ライフサイエンスコーパス: carbon monoxide

1 mation with insertion of olefin, olefin, and carbon monoxide.

2 t improves outcome in experimental sepsis is carbon monoxide.

3 alytic carbonylations of alkyl bromides with carbon monoxide.

4 revent noticeable inhibition of oxidation by carbon monoxide.

5 fit bestowed on mesenchymal stromal cells by carbon monoxide.

6 auson-Khand reactions between 1,6-enynes and carbon monoxide.

7 rsion of formic acid into either hydrogen or carbon monoxide.

8 5 mum, sulfur dioxide, nitrogen dioxide, and carbon monoxide.

9 al insertion of carbon monoxide, olefin, and carbon monoxide.

10 ssociations were found for sulfur dioxide or carbon monoxide.

11 rochemical conversion of carbon dioxide into carbon monoxide.

12 hanism for the room-temperature oxidation of carbon monoxide.

13 lapse-prevention phase, confirmed by exhaled carbon monoxide.

14 vely with diffusing capacity of the lung for carbon monoxide.

15 zwitterionic compound, [OP(mu-NTer)2 P], and carbon monoxide.

16 all and biochemical validation using expired carbon monoxide.

17 nd perfluoroalkyl iodides in the presence of carbon monoxide.

18 ts of exhaust, namely, carbon dioxide (13%), carbon monoxide (0.68%) and nitrogen dioxide (1000 ppm)

19 [(11)C]Carbon dioxide itself, [(11)C]carbon monoxide, [(11)C]cyanide, and [(11)C]phosgene rep

20 decreased diffusing capacity of the lung for carbon monoxide (2.1% decrease; 95% CI, 1.3-2.9%; P < 0.

21 dicted; P < 0.001) and diffusing capacity of carbon monoxide (-2.6 +/- 0.1 vs. 0.9 +/- 0.2% predicted

22 d some metal-free compounds are able to bind carbon monoxide, a molecule which has the strongest chem

23 The carbon monoxide adduct of an unhindered and highly react

24 few picoseconds the vibrational energy of a carbon monoxide adsorbate rapidly dissipates into the pa

25 is renders the spatial core-level imaging of carbon monoxide adsorbed on a 'tunable' vicinal surface,

26 ivated over alpha-MoC at 303 kelvin, whereas carbon monoxide adsorbed on adjacent Au sites was apt to

27 ns relating transition state energies to the carbon monoxide adsorption energy and determine the opti

28 Ex vivo preconditioning with carbon monoxide allowed mesenchymal stromal cells to be

29 maternal smokers, we found that exposure to carbon monoxide analogs led to reduced WNT signaling, in

30 Moreover, administration of carbon monoxide analogs to pregnant mice in late gestati

31 of (hetero)aryl iodides, two equivalents of carbon monoxide and alkyne-tethered imines into 1,3-dipo

32 in the sensing of water vapour, oxygen, NOx, carbon monoxide and carbon dioxide, hydrocarbons and vol

33 nts of glyoxal and methylglyoxal relative to carbon monoxide and formaldehyde in agricultural biomass

34 he production of propanal from methanol (via carbon monoxide and hydrogen) and ethylene via tandem hy

35 ng orbital of a critical intermediate, while carbon monoxide and methane are equally produced without

36 efficiently used for the reduction of CO2 to carbon monoxide and methane, achieving formation rates o

37 bination of only a stoichiometric loading of carbon monoxide and mild basic reaction conditions such

38 ion that could directly split carbonate into carbon monoxide and molecular oxygen via a low-energy pa

39 er and inverse associations with exposure to carbon monoxide and nitrogen oxides.

40 es including nitric oxide, hydrogen sulfide, carbon monoxide and oxygen mediate numerous cell signali

41 r the incentives ended), verified by expired carbon monoxide and salivary cotinine.

42 Whole-pregnancy exposures to carbon monoxide and sulfur dioxide were associated with

43 ed by gasotransmitters such as nitric oxide, carbon monoxide and, as described more recently, hydroge

44 stituted pyrroles from aryl iodides, imines, carbon monoxide, and alkynes is described.

45 ions in the major outgassing species: water, carbon monoxide, and carbon dioxide.

