ライフサイエンスコーパス: experimental condition

1 h as diclofenac and indomethacin in the same experimental conditions).

2 conditional essentiality of a gene under an experimental condition.

3 n, is important for fitness under a specific experimental condition.

4 and variances are sensitive to the change in experimental condition.

5 tags attached to myosin varies depending on experimental condition.

6 pathways perturbed by a specific clinical or experimental condition.

7 hydrophilic/phenolic antioxidants under our experimental conditions.

8 across both our stress induction and control experimental conditions.

9 oblem can be avoided by a suitable choice of experimental conditions.

10 the measured exocytotic rate under different experimental conditions.

11 fected by ecosystem type, local climate, and experimental conditions.

12 C, and 1.0m.s(-1) were superior to the other experimental conditions.

13 ws users to modify models based on their own experimental conditions.

14 prey were still nauplii at 14 dph under the experimental conditions.

15 gue or increase endurance under a variety of experimental conditions.

16 ding and expression profiles across multiple experimental conditions.

17 of 0.21mumolL(-1) for TBHQ, under optimized experimental conditions.

18 ntify differentially expressed genes between experimental conditions.

19 ere will be adaptable to other organisms and experimental conditions.

20 ich are differentially expressed between two experimental conditions.

21 and methods, many of which create unnatural experimental conditions.

22 penetrating peptide performance in different experimental conditions.

23 single catalyst, telescopic workup, and mild experimental conditions.

24 ransfer model was field tested under varying experimental conditions.

25 microplate-ABTS and HPLC-ABTS, using similar experimental conditions.

26 n different parts of the brain under various experimental conditions.

27 emble data that were recorded under the same experimental conditions.

28 tinct mean expression levels under different experimental conditions.

29 ntify differentially expressed genes between experimental conditions.

30 od-reinforced operant behavior under similar experimental conditions.

31 diated apoptosis was assessed under relevant experimental conditions.

32 GC/TOF-MS data sets acquired under different experimental conditions.

33 of different types of tissues and different experimental conditions.

34 tasets collected from different genotypes or experimental conditions.

35 dominantly composed by Geobacter sp. at both experimental conditions.

36 sity and no saturation is observed under the experimental conditions.

37 telet activities in real-time under multiple experimental conditions.

38 pholine, in yields of 80-98% under very mild experimental conditions.

39 ation of proteins under typical fluorescence experimental conditions.

40 assess spindle morphology across a range of experimental conditions.

41 es across biological systems under different experimental conditions.

42 butes describing the material properties and experimental conditions.

43 components of the membranes under the given experimental conditions.

44 bind PRC2; Kds depend to some extent on the experimental conditions.

45 as measured and compared between the various experimental conditions.

46 actions with inexpensive oxidants under mild experimental conditions.

47 s different retention times, under identical experimental conditions.

48 transformation of quinone and iron under all experimental conditions.

49 bilized enzyme penicillinase under different experimental conditions.

50 ve-point time-course within each of the four experimental conditions.

51 ve preliminary studies to screen or optimize experimental conditions.

52 at accounts for data across a large range of experimental conditions.

53 e a perspective on the importance of various experimental conditions.

54 ay be observed in a single sample at certain experimental conditions.

55 nd accurately predicted outcomes under novel experimental conditions.

56 est predictions of the model under different experimental conditions.

57 ch experiments covering a realistic range of experimental conditions.

58 od on sympathetic physiology under different experimental conditions.

59 P > 0.63) and 3 d (~9%; P > 0.53) after the experimental conditions.

60 ls derived from datasets examining different experimental conditions.

61 replication stress response proteomes in 32 experimental conditions.

62 r of the micro gas preconcentrator for given experimental conditions.

63 ions of these cells with respect to time and experimental conditions.

64 ved in ensemble measurements under analogous experimental conditions.

65 e across several decades and under different experimental conditions.

66 the distribution of activity profiles across experimental conditions.

67 d ducts and intact pancreas under a range of experimental conditions.

68 erized and shown to exist under a variety of experimental conditions.

69 the iron-peroxo complex is formed under all experimental conditions.

70 eractions that are consistent under multiple experimental conditions.

71 ee to which the system simulated matches the experimental conditions.

72 iables for all elements to determine optimal experimental conditions.

73 an provide satisfactory signals at realistic experimental conditions.

