ライフサイエンスコーパス: oxidize

1 and 4-MeO-PBN-CH(2)NHAc were the easiest to oxidize.

2 relatively easier to reduce but difficult to oxidize.

3 to escape out until emulsions were extremely oxidized.

4 First, guanine of a G:C DNA base pair can be oxidized.

5 ta(2)GPI purified under native conditions is oxidized.

6 h reduced (134)Ce(III)) or (227)Th(IV) (with oxidized (134)Ce(IV)).

7 The heme-peptide fragment then oxidized 2,2'-azino-bis(3-ethylbenzothiazoline-6-sulphon

8 e absence of a reducing agent, dG(N(1)-H)(*) oxidizes 3, decreasing the dG yield to ~50%.

9 (TET) family enzymes (TET1, TET2, and TET3) oxidize 5-methylcytosine (5mC) and generate 5-hydroxymet

10 cation), which promotes DNA demethylation by oxidizing 5-methylcytosine (5mC) to 5-hydroxymethycytosi

11 1 (TET1) plays a part in these processes by oxidizing 5-methylcytosine (5mC) to 5-hydroxymethylcytos

12 en-eleven translocation (TET) enzymes, which oxidize 5mC on DNA could mediate KIR promoter demethylat

13 tional theory calculations showed that (*)OH oxidizes 6:2 FTS by H-abstraction from ethyl carbons.

14 me photoexcited, then directly or indirectly oxidize a volatile organic compound (VOC), resulting in

15 rgeted metabolomics that the mammalian brain oxidizes a substantial quantity of long-chain fatty acid

16 up with an experimental demonstration of the oxidizing ability of S via hydrogen atom transfer (HAT)

17 eling only allows for moderately reducing or oxidizing accretionary conditions, ruling out the need f

18 drochlorination in the absence of the highly oxidizing acidic solvents previously used.

19 r demonstrate that MsrB2 selectively reduces oxidized actin monomers and thereby counteracts MICAL1,

20 tals on GAC, can be achieved by impregnating oxidized activated carbon with carboxylated benzotriazol

21 Its excellent H(2)-oxidizing activity begins only once a substantial overpo

22 Potassium bromate, is an oxidizing agent and one of the best and cheapest dough i

23 act of several nitroxyl donors and the thiol-oxidizing agent diamide on cardiac myocyte protein phosp

24 tetrachloro-p-benzoquinone (chloranil) as an oxidizing agent.

25 ctrons from Ce 4f orbitals and likely became oxidizing agents that greatly inhibited the original sur

26 Nitrates are widely used as fertilizer and oxidizing agents.

27 This is the first time that oxidized AGT in human plasma has been linked directly to

28 ssure were correlated with the proportion of oxidized AGT; no such correlation was seen in the normot

29 Under oxic conditions, methanotrophs mainly oxidize ammonia to nitrite, whereas in hypoxic and anoxi

30 scribe the utilization of a photocatalyst to oxidize an organopalladium(II) intermediate to high-vale

31 nce for in situ growth of anaerobic ammonium-oxidizing (anammox) bacteria in ~80,000-y-old subsurface

32 ontaining cysteine (Cys) residues, which can oxidize and form disulfide bonds with other Cys residues

33 face of these boron-containing ODH catalysts oxidize and hydrolyze under reaction conditions, forming

34 that (i) the Out and In states correspond to oxidized and reduced RsrR, respectively, (ii) His33 is p

35 -carbyne complex (P(6)ArC)Fe(2)(mu-H) can be oxidized and reduced, allowing for the first time spectr

36 l-Ascorbate, a lactone, is oxidized and ring-opened by enzymes in the cytochrome b(

37 with the as-prepared FeTHQ than with the air-oxidized and sodium naphthalenide-reduced samples.

38 u accumulated on/in the macrophytes where it oxidized and transferred over time to surficial sediment

39 on approaches, such as continuous heating in oxidizing and reducing environments, face challenges inc

40 inase A-hyperphosphorylated, S-nitrosylated, oxidized, and depleted of its stabilizing subunit calsta

41 ocycles can be electrochemically reduced and oxidized, and photoluminesce with a blue color.

