Treatment of rice straw with selected Cyathus stercoreus strains to improve enzymatic saccharification

Seventeen Cyathus stercoreus isolates were tested for their ability to treat rice straw for improved enzymatic saccharification. These isolates showed a negative correlation between cellulase and xylanase activity and enzymatic saccharification yields. Incubation of rice straw pretreated at 60 °C for 15 min with strain C. stercoreus TY-2 for 25 days resulted in an enzymatic saccharification yield of 57% as compared to a yield of 11% for the same straw in the absence of the fungus. These findings highlight the potential of this isolate for biological pretreatment of rice straw under conditions of low energy input.     

低温光照下与黄瓜子叶叶绿素降低有关的酶促反应

黄瓜子叶在低温光照下处理时,随着时间的延长,Chl含量和CAT活性显著下降,POD和AsA-POD在开始24h活性亦有下降趋势,随后POD活性显著增加,而AsA-POD活性仅稍有提高。Chl含量的减少和CAT活性降低之间呈正相关,与POD活性的增加呈负相关。低温、光照处理的黄瓜子叶内Chl的降低可被亚胺环己酮(CHM)延缓,被AsA、Vit E、没食子酸丙酯(PG)和DCMU抑制,但被H_2O_2,乙醇酸钠和甲基紫精(MV)加速。     

Improvements to enhanced horseradish peroxidase detection sensitivity

At very low horseradish peroxidase (HRP) concentrations, the enhanced chemiluminescence reaction is often characterized by a lag time between initiation of the reaction and beginning of light output. In this study, four treatments of luminol solution were examined in an effort to remove the lag time and to improve chemiluminescence light output. Addition of ammonium persulphate stimulated light output more than tenfold. Ultraviolet irradiation and photoactive dye pretreatment of luminol solution both increased light output fourfold. Luminol purity was the most important factor affecting detection sensitivity. Recrystallization of luminol from base improved the detection limit 13-fold although there was an improvement in the detection limit from 13 attomoles per millilitre to 5 attomoles per millilitre with highly purified luminol when photoactive dye pretreatment was utilized. The results are consistent with a simple interference mechanism whereby enhancer radicals produced by the enzyme are preferentially quenched by contaminants present in the luminol, in the enhancer and in the solvent used to dissolve the enhancer. Consumption of these interferences prior to light emission results in a lag time and a less favourable HRP detection limit.     

Salivary peroxidase (SAPX): Genetic modification and relationship to the proline-rich (Pr) and acidic (Pa) proteins

There is genetic polymorphism of the peroxidase of human saliva, but not of leukocytes. The phenotypes are determined by autosomal inheritance, the phenotype of fast mobility (SAPX 1) being determined by homozygosity for a recessive gene (SAPX ¹) and the phenotypes of slow mobility (SAPX 2 and SAPX 3) being determined by two different genes, SAPX ² and SAPX ³, with completely dominant expression at the same locus. The phenotypes are modified by varying degrees of endogenous proteolysis. The SAPX 2 and SAPX 3 types appear to be genetically controlled modifications of SAPX 1 rather than different primary gene products, because of their completely dominant inheritance, their larger molecular size compared to SAPX 1, and their dissociation with 2-mercaptoethanol to give SAPX 1. The acidic protein type Pa 1 is always found in association with SAPX 2, and an uncommon variant type Pa 2 is associated with SAPX 3. The most likely hypothesis is that the genes Pa ¹ and Pa ² produce products which modify the SAPX 1 type. When the Pa type is Pa 0, the SAPX phenotype is SAPX 1. Since 2-mercaptoethanol can dissociate the Pa 1 protein into a probable monomeric form, and can dissociate SAPX 2 and SAPX 3 to give SAPX 1, it is probable that Pa 1 and Pa 2 monomers complex with SAPX 1 through disulfide bonds to give SAPX 2 or SAPX 3 types. The frequencies of the genes determining the SAPX types are the same as those for Pa: SAPX ¹ and Pa ⁰=0.787, SAPX ² and Pa ¹=0.208, SAPX ³ and Pa ²=0.005.This study was supported by a grant from the National Institutes of Dental Research (2-RO1-DE-03658-11).     

