ライフサイエンスコーパス: oxidant

1 sence of ceric ammonium nitrate (CAN) as the oxidant.

2 ride source and m-CPBA as the stoichiometric oxidant.

3 onditions with oxygen (O(2)) as the terminal oxidant.

4 al defects by employing ozone as a secondary oxidant.

5 onditions, and the nature of the solvent and oxidant.

6 ) as the catalyst and oxygen as the terminal oxidant.

7 HPI as the cocatalyst and oxygen as the sole oxidant.

8 at least stoichiometric amounts of a strong oxidant.

9 (4) the use of molecular oxygen as the sole oxidant.

10 basicity than to the redox potential of the oxidant.

11 ariant no longer functions as a two-electron oxidant.

12 without the need for any external metal/base/oxidant.

13 paired with an unconventional bromothiophene oxidant.

14 ed proline residues between tyrosine and the oxidant.

15 uminescent 1,2-dioxetane as a stoichiometric oxidant.

16 -C=CR via radical relay with (t)BuOO(t)Bu as oxidant.

17 mild conditions with oxygen as the terminal oxidant.

18 s, wherein it serves as an in situ generated oxidant.

19 used as probes to track isotopically labeled oxidants.

20 f stoichiometric amounts of strong and toxic oxidants.

21 quired for insulin to increase mitochondrial oxidants.

22 addition of stoichiometric amounts of 1e(-) oxidants.

23 od yields without the use of any heavy metal oxidants.

24 r the detection of nucleophilic two-electron oxidants.

25 espiration, in turn generating mitochondrial oxidants.

26 ozone (O(3)) and hydroxyl radical ((*)OH) as oxidants.

27 cal fluorination conditions of HF and strong oxidants.

28 at are comparable to other high-valent metal oxidants.

29 ategorization of these metal adducts as weak oxidants.

30 drogen gas and avoids the use of sacrificial oxidants.

31 yanation without the need for stoichiometric oxidants.

32 environment, including exposure to heat and oxidants.

33 fluorenyl-benzoates and varying outer-sphere oxidants.

34 d clean oxidant, an alternative to inorganic oxidants.

35 react with and detoxify otherwise injurious oxidants.

36 om those proposed for typical high-potential oxidants.

37 d to be considered when developing effective oxidants.

38 the incorporation of oxygen atoms from these oxidants.

39 nd one proton (H(+)) equivalent and no added oxidants.

40 rt5 were resistant to inhibition by cysteine oxidants.

41 e of host stresses, such as protein-damaging oxidants.

42 ding to the formation of a powerful Fe(V) =O oxidant-a possible role for the second iron in sMMO.

43 nstrains the CO(2)/N(2) ratio, not the total oxidant abundance.

44 lemented: (1) purposeful design of substrate/oxidant access to the binding site and (2) limiting dele

45 6%, and exceptional stability against strong oxidants, acids and bases, as well as polar solvents.

46 with necroinflammatory, fibrogenic, and pro-oxidant activity via the NADPH oxidase 4.

47 of exogeneous photosensitizers and external oxidants, allows for efficient and highly regio- and ste

48 on of pNaKtide which targets the Na/K-ATPase oxidant amplification loop (NKAL) was able to decrease s

49 n has been explored as an economic and clean oxidant, an alternative to inorganic oxidants.

50 xcess (up to 99%) using hydrogen peroxide as oxidant and a Bronsted acid additive under mild conditio

51 ransfer between an N-alkoxyphthalimide-based oxidant and a chloride hydrogen atom transfer catalyst.

52 e aminoxyl serving as both a single-electron oxidant and a radical group transfer agent.

53 dosylbenzene as a nontoxic iodine(III)-based oxidant and ammonium iodide as a cheap iodine atom sourc

54 s medium using hydrogen peroxide as a benign oxidant and ammonium thiocyanate as a thiocyanating agen

55 tive procedure avoids the use of an external oxidant and displays excellent functional group compatib

56 ether hyperglycemia leads to accentuation of oxidant and ER stress while these boost each other's act

57 from, tubulointerstitial injury by dampening oxidant and ER stress, which mutually enhance each other

58 ation in acute tubular injury is mediated by oxidant and ER stress.