74 oadly applicable to a variety of systems and experimental conditions.

75 ases were not significantly modified between experimental conditions.

76 spective cyclic voltammograms under the same experimental conditions.

77 membrane parts (f-PSM) under the exact same experimental conditions.

78 and seasonal H3N2 lineages to reassort under experimental conditions.

79 ion of CO2 and formate under the appropriate experimental conditions.

80 lective VACC blocker, or other variations in experimental conditions.

81 ted with virulence, and were expressed under experimental conditions.

82 rn (two distinct sleep episodes) under these experimental conditions.

83 y maintain uniform expression independent of experimental conditions.

84 rapid quantitative optimization of Photogate experimental conditions.

85 the two binding modes was observed under all experimental conditions.

86 ased was improved by 2,500% under the given experimental conditions.

87 ied by using the SPRi sensor under different experimental conditions.

88 aided drug discovery methods under identical experimental conditions.

89 igh-throughput sequencing data from multiple experimental conditions.

90 e enzymatic breakdown of dairy gels in these experimental conditions.

91 f Nedd4-2 is not observed under our reported experimental conditions.

92 of any given organism under a diverse set of experimental conditions.

93 pre-treated with lutein prior to exposure to experimental conditions.

94 extracted from rice samples at the different experimental conditions.

95 information appropriately under a variety of experimental conditions [2-5].

96 domization was applied to the order of the 2 experimental conditions: 25% daily needs energy deficits

97 erved 24 h (~6%; P > 0.49) and 3 d after the experimental conditions (~3%; P > 0.82).

98 Using the best set of the experimental conditions a linear response for copper ion

99 Under the optimized experimental conditions, a linear analytical curve was o

100 Under the optimum experimental conditions, a linear concentration range of

101 Under optimum experimental conditions, a linear response ranging from

102 Under the optimised experimental conditions, a linear response to sulphite c

103 Under our experimental conditions, a power density of 4.5muW/cm(2)

104 ments are meticulously engineered to control experimental conditions across the sample.

105 a region is truly methylated under any given experimental condition, allowing for downstream analyses

106 expands the range of analytes, surfaces, and experimental conditions amenable to DESI-MSI, especially

107 mmobeads IB-150P beads and that, under these experimental conditions, an immobilization yield of abou

108 s, (iii) data related to the environment and experimental conditions and (iv) datasets and software t

109 od agrees well with the CKD method under all experimental conditions and also with the Brown method a

110 on of pH and oxalate closely correlated with experimental conditions and data.

111 previous models included a broad spectrum of experimental conditions and dealt only with loading, her

112 varied over time partly reflecting different experimental conditions and diverse datasets from distin

113 strains were grown in culture under the same experimental conditions and identified by molecular PCR

114 aneous level, an effect seen across multiple experimental conditions and in brain signals observed at

115 analyses, monitoring the reproducibility of experimental conditions and investigating biophysical pr

116 tory largely determines pteropod response to experimental conditions and is essential to the interpre

117 The experimental conditions and material parameters for the

118 The experimental conditions and not the mechanical propertie

119 sinensis compounds acquired under different experimental conditions and of human plasma samples.

120 structural differences arising from various experimental conditions and reveals static or dynamic di

121 B is more pathogenic in AGMs under identical experimental conditions and suggests that postexposure t

122 ult due to influences from variations in the experimental conditions and the data analysis methods.

123 ghted, including the mechanism of detection, experimental conditions and the response range of the bi

124 ing more complete information about samples' experimental conditions and their differences.

125 tion networks for large datasets and complex experimental conditions and to perform efficient and rel

126 0.89), were consistently observed under all experimental conditions, and accorded closely with histo

127 e intense than the Stokes peak under certain experimental conditions, and find the effect to be tunab

128 imated half-life of at least 200 s under the experimental conditions, and provides clear evidence for

129 serum at 37 degrees C after 3 days under our experimental conditions, and sustainably inhibited the b

130 different techniques, membrane systems, and experimental conditions, and they provide foundational d

131 eline expression) of most variable genes and experimental conditions; and, for a given gene-condition

132 Under optimized experimental conditions, APTES and GPMS modified immunos

133 alized linear model framework, including the experimental conditions as new model features.

134 tervention that deserves further study under experimental conditions as well as in human diseases.

