ライフサイエンスコーパス: ambient

1 300 h upon continuous illumination in an air ambient.

2 Using mesocosms we exposed phytoplankton to ambient (390 muatm) or future CO(2) levels predicted for

3 for the year 2100 (900 muatm), combined with ambient (4.5 nM) or high (12 nM) dissolved iron (dFe).

4 berry cultivar "San Andreas" was grown under ambient (400 ppm CO(2), 25 degrees C) and elevated (950

5 icina, a deciduous conifer) were grown under ambient (407 ppm) or elevated CO(2) (750 ppm) and either

6 We grew plants under current ambient (440 ppm) and projected future atmospheric CO(2)

7 such inhibition, AChE limits the presence of ambient ACh and thus renders it unlikely that ACh influe

8 greek cultivars (G2, G6 and G30) grown under ambient (aCO(2), 400 mumol mol(-1)) and elevated CO(2) (

9 ka and Kanpur sites exceeded the US National Ambient Air 3-month Quality Standard for lead (150 ng m(

10 a high laminar sheath flow of particle-free ambient air and a tunable electric field based on the re

11 able analyses of humid gaseous media such as ambient air and exhaled breath.

12 s of sorbents designed to capture CO(2) from ambient air and they are categorized by the sorption mec

13 hat replicate the infrastructure and deliver ambient air as paired controls for the treatment arrays.

14 Ambient air concentrations of 18 NPAHs, 5 quinones, and

15 lthough it was not required for growth under ambient air controlled conditions.

16 rom ambient air into biomass, with growth in ambient air depending on the components of the CCM.

17 D associated with maternal exposure to PM in ambient air during pregnancy.

18 ratio, to receive either nocturnal oxygen or ambient air from a sham concentrator (placebo).

19 enabled E. coli to grow by fixing CO(2) from ambient air into biomass, with growth in ambient air dep

20 H(3)) and particulate ammonium (NH(4)(+)) in ambient air is presented.

21 Ambient air mass spectrometry methods often suffer from

22 tude in positive ion mode compared to other (ambient air mass spectrometry) methods.

23 MMA canisters and data reported from a local ambient air monitoring station.

24 Inhalation of the ambient air pollutant ozone causes lung inflammation and

25 e association between short-term exposure to ambient air pollution and daily hospital admissions for

26 results suggest that short-term exposure to ambient air pollution is associated with an increased ri

27 mortality from exposure to higher levels of ambient air pollution.

28 olleagues that examined associations between ambient air quality and risk of hospitalization for pneu

29 e to report precise adhesion measurements in ambient air through well-defined interactions of tip-att

30 asuring of distribution of NH(3)/NH(4)(+) in ambient air with a time resolution of 1 s.

31 at temperatures as high as 300 degrees C in ambient air without any encapsulation, is demonstrated.

32 Technologies to remove CO(2) from ambient air, or "direct air capture" (DAC), have recentl

33 otorespiratory growth phenotype of hpr1-1 in ambient air, whereas HPR1-T335D-containing hpr1-1 plants

34 he had an oxygen (O(2)) saturation of 87% at ambient air, which increased to 100% with 1 L of O(2) ad

35 plied to evaluate the reactivity of KO(2) in ambient air.

36 servations of the IHN isomer distribution in ambient air.

37 e 2H-indazoles at room temperature and under ambient air.

38 s study aims to quantify changes in outdoor (ambient) air pollution exposure from different migration

39 distribution of these compounds in both the ambient and built environments, future research on their

40 bivore exclusion across 22 grasslands, under ambient and elevated nutrient availabilities (fertilized

41 an intensive agricultural disturbance under ambient and elevated nutrient conditions.

42 ined to exhibit n-type conduction under both ambient and nitrogen conditions; Ni-HAB is found to be a

43 23%, accompanied by enhanced stability under ambient and operational conditions.

44 ith polyGMT can maintain their morphology at ambient and physiologically relevant conditions, and fre

45 ock group level data, land cover data, daily ambient apparent temperature, and all-cause mortality du

46 s recently been explored for a wide range of ambient applications.

47 ) and high faradaic efficiency of 26 % under ambient aqueous conditions.

