The fungus Nectria haematococca, a pathogen of garden pea (Pisum sativum), can demethylate pisatin, an antimicrobial compound synthesized by infected pea tissue. The phenolic product is less toxic than pisatin to many microorganisms. Cell extracts catalyzing pisatin demethylation were obtained from N. haematococca, and the properties of the reaction were examined. The enzyme activity was greatest in the high-speed pellet fraction, in which rates up to 20 nmol/min/mg protein were observed. The Km for pisatin was relatively low, less than 5 μm. The reaction was dependent on NADPH, which could not be replaced by any other cofactor tested. However, in the presence of NADPH, NADH increased the rate of demethylation. Oxygen uptake by the enzyme was stimulated by addition of pisatin, the increment of oxygen utilization being approximately equimolar with pisatin added. Formaldehyde was a product of the reaction. The effects of various inhibitors were tested to determine whether this reaction is mediated by cytochrome P-450. The respiratory inhibitors KCN (1 mm) and antimycin A strongly inhibited the demethylation of pisatin by intact cells of the fungus, but not by the NADPH-supplemented enzyme. The cytochrome P-450 inhibitors SKF 525-A and 1-(2-isopropylphenyl)imidazole inhibited demethylation both in whole cells and in the enzyme preparation, though the latter compound was effective only at high concentrations. Most other cytochrome P-450 inhibitors tested had little effect. However the reaction was quite sensitive to CO, and this inhibition was readily reversed by light at wavelengths near 450 nm. It is concluded that pisatin demethylase is a cytochrome P-450 monooxygenase. 相似文献
Feeding experiments with dl-phenylalanine-[1-14C] have demonstrated the de novo synthesis of the pterocarpan phytoalexins demethylhomopterocarpin and maackiain in CuCl2-treated Trifolium pratense L. seedlings. 2′,4′,4-Trihydroxychalcone-[carbonyl-14C] and 7-hydroxy-4′-methoxyisoflavone-[methyl-14C] (formononetin) were readily incorporated into demethylhomopterocarpin and maackiain, but 2′,4′-dihydroxy-4-methoxychalcone-[carbonyl-14C] and 7,4′-dihydroxyisoflavone-[T] (daidzein) proved inefficient precursors. The trihydroxychalcone was also an excellent precursor of formononetin in T. pratense, but the trihydroxymethoxychalcone and daidzen were poorly incorporated. These observations offer further evidence that methylation may be an associated part of the mechanism for aryl migration in the biosynthesis of formononetin. 相似文献
Microorganisms that biosynthesize broad-specificity oxygenases to initiate metabolism of linear and branched-chain alkanes, nitroalkanes, cyclic ketones, alkenoic acids, and chromenes were surveyed for the ability to biodegrade trichloroethylene (TCE). The results indicated that TCE oxidation is not a common property of broad-specificity microbial oxygenases. Bacteria that contained nitropropane dioxygenase, cyclohexanone monooxygenase, cytochrome P-450 monooxygenases, 4-methoxybenzoate monooxygenase, and hexane monooxygenase did not degrade TCE. However, one new unique class of microorganisms removed TCE from incubation mixtures. Five Mycobacterium strains that were grown on propane as the sole source of carbon and energy degraded TCE. Mycobacterium vaccae JOB5 degraded TCE more rapidly and to a greater extent than the four other propane-oxidizing bacteria. At a starting concentration of 20 microM, it removed up to 99% of the TCE in 24 h. M. vaccae JOB5 also biodegraded 1,1-dichloroethylene, trans-1,2-dichloroethylene, cis-1,2-dichloroethylene, and vinyl chloride. 相似文献
Highlights? Structural features of 2OG oxygenases involved in substrate recognition are analyzed. ? Crystallographic studies reveal the versatility of the jelly roll fold in substrate binding. ? Defined structural regions that interact with substrate(s) are biased by fold topology. ? The utility of the enzyme–substrate structures for engineering and selective inhibition are discussed. 相似文献
Heme oxygenases (HOs), essential enzymes for heme metabolism, play an important role in the defense against oxidative stress. In this study, we evaluated the expression and functional significance of HO-1 and HO-2 in the ventilatory muscles of normal rats and rats injected with bacterial lipopolysaccharide (LPS). Both HO-1 and HO-2 proteins were detected inside ventilatory and limb muscle fibers of normal rats. Diaphragmatic HO-1 and HO-2 expressions rose significantly within 1 and 12 h of LPS injection, respectively. Inhibition of the activity of inducible nitric oxide synthase (iNOS) in rats and absence of this isoform in iNOS(-/-) mice did alter sepsis-induced regulation of muscle HOs. Systemic inhibition of HO activity with chromium mesoporphyrin IX enhanced muscle protein oxidation and hydroxynonenal formation in both normal and septic rats. Moreover, in vitro diaphragmatic force generation declined substantially in response to HO inhibition both in normal and septic rats. We conclude that both HO-1 and HO-2 proteins play an important role in the regulation of muscle contractility and in the defense against sepsis-induced oxidative stress. 相似文献
The sterol composition of two ascomycetous fungi, Saccharomyces cerevisiae and Gibberella fujikuroi, was examined by chromatographic (TLC, GLC, and HPLC) and spectral (MS and 1H-NMR) methods. Of notable importance was that both fungi produced cholesterol and a homologous series of long chain fatty alcohols (C22 to C30). In addition to ergosterol two novel sterols, ergosta-5,7, 9(11), 22-tetraenol and ergosterol endoperoxide, were isolated as minor compounds in growth-arrested cultures of yeast and in mycelia of G. fujikuroi. 24-Ethylidenelanosterol was also detected in mycelia of G. fujikuroi. A shift in sterol biosynthesis was observed by treatment with 24 (RS), 25-epiminolanosterol (an inhibitor of the S-adenosylmethionine C-24 transferase) and by monitoring the sterol composition at various stages of development. The results are interpreted to imply that the genes for 24-desalkyl, e.g., cholesterol, and 24-alkyl sterols, e.g., 24 beta- methyl cholesterol and 24-ethyl cholesterol, are distributed (but not always expressed) generally throughout the fungi but the occurrence of one or another compounds is influenced by the fitness (structure and amount) for specific sterols to act functionally during fungal ontogeny; sterol fitness is coordinated with Darwinian selection pressures. 相似文献
