Crystal structure of a phenol-coupling P450 monooxygenase involved in teicoplanin biosynthesis

The lipoglycopeptide antibiotic teicoplanin has proven efficacy against gram‐positive pathogens. Teicoplanin is distinguished from the vancomycin‐type glycopeptide antibiotics, by the presence of an additional cross‐link between the aromatic amino acids 1 and 3 that is catalyzed by the cytochrome P450 monooxygenase Orf6* (CYP165D3). As a goal towards understanding the mechanism of this phenol‐coupling reaction, we have characterized recombinant Orf6* and determined its crystal structure to 2.2‐Å resolution. Although the structure of Orf6* reveals the core fold common to other P450 monooxygenases, there are subtle differences in the disposition of secondary structure elements near the active site cavity necessary to accommodate its complex heptapeptide substrate. Specifically, the orientation of the F and G helices in Orf6* results in a more closed active site than found in the vancomycin oxidative enzymes OxyB and OxyC. In addition, Met226 in the I helix replaces the more typical Gly/Ala residue that is positioned above the heme porphyrin ring, where it forms a hydrogen bond with a heme iron‐bound water molecule. Sequence comparisons with other phenol‐coupling P450 monooxygenases suggest that Met226 plays a role in determining the substrate regiospecificity of Orf6*. These features provide further insights into the mechanism of the cross‐linking mechanisms that occur during glycopeptide antibiotics biosynthesis. Proteins 2011; © 2011 Wiley‐Liss, Inc.     

Cytochrome b5 involvement in cytochrome P450 monooxygenase activities in house fly microsomes

The involvement of cytochrome b₅ in different cytochrome P450 monooxygenase and palmitoyl CoA desaturase activities in microsomes from insecticide-resistant (LPR) house flies was determined using a specific polyclonal antiserum developed against house fly cytochrome b₅. Anti-b₅ antiserum inhibited the reduction of cytochrome b₅ by NADH-cytochrome b₅ reductase. The antiserum also inhibited palmitoyl CoA desaturase, methoxycoumarin-O-demethylase (MCOD), ethoxycoumarin-O-deethylase (ECOD), and benzo[a]pyrene hydroxylase (aromatic hydrocarbon hydroxylase, AHH) activities. However, methoxyresorufin-O-demethylase (MROD) and ethoxyresorufin-O-deethy-lase (EROD) activities were not affected by this antiserum. These results demonstrate that cytochrome b₅ is involved in fatty acyl CoA desaturase activities and in certain cytochrome P450 monooxygenase activities (i.e., MCOD, ECOD, and AHH) in LPR house fly microsomes. Other cytochrome P450 monooxygenase activities (i.e., MROD and EROD) may not require cytochrome b₅. The results suggest that cytochrome b₅ involvement with cytochrome P450 monooxygenase activities is dependent upon the cytochrome P450 isoform involved. © 1994 Wiley-Liss, Inc.     

Construction of a thermostable cytochrome P450 chimera derived from self-sufficient mesophilic parents

The P450 monooxygenases CYP102A1 from Bacillus megaterium and CYP102A3 from Bacillus subtilis are fusion flavocytochromes comprising of a P450 heme domain and a FAD/FMN reductase domain. This protein organization is responsible for the extraordinary catalytic activities making both monooxygenases promising enzymes for biocatalysis. CYP102A1 and CYP102A3 are fatty acid hydroxylases that share 65% identity, and their mutants are able to oxidize a wide range of substrates. In an attempt to increase the process stability of CYP102A1, we exchanged the more unstable reductase domain of CYP102A1 with the more stable reductase domain of CYP102A3. Stability of the chimeric fusion protein was determined spectrophotometrically as well as by measuring the hydroxylation activity towards 12-para-nitrophenoxydodecanoic acid (12-pNCA) after incubation at elevated temperatures. In the reaction with 12-pNCA, the new chimeric protein exhibited 88 and 38% of the activity of CYP102A3 and CYP102A1, respectively, but was able to hydroxylate substrates within a wider temperature range compared with the parental enzymes. Maximum activity was obtained at 51°C, and the half-life at 50°C was with 100 min more than ten times longer than that of CYP102A1 (8 min).     