48 Controlled exposure of the device to ambient atmosphere during a long-term (1000 h) test does

49 ctrical discharges to desired targets in the ambient atmosphere have been a subject of intense resear

50 nd homemade carbon/silicone gel electrode in ambient atmosphere with 5% relative humidity.

51 tabolites when compared to fruits kept in an ambient atmosphere.

52 for modeling SOA formation and growth in the ambient atmosphere.

53 borylative heterocyclization reactions under ambient-atmosphere conditions and with wet solvent.

54 at the photosensitizer chemistry of HULIS in ambient atmospheric aerosols is unlikely to be a signifi

55 xcellent stability without degradation under ambient atmospheric conditions.

56 Initial O-PTIR analysis of ambient atmospheric particles identified both inorganic

57 condition associated with higher levels of "ambient" ATP in the NTS would be expected to decrease ba

58 The ratio of leaf internal (c(i) ) to ambient (c(a) ) partial pressure of CO(2) , defined here

59 other hand, another cause of deviation from ambient chemistry in OFR is that some tropospherically-r

60 ntal factors, foremost leaf temperature, and ambient CO(2) concentration, which are most pronounced w

61 We found that relatively low temperature and ambient CO(2) exacerbated damage induced by nanoplastics

62 Declining leaf-internal/ambient CO(2) ratio (chi) and increasing carboxylation (

63 rowth phenotypes of gene deletion strains at ambient CO(2) We find that the canonical plant-like C(2)

64 isrupted, autotrophic growth is abolished at ambient CO(2) We present bioinformatic data suggesting t

65 practice, acceptable operational enrichment (ambient [CO(2) ] + e[CO(2) ]) is +/-20% of the set point

66 e CO(2) spring and an adjacent control site (ambient [CO(2) ]) were grown in a common environment for

67 ize fraction is found to be ~5% of the total ambient concentration of OPAHs and up to ~2% for NPAHs.

68 uptake based on the longitudinal profiles of ambient concentrations and on pulse injections of ammoni

69 We further show that ambient concentrations of isoprene-derived SOA can be co

70 fluenced by ambient GABA and that changes in ambient concentrations of the transmitter and other GABA

71 emporal PNC models are capable of estimating ambient concentrations retrospectively and prospectively

72 As both, ChEC and IMS work at ambient conditions and are driven by high voltages, no b

73 talyst exhibits better reactivity both under ambient conditions and at elevated temperatures.

74 sensors are stable after 60 days storage in ambient conditions and enable analysis of microbial viab

75 ne-based GNRs (pGNRs) can be processed under ambient conditions and incorporated as the active materi

76 intrinsically thermodynamically unstable at ambient conditions and require peculiar synthetic approa

77 ral crystals of GeSe, which is stabilized at ambient conditions by alloying with 10 mol % AgBiSe(2).

78 e further show that SARS-CoV-2 VLPs dried in ambient conditions can retain their structural integrity

79 tical current density of 2.2 mA cm(-2) under ambient conditions due to the enhanced interfacial stabi

80 hane monooxygenase that activates methane at ambient conditions in nature.

81 ction (ORR) as the major surface reaction in ambient conditions on metal-capped PHI and even with TiO

82 tural gas mixture into liquid products under ambient conditions over 240 h with a Faradaic efficiency

83 limit module temperature increase in natural ambient conditions should be explored.

84 , and its role in affecting impalement under ambient conditions through local changes in the droplet

85 nt aryl/vinyl/alkyl azides is reported under ambient conditions to furnish the medicinally important

86 It reacts with H(2) under ambient conditions to give the aluminum hydride {AlH(mu-

87 wth of a wide range of polymer brushes under ambient conditions utilizing either organic or aqueous r

88 ly invoked as the source of propulsion under ambient conditions with alcohols as fuels.

89 ationic polymerization of vinyl ethers under ambient conditions with excellent monomer compatibility.

