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Biocatalyst engineering by assembly of fatty acid transport and oxidation activities for In vivo application of cytochrome P-450BM-3 monooxygenase.通过组装脂肪酸转运和氧化活性进行生物催化剂工程,用于细胞色素P-450BM-3单加氧酶的体内应用。
Appl Environ Microbiol. 1998 Oct;64(10):3784-90. doi: 10.1128/AEM.64.10.3784-3790.1998.
2
Fatty acid monooxygenation by cytochrome P-450BM-3.细胞色素P-450BM-3催化的脂肪酸单加氧反应。
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3
Reconstitution of the fatty acid hydroxylation function of cytochrome P-450BM-3 utilizing its individual recombinant hemo- and flavoprotein domains.
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Controlled regioselectivity of fatty acid oxidation by whole cells producing cytochrome P450BM-3 monooxygenase under varied dissolved oxygen concentrations.在不同溶解氧浓度下,产细胞色素P450BM-3单加氧酶的全细胞对脂肪酸氧化的区域选择性控制。
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The PalkBFGHJKL promoter is under carbon catabolite repression control in Pseudomonas oleovorans but not in Escherichia coli alk+ recombinants.在食油假单胞菌中,PalkBFGHJKL启动子受碳分解代谢物阻遏控制,但在大肠杆菌alk+重组体中不受此控制。
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Cloning of the gene encoding a catalytically self-sufficient cytochrome P-450 fatty acid monooxygenase induced by barbiturates in Bacillus megaterium and its functional expression and regulation in heterologous (Escherichia coli) and homologous (Bacillus megaterium) hosts.编码由巴比妥酸盐诱导的巨大芽孢杆菌中一种具有催化自足性的细胞色素P-450脂肪酸单加氧酶的基因克隆,及其在异源(大肠杆菌)和同源(巨大芽孢杆菌)宿主中的功能表达与调控。
J Biol Chem. 1987 May 15;262(14):6676-82.

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Epoxidation of unsaturated fatty acids by a soluble cytochrome P-450-dependent system from Bacillus megaterium.巨大芽孢杆菌中一种可溶性细胞色素P-450依赖系统对不饱和脂肪酸的环氧化作用。
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Nonsubstrate induction of a soluble bacterial cytochrome P-450 monooxygenase by phenobarbital and its analogs.苯巴比妥及其类似物对可溶性细菌细胞色素P-450单加氧酶的非底物诱导作用。
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Fatty acid degradation in Escherichia coli. An inducible acyl-CoA synthetase, the mapping of old-mutations, and the isolation of regulatory mutants.大肠杆菌中的脂肪酸降解。一种可诱导的酰基辅酶A合成酶、旧突变的定位以及调节突变体的分离。
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通过组装脂肪酸转运和氧化活性进行生物催化剂工程,用于细胞色素P-450BM-3单加氧酶的体内应用。

Biocatalyst engineering by assembly of fatty acid transport and oxidation activities for In vivo application of cytochrome P-450BM-3 monooxygenase.

作者信息

Schneider S, Wubbolts M G, Sanglard D, Witholt B

机构信息

Institute of Biotechnology, ETH Hönggerberg HPT, 8093 Zürich, Switzerland.

出版信息

Appl Environ Microbiol. 1998 Oct;64(10):3784-90. doi: 10.1128/AEM.64.10.3784-3790.1998.

DOI:10.1128/AEM.64.10.3784-3790.1998
PMID:9758800
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC106549/
Abstract

The application of whole cells containing cytochrome P-450BM-3 monooxygenase [EC 1.14.14.1] for the bioconversion of long-chain saturated fatty acids to omega-1, omega-2, and omega-3 hydroxy fatty acids was investigated. We utilized pentadecanoic acid and studied its conversion to a mixture of 12-, 13-, and 14-hydroxypentadecanoic acids by this monooxygenase. For this purpose, Escherichia coli recombinants containing plasmid pCYP102 producing the fatty acid monooxygenase cytochrome P-450BM-3 were used. To overcome inefficient uptake of pentadecanoic acid by intact E. coli cells, we made use of a cloned fatty acid uptake system from Pseudomonas oleovorans which, in contrast to the common FadL fatty acid uptake system of E. coli, does not require coupling by FadD (acyl-coenzyme A synthetase) of the imported fatty acid to coenzyme A. This system from P. oleovorans is encoded by a gene carried by plasmid pGEc47, which has been shown to effect facilitated uptake of oleic acid in E. coli W3110 (M. Nieboer, Ph.D. thesis, University of Groningen, Groningen, The Netherlands, 1996). By using a double recombinant of E. coli K27, which is a fadD mutant and therefore unable to consume substrates or products via the beta-oxidation cycle, a twofold increase in productivity was achieved. Applying cytochrome P-450BM-3 monooxygenase as a biocatalyst in whole cells does not require the exogenous addition of the costly cofactor NADPH. In combination with the coenzyme A-independent fatty acid uptake system from P. oleovorans, cytochrome P-450BM-3 recombinants appear to be useful alternatives to the enzymatic approach for the bioconversion of long-chain fatty acids to subterminal hydroxylated fatty acids.

摘要

研究了含有细胞色素P-450BM-3单加氧酶[EC 1.14.14.1]的全细胞在将长链饱和脂肪酸生物转化为ω-1、ω-2和ω-3羟基脂肪酸中的应用。我们使用了十五烷酸,并研究了通过这种单加氧酶将其转化为12-、13-和14-羟基十五烷酸混合物的情况。为此,使用了含有产生脂肪酸单加氧酶细胞色素P-450BM-3的质粒pCYP102的大肠杆菌重组体。为了克服完整大肠杆菌细胞对十五烷酸摄取效率低下的问题,我们利用了来自食油假单胞菌的克隆脂肪酸摄取系统,与大肠杆菌常见的FadL脂肪酸摄取系统不同,该系统不需要通过FadD(酰基辅酶A合成酶)将导入的脂肪酸与辅酶A偶联。食油假单胞菌的这个系统由质粒pGEc47携带的一个基因编码,该基因已被证明能促进大肠杆菌W3110中油酸的摄取(M. Nieboer,博士论文,格罗宁根大学,荷兰格罗宁根,1996年)。通过使用大肠杆菌K27的双重组体,它是一个fadD突变体,因此无法通过β-氧化循环消耗底物或产物,实现了生产力提高两倍。在全细胞中应用细胞色素P-450BM-3单加氧酶作为生物催化剂不需要外源添加昂贵的辅因子NADPH。与来自食油假单胞菌的不依赖辅酶A的脂肪酸摄取系统相结合,细胞色素P-450BM-3重组体似乎是将长链脂肪酸生物转化为亚末端羟基化脂肪酸的酶促方法的有用替代方案。