烟草细胞色素P450的基因组学分析

细胞色素P450是一类含血红素的单加氧酶超基因家族, 在植物多种代谢途径中起着重要作用。为了解烟草中的P450的种类和数量, 文章将植物代表性P450蛋白质序列与烟草基因组序列比对, 在烟草基因组中鉴定了44个P450家族共263个成员。将这些烟草P450基因与烟草表达序列标签(EST)比对, 发现173个成员有EST证据。通过与拟南芥中已知的P450蛋白序列比较, 分析了部分烟草P450蛋白序列的特征和二级结构。根据烟草基因芯片数据和部分基因的RT-PCR结果, 发现73个烟草P450基因能够在不同的生长发育时期表达, 其中部分基因具有组织特异性。这些研究结果为烟草P450基因功能的深入分析奠定了基础。     

Cytochrome P450 monooxygenase from Clostridium acetobutylicum: a new alpha-fatty acid hydroxylase

Cytochrome P450 monooxygenase from the anaerobic microorganism Clostridium acetobutylicum (CYP152A2) has been produced in Escherichia coli. CYP152A2 was shown to bind a broad range of saturated and unsaturated fatty acids and corresponding methyl esters and demonstrated a high peroxygenase activity of up to 200min(-1) with myristic acid. Although a high concentration of hydrogen peroxide of 200microM was necessary for high activities of the enzyme, it led to a fast enzyme inactivation within 2-4min. This might reflect the natural function of CYP152A2 as a rapid hydrogen peroxide scavenging enzyme. In two different reconstituted systems with NADPH, CYP152A2 was able to convert 10 times more substrate, if provided with flavodoxin and flavodoxin reductase from E. coli and even 30-40 times more substrate with the CYP102A1-reductase from Bacillus megaterium. According to the clear preference for hydroxylation at alpha-position, CYP152A2 can be referred to as fatty acid alpha-hydroxylase.     

X‐ray crystal structure of cytochrome P450 monooxygenase CYP101J2 from Sphingobium yanoikuyae strain B2

The cytochrome P450 monooxygenases (P450s) catalyze a vast array of oxygenation reactions that can be useful in biocatalytic applications. CYP101J2 from Sphingobium yanoikuyae is a P450 that catalyzes the hydroxylation of 1,8‐cineole. Here we report the crystallization and X‐ray structure elucidation of recombinant CYP101J2 to 1.8 Å resolution. The CYP101J2 structure shows the canonical P450‐fold and has an open conformation in the absence of substrate. Analysis of the structure revealed that CYP101J2, in the absence of substrate, forms a well‐ordered substrate‐binding channel that suggests a unique form of substrate guidance in comparison to other bacterial 1,8‐cineole‐hydroxylating P450 enzymes. Proteins 2017; 85:945–950. © 2016 Wiley Periodicals, Inc.     

Importance of the cytochrome P450 monooxygenase CYP52 family for the sophorolipid-producing yeast Candida bombicola

Three cytochrome P450 monooxygenases belonging to the CYP52 family were isolated from the genome of the sophorolipid-producing yeast Candida bombicola using degenerate PCR and genomic walking. One gene displayed high identity with the CYP52E members and was classified into this group ( CYP52E3 ), whereas the other genes belonged to new groups: CYP52M and CYP52N. CYP52E3 and CYP52N1 turned out to be of no relevance for sophorolipid production, but show clear upregulation when the yeast cells are grown on alkanes as the sole carbon source. On the other hand, CYP52M1 is clearly upregulated during sophorolipid synthesis and very likely takes part in sophorolipid formation.     

