ライフサイエンスコーパス: oxidant

1 t by using DMSO as the solvent as well as an oxidant.

2 ith anilines in the presence of periodate as oxidant.

3 c hetero-ene reaction with a chalcogen-based oxidant.

4 roxycarbamate dehydrogenation using a common oxidant.

5 dioxygen (O2 ), to access a high-valent Mn2 oxidant.

6 ons using either H2 O2 or O2 as the terminal oxidant.

7 alytic strategy for generating an iron-bound oxidant.

8 tive activations that use I2 as the terminal oxidant.

9 ion zeroth order in reactants as well as the oxidant.

10 aerial molecular oxygen as a stoichiometric oxidant.

11 generated in the presence of an iodine(III) oxidant.

12 mands strategies to harness O2 as a terminal oxidant.

13 ater in the presense of a hypervalent iodine oxidant.

14 er dependence on the concentration of Cu(II) oxidant.

15 the reduction potential (E degrees ) of the oxidant.

16 ling-CDC) has been developed under air as an oxidant.

17 atalytic benzoisothiazolone/O2 in air as the oxidant.

18 oacetylacetone in the presence of an organic oxidant.

19 oxidant in the presence of O2 as an external oxidant.

20 es, respectively, using nitrosobenzene as an oxidant.

21 t-butyl hydroperoxide (TBHP) as the terminal oxidant.

22 tional 3-chloroperbenzoic acid as a terminal oxidant.

23 d generally considered to be an outer-sphere oxidant.

24 (CH3CN)2] as catalyst and benzoquinone as an oxidant.

25 need for a photocatalyst, light, or a strong oxidant.

26 at 723 K using O2 as an abundantly available oxidant.

27 e and react with proton donors and even mild oxidants.

28 rd reactivity of the indole unit to standard oxidants.

29 icate Laponite, without the use of cytotoxic oxidants.

30 thout the aid of metallic reagents and toxic oxidants.

31 nts such as ascorbic acid, or accelerated by oxidants.

32 m through formation of microbicidal reactive oxidants.

33 es no exogenous photosensitizers or external oxidants.

34 nts and organic electron donors that consume oxidants.

35 high-potential visible-light-absorbing photo-oxidants.

36 method for the quantification of DA-derived oxidants.

37 ts when reacted with different electrophiles/oxidants.

38 rophic SRB partners using soluble artificial oxidants.

39 ounteracts reactive oxygen species and other oxidants.

40 loss processes using newly available marine oxidants.

41 ing survival of S. aureus in the presence of oxidants.

42 ith the aim to create environmentally benign oxidants.

43 itself is a mild antimicrobial and has a pro-oxidant ability.

44 Thus, due to apparent pro-oxidant action of DEDTC, our data do not support its use

45 Varying degrees of anti-oxidant activities were recorded for the powders using t

46 stems] as well as for the observation of pro-oxidant activities, with the measurements registering in

47 The in vitro anti-oxidant activity of these extracts was tested using the

48 Due to their high anti-oxidant activity, phlorotannins represent potential natu

49 ed chloride, bromide, and iodide with strong oxidant additives (e.g., hypochlorite, persulfate, hydro

50 radical, whereas reaction with the stronger oxidant AgBF4 formed the metal-free radical dication L(.

51 Second, the use of 2-electron oxidants allows selective and high-efficiency hydroxychl

52 similarly and mitochondrially targeted anti-oxidants also abrogate these effects.

53 Both inhibition of Na/K-ATPase oxidant amplification with pNaKtide and induction of hem

54 s at the less steric side using O2 as a sole oxidant and a plausible reaction pathway for the reactio

55 The enzyme uses dioxygen as the terminal oxidant and achieves selectivity for anti-Markovnikov ox

56 ter and pH observed during the 2013 Southern Oxidant and Aerosol Study (SOAS) emphasizes the importan

57 Samples were collected during the Southern Oxidant and Aerosol Study (SOAS) in June-July 2013 near

58 to the continental U.S. during the Southern Oxidant and Aerosol Study (SOAS) to compare the potentia

59 013 in rural Alabama as part of the Southern Oxidant and Aerosol Study.

60 amide in the presence of Cu(OAc)2.H2O as an oxidant and AgNTf2 as an additive.

61 The samples retained significant anti-oxidant and anti-genotoxic potential through digestion a

62 Ozone, a strong oxidant and disinfectant, seems ideal to cope with futur

63 by depth-dependent variations in atmospheric oxidant and dissolved-solute concentrations.