Heme-protein covalent bonds in peroxidases and resistance to heme modification during halide oxidation

Plant peroxidases, as typified by horseradish peroxidase (HRP), primarily catalyze the one-electron oxidation of phenols and other low oxidation potential substrates. In contrast, the mammalian homologues such as lactoperoxidase (LPO) and myeloperoxidase primarily oxidize halides and pseudohalides to the corresponding hypohalides (e.g., Br(-) to HOBr, Cl(-) to HOCl). A further feature that distinguishes the mammalian from the plant and fungal enzymes is the presence of two or more covalent bonds between the heme and the protein only in the mammalian enzymes. The functional roles of these covalent links in mammalian peroxidases remain uncertain. We have previously reported that HRP can oxidize chloride and bromide ions, but during oxidation of these ions undergoes autocatalytic modification of its heme vinyl groups that virtually inactivates the enzyme. We report here that autocatalytic heme modification during halide oxidation is not unique to HRP but is a general feature of the oxidation of halide ions by fungal and plant peroxidases, as illustrated by studies with Arthromyces ramosus and soybean peroxidases. In contrast, LPO, a prototypical mammalian peroxidase, is protected from heme modification and its heme remains intact during the oxidation of halide ions. These results support the hypothesis that the covalent heme-protein links in the mammalian peroxidases protect the heme from modification during the oxidation of halide ions.     

三种重要木质素降解酶研究进展

就三种重要木质素降解酶：LiP、MnP和漆酶在自然界的分布,化学组成、结构特征、降解机制、分子生物学等进行综述,并探讨了其作用协同性。     

Immunological characterization of soluble peroxidases from rat tissues including preputial gland

A highly active soluble peroxidase has been identified in the preputial gland of rats and characterized immunologically along with other soluble peroxidases of a number of rat tissues such as submaxillary gland, exorbital lacrimal gland and also of the uterine fluid of the estrogen treated rats. All these peroxidases have the native molecular weight around 73K as determined by gel filtration on Sephadex G-150. An antiserum raised against the pure bovine lactoperoxidase interacts with all these soluble peroxidases and immunoprecipitates the enzyme activity in a similar fashion when titrated against varied concentration of the antiserum. Following electrophoretic transfer to nitrocellulose by Western blotting, the antiserum crossreacts with the preputial, submaxillary and lacrimal gland protein of molecular weight around 73K and with the uterine fluid protein of molecular weight of 80K. An additional crossreacting protein of molecular weight of 80K is also evident in the lacrimal gland. All these enzyme preparations, however, contain another immunoreactive protein of molecular weight of about 64K. While 73–80K molecular weight interacting proteins may represent different forms of peroxidase, presumably with varied carbohydrate moieties, 64K molecular weight protein may be a precursor of the peroxidase which after posttranslational modification such as heme conjugation and glycosylation leads to formation of native enzyme. Rat harderian gland, unlike bovine origin, does not contain any detectable peroxidase activity. The immunoblot does not show the presence of any immunoreactive protein around 73K except the 64K molecular weight protein indicating that this gland can not synthesize the native peroxidase from this precursor probably due to some block in posttranslational modification.     

Peroxidase-mediated conjugation of glutathione to unsaturated phenylpropanoids. Evidence against glutathione S-transferase involvement