135 s redox transformation occurred over various experimental conditions at pH 3, 5, and 7 and in the pre

136 tion IC50 = 1.1 +/- 0.1 muM, under identical experimental conditions both bd oxidases are insensitive

137 communities were driven in part not only by experimental conditions but also by stochastic variabili

138 rd either defense or reward depending on the experimental conditions, but does not consistently favor

139 Using our methodology, we describe each experimental condition by a probability distribution.

140 useful for inferring TF-binding peaks in new experimental conditions by reducing the need for additio

141 As a result, some of the most stringent experimental conditions can be relaxed, and susceptibili

142 We show how different experimental conditions can be used to facilitate causal

143 Future data acquired in new experimental conditions can be used to further improve t

144 rsa for a given probe set design, changes in experimental conditions can easily bring some measuremen

145 iven autoimmunity and highlight how distinct experimental conditions can produce significantly differ

146 elevant 3D models generated under controlled experimental conditions can serve as precise preclinical

147 r mutants of IRE1, bZIP60, bZIP28 and BI1 in experimental conditions causing either temporary or chro

148 levels, organisms and growth conditions, and experimental conditions collectively control the dynamic

149 entification of OTUs shared between multiple experimental conditions, commonly referred to as the cor

150 n performed by the same group under the same experimental conditions; consequently a direct compariso

151 The experimental conditions correspond to a few photons per

152 ional feeding groups, latitude, climate, and experimental conditions could be linked to predictive tr

153 ed the change of analyte retention time with experimental conditions depending on void time and reten

154 urthermore, cellular behavior resulting from experimental conditions different from the ones reported

155 t makes theoretical simulations of realistic experimental conditions difficult.

156 yloid formation and highlights how different experimental conditions direct C-36 into distinct macrom

157 ance and survival probability under high CO2 experimental conditions do not show acclimatization capa

158 An implicit assumption is that dilute experimental conditions do not significantly perturb Hsp

159 It is found that under optimized experimental condition, DPA-SCP with white light does no

160 n restricted to a small set of cell-lines or experimental conditions due an inability to leverage dis

161 Under optimal experimental conditions (DVB/CAR/PDMS fibre coating, 40

162 eens measure the effects of many independent experimental conditions, each applied to a population of

163 d not show any proton transfer effect in the experimental conditions employed.

164 Even at optimized experimental conditions, etching the gold electrodes cou

165 he core electrons under static high-pressure experimental conditions, even for incompressible metals

166 The measurements show experimental conditions for fitting the H-function to Mi

167 is and some insights key to the selection of experimental conditions for generating intermetallic nan

168 After evaluating the experimental conditions for glucose oxidation and fluore

169 After optimizing the experimental conditions for MD sampling, the manufacture

170 cies, has continued to necessitate stringent experimental conditions for the observation of squeezing

171 t that allows one to rationalize and predict experimental conditions for thin-layer ionophore-based f

172 allows one to quite easily predict relevant experimental conditions for this emergent methodology.

173 This work aims at clearly defining the experimental conditions for which these two regimes can

174 sor, which can be used, by simply tuning the experimental conditions, for the sensitive detection of

175 c acid showed the lower concentration in all experimental conditions (from 5.70% to 7.17%); Stearic a

176 with a diffusion-limited process within our experimental conditions, further tests are necessary to

177 s showing similar expression patterns across experimental conditions, genotypes and treatments.

178 fy more sensitive tissues, bodily fluids, or experimental conditions, has potential for large-scale a

179 ions and reliable dynamic predictions in new experimental conditions (i.e. not used in the training).

180 Experimental conditions (i.e., 0.1 mM Mn(2+) (aq) concen

181 Under the same experimental conditions, I2(*-) in CH3CN rapidly disprop

182 ed and single cell line analyses under these experimental conditions identified TATA-Box Binding Prot

183 esults firmly establish that under a similar experimental condition (ie, bath application of 4-aminop

184 mportance of considering differences between experimental conditions in different model systems, part

185 concentrations were assessed under the same experimental conditions in separate experiments using Fu

186 nce of DeltaDeltaGsc(o) measured in the same experimental conditions in two structurally and sequenti

187 electrical recording of bipolar cells under experimental conditions in which the cells exhibited sur

188 iants of a model (i.e. a model with multiple experimental conditions) in order to determine the value

189 ATM suppresses rearrangement formation in an experimental condition, in which C-NHEJ is the predomina

190 ental results obtained under a wide range of experimental conditions, including measurements in indiv

191 ray mapping can be used over a wide range of experimental conditions, including temperature, pH, vari

192 t to naturally acquired TSEs, and even under experimental conditions, induction of clinical disease i

193 of dys-regulated subnetworks under different experimental conditions (inflamed and uninflamed tissues

194 Under our experimental conditions, infusions and decoctions of L.

195 Under identical experimental conditions, inoculation at low infection mu

196 ormalism for integrating omics data from any experimental condition into constraint-based ME models.