46 Inhibitors of nitrogenase (i.e., acetylene, carbon monoxide, and dihydrogen) suppressed N2 reduction

47 ed current density, improved selectivity for carbon monoxide, and enhanced durability.

48 substrates, generating methylthiopropionate, carbon monoxide, and formate.

49 ponsive enzyme converting heme to bilirubin, carbon monoxide, and free iron, which exerts anti-inflam

50 molecule bioregulators (SMBs) nitric oxide, carbon monoxide, and hydrogen sulfide were initially vie

51 c and immunomodulatory switch induced by NO, carbon monoxide, and hypoxia.

52 The volatile methane, carbon monoxide, and nitrogen ices that dominate Pluto's

53 al capacity ratio, transfer lung capacity of carbon monoxide, and Pao2.

54 of ozone, nitrogen dioxide, sulfur dioxide, carbon monoxide, and particulate matter (PM10 and PM2.5)

55 luoroalkanes, (hetero)arylboronic acids, and carbon monoxide are assembled into highly elaborate prod

56 Emissions of total hydrocarbons and carbon monoxide are higher for LNG compared to present m

57 sulfide is a highly toxic gas-second only to carbon monoxide as a cause of inhalational deaths.

58 in anaerobic prokaryotic organisms that use carbon monoxide as an energy source to split water.

59 cyclization reactions between 1,6-enynes and carbon monoxide at 10 times higher activity than the hom

60 isoning was achieved by exposing the rats to carbon monoxide at 2,500 ppm for 40 minutes, followed by

61 erformance in reduction of nitric oxide with carbon monoxide at low temperature, resulting from stron

62 le bisphosphine ligand and avoids the use of carbon monoxide atmosphere present in prior studies invo

63 asurements, glyoxal enhancements relative to carbon monoxide averaged 0.0016 +/- 0.0009, a factor of

64 P = .04), diffusing capacity of the lung for carbon monoxide (beta = 0.60, P = .0008), and residual v

65 was predicted by the diffusing capacity for carbon monoxide (betaS = -0.29, P = .03) and VDP (betaS

66 heme into the bioactive signaling molecules carbon monoxide, biliverdin, and iron.

67 the road and traffic volume range, roadside carbon monoxide, black carbon, total particle number cou

68 rved by DEER in the reduced Pdx complex with carbon-monoxide-bound P450cam (Fe(2+)CO).

69 tom catalytic mechanism for the oxidation of carbon monoxide by ceria-supported gold clusters.

70 mechanism was proposed for the activation of carbon monoxide by nitrogenase, which suggests an essent

71 ure mechanism for the catalytic oxidation of carbon monoxide by oxygen over a 5 wt% Pt/Al2O3 catalyst

72 and activation of small molecules, including carbon monoxide, carbon dioxide, nitric oxide, dinitroge

73 uggesting that the carbon monoxide-water and carbon monoxide-carbon monoxide interactions with adjace

74 vailable 2-(propynylthio)benzimidazoles with carbon monoxide carried out in EtOH at 100 degrees C und

75 Carbon monoxide clathrate hydrate is a potentially impor

76 ditions is mediated in part by its products, carbon monoxide (CO) and biliverdin.

77 global nitrogen cycle; and the reduction of carbon monoxide (CO) and carbon dioxide (CO2) to hydroca

78 chemistry-that is, by ligating the iron with carbon monoxide (CO) and cyanide (or equivalent) groups.

79 Syngas, a mixture of carbon monoxide (CO) and hydrogen (H2), is an important

80 using in situ measurements and emissions of carbon monoxide (CO) and nitrogen oxides (NOx).

81 Conversion of carbon dioxide (CO2) to carbon monoxide (CO) and other value-added carbon produc

82 namic diameter), nitrogen dioxide (NO2), and carbon monoxide (CO) and risk of incident chronic kidney

83 is linked to a unique diiron site with three carbon monoxide (CO) and two cyanide (CN(-)) ligands (e.