42 lectron hopping contribution from reduced to oxidized AQDS molecules.

43 hese materials by impregnation from strongly oxidizing aqueous solutions or pH-controlled deposition

44 These anaerobic multi-carbon alkane-oxidizing archaea (ANKA) use enzymes homologous to MCR n

45 production, vary within and between ammonia-oxidizing archaea (AOA) and bacteria (AOB) and comammox

46 shared ecological niche-for example, ammonia-oxidizing archaea.

47 rved with KMnO(4) (40 muM), which completely oxidized As(III) and yielded residual As concentrations

48 TaAA9A oxidizes ascorbate at a rate similar to free copper but

49 icroscopy suggests that when the catalyst is oxidized at 1073 K, the Pt crystallites are oriented wit

50 tional and cross-linking monomers, which are oxidized at sufficiently low potentials.

51 concentrations probably promoted complete S-oxidizing autotrophic denitrification at the sulfide int

52 Ammonia oxidizing bacteria (AOB) and archaea (AOA) present a con

53 itrogen source for MP production by hydrogen-oxidizing bacteria (HOB) was evaluated.

54 ree nitrous acid (FNA) inhibition on nitrite-oxidizing bacteria (NOB).

55 sABG formate dehydrogenase from the hydrogen-oxidizing bacterium Cupriavidus necator H16 both with an

56 as purified from the haloalkaliphilic sulfur-oxidizing bacterium of the genus Thioalkalivibrio ubiqui

57 ER proteins, and G4 structures revealed that oxidized base-derived AP site damage and binding of OGG1

58 chanism that reads and ultimately erases the oxidized base.

59 ome integrity during replication by excising oxidized bases from single-stranded DNA (ssDNA) and unho

60 tor function, and which post-translationally oxidizes beta2AR cysteine thiols to Cys-S-sulfenic acids

61 based on a CT complex of reduced ET-FAD and oxidized Bf-FAD.

62 Peroxidasin is a heme peroxidase that oxidizes bromide to hypobromous acid (HOBr), a powerful

63 hat normal fused sapphyrins are difficult to oxidize but easier to reduce compared to inverted fused

64 rial L-AHG catabolic pathway, L-AHG is first oxidized by a NAD(P)(+)-dependent dehydrogenase (AHGD),

65 HCN was proven to be oxidized by lattice oxygen of the catalyst to CO(2) and

66 hotosynthetic reaction centre that are photo-oxidized by light.

67 ng aromatic compounds and alkylbenzenes were oxidized by permanganate to form nitrogen-containing ali

68 d by DNA methyltransferases and subsequently oxidized by TET proteins.

69 um, exogenously added polyamines are quickly oxidized by the copper-containing bovine serum amine oxi

70 with visible light, can be either reduced or oxidized by the HAT and nickel catalysts, respectively,

71 7 and 52.0 % for ethylene when the CuNWs are oxidized by the O(2) from air and aqueous H(2) O(2) , re

72 is a ubiquitous iron sulfide mineral that is oxidized by trace oxygen.

73 This complex can be oxidized by two electrons with either mesityl azide or n

74 In order to justify the potential of oxidized C(60) derivatives for bio-applications, we inve

75 72-92%) and 33% (16-53%) enrichment of N and oxidized C, respectively, indicate different stabilizati

76 an areas, further increasing the atmospheric oxidizing capacity and facilitating secondary aerosol fo

77 Is can significantly impact the tropospheric oxidizing capacity, enhance particulate formation, and d

78 AtGA2ox9 oxidizes carbon-20 to form tricarboxylic acid C(20)-GAs,

79 glycation endproduct (AGE-) modified, and 20 oxidized/carbonylated peptides representing 44 proteins

80 ible methionine oxidation during excessively-oxidizing cellular conditions, and we map the site of th

81 The highly oxidizing, charge-separated state generated within its r

82 nds upon their reactivity in the presence of oxidizing chemical species and microbial catalysts.

83 es comprehensive analysis of an artificially oxidized CL extract of bovine heart.

84 better understand the physiological role of oxidized CL.

