ライフサイエンスコーパス: environment

1 tion (i.e., individuals modifying the social environment).

2 e load of antibiotic-resistance genes in the environment.

3 icles released from consumer products in the environment.

4 n edge in creating a long-term antibacterial environment.

5 detergent-free native or artificial membrane environment.

6 s and anaerobic microbial methylation in the environment.

7 al from other organisms directly and via the environment.

8 icular nucleosomes in their native molecular environment.

9 s and by the induction of a pro-regenerative environment.

10 althy and resilient in this highly urbanized environment.

11 associations between grid-like patterns and environment.

12 ictated by distal elements and its chromatin environment.

13 in patients treated in the modern treatment environment.

14 ional biases to potential danger cues in the environment.

15 ntial toxicity of these nanomaterials in the environment.

16 ms reflecting different sound sources in the environment.

17 entation and 25.8% proposed changes in built environment.

18 M representation and an actual object in the environment.

19 ent in a high performance parallel computing environment.

20 o match that of its soft, physiological-like environment.

21 e axonal branches in a microscopy-compatible environment.

22 nformation about intracellular state and the environment.

23 hat calculates the source contribution to an environment.

24 gel-phase upon exposure to the aqueous tumor environment.

25 ssembly factor depends on the cellular redox environment.

26 ic polymer chains surrounded by a water-rich environment.

27 Raman spectroscopy in a controlled gas-phase environment.

28 their behavior in solution and in biological environment.

29 ) or grow (chemotropism) towards a favorable environment.

30 te their usefulness as sensors in a deep-sea environment.

31 in interactions (PPIs) of a cell in a single environment.

32 ing formation in a low-density (atmospheric) environment.

33 ate design of the electrostatic and chemical environment.

34 osited 0.019% e-liquid (v/v) in a controlled environment.

35 feedback between organisms and the physical environment.

36 quantify Treg effects in a given transplant environment.

37 science research in today's academic surgery environment.

38 tions aimed at tackling the obesogenic built environment.

39 re of neurons deprives them of their natural environment.

40 neurons there encode the spatial map of the environment.

41 ctures in a crystal as opposed to a membrane environment.

42 ened anxiety-related behavior in a stressful environment.

43 ely culture C. auris from patients and their environment.

44 arch synthesis in response to changes in the environment.

45 ced into conditions that mimic their natural environment.

46 ining their optical properties in an aqueous environment.

47 f histones, serves to modulate the chromatin environment.

48 depends on the recent history of the sensory environment.

49 dence of disturbance can be obscured in this environment.

50 with that expected for hydrogen in the same environment.

51 ponses to ecological stressors in the shared environment.

52 resence of a ROS quencher or in an anaerobic environment.

53 direction in which work is absorbed from the environment.

54 ndent on the spatial structure of the visual environment.

55 interactions with nuclear spins in the local environment.

56 res dynamic cellular adaptation to the wound environment.

57 obes, damaged tissues, and the normal tissue environment.

58 sub-diffraction objects in a crowded, noisy environment.

59 structing the oxygenation of earth's surface environment.

60 als greater ability to acclimate to changing environments.

61 on which stimuli had been presented in those environments.

62 ildhood exposure to unpredictable events and environments.

63 ment associated with different behaviors and environments.

64 r objects" in vastly different ecologies and environments.

65 ood productivity, benefiting from [CO2] rich environments.

66 edators and the structural complexity of the environments.

67 notypically as they adapt to different local environments.

68 animals to obtain oxygen in hypoxic aquatic environments.

69 ile mice explored novel and familiar virtual environments.

70 uced Pi accumulation and growth in divergent environments.

71 y labeled samples and in cellular and tissue environments.

72 phylum common across a wide range of modern environments.

73 lth related applications in resource-limited environments.

74 ases, but that are maladaptive in modern-day environments.

75 g physicians in a variety of ambulatory care environments.

76 ositions is facile if not preferred in these environments.

77 productive timing in organisms with seasonal environments.

78 ible light while withstanding harsh chemical environments.

79 approximately one day in different constant environments.

80 with performance in disease and non-disease environments.

81 scape of mutualistic partners under changing environments.

82 acy and sensitivity to detect changes across environments.

83 o identify healthy-weight-sustaining density environments.

84 tion mechanism of S(0) aerosols in different environments.

85 m to function and adapt to changing cellular environments.

86 deling yeast growth in response to different environments.

87 ates cell fate following exposure to adverse environments.

88 lor constancy solution to most natural light environments.

89 ment was stable both over time and across VR environments.

90 aetearchaeota are distributed across diverse environments.

91 t are appropriate for the target performance environments.

92 ts and wild types are anti-correlated across environments.

93 leading to decreased field stability in both environments.

94 prH show distinct behaviors in different LPS environments.

95 n of domesticated wheat to a wide variety of environments across the globe.

96 We investigate how exposure to the environment affects the electrical properties of CVD-gro

97 reaking vacuum protects the surface from the environment after fabrication until dissolved by an ultr

98 els describe how chemicals distribute in the environment and accumulate through local food webs.

99 ontribute to the generation of a tumorigenic environment and are targets for drug and vaccine-based c

100 ing cells without disruption to the cellular environment and can report on the concentration, dynamic

101 thic microorganisms are adapted to the harsh environment and capable of metabolic activity at in situ

102 e mutant R411A(alpha) disrupts the H-bonding environment and conformation of Y731, ostensibