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巨大芽孢杆菌 DSM319 中的新型细胞色素 P450 体系用于 11-酮-β-乳香酸(KBA)的羟化。

A new cytochrome P450 system from Bacillus megaterium DSM319 for the hydroxylation of 11-keto-β-boswellic acid (KBA).

出版信息

Appl Microbiol Biotechnol. 2014 Feb;98(4):1701-17. doi: 10.1007/s00253-013-5029-0. Epub 2013 Jun 25.

DOI:10.1007/s00253-013-5029-0
PMID:23797329
Abstract

In the genome of Bacillus megaterium DSM319, a strain who has recently been sequenced to fully exploit its potential for biotechnological purposes, we identified a gene encoding the cytochrome P450 CYP106A1 as well as genes encoding potential redox partners of CYP106A1. We cloned, expressed, and purified CYP106A1 and five potential autologous redox partners, one flavodoxin and four ferredoxins. The flavodoxin and three ferredoxins were able to support the activity of CYP106A1 displaying the first cloned natural redox partners of a cytochrome P450 from B. megaterium. The CYP106A1 system was able to convert the pentacyclic triterpene 11-keto-β-boswellic acid (KBA) belonging to the main bioactive constituents of Boswellia serrata gum resin extracts, which are used to treat inflammatory disorders and arthritic diseases. In order to provide sufficient amounts of the KBA products to characterize them structurally by NMR spectroscopy, recombinant whole-cell biocatalysts were constructed based on B. megaterium MS941. The main product has been identified as 7β-hydroxy-KBA, while the side product (∼20%) was shown to be a mixture of 7β,15α-dihydroxy-KBA and 15α-hydroxy-KBA. Without further optimization 560.7 mg l⁻¹ day⁻¹ of the main product, 7β-hydroxy-KBA, could be obtained thus providing a suitable starting point for the efficient production of modified KBA by chemical tailoring to produce novel KBA derivatives with increased bioavailability and this way more efficient drugs.

摘要

在最近被完全测序以充分挖掘其生物技术潜力的巨大芽孢杆菌 DSM319 的基因组中,我们鉴定出一个编码细胞色素 P450 CYP106A1 的基因,以及编码 CYP106A1 潜在氧化还原伴侣的基因。我们克隆、表达和纯化了 CYP106A1 和五个潜在的自体氧化还原伴侣,一个黄素蛋白和四个铁氧还蛋白。黄素蛋白和三个铁氧还蛋白能够支持 CYP106A1 的活性,展示了第一个从巨大芽孢杆菌克隆的细胞色素 P450 的天然氧化还原伴侣。CYP106A1 系统能够转化五环三萜 11-酮-β-乳香酸(KBA),它是乳香树脂提取物的主要生物活性成分之一,用于治疗炎症性疾病和关节炎。为了提供足够数量的 KBA 产物,以便通过 NMR 光谱学对其进行结构表征,我们基于巨大芽孢杆菌 MS941 构建了重组全细胞生物催化剂。主要产物已被鉴定为 7β-羟基-KBA,而副产物(约 20%)则显示为 7β,15α-二羟基-KBA 和 15α-羟基-KBA 的混合物。在没有进一步优化的情况下,可以获得 560.7 mg l⁻¹ day⁻¹ 的主要产物 7β-羟基-KBA,为通过化学修饰高效生产修饰后的 KBA 提供了合适的起点,以生产具有更高生物利用度的新型 KBA 衍生物,从而开发出更有效的药物。

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