85 The oxidized CNFs were utilized as dopants of PEDOT to prepa

86 is irreversible due to proton loss from the oxidized complex to the solvent.

87 observed from reduced components to aromatic oxidized compounds isolated at pH 7 and 2, respectively.

88 ly reproducible, and led to various types of oxidized compounds.

89 More importantly, in these oxidizing conditions and in the negative mode, sulfonic

90 e between 150 and 500 degrees C subjected to oxidizing conditions by using in situ scanning transmiss

91 tivation of Fes1 activity during excessively-oxidizing conditions may help maintain protein-folding h

92 owing to diselenide-bond cleavage under the oxidizing conditions of the tumour microenvironment and

93 We show that, under both reducing and oxidizing conditions, GRN-3 and GRN-5 interact with and

94 isulfide bonds with other Cys residues under oxidizing conditions, thus potentially interfering with

95 ghlight the interactions between reduced and oxidized contaminants that can contribute to the co-occu

96 he presence of oxygen vacancies in partially oxidized CoO(x) films significantly enhances the CO oxid

97 e C-terminal sequence, but not its disulfide-oxidized counterpart that protects it, experiences inter

98 target of the antitoxin: Hha/TomB (antitoxin oxidizes Cys18 of the toxin), TglT/TakA (antitoxin phosp

99 These ROS then oxidize cysteine residues in proteins to potentiate down

100 e blood by transitioning between reduced and oxidized (cystine) forms.

101 The strong increase of oxidized cytosine bases (5hmC, 5fC, and 5caC) was accomp

102 Conveniently, these 2-electron-oxidized diazatitanacyclohexadiene intermediates can be

103 indicating that an individual's capacity to oxidize dietary fat is a metabolic determinant of weight

104 red to maintain normal levels of cystine-the oxidized dimer of cysteine-in melanosomes, and to produc

105 t a chemoenzymatic platform to access highly oxidized diterpenes by a hybrid oxidative approach that

106 nerates reactive oxygen species (ROS), which oxidize DNA and other cellular components.

107 As 1(4+) can directly photo-oxidize DNA without the mediation of singlet oxygen or o

108 Our study unravels a role of endogenous oxidized DNA bases and APE1 in controlling the formation

109 emoval of 8-oxoguanine, a commonly occurring oxidized DNA modification.

110 inct mechanisms by which naturally occurring oxidized dNTPs and therapeutic dNTPs inhibit telomerase-

111 analyses revealed that permanganate does not oxidize DOM alkene groups, suggesting permanganate acces

112 rboxylation) are observed and produce highly oxidized DOM (O:C > 1.0).

113 enerates a dihydrotriphenylene, which can be oxidized easily to a triphenylene.

114 s protecting the active-site thiols from the oxidizing environment of the periplasm.

115 ) ligand bound to Mo as found in the sulfite oxidizing enzymes of the same family.

116 ione by dichlorvos can decrease the reducing/oxidizing equilibrium of glutathione in liver extracts,

117 that the hybrid electrode system is able to oxidize ethanol to CO(2) after 10 h of electrolysis.

118 that reductive stress could be alleviated by oxidizing extracellular lactate to pyruvate.

119 ossible link between this phase and variably oxidized ferropericlase that is commonly trapped in supe

120 rom current models, which mainly invoke more oxidized fluids at convergent margins.

121 ysiological pH and salt concentrations, this oxidized form adopts a J-elongated, flexible conformatio

122 f the reduced form of AGT to its more active oxidized form is associated with inadequate antioxidant

123 from the acquisition and use of cystine, the oxidized form of cysteine, as a source of cellular sulfu

124 Easy regeneration of the oxidized form of the catalyst under aerobic/O(2) oxidati

125 (type-1 protein kinase A) can be reversibly oxidized, forming interprotein disulfide bonds in the ho

126 tmosphere as elemental mercury Hg(0) and its oxidized forms Hg(I) and Hg(II) .

127 ne, and trimethylarsine or the corresponding oxidized forms methylarsonate, dimethylarsinate, and tri

128 eady-state redox potential using reduced and oxidized forms of glutathione.

