ライフサイエンスコーパス: incubation

1 tive cultures were detected within 4 days of incubation.

2 (-)-OSU6162 would decrease this new form of incubation.

3 the first time by parallelizing the droplet incubation.

4 ifferences in the microcosm after 40 days of incubation.

5 led carbon and nitrogen within 68 days after incubation.

6 ensate for limited evaporation during sample incubation.

7 by EC was reached only after 45 to 60 min of incubation.

8 and PCB 136 in HepG2 cells following a 72 h incubation.

9 esticide applications occur during laying or incubation.

10 L8, without or with interleukin-4 (IL-4) pre-incubation.

11 ated with cell death as soon as 30 min after incubation.

12 aptations in NAc core during methamphetamine incubation.

13 true-positive GBS isolates missed by 48 h of incubation.

14 ned from L. plantarum after 8, 24, and 48 hr incubation.

15 ration of about 65% as early as 10 min after incubation.

16 and fungal community compositions after the incubation.

17 totoxicity associated with EdU during longer incubations.

18 cterial partners were detected following the incubations.

19 obacterium jannaschii and Amphritea japonica incubations.

20 re usually parameterized based on laboratory incubations.

21 xplosive surface, as well as benthic chamber incubations.

22 ptides, and flavanols in the bean during the incubations.

23 nella isolate, Shewanella sp. (NR), in batch incubations.

24 Hence, after 24 h of incubation, 10 mol % of C(12)EO(8) or 50 mol % of OG in

25 Here, we show brief incubation (8 h) of UCB CD34+ cells with the matricellul

26 By combining laboratory incubation and a two-pool model, we then explored change

27 ieved through systematic optimization of the incubation and amperometric detection of the different c

28 g (real-time monitoring) dye or Ln DNA probe incubation and could efficiently distinguish between pho

29 ral phases (FeS(x)) increased during initial incubation and decreased together with pyrite (FeS(2)) a

30 using embryological data and information on incubation and fledging for 3096 avian species.

31 d rapid identification of ill people even at incubation and prodromal periods of illness.

32 Dissolved inorganic nitrogen (DIN) amendment incubations and comparisons between our sampling campaig

33 om flooding to drainage to reflooding, batch incubations and unplanted microcosm experiments were con

34 king electrode ensures in-situ cell seeding, incubation, and further electrochemical detection of the

35 of 100-250 muM was removed within 6 weeks of incubation, and the experiments demonstrated that the tr

36 fication potential was measured using slurry incubations, and the microbial community was examined wi

37 e concentration of H(2)O(2) at 3 and 24 h of incubation; and a tyrosine-containing entity.

38 After incubation at 4 degrees C, for up to 6 days, the structu

39 d using methanol with 2 M sulfuric acid with incubation at 65 degrees C for 60 min.

40 ermostability (loss of activity after 10-min incubation at 70 degrees C).

41 Incubation at 80 degrees C, a range of detergents, Trizo

42 ives of 10 micropollutants in sediment-water incubations (based on the OECD 308 standard) with sedime

43 with N fertilizer in a short-term laboratory incubation besides two biochars.

44 Co-incubations between DMSP-producing microalgae and bacter

45 esponses of microbial communities in monthly incubations between spring and autumn under different en

46 Oxic and anoxic incubations both showed active methane oxidation by a Me

47 inus test was performed on one set >12 hours incubation but results kept blind.

48 Numerous pathways showed upregulation with incubation, but downregulation with EE, suggesting that

49 ite testing of raw milk, which only involves incubation, centrifugation and dilution steps.

50 monitoring of the bacteria inside bacterial incubation chambers.

51 le glass-chip comprising a chaotic mixer, an incubation channel and optical detection chamber.

52 Many cells responded rapidly to incubation conditions, increasing total numbers by 4 ord

53 y is influenced by both DNA sequence and the incubation conditions.