84 It comprises a diiron active site with three carbon monoxide (CO) and two cyanide (CN(-)) ligands in

85 e DOC performance in reducing gaseous (e.g., carbon monoxide (CO) and unburnt hydrocarbons (HCs)) and

86 When using carbon monoxide (CO) as a probe molecule, deep insight i

87 rochemical carbon dioxide (CO2) reduction to carbon monoxide (CO) but not for the competing hydrogen

88 1) concurrent 5 min measurements of UFPs and carbon monoxide (CO) concentration, wind speed and direc

89 r dioxide (SO2), nitrogen dioxide (NO2), and carbon monoxide (CO) concentrations during each pregnanc

90 ing women in rural Guatemala, using measured carbon monoxide (CO) concentrations in exhaled breath an

91 To confirm smoking status, expired carbon monoxide (CO) concentrations were measured with a

92 Carbon monoxide (CO) exposure is a leading cause of pois

93 talyzed carbonylations involved either toxic carbon monoxide (CO) gas as carbonylating agent or funct

94 rgy surface, became unstable when exposed to carbon monoxide (CO) gas.

95 mesityl) with Piers' borane [HB(C6F5)2] and carbon monoxide (CO) gave the formylhydridoborate comple

96 A co-pollutant, carbon monoxide (CO) has been widely used as a surrogate

97 At low levels, carbon monoxide (CO) has physiological roles as a second

98 The gaseous signaling molecule carbon monoxide (CO) has recently been recognized for it

99 concept through the selective adsorption of carbon monoxide (CO) in a series of metal-organic framew

100 catalytic electrochemical CO2 conversion to carbon monoxide (CO) in an ionic liquid.

101 by one-pot reaction of acetylene (C2H2) and carbon monoxide (CO) in contact with nickel sulfide (NiS

102 On-demand release of carbon monoxide (CO) is realized through a novel near-in

103 atom or molecular fragment to bind multiple carbon monoxide (CO) molecules to form multicarbonyl add

104 cal reductants to Fe(II)-CBS, which can bind carbon monoxide (CO) or nitric oxide (NO(*)), leading to

105 Carbon monoxide (CO) outcompetes oxygen when binding to

106 sures to fine particulate matter (PM2.5) and carbon monoxide (CO) over 72 hr among a cohort of Tanzan

107 neously achieve the goals of low-temperature carbon monoxide (CO) oxidation activity while providing

108 that only Pt nanoparticles show activity for carbon monoxide (CO) oxidation and water-gas shift at lo

109 ond x-ray laser pulses are used to probe the carbon monoxide (CO) oxidation reaction on ruthenium (Ru

110 Genes for aerobic carbon monoxide (CO) oxidation, polysulfide metabolism a

111 ogen oxides (NOx), sulfur dioxide (SO2), and carbon monoxide (CO) per interquartile range.

112 d molecular movie of the protein quake after carbon monoxide (CO) photodissociation in myoglobin.

113 Carbon monoxide (CO) poisoning affects 50,000 people a y

114 The kinetics of the hydroxyl radical (OH) + carbon monoxide (CO) reaction, which is fundamental to b

115 Carbon monoxide (CO) reduced GSH/GSSG in three breast ca

116 ssions of nonmethane hydrocarbons (NMHC) and carbon monoxide (CO) showed some statistically significa

117 molecular, with H2 the dominant species and carbon monoxide (CO) the best available tracer.

118 elandii catalyses the in vitro conversion of carbon monoxide (CO) to hydrocarbons.

119 olatile organic compounds (VOCs) relative to carbon monoxide (CO) under ambient conditions.

120 (18-crown-6)][(L(tBu))Ni(II)(S)] reacts with carbon monoxide (CO) via addition across the Ni-S bond t

121 ygenase (HO), resulting in the generation of carbon monoxide (CO), a bioactive gas with potent immuno

122 t combine an Nrf2 inducer with a releaser of carbon monoxide (CO), an anti-inflammatory product of HO

123 o catalyze the reduction of cyanide (CN(-)), carbon monoxide (CO), and carbon dioxide (CO2) without u

124 ers-have been identified: nitric oxide (NO), carbon monoxide (CO), and hydrogen sulfide (H2S).