129 both arsenic and iron phases are present in oxidized forms, but manganese persists as reduced and so

130 Formula: see text]) measured from the plasma oxidized [Formula: see text] SETs in this work is remark

131 ent studies reveal that the mantle gradually oxidized from the Archean onwards, leading to speculatio

132 ypes and tolerance of electron-rich, readily oxidized functionalities, as well as in their safety and

133 in honey requires glucose oxidase (GOx) that oxidizes glucose to gluconolactone and reduces molecular

134 n oxidized redox-system, i.e., a low reduced/oxidized glutathione (GSH-GSSG) ratio.

135 are only thermodynamically stable for highly oxidized GO.

136 w-oxidation GQDs, and not at all for heavily oxidized GQDs.

137 Blood pressure, lipid panel, oxidized (GSH) & reduced glutathione (GSSG) were also ev

138 Here, we demonstrate that endogenous oxidized guanine bases in G4 sequences and the subsequen

139 d to the known replication errors because of oxidized guanine nucleosides (8-OHdGTPs).

140 The oxidized heterodimers are less stable than the unmodifie

141 measured Hg(0) and underestimation of 51% of oxidized Hg and ~66% of Hg(II) wet deposition.

142 e chemical cycling between the elemental and oxidized Hg forms in the atmosphere determines the scale

143 advances in the photochemistry of gas-phase oxidized Hg(I) and Hg(II) species postulate their photod

144 ds with polyunsaturated fatty acyl tails are oxidized in an iron-dependent manner.

145 and industrial phenolic contaminants and was oxidized in the presence of NaCl (0-5 mM).

146 y from the distal titin spring region become oxidized in vivo through the mechanism of unfolded domai

147 n two almost equally populated redox states: oxidized, in which all the disulfide bonds are formed, a

148 dimer with observable kinetics, but they are oxidized into a ketone derivative in the presence of atm

149 ile carbon species, while nitrogen atoms are oxidized into nitrate ions.

150 forms surface sulfite, which is subsequently oxidized into surface-SO(4)(2-) by transfer of a neutral

151 e NADP(+)-dependent VvAHGD could efficiently oxidize L-AHG.

152 Oxidized LDL (a LOX-1 ligand) increased angiotensin II-i

153 Apolipoprotein E, lipoprotein(a), oxidized LDL (low density lipoprotein)'s and large LDL p

154 licated pregnancies with elevated STBEVs and oxidized LDL levels (such as preeclampsia).

155 cept by immunizing experimental animals with oxidized LDL particles unexpectedly resulted in activati

156 multi-ligand scavenger receptor Lectin-like Oxidized LDL Receptor-1 (LOX-1) is associated with vascu

157 ltured endothelial cells through lectin-like oxidized LDL receptor-1 (LOX-1) signaling, and glycosyla

158 In univariate analyses, lower BMI and oxidized LDL, and higher waist-hip ratio, hsCRP, and zon

159 localization, resulting in a highly reactive oxidized ligand.

160 (PRXs), facilitate lignin polymerization by oxidizing lignin monomers (monolignols).

161 Because oxidized lipid mediators have also been implicated in th

162 organization in mixed lipid membranes of the oxidized lipid, 1-palmitoyl-2-glutaryl-sn-glycero-3-phos

163 Evaluation of oxidizing lipid systems in terms of the kinetics governi

164 death mechanism triggered by accumulation of oxidized lipids in cell membranes unless the lipid hydro

165 s of monocyte activation, T-cell activation, oxidized lipids, and gut integrity.

166 cytes are exposed to inflammatory cytokines, oxidized lipids, cholesterol crystals and other factors.

167 instance nitric oxide, hydrogen sulfide and oxidized lipids.

168 hyde dehydrogenase 3a2 (Aldh3a2) enzyme that oxidizes long-chain aliphatic aldehydes to prevent cellu

169 h sensitivity C-reactive protein (HsCRP) and oxidized low-density lipoprotein (Ox-LDL) in adolescents

170 tosis in response to sterile ligands such as oxidized low-density lipoprotein and damage-associated m

171 The proinflammatory cytokines and oxidized low-density lipoprotein significantly increased

172 activation, cellular adhesion, phagocytosis, oxidized low-density lipoprotein uptake, and expression

173 helial cells, phagocytic activity, uptake of oxidized low-density lipoprotein, and cytokine expressio

174 ompared with Lys-SNAs and simple mixtures of oxidized lysates with CpG-1826.

