Increased thermostability and phenol removal efficiency by chemical modified horseradish peroxidase

Horseradish peroxidase was modified by phthalic anhydride and glucosamine hydrochloride. The thermostabilities and removal efficiencies of phenolics by native and modified HRP were assayed. The chemical modification of horseradish peroxidase increased their thermostability (about 10- and 9-fold, respectively) and in turn also increased the removal efficiency of phenolics. The quantitative relationships between removal efficiency of phenol and reaction conditions were also investigated using modified enzyme. The optimum pH for phenol removal is 9.0 for both native and modified forms of the enzyme. Both modified enzyme could suffer from higher temperature than native enzyme in phenol removal reaction. The optimum molar ratio of hydrogen peroxide to phenol was 2.0. The phthalic anhydride modified enzyme required lower dose of enzyme than native horseradish peroxidase to obtain the same removal efficiency. Both modified horseradish peroxidase show greater affinity and specificity of phenol.     

耐过氧化氢的锰过氧化物酶对三苯甲烷类染料的脱色

[目的]从一株白腐菌Trametes sp.SQ01中获得一种新型的锰过氧化物酶,探讨该酶的底物特异性和对过氧化氢的耐性,以及其对三苯甲烷类染料的脱色能力.[方法]通过丙酮沉淀和DEAE-cellulose 52柱层析法纯化锰过氧化物酶.利用UV-2010紫外可见分光光度法研究锰过氧化物酶对过氧化氢的耐性,同时,用紫外可见分光光度计对三苯甲烷类染料脱色效果进行分析.[结果]通过两步纯化,获得了均一性的锰过氧化物酶.该酶的最适pH和温度分别是4.5和70℃,在pH 3.0-8.0时,酶活相对稳定.该酶在二价锰离子存在下能够氧化2,6-二甲氧基苯酚、愈创木酚、2,2＇-连氮-双-(3-乙基苯并噻唑啉磺酸)和过氧化氢等化合物,同时也能作用二价锰离子.在与这些底物反应中,最适底物为过氧化氢(Km为3.7 tmmol/L).该酶具有抗过氧化氢漂白能力,锰过氧化物酶与高浓度的过氧化氢(2.5 mmol/L)作用60 min后仍能保持70％的活性.在所测试的染料中,锰过氧化物酶对结晶紫的脱色率最高达到65.8％.二价锰离子和过氧化氢对锰过氧化物酶脱色能力的影响进行研究,与孔雀绿相比,锰离子和过氧化氢对活性艳蓝脱色的影响很小.[结论]Trametes sp.SQ01锰过氧化物酶对过氧化氢的耐受性,以及对三苯甲烷类染料的高效脱色能力表明该酶在染料脱色降解方面有着广阔的应用前景.     

Removal of pentachlorophenol by immobilized horseradish peroxidase

Researches on the polymerization of aqueous pentachlorophenol (PCP) by the catalysis of horseradish peroxidase (HRP) with the existence of hydrogen peroxide (H₂O₂) were conducted. Factors, such as acidity, temperature, enzyme activity, and initial concentration of PCP and H₂O₂ that could influence the degradation were studied. Results showed that the optimum pH value for free enzyme was 5–6; relative higher temperature could accelerate the reaction greatly; PCP removal increased with an increase of enzyme concentration, and PCP (initial concentration 12.6 mg/L) removal percentage could reach nearly 70% under the highest enzyme concentration (about 0.05 u/ml) adopted in the experiment; removal percentage increased slightly with an increase of initial concentration of PCP, and when initial PCP concentrations were 13.0 and 0.7 mg/L, the removal percentages were about 73.7% and 35.7%, respectively; the molar ratio of the reaction between PCP and H₂O₂ was about 1:2.Based on the above results, researches on the removal of PCP by the immobilized HRP were conducted. The free HRP was immobilized on the polyacrylamide gel prepared by gamma-ray radiation method; then the immobilized HRP was filled into a column, and PCP was successfully removed by the immobilized HRP column. The results were compared with results using free HRP enzyme, which showed that the optimum pH value for the immobilized HRP is similar to that for the free HRP, and when pH=5.15, the immobilized HRP could reduce PCP with initial concentration 13.4 mg/L to the concentration of 4.9 mg/L within 1 h, and the immobilized HRP column could be used to repeatedly.     