90 on across a range of organic molecules under ambient conditions with near-perfect chemo-, stereo- and

91 The hydrogels form under ambient conditions within minutes upon mixing without th

92 y OH, OFR conditions can often be similar to ambient conditions, as OH dominates against undesired no

93 ques, IR-PHI experiments are performed under ambient conditions, enabling detailed studies of how the

94 Under ambient conditions, Ni@FAU showed remarkable adsorption

95 ent C(2) H(2) /CO(2) selectivity of 24 under ambient conditions, resulting in the second highest C(2)

96 the composite stability towards exposure to ambient conditions, up to 20 days.

97 The fact that the reaction is carried out at ambient conditions, uses ubiquitous and inexpensive reag

98 arge density of 1.85 mC m(-2) is obtained in ambient conditions.

99 the in situ encapsulation of proteins under ambient conditions.

100 lms capable of autonomous self-healing under ambient conditions.

101 nalysis of almost any organic material under ambient conditions.

102 ctrometric analysis of biological samples at ambient conditions.

103 n reaction over their fcc counterparts under ambient conditions.

104 e contact resistance and large hysteresis in ambient conditions.

105 ate to drive its direct C-H carboxylation at ambient conditions.

106 ed, with remarkable chemical stability under ambient conditions.

107 ies after more than 1000 hours storage under ambient conditions.

108 acy below lambda/300 at room temperature and ambient conditions.

109 ombined with good thermodynamic stability at ambient conditions.

110 ues that can identify key interactions under ambient conditions.

111 pment, and calcification rates than those in ambient conditions.

112 n electronic quantum transition effect under ambient conditions.

113 ding atmospheric CO(2), into methanol, under ambient conditions.

114 onal changes in receptors in living cells at ambient conditions.

115 to a completely solvent-free state, even at ambient conditions.

116 xidation over 250 days storage in chilled or ambient conditions.

117 sport protein serum albumin in PBS buffer at ambient conditions.

118 ater susceptibility toward degradation under ambient conditions.

119 riment conducted on a polaritonic lattice at ambient conditions: We utilize fluorescent proteins prov

120 celerates IL exudation and interactions with ambient contaminants, the ion conductivity is only margi

121 ent on DOM composition (e.g. polyphenolics), ambient dissolved inorganic nitrogen (DIN), and DOC to D

122 rowth by increasing cell encounter rate with ambient dissolved organic molecules.

123 n reaction (HER) and the reaction barrier of ambient electrochemical NRR are significant challenges,

124 alternative nitrate production method under ambient environment is of importance.

125 etime (160 ps), (3)MLCT phosphorescence, and ambient environment stability.

126 important for radiative heat transfer in the ambient environment, because of the overlap with the atm

127 dults who are exposed to a language in their ambient environment.

128 eir promising capabilities of scavenging the ambient environmental mechanical energy.

129 olymers because of their biodegradability in ambient environments and structural diversity enabled by

130 attention is graded by degree of salience of ambient events.

131 ariance in such images resemble more natural ambient facial expressions remains unclear.

132 SO(7)), which are abundantly present in both ambient fine aerosol (PM(2.5)) and laboratory-generated

133 Past health impact assessments of ambient fine particulate matter (particles with an aerod

134 ologic observations suggest that exposure to ambient fine particulate matter (PM(2.5)) is associated

135 Data on ambient fine particulate matter (PM(2.5)) was obtained f

136 ated with prenatal and childhood exposure to ambient fine particulate matter (PM2.5).

137 Ambient fine particulate matter pollution (PM2.5) is one

138 we quantify their ability to find mates when ambient flow imposes physical constrains on their motion

139 de of the synaptic response is influenced by ambient GABA and that changes in ambient concentrations

140 leased at synaptic contacts with axons or by ambient GABA in extrasynaptic domains.

141 w cost, making it an attractive platform for ambient gas measurement needed in food safety applicatio

142 Fresh strawberries grown under ambient growth contained 93.09 +/- 6.2 ug/100 g folates

143 Prior research indicates ambient heat exposure depletes physiological and cogniti

144 ormance in multifarious environments namely, ambient (humid) atmosphere, dry nitrogen, and vacuum.

145 y evaporative saline solutions regardless of ambient humidity levels.

