Separate monophenolase and o-diphenolase enzymes in Triticum aestivum

Monophenolase and o-diphenolase activities of polyphenol oxidase are usually thought to be a part of the same enzyme complex. It has now been demonstrated that the two catalytic activities of the polyphenol oxidase of wheat grains are separable and reside in different enzymes. The electrophoretically separated monophenolase enzyme showed specificity only for monophenol (l-tyrosine) after its elution from acrylamide gels. Further, this enzyme is confined to the endosperm tissue and is undetectable in the embryonic region of the seedling.     

Quantitation and Characterization of CytochromecOxidase in Complex Systems

Quantitation of cytochromecoxidase in complex systems such as tissue homogenates is often hampered by the presence of other hemoproteins. Cyanide can bind to reduced cytochromecoxidase from diverse sources with a dissociation constant in the range of 0.1–0.5 mM and induces a characteristic optical change. This contrasts with the very weak binding of cyanide to reduced forms of many other hemoproteins, including hemoglobin and myoglobin. Hence, difference spectra of cyanide binding to reduced samples can provide an improved method to resolve and quantitate cytochromecoxidase. In addition, the cyanide compound of cytochromecoxidase is photolabile. This property can be exploited to further enhance the sensitivity of detection and analysis of cytochromecoxidase.     

On the catalytic role of the active site residue E121 of E. colil-aspartate oxidase

l-aspartate oxidase (LASPO) is a flavoenzyme catalyzing the first step in the de novo biosynthesis of NAD⁺. The enzyme oxidizes l-aspartate both under aerobic and anaerobic conditions using oxygen as well as fumarate as electron acceptor.     

Molecular weights of glycollate oxidase from C3 and C4 plants determined during early stages of purification

The M_rs of glycollate oxidase (EC 1.1.3.1) (GAO) determined soon after extraction from the leaves of several C₃ and C₄ plants are reported. The enzyme isolated from the C₃ plants wheat, barley, spinach, pea and tobacco has M_r in the range 160–180 000 and is probably a homotetramer. GAO purified from pea was previously reported as a dimer and as an octamer from spinach leaves. Therefore the quaternary structure of these GAOs soon after extraction differs from that of the purified proteins. The enzymes from the C₄ plants maize and sugar cane have M_rs ca twice this value in the range 290–310 000, whilst that of the C₄ grass Panicum maximum has an M_r of 162 000. An improved spectrophotometric assay for GAO, using a non-carcinogenic dye, is described.     

植物乳杆菌源胺氧化酶的异源表达及功能结构分析

【目的】生物胺是一类广泛存在发酵食品中潜在有害物质,可被胺氧化酶分解。本研究对来源于乳酸菌的胺氧化酶的酶学性质及其降生物胺能力进行了探究。【方法】本研究在大肠杆菌中异源表达了植物乳杆菌中多铜氧化酶基因SufI,经过优化表达条件与纯化重组酶后,分析了该酶的最适反应条件、酶稳定性、降生物胺能力、光谱与结构特性。【结果】重组酶的最适pH值为3.5,最适温度为20℃,在pH 4.0–10.0或15–65℃的条件下,相对酶活力保持在70%以上。重组酶具有较好的稳定性,酶活不受乙醇等抑制剂的影响。在8种生物胺的混合体系内,重组酶对生物胺总量的降解量可达403.23μg/mL,其中对酪胺的降解量最多,超过70μg/mL (34.99%)。在单一生物胺体系内,重组酶对酪的底物亲和性较高,酶活可达18.33U/mL。紫外-可见扫描光谱显示酶蛋白在600 nm处有多铜氧化酶家族特征吸收峰,傅里叶红外光谱解析酰胺Ⅰ带中α螺旋、β折叠、β转角和无规则卷曲的相对含量分别为21.52%、20.72%、33.80%和23.97%。同源建模预测该酶具有3个铜结合域,且含有组氨酸、半胱氨酸、甲硫氨酸和谷氨酸等铜配体结合...     

