能作为其辅酶A酯进行醛醇裂解。在假单胞菌2,5中,这种一般类型的几个同源序列似乎由一组具有广泛底物特异性的酶催化,而荧光假单胞菌3,5的代谢能力则更受限制。9. 两种生物体的完整细胞通过尚未阐明的反应代谢d-苹果酸,但这些反应与降解烷基苹果酸的反应不同。