197 ing, and hence research into well-controlled experimental conditions is crucial.

198 r nano-liposomal delivery by fixing the main experimental conditions: liposome lipid composition and

199 id-derived tetrazine and by changing the key experimental conditions, mainly the pH of 7.2 and the te

200 side (reaction kinetics simulations of real experimental conditions) make it a useful simulation too

201 information on the topology of the space of experimental conditions makes it possible to infer the p

202 e better fits throughout the tested range of experimental conditions, meaning that the U(VI)-MLGO sta

203 Under these controlled experimental conditions, 'metabolic inflexibility' is ch

204 Experimental conditions mimic small to medium-sized grav

205 Comparison of the various experimental conditions mimicking the natural environmen

206 e models for auditory MEG data under typical experimental conditions: monaural and diotic stimulation

207 We find several experimental conditions must be optimized for accurate r

208 Under experimental conditions, naked mole-rats tolerate hours

209 Here we report the experimental conditions necessary to use this system to

210 Under the same experimental conditions, neither one-photon ionization n

211 snails (Hydrobia ulvae) moving in controlled experimental conditions, observed in the temporal dynami

212 nearly 40% lower odds of complying with the experimental condition (odds ratio = 0.62, 95% confidenc

213 nificantly reduced mortality over a range of experimental conditions (odds ratio 0.27, 95% confidence

214 athways associated with specific clinical or experimental conditions of interest, with the aim of fac

215 on between 1 and 6 occurs under the selected experimental conditions on a time scale shorter than 100

216 of catalytic NPs and the effects of various experimental conditions on the collision dynamics.

217 The effect of experimental conditions on the extraction, such as pH, s

218 ctions and allows to assess the influence of experimental conditions on the mechanistic pathways.

219 he processes are conducted under very simple experimental conditions, only in the presence of K2CO3,

220 ments to ZFIN including use of the zebrafish experimental conditions ontology, 'Fish' records in the

221 is work demonstrates for the first time that experimental conditions optimized for SRM 955c (caprine

222 a reperfusion injury across a broad range of experimental conditions, organs, and species.

223 Under our current experimental conditions, over-expression of AVR-Pii or k

224 l reproduced the relative effects of varying experimental conditions (particle size, dose, mixing tim

225 Using the best set of the experimental conditions (pH 12.3; Eads: -0.40V) for the

226 oader range of proteins and a wider array of experimental conditions (pH, temperature, denaturants).

227 ta of dynamic gene expression under multiple experimental conditions provides new information that ma

228 ollows the stiffness of the apparatus at all experimental conditions, regardless of the strain rate a

229 us functional groups and the mildness of the experimental conditions removes many of the problems ass

230 e been tested pre-clinically using different experimental conditions, rendering it impossible to dire

231 uous region of microemulsion was the optimal experimental conditions resulting in a microemulsion con

232 Our results show that under the proper experimental conditions RIXS indeed can be used to probe

233 the evoked spikes, across a wide variety of experimental conditions sampled from the literature.

234 ous fallacy of the assumption that different experimental conditions should exhibit equal amounts of

235 and Pu(III) coexisted in solution under our experimental conditions, showing that Pu(IV) reduction t

236 For the biogenic precursors and experimental conditions studied, HOMs in fresh biogenic

237 ells based on aspects of their phenotype and experimental conditions such as cell cycle phase and pla

238 cal shifts in lipids are highly sensitive to experimental conditions such as pH and temperature, so t

239 al shift patterns due to variations in other experimental conditions, such as compound concentration,

240 The MALDI IMS experimental conditions, such as matrix deposition and t

241 The stability of this association across experimental conditions suggests that HRV may serve as b

242 of CD71(+) erythroid splenocytes under these experimental conditions suggests that the impact of thes