54 Waterlogged soil incubations confirmed that anaerobic respiration comobil

55 nt results from agar-solidified experimental incubations, containing either AQDS or NOM, where FeRB w

56 To assess how lab-scale incubation datasets inform model projections over decade

57 30-day) and 16 long-term cellulose (729-day) incubation datasets with soils from forests and grasslan

58 STBEV-incubation decreased angiotensin II responsiveness only

59 on as well as intermediate production during incubation, different pathways in terms of direct or ind

60 Integrating multi-year datasets of soil incubations (e.g., > 1.5 years) with microbial models ca

61 icken embryo with pravastatin from day 13 of incubation, equivalent to ca. 25 weeks of gestation in h

62 Laboratory incubation experiments reveal that biological N(2) produ

63 ing adenosine-5'-triphosphate (ATP) based on incubation experiments under ATP, DIP-replete, and DIP-d

64 In vitro gastrointestinal incubation experiments were conducted to estimate the bi

65 covariance flux observations, and laboratory incubation experiments, to identify which carbon sources

66 In the first 2-4 days of incubation, Fe(2+) accumulated up to 100 muM in the top

67 The DNA NW remained intact during incubation for 24 h in serum solution.

68 We increased adult predation risk during incubation for 40 bird species in north temperate, tropi

69 Using GPS loggers we tracked 385 incubation foraging trips of wandering albatrosses Diome

70 eter), shortened the time of required sample incubation from 3 h to 5 min.

71 e(2+) decreased during 7 days of undisturbed incubation from approximately 400 to 60 muM.

72 rmed on blood culture samples after 12 hours incubation has a negative predictive value (NPV) of 99.5

73 On day 19 of incubation, hearts and vessels were isolated to determin

74 Comparing multiple subsets of cellulose incubations (i.e., 6, 30, 90, 180, 360, 480 and 729-day)

75 Cell incubation in a medium containing oxazole 2 resulted in

76 enteric arteries, the effects of up to 6-day incubation in a saline (PBS), UW, or HypoRP solution on

77 y, PEF-treatment and subsequent intermediate incubation in aqueous buffer for 24 h, followed by freez

78 teria in the device, allowing for subsequent incubation in drugs.

79 owerSoil DNA Isolation Kit with an overnight incubation in lysis buffer, resulted in DNA extraction w

80 Additionally, while incubation in PBS led to a significant decrease in the m

81 pted, especially the tunica media, following incubation in PBS, in contrast with incubation in the Hy

82 Subsequent incubation in simulated intestinal fluid (SIF) induced r

83 e other reports the binding of gliadin after incubation in streptavidin-peroxidase.

84 ollowing incubation in PBS, in contrast with incubation in the HypoRP solution and to a lesser extent

85 hylenediamine-tetraacetic acid (EDTA)), (ii) incubation in water/0.9% NaCl with/without antioxidants,

86 ial system of fermentation, using controlled incubations, in order to achieve greater control over th

87 t (isolated 21 days vs. enriched 21 days) or incubation (isolated 1 day vs. isolated 21 days).

88 owed a high enzymatic stability in different incubation media as well as in vivo (57-79% intact radio

89 Compared to the conventional incubation method, the ACET flow enhanced method is fast

90 Introducing a pre-extraction incubation method, we measure degradation-resistant glyc

91 In anoxic incubations, Methylobacter cell numbers increased almost

92 Embryonic hearts (19 out of 21 days of incubation) mounted on a Langendorff preparation were ex

93 Moreover, an incubation of (-)-epicatechin or (+)-catechin with epica

94 n of any Pgp was detected following in vitro incubation of adult P. univalens with ivermectin suggest

95 We report that incubation of aqueous dispersions of supramolecular asse

96 Incubation of BE cells with interferon gamma caused them

97 Incubation of C(3)-ZIF(MCF) with MCF-7, HeLa, HDFn, and

98 Incubation of Caco-2 monolayers with IL1B increased TJ p

99 extraction (recovery>90%); third, overnight-incubation of calibration samples after spiking mAb to t

100 Furthermore, incubation of cardiomyocytes with 12,13-diHOME increased

101 tion, this ATM increase was prevented by pre-incubation of cells with antioxidants.