Toward understanding the inactivation mechanism of monooxygenase P450 BM-3 by organic cosolvents: a molecular dynamics simulation study

Cytochrome P450 BM-3 from Bacillus megaterium is an extensively studied enzyme for industrial applications. A major focus of current protein engineering research is directed to improving the catalytic performance of P450 BM-3 toward nonnatural substrates of industrial importance in the presence of organic solvents or cosolvents. For the latter reason, it is important to study the effect of organic cosolvent molecules on the structure and dynamics of the enzyme, in particular, the effect of cosolvent molecules on the active site's structure and dynamics. In this paper, we have studied, using molecular dynamics (MD) simulations, the F87A mutant of P450 BM-3 in the presence of DMSO as cosolvent, to understand the role of the F87A substitution for its catalytic activity. This mutant exhibits an altered regioselectivity and substrate specificity compared with wild-type; however, it has lower tolerance toward DMSO. The simulation results offer an explanation for the DMSO sensitivity of the F87A mutant. Our simulation results show that the F87 side chain prevents the disturbance of the water molecule bound to the heme iron by DMSO molecules. The absence of the phenyl ring in F87A mutant promotes interactions of the DMSO molecule with the heme iron resulting in water displacement by DMSO at the catalytic heme center.     

棉铃虫不同发育阶段微粒体P450酶系组成和活性的比较

比较了棉铃虫Helicoverpa armigera 6龄幼虫、蛹、成虫微粒体P450单加氧酶系组成及其活性。P450含量在6龄幼虫中肠>（脂肪体=蛹）>成虫,NADPH-细胞色素还原酶在幼虫中肠>幼虫脂肪体>蛹>成虫;6龄幼虫脂肪体微粒体与蛹脂肪体微粒体P450含量相近,但NADPH-细胞色素还原酶活性前者是后者的4.2倍;成虫微粒体的细胞色素P450和NADPH细胞色素P450还原酶含量很低,几乎未检测出。用对-硝基苯甲醚和艾氏剂为底物测定P450酶系活性表明,与6龄幼虫相比,蛹和成虫具有极低的单加氧酶活性,其O-脱甲基酶活性未检出,艾氏剂环氧化酶活性比幼虫低2～3个数量级。     

Purification and characterization of a cytosolic cytochrome P450 from the yeast Trichosporon cutaneum

A soluble cytochrome P450 from the yeast Trichosporon cutaneum was purified to homogeneity, using ammonium sulfate fractionation followed by fast protein liquid chromatography (FPLC) with DEAE-cellulose and phenyl-Sepharose columns. This procedure resulted in a 45-fold increase in specific activity with an activity yield of 6.8%. One- and two-dimensional sodium dodecyl sulfate-polyacrylamide gel electrophoresis showed that the purified enzyme was homogeneous and had a molecular mass of 45 kDa. The purified enzyme contained a heme group and had a characteristic absorption peak at 448 nm in the reduced carbon monoxide difference spectrum. This enzyme was a monomeric protein and catalyzed the conversion of salicylic acid to catechol in the presence of NADH or NADPH. The N-terminal amino acid sequence indicated that the Trichosporon cutaneum cytochrome P450 did not show homology to most eukaryotic cytochromes P450, but had a high degree of homology to one cytochrome P450, the nitric oxide reductase, of Fusarium oxysporum.     

Sunflower cDNA Encoding New Cytochrome P450

The primary structure of the cDNA clone SF28 was determined in sunflower (Helianthus annuusL.) flowers. The clone comprises a 874-bp insert corresponding to 227 amino acid residues of the C-terminal part of the cytochrome P450 gene. The sunflower cytochrome P450 was considerably different from the already known plant and animal cytochromes P450.     

CYTOCHROME P450 MONOOXYGENASES ASSOCIATED WITH PYRETHROID RESISTANCE IN HELICOVERPA ARMIGERA (HÜBNER)

Abstract  The relationship between the cytochrome P-450 (cytP⁴⁵⁰ monooxygenase and insecticide resistance mechanisms in Helicoverpa armigera was studied. The level of cytP450 and activity of p -ni-troanisole ( p -NA) O-demethylase in resistant strain were 1. 71 times and 2. 21 times respectively higher as compared with those of the susceptible strain. Aldrin epoxidase activity showed 1. 35 fold strain difference. Therefore aldrin epoxidase might not be important for H. armigera resistance mechanism, the level of cytP450 and activity of p -NA O-demethylase might play a vital role in H. armigera resistance mechanisms. The reason of different resistance mechanisms among different H. armigera resistant strains is discussed.     