64 amino anilines with aryl alkyl ketones under oxidant and metal-free conditions are described.

65 conditions are relatively mild requiring no oxidant and no excess toxic heavy metal and the reagent

66 nation where molecular oxygen serves as both oxidant and oxygen source.

67 eta phosphorylation sites regulating the pro-oxidant and pro-apoptotic function of p66.

68 ion and be partially responsible for the pro-oxidant and pro-inflammatory effects of uric acid.

69 ntageous role of the peroxide acting both as oxidant and reagent for C-O coupling.

70 mpacts tropospheric chemistry by influencing oxidants and aerosols.

71 olar bone loss (ABL) and serum levels of pro-oxidants and antioxidant enzymes in rats with experiment

72 , the present protocol is free from external oxidants and conducting salts, thereby generating nitrog

73 Thus, slow diffusion of water, oxidants and organic molecules could kinetically limit g

74 These photoproducts are important oxidants and reactants in surface waters, atmospheric dr

75 mplications for the response of tropospheric oxidants and stratospheric thermal and mass balance.

76 hydroxyl radical is an important atmospheric oxidant, and a significant source of its production occu

77 reached after excessive exposure to cellular oxidants, and accumulate across different disease states

78 ions, including those promoted by biological oxidants, and its dysfunction has been associated with s

79 ormones, protein modification reagents, anti-oxidants, and more.

80 te change, particulate matter, photochemical oxidants, and terrestrial acidification.

81 phenol found in natural foods, displays anti-oxidant, anti-inflammatory and anti-proliferative proper

82 blocking TGF-beta pathway and modulating the oxidant/antioxidant balance.

83 onal benefits for human health, such as anti-oxidant, antiviral, and liver-protective properties.

84 Pro-oxidants are considered as major constituents of vehicle

85 Oxidants are generated at the anode, while the doping le

86 All three oxidants are highly antimicrobial but little is known ab

87 We find that tropospheric oxidants are sensitive to climate change with an increas

88 s the terminal oxidant, or cheap sacrificial oxidants are used, providing a very practical approach f

89 An anti-oxidant ascorbate reversed albumin-induced inhibition of

90 drial bioenergetic capacity and produce more oxidants at birth suggest that the vascular endothelial

91 astas was evaluated by the novel Antioxidant/Oxidant Balance (AOB) parameter, calculated as Antioxida

92 is of alkenes, are considered as atmospheric oxidants besides OH and NO3 radicals as well as ozone.

93 , therapeutically targeting mitochondria and oxidant burden is an effective strategy to alleviate tis

94 an important goal that requires strong photo-oxidants capable of chloride oxidation.

95 The chlorine radical is a potent atmospheric oxidant, capable of perturbing tropospheric oxidative cy

96 hose with quinoa flour, reduced the AAPH pro-oxidant capacity in co-culture cells.

97 without the need of pre-protection or added oxidant, catalyzed by a ruthenium pincer complex, is dev

98 ites on the oligonucleotide generated by two oxidants, catechol/Cu(2+)/NADPH and Fenton's reagent, we

99 ative stress is two sided: Whereas excessive oxidant challenge causes damage to biomolecules, mainten

100 METHODS AND Oxidant challenge studies show that vascular smooth musc

101 les, maintenance of a physiological level of oxidant challenge, termed oxidative eustress, is essenti

102 TTB stability could be due to a possible pro-oxidant character.

103 lastoma (GBM) cells to ascorbate through pro-oxidant chemistry involving redox-active labile iron and

104 emerging as promising cancer therapy via pro-oxidant chemistry.

105 ed with H2O2, highlighting the importance of oxidant choice as a design tool in TAML systems.

106 vs NHE], a strong and versatile ground-state oxidant commonly used in organic functional group transf

107 ure of vehicle exhaust that comprised of pro-oxidant constituents of exhaust, namely, carbon dioxide

108 s iron and sulfide in conjunction with rapid oxidant consumption suggested that the sediments harbore

109 pplications is also compatible under present oxidant-containing reaction conditions.