102 We find that incubation of chromatin or DNA with a truncated Ph prote

103 ses multiple pathway changes associated with incubation of cocaine seeking strongly supports EE as a

104 5p) as the miRNA most highly up-regulated by incubation of colorectal cancer cells with PGE(2).

105 In contrast, incubation of craving after forced abstinence was associ

106 ecedes and enables CP-AMPAR accumulation and incubation of craving, reflecting weakening of mGlu1-dep

107 inence-dependent expression or inhibition of incubation of craving.

108 n of the drug-reinforced responding, and the incubation of drug craving (the time-dependent increase

109 ntary abstinence from the drug and tests for incubation of drug craving (the time-dependent increase

110 recently introduced an animal model to study incubation of drug craving after prolonged voluntary abs

111 In the classical incubation of drug craving rat model, drug seeking is as

112 The assay consists of incubation of enzyme-specific substrates with dried bloo

113 Co-incubation of HOPS, proteoliposomes bearing R-SNARE, and

114 eased expression of markers of fibrogenesis; incubation of HSCs with 3PO or knockdown of PFKFB3 reduc

115 Nevertheless, incubation of HUVEC cells with melanoidins from common b

116 Incubation of IL22R-expressing PDAC cells with IL22 prom

117 Methanol and paraformaldehyde incubation of infected cells also inactivated the virus.

118 Here, direct incubation of leaf explants from the non-medicinal plant

119 Pre- or post-incubation of linezolid prior or following C5a induced i

120 Co-incubation of linezolid significantly improved killing o

121 on, but not decreased mGlu1 function, in the incubation of methamphetamine and cocaine craving.

122 Drd1 and Drd2 in NAc core is critical to the incubation of methamphetamine craving after voluntary ab

123 choice-induced voluntary abstinence prevents incubation of methamphetamine craving in rats.

124 racellular matrices, are reconstituted by co-incubation of monomers and amyloid fibers.

125 Importantly, incubation of neutrophils with platelets significantly e

126 Incubation of normal human epidermal keratinocytes at 4(

127 Here, we developed a rat model of incubation of opioid craving after electric barrier-indu

128 ter cessation of opioid self-administration (incubation of opioid craving) was stronger after volunta

129 Incubation of organoids derived from double-knockout mic

130 Incubation of organoids with free fatty acid-enriched me

131 s that decreased PRL-induced JAK2 signaling; incubation of pancreatic cancer cells with these compoun

132 Incubation of pancreatic cell lines with PRL activated s

133 Incubation of platelets with a blocking antibody directe

134 y to investigate the drug response following incubation of S. aureus with oxacillin.

135 Incubation of S. aureus-positive blood culture samples w

136 otein levels were achieved by freeze-drying, incubation of samples at different relative humidities,

137 microscopy (cryo-EM) analysis confirms that incubation of spike with CR3022 Fab leads to destruction

138 Co-incubation of T cells expressing an orphan TCR with targ

139 This phenotype could be imitated by incubation of T cells with amitriptyline.

140 Increasing the incubation of target and effector cells in the presence

141 Incubation of Taz(KD) mitochondria with exogenous CoA pa

142 or IL21 induced separate signaling pathways; incubation of the cells with IL15 and IL21 cooperatively

143 Moreover, incubation of the probe with non-S. aureus-positive bloo

144 hods: Inhibition of cell proliferation after incubation of the RPMI8226 cell line with an increasing

145 TAB rats vs. Shams, which was reversible by incubation of the VMs with PKA inhibitor H89 (1 mumol L(

146 and X-linked inhibitor of apoptosis (XIAP); incubation of these cells with leflunomide increased lev

147 Incubation of this strain under aerobic conditions resul

148 Incubation of vascular endothelial cells with saturated

149 Laboratory incubations of different phytoplankton types and applica

150 n is limited to observations from laboratory incubations or few field experiments.

