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1
Microbial metabolism of amino ketones. L-1-aminopropan-2-ol dehydrogenase and L-threonine dehydrogenase in Escherichia coli.氨基酮的微生物代谢。大肠杆菌中的L-1-氨基丙醇脱氢酶和L-苏氨酸脱氢酶。
Biochem J. 1967 Jul;104(1):112-21. doi: 10.1042/bj1040112.
2
Microbial metabolism of amino ketones. Aminoacetone formation from 1-aminopropan-2-ol by a dehydrgenase in Escerichia coli.氨基酮的微生物代谢。大肠杆菌中一种脱氢酶由1-氨基丙-2-醇形成氨基丙酮。
Biochem J. 1966 May;99(2):427-33. doi: 10.1042/bj0990427.
3
Amino ketone formation and aminopropanol-dehydrogenase activity in rat-liver preparations.大鼠肝脏制剂中氨基酮的形成及氨基丙醇脱氢酶活性
Biochem J. 1967 Feb;102(2):511-9. doi: 10.1042/bj1020511.
4
Microbial metabolism of amino alcohols. 1-Aminopropan-2-ol and ethanolamine metabolism via propionaldehyde and acetaldehyde in a species of Pseudomonas.氨基醇的微生物代谢。假单胞菌属中1-氨基丙-2-醇和乙醇胺通过丙醛和乙醛的代谢
Biochem J. 1973 May;134(1):167-82. doi: 10.1042/bj1340167.
5
Microbial metabolism of amino alcohols. Aminoacetone metabolism via 1-aminopropan-2-ol in Pseudomonas sp. N.C.I.B. 8858.氨基醇的微生物代谢。假单胞菌属N.C.I.B. 8858中通过1-氨基丙-2-醇进行的氨基丙酮代谢。
Biochem J. 1974 Feb;138(2):263-76. doi: 10.1042/bj1380263.
6
Microbial metabolism of amino alcohols. Purification and properties of coenzyme B12-dependent ethanolamine ammonia-lyase of Escherichia coli.氨基醇的微生物代谢。大肠杆菌中依赖辅酶B12的乙醇胺氨裂解酶的纯化及性质
Biochem J. 1978 Nov 1;175(2):555-63. doi: 10.1042/bj1750555.
7
Utilization of L-threonine by a species of Arthrobacter. A novel catabolic role for "aminoacetone synthase".一种节杆菌对L-苏氨酸的利用。“氨基丙酮合酶”的一种新的分解代谢作用。
Biochem J. 1969 May;112(5):657-71. doi: 10.1042/bj1120657.
8
Threonine metabolism in a strain of Bacillus subtilis enzymic oxidation of 1-aminopropan-2-ol and aminoacetone.枯草芽孢杆菌菌株中的苏氨酸代谢:1-氨基丙醇和氨基丙酮的酶促氧化
Biochim Biophys Acta. 1971 Oct;252(1):98-104. doi: 10.1016/0304-4165(71)90096-1.
9
Aminoacetone formation and utilization by pseudomonads grown on DL-1-aminopropan-2-ol.在DL-1-氨基丙-2-醇上生长的假单胞菌对氨基丙酮的形成和利用
J Gen Microbiol. 1968 Nov;54(1):105-14. doi: 10.1099/00221287-54-1-105.
10
Enzymic oxidation of D-1-aminopropan-2-ol by diol dehydrogenases of microbial origin.微生物来源的二醇脱氢酶对D-1-氨基丙-2-醇的酶促氧化作用。
Biochim Biophys Acta. 1968 Dec 23;170(2):455-6. doi: 10.1016/0304-4165(68)90034-2.