110 wever, evidence has emerged that MPO-derived oxidants contribute to propagation of inflammatory disea

111 Oxidant controlled ionic liquid mediated cross-dehydroge

112 The most abundant oxidants controlling bacterial colonization on mucosal b

113 oxidative decarboxylations with H2O2 as the oxidant, coproheme III as substrate and cofactor, and he

114 al TEMPO by electron transfer to ferrocenium oxidants coupled to proton transfer to various pyridine

115 upling (CDC) in the presence of the terminal oxidant Cu(OAc)2.H2O.

116 ion of DJ-1, which helps orchestrate nuclear oxidant defenses and Sirt3 in mice led to a clear age-re

117 Substituent- and oxidant-dependent transformations of allenes are describ

118 (RSV) acts either as an antioxidant or a pro-oxidant depending on contexts.

119 Behavior is bimodal antioxidant/pro-oxidant depending on the concentration.

120 f disturbed flow, inflammatory mediators and oxidants derived from cigarette smoke is known to promot

121 m alkyl nitriles in the presence of the mild oxidant di-tert-butyl peroxide.

122 BMAA with chlorine, a common drinking-water oxidant/disinfectant, was investigated.

123 ith which to constrain levels of atmospheric oxidants during past climate transitions.

124 ses as a complementary co-catalyst to common oxidants, e.g., Cu(II) salts, in C-H bond activation and

125 ective in altering ALS progression: the anti-oxidant Edaravone.

126 hemolysis, but at high concentrations a pro-oxidant effect on erythrocyte morphology was observed.

127 e demonstrating that it had no perceived pro-oxidant effect.

128 with Cu((II))ATSM protected against the pro-oxidant effects of angiotensin II (Ang II) by attenuatin

129 t, while also considering their possible pro-oxidant effects.

130 cing sustained counter fluxes of sulfide and oxidants, elemental sulfur (S(0))-a key intermediate in

131 nd phosphorylation efficiency, and increased oxidant emission in skeletal muscle.

132 The inherently weak O-heteroatom bond in the oxidant enables the versatile reactivities of the initia

133 etic modulation, M2 macrophages and the anti-oxidant enzyme activity but reduced protein oxidation (c

134 eased DNA methylation of genes encoding anti-oxidant enzymes (AOEs).

135 dependent suppression of genes encoding anti-oxidant enzymes (AOEs).

136 ne) are transformed into the highly reactive oxidant [Fe(IV) (O)(TMCO)(OTf)](+) (1; TMCO=4,8,12-trime

137 The sluggish oxidants [Fe(IV) (O)(TMC)(CH3 CN)](2+) (TMC=1,4,8,11-tet

138 oxidative stress and exacerbation occur when oxidant foods (e.g. fava beans) are consumed.

139 ursors for dioxiranes, an important class of oxidants for the synthesis of value-added chemicals, and

140 o the mechanisms of the remarkably versatile oxidants formed by nature's most potent oxygenases.

141 xyamides to carboxylic acids, (3) metal- and oxidant-free benzocoumarin synthesis from ortho-aryl-N-m

142 A mild, oxidant-free, and selective Cp*Co(III) -catalyzed amidat

143 oadly useful class of selective two-electron oxidants-from O2.

144 rongly induced by diabetes and inhibits anti-oxidant function of thioredoxin, has been implicated in

145 s in mitochondrial bioenergetic function and oxidant generation in human umbilical vein endothelial c

146 muM; IC50, 29 nM) decreased agonist-induced oxidant generation.

147 sphatidic acid (LPA) to cells restored their oxidant generation.

148 or trend to sustainability, relying on green oxidants H2O2 and O2 as the ultimate oxygen source.

149 Transfer of a second electron to the same oxidant has a much lower thermodynamic driving force and

150 ment to simultaneously maintain Cu(I) and an oxidant has limited its practical utility, especially fo

151 The role of hypervalent iodine reagents as oxidants has been widely recognized for more than 20 yea

152 What all three oxidants have in common, however, is their ability to ca

153 found in all domains of life, dissipates the oxidant hydrogen peroxide (H2O2).

154 ies, including anti-cancer, anti-viral, anti-oxidant, hypoglycemic, hypo-lipidemic, and anti-inflamma

155 Advantageously, the oxidant (IBX) and solvent could be recycled up to five t

156 ectivity by holding the substrate and ferryl oxidant in a specific orientation through hydrogen bondi

157 ivity studies, 2 was shown to be a competent oxidant in an intermetal oxygen atom transfer, C-H bond

158 dation state (Mn(3+) ) is a newly identified oxidant in anoxic environments, whereas acetate is a nat

159 liphatic amines to oximes using m-CPBA as an oxidant in ethyl acetate is described.