151 oring isolates, a double inoculum, prolonged incubation, or both was evaluated, with each modificatio

152 ffect of light on growth was observed in one incubation (out of nine), coinciding with a declining ph

153 ange of their foraging trips, and during the incubation period (but not chick rearing), bolder indivi

154 Vector competence and the extrinsic incubation period (EIP) are two key entomological parame

155 We find that differences in the incubation period alone can determine the limits of pred

156 We identified patients during their incubation period and hospital-onset cases, rapidly isol

157 ipitation during the fall spawning and early incubation period and increased with above-average preci

158 abatement owing to the high prevalence, long incubation period and lack of established treatments or

159 ts key epidemiologic features, including the incubation period for clinical disease (coronavirus dise

160 rk provides additional evidence for a median incubation period for COVID-19 of approximately 5 days,

161 with experiment and implies a characteristic incubation period for the formation of <c> dislocation l

162 ed cases may overrepresent severe cases, the incubation period for which may differ from that of mild

163 laboratories should consider shortening the incubation period from 5 days to 4 days, if necessary, t

164 From this, we estimate that the median incubation period is 1.4 days.

165 During an incubation period of 4-5 months, we observe the emergenc

166 re and symptom onset windows to estimate the incubation period of COVID-19.

167 ing the millimolar concentrations and longer incubation period of ionic gold.

168 The mean incubation period of rabies in cases with exposure sites

169 order to examine the impact of a pathogen's incubation period on the dynamics of spread and the pred

170 The median incubation period was 10 days, and the case fatality rat

171 The median incubation period was 6 days.

172 The median incubation period was estimated to be 5.1 days (95% CI,

173 s containing the DPPP probe increased during incubation period which indicates the formation of lipid

174 yos are only approximately 60% through their incubation period, much younger than previously hypothes

175 investigate the relationship between disease incubation period, prion protein accumulation, neuroinfl

176 age at treatment onset, and duration of the incubation period.

177 mula: see text] than the shortened extrinsic incubation period.

178 polymerase chain reaction at the end of each incubation period.

179 (Dex) treatment at day 14 out of the 21-day incubation period.

180 achieving the same 100% attack rate, similar incubation periods (in both cases extremely long) and hi

181 The mean incubation periods accounting for intermediate cases wer

182 lenged with LL132 elk inoculum had prolonged incubation periods and greater PrP(Sc) fibril stability

183 f pre-symptomatic transmission by estimating incubation periods and serial intervals.

184 perimental oral challenge with the CWD agent incubation periods are longest in LL132 elk, intermediat

185 odied species caused infections with shorter incubation periods that were associated with diminished

186 le wave-like spread of diseases with shorter incubation periods, such as cholera.

187 Our results show that diseases with longer incubation periods, such as Ebola, where infected indivi

188 The serial intervals are shorter than incubation periods, suggesting that pre-symptomatic tran

189 On second passage, relative incubation periods, western blot profiles, and neuropath

190 are always fatal and have long asymptomatic incubation periods.

191 nd animals following long, clinically silent incubation periods.

192 pical BSEs (H and L types) that have shorter incubation periods.

193 imizing the labeling conditions (DNA length, incubation pH, DNA-AuNP concentration, and incubation ti

194 ain in screening asymptomatic persons in the incubation phase, as well as in the accurate determinati

195 optically displaying individual steps of an incubation procedure.

196 ropagation rate ([Formula: see text]), flood incubation rate ([Formula: see text]), and recovery rate

197 cleave the ssDNA reporter even after 24 h of incubation, resulting in an improved detection limit of

198 Laboratory incubations show lower CO(2) emissions from peat subject

199 This extended internal incubation step promotes the formation of the immune-com

200 er than other approaches requiring hour-long incubation steps under controlled conditions to detect t

201 d its response to temperature change with an incubation study of soils from 203 sites across tropical

202 Subsequent 100-d incubations suggested differences in the plasticity of t

203 rm that allows IC-FPOP to occur in a sterile incubation system complete with a mobile stage for XY mo

204 ng of the passive sampling polymer, critical incubation system component dimensions, equilibration an

205 was dependent on sulfatide concentration and incubation temperature and inhibited by competing dextra

206 re as follows: an incubation time of 64 min, incubation temperature of 32 degrees C, and enzyme conce

207 The effect of incubation time, incubation temperature, and enzyme concentration on diff

208 varying the concentration of surfactant and incubation temperature.