引用本文的文献

1
Preliminary observations on alcohol dehydrogenases in Comamonas terrigena that exhibit stereospecificity towards secondary alcohols.对土生丛毛单胞菌中对仲醇表现出立体特异性的乙醇脱氢酶的初步观察。
Biochem J. 1980 Jun 1;187(3):703-9. doi: 10.1042/bj1870703.
2
Amino ketone synthesis in avian erythrocytes.鸟类红细胞中氨基酮的合成。
Biochem J. 1969 Sep;114(3):499-507. doi: 10.1042/bj1140499.
3
Microbial metabolism of amino alcohols. 1-Aminopropan-2-ol and ethanolamine metabolism via propionaldehyde and acetaldehyde in a species of Pseudomonas.氨基醇的微生物代谢。假单胞菌属中1-氨基丙-2-醇和乙醇胺通过丙醛和乙醛的代谢
Biochem J. 1973 May;134(1):167-82. doi: 10.1042/bj1340167.
4
Microbial metabolism of amino alcohols. Aminoacetone metabolism via 1-aminopropan-2-ol in Pseudomonas sp. N.C.I.B. 8858.氨基醇的微生物代谢。假单胞菌属N.C.I.B. 8858中通过1-氨基丙-2-醇进行的氨基丙酮代谢。
Biochem J. 1974 Feb;138(2):263-76. doi: 10.1042/bj1380263.
5
Microbial metabolism of amino alcohols. Metabolism of ethanolamine and 1-aminopropan-2-ol in species of Erwinia and the roles of amino alcohol kinase and amino alcohol o-phosphate phospho-lyase in aldehyde formation.氨基醇的微生物代谢。欧文氏菌属中乙醇胺和1-氨基丙醇-2的代谢以及氨基醇激酶和氨基醇邻磷酸磷酸裂解酶在醛形成中的作用。
Biochem J. 1973 Aug;134(4):959-68. doi: 10.1042/bj1340959.
6
Structural and functional analysis of a cloned segment of Escherichia coli DNA that specifies proteins of a C4 pathway of serine biosynthesis.一段指定丝氨酸生物合成C4途径蛋白质的大肠杆菌DNA克隆片段的结构与功能分析。
J Bacteriol. 1987 Oct;169(10):4716-21. doi: 10.1128/jb.169.10.4716-4721.1987.
7
Bacterial catabolism of threonine. Threonine degradation initiated by L-threonine-NAD+ oxidoreductase.苏氨酸的细菌分解代谢。由L-苏氨酸-NAD⁺氧化还原酶启动的苏氨酸降解。
Biochem J. 1976 May 15;156(2):449-58. doi: 10.1042/bj1560449.
8
Threonine degradation by Serratia marcescens.粘质沙雷氏菌对苏氨酸的降解作用。
J Bacteriol. 1978 Aug;135(2):318-23. doi: 10.1128/jb.135.2.318-323.1978.
9
Role of L-threonine dehydrogenase in the catabolism of threonine and synthesis of glycine by Escherichia coli.L-苏氨酸脱氢酶在大肠杆菌苏氨酸分解代谢及甘氨酸合成中的作用。
J Bacteriol. 1976 Jun;126(3):1245-9. doi: 10.1128/jb.126.3.1245-1249.1976.