Polysaccharide conjugated laccase for the dye decolorization and reusability of effluent in textile industry

Nine different polysaccharides were screened for conjugation with laccase and evaluated for pH and thermal stability. All the polysaccharides decreased the thermal and pH stability of laccase at 50 °C and 60 °C, where conjugation with gum Arabic showing the most pronounced effect. Thermal instability of gum Arabic conjugated laccase was affirmed by differential scanning calorimeter while the structural changes in the conjugated laccase responsible for thermal instability was analysed by fluorescence spectrophotometer. The gum Arabic conjugated laccase showed an unusually high tolerance to sodium chloride, thermal instability and lower stability in alkaline conditions. Gum Arabic conjugated laccase was found to decolorize Remazol brilliant blue R in the textile effluent at a slower rate without any microbial growth which was unlike that observed in effluent treated with free laccase. Further, effluent treated with conjugated laccase enabled its reuse as liquor for the dyeing to get desired shade.     

Enhanced activity of horseradish peroxidase in Langmuir-Blodgett films of phospholipids

The immobilization of enzymes in nanostructured films has potential applications, e.g. in biosensing, for which the activity may not only be preserved, but also enhanced if optimized conditions are identified. Optimization is not straightforward because several requirements must be fulfilled, including a suitable matrix and film-forming technique. In this study, we show that horseradish peroxidase (HRP) has its activity enhanced when immobilized in Langmuir-Blodgett (LB) films, in conjunction with dipalmitoylphosphatidylglycerol (DPPG). Incorporation of HRP into a DPPG monolayer at the air-water interface was demonstrated with compression isotherms, and Polarization-Modulation Infrared Reflection Absorption Spectroscopy (PM-IRRAS). From the PM-IRRAS data, we inferred that HRP was not denatured when adsorbed on a pre-formed, low pressure DPPG monolayer. A change in orientation was induced by the phospholipid matrix, with the amide CO and NH groups from HRP being oriented perpendicular to the surface, parallel to the DPPG acyl chains, i.e. the α-helix was inserted into the monolayer. The mixed DPPG-HRP monolayer could be transferred onto solid supports, to which HRP activity was ca. 23% higher than in solution. The control of molecular architecture and choice of a suitable phospholipid matrix allowed HRP-containing LB films to be used in sensing peroxide.     

白囊耙齿菌产锰过氧化物酶条件优化及其对染料的脱色

锰过氧化物酶（manganese peroxidase,MnP）是白腐真菌降解多种异生物质的主要降解酶之一。本研究对白囊耙齿菌Irpex lacteus产MnP的酶活曲线进行监测,利用单因素和正交试验对I. lacteus产MnP的发酵条件进行优化,同时检测了I. lacteus的MnP粗酶液对5种染料的脱色效果。结果显示,I. lacteus在培养5d时MnP活性较大;I. lacteus产MnP较优的条件为：可溶性淀粉20g/L、尿素1g/L、pH 6.3、CaCl₂ 1mmol/L、FeCl₃ 1mmol/L,该条件下MnP活性达29.24U/L,与优化前MnP活性相比提高了1.25倍;I. lacteus的MnP粗酶液对5种染料均可脱色,其中对直接大红和活性红的脱色效果更为明显,脱色5d后的脱色率分别达到82%和81%。     

毛木耳对孔雀石绿染料降解条件的优化

随着我国印染工业的发展,废水对生态环境的危害日趋严重,亟需开发一种脱色明显且成本低廉的降解方法。本研究发现毛木耳Auricularia cornea菌株AC5对不同结构的染料均具有一定的降解作用,尤其是三苯甲烷类染料。利用26℃、160r/min振荡培养7d的粗酶液对染料（75.0mg/L）进行12h降解,结果显示三苯甲烷染料孔雀石绿、结晶紫,蒽醌染料活性蓝19和偶氮染料活性蓝222的降解效率分别为83.27%、71.77%、67.81%和63.92%。染料降解实验和酶活力测定结果表明,毛木耳对孔雀石绿的降解率达到最高时漆酶活性最高,为321.0U/mL,木质素过氧化物酶和锰过氧化物酶活性较低。因此,推测在降解过程中漆酶起到主要作用。研究表明利用毛木耳菌丝发酵液降解染料废水成本低且操作方便,为染料废水的降解研究提供了前期基础。     