160 rnessite (delta-MnO2), a naturally occurring oxidant in soils, on the formation of bound residues.

161 n arylamine and then becoming a nucleophilic oxidant in the final oxidation of an aryl-nitroso interm

162 to be ambiphilic, acting as an electrophilic oxidant in the initial N-hydroxylation of an arylamine a

163 emo- and regioselectivity and the effects of oxidant in the intermolecular oxidative C-H/C-H coupling

164 using isotopically labeled oxygen (O2) as an oxidant in the presence of hydrogen peroxide (H2O2), we

165 ized as the nitro source as well as terminal oxidant in the presence of O2 as an external oxidant.

166 to 8.5, which implicates different reactive oxidants in acidic and alkaline solutions.

167 obinemia and monitor for excessive levels of oxidants in dialysis water sources.

168 demonstrated the presence of a small pool of oxidants in the selected DOM isolates and whole water sa

169 whereas radical cations produced by chemical oxidants in various DNA systems are known to deprotonate

170 hypothesized that prolonged exposure to pro-oxidants in vehicle emissions result in behavioral and c

171 We observed that prolonged exposure to pro-oxidants in vehicle exhaust increased anxiety-and depres

172 g O2, an abundant and environmentally benign oxidant, in synthetic catalytic oxidation systems.

173 We found that low to mild doses of oxidants induce de novo translation of the NRF2 protein.

174 MnSOD(K68) SIRT3 enforced expression reduced oxidant-induced AEC OGG1(K338/341) acetylation, mtDNA da

175 clease I protect smooth muscle cells against oxidant-induced cell death.

176 stem/stromal cells to reduce E. coli-induced oxidant injury.

177 ate (S) are ultradilute (pM-low muM) and the oxidant is very dilute (high nM-low mM).

178 cyanate by heme peroxidases to antimicrobial oxidants is an important cornerstone in the innate immun

179 Nox1 deletion reduces oxidant load and restores microvascular health in db/db

180 requires only persulfate as a stoichiometric oxidant, making the procedure suitable for the late-stag

181 increased fetal lung expression of the anti-oxidant marker CAT and decreased expression of the pro-o

182 rker CAT and decreased expression of the pro-oxidant marker NOX-4.

183 the degree to which processes that influence oxidants may change with climate and owing to a lack of

184 As primary intracellular sources of oxidants, mitochondria serve as critical monitors and mo

185 saturation, control the exposure of U(IV) to oxidants, moderating its oxidative release.

186 thelial senescence was prevented by the anti-oxidant N-acetyl cysteine, as well as by plumericin and

187 These effects are reversed by the anti-oxidant N-Acetyl Cysteine.

188 The anti-oxidant N-acetyl-cysteine (NAC) reduced ROS formation an

189 methylate (CM), but not CM, and with an anti-oxidant N-acetylcystein significantly improved pulmonary

190 When employing iodine as an "oxidant", new evidence suggests that this transformation

191 As pollutants accumulate and deplete oxidants, nitrate chemistry becomes less active during t

192 The reaction proceeds at rt without external oxidants, nitrene stabilizing groups, or directing funct

193 in a PCAP at night with lower NOx and higher oxidants (O3) and oxidized reactive nitrogen (N2O5) alof

194 chemistry of the most important atmospheric oxidants, O3, NO3, and OH, plays a central role in regul

195 complex mixtures of photochemically produced oxidants of differing natures.

196 questions, we directly tested the individual oxidants on the virulent Pseudomonas aeruginosa strain P

197 monly proposed that this additive acts as an oxidant or as a halide scavenger promoting Pd-catalyst t

198 dS quantum dots (QDs), without a sacrificial oxidant or reductant, and without a co-catalyst.

199 Exposure to low levels of oxidants or genetic inhibition of glycogen synthase depl

200 typically it involves expensive or corrosive oxidants or reaction media that are not amenable to comm

201 on reactions, and they are typically used as oxidants or redox-active cocatalysts.

202 of H2O2 instead of O2 as the initial Fe(II) oxidant, or a combination of all three.

203 ology requires no additional metal catalyst, oxidant, or base.