Integrating cell‐free biosyntheses of heme prosthetic group and apoenzyme for the synthesis of functional P450 monooxygenase

Harnessing the isolated protein synthesis machinery, cell‐free protein synthesis reproduces the cellular process of decoding genetic information in artificially controlled environments. More often than not, however, generation of functional proteins requires more than simple translation of genetic sequences. For instance, many of the industrially important enzymes require non‐protein prosthetic groups for biological activity. Herein, we report the complete cell‐free biogenesis of a heme prosthetic group and its integration with concurrent apoenzyme synthesis for the production of functional P450 monooxygenase. Step reactions required for the syntheses of apoenzyme and the prosthetic group have been designed so that these two separate pathways take place in the same reaction mixture, being insulated from each other. Combined pathways for the synthesis of functional P450 monooxygenase were then further integrated with in situ assay reactions to enable real‐time measurement of enzymatic activity during its synthesis. Biotechnol. Bioeng. 2013; 110: 1193–1200. © 2012 Wiley Periodicals, Inc.     

Coexpression in yeast of Taxus cytochrome P450 reductase with cytochrome P450 oxygenases involved in Taxol biosynthesis

To maximize redox coupling efficiency with recombinant cytochrome P450 hydroxylases from yew (Taxus) species installed in yeast for the production of the anticancer drug Taxol, a cDNA encoding NADPH:cytochrome P450 reductase from T. cuspidata was isolated. This single-copy gene (2,154 bp encoding a protein of 717 amino acids) resembles more closely other reductases from gymnosperms (approximately 90% similarity) than those from angiosperms (<80% similarity). The recombinant reductase was characterized and compared to other reductases by heterologous expression in insect cells and was shown to support reconstituted taxoid 10beta-hydroxylase activity with an efficiency comparable to that of other plant-derived reductases. Coexpression in yeast of the reductase along with T. cuspidata taxoid 10beta-hydroxylase, which catalyzes an early step of taxoid biosynthesis, demonstrated significant enhancement of hydroxylase activity compared to that supported by the endogenous yeast reductase alone. Functional transgenic coupling of the Taxus reductase with a homologous cytochrome P450 taxoid hydroxylase represents an important initial step in reconstructing Taxol biosynthesis in a microbial host.     

棉酚和烟碱对棉铃虫的生长和细胞色素P-450单加氧酶活性的影响

以人工饲料添加法测定了 0 5%的棉酚和烟碱对棉铃虫的生长和细胞色素P 4 50单加氧酶 (简称P 4 50酶系 )活性的影响。研究结果显示 ,在测定浓度下 ,高龄棉铃虫短期取食含棉酚和烟碱的人工饲料后 ,对幼虫的生长没有显著影响 ,由此表明 ,棉铃虫对其主要寄主植物中的次生物质棉酚和烟碱具有很好的适应能力。与此同时 ,棉铃虫中肠微粒体P 4 50酶系的蛋白组成和酶活性发生了不同的变化 ,有升有降 ,有的没有变化。棉铃虫可能通过调整P 4 50酶系的各种蛋白含量和酶的活力水平 ,来适应对植物次生物质的代谢解毒的需要。另外 ,棉铃虫取食棉酚和烟碱后 ,细胞色素B5含量均显著提高 ,而细胞色素P 4 50含量均显著降低 ,细胞色素B5在棉铃虫对棉酚和烟碱的解毒代谢中可能发挥着更为重要的作用     

过氧化氢驱动的细胞色素P450酶研究进展

细胞色素P450酶在自然界中广泛存在,能催化多种类型的氧化反应,在有机合成和生物化工方面具有重要的应用潜力。尽管大多数P450酶通常需要辅酶和复杂的电子传递体系协助活化氧分子,一些P450酶也可以利用过氧化氢作为末端氧化剂,这极大地简化了催化循环,为P450酶的合成应用提供了一条新的简便途径。本文系统地介绍了几类过氧化氢驱动的P450酶催化体系,包括脂肪酸羟化酶P450SPα和P450BSβ、脂肪酸脱羧酶P450OleTJE、人工改造的羟化酶P450BM3和P450cam突变体、以及基于底物误识别策略的P450-H2O2体系。通过分析催化反应机制,本文探讨了P450-H2O2催化体系在目前存在的挑战和可能的解决途径,并对其进一步应用前景进行了展望。     