59 he use of air that is considered as a benign oxidant and EtOH as a green solvent, ease of product sep

60 directly from halide sources with a chemical oxidant and fully characterized with single-crystal X-ra

61 makes it possible to avoid using O(2) and an oxidant and generating H(2) O(2) as a byproduct, both of

62 f Mn(III) cooxidant and oxygen as a terminal oxidant and proceeds with full preservation of original

63 alkynes, without the presence of an external oxidant and promoted through cooperative actions of two

64 -3-acyl-4-phenylquinolines using PhIO as the oxidant and selectfluor as an additive is reported.

65 Ang II increased oxidation of DJ1, dual anti-oxidant and signaling molecule, through lipid raft/caveo

66 mponents of the reaction through varying the oxidant and the substituent, respectively, impacts the P

67 e the identification of more than one active oxidant and three disparate mechanisms for catalyst deco

68 s indicate that LPMOs can use H(2)O(2) as an oxidant and thus carry out a novel type of peroxygenase

69 TPA) radical cations show great potential as oxidants and as spin-containing units in polymer magnets

70 xpressing YpdA showed increased tolerance to oxidants and electrophilic agents.

71 xide promotes exfoliation, it requires harsh oxidants and leaves the graphene with a defective perfor

72 nsformation avoids the use of added chemical oxidants and liberates hydrogen gas as the only byproduc

73 g lack of mono-selectivity, use of expensive oxidants and limited scope(6-13).

74 composition, but the selectivity of the two oxidants and mechanisms of reactivity with DOM moieties

75 ochemical condition, avoiding toxic chemical oxidants and metal by-products.

76 that are not compatible with strong chemical oxidants and potentiates the versatility of gold redox c

77 An imbalance of cellular oxidants and reductants causes redox stress, which must

78 lemma of optimizing H(2)O(2) (an added photo-oxidant) and chloramines (a carry-over photo-oxidant) do

79 s (ROS), were hypersensitive to iron and pro-oxidants, and accumulated oxidatively damaged lipids bec

80 idase, which generates microbicidal reactive oxidants, and nonoxidant pathways that target microbes t

81 method does not require any strong acids or oxidants, and shows high atom economy and a broad substr

82 sustaining life in these characteristically oxidant- and energy-limited systems.

83 A new metal-, oxidant-, and solvent-free ecofriendly domino method has

84 my suggests an alteration of the intraocular oxidant-antioxidant balance.

85 opper(II) catalyst, and the use of air as an oxidant are the important practical features.

86 However, synthetic mimics of such diiron(IV) oxidants are rare.

87 When SO(4)(*-) was used as the oxidant, aromatic organosulfates also were formed.

88 Recent studies have proposed mitochondrial oxidants as a unifying driver of adipose insulin resista

89 ruit and bush pruning residues acting as pro-oxidants as measured by the hydroperoxides levels.

90 Here, peroxides serve the dual role of oxidants as well as alkylating or arylating agents.

91 en peroxide (H(2)O(2)) are regarded as major oxidants associated with secondary organic aerosols (SOA

92 sitization by covalent attachment of a photo-oxidant at position 355[beta].

93 on PAHs (i.e., the carbon where atmospheric oxidants attack), and hence the chemoselectivity of the

94 rtant, potentially increasing PM(2.5), while oxidant availability driving RO(2) formation rates simul

95 g intracellular iron availability through an oxidant-based mechanism.

96 of CKD mice, which coincided with decreased oxidant buffering.

97 es, As(III) and Mn(II) also competed for the oxidants, but Mn(III) behaved as a reactive intermediate

98 t the oxidation of alkenes with water as the oxidant by using a catalyst combination of a dearomatize

99 Excessive generation of oxidants by immune cells results in acute tissue damage.

100 ic reactive species (i.e., free radicals and oxidants) by activated macrophages and neutrophils is a

101 ate sulfate radicals (SO(4)(*-)), a powerful oxidant capable of degrading a broad array of environmen

102 onate radical anion is a potent one-electron oxidant capable of generating base radical cations that

103 or oxidative deamination, using water as the oxidant, catalyzed by a ruthenium pincer complex.

104 ompound (VOC) concentrations compensated low oxidant concentrations indoors to result in an appreciab

105 concentration than UV/H(2)O(2) at equivalent oxidant concentrations, with CH(3)C(O)OO(*) as the most

106 bility to provide anti-inflammatory and anti-oxidant cues.

107 he reaction was performed with an additional oxidant, DDQ, and quinoxalines were prepared from 1,2-di

108 nd Mn(II) plays a crucial role in catalyzing oxidant decomposition and then producing greater amounts

109 upregulation of mitochondrial-specific anti-oxidant defence enzymes (MnSOD; P < 0.01).