125 therapies based mainly on nitric oxide (NO), carbon monoxide (CO), and hyperbaric (pressurized) oxyge

126 Particulate matter (PM2.5), carbon monoxide (CO), and optical scattering and absorpt

127 O3 precursors (i.e., nitrogen oxides (NOx), carbon monoxide (CO), and volatile organic compounds (VO

128 ent of Pollution in the Troposphere (MOPITT) carbon monoxide (CO), Aqua Atmospheric Infrared Sounder

129 Emission factors (EFs) were calculated for carbon monoxide (CO), carbon dioxide (CO2), and particul

130 (HO-2), which generates the gaseous molecule carbon monoxide (CO), exhibit sleep apnea characterized

131 Average individual-level concentrations of carbon monoxide (CO), nitrogen dioxide (NO2), sulfur dio

132 thacholine responsiveness (PC20) with ozone, carbon monoxide (CO), nitrogen dioxide, and sulfur dioxi

133 Emissions of particulate matter (PM), carbon monoxide (CO), nitrogen oxides (NOx), and total h

134 ancy genes in response to nitric oxide (NO), carbon monoxide (CO), or hypoxia.

135 ing hydrogen (H2), carbon dioxide (CO2), and carbon monoxide (CO), or with H2 and CO2.

136 ge nitrogen oxides (NOx), hydrocarbons (HC), carbon monoxide (CO), particulate matter (PM), and carbo

137 h process, or the catalytic hydrogenation of carbon monoxide (CO), produces long chain hydrocarbons a

138 47% for fine particulate matter (PM2.5) and carbon monoxide (CO), respectively.

139 Here we report the detection of carbon monoxide (CO), the primary tracer of molecular ga

140 Carbon monoxide (CO)--produced by haem oxygenase in card

141 e-free structure of bovine CcO (bCcO) in the carbon monoxide (CO)-bound state at a resolution of 2.3

142 We report a crystal structure of carbon monoxide (CO)-inhibited nitrogenase molybdenum-ir

143 sorptiometry, blood volume with the use of a carbon monoxide (CO)-rebreathing method, iron status, in

144 on-coupled carbon dioxide (CO2) reduction to carbon monoxide (CO).

145 ransmitters along with nitric oxide (NO) and carbon monoxide (CO).

146 The primary end point was the 4-week exhaled carbon monoxide-confirmed continuous abstinence rate for

147 The primary outcome was carbon monoxide-confirmed self-reported 7-day point-prev

148 Primary efficacy end point was carbon monoxide-confirmed self-reported abstinence durin

149 Secondary outcomes were carbon monoxide-confirmed self-reported abstinence for w

150 Secondary outcomes were carbon monoxide-confirmed self-reported initial abstinen

151 ed source of electrons and electrophiles for carbon monoxide coupling at high temperatures and pressu

152 The enzyme that catalyses this reaction is carbon monoxide dehydrogenase (CODH).

153 s of CO2- and NCO(-)-bound nickel-containing carbon monoxide dehydrogenases (Ni-CODHs) reveal that th

154 ond subgroup mature the [Ni4Fe4S] cluster of carbon monoxide dehydrogenases.

155 ange as measured by the diffusing factor for carbon monoxide (DFCO).

156 atory volume during first second (FEV(1)) or carbon monoxide diffusing capacity (DL(CO)), or impaired

157 ements included forced vital capacity (FVC), carbon monoxide diffusing capacity, and 6 min walk dista

158 pulmonary diffusing capacity of the lung for carbon monoxide (DL(CO)) in infants and toddlers with BP

159 of predicted diffusing capacity of lung for carbon monoxide (Dlco%) than with airflow obstruction (f

160 ured the diffusing capacity of the lungs for carbon monoxide (DLCO), forced expiratory volume in 1 se

161 (FVC), FEV1/FVC, and diffusing capacity for carbon monoxide (DLCO).

162 67, P < .001; diffusing capacity of lung for carbon monoxide [Dlco], Pearson r = -0.45, P = .003), SG

163 ratios for interquartile range increases in carbon monoxide during the first, second, and third trim

164 , exhaled breath nitric oxide [eNO], exhaled carbon monoxide [eCO], and high-resolution computed tomo

165 mical hydrogen underpotential deposition and carbon monoxide electrooxidation, which showed that nano

166 Carbon monoxide emission is unreliable as a tracer of ga

167 nsumed by the TSF and emitted 50+/-5% of the carbon monoxide emitted by the TSF for an equivalent coo

168 and cleaves the strong carbon-oxygen bond of carbon monoxide, enacts carbon-carbon coupling, and spon

169 Further investigations reveal that the rapid carbon monoxide energy relaxation is also affected by th

170 nditioning of mesenchymal stromal cells with carbon monoxide ex vivo would promote further therapeuti

171 miologic studies of environmentally relevant carbon monoxide exposure have generated mixed findings.