146 s of graphene, water molecules, sourced from ambient humidity or transferred method used, can get dif

147 +/- 3% relative humidity (RH)), 60 min while ambient humidity was maintained at 26+/-3% RH (LOW) or i

148 water (W, n = 6) drinks were measured under ambient (i.e., produced in situ) and 'potentiated' condi

149 Substantial variations in ambient illumination had no observable effect on VF meas

150 staining pattern around lodged eggs without ambient immune reaction, and directionally from granulom

151 in vitro experiments with engineered versus ambient, incidental iron-bearing nanoscale minerals.

152 Ambient INPs were measured in a remote mountaintop locat

153 g and contactless sensors have given rise to ambient intelligence-physical spaces that are sensitive

154 In vacuo (electron impact-EI) and ambient ionisation (electrospray ionisation-ESI) techniq

155 Ambient ionization based on liquid extraction is widely

156 ysis techniques, including MALDI and various ambient ionization methods.

157 wledge gap between exposure to heterogeneous ambient iron-particles and in vitro experiments with eng

158 demonstrates the applicability of the novel ambient LARESI SRM/MRM MSI method to both investigating

159 Higher ambient levels of grass pollen 2 days before (lag 2) wer

160 world inhaled, concentrated PM2.5 (~10 times ambient levels/~60-120 mug/m3) or filtered air over a 14

161 that reaches the photoreceptor according to ambient light intensities.

162 a variety of reflex responses to changes in ambient light intensity, including circadian photoentrai

163 on and its contribution can be dominant when ambient light is strong.

164 Light-level geolocator tags use ambient light recordings to estimate the whereabouts of

165 od photoreceptors that provide vision in dim ambient light.

166 Those predictions suggest that ambient lighting commonly found in North American homes

167 extraordinary colour change according to the ambient lighting, from emerald green in daylight to ruby

168 tals to form diamond, without disturbing the ambient-mantle stable-isotope signatures.

169 ike other systems to couple SPME sampling to ambient mass spectrometry, the interface is able to perf

170 Proof-of-concept ambient measurements were performed in New Delhi, India,

171 engage with this complexity via the study of ambient mineral dust samples from diverse source regions

172 oxide thin film layer, surface ligand layer, ambient) model with two-dynamic (metal oxide thin film l

173 In artistic oil paintings, ambient moisture and water and organic solvents used in

174 rs (EFs) from a recent field campaign, Nepal Ambient Monitoring and Source Testing Experiment (NAMaST

175 nction responses to N enrichment depended on ambient N deposition at a regional scale.

176 al responses to fertilizer varied across the ambient N deposition gradient.

177 sponse to simulated N deposition depended on ambient N deposition levels.

178 s at seven eastern US hardwood forests where ambient N deposition varied from 3.2 to 12.6 kg N ha(-1)

179 potential were reduced by N deposition where ambient N deposition was high suggesting fungal communit

180 hydrolysis of organic matter increased with ambient N deposition while genes involved in oxidation o

181 In addition, ambient NO(2) concentrations at the residence exceeded t

182 transportation declines and the reduction of ambient NO(2) exposure.

183 overall higher excretion rates than ones in ambient (no nutrients added) mesocosms.

184 Under the high ambient noise conditions recorded in this study, the sou

185 Considering lower ambient noise levels and different realistic propagation

186 Under ambient nutrient conditions, we observed no effect of he

187 composition with the preexisting oxygenated ambient OA.

188 rongly than pure, uncoated BC; however, some ambient observations suggest more variable and weaker ab

189 generation, and then offspring were grown in ambient or elevated [CO(2) ] growth chambers.

190 ilize the supramolecular polymer, whereas in ambient or wet conditions the polymers are rapidly desta

191 While indoor conditions may differ from ambient outdoor conditions, our findings are indicative

192 d state of the [2Fe2S] cluster maintained by ambient oxygen, which could explain hypoxia-induced IRP2

193 the contribution of emissions reductions to ambient ozone concentrations across the contiguous Unite

194 he influence of UOGD on the radioactivity of ambient particulate is not well understood.

195 Health risks associated with exposure to ambient particulate matter (PM) are a major concern arou

196 Regulations on ambient particulate matter (PM) are becoming more string

197 rganic aerosol (OOA) is a major component of ambient particulate matter, substantially impacting clim

198 identification of microplastics (>=2 mum) in ambient particulate matter, using different chemometric

199 spiratory inflammation following exposure to ambient particulate matter.