110 eads to Nrf2 activation, which bolsters anti-oxidant defense and cell survival.

111 associated mutations that stabilize NRF2, an oxidant defense transcription factor, are predicted to p

112 ates that these complexes act as 2H(+)/2e(-) oxidants, differing from the 1H(+)/1e(-) reactivity of w

113 e(VI) (Fe(VI)O(4)(2), Fe(VI)) is an emerging oxidant/disinfectant to treat a wide range of contaminan

114 n of an SiO(x) interface) by controlling the oxidant dose in the first few ALD cycles of the oxide de

115 oxidant) and chloramines (a carry-over photo-oxidant) doses.

116 binds to both the coupling partners and the oxidant during the key oxidative coupling step is postul

117 protects RP from the action of water and pro-oxidants during simmering.

118 o a single electron transfer (SET) with mild oxidants ( E < -1.0 V).

119 Peroxymonosulfate is a strong oxidant (E(H)(0) = 1.82 V for HSO(5)(-), the predominant

120 large changes observed when O(3) is the main oxidant (e.g., EDC decreases 63-77% for 1.3 mg-O(3)/mg-C

121 lar, many are synthetically useful either as oxidants (e.g., Cp(2)Fe(+)) or as reductants (e.g., Cp(2

122 This pro-oxidant effect of antioxidants was, even in the absence

123 l groups of HD, and kill cancer cells by pro-oxidant effects.

124 We propose that renal accumulation of pro-oxidant elements such as arsenic and depletion of anti-o

125 ements such as arsenic and depletion of anti-oxidant elements such as zinc, underpin the high inciden

126 Using a mixture of NO + O(2) as the oxidant enabled the direct selective oxidation of methan

127 r-Julesberg Basin, finding that additions of oxidant enhanced halogenation.

128 t metabolic challenge with exposure to a pro-oxidant environment and the increased energy demands for

129 S) through HIF-1-dependent activation of pro-oxidant enzyme genes in addition to reduced transcriptio

130 enal functions with kidneys having increased oxidant/ER stress, as reflected by DCF/dihydroethidium s

131 One mechanism by which oxidant exposure could have long-term effects is modulat

132 n-3 PUFAs), as well as adverse prenatal pro-oxidant exposures that might alter the risk of asthma an

133 resistance, glucose-dependent mitochondrial oxidants failed to cause insulin resistance.

134 imines through the action of a simple ketone oxidant, followed by alkylation with a beta-ketoacid und

135 ers on B(2)O(3) surfaces acts as a judicious oxidant for methane activation with mitigated CO(2) form

136 s, with the latter proposed to be the active oxidant for most of these systems.

137 imethylhydantoin was found to be the optimal oxidant for preparation of those 2-azido-2-deoxy-d-manno

138 -butyl hydrogen peroxide is used as the sole oxidant for these reactions.

139 d aryl diselenides are catalytic (5.0 mol %) oxidants for the construction of esters from carboxylic

140 croscopy (SECM) provided near-surface pH and oxidant formation measurements under anodic and cathodic

141 (3) produced), resulting in large impacts on oxidant formation, especially over forested regions.

142 Under cathodic conditions, the primary oxidant formed was H(2)O(2), and under anodic conditions

143 robes could enable precise identification of oxidants formed in biological systems.

144 Ethers undergo oxidant-free coupling with isoquinolines, alkenes, alkyn

145 udy reveals a transition-metal- and external oxidant-free electrochemical method for the C3-H sulfony

146 yne insertion and aza-Michael addition under oxidant-free mild reaction conditions.

147 A metal- and oxidant-free photoinduced strategy for thioxo sulfur-sel

148 A transition metal- and oxidant-free visible light-photoinduced protocol for dir

149 spontaneous ignition when in contact with an oxidant, from typically non-hypergolic fuel molecules.

150 The result is a material with a balanced oxidant/fuel ratio in which the components maintain inti

151 dary alcohols in the absence of any external oxidants furnished the tetrasubstituted alkene as the ma

152 se results indicate that immune cell-derived oxidants generated during inflammation have the potentia

153 A surge in the accumulation of oxidants generates shifts in the cellular redox potentia

154 thiated amines are first exposed to a ketone oxidant, generating transient imines that are subsequent

155 levant to the troposphere, since its initial oxidant generation is similar to stratosphere.