A number of plant species are thought to possess a glutathione S-transferase enzyme (GST: EC 2.5.1.18) that will conjugate glutathione (GSH) to trans -cinnamic acid (CA) and para -coumaric acid (4-CA). However, we present evidence that this activity is mediated by peroxidase enzymes and not GSTs. The N-terminal amino acid sequence of the GSH-conjugating enzyme purified from etiolated corn shoots exhibited a strong degree of homology to cytosolic ascorbate peroxidase enzymes (APX: EC 1.11.1.11) from a number of plant species. The GSH-conjugating and APX activities of corn could not be separated during chromatography on hydrophobic-interaction. anion-exchange, and gel filtration columns. Spectral analysis of the enzyme revealed that the protein had a Soret band at 405 nm. When the enzyme was reduced with dithionite, the peak was shifted to 423 nm with an additional peak at 554 nm. The spectrum of the dithionite-reduced enzyme in the presence of 0.1 m M KCN exhibited peaks at 430, 534 and 563 nm. These spectra are consistent with the presence of a heme moiety. The GSH-conjugating and APX activities of the enzyme were both inhibited by KCN. NaN₃, p -chloromercuribenzoate ( p CMB), and iodoacetate. The APX specific activity of the enzyme was 1.5-fold greater than the GSH-conjugating specific activity with 4-CA. In addition to the corn enzyme, a pea recombinant APX (rAPX) and horseradish peroxidase (HRP; EC 1.11.1.7) were also able to conjugate GSH to CA and 4-CA. The peroxidase enzymes may generate thiyl free radicals of GSH that react with the alkyl double bond of CA and 4-CA resulting in the formation of a GSH conjugate.     

室内观赏植物对甲醛的吸收及抗逆效果研究

该研究采用密封舱法模拟室内甲醛污染环境(熏蒸箱内甲醛浓度设置为0.1~0.5 mg·m~(-3),熏气时间12 h),对6种常见室内观赏植物进行甲醛熏蒸实验,测定了植物对甲醛的吸收效率、叶面伤害指数及过氧化物酶(POD)等指标。结果表明:这6种常见观赏植物对甲醛均具较好的净化效果,甲醛熏蒸浓度为0.1~0.3 mg·m~(-3),白鹤芋对甲醛的净化效果最好;熏蒸浓度0.5 mg·m~(-3),绿萝和吊兰具有较好的净化和抗逆性能;铁线蕨对甲醛的耐受力较弱,适合作为室内甲醛污染的指示性植物。几种受试植物的POD酶与甲醛吸收率呈显著正相关关系(P0.05),表明植物POD活力变化是受甲醛胁迫后的主要抗逆应答机制之一。     

Purification,characterization and catalytic activity of anionic zucchini peroxidase

The isolation and purification, by preparative electrofocusing, of the major anionic (ZPOA) and cationic (ZPOC) isoenzymes, collected from young zucchini squash, are reported. The M _r and sugar content are similar to those found previously for the major isoenzymes from the ripe fruits and in the range commonly observed for plant peroxidases. The amount of the two cationic enzymes was very low compared with that of anionic ZPOA. The anionic enzyme has been characterized by electronic, circular dichroism, proton NMR and electron paramagnetic resonance spectroscopy. The spectra are qualitatively similar to those of the corresponding anionic horseradish peroxidase (HRPA) derivatives, with minor differences attributable to the particular protein environment around the heme. The kinetics of the enzymatic oxidation of a series of phenols by H₂O₂ have been studied. ZPOA shows a parallel behavior to HRPA, but it is systematically more active than HRPA, indicating that the zucchini enzymes have a marked tendency to carry out oxidation of this type of compounds.     

Membrane peroxidases

Summary It is well known that the partial reduction of oxygen can result in the formation of highly reactive oxygen products. Hydrogen peroxide is one of these metabolites of oxygen. Peroxidases utilize this metabolite for a variety of functions. It is the purpose of this treatise to review the nature and function of various membrane peroxidases in the body.     