Stereochemistry of reactions catalysed by l-lysine decarboxylase and diamine oxidase

The decarboxylation of l-lysine to yield cadaverine, catalysed by l-lysine decarboxylase (EC 4.1.1.18) takes place with retention of configuration. In the course of the dehydrogenation of cadaverine by diamine oxidase (EC 1.4.3.6) from pea seedlings, the pro-S-hydrogen is labilized.     

A 1H-NMR longitudinal relaxation study of the interaction between cytochrome c and cytochrome c oxidase

The interaction between the oxidized forms of cytochrome c and cytochrome c oxidase (EC 1.9.3.1) has been investigated by ¹H-NMR longitudinal relaxation measurements. It is found that relaxation of methyl groups on the heme ring of cytochrome c markedly deviates from a simple exponential behavior in the presence of small amounts of cytochrome oxidase. A comparison with the relaxation behavior of cytochrome c modified by 4-carboxy-3,5-dinitrophenyl at Lys-13 shows that the oxidase induces a conformation in native cytochrome c that is closely related to that of the derivative. It is suggested that this change in conformation consists of a rupture of the salt bridge between Lys-13 and Glu-90 and a concomitant perturbation of the methionine ligand.     

Characterization of the in vitro binding and inhibition kinetics of primary amine oxidase/vascular adhesion protein-1 by glucosamine

Background

Primary-amine oxidase (PrAO) catalyzes the oxidative deamination of endogenous and exogenous primary amines and also functions, in some tissues, as an inflammation-inducible endothelial factor, known as vascular adhesion protein-1. VAP-1 mediates the slow rolling and adhesion of lymphocytes to endothelial cells in a number of inflammatory conditions, including inflammation of the synovium.

Methods

Glucosamine binding to the enzyme was assessed spectrofluorometrically and the kinetics of inhibition of PrAO were determined spectrophotometrically through the use of direct or coupled assays, in the presence of different substrates.

Results

Glucosamine is not a substrate for PrAO, but acts as a time-dependent inhibitor of PrAO activity, displaying mixed inhibition kinetics. The observed inhibition and binding were augmented in the presence of H₂O₂.

Conclusions

Significant in vitro effects on PrAO require glucosamine in the millimolar concentration range and it is not clear at this stage whether a low but persistent level of PrAO inhibition might contribute to the anti-arthritic response.

General significance

This work was aimed at characterizing the interactions of PrAO/VAP-1 with glucosamine, a widely used “over-the-counter” supplement for the treatment of osteoarthritis.     

Characterization of amine oxidases from pisum, lens, Lathyrus and Cicer

Amine oxidases have been purified to homogeneity from Pisum sativum, Lens esculenta, Lathyrus sativus and Cicer arietinum. The enzymes have a M_r. of 150 000 and are composed of two identical subunits of 72 000. The amine oxidases showed an isoelectrophoretic heterogeneity.     

Activity studies of glucose oxidase immobilized onto poly(N-vinylimidazole) and metal ion-chelated poly(N-vinylimidazole) hydrogels

Poly(N-vinylimidazole), PVIm, gels were prepared by γ-irradiation polymerization of N-vinylimidazole in aqueous solutions. These affinity gels with a water swelling ratio of 1800% for plain polymeric gel and between 30 and 80% for Cu(II) and Co(II)-chelated gels at pH 6.0 in phosphate buffer were used in glucose oxidase (GOx) adsorption–desorption studies. Different amounts of Cu(II) and Co(II) ions (maximum 3.64 mmol/g dry gel for Cu(II) and 1.72 mmol/g dry gel for Co(II)) were loaded onto the gels by changing the initial concentration of Cu(II) and Co(II) ions, and pH. GOx adsorption on these gels from aqueous solutions containing different amount of GOx at different pH was investigated in batch reactors. Immobilized glucose oxidase activity onto the poly(N-vinylimidazole), and Cu(II) and Co(II)-chelated poly(N-vinylimidazole) were investigated with changing pH and the initial glucose oxidase concentration. Maximum activity of immobilized glucose oxidase onto the PVIm, Cu(II) and Co(II)-chelated PVIm gels was investigated and pH dependence was observed to be at pH 6.5 for free enzyme, pH 7.0 for PVIm, pH 7.5 for Cu(II) and Co(II)-chelated PVIm gels, respectively. The stability of the immobilized enzyme is very high for all gels and the residual activity was higher than 93% in the first 10 days.     

