The Hydroxyl Radical Generated by an Iron(II)/EDTA/Ascorbate System Preferentially Attacks Tryptophan Residues of the Protein

Iron(II)/EDTA/ascorbate-mediated oxidative damage to specific amino acid residues (tryptophan) of serum albumin was studied. The active species generated by Fe(II)/EDTA/ascorbate preferred to react with tryptophan residues rather than histidine or other amino acids. The observation of preferential damage to tryptophan residues of the protein was fully suported by a model experiment using a tryptophan analogue. The reaction of Fe(II)/EDTA/ascorbate to the protein was significantly suppressed by mannitol and dimethysulfoxide, suggesting the participation of the hydroxyl radical generated via Fenton’s reaction. The result was supported by the hydroxyl radical assay using 2-deoxyribose.     

Biotransformation of polychlorinated dibenzo-<Emphasis Type="Italic">p</Emphasis>-dioxin by <Emphasis Type="Italic">Coprinellus</Emphasis> species

A degradation experiment on dibenzo-p-dioxin (DD) and 2,7-dichlorodibenzo-p-dioxin (2,7-DCDD) was carried out using basidiomycetous fungi belonging to the genera Coprinus, Coprinellus, and Coprinopsis. Some species showed a high rate of decrease in DD for the 2-week test period. Among them, Coprinellus disseminatus showed the highest ability to decrease the DD level, close to 100% by the end of 2 weeks. Further examination showed that Coprinellus disseminatus and Coprinellus micaceus, belonging to the genus Coprinellus, were able to metabolize 2,7-DCDD to a monohydroxylated compound, probably mediated by the P450 system. The metabolism of chlorinated DD by fungi capable of living in soil conditions is reported here for the first time.     

Glutathione Oxidase from Bovine Skim Milk Membranes: Its Copurification with γ-Glutamyltransferase

Two hundred thirteen cytochrome P450 (P450) genes were collected from bacteria and expressed based on an Escherichia coli expression system to test their hydroxylation ability to testosterone. Twenty-four P450s stereoselectively monohydroxylated testosterone at the 2α-, 2β-, 6β-, 7β-, 11β-, 12β-, 15β-, 16α-, and 17-positions (17-hydroxylation yields 17-ketoproduct). The hydroxylation site usage of the P450s is not the same as that of human P450s, while the 2α-, 2β-, 6β-, 11β-, 15β-, 16α-, and 17-hydroxylation are reactions common to both human and bacterial P450s. Most of the testosterone hydroxylation catalyzed by bacterial P450s is on the β face.     

Toluene monooxygenase from the fungus Cladosporium sphaerospermum

Assimilation of toluene by Cladosporium sphaerospermum is initially catalyzed by toluene monooxygenase (TOMO). TOMO activity was induced by adding toluene to a glucose-pregrown culture of C. sphaerospermum. The corresponding microsomal enzyme needed NADPH and O(2) to oxidize toluene and glycerol, EDTA, DTT, and PMSF for stabilization. TOMO activity was maximal at 35 degrees C and pH 7.5 and was inhibited by carbon monoxide, Metyrapone, and cytochrome c. TOMO preferred as substrates also other aromatic hydrocarbons with a short aliphatic side chain. Its reduced carbon monoxide difference spectrum showed a maximum at 451 nm. A substrate-induced Type I spectrum was observed on addition of toluene. These results indicated that TOMO is a cytochrome P450. TOMO and its corresponding reductase were eventually purified by a simultaneous purification revealing apparent molecular masses of 58 and 78 kDa, respectively.     

