苯乙酮的微生物代谢。一种节杆菌对苯乙酮和一些氯苯乙酮的代谢。
The microbial metabolism of acetophenone. Metabolism of acetophenone and some chloroacetophenones by an Arthrobacter species.
作者信息
Cripps R E
出版信息
Biochem J. 1975 Nov;152(2):233-41. doi: 10.1042/bj1520233.
Abstract
- An organism that utilizes acetophenone as sole source of carbon and energy was isolated in pure culture and tentatively identified as an Arthrobacter sp. 2. Cell-free extracts of the acetophenone-grown organism contained an enzyme, acetophenone oxygenase, that catalysed an NADPH-dependent consumption of O(2) in the presence of the growth substrate; approx. 1mol of O(2) and 1mol of NADPH were consumed per mol of acetophenone oxidized. 3. Cell-free extracts also contained an enzyme capable of the hydrolysis of phenyl acetate to phenol and acetate. The amount of this esterase was increased markedly by growth on acetophenone. 4. The observed products of the acetophenone oxygenase reaction by crude cell-free extracts were phenol and acetate. However, inhibition of the phenyl acetate esterase by paraoxon resulted in the formation of phenyl acetate from acetophenone. 5. A degradative sequence is proposed in which acetophenone is metabolized by an oxygen-insertion reaction to form phenyl acetate. Further metabolism occurs by hydrolysis of this ester. 6. The organism and extracts were shown to metabolize chlorinated acetophenones. The environmental implications of this observation are discussed.
摘要
- 一种以苯乙酮作为唯一碳源和能源的微生物在纯培养物中被分离出来,并初步鉴定为节杆菌属。2. 以苯乙酮培养的微生物的无细胞提取物含有一种酶,即苯乙酮加氧酶,它在生长底物存在的情况下催化依赖于NADPH的氧气消耗;每氧化1摩尔苯乙酮大约消耗1摩尔氧气和1摩尔NADPH。3. 无细胞提取物还含有一种能够将乙酸苯酯水解为苯酚和乙酸的酶。这种酯酶的量在以苯乙酮生长时显著增加。4. 粗无细胞提取物中苯乙酮加氧酶反应观察到的产物是苯酚和乙酸。然而,对氧磷对乙酸苯酯酯酶的抑制导致由苯乙酮形成乙酸苯酯。5. 提出了一种降解序列,其中苯乙酮通过氧插入反应代谢形成乙酸苯酯。该酯的进一步代谢通过水解发生。6. 该微生物和提取物被证明能代谢氯化苯乙酮。讨论了这一观察结果对环境的影响。
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