156 rwhelming decrease in the expression of anti-oxidant genes regulated by NRF2 and those of the acute p

157 f MMT1 and MMT2 We show that exposure to the oxidant H(2)O(2) induced MMT1 expression but not MMT2 ex

158 t and K(2)S(2)O(8)/di- tert-butylperoxide as oxidant has been achieved.

159 DNA structure towards OH radicals as the pro-oxidants has been utilized as the detection principle of

160 les efficient use of molecular oxygen as the oxidant, high reaction yields, and >1900 turnovers by th

161 sion increased after incubation with the pro-oxidant hydrogen peroxide (H(2)O(2)).

162 by UV light after being exposed to a strong oxidant, hydrogen peroxide (H(2)O(2)).

163 died the reaction between DMS and the strong oxidant hypobromous acid (HOBr), which is also produced

164 oxidize chloride to the potent bactericidal oxidant hypochlorous acid (HOCl).

165 ertain tertiary amines in the presence of an oxidant (I(2)) to afford the boron-modified phosphodiest

166 ngle-catalyst methods require stoichiometric oxidant in addition to hydride (H(-)) source to function

167 acac)(2) or Co(acac)(2) and Ag(2)CO(3) as an oxidant in alpha,alpha,alpha-trifluorotoluene.

168 uperoxide adduct is thought to be the active oxidant in both TDO and IDO, which, following O-O bond c

169 While 1 is a sluggish oxidant in oxidation reactions, it becomes a competent o

170 oxidation reactions, it becomes a competent oxidant in oxygen atom transfer reactions, such as olefi

171 tomic oxygen, O, is the most abundant strong oxidant in the upper atmosphere, rather than O(2) But da

172 e both nitrite and nitric oxide are proposed oxidants in denitrifying methane oxidation, the oxidativ

173 tes with a terminal metal-oxo moiety are key oxidants in many enzymatic and synthetic C-H bond oxidat

174 occurred in understanding the role of these oxidants in physiology and disease, including the nervou

175 tivators (carbon dioxide, electrophiles, and oxidants) in normoxia.

176 ying phases, and the use of O(2) as a benign oxidant, in addition to being scalable and having a high

177 gest that CO(2) itself may also serve as the oxidant, in which case micrometeorite oxidation really c

178 ntly, silencing of OMA1 expression increased oxidant-induced cell death, indicating that stress-induc

179 fy Mn(2+) as a factor capable of attenuating oxidant-induced Fe(2+)-mediated degradation of rRNA.

180 yaluronidase activity prevented hypoxia- and oxidant-induced proliferation.

181 Both oxidants inhibited DNA methyltransferase 1 activity, but

182 ed that (*)OH, instead of SO(4)(*-), was the oxidant initiating the reaction of 6:2 FTS.

183 Here, applying oxidant insult that induces OPA1 cleavage, we show that

184 ing the role of quinones from stoichiometric oxidants into catalytic single-electron acceptors.

185 iron elevation in the tissue, increases pro-oxidant iron burden in AD.

186 dicate that co-electrolysis of CO(2) with an oxidant is a promising strategy to introduce catalytical

187 a substrate C-H bond by high-valent iron-oxo oxidants is already encoded in the HAA step when the pos

188 Exposure of biological molecules to oxidants is inevitable and therefore commonplace.

189 te in part from the requirement for stronger oxidants, leading to a smaller hole-transfer effective t

190 and oxidative stress, whereby mitochondrial oxidant levels do not rise with increased respiration un

191 ironmentally friendly and deals with greener oxidants like oxygen, affording 1,4-ketocarbonyls as a v

192 se results suggest that nitric oxide-derived oxidants may causatively link nuclear and cytosolic sirt

193 gainst one of the most powerful neutrophilic oxidants may provide novel insights into treatment optio

194 anscription factor Yap1 as being involved in oxidant-mediated MMT1 expression.

195 promoter that are necessary for low-iron- or oxidant-mediated MMT1 expression.

196 lly divergent series of ferric heme superoxo oxidants mediates the facile conversion of an array of i

197 ned by the cellular balance of pro- and anti-oxidant metabolites.

198 Arsenic is a pro-oxidant metallic element.

199 ifferences in renal handling of pro vs. anti-oxidant minerals between cats and dogs, further in vivo

200 l light source (blue LED), and a sustainable oxidant (molecular oxygen).

201 her determined the role of peroxynitrite, an oxidant molecule generated from the reaction between nit

202 dation pathways in reactions with the atomic oxidant N(2)O.

203 vities reported in the literature for strong oxidants (N(2) O, H(2) O(2) , O(3) ).