200 ly correlated with the high dFe treatment at ambient pCO(2) .

201 these data suggest that the mildly increased ambient PCO2 combined with 30 days of strict 6 degrees H

202 We combined ~4 mmHg ambient PCO2 with the strict head-down tilt bed rest mod

203 in the absence or presence of DeltaPsi, and ambient pH has no effect; and 4) the effect of DeltaPsi

204 ir skeleton at the same rate as did those at ambient pH sites.

205 Evolution couples differences in ambient pH to biological function through protonatable g

206 Laurencia spp. chemical cues than pueruli in ambient-pH seawater by comparing the proportion of indiv

207 ug/m(3) for the other models when regulatory ambient PM(2.5) data were used as predictors.

208 Even without any ambient PM(2.5) information, the developed models still

209 neighborhoods even though median declines in ambient PM(2.5) were similar.

210 We used calculated changes in ambient PM2.5 concentrations for the period 2009-2014, w

211 ancy could be achieved by a reduction in the ambient PM2.5 concentrations.

212 epression), grip strength, and household and ambient pollution.

213 creasing impalement severity with decreasing ambient pressure and elucidate a previously unexplored c

214 CH(4) to methyl bisulfate (CH(3)OSO(3)H) at ambient pressure and room temperature with a molecular c

215 ing functional groups in single particles at ambient pressure and temperature.

216 Additional in situ annealing experiments at ambient pressure and temperatures between 320 and 390 de

217 robust superhydrophobicity, in terms of the ambient pressure and water vapor content.

218 This Review emphasizes that high/ambient pressure goes hand-in-hand with ambient temperat

219 t methane oxidation at 4 degrees C and under ambient pressure in a catalytic cycle involving the form

220 tly ejected into the ionization region of an ambient pressure inlet mass spectrometer.

221 singly charged test ions (m/z 124-1131), the ambient pressure ion funnel (APIF) is demonstrated to im

222 nize molecules at atmospheric pressure, (ii) ambient pressure ion mobility-based instruments, and (ii

223 The ambient pressure structure consists primarily of P(4)Se(

224 Sb(2)S(3) precursors at room temperature and ambient pressure to generate an ink.

225 Using operando ambient pressure X-ray photoelectron spectroscopy and hi

226 Using near-ambient pressure X-ray photoemission and a curved Pt(111

227 Upon heating at ambient pressure, they show volume expansion and distinc

228 -based COF particles at room temperature and ambient pressure.

229 e heterogeneous hydroformylation reaction at ambient pressure.

230 acks was observed compared with annealing at ambient pressure.

231 unknown to date that does not belong to the ambient-pressure PbS-PbBr(2) phase diagram.

232 Ambient-pressure x-ray photoelectron spectroscopy showed

233 The effective focusing of ions at ambient pressures should be beneficial in the future for

234 uids under various surface wettabilities and ambient pressures.

235 l-free catalysis, use of water as a solvent, ambient reaction conditions, and reusability of the cata

236 ss spectrometry (MS) is an emerging tool for ambient reaction monitoring via microdroplet reaction ac

237 of airborne respiratory viruses varies with ambient relative humidity (RH).

238 sol particles become cloud droplets when the ambient relative humidity (saturation ratio) exceeds a c

239 n genotype clustering, doublet detection and ambient RNA estimation, as demonstrated across a range o

240 However, ambient RNA present in the cell suspension can be aberra

241 of methane into liquid chemicals, whereas an ambient selective process with minimal infrastructure su

242 mass at sites with low precipitation or high ambient soil nitrogen.

243 help distinguish self-generated sounds from ambient sounds.

244 gh strength (~66 gigapascals), and excellent ambient stability.

245 Ambient striatal GABA tone on striatal projection neuron

246 At oceanic depths >200 m, there is little ambient sunlight, but bioluminescent organisms provide a

247 uid extraction surface analysis (LESA) is an ambient surface sampling technique that allows the analy

248 ear to be much smaller than the magnitude of ambient tectonic stresses in the crust at depth.

249 tion with different pattern according to the ambient temperature (i.e. TN vs. HS).