本文引用的文献

1
Alcohol enzyme of Bact. coli.大肠杆菌的酒精酶
Biochem J. 1940 Sep;34(8-9):1177-82. doi: 10.1042/bj0341177.
2
Production of aminoacetone by Rhodopseudomonas spheroides.球形红假单胞菌产生氨基丙酮。
Biochem J. 1962 Aug;84(2):317-28. doi: 10.1042/bj0840317.
3
The enzymic conversion of threonine to aminoacetone.苏氨酸向氨基丙酮的酶促转化。
Biochim Biophys Acta. 1960 Jun 17;41:164-5. doi: 10.1016/0006-3002(60)90388-7.
4
ENZYMIC OXIDATION OF AMINOKETONES IN MAMMALIAN BLOOD PLASMA.哺乳动物血浆中氨基酮的酶促氧化
Experientia. 1963 Aug 15;19:421. doi: 10.1007/BF02171524.
5
Amino ketones: kinetics of in vitro antibacterial activity.氨基酮:体外抗菌活性动力学
J Pharm Sci. 1962 Oct;51:975-80. doi: 10.1002/jps.2600511016.
6
Biosynthesis of alpha-aminoketones and the metabolism of aminoacetone.α-氨基酮的生物合成及氨基丙酮的代谢
J Biol Chem. 1963 Feb;238:811-20.
7
[Syntheses in the vitamin B12 group. IX. On the synthesis of cobyrinyl-abcdeg-hexamide-f-N-DL-serine phosphate and cobyrinyl-abcdeg-f-N-DL-threonine phosphate and the biosynthetic evaluation of some cobinamide analogs].[维生素B12类化合物的合成。IX。关于钴胺酰胺基-abcdeg-六酰胺-f-N-DL-丝氨酸磷酸酯和钴胺酰胺基-abcdeg-f-N-DL-苏氨酸磷酸酯的合成以及一些钴胺酰胺类似物的生物合成评估]
Biochem Z. 1962;335:325-39.
8
Aminoacetone formation by Staphylococcus aureus.金黄色葡萄球菌产生氨基丙酮。
Biochem J. 1960 Mar;74(3):478-85. doi: 10.1042/bj0740478.
9
Aspects of the metabolism of glycine and of porphyrins.甘氨酸与卟啉的新陈代谢方面
Biochem J. 1961 Jan;78(1):1-10. doi: 10.1042/bj0780001.
10
[Highly active antivitamin B12 from a series of alkanolamine analogs of vitamin B12].[来自一系列维生素B12链烷醇胺类似物的高活性抗维生素B12]
Biochem Z. 1961;334:284-92.

氨基酮的微生物代谢。大肠杆菌中的L-1-氨基丙醇脱氢酶和L-苏氨酸脱氢酶。

Microbial metabolism of amino ketones. L-1-aminopropan-2-ol dehydrogenase and L-threonine dehydrogenase in Escherichia coli.

作者信息

Turner J M

出版信息

Biochem J. 1967 Jul;104(1):112-21. doi: 10.1042/bj1040112.