175 Results confirm the role of oxidized lysoPL of stressEVs in sterile inflammation tha

176 t synthesis target was taxadiene, the lowest oxidized member of the taxane family, followed by three

177 As a result, oxidized membrane lipids accumulate, leading to cell dea

178 ct day-to-day variability and diel cycles in oxidized mercury (0 to 200 pg m(-3)) and will be an impo

179 Unlike oxidized mercury measurements collected via the widely u

180 ls and had a 3-h average detection limit for oxidized mercury of 33 pg m(-3).

181 undation for rapid access to a wide range of oxidized meroterpenoids through the use of similar hybri

182 we report a modular synthesis of a suite of oxidized meroterpenoids using a hybrid synthetic strateg

183 encies (TOFs) up to 560 s(-1) and those that oxidize metal ions with low TOFs, ~1 s(-1) or less.

184 ration traditionally have relied upon highly oxidizing metals, ultraviolet radiation, or preformed pe

185 n stratified lakes, where they use oxygen to oxidize methane.

186 shwater lakes known to contain bacteria that oxidize methane.

187 e-dependent methanotrophs make a living from oxidizing methane via methanol to carbon dioxide.

188 ine into 5-hydroxymethylcytosine and further oxidize methylcytosines.

189 ure in concrete and the abundance of sulfide-oxidizing microorganisms was determined by DNA sequencin

190 member, a betaproteobacterium that does not oxidize Mn(II) alone, and designate it Ramlibacter litho

191 milar pattern of apoprotein cross-linking in oxidized murine HDL.

192 Here, we report that the NADH-oxidizing N-module of CI is turned over at a higher rate

193 complex I function, retaining the ability to oxidize NADH within the electron transport chain.

194 ernal NADH dehydrogenase)-like enzyme, Aifm2 oxidizes NADH to maintain high cytosolic NAD levels in s

195 of 2'-deoxyguanosine (dG), the most readily oxidized native nucleoside.

196 learly more sensitive to this gas due to its oxidizing nature.

197 In oxidized nDsbD, local frustration disrupts the packing o

198 l oxidation catalyst, the initial process of oxidizing Ni(OH)(2) to NiOOH requires a high potential o

199 promoted the activity of potential sulphide oxidizing nitrate reducers (Desulfobulbaceae, Acidiferro

200 ssions has led to reduction in deposition of oxidized nitrogen (NO(y), the sum of all oxidized nitrog

201 s of hydroxyl (OH) and hydroperoxy radicals, oxidized nitrogen species and organic peroxy radicals (R

202 of oxidized nitrogen (NO(y), the sum of all oxidized nitrogen species, except nitrous oxide [N(2)O])

203 Biomimetic flavin organocatalysts oxidize nitromethane to formaldehyde and NO(x)-providing

204 a reaction whereby nonsymbiotic haemoglobin oxidizes NO to nitrate.

205 chaea that have the ability to anaerobically oxidize non-methane multi-carbon alkanes such as ethane

206 8-dihydro-2'-guanosine (8-oxo-G) is a common oxidized nucleobase whose deoxyribonucleotide form, 8-ox

207 Reactive oxygen species (ROS) oxidize nucleotide triphosphate pools (e.g., 8-oxodGTP),

208 MutT homologue 1 (MTH1) removes oxidized nucleotides from the nucleotide pool and thereb

209 is known about DNA polymerases incorporating oxidized nucleotides in cells or how oxidized nucleotide

210 orating oxidized nucleotides in cells or how oxidized nucleotides in DNA become toxic.

211 lved in the metabolism of drugs and can also oxidize numerous steroids.

212 see text] reaction while producing the same oxidized oligosaccharide products.