204 Air oxygen serves as the terminal oxidant, or cheap sacrificial oxidants are used, providi

205 many synthetic Mn(IV) -oxo species are mild oxidants, other members of this class can attack strong

206 ng nanostructured semiconductors in which an oxidant (Ox1 ) is used as a catalytic agent to facilitat

207 eaction between a semiconductor and a second oxidant (Ox2 ) that would be unreactive in the primary r

208 oxidation by other environmentally relevant oxidants (ozone, chlorine dioxide, and phosphate and car

209 ated the reaction of PDI with the biological oxidant peroxynitrite.

210 electrokinetic (EK)-assisted delivery of an oxidant, persulfate (PS), and low temperature electrical

211 With less than 1 equiv of Cp*2Fe(+) as oxidant, (Ph3P)6Cu6H6 gives [(Ph3P)7Cu7H6](+) as the maj

212 Models are needed that accurately predict oxidant photolysis and subsequent radical reactions.

213 ing pathway, indicating that the form of the oxidant plays a key role in the reaction mechanism.

214 OA formed, and an indicator of which of four oxidant precursors was used to initiate reactions (NOx p

215 fferent GOM compounds exist depending on the oxidants present in the air.

216 and in vitro redox assay systems, including oxidant production by transition metals, photodynamic th

217 ualization and measurement of hepatocellular oxidant production during liver ischemia-reperfusion.

218 ss, a state in which intra- or extracellular oxidant production outweighs the antioxidative capacity,

219 In contrast, oxidants promote cytosolic cell entry with an efficiency

220 An acid- and oxidant-promoted intramolecular cyclization of a tetrahy

221 ctive enzyme with anti-inflammatory and anti-oxidant properties that is induced in response to multip

222 opene against degradation due to EGCG's anti-oxidant property.

223 gh its recyclable Met residues, resulting in oxidant protection to the bacterium.

224 ng that the amino acid composition-dependent oxidant-quenching role of catalase is more important tha

225 neous processes by choice of the appropriate oxidant/reductant.

226 lysis of intra- and extracellularly produced oxidants, respectively, using a single read-out paramete

227 ons but that cigarette smoke induces an anti-oxidant response that appears to reduce endothelial infl

228 as further improved by antagonizing the anti-oxidant response.

229 2), the master transcription factor for anti-oxidant responses, has also been implicated in inflammas

230 abundance determine the climate response of oxidants, resulting in lower tropospheric O3 in cold cli

231 ed quenching to the pathogen residing in the oxidant-rich gastric mucus was studied.

232 in parallel, showed large scale loss of the oxidant-sensitive mitochondrial protein Mpv17L.

233 med without seed and at low concentration of oxidant showed a lower SOA yield than other seeded exper

234 cocorticoid receptor (GR) and downstream pro-oxidant signaling.

235 as a novel directing group, Mn(OAc)2 as a co-oxidant (silver free reaction conditions), and absolute

236 constant pH values, due to using a buffered oxidant solution, did not support increased PFAA removal

237 r LPS concentrations and neutrophil reactive oxidant species (ROS) production were observed in PV vs

238 from solution by reaction with the reactive oxidant species produced through Fe(II) oxidation.

239 Peroxynitrite is a short-lived oxidant species that is a potent inducer of cell death.

240 the soft Cu(I) cation and thereby yield pro-oxidant species.

241 Total oxidant state (TOS) and total antioxidant capacity (TAC)

242 Next, pro-oxidant stimulation of the cell wall integrity pathway M

243 to correct adrenergic dysfunction, elevated oxidant stress and increased thromboxane A2 improve perf

244 enzyme myo-inositol oxygenase (MIOX) induces oxidant stress in vitro However, the relevance of MIOX t

245 Oxidant stress is a major contributor to the pathogenesi

246 logical cascade beginning with mitochondrial oxidant stress leading to oxidized dopamine accumulation

247 ing decreased aerobic respiration, increased oxidant stress, and mitochondrial DNA damage that, in tu

248 well as measures of injury, inflammation and oxidant stress, including production of reactive oxidati

249 circumstances such as chronic inflammation, oxidant stress, local constriction, and injury in trigem

250 glutamate uptake, and elevated mitochondrial oxidant stress, which was ameliorated by NMDA receptor a

251 n contributes to the pathogenesis of several oxidant stress-associated disorders.

252 was blunted in OZR vs. LZR due to increased oxidant stress-based loss of nitric oxide bioavailabilit

253 Hypocholesterolemia induced an oxidant stress-dependent increase in miR101c, which down

254 considered to be promoted by gene-regulated oxidant stress.