172 ospitalization for COPD, which suggests that carbon monoxide exposure provides some acute protection

173 , mesenchymal stromal cells-conditioned with carbon monoxide, fibroblasts, or fibroblasts-conditioned

174 ting enzymatic step of heme degradation into carbon monoxide, free iron, and biliverdin.

175 This enzyme generates carbon monoxide from the breakdown of heme, a gas known

176 In these selected cases, carbon monoxide functions as a one-carbon linchpin to fa

177 ogeneous catalysts convert carbon dioxide to carbon monoxide, further deoxygenative coupling of carbo

178 Through the use of (13)C-labeled carbon monoxide generated from (13)COgen, the correspond

179 lopropanone and subsequent photoextrusion of carbon monoxide gives the observed 1,4-cycloheptadiene p

180 week), and substantially limited to meet the carbon monoxide guideline (< 7-9 hr/week).

181 taxis at the airport show large increases in carbon monoxide, hydrocarbon, and oxide of nitrogen emis

182 ed by 7-day hyperbaric oxygen treatment, (4) carbon monoxide + hyperbaric oxygen with additional intr

183 Composed of molecular nitrogen, methane, and carbon monoxide ices, but dominated by nitrogen ice, thi

184 and selective reduction of carbon dioxide to carbon monoxide in aqueous electrolytes.

185 First, the heme active site binds carbon monoxide in both micelles and fibers, demonstrati

186 complex is capable of selectively detecting carbon monoxide in cells and ex vivo using mice with a s

187 quid phase and the preferential oxidation of carbon monoxide in hydrogen, have attracted much attenti

188 This molecule is as important as carbon monoxide in mammals and hydrogen peroxide in plan

189 [O2 subsetmBDCA-5t-H6](2-) (1), reacts with carbon monoxide in organic solvents at 40 degrees C to c

190 1-enes in the presence of DABCO and 1 atm of carbon monoxide in toluene at 80 degrees C gave the corr

191 ion of cardiac ERG (Kv11.1) K(+) channels in carbon monoxide-induced proarrhythmic early afterdepolar

192 Carbon monoxide insertion to give the carbonyl containin

193 adium nitrogenases are capable of converting carbon monoxide into hydrocarbons under mild conditions,

194 Carbon monoxide is a ubiquitous molecule, a key feedstoc

195 Carbon monoxide is an important one-carbon source and ca

196 to investigate the elementary steps by which carbon monoxide is deoxygenated and coupled, but a singl

197 e attainment of low-temperature oxidation of carbon monoxide is therefore demonstrated.

198 ients had a reduced transfer coefficient for carbon monoxide (Kco; 33% [interquartile range, 30%-35%]

199 th an effect size sequence of nitric oxide > carbon monoxide = kinins > adenosine.

200 without significantly increasing the expired carbon monoxide level or total puff volume, suggesting m

201 ted smoking or if their preoperative exhaled carbon monoxide level was 10 ppm or higher.

202 Preoperative exhaled carbon monoxide level was not associated with the freque

203 Smoking status and preoperative exhaled carbon monoxide level, assessed by nurses in the preoper

204 SSI was not related to preoperative exhaled carbon monoxide levels.

205 One carbon monoxide ligand was shown to remain coordinated t

206 r, the manipulation of toxic and pressurized carbon monoxide limited their applications in organic la

207 en oxides, nitrogen dioxide, ozone (O3), and carbon monoxide measured at stationary monitoring sites,

208 was smoking status at 12 months, verified by carbon monoxide measurements or self-report.