204 temporal relationship whereby mitochondrial oxidants needed to increase before the insulin stimulus

205 iogenic, noncrystalline UO(2)(s) by chemical oxidants (nitrate and/or nitrite) or by Thiobacillus den

206 ndoor chemistry by reducing indoor levels of oxidants (NO(2), O(3)) and reactive organics of indoor o

207 as the oxygen atom carrier for the ultimate oxidant O(2) .

208 e ability of Pd(II) to serve as an effective oxidant of organic molecules in catalytic reactions.

209 DsbA acts as the periplasmic oxidant of periplasmic substrate proteins.

210 it is important to understand the effect of oxidants on OGG1 and the role of cysteines in its struct

211 s can be a significant source of atmospheric oxidants on par with natural organic matter.

212 n be easily employed to study the effects of oxidants on recombinant proteins and cell and tissue ext

213 te (NaOCl), and strong (KMnO(4)) groundwater oxidants on the fate of As during As(III), Fe(II), and M

214 that triplet sensitizers act as one-electron oxidants on the sulfinate S lone pair.

215 global transcriptomic changes incurred upon oxidant or electrophile stimulation.

216 lizing effects of additives like drugs, anti-oxidants or preservatives, and no structure-based ration

217 ction conditions without any metal catalyst, oxidants, or additives.

218 on of mitochondrial homeostasis by the model oxidant paraquat results in decreased angiogenesis, show

219 f this article indicate that the use of F(+) oxidants permits the challenging C(sp(3))-OC(sp(3)) bond

220 rosis factor alpha (TNF-alpha) or the strong oxidant pervanadate leads to loss of cell-surface EMCN a

221 this end, we investigated the effect of two oxidants produced by neutrophils, H(2)O(2) and glycine c

222 The multiple reactive oxidants produced during chlorine photolysis effectively

223 supercomplex instability, and mitochondrial oxidant production and shed new light on the distinct me

224 ver, neither the substrates for nor sites of oxidant production are known.

225 PM-induced oxidant production is a key mechanism behind the observe

226 Low cholesterol efflux capacity values, pro-oxidant/proinflammatory HDL particles, and low HDL level

227 possess excellent anti-inflammatory and anti-oxidant properties which are of great interest in treati

228 promote ER stress and (3) the emerging anti-oxidant property of deoxyuridine, we further investigate

229 Oxidants react with cysteine residues of proteins to for

230 Both oxidants react with dissolved organic matter (DOM) and a

231 f this method are the use of an eco-friendly oxidant, reaction tunability to access different product

232 reactions that use inexpensive and practical oxidants remains a significant challenge.

233 degrees C), and dissolved oxygen is the only oxidant required.

234 last 120 My of change in the ocean's largest oxidant reservoir.

235 cting nutrients and lowering the cells' anti-oxidant response capacity.

236 Its promoter includes oxidant-response elements, and we also discovered bindin

237 Somewhat contradicting the need for oxidant scavenging are previous observations that expres

238 tions, SIRT3 upregulation and SIRT3-mediated oxidant scavenging are required for anoikis resistance i

239 on-sensing transcription factor Aft1 and the oxidant-sensing transcription factor Yap1.

240 Acid- or oxidant-sensitive functional groups, such as 4-methoxyph

241 ether, our results identify a novel role for oxidant signaling in the regulation of synaptic AMPAR tr

242 n in inflammatory cytokines, better reactive oxidant species regulation and maintenance of the balanc

243 ersion of the boronate-based redox probes to oxidant-specific products.

244 stored in 70% O(2)/30% CO(2) and total anti-oxidant status in vacuum stored meat.

245 om nonspecific anabolic or anti-inflammatory/oxidant strategies to cutting-edge molecular therapies t

246 myopathy and anemia in the mice, introducing oxidant stress and an altered molecular phenotype of adi

247 Urinary measures of oxidant stress are not associated with worsening GFR ove

248 to generate action potentials, which lead to oxidant stress by yet unknown pathways.

249 asis become impaired with aging, exaggerated oxidant stress may cause disproportional oxidation of ce

250 imit their value in evaluating the impact of oxidant stress on CKD progression in children.

251 othelial cells in response to DNA damage and oxidant stress regulated in part by a BMPR2 dependent tr

252 ctor (Nrf2) in TRPM2-mediated suppression of oxidant stress was explored.