Molecular Evolution and Diversity of Lignin Degrading Heme Peroxidases in the Agaricomycetes

The plant and microbial peroxidase superfamily encompasses three classes of related protein families. Class I includes intracellular peroxidases of prokaryotic origin, class II includes secretory fungal peroxidases, including the lignin degrading enzymes manganese peroxidase (MnP), lignin peroxidase (LiP), and versatile peroxidase (VP), and class III includes the secretory plant peroxidases. Here, we present phylogenetic analyses using maximum parsimony and Bayesian methods that address the origin and diversification of class II peroxidases. Higher-level analyses used published full-length sequences from all members of the plant and microbial peroxidase superfamily, while lower-level analyses used class II sequences only, including 43 new sequences generated from Agaricomycetes (mushroom-forming fungi and relatives). The distribution of confirmed and proposed catalytic sites for manganese and aromatic compounds in class II peroxidases, including residues supposedly involved in three different long range electron transfer pathways, was interpreted in the context of phylogenies from the lower-level analyses. The higher-level analyses suggest that class II sequences constitute a monophyletic gene family within the plant and microbial peroxidase superfamily, and that they have diversified extensively in the basidiomycetes. Peroxidases of unknown function from the ascomycete Magnaporthe grisea were found to be the closest relatives of class II sequences and were selected to root class II sequences in the lower-level analyses. LiPs evidently arose only once in the Polyporales, which harbors many white-rot taxa, whereas MnPs and VPs are more widespread and may have multiple origins. Our study includes the first reports of partial sequences for MnPs in the Hymenochaetales and Corticiales.     

Brain most susceptible to cadmium induced oxidative stress in mice

Accumulated evidence over the years indicate that cadmium (Cd) may be a possible etiological factor for neurodegenerative diseases. This may possibly be linked to excessive generation of free radicals that damages the organs in the body depending on their defence mechanism. Since Cd is a toxic agent that affect several cell types, the aim of this study was to shed light on the effect of Cd and its consequences on different organs of the mice body. To test the hypothesis of concentration dependent Reactive Oxygen Species (ROS) generation and DNA damage, observations were done in the serum of 4–5 weeks old male Swiss albino mice by treating with cadmium chloride (CdCl₂) in drinking water for 30 days. The expression of Bcl-2-associated X protein (Bax) an apoptotic marker protein was two times higher in brain compared to liver at an exposure level of 0.5 mg L⁻¹ CdCl₂. Furthermore the correlation and linkage data analysis of antioxidant defence system revealed a rapid alteration in the brain, compared to any other organs considered in this study. We report that even at low dose of Cd, it impaired the brain due to lipid peroxidase sensitivity which favoured the Cd-induced oxidative injury in the brain.     

Differential response of cultivated rice to pathogen challenge and abiotic stresses with reference to cationic peroxidase

Seedlings of cultivated rice variety ADT43 was investigated after challenging with two different abiotic (drought and salinity) and biotic (sheath blight and bacterial leaf blight pathogens) stresses. Salinity and drought stress reduced the growth of seedlings, mainly the higher conditions (100 mM NaCl and 10?days of drought, respectively). Increased level of MDA content was observed in biotic and abiotic-stress treated seedlings. The highest H₂O₂ content was observed under salinity-stressed seedlings and lower level observed under biotic stress. Superoxide dismutase activity showed a gradual decrease in all stress conditions compared to control. Salinity stress resulted in highest activity of catalase compared to biotic stress. The peroxidase activity of the seedlings was found to be increased under salt and drought stress conditions and the activity decreased under biotic stress. Drought stress resulted in induced expression of POC1 gene whereas the biotic stress showed lower expression level. Suppression of the rice peroxidase would have been the mechanism of overcoming the intrinsic defence in rice by these pathogens.     

Selenium modifies glutathione peroxidase activity and glutathione concentration in mice exposed to ozone-provoked oxidative stress

The aim of this study was to show the direct effect of selenium on glutathione peroxidase (GSH-Px) activity and GSH/GSSG concentrations in 3- and 6-month-old mice. An ozone-oxygen mixture was used to provoke an oxygen stress. To measure the Se-effect mice were gavaged with sodium selenite. GSH-Px activity and total glutathione concentrations were determined in serum and in the postnuclear fraction of liver and lungs. Additionally glutathione concentrations were determined in whole blood. Both ozone and selenium, administered separately, reduced GSH-Px activity in lungs of 6-month-old animals, while in young mice an opposite effect of Se was observed. Ozone administered jointly with Se did not influence GSH-Px activity in 6-month-old mice, while in young, 3-month-old mice, a stimulatory effect in lungs was observed. There were no significant changes in GSH-Px activity in the liver of 6-month-old mice, but the stimulatory effect occurred in young mice treated with Se and Se & ozone jointly. In young mice, ozone (also ozone with Se) augmented glutathione concentrations. The response to ozone and selenium strictly depended on age and the antagonism between selenium and ozone was observed only in a few cases.     