Activity, stability, and unfolding of reconstituted horseradish peroxidase with modified heme

Heme-propionates of horseradish peroxidase (HRP) were esterified by p-nitrophenol, phenol and p-methylphenol to change its electron character and to increase its hydrophobicity. These synthetic hemes were inserted apo-HRP to give a novel HRP, respectively. Of the three reconstituted HRPs, reconstituted HRP with p-nitrophenol-modified heme derivative had a larger initial rate, affinity, catalytic efficiency and substrate-binding efficiency than native HRP in aqueous buffer and some solvents. The reconstituted HRPs showed higher thermostability and tolerance of DMF because of the increase of the hydrophobicity of the active site. Changing the electron character of the aromatic moieties linked at each terminal of the two heme-propionates can control activity and stability of HRP. The initial rate, affinity, catalytic efficiency and substrate-binding efficiency increased with the increases of electron-withdrawing efficiency of substituents at 4-position of the phenolic used to synthesize the heme derivatives, contrariwise, the stability decreased. The modifications resulted in the increase in the temperature (T_m) at the midpoint of thermal denaturation and the decreases in both enthalpy and entropy change at T_m. The changes of catalytic properties and stabilities are related to the changes of the conformation of HRP. The modification changed the environment of heme and tryptophan, increased α-helix content of HRP. The present work demonstrates that enhancement of the hydrophobicity and the electron-withdrawing efficiency of heme improves the activity and stability of HRP.     

烟管孔菌G14产锰过氧化物酶条件优化及其对染料的脱色

利用组织分离从未成熟有机蓝莓的表皮中分离出菌株G14,根据其菌落形态、ITS序列对比及系统发育树的分析,鉴定菌株G14为一株烟管孔菌Bjerkandera adusta.菌株G14可以分泌漆酶(laccase,Lac)、木质素过氧化物酶(lignin peroxidase,LiP)和锰过氧化物酶(manganese p...     

Enhanced decolorization of sulfonated azo dye methyl orange by single and mixed bacterial strains AK1, AK2 and VKY1

Abstract

Methyl orange, a sulfonated azo dye having various industrial applications was decolorized by three bacteria Bacillus sp. strain AK1, Lysinibacillus sp. strain AK2 and Kerstersia sp. strain VKY1. The effect of various factors such as dye concentration, pH, temperature and NaCl concentration on decolorization was investigated. At 200?mg/L methyl orange concentration, the strains AK1, AK2 and VKY1 exhibited maximum decolorizing potential of 93, 95 and 96%, respectively, at temperature 35?°C and pH 7.0 within 18?h of incubation. These strains decolorized the dye over a wide range of pH (5–10), temperature (15–55?°C), and NaCl concentration (5–20?g/L). Further, these strains decolorize up to 800?mg/L concentrations of methyl orange within 24?h. The dye decolorization efficiency was further increased by using different consortia of these three strains which could decolorize the dye completely within 12?h of incubation. The cell-free extracts of the strains AK1, AK2 and VKY1 grown on methyl orange exhibited the azoreductase activity of 0.4794, 1.56 and 1.01?µM/min/mg protein, respectively. HPLC and FTIR analysis of the dye decolorized sample indicated the formation of 4-aminobenzenesulfonic acid and N,N-dimethyl-p-phenylenediamine as breakdown products of azo bond. The high decolorization potential of these bacterial strains individually and in consortia has potential application in remediation of dye effluent.     

Inactivation of mitochondrial succinate dehydrogenase by adriamycin activated by horseradish peroxidase and hydrogen peroxide