255 ty, associated with the chronic elevation in oxidant stress.

256 ntly increased resistance to metal, salt and oxidant stresses.

257 dary atmospheric aerosols and of atmospheric oxidants such as ozone and the hydroxyl radical, which c

258 The abundance of tropospheric oxidants, such as ozone (O3) and hydroxyl (OH) and perox

259 ased the resistance of PA14 toward all three oxidants, suggesting that we have discovered a novel, ta

260 agent as the recyclable organic (metal-free) oxidant system to afford benzidines/naphthidines.

261 e macrophages, these protozoans contain anti-oxidant systems that include iron-dependent superoxide d

262 Although the oxidants tested were unsuccessful, electrophiles, partic

263 RSSH are much more reactive to two-electron oxidants than thiols.

264 Widely abundant air acts as the terminal oxidant that avoids the use of a stoichiometric amount o

265 pound 2 proved to be a powerful two-electron oxidant that can add the nitrido ligand to olefin and su

266 Lycopene is a natural anti-oxidant that has attracted much attention due to its var

267 potent antioxidant and can also act as a pro-oxidant that induces oxidative stress on the vascular en

268 Although the nature of the oxidants that carry out electrophilic aromatic substitut

269 yl chloride (ClNO2), a source of atmospheric oxidants that is poorly prescribed in atmospheric models

270 e dimetal cofactors with stable one-electron oxidants that serve to initiate the enzyme's free-radica

271 so obtained by reacting 1 with an artificial oxidant (that is, iodosylbenzene) and characterized by v

272 tive capacity of the troposphere directly as oxidants themselves and indirectly via their influence o

273 albumin oxidation, and albumin acts as a pro-oxidant; this promotes oxidative stress and inflammation

274 ical catalytic one, namely quenching harmful oxidants through its recyclable Met residues, resulting

275 s of the initial gold-promoted adduct of the oxidant to alkyne, including its fragmentation into a hi

276 RimO uses this potent oxidant to catalyze the attachment of a methylthio group

277 enerated carbazole radical cation acts as an oxidant to return the photocatalyst into the original st

278 onversion of benzene, ethylene, and a Cu(II) oxidant to styrene using the Rh(I) catalyst ((Fl)DAB)Rh(

279 a PA14, antibiotics called phenazines act as oxidants to balance the intracellular redox state of cel

280 The response of tropospheric oxidants to climate change is poorly constrained owing t

281 ymes tune redox-active cofactors and recruit oxidants to improve the specificity and efficiency of di

282 catalysts are used in the presence of strong oxidants to presumably generate phosphine Au(III) interm

283 hat the addition of peracetic acid, a strong oxidant, to mild dilute acid pretreatment reduces the te

284 ecreases stop codon read-through and rescues oxidant tolerance consistent with this model.

285 es scavenging and confers enhanced metal and oxidant tolerance to plants.

286 mponents of the SKI complex are required for oxidant tolerance.

287 H and Mn(IV)-oxo species by channeling these oxidants toward the synthesis of a functionally equivale

288 Anti-oxidant treatment, Kupffer cell depletion, Tnfr1 deletio

289 single-molecule conductance through an acid oxidant triggered phenothiazine (PTZ-) based radical jun

290 lyst (30 mol %) and dimethyl sulfoxide as an oxidant under metal-free reaction conditions.

291 avoiding the use of stoichiometric silver(I) oxidants under ambient conditions.

292 lyst in the presence or absence of hazardous oxidants under sensitive reaction conditions.

293 It was previously shown that the active oxidant used by CmlI to facilitate this chemistry is a p

294 catalytic amount of I2 and TBHP as the green oxidant via the C-H bond cleavage of the benzylic carbon

295 nd Cl(*)ads) and homogeneous (HOCl and HOBr) oxidants was evaluated on Ti-IrO2 and boron-doped diamon

296 ions using ambient pressure O2 or air as the oxidant while producing water as the only by-product.

297 e appears to exploit this H2O2 as a terminal oxidant while simultaneously defending the cell against

298 s exponentially upon depletion of the peroxo oxidant with a rate constant that is substrate independe

299 netics and products of the reaction of these oxidants with PDI remain incompletely characterized, we

300 catalysis, in which O2 serves as a chemical oxidant without necessitating incorporation of oxygen in