萘双加氧酶和甲苯双加氧酶对1-茚满酮和2-茚满酮的区域特异性和立体选择性羟基化作用。

Regiospecific and stereoselective hydroxylation of 1-indanone and 2-indanone by naphthalene dioxygenase and toluene dioxygenase.

作者信息

Resnick S M, Torok D S, Lee K, Brand J M, Gibson D T

机构信息

Department of Microbiology, College of Medicine, University of Iowa, Iowa City 52242.

出版信息

Appl Environ Microbiol. 1994 Sep;60(9):3323-8. doi: 10.1128/aem.60.9.3323-3328.1994.

DOI:10.1128/aem.60.9.3323-3328.1994

PMID:7944365

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC201805/

Abstract

The biotransformation of 1-indanone and 2-indanone to hydroxyindanones was examined with bacterial strains expressing naphthalene dioxygenase (NDO) and toluene dioxygenase (TDO) as well as with purified enzyme components. Pseudomonas sp. strain 9816/11 cells, expressing NDO, oxidized 1-indanone to a mixture of 3-hydroxy-1-indanone (91%) and 2-hydroxy-1-indanone (9%). The (R)-3-hydroxy-1-indanone was formed in 62% enantiomeric excess (ee) (R:S, 81:19), while the 2-hydroxy-1-indanone was racemic. The same cells also formed 2-hydroxy-1-indanone from 2-indanone. Purified NDO components oxidized 1-indanone and 2-indanone to the same products produced by strain 9816/11. P. putida F39/D cells, expressing TDO, oxidized 2-indanone to (S)-2-hydroxy-1-indanone of 76% ee (R:S, 12:88) but did not oxidize 1-indanone efficiently. Purified TDO components also oxidized 2-indanone to (S)-2-hydroxy-1-indanone of 90% ee (R:S, 5:95) and failed to oxidize 1-indanone. Oxidation of 1- and 2-indanone in the presence of [18O]oxygen indicated that the hydroxyindanones were formed by the incorporation of a single atom of molecular oxygen (monooxygenation) rather than by the dioxygenation of enol tautomers of the ketone substrates. As alternatives to chemical synthesis, these biotransformations represent direct routes to 3-hydroxy-1-indanone and 2-hydroxy-1-indanone as the major products from 1-indanone and 2-indanone, respectively.

摘要

利用表达萘双加氧酶（NDO）和甲苯双加氧酶（TDO）的细菌菌株以及纯化的酶组分，研究了1-茚满酮和2-茚满酮向羟基茚满酮的生物转化。表达NDO的假单胞菌属菌株9816/11细胞将1-茚满酮氧化为3-羟基-1-茚满酮（91%）和2-羟基-1-茚满酮（9%）的混合物。（R）-3-羟基-1-茚满酮的对映体过量（ee）为62%（R:S，81:19），而2-羟基-1-茚满酮是外消旋的。同样的细胞也能将2-茚满酮转化为2-羟基-1-茚满酮。纯化的NDO组分将1-茚满酮和2-茚满酮氧化为与菌株9816/11产生的相同产物。表达TDO的恶臭假单胞菌F39/D细胞将2-茚满酮氧化为ee为76%的（S）-2-羟基-1-茚满酮（R:S，12:88），但不能有效地氧化1-茚满酮。纯化的TDO组分也将2-茚满酮氧化为ee为90%的（S）-2-羟基-1-茚满酮（R:S，5:95），并且不能氧化1-茚满酮。在[18O]氧气存在下对1-茚满酮和2-茚满酮的氧化表明，羟基茚满酮是通过掺入单个分子氧原子（单加氧反应）形成的，而不是通过酮底物烯醇互变异构体的双加氧反应形成的。作为化学合成的替代方法，这些生物转化分别代表了从1-茚满酮和2-茚满酮直接获得3-羟基-1-茚满酮和2-羟基-1-茚满酮作为主要产物的途径。

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