Schistosoma mansoni: Tyrosine,a putative in vivo substrate of phenol oxidase

l-Tyrosine, l-[3,4]dihydroxyphenylalanine (l-DOPA), and dopamine are known to be in vitro substrates for Schistosoma mansoni phenol oxidase. Since all three compounds are present in the female schistosome, it is not clear which one serves as the substrate for phenol oxidase in intact S. mansoni. However, the concentration of l-tyrosine in the female schistosome (252 ng/mg worm) is 4-fold higher than the K_m of phenol oxidase for this amino acid while the concentrations of l-DOPA and dopamine (0.954 and 0.790 ng/mg worm, respectively) are 100- and 500-fold lower than the K_m of these substrates. Tri-l-tyrosine methyl ester is oxidized at less than 3% of the rate of l-tyrosine methyl ester. A tyrosine:lysine peptide and chymotrypsinogen are not oxidized. Female S. mansoni do not incorporate l-tyrosine into proteins to a significantly greater extent than l-leucine. The results suggest that free l-tyrosine is the substrate for S. mansoni phenol oxidase in vivo.     

Cytogenetic analysis of chromosome region 89A of Drosophila melanogaster: isolation of deficiencies and mapping of Po, Aldox-1 and transposon insertions

Summary We have initiated a cytogenetic analysis of chromosome region 89A of Drosophila melanogaster by isolating a set of radiation-induced mutations causing loss of function of P[(w)B]1-1, a transposon bearing the white locus inserted in 89A. Complementation tests and cytological examination of these chromosomes identified four new deficiencies (Df(3R)Po ², Df(3R)Po ³, Df(3R)Po ⁴ and Df(3R)c(3)G ² ). The new deficiencies and three previously identified deficiencies (Df(3R)sbd ²⁶, Df(3R)sbd ⁴⁵ and Df(3R)sbd ¹⁰⁵) were tested for the ability to complement mutations in the enzyme loci Po and Aldox-1, the indirect flight muscle genes Tm2 and act88F, the morphological mutations jvl, sbd ² and Sb, the vital loci srp, pnr and mor, and a newly described vital locus l(3)89Aa. We also used linkage analysis to determine the order and relative positions of P[(w)B]1-1 and an independent transposon insertion, P[w⁺]21, with respect to cv-c, Po, Aldox-1 and sbd ². Cytological examination of the deficiencies and analysis of the transformed lines by in situ hybridization permits the correlation of genetically defined regions with specific polytene chromosome bands. A revised cytogenetic map of the 8817–8913 region is presented.     

Offline glucose biomonitoring in yeast culture by polyamidoamine/cysteamine-modified gold electrodes

This article deals with the use of pyranose oxidase (PyOx) and glucose oxidase (GOx) enzymes in amperometric biosensor design and their application in monitoring fermentation processes with the combination of flow injection analysis (FIA). The amperometric studies were carried out at -0.7 V by following the oxygen consumption due to the enzymatic reactions for both batch and FIA modes. Optimization studies (enzyme amounts and pH) and analytical parameters such as linearity, repeatability, effect of interference, storage, and operational stabilities have been studied. Under optimized conditions, for the PyOx-based biosensor, linear graph was obtained from 0.025 to 0.5 mM glucose in phosphate buffer (50 mM) at pH 7.0 with the equation of y = 3.358x + 0.028 and R(2) = 0.998. Linearity was found to be 0.01-1.0 mM in citrate buffer (50 mM and pH 4.0) with the equation of y = 1.539x + 0.181 and R(2) = 0.992 for the GOx biosensor. Finally, these biosensor configurations were further evaluated in a conventional flow injection system. Results from batch experiments provide a guide to design sensitive, stable, and interference-free biosensors for FIA mode. Biosensor stability, dynamic range, and repeatability were also studied in FIA conditions, and the applicability for the determination of glucose in fermentation medium could be successfully demonstrated. The FIA-combined glucose biosensor was used for the offline monitoring of yeast fermentation. The obtained results correlated well with HPLC measurements.     