243 In addition, under certain experimental conditions, synchronization was essential t

244 ven genes appear to be dispensable under the experimental conditions tested, deletion of any of the 2

245 ores the difficulties of generating reliable experimental conditions that allow interference with rec

246 amplifies the predicted effects, we suggest experimental conditions that have the potential to disti

247 were developed to investigate the favourable experimental conditions that maximize the extraction eff

248 The results indicate that under experimental conditions the catalytically active species

249 We show that under well-controlled experimental conditions the relative combined uncertaint

250 Under the optimal experimental conditions, the developed procedure exhibit

251 In our experimental conditions, the different chemical environm

252 For realistic experimental conditions, the enhancement that the SHM ca

253 ng intermediates, and that under appropriate experimental conditions, the initial rate of hydroxylami

254 Under experimental conditions, the mesopredator (dottyback, Ps

255 On the other hand, under the same experimental conditions, the pirimiphos-methyl residues

256 Under the optimal experimental conditions, the preconcentration factors in

257 Under optimized experimental conditions, the probe detects bilirubin sel

258 nstrate that under a wide range of doses and experimental conditions, the TLR4 antagonists, (+)-nalox

259 We conclude that under our experimental conditions there is only one detectable leu

260 Under the optimized experimental conditions, there existed two linear regime

261 teraction with protein timing in free-living experimental conditions; these factors have yet to be ca

262 Experimental conditions (thickness and composition of th

263 (MNV) and bacteriophage MS2 under identical experimental conditions to aid in interpretation of hNoV

264 sional device architecture, which allows the experimental conditions to be adjusted independently for

265 A theoretical rationale for the specific experimental conditions to be used for the acquisition o

266 ns of a population of 25 cells under various experimental conditions to compare their outcome with th

267 seq (ssRNA-seq) datasets collected under two experimental conditions to derive the genomic TU organiz

268 rticle, we develop patch-clamp protocols and experimental conditions to determine the upper bound of

269 results, we were able to control some of our experimental conditions to maintain a good stability of

270 gest that it should be possible, under ideal experimental conditions, to obtain data from protein cry

271 nsing substrate was performed by varying the experimental conditions: type of metal nanoparticles, mo

272 n addition, incorporating information on the experimental conditions under which affinities were meas

273 Unlike dilute experimental conditions under which biological molecules

274 ts are likely not isolated to the particular experimental conditions used here, such as the choice of

275 n mice, whereas Akt1 had no effect under the experimental conditions used in the study.

276 ern recognition molecule, and argue that the experimental conditions used to test this hypothesis sho

277 single vesicles (86%) are observed under the experimental conditions used, allowing us to quantify th

278 Under the experimental conditions used, PSMA-selective uptake of (

279 ctral variations of the dye depending on the experimental conditions used.

280 d yield), in short reaction times under mild experimental conditions using a slight excess (1.5 equiv

281 , the stimulation was identical for the four experimental conditions (valid/invalid cue condition x t

282 In five experimental conditions we found that subjects took the

283 simple molecular building blocks and robust experimental conditions, we demonstrate control of a wid

284 on in real data collected under a variety of experimental conditions, we describe a flexible point-pr

285 Under our experimental conditions, we found no evidence of functio

286 g the DNase I hypersensitive sites under 349 experimental conditions, we predicted 217 RPG regulatory

287 The optimal experimental conditions were as follows: the amount of M

288 Four experimental conditions were evaluated: baseline with co

289 ional oxygen atoms), respectively) under the experimental conditions were much higher than those in t

290 xes, their associated binding affinities and experimental conditions were obtained from different bin

291 Experimental conditions were set at either current (pCO2

292 d, and this time the conclusion was that the experimental conditions were successfully replicated wit

293 Here, we contrasted two experimental conditions where subjects were instructed t

294 of events with rate constants that vary with experimental conditions, where dissociation of the K409R

295 0(5) NPs mL(-1) was determined under current experimental conditions, which is about 4 orders of magn

296 etect differential isoform expression across experimental conditions, which is of great biological in

297 anoscale must be flexible regarding variable experimental conditions while ideally also being highly

298 ontact electrification under several special experimental conditions (wind, water and steam) was stud

299 both azide and HS(-) under the investigated experimental conditions with DeltaS() = -14(2) eu and De

300 of differential methylation between multiple experimental conditions with the baySeq R package.