209 nto account carbon losses from fire by using carbon monoxide measurements, we derived the basin net b

210 A palladium catalyzed, carbon monoxide mediated, double reductive cyclization o

211 Stille-Kelly cross coupling reaction, and a carbon monoxide-mediated palladium-catalyzed reductive N

212 le platinum single-atom electrocatalyst with carbon monoxide/methanol tolerance for the cathodic oxyg

213 platinum-atom centres, which are tolerant to carbon monoxide/methanol, but highly active for the oxyg

214 dicated that lower concentrations of inhaled carbon monoxide might have beneficial antiinflammatory e

215 Here, carbon monoxide molecules are arranged on the surface of

216 Cyano radicals and excited carbon monoxide molecules in particular are reactive, en

217 cubic geometry in favour of the occupancy of carbon monoxide molecules, suggesting that the carbon mo

218 averages of daily maximum concentrations of carbon monoxide, nitrogen dioxide, ozone, and sulfur dio

219 All the traffic-related pollutants (carbon monoxide, nitrogen dioxide, PM2.5 elemental carbo

220 seful energy (megajoules delivered, MJd) for carbon monoxide, nitrogen oxides (NOx), black carbon, me

221 howed statistically significant increases in carbon monoxide, nonmethane hydrocarbon, particulate mat

222 solar-induced chlorophyll fluorescence, and carbon monoxide observations from multiple satellites.

223 Carbon monoxide occurs at relatively high concentrations

224 ation reactions of formic acid, methanol and carbon monoxide) of noble metal nanomaterials are also b

225 kynylation involving sequential insertion of carbon monoxide, olefin, and carbon monoxide.

226 Electrocatalytic reduction of carbon monoxide on copper catalysts also uses a combinat

227 This is particularly interesting, since carbon monoxide, one of the products of off-pathway reac

228 erved for diffusing capacity of the lung for carbon monoxide or composite physiologic index.

229 es, whereas most others favour production of carbon monoxide or formate.

230 cally validated measures including cotinine, carbon monoxide or home air particulate matter.

231 The ultrafast kinetics of CO rebinding to carbon monoxide oxidation activator protein (ChCooA) are

232 catalytic properties as demonstrated in both carbon monoxide oxidation and electrocatalytic oxidation

233 supported gold catalysts for low temperature carbon monoxide oxidation remains an unsettled debate.

234 away from the gold nanoparticle to catalyse carbon monoxide oxidation, adjacent to the metal/oxide i

235 Room-temperature carbon monoxide oxidation, important for maintaining cle

236 enging even after a century of research into carbon monoxide oxidation.

237 ctly with diffusing capacity of the lung for carbon monoxide (P < 0.0001).

238 H2 were found and the effect of hydrogen and carbon monoxide partial pressures on selectivity were me

239 This is demonstrated here for the carbon monoxide/platinum system.

240 The water-gas shift (WGS) reaction (where carbon monoxide plus water yields dihydrogen and carbon

241 eviate delayed memory impairment after acute carbon monoxide poisoning by preserving adult neurogenes

242 ) acute carbon monoxide poisoning, (3) acute carbon monoxide poisoning followed by 7-day hyperbaric o

243 r B protein (TrkB-Fc) chimera, and (5) acute carbon monoxide poisoning followed by intracerebroventri

244 Furthermore, acute carbon monoxide poisoning resulted in a delayed impairme

245 Suicides by carbon monoxide poisoning resulting from burning barbecu

246 Acute carbon monoxide poisoning significantly suppressed adult

247 Acute carbon monoxide poisoning was achieved by exposing the r

248 his suppression of adult neurogenesis by the carbon monoxide poisoning was appreciably alleviated by

249 n-carbon monoxide-treated control, (2) acute carbon monoxide poisoning, (3) acute carbon monoxide poi

250 eserved hippocampal neurogenesis after acute carbon monoxide poisoning.

251 was conducted during the first 7 days after carbon monoxide poisoning.

252 Carbon monoxide preconditioned mesenchymal stromal cells

253 aditional reductive carbonylation in that no carbon monoxide, pressurized gas, or stoichiometric redu

254 talyst exhibits >95% Faradaic efficiency for carbon monoxide production in a wide potential range and

255 e curves, diffusing capacity of the lung for carbon monoxide, pulse oximetry, chest radiograph, and h

256 at which a major volatile, such as water or carbon monoxide, reaches its condensation temperature.

257 volume (BV) was measured using the optimized carbon monoxide rebreathing method in 10 individuals.