Reactions of mercaptans with cytochrome c oxidase and cytochrome c

1. The steady-state oxidation of ferrocytochrome c by dioxygen catalyzed by cytochrome c oxidase, is inhibited non-competitively towards cytochrome c by methanethiol, ethanethiol, 1-propanethiol and 1-butanethiol with K_i values of 4.5, 91, 200 and 330 μM, respectively.2. The inhibition constant K_i of ethanethiol is found to be constant between pH 5 and 8, which suggests that only the neutral form of the thiol inhibits the enzyme.3. The absorption spectrum of oxidized cytochrome c oxidase in the Soret region shows rapid absorbance changes upon addition of ethanethiol to the enzyme. This process is followed by a very slow reduction of the enzyme. The fast reaction, which represents a binding reaction of ethanethiol to cytochrome c oxidase, has a k₁ of 33 M^?1 · s^?1 and dissociation constant K_d of 3.9 mM.4. Ethanethiol induces fast spectral changes in the absorption spectrum of cytochrome c, which are followed by a very slow reduction of the heme. The rate constant for the fast ethanethiol reaction representing a bimolecular binding step is 50 M^?1 · s^?1 and the dissociation constant is about 2 mM. Addition of up to 25 mM ethanethiol to ferrocytochrome c does not cause spectral changes.5. EPR (electron paramagnetic resonance) spectra of cytochrome c oxidase, incubated with methanethiol or ethanethiol in the presence of cytochrome c and ascorbate, show the formation of low-spin cytochrome a₃-mercaptide compounds with g values of 2.39, 2.23, 1.93 and of 2.43, 2.24, 1.91, respectively.     

Induction of glycolate oxidase by SO2 in Nicotiana tabacum

In contrast to the inhibitory action of sulfite on glycolate oxidase, the specific activity of the enzyme in tobacco leaves exposed to SO₂ for 18 hr increases in proportion to the SO₂ concentration. This increase is strongly reduced by pretreatment with cycloheximide. As a consequence of induced de novo synthesis of glycolate oxidase the glycolate content of the leaves is markedly reduced after 18 hr exposure to SO₂.     

Melanin biosynthesis during differentiation of Physarum polycephalum

Melanin synthesis in the myxomycete Physarum polycephalum occurs during sporulation but not during spherule formation. Melanin-like pigment was extracted from spores. An almost identical substance of polyphenols was extracted from spherules and characterized by its ultraviolet and infrared absorbance spectra. Polyphenol oxidase activity in spherules was very low and showed only one weak isoenzyme band in isoelectric focusing polyacrylamide gels. A much higher activity, and an increasing number of isoenzymes, were detected in sporulating cultures after illumination during the differentiation process. The addition of melanin precursors resulted in the synthesis of brownish-yellow spherules, probably containing dopachrome, whereas the addition of polyphenol oxidase inhibitors resulted in yellow sporangia. The results indicate that melanin synthesis is probably only a stage in maturation but not an essential part of the morphogenetic process itself.     

Mechanism-based inactivators of plant copper/quinone containing amine oxidases

Copper/quinone amine oxidases contain Cu(II) and the quinone of 2,4,5-trihydroxyphenylalanine (topaquinone; TPQ) as cofactors. TPQ is derived by post-translational modification of a conserved tyrosine residue in the protein chain. Major advances have been made during the last decade toward understanding the structure/function relationships of the active site in Cu/TPQ amine oxidases using specific inhibitors. Mechanism-based inactivators are substrate analogues that bind to the active site of an enzyme being accepted and processed by the normal catalytic mechanism of the enzyme. During the reaction a covalent modification of the enzyme occurs leading to irreversible inactivation. In this review mechanism-based inactivators of plant Cu/TPQ amine oxidases from the pulses lentil (Lens esculenta), pea (Pisum sativum), grass pea (Lathyrus sativus) and sainfoin (Onobrychis viciifolia,) are described. Substrates forming, in aerobiotic and in anaerobiotic conditions, killer products that covalently bound to the quinone cofactor or to a specific amino acid residue of the target enzyme are all reviewed.