213 lago (multicore) structural motifs are photo-oxidized on artificial seawater by the use of a solar si

214 n atmospheric oxidant, such compounds may be oxidized on contact with air to form new products that h

215 ibility to replace stoichiometric amounts of oxidizing or reducing reagents as well as electron trans

216 These divide into two groups: those that oxidize organic substrates with high turnover frequencie

217 Oxidized organic aerosol (OOA) is a major component of a

218 -188(Cys), which poises the P cluster in the oxidized P(+) state, demonstrated that the P cluster can

219 evealed that proteolysis mostly hampered the oxidized peptides rather than the deamidated ones during

220 thelium and describe that Lp(a), through its oxidized phospholipid content, activates arterial endoth

221 Here, we report that the self-encoded oxidized phospholipid oxPAPC alters the metabolism of ma

222 The oxidized Pol gamma becomes editing-deficient, displaying

223 m of nonapoptotic cell death associated with oxidized polyunsaturated phospholipids.

224 ical enzymatic strategy to unmask the strong oxidizing power of sMMO-Q necessary to attack the highly

225 CNTs are commonly oxidized prior to their use to enhance dispersion in pol

226 aim of this work was to study the native and oxidized procyanidins from coffee pulp with respect to c

227 he first study about characterization of the oxidized procyanidins from coffee pulp.

228 dation markers useful to characterization of oxidized procyanidins were observed in the procyanidins-

229 ns were presented with only a minor class of oxidized procyanidins.

230 d for the characterization of the native and oxidized procyanidins.

231 Functionalization of the oxidized products via cross-coupling methods demonstrate

232 HS increased the accumulation of ROS, total oxidized protein, apoptosis, and the expression of HSPs

233 ing), and oxidative stress (reduced cortical oxidized proteins and increased antioxidant enzymes supe

234 nowire growth can be achieved by heating and oxidizing pure gallium at high temperatures (~ 1000 degr

235 tant implications for cancer biology because oxidized purines in the nucleoside pool can significantl

236 Formation of the central highly oxidized pyridone ring through a convergent coupling at

237 At pH 4.5, As(III) was oxidized rapidly by OH(*) and the aggregation of the res

238 diated by NADPH oxidase that produces highly oxidizing reactive oxygen species in the lysosome combin

239 se activity and a decreased ratio of reduced/oxidized redox in db/db mouse retina compared with contr

240 all DaNs, exclusively SNc neurons showed an oxidized redox-system, i.e., a low reduced/oxidized glut

241 reductive environment as molecular O(2) can oxidize Ru(II) to Ru(III) and Ru(IV) .

242 . sativum (AsFMO) was previously proposed to oxidize S-allyl-l-cysteine (SAC) to alliin, an allicin p

243 of the soxXY(1) Z(1) AB cluster, strain CVO oxidized S(0) to thiosulfate and sulfate, demonstrating

244 Transport of the injected electron and the oxidized sensitizer (hole hopping) are both operative in

245 Regeneration of the oxidized sensitizer by iodide is enhanced through haloge

246 nation between the injected electron and the oxidized sensitizer.

247 nd energy storage, where all complexes photo-oxidized seven different electron donors with rate const

248 ion states, including the first structure of oxidized SidA without NADP(H) or l-ornithine bound (rest

249 12(S)-HETE-lysophospholipids, but not other oxidized signaling lipids examined activated THP-1 cells

250 ) by NO(2), producing HONO which can in turn oxidize SO(2) to yield N(2)O.This mechanism could provid

251 The NMR study after the reaction of oxidized soybean oil with acetyl chloride clarified assi

252 of electron transfer between the reduced and oxidized species, and determine the extent of electron d

253 sed via disproportionation of the 1-electron-oxidized species, which allows utilization of weak oxida

254 ed photoactivation, utilizes the same highly oxidizing species that drive the water oxidation in orde

255 The transition between the active oxidized state (H(ox)) and the H(inact) state appears to

256 ates entering the active site in a partially oxidized state form cysteine adducts that induce an open

257 stingly, IRP2 binding to FBXL5 hinges on the oxidized state of the [2Fe2S] cluster maintained by ambi

258 in of FBXL5 harbors a [2Fe2S] cluster in the oxidized state.

