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801.
802.
《Nucleosides, nucleotides & nucleic acids》2013,32(5-7):545-552
Emphasis was placed in this work on the assessment of structural and biological features of nucleobase adducts that result from the reaction of DNA with epoxide derivatives. Thus we have prepared and characterized a set of site-specifically modified oligonucleotides at N7-position of a guanine residue, upon reaction with diepoxibutane, with the purpose of further investigating some of their biochemical features. The stability of the lesion-containing DNA fragments has also been investigated and clearly shows that the latter modified oligomers may be used as substrates for in vitro enzymatic assays, aimed at determining the biological effects within cell of these chemically induced DNA damage. 相似文献
803.
《Biocatalysis and Biotransformation》2013,31(1-4):87-111
Haloperoxidases are enzymes which catalyze the incorporation of halogen atoms into organic molecules. They are found throughout nature, playing a major role in the defence system of many organisms. Their reaction mechanisms as well as their use as catalysts for halogenation and oxidation reactions on laboratory and industrial scales are discussed. Up to now, selective halogenation reactions have only been reported for the chloroperoxidase from Pseudomonas pyrrocinia. The usefulness of the other enzymes is based on their ability to produce hypohalous acid (HOX) in a controllable way, allowing the smooth (yet nonselective) halogenation of electron-rich substrates. On the other hand, it has been shown recently that some haloperoxidases can stereoselectively convert sulfides and alkenes into their corresponding homochiral oxides. Therefore, these enzymes will undoubtedly gain importance in the near future. 相似文献
804.
Corale L. Brierley 《Geomicrobiology journal》2013,30(3-4):201-223
Microorganisms immobilize, mobilize, or transform metals by extracellular precipitation reactions, intracellular accumulation, oxidation and reduction reactions, methylation and demethylation, and extracellular binding and complexation. Nearly all of these microbe/metal interactions occur within the wetlands approach to acid mine drainage treatment, a process that is rapidly gaining support as a low‐maintenance, cost‐effective approach to solving an important environmental problem. Several proprietary processes, which employ nonliving microorganisms that are immobilized in polymer matrixes, are entering the water treatment market. These processes take advantage of negatively charged functional groups on cell walls and exopolymers of microorganisms that bind cationic metals. These biosorbents effectively remove low concentrations (<1 to about 20 mg/L) of heavy metal cations in the presence of high concentrations of alkaline earth metals (Ca2+ and Mg2+) and organic contaminants to levels lower than the U.S. National Drinking Water Standards. Immobilization of the biomass in polymer matrixes yields products that have substantial chemical and mechanical integrity. These immobilized products lend themselves to application in conventionally engineered systems such as up‐flow and down‐flow columns, expanded‐bed systems, dispersed‐bed systems, and low‐maintenance trough systems. Biosorption will probably play an important role in achieving the strict environmental standards now being enforced. 相似文献
805.
Ammonia oxidation by the methane oxidising bacterium Methylococcus capsulatus strain bath 总被引:1,自引:0,他引:1
Soluble extracts of Methylococcus capsulatus (Bath) that readily oxidise methane to methanol will also oxidise ammonia to nitrite via hydroxylamine. The ammonia oxidising activity requires O2, NADH and is readily inhibited by methane and specific inhibitors of methane mono-oxygenase activity. Hydroxylamine is oxidised to nitrite via an enzyme system that uses phenazine methosulphate (PMS) as an electron acceptor. The estimated K
mvalue for the ammonia hydroxylase activity was 87 mM but the kinetics of the oxidation were complex and may involve negative cooperativity.Abbreviations PMS
Phenazine methosulphate
- NADH
nicotinamide adenine dinucleotide, reduced form
-
K
m
Michaelis constant
- NO
2
-
nitrite
- NH2OH
hydroxylamine 相似文献
806.
Eduardo Lissi 《Free radical biology & medicine》1998,24(9):1535-1536
Oxidation of oxyhemoglobin by nitrite ions to produce methemoglobin is one of the more employed procedures to oxidize the hemoprotein. The process takes place readily after a clear induction time. This behaviour is usually explained in terms of an autocatalytic reaction mechanism. However, the generally accepted mechanism is not autocatalytic and cannot explain the main features of the process. In the present work it is proposed that the characteristics of the process require the occurrence of a fast reaction between oxyhemoglobin and nitrogen dioxide. This process acts as a branching step, leading to the observed autocatalysis. 相似文献
807.
豌豆幼苗叶片线粒体中,Gly,Mal和Isocit的氧化速率均受光促进。Gly的氧化抑制Mal和Isocit的氧化,而其本身不受影响。用INH抑制Gly氧化或提高NAD~+浓度均会降低其抑制程度。线粒体氧化Gly,Mal和Isocit的K_m(NAD~+)分别为66.67,119.1μmol/L和152.2μmol/L。Gly抑制Mal和Isocit氧化是由于Gly氧化在竞争NAD~+中占优势。 相似文献
808.
Using bioluminescence assays for glycerol, free fatty acids, β-hydroxybutyrate and lactate, we were able to perform complex studies of human energy and lipid metabolism both in serum samples in vivo and in isolated fat cells in vitro. These studies would have been impossible without reliable, specific and highly sensitive luminescence methods. Oxidatively modified low density lipoprotein (LDL) has been implicated in the pathogenesis of atherosclerosis. Adaptation of a chemiluminescence assay for lipid hydroperoxides to LDL isolated by specific precipitation from serum makes it possible to measure LDL oxidation in vivo. Cell dependent chemiluminescence was used to investigate whether receptor mediated endocytosis of LDL by macrophages leads to oxygen radical production in these cells. No activation of the membrane NAD(P)H oxidase was observed. 相似文献
809.
810.
Abstract Starved cells of cadmium-sensitive Staphylococcus aureus 17810S accumulated 109 Cd via the Mn2+ porter energized by the membrane potential (ΔΨ) generated by l-lactate oxidation. However, Cd2+ accumulation did not result in inhibition of respiration and consequent generation of electrochemical proton gradient (ΔμH+ ) via the respiratory chain. Thus, ΔμH+ -consuming processes, such as ATP synthesis and [14 C]glutamate transport proceeded normally, despite the presence of Cd2+ in the cytoplasm. The mechanism of the intrinsic cadmium-insensitivity of the l-lactate oxidizing system is discussed. 相似文献