Two-step concerted mechanism for alkane hydroxylation on the ferryl active site of methane monooxygenase

 A two-step concerted mechanism for the conversion of methane to methanol catalyzed by soluble methane monooxygenase (sMMO) is discussed. We propose that the enzymatic reaction mechanism is essentially the same as that of the gas-phase methane-methanol conversion by the bare FeO⁺ complex. In the initial stage of our mechanism, the ferryl (Fe—O) "iron" active site of intermediate Q and substrate methane come into contact to form the initial Q (CH₄) complex with an OFe—CH₄ bond. The C—H bonds of methane are significantly weakened by the formation of a five-coordinate carbon species, through orbital interactions between a C _3v - or D _2d -distorted methane and the Fe—O active site. The important transition state for an H atom abstraction exhibits a four-centered structure. The generated intermediate involves an HO—Fe—CH₃ moiety, and it is then converted into the final product complex including methanol as a ligand through a methyl migration that occurs via a three-centered transition state. The two-step concerted mechanism is consistent with recent experiments on regioselectivity of enzyme-catalyzed alkane hydroxylations. Received: 15 September 1997 / Accepted: 20 December 1997     

植物三萜皂苷生物合成中关键后修饰酶研究进展

三萜皂苷是由三萜苷元、糖基、糖醛酸等组成的C30萜类化合物,是许多药用植物的主要活性成分,具有广泛的药理作用。三萜皂苷的生物合成包括前体和三萜皂苷骨架的形成以及调控皂苷结构多样性的后修饰。三萜皂苷的后修饰包括三萜骨架的氧化/羟基化和糖基化,分别由不同超基因家族编码的细胞色素P450单加氧酶和糖基转移酶进行催化。三萜皂苷通过后修饰最终可形成多种单体皂苷。目前,已在少数植物中识别和确认了个别与三萜皂苷生物合成相关的关键后修饰酶,发现了部分很可能参与后修饰过程的候选基因。该文就近年来国内外有关三萜皂苷生物合成途径关键后修饰酶的研究进行综述,为进一步开展相关研究和对合成精细途径的解析提供参考。     

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).     

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.     

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。     

Mutagen Formation in the Reaction of Nitrite with the Food Components Analogous to Sorbic Acid

Mutagen formation by the reaction of sodium nitrite with some sorbic acid analogs was investigated by using the microbial mutagenicity tests (rec-assay and Ames test) together with chemical examination using TLC, and it became clear that the conjugated dienoic carbonyl structure is essential for mutagen formation by the reaction with nitrite By a large scale reaction of sodium nitrite with sorbic acid methyl ester, 5-nitro-2,4-hexadienoic acid methyl ester and ethylnitrohc acid were isolated and identified as the mam mutagens The results led to the assumption that a nitro group adjacent to the double bond is an important factor to develop mutagenicity     

Entrapment of cytochrome P450 BM-3 in polypyrrole for electrochemically-driven biocatalysis

In vitro biocatalysis with cytochrome P450 BM-3 was investigated aiming for the substitution of the expensive natural cofactor NADPH by electrochemistry. The monooxygenase was immobilized on electrodes by entrapment in polypyrrole as a conductive polymer for electrochemically wiring the enzyme. Electropolymerization of pyrrole proved to be a useful means of immobilising an active cytochrome P450 BM-3 mutein on platinum and glassy carbon electrodes without denaturation. Repeatedly sweeping the electric potential between −600 and +600 mV versus Ag/AgCl led to enzymatically-catalysed product formation while in the absence of the enzyme no product formed under otherwise identical conditions.     

金龟子绿僵菌原生质体的制备和再生及其羟化酶活性研究

对金龟子绿僵菌(Metarhizium anisopliae)原生质体的制备和再生的影响因素进行实验,并在此基础上考察了甾体底物对原生质体羟化酶的诱导作用。结果表明,原生质体制备的合适条件是:42 h的菌丝体用纤维素酶(10 mg/mL)和蜗牛酶(5 mg/mL)的混合酶在含有0.8 mol/L甘露醇的pH 5.8磷酸缓冲液中,28℃震荡(80 r/min)酶解3 h,原生质体产量可达到6.12×10~7/mL,在含有0.6 mol/L KCl的双层马铃薯培养基上再生率达到7.79%。经过6 h底物诱导的菌丝体制备的原生质体细胞色素P450的表达量比没经过诱导的菌丝体制备的原生质体高约40%,证明该菌羟化酶系统的可诱导性。由于没有细胞壁的阻碍经过底物诱导的原生质体能够高效的将底物转化为产物,且副产物相对较少。