253 ed that chronic kidney disease (CKD) induces oxidant stress which contributes to the decline in kidne

254 l associations between urinary biomarkers of oxidant stress, 8-OH deoxyguanosine (8-OHdG) and F2-isop

255 rn diet significantly worsened the adipocyte oxidant stress, but expression of NaKtide in adipocytes

256 ct to hyperlipidaemic, inflammatory, and pro-oxidant stressors.

257 s of HFIP allowed the utilization of a green oxidant such as H(2)O(2), and the products, arising from

258 y partial oxidations often need an expensive oxidant such as peroxides or other species to drive such

259 nd does not require any sacrificial external oxidants such as Ag(I) or Mn(III) salts.

260 concentrations of photochemically generated oxidants such as hydroxyl radicals, ultimately leading t

261 abiotic reactions of organic pollutants with oxidants such as ozone or hydroxyl radicals by compound-

262 ed species, which allows utilization of weak oxidants such as TEMPO.

263 Because ozone is a common atmospheric oxidant, such compounds may be oxidized on contact with

264 per)stoichiometric quantities of undesirable oxidants, such as benzoquinone and silver(I) salts.

265 drinking water and can efficiently scavenge oxidants, such as permanganate.

266 hat disulfides without a GSH are much slower oxidants, suggesting a strongly selective binding of the

267 -valent diiron(IV) intermediate Q is the key oxidant that cleaves strong C-H bonds of methane in the

268 s subsequent conversion to Q, the diiron(IV) oxidant that hydroxylates methane.

269 omide to hypobromous acid (HOBr), a powerful oxidant that promotes the formation of the sulfilimine c

270 etals have been recently described as strong oxidants that activate C-H bonds.

271 roducts: not only carbon-rich nanoparticles, oxidants that may destroy nitric oxide and impair endoth

272 iron enzymes generate powerful and versatile oxidants that perform a wide range of oxidation reaction

273 DNA in proliferating cells can be altered by oxidants that target DNA methyltransferase activity or d

274 radiol scaffold where other non-directed C-H oxidants that tolerate aromatic groups effect oxidation

275 presence of sodium persulfate as a terminal oxidant, the N-acyl pyrazoles could be prepared efficien

276 denced by increased availability of food and oxidants, the appearance of macroscopic animals, signifi

277 e methylated spirits are already a known pro-oxidant, these data indicate that eucalyptus oil may als

278 the dual role of peroxide as nucleophile and oxidant through an orchestrated reaction sequence.

279 r cochleae that could be corrected with anti-oxidants, thus non-invasively indicating cochlear oxidat

280 nyls where aerial oxygen played a role of an oxidant to install the keto-oxygen functionality.

281 xpensive tert-butyl hydrogen peroxide as the oxidant to promote the desired selective reductive elimi

282 e H(2)O(2) from H(2) and O(2) and supply the oxidant to the engineered unspecific heme-thiolate perox

283 We previously employed traditional chemical oxidants to achieve multiple-site concerted proton-elect

284 tivity, often through the use of high valent oxidants to activate these inert bonds.

285 en, (1)O(2), a major photochemically derived oxidant toward amino acids.

286 ic cats appear to have greater levels of pro-oxidant trace elements, as compared to dogs and wildcats

287 r, the timing and site(s) to target for anti-oxidant treatment in vivo are not clear.

288 ct oxidation of the fuel or reduction of the oxidant, typically O(2), in bulk solution.

289 Using H(2)O(2) as oxidant, up to ~300 turnovers for the oxidation of benzy

290 nerate higher-than-ambient concentrations of oxidants via H(2)O, O(2) and O(3) photolysis by low-pres

291 A mechanism with (*)OH as the dominant oxidant was proposed: FeS(2) core-shell nanoparticles se

292 hibited excellent durability when a chemical oxidant was used (Ce(IV) , 7400 turnovers, TOF 0.88 s(-1

293 indicate that in addition to serving as the oxidant, water also plays an important role in assisting

294 dating the role of ClpB in Mtb's response to oxidants, we show that HtpG, a homolog of Hsp90, plays a

295 ensity because of their lightweight fuel and oxidant, which can be refueled instantly when applied in

296 This process produces reactive oxidants, which oxidize As(III) and Fe(II) to As(V) and

297 e), were found to be remarkably strong photo-oxidants with enhanced light absorption in the visible r

298 wn that the function of OGG1 is sensitive to oxidants, with the cysteine residues of OGG1 being the m

299 l evidence for the selectivity of O(3) as an oxidant within DOM.

300 exogenous and endogenous stresses, including oxidants, xenobiotics, and excessive nutrient/metabolite