巴氏醋杆菌 GIM1.158 全细胞的生物催化对映选择性酮的反-Prelog 还原。

Biocatalytic anti-Prelog reduction of prochiral ketones with whole cells of Acetobacter pasteurianus GIM1.158.

机构信息

Laboratory of Applied Biocatalysis, South China University of Technology, Guangzhou 510640, China.

出版信息

Microb Cell Fact. 2014 Jun 10;13:84. doi: 10.1186/1475-2859-13-84.

DOI:10.1186/1475-2859-13-84

PMID:24916156

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4075937/

Abstract

BACKGROUND

Enantiomerically pure alcohols are important building blocks for production of chiral pharmaceuticals, flavors, agrochemicals and functional materials and appropriate whole-cell biocatalysts offer a highly enantioselective, minimally polluting route to these valuable compounds. At present, most of these biocatalysts follow Prelog's rule, and thus the (S)-alcohols are usually obtained when the smaller substituent of the ketone has the lower CIP priority. Only a few anti-Prelog (R)-specific whole cell biocatalysts have been reported. In this paper, the biocatalytic anti-Prelog reduction of 2-octanone to (R)-2-octanol was successfully conducted with high enantioselectivity using whole cells of Acetobacter pasteurianus GIM1.158.

RESULTS

Compared with other microorganisms investigated, Acetobacter pasteurianus GIM1.158 was shown to be more effective for the reduction reaction, affording much higher yield, product enantiomeric excess (e.e.) and initial reaction rate. The optimal temperature, buffer pH, co-substrate and its concentration, substrate concentration, cell concentration and shaking rate were 35°C, 5.0, 500 mmol/L isopropanol, 40 mmol/L, 25 mg/mL and 120 r/min, respectively. Under the optimized conditions, the maximum yield and the product e.e. were 89.5% and >99.9%, respectively, in 70 minutes. Compared with the best available data in aqueous system (yield of 55%), the yield of (R)-2-octanol was greatly increased. Additionally, the efficient whole-cell biocatalytic process was feasible on a 200-mL preparative scale and the chemical yield increased to 95.0% with the product e.e. being >99.9%. Moreover, Acetobacter pasteurianus GIM1.158 cells were proved to be capable of catalyzing the anti-Prelog bioreduction of other prochiral carbonyl compounds with high efficiency.

CONCLUSIONS

Via an effective increase in the maximum yield and the product e.e. with Acetobacter pasteurianus GIM1.158 cells, these results open the way to use of whole cells of this microorganism for challenging enantioselective reduction reactions on laboratory and commercial scales.

摘要

背景

对映体纯醇是生产手性药物、香料、农用化学品和功能材料的重要构建块，适当的全细胞生物催化剂为这些有价值的化合物提供了高度对映选择性、最小污染的途径。目前，这些生物催化剂大多遵循普雷洛格规则，因此当酮的较小取代基具有较低的 CIP 优先级时，通常获得（S）-醇。仅报道了少数反普雷洛格（R）特异性全细胞生物催化剂。在本文中，使用巴氏醋酸杆菌 GIM1.158 的全细胞成功地进行了 2-辛酮的反普雷洛格生物催化还原，得到了高对映选择性（R）-2-辛醇。

结果

与所研究的其他微生物相比，巴氏醋酸杆菌 GIM1.158 更适合还原反应，提供了更高的产率、产物对映体过量（ee）和初始反应速率。最佳温度、缓冲液 pH、共底物及其浓度、底物浓度、细胞浓度和摇床转速分别为 35°C、5.0、500mmol/L 异丙醇、40mmol/L、25mg/mL 和 120r/min。在优化条件下，70 分钟内最大产率和产物 ee 分别为 89.5%和>99.9%。与水相（产率 55%）中可获得的最佳数据相比，（R）-2-辛醇的产率大大提高。此外，高效的全细胞生物催化过程在 200mL 制备规模上是可行的，化学收率提高到 95.0%，产物 ee>99.9%。此外，证明巴氏醋酸杆菌 GIM1.158 细胞能够高效催化其他前手性羰基化合物的反普雷洛格生物还原。

结论

通过巴氏醋酸杆菌 GIM1.158 细胞有效提高最大产率和产物 ee，这些结果为在实验室和商业规模上使用该微生物的全细胞进行具有挑战性的对映选择性还原反应开辟了道路。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/95c1/4075937/59b46f2e5c82/1475-2859-13-84-1.jpg

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巴氏醋杆菌 GIM1.158 全细胞的生物催化对映选择性酮的反-Prelog 还原。

Biocatalytic anti-Prelog reduction of prochiral ketones with whole cells of Acetobacter pasteurianus GIM1.158.

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出版信息

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