Although human cancers are widely treated with anthracycline drugs, these drugs have limited use because they are cardiotoxic. To clarify the cardiotoxic action of the anthracycline drug adriamycin (ADM), the inhibitory effect on succinate dehydrogenase (SDH) by ADM and other anthracyclines was examined by using pig heart submitochondrial particles. ADM rapidly inactivated mitochondrial SDH during its interaction with horseradish peroxidase (HRP) in the presence of H(2)O(2) (HRP-H(2)O(2)). Butylated hydroxytoluene, iron-chelators, superoxide dismutase, mannitol and dimethylsulfoxide did not block the inactivation of SDH, indicating that lipid-derived radicals, iron-oxygen complexes, superoxide and hydroxyl radicals do not participate in SDH inactivation. Reduced glutathione was extremely efficient in blocking the enzyme inactivation, suggesting that the SH group in enzyme is very sensible to ADM activated by HRP-H(2)O(2). Under anaerobic conditions, ADM with HRP-H(2)O(2) caused inactivation of SDH, indicating that oxidized ADM directly attack the enzyme, which loses its activity. Other mitochondrial enzymes, including NADH dehydrogenase, NADH oxidase and cytochrome c oxidase, were little sensitive to ADM with HRP-H(2)O(2). SDH was also sensitive to other anthracycline drugs except for aclarubicin. Mitochondrial creatine kinase (CK), which is attached to the outer face of the inner membrane of muscle mitochondria, was more sensitive to anthracyclines than SDH. SDH and CK were inactivated with loss of red color of anthracycline, indicating that oxidative activation of the B ring of anthracycline has a crucial role in inactivation of enzymes. Presumably, oxidative semiquinone or quinone produced from anthracyclines participates in the enzyme inactivation.     

Oxidative 4-dechlorination of 2,4,6-trichlorophenol catalyzed by horseradish peroxidase

 The well-known and easily available horseradish peroxidase (HRP) catalyzes the H₂O₂-dependent oxidative 4-dechlorination of the pollutant 2,4,6-trichlorophenol, which is recalcitrant to many organisms except those producing ligninases. UV-visible spectroscopy and gas chromatography-mass spectrometry identified the oxidized reaction product as 2,6-dichloro-1,4-benzoquinone. NMR and IR spectroscopic data further supported the above characterization. Experimental evidence for the elimination of HCl from the substrate was acquired by detecting the decrease in pH of the reaction mixture, and by observing the presence of the β-chlorocyclopentadienone cation fragment in the mass spectrum of 2,6-dichloro-1,4-benzoquinone. Consequently, nucleophilic attack by water on the 2,4,6-trichlorocyclohexadienone cation was proposed to give the final product. Our results indicate an oxidative dechlorination pathway catalyzed by HRP for 2,4,6-trichlorophenol, similar to that by extracellular lignin peroxidases. The relative catalytic efficiency of HRP seems higher than that of lignin peroxidases. The HRP-H₂O₂ catalytic system could be utilized in the degradation of polychlorinated phenols for industrial and biotechnological purposes. Received: 20 November 1998 / Accepted: 29 January 1999     

Thermostability, solvent tolerance, catalytic activity and conformation of cofactor modified horseradish peroxidase

Artificial prosthetic groups, HeminD1 and HeminD2, were designed and synthesized, which contain one benzene ring and one carboxylic group or two carboxylic groups at the terminal of each propionate side chain of hemin, respectively. HeminD1 and HeminD2 were reconstituted with apo-HRP successfully to produce the two novel HRPs, rHRP1 and rHRP2, respectively. The thermal and solvent tolerances of native and reconstituted HRPs were compared. The cofactor modification increased the thermostability both in aqueous buffer and some organic solvents, and also enhanced the tolerance of some organic solvents. To determine the conformation stability, the unfolding of native and reconstituted HRPs by heat was investigated. T_m was increased from 70.0 °C of nHRP to 75.4 °C of rHRP1 and 76.5 °C of rHRP2 after cofactor modification. Kinetic studies indicated that the cofactor modification increased the substrate affinity and catalytic efficiency both in aqueous buffer and some organic solvents. The catalytic efficiency for phenol oxidation was increased by 55% for rHRP1 in aqueous buffer, and it was also increased by 70% for rHRP1 in 10% ACN. Spectroscopic studies proved that the cofactor modification changed the microenvironment of both heme and tryptophan, increased α-helix content, and increased the tertiary structure around the aromatic residue in HRP. The improvements of catalytic properties are related to these changes of the conformation. The introduction of the hydrophobic domain as well as the retention of the moderate carboxylic group in active site is an efficient method to improve the thermodynamic and catalytic efficiency of HRP.     