209 1 +/- pravastatin (1 mg/kg/d) from day 13 of incubation (term is 21 days).

210 rons (MSNs) in NAc core and shell during the incubation tests.

211 ature ( degrees C), enzyme concentration and incubation time (h) were optimized by central composite

212 molar ratio 1/15, enzyme load 30% (w/w) and incubation time 6 days.

213 e the effective parameters (pH, temperature, incubation time and concentration of aptamers) are inter

214 al controls for establishing the appropriate incubation time and concentration regime were not docume

215 le to inhibit candidal growth following 18 h incubation time and reduced the minimal inhibitory conce

216 Temperature, incubation time and the concentration of acetic acid wer

217 Under the optimized conditions (incubation time equal to 3 h and absence of MgCl(2)), B.

218 Generally, increasing incubation time increased the contents of various phenol

219 After an incubation time of 30 s, bead fluorescence is measured u

220 ing the developed ANN-GA were as follows: an incubation time of 64 min, incubation temperature of 32

221 The newly emerged strain has the shortest incubation time to disease and is characterized by coloc

222 maximum inhibition of HSA and PPA with short incubation time whereas maximum inhibition of HSA and PP

223 , incubation pH, DNA-AuNP concentration, and incubation time) and the separation scheme (sample loadi

224 oncentrations of detergents or lipoproteins, incubation time, as well as the order of mixing reaction

225 Depending on cold pre-incubation time, caseinomacropeptides accumulated well b

226 employed to optimize parameters such as pH, incubation time, cloud point temperature and surfactant

227 zation conditions including pH, temperature, incubation time, enzyme concentration, and mediator addi

228 The effect of incubation time, incubation temperature, and enzyme conc

229 re sophisticated sample preparation and long incubation time.

230 cing the quantity of ionic gold and required incubation time.

231 ere recorded for cell media as a function of incubation time.

232 volatile compounds, regardless of dosage or incubation time.

233 proof-of-concept study, but requiring longer incubation time.

234 be determined by the applied power and cell incubation time.

235 et of solubilization and little dependent on incubation time; it is accompanied by fast lipid scrambl

236 eater effects generally observed with longer incubation times and higher concentrations.

237 ubble-bursting experiments (with contrasting incubation times and, likely, physiological microalgal s

238 These results suggest that incubation times of enzymes and flavonoids shall be eval

239 cts of different enzymes, their dosages, and incubation times on juice yield and chemical composition

240 Current model systems require very long incubation times or severe immune suppression, and tumor

241 In addition, the large sample volume, long incubation times, and single-plex configuration have bro

242 nd that prions causing CWD in Norway induced incubation times, neuropathology, regional deposition of

243 The median time from start of incubation to Cognitor Minus test was 27.1 hours.

244 oss time that is related to the ratio of the incubation to infectious periods.

245 Here, we constructed a microcosm incubation to investigate the effects of two common anti

246 After 0.75-4 h incubation, toxin concentration in the aerosols accounte

247 in the other, IS were added after 36 days of incubation (treatment).

248 ignificant release of MNPs after 3.5 minutes incubation using just 4 nM of the cysteine protease, pap

249 d the causal role of CeL PKCdelta and SOM in incubation using short-hairpin RNAs against PKCdelta or

250 Neural activity after serum incubation was assessed in mouse slices using molecular

251 on can be completed within 5 min without any incubation, washing and blocking steps.

252 nditions with 20 cycles per step of loading, incubation, washing, and elution followed by MALDI-MS an

253 After an overnight incubation, we again observed substantial (13)C enrichme

254 Using prolonged incubation, we discovered that wild-type castor desatura

255 Using microscopy and (15) N stable isotope incubations, we studied the relationship between dissimi

256 that pH 3, 40 degrees C, 15 IU/ml, and 10 h incubation were the optimal conditions for the decoloriz

257 significantly more abundant in the sediment incubations where fast dissipation was observed.