250 design is capable of heating SEOP cells from ambient temperature (typically 25 degrees C) to 70 degre

251 age, and establish how food availability and ambient temperature affect these postures.

252 400 nm (prior to impaction and spreading) at ambient temperature and pressure, by also collecting the

253 sidence time (20 min) and mild conditions at ambient temperature and without the exclusion of air.

254 that shoot and root growth responses to high ambient temperature are coordinated during early seedlin

255 High ambient temperature attributable to global warming has a

256 We studied whether ambient temperature changes cause different timing in th

257 ing at progressively longer times we find an ambient temperature decay time of the Omega Fe-C5' bond

258 a elegans (T. scripta), sex is determined by ambient temperature during embryogenesis.

259 lly activated delayed fluorescence (TADF) at ambient temperature from a multiresonant (MR) state and

260 The reaction was conveniently carried out at ambient temperature in the presence of inorganic base to

261 In plants, an elevation in ambient temperature induces adaptive morphological chang

262 Ambient temperature is likely to be playing a role in th

263 nvestigate the effect of short-term elevated ambient temperature on ruminal volatile fatty acid (VFA)

264 defective in these TCPs after an increase in ambient temperature to 29 degrees C, a condition that ca

265 CR on health span are mitigated by elevating ambient temperature to thermoneutrality (30 degrees C),

266 grees C on a scale-model building) below the ambient temperature under a solar intensity of 744 W m(-

267 semiconductors that can be processed at near ambient temperature with high mobility and device perfor

268 Ar reaction of unactivated aryl fluorides at ambient temperature without strong base is demonstrated.

269 ergy expenditure is due to body composition, ambient temperature, and institutional site of experimen

270 ce between the needle tip and the collector, ambient temperature, and relative humidity) this techniq

271 high/ambient pressure goes hand-in-hand with ambient temperature, because weakly interacting species

272 ns, our findings are indicative of a role of ambient temperature, humidity and wind speed in affectin

273 ively, with an increase of 3 degrees C above ambient temperature, suggesting that warming may differe

274 The response of plants to high ambient temperature, termed thermomorphogenesis, is char

275 It is found that at ambient temperature, the exchange of H to D has no effec

276 ed out to be very low, about 0.02 - 0.04% at ambient temperature, with about a two-fold increase at 7

277 s to be highly flexible in lipid bilayers at ambient temperature, with large rocking motions of the g

278 a stable phase in the Fe-S phase diagram at ambient temperature.

279 s in regulating the phyB-PIF4 module at high ambient temperature.

280 3)d-d state is tetrahedral and accessible at ambient temperature.

281 ding on the degree of steric stress, even at ambient temperature.

282 tion factors controls root responses to high ambient temperature.

283 es, generally related by their volatility at ambient temperature.

284 ion and synapsis during male meiosis at high ambient temperature.

285 f of mechanism for (68)Ga-FAPI-74 labeled at ambient temperature.

286 ays a positive role in rice growth under low ambient temperature.

287 rose bengal as a triplet photosensitizer at ambient temperature.

288 The reaction occurs at ambient temperatures and can be catalyzed by a few dirho

289 born from pregnant pigs exposed to elevated ambient temperatures during gestation have altered pheno

290 At the same time, ambient temperatures help overcome activation barriers t

291 acclimation, promotes hypocotyl growth under ambient temperatures in Arabidopsis.

292 ppm) or elevated CO(2) (750 ppm) and either ambient temperatures, a 4 degrees C warming, or an 8 deg

293 cated material can be stored, transported at ambient temperatures, and even heat-treated without comp

294 te increases with engine load and decreasing ambient temperatures, particularly for Euro 4 and 5 emis

295 reduced thermal reaction norm slopes at high ambient temperatures, suggesting that the current level

296 eterozygous R163C (HET) mice over a range of ambient temperatures.

297 ps in flying insect numbers on days with low ambient temperatures.

298 tissue to generate heat in response to cold ambient temperatures.

299 is determined as a function of pressure from ambient to 24 GPa using Monte-Carlo simulations constrai

300 molecular dynamics, we have investigated the ambient water confined in a supramolecular tetrahedral a