259 o-nitrogenase on acetate but not on the more oxidized substrate succinate.

260 ormed when ET-FAD was reduced and Bf-FAD was oxidized, suggesting that both flavins participate.

261 ch may well be attributed to downstream more oxidized sulfur species termed reactive sulfur species (

262 Sulfur-oxidizing Sulfurimonas spp. are widespread in sediments,

263 acity with deeper magma oceans invoking more oxidizing surface conditions.

264 In contrast, tolyporphin P (6) is a fully oxidized tetrapyrrole, while tolyporphins Q and R (7 and

265 the SRFA-bound Cu(I) being much more rapidly oxidized than the inorganic Cu(I).

266 plained by the ability of CO(2) to partially oxidize the carbon deposit over the surface of the catal

267 derived fluids provide negligible sulfate to oxidize the sub-arc mantle and cannot deliver (34)S-enri

268 en lower-closer to 0.6 bar-for CO(2) to have oxidized the micrometeorites.

269 the enzyme UDP-glucose dehydrogenase, which oxidizes the alcohol group at C6 to the COO(-) group.

270 n for substrate reduction and flavin quinone oxidizes the vinylogous alpha-amido radical formed after

271 of the inner mitochondrial membrane, before oxidizing the lipid and initiating the apoptotic pathway

272 Being fully oxidized, the scaffold demonstrated a striking thermal a

273 hat the PCOs may use divergent mechanisms to oxidize their substrates.

274 The produced oxidized TMB, acting as a strong photothermal agent, was

275 Furthermore, oxidizing TNBC cells prior to lysis and incorporation in

276 5mC can be oxidized to 5-hydroxymethylcytosine (5hmC) by ten-eleven

277 This hydrazine adduct can be further oxidized to a structurally unusual Ni(2) (N(2) H(2) ) sp

278 Alcohols were oxidized to aldehydes or ketones, cyclic ethers to ester

279 It could be oxidized to aquo-cob(III)alamin or enter a futile thiol

280 Atmospheric DMS is oxidized to condensable products that form secondary aer

281 are incubated with photosensitizers and then oxidized to death by generating reactive oxygen species

282 creates a microgap, where DmFc molecules are oxidized to DmFc(+).

283 e-hour electrolysis, glycerol is selectively oxidized to glyceraldehyde with a turnover number (TON)

284 eling experiments revealed that NH(4)(+) was oxidized to N(2) via hydroxylamine (NH(2)OH) as intermed

285 tal form Hg(0) to the atmosphere where it is oxidized to reactive Hg(II) compounds, which efficiently

286 At the same time, diselenide can be oxidized to seleninic acid, which suppresses the express

287 S(IV) is further oxidized to SO(4)(2-) in the presence of triplet sensiti

288 During activation, ferrocene (Fc) in PVF is oxidized to the ferrocenium ion (Fc(+)) with the latter

289 terprotein coordination complex that rapidly oxidizes to thiolato-cob(III)alamin.

290 d diacylglycerols), similar primary (K(232), oxidized-triacylglycerols) and lower secondary (K(268),

291 spectroscopic results suggest detachment of oxidized U(VI) from the UO(2)(s) surface as the rate-det

292 icate that tumour growth requires the ETC to oxidize ubiquinol, which is essential to drive the oxida

293 is alternative oxidase (AOX)(12), which also oxidizes ubiquinol to ubiquinone.

294 Methane is biologically produced and oxidized until sediments reach 80 degrees to 85 degrees

295 acid (DA), a potent marine toxin, is readily oxidized upon reaction with singlet oxygen ((1)O(2)).

296 ds have been enantio- and chemoselectively N-oxidized using an aspartic acid containing peptide catal

297 However, mycogenic Mn oxides rapidly oxidized volatile Se products, recycling these compounds

298 ction in cloud-processed pollution plumes as oxidizing volatile organic compounds (VOCs) interact wit

299 stoquinone pool of slug chloroplasts remains oxidized, which can suppress reactive oxygen species for

300 These particles did not contain oxidized zinc.