Uptake of horseradish peroxidase by bone cells during endochondral bone development

Summary To investigate the mechanisms whereby bone cells absorb organic bone-matrix components during endochondral bone development, rat humeri were examined, employing horseradish peroxidase as a soluble protein tracer.Intravenously-injected peroxidase filled the osteoid layer and penetrated into the osteocyte lacunae and canaliculi, but did not enter the mineralized bone matrix. Whereas osteocytes rarely took up exogenous peroxidase, osteoblasts and osteoclasts actively endocytosed peroxidase in pinocytotic coated vesicles, tubular structures, and vacuoles. They also formed endocytotic vacuoles containing peroxidase in the Golgi area. The Golgi apparatus and dense bodies of these bone cells were, however, free of reaction products. Osteoclast ruffled borders were responsible for peroxidase absorption. In the osteoblast, osteocyte and osteoclast, endogenous peroxidatic reaction was detected only in mitochondria and not in other membrane-bounded vesicles and bodies. These results strongly suggest that both osteoblasts and osteoclasts participate in the resorption of bone-matrix organic components during bone remodelling.     

Conformational changes and activity alterations induced by nickel ion in horseradish peroxidase

Conformational changes induced by the binding of nickel to horseradish peroxidase C (HRPC) were studied by electronic absorption spectroscopy, fluorescence spectroscopy and circular dichroism spectroscopy. Incubation of HRPC with various concentrations of Ni(2+) for 5 minutes resulted in changes in the enzyme absorption spectrum, including variations in the intensities of the Soret, beta and charge transfer (CT1) bands absorption, shift in the Soret, beta and CT1 bands maxima and absorption increase at 275 nm. Increases in the enzyme's intrinsic fluorescence as determined by fluorescence spectroscopy, as well as changes in the alpha-helical content, as determined by circular dichroism spectroscopy, were also found. Correlatively, alterations of the enzymatic activity by Ni(2+) were studied by following the H(2)O(2)-mediated oxidation of o-dianisidine and 2,2'-azinobis(3-ethylbenzothiazolinesulfonic acid) (ABTS) by HRPC. With both reducing substrates, it was found that in the presence of sufficient amount of enzyme, 1-10 mM nickel would enhance the enzymatic activity, while higher Ni(2+) concentrations (20-50 mM) would inhibit it. The enzyme was completely inhibited after 5 minutes incubation in 50 mM Ni(2+). Prolonged incubation would induce complete inhibition at lower Ni(2+) concentrations. Spectrophotometry investigations also showed that inhibitory concentrations of Ni(2+) altered compounds I and II formation, compound II being the first affected. Based on spectrophotometry, fluorescence and circular dichroism spectroscopy, and data on compounds I and II formation, a scheme is suggested for HRPC conformational changes in different Ni(2+) concentrations. HRPC was found to have four potential attachment sites for Ni(2+) which were sequentially occupied in a dose- and time-dependent manner by the metallic ion.     

The uptake of horseradish peroxidase by cortical synapses in rat brain

Summary Horseradish peroxidase (HRP) was introduced directly into the cerebral cortex of adult rats, which were allowed to survive for 60 min before perfusion fixation. After the tissue had been incubated to demonstrate HRP at the LM and EM levels, blocks of cortical tissue were taken at varying distances from the injection site. These eight blocks of tissue constituted a time sequence for HRP diffusion.Qualitative examination of the presynaptic terminals showed that the most commonly encountered profiles are the plain synaptic vesicles, many of which accumulate tracer. In some terminals labelled vesicles are lined-up in tubular fashion. Other profiles commonly labelled are coated vesicles, tubular and vacuolar cisternae, and plain and coated pinocytotic vesicles.Quantitative analyses based on the number of terminals containing labelled profiles demonstrate an early rise in the rate of labelling of both plain synaptic vesicles and coated vesicles, after which synaptic vesicle labelling rises slowly towards a plateau. By contrast, there is a late parallel increase in the rate of labelling of coated vesicles and cisternae. A more detailed analysis, based on the actual numbers of labelled and total profiles within each presynaptic terminal, highlight early and late periods of rapid labelling for plain synaptic vesicles, coated vesicles and cisternae. A further aspect of HRP incorporation studied, concerns its uptake into four delineated regions of the presynaptic terminal.Our data indicate that membrane uptake into the presynaptic terminal is accomplished mainly via coated vesicles, although plain synaptic vesicles may also be involved. Coated vesicles, in turn, appear to give rise directly to plain synaptic vesicles, with some coalescing to produce vacuolar cisternae. The latter are involved in a two-way interchange of membrane with tubular cisternae, plain synaptic vesicles and coated vesicles. An additional source of plain synaptic vesicles are the tubular cisternae. Exocytosis of plain synaptic vesicles constitutes the mechanism by which transmitter is released from the presynaptic terminal.Supported by the Nuffield Foundation. We are grateful to Mr. M. Austin for help with the photography     

