假单胞菌属对正丙基苯代谢过程中不同途径的共存

Coexistence of different pathways in the metabolism of n-propylbenzene by Pseudomonas sp.

作者信息

Jigami Y, Kawasaki Y, Omori T, Minoda Y

出版信息

Appl Environ Microbiol. 1979 Nov;38(5):783-8. doi: 10.1128/aem.38.5.783-788.1979.

DOI:10.1128/aem.38.5.783-788.1979

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC243586/

Abstract

Pseudomonas desmolytica S449B1 and Pseudomonas convexa S107B1 grown on n-propylbenzene oxidized n-propylbenzene to beta-phenylpropionic acid and benzoic acid by initial oxidation of the n-propyl side chain and the following beta-oxidation, respectively. The same strains also oxidized n-propylbenzene to 3-n-propylcatechol by initial oxidation of positions 2 and 3 of the aromatic nucleus. A ring fission product, 2-hydroxy-6-oxononanoic acid, was also isolated from the culture broth. Together with the results of oxygen uptake experiments, the data obtained suggested not only the existence of a reductive step to form 2-hydroxy-6-oxononanoic acid, but also the coexistence of two different pathways in the metabolism of n-propylbenzene by the strains used.

摘要

在正丙苯上生长的解聚假单胞菌S449B1和凸面假单胞菌S107B1，分别通过正丙基侧链的初始氧化和随后的β-氧化，将正丙苯氧化为β-苯丙酸和苯甲酸。相同的菌株还通过芳环2位和3位的初始氧化将正丙苯氧化为3-正丙基邻苯二酚。还从培养液中分离出一种环裂解产物2-羟基-6-氧代壬酸。结合氧气摄取实验的结果，所获得的数据不仅表明存在形成2-羟基-6-氧代壬酸的还原步骤，还表明所用菌株在正丙苯代谢中存在两种不同途径。

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