258 s (5.2-24.1 mg (14) C kg(-1) ) after 45 days incubation, where more than 70% of (14) C-SOC was concen

259 < 0.05) for all antibiotics in course of the incubation, which indicates an accumulation of antibioti

260 n of a particular antibiotic, in a 30-minute incubation window.

261 RPMI8226 cell line was observed after 3 d of incubation with (212)Pb-daratumumab, compared with (212)

262 After the Marinomonas sp. ef1 biomass incubation with 1 mM of AgNO(3) at 22 degrees C, we obta

263 ge of 6.3 - 100.0 ng . mL(-1) within a 5 min incubation with 1-naphthyl phosphate (1-NP) substrate.

264 l by up to another ~250-fold to >48 h during incubation with 2600 times the physiological concentrati

265 es and bone marrow-derived macrophages after incubation with acini.

266 FG 2, AR 112) was enhanced 2 to 140-fold by incubation with albumin (0.38-134 mug/mL).

267 Incubation with an equimolar mixture of (18)O(2) and (16

268 ced genotoxicity was partially rescued by co-incubation with ascorbic acid, suggesting that sertralin

269 mits bright NIR fluorescence at 725 nm after incubation with beta-gal.

270 After incubation with Caco-2 cells, AHR activity of different

271 patients, and the amount was increased after incubation with CG.

272 ity, necrosis and apoptosis before and after incubation with cisplatin.

273 of 6.6 pmol/mL was achieved within 5 min of incubation with citrinin.

274 onitored copolymers assembled in vitro after incubation with ClpXP and observed that ClpXP promotes r

275 ld higher fluorescence intensity levels than incubation with culture-negative samples.

276 ntly increased on all polymer surfaces after incubation with fibronectin and vitronectin, but not col

277 Incubation with Geobacter sulfurreducens showed that bot

278 Incubation with glutaraldehyde (1%) and paraformaldehyde

279 as production in vitro during 48-h anaerobic incubation with healthy fecal samples.

280 r example, exposing the U87 cells after 24 h incubation with HPPH [3-(1'-hexyloxy)ethyl-3-devinyl-pyr

281 that this complex is stable in PBS and upon incubation with human lens-epithelial cell lysate or len

282 Short-term incubation with IL-3 dose-dependently upregulated MRGPRX

283 m healthy subjects which were restored after incubation with IRL201104 in vitro, when added alone, or

284 ovarian cancer cells has been achieved upon incubation with Lyso-Gal for only 1 min.

285 It is interesting that Msg incubation with macrophages resulted in significant mRNA

286 Incubation with obeticholic acid increased mitochondrial

287 In cultured EGCs, co-incubation with palmitate plus LPS led to a significant

288 creted IL1B and IL18, but not IL12, after co-incubation with pancreatic acini.

289 ted during SGD were released after 90 min of incubation with pancreatin and fractioned to F1 (>10 kDa

290 ties of 1 and its analogs were determined by incubation with Pronase.

291 65 from the cytoplasm into the nucleus after incubation with saliva.

292 ons to CNBr-activated Sepharose, followed by incubation with sera from 55 Dutch peanut-allergic child

293 use brain slices was evaluated ex vivo after incubation with serum from 27 children with rigorously c

294 Incubation with the acyltransferase inhibitor 2-bromopal

295 Incubation with the myeloid cell leukemia 1 (MCL1) inhib

296 e showed that ATM expression increased after incubation with the pro-oxidant hydrogen peroxide (H(2)O

297 Incubation with the tested compounds resulted in the cel

298 In cells isolated from the colonic LMMP, incubation with the TLR2 agonist increased the percentag

299 hemolysis or complement activation following incubation with these silica nanoparticles.

300 All cultured corals survived the multi-month incubation, yet those of the RAS-B grew slowly and even