Transport of horseradish peroxidase by processes of radial glia from the pial surface into the mouse brain

Summary The transport of horseradish peroxidase (HRP) applied to exposed pial surfaces of the brain was studied in newborn, 4-, 7- and 12-day-old, and adult mice. In the telencephalon the cell bodies of radial glia were found to accumulate the tracer. Labeled cells occurred in the subventricular zone of the lateral ventricle during the first postnatal week; they became gradually restricted to an area around the stria terminalis (ventrolateral ventricular corner) by day 12. At later stages no HRP transport could be traced from the surface of the telencephalon. In the cerebellum, HRP was transported from the surface to the cell bodies of Bergmann glia in all age groups studied including adult animals. It is concluded that radial glia and their derivatives share the capacity of transporting material between various cerebrospinal fluid compartments.     

Online monitoring of horseradish peroxidase structural changes by Near Infrared (NIR) Spectroscopy

The development of online monitoring techniques is of great relevance for understanding the structural changes of proteins under different conditions in order to maximize their catalytic activity. This study aimed to evaluate the potential of the NIR (near-infrared spectroscopy) technique for the monitoring of alterations of secondary and tertiary structures of Horseradish peroxidase (HRP), an oxidoreductase that has several applications in the industrial environment, food industry and bioremediation. The NIR associated to the multivariate calibration, through the PLS (partial least square) method allowed the construction of a robust model for the prediction of the analysis. The values of the correlation coefficient (R²), root mean square error of calibration (RMSEC), root mean square error of prediction (RMSEP) and root mean square error of cross validation (RMSECV) for secondary structure analysis using circular dichroism (CD) data as reference (actual values) were 0.9681, 0.647 (mdeg), 0.945 (mdeg), and 1.12 (mdeg), respectively. For tertiary structure analysis, fluorescence spectroscopy (FL) data were used as reference. R², RMSEC, RMSEP and RMSECV were, respectively 0.9999, 1.95 (a.u.), 2.09 (a.u.); and 2.19 (a.u.). NIR combined multivariate calibration showed promising results for sctructural changes monitoring of HRP.     

刺芹侧耳产漆酶条件优化及对偶氮染料甲基橙的脱色

漆酶是一种含铜的单电子多酚氧化酶,能够催化氧化各种酚类及多种染料,在处理染料废水方面具有巨大的潜力。刺芹侧耳Pleurotus eryngii具有较强的产漆酶能力,但漆酶产量在较大程度上受环境条件限制。本文研究了氮源含量、pH、温度、金属离子等环境条件对刺芹侧耳产漆酶能力的影响,优化了其产漆酶条件,并用其粗酶液对典型偶氮类染料甲基橙进行脱色,结果表明,在氮源0.5%（W/W）、pH 5.5、温度28℃、添加5.0mmol/L Mg ²⁺的培养条件下,刺芹侧耳产漆酶能力最强,培养6d时,漆酶酶活可达78.0U/L。用优化培养的刺芹侧耳粗酶液对偶氮染料甲基橙进行脱色,28h后脱色率可达90%,脱色反应为准一级动力学反应,甲基橙并未完全矿化,而是生成小分子中间产物。     

Chemiluminescent oxidation of ribose catalyzed by horseradish peroxidase in presence of hydrogen peroxide

The reaction of ribose with horseradish peroxidase in the presence of H₂O₂ is accompanied by light emission. The detection of horseradish peroxidase Compound II (FeO²⁺) indicates that the enzyme participates in a normal peroxidatic cycle. Hydrogen peroxide converts horseradish peroxidase into Compound I (FeO³⁺) which in turn is converted into Compound II by abstracting a hydrogen atom from ribose forming a ribosyl radical. In aerated solutions oxygen rapidly adds to the ribosyl radical. Based on the spectral characteristics and the enhancement of the chemiluminescence by chlorophyll-a, xanthene dyes, D₂O and DABCO, it is suggested that the excited species, apparently triplet carbonyls and ¹O₂, are formed from the bimolecular decay of the peroxyl radicals via the Russell mechanism.