过氧化氢驱动的细胞色素P450酶研究进展

细胞色素P450酶在自然界中广泛存在,能催化多种类型的氧化反应,在有机合成和生物化工方面具有重要的应用潜力。尽管大多数P450酶通常需要辅酶和复杂的电子传递体系协助活化氧分子,一些P450酶也可以利用过氧化氢作为末端氧化剂,这极大地简化了催化循环,为P450酶的合成应用提供了一条新的简便途径。本文系统地介绍了几类过氧化氢驱动的P450酶催化体系,包括脂肪酸羟化酶P450SPα和P450BSβ、脂肪酸脱羧酶P450OleTJE、人工改造的羟化酶P450BM3和P450cam突变体、以及基于底物误识别策略的P450-H2O2体系。通过分析催化反应机制,本文探讨了P450-H2O2催化体系在目前存在的挑战和可能的解决途径,并对其进一步应用前景进行了展望。     

Tomato cytochrome P450 CYP734A7 functions in brassinosteroid catabolism

Several cytochrome P450 monooxygenases (P450s) catalyze essential oxidative reactions in brassinosteroid (BR) biosynthesis as well as in BR catabolism; however, only limited information exists on the P450s involved in the BR catabolic pathway. Here, we report the characterization of two P450 mRNAs, CYP734A7 and CYP734A8, from Lycopersicon esculentum. These P450s show high homology with Arabidopsis CYP734A1/BAS1 (formerly CYP72B1), which inactivates BRs via C-26 hydroxylation. Transgenic tobacco plants that constitutively overexpressed CYP734A7 showed an extreme dwarf phenotype similar to BR deficiency. Quantitative gas chromatography-mass spectrometry analysis of endogenous BRs in the transgenic plants showed that the levels of castasterone and 6-deoxocastasterone significantly decreased in comparison with those in wild-type plants. By measuring the Type I substrate-binding spectra using recombinant CYP734A7, the dissociation constants for castasterone, brassinolide, and 6-deoxocastasterone were determined to be 6.7, 12, and 12 microM, respectively. In an in vitro assay, CYP734A7 was confirmed to metabolize castasterone to 26-hydroxycastasterone. In addition, 28-norcastasterone and brassinolide were converted to the hydroxylated products. The expression of CYP734A7 and CYP734A8 genes in tomato seedlings was upregulated by exogenous application of bioactive BRs. These results indicated that CYP734A7 is a C-26 hydroxylase of BRs and is likely involved in BR catabolism in tomato. The presence of the CYP734A subfamily in various plant species suggests that oxidative inactivation of BRs by these proteins is a widespread phenomenon in plants.     

Productive and non-productive complexes in cytochrome P450-containing systems

The equilibrium dissociation constants K_D, the complex association / dissociation rate constants (k _on /k _off) and lifetimes of the complexes of redox partners were measured for three cytochrome P450-containing monooxygenase systems (P450cam, P450scc, and P450 2B4) under hydroxylation conditions. The Q parameter representing the ratio of protein-protein complex lifetime (τ _lT ) to time required for a single hydroxylation cycle (τ_turnover) was introduced for estimation of productivity of complexes formed within the systems studied. The Q parameter was insignificantly changed upon transition from the oxidation to hydroxylation conditions. Lifetimes (τ _lT ) for the binary complexes formed within the P450cam and the P450scc systems obligatory requiring an intermediate electron transfer protein between the reductase and cytochrome P450 could not realize hydroxylation reactions for substrates with known τ_turnover and so they were non-productive while the binary complexes formed within the P450 2B4 system, not requiring such intermediate electron-transfer protein, appeared to be productive. Formation of ternary complexes was demonstrated under hydroxylation conditions in all three systems. Analysis of Q values led to the conclusion that the ternary complexes formed within the P450cam and the P450scc systems were productive. In the case of the P450 2B4 system, more than half (about 60%) ternary complexes were also found to be productive.