Determination of safety levels of horseradish peroxidase-iodide system to human gingival keratinocytes and fibroblasts in vitro

The peroxidase-iodide (I-) system is a potential antimicrobial agent, and its bacteriocidal activity against various periodontal bacteria has been shown in many studies. The aim of this study was to investigate the possible cytotoxic effects of a non-physiological horseradish peroxidase (HRP)-I- system on human gingival keratinocytes and fibroblasts. Immortalized human skin keratinocyte cell line was used as a reference. Three indicators were studied: membrane permeability (trypan blue staining), cell growth (crystal violet staining) and metabolic activity (alamarBlue stain). The cells were cultured in microtitration plates, and the most commonly used exposure time to the HRP system was 1 h. The effects of HRP system on cell growth and metabolic activity were observed at lower I- and H2O2 concentrations than its effects on membrane permeability. Gingival fibroblasts were more prone to detachment than keratinocyte cell lines, but no differences in changes of growth or metabolic activities were observed between gingival fibroblasts and gingival keratinocytes. The highest concentrations of the HRP-I- system components which did not have any significant detrimental effects on the metabolic activity and cell growth of gingival keratinocytes and fibroblasts were: 50 microg/ml HRP, 500 micromol/L I- and 500 micromol/L H2O2. Although this system has been shown to be antibacterial against oral bacteria, no recommendations about the usage of the HRP-I- system in oral cavity can be made yet due to the in vitro nature of this study. Our results form the basis for future safety studies investigating the chronic toxicity of this system to oral epithelium.     

Seasonal changes in antioxidant level of Scots pine (Pinus sylvestris L.) needles exposed to industrial pollution. II. Enzymatic scavengers activities

The involvement of enzymic antioxidant system, superoxide dismutase, guaiacol peroxidase, ascorbate peroxidase in defense reaction to environmental stress evoked by air and soil pollution, was seasonally studied on three populations of Scots pine (Pinus sylvestris L.) growing on experimental areas close two industrial objects in Poland. The first of them (Luboón) is localised near a phosphate fertiliser factory, the second (Głogów) near a copper foundry, and control stand is placed in Kórnik. Głogów is the most polluted site, where in 1998 monthly mean daily concentrations was: SO₂ - 17 μg·m⁻³, NO_x- 12 μg·m⁻³ and dust containing heavy metals (Cu, Pb, Cd) - 29 μg·m⁻³. Trees in Luboń were influenced for many years by high concentration of SO₂ and fluor compounds. Few years ago emissions were markedly reduced, but changes in the soil (low pH and high concentration of aluminium ions) still influence the growth of trees. In needles of two populations: 3 (Russia) and 8 (Poland), from the polluted sites Głogów and Luboń, activities of superoxide dismutase (SOD) and guaiacol peroxidase (PO) were significantly higher compared to Kórnik. However, in one population (16 - Slovakia), such dependance was not evident. Activity of ascorbate peroxidase (AP) measured in winter was also higher in needles from polluted sites. The results indicated that the sensitivity of free radical scavenging system in Scots pine needles differs among populations.     

Production of catalytically active horseradish peroxidase-n in the insect cell-baculovirus expression system

Catalytically active horseradish peroxidase-n, HRP-n, has been produced in the insect cell-baculovirus expression system. The natural 5-leader sequence was included and the mature 40 kDa protein was secreted into the medium. HRP-n differs from the well characterised HRP-C regarding its amino acid sequence and catalytic behaviour and could therefore be an interesting alternative to HRP-C in various bioanalytical applications.