DOI:10.1042/bj1040112
PMID:5340733
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1270551/
Abstract
  1. A wide range of intermediary metabolites and substrate analogues have no effect on the oxidation of dl-1-aminopropan-2-ol to aminoacetone by washed-cell suspensions of Escherichia coli. Only dl-2-hydroxy-2-phenylethylamine, dl-1,3-diaminopropan-2-ol, dl-serine and l-1-(3,4-dihydroxyphenyl)-2-aminoethanol act as inhibitors. 2. Dialysed cell-free extracts of E. coli exhibit an NAD(+)-dependent dl-1-aminopropan-2-ol-dehydrogenase activity of approx. 8mmumoles of aminoacetone formed/mg. of protein/min. at the pH optimum of approx. 10. The K(m) values for the coenzyme and dl-amino alcohol are approx. 0.4 and 10.0mm respectively. A smaller peak of activity occurs at pH7.0-7.2, the K(m) for NAD(+) at pH7 being approx. 0.05mm. 3. Enzyme activity in cell-free extracts is inhibited by dl-2-hydroxy-2-phenylethylamine, dl-1-aminopropane-2,3-diol and dl-serine. dl-Phenylserine and dl-1-aminobutan-2-ol are oxidized to compounds reacting as amino ketones. 4. In fresh cell-free extracts l(+)-1-aminopropan-2-ol preparations are oxidized more rapidly than racemic or laevo-rotatory material, the d(-)-enantiomorph appearing to act as a competitive inhibitor. The K(m) for l(+)-1-aminopropan-2-ol appears to be approx. 1.5mm when highly resolved substrate preparations are used, either in the free base form or as the l(+)-tartrate salt. 5. l(+)-1-Aminopropan-2-ol dehydrogenase is a labile enzyme, and in appropriately treated extracts activity towards the d-enantiomorph is detectable and relatively higher than that towards the l-enantiomorph. 6. Optimum activity of l-threonine-dehydrogenase in cell-free extracts is exhibited at pH9.6 in the presence of NAD(+). The K(m) values for coenzyme and amino acid substrate are approx. 0.08 and 5.0mm respectively. This enzyme is distinct from 1-aminopropan-2-ol dehydrogenases on the basis of kinetic evidence, and the separation of activities by gel filtration. 7. Both l-threonine and dl-1-aminopropan-2-ol dehydrogenases are markedly inhibited by 8-hydroxyquinoline and p-chloromercuribenzoate, but only slightly by other chelating and thiol reagents. 8. E. coli is incapable of growth on simple synthetic media, containing a variety of carbon sources, when dl-1-aminopropan-2-ol is supplied as the sole source of nitrogen. It appears unlikely that the micro-organism can deaminate aminoacetone. 9. The metabolic roles of l-threonine dehydrogenase, aminoacetone and 1-aminopropan-2-ol dehydrogenases are discussed.
摘要
  1. 多种中间代谢产物和底物类似物对大肠杆菌洗涤细胞悬液将dl-1-氨基丙-2-醇氧化为氨基丙酮的反应没有影响。只有dl-2-羟基-2-苯乙胺、dl-1,3-二氨基丙-2-醇、dl-丝氨酸和l-1-(3,4-二羟基苯基)-2-氨基乙醇起抑制剂作用。2. 大肠杆菌的透析无细胞提取物在最适pH约为10时表现出依赖NAD(+)的dl-1-氨基丙-2-醇脱氢酶活性,约为每毫克蛋白质每分钟形成8微摩尔氨基丙酮。辅酶和dl-氨基醇的K(m)值分别约为0.4和10.0毫摩尔。在pH7.0 - 7.2出现一个较小的活性峰,pH7时NAD(+)的K(m)约为0.05毫摩尔。3. 无细胞提取物中的酶活性受到dl-2-羟基-2-苯乙胺、dl-1-氨基丙烷-2,3-二醇和dl-丝氨酸的抑制。dl-苯丝氨酸和dl-1-氨基丁-2-醇被氧化为反应类似氨基酮的化合物。4. 在新鲜的无细胞提取物中,l(+)-1-氨基丙-2-醇制剂的氧化速度比外消旋或左旋物质更快,d(-)-对映体似乎起竞争性抑制剂的作用。当使用高度纯化的底物制剂,无论是游离碱形式还是l(+)-酒石酸盐形式时,l(+)-1-氨基丙-2-醇的K(m)似乎约为1.5毫摩尔。5. l(+)-1-氨基丙-2-醇脱氢酶是一种不稳定的酶,在经过适当处理的提取物中,对d-对映体的活性可被检测到,且相对高于对l-对映体的活性。6. 无细胞提取物中l-苏氨酸脱氢酶在有NAD(+)存在时,在pH9.6表现出最佳活性。辅酶和氨基酸底物的K(m)值分别约为0.08和5.0毫摩尔。基于动力学证据以及通过凝胶过滤分离活性,这种酶与1-氨基丙-2-醇脱氢酶不同。7. l-苏氨酸脱氢酶和dl-1-氨基丙-2-醇脱氢酶都受到8-羟基喹啉和对氯汞苯甲酸的显著抑制,但仅受到其他螯合和硫醇试剂的轻微抑制。8. 当以dl-1-氨基丙-2-醇作为唯一氮源供应时,大肠杆菌在含有多种碳源的简单合成培养基上无法生长。微生物似乎不太可能使氨基丙酮脱氨。9. 讨论了l-苏氨酸脱氢酶、氨基丙酮和1-氨基丙-2-醇脱氢酶的代谢作用。