258 s of activation energies for electrochemical carbon monoxide reduction as a basis for an electrochemi

259 sociated with an increased risk of PROM (for carbon monoxide, relative risk (RR) = 1.09, 95% confiden

260 t a chemophotonically driven, sense-of-logic carbon monoxide-releasing molecule (SL-photoCORM).

261 Carbon monoxide-releasing molecules (CORMs) are chemical

262 Carbon monoxide-releasing molecules (CORMs) suppress inf

263 of a new generation of transition-metal-free carbon monoxide-releasing molecules based on BODIPY chro

264 ssential process for hydrogen generation and carbon monoxide removal in various energy-related chemic

265 chymal stromal cell efficacy when exposed to carbon monoxide, resulting in an improved therapeutic re

266 en a beta-diketiminato magnesium hydride and carbon monoxide results in the isolation of a dimeric ci

267 s capability of converting carbon dioxide to carbon monoxide selectively at room temperature; however

268 Signatures of the carbon monoxide snow-line (at temperatures of around 20

269 etry, plethysmography, diffusing capacity of carbon monoxide, St George's Respiratory Questionnaire,

270 stable (phosphino)-phosphinidene reacts with carbon monoxide, stable singlet carbenes, including the

271 by changes in subjective craving or expired carbon monoxide, suggesting that connectivity strength b

272 om in aerodynamic diameter, nitrogen oxides, carbon monoxide, sulfur dioxide, and ozone among 223,375

273 ransmitters - notably hydrogen disulfide and carbon monoxide - that are produced by the enteric nervo

274 ,eta(2) -Pn2 ){Ni(IMes)(CO)}2 compounds with carbon monoxide, the Pn2 units can be released, affordin

275 ge predicted transfer factor of the lung for carbon monoxide [Tlco]: r = -0.61, P < .005) and percent

276 opment of efficient catalysts for converting carbon monoxide to chemical fuels, and should prove usef

277 lable aliphatic amines and the feedstock gas carbon monoxide to form synthetically versatile value-ad

278 monoxide, further deoxygenative coupling of carbon monoxide to generate useful multicarbon products

279 Rats were divided into five groups: (1) non-carbon monoxide-treated control, (2) acute carbon monoxi

280 o methanol and acetic acid, using oxygen and carbon monoxide under mild conditions.

281 thysmography, single-breath determination of carbon monoxide uptake and spirometry.

282 At day 56, DFCO was measured as the ratio of carbon monoxide uptake to neon dilution, and lungs were

283 n conclusion, short-term exposure to ambient carbon monoxide was associated with a decreased risk of

284 Results showed that ambient carbon monoxide was negatively associated with the risk

285 ith the liberation of molecular hydrogen and carbon monoxide was studied experimentally and computati

286 t-day Earth, and that the ratio of oxygen to carbon monoxide was sufficiently high to prevent noticea

287 dium throughout the reaction, and release of carbon monoxide was suggested to occur from a dicarbonyl

288 ion, the diffusion capacity of the lungs for carbon monoxide was tested and volunteers underwent spir

289 rbon monoxide molecules, suggesting that the carbon monoxide-water and carbon monoxide-carbon monoxid

290 Using sensitive observations of carbon monoxide, we show that the Spiderweb galaxy-a mas

291 fibroblasts, or fibroblasts-conditioned with carbon monoxide were delivered by tail vein injections t

292 carboxylates from aryl iodides, imines, and carbon monoxide were first performed, including model re

293 This is especially true with carbon monoxide, which does not have an easy "handle" fo

294 Importantly, carbon monoxide, which inhibits hemoglobin function as a

295 O2, causing it to rapidly take up and retain carbon monoxide, which prevents denaturation both in vit

296 s than 2.5 mum, the negative associations of carbon monoxide with COPD hospitalizations became strong

297 ondria to generate ATP due to interaction of carbon monoxide with hemoglobin, myoglobin, and componen

298 in pH-neutral water, forms quasi-exclusively carbon monoxide with very little production of hydrogen,

299 e for selective carbon dioxide conversion to carbon monoxide with visible light.

300 Mesenchymal stromal cells exposed to carbon monoxide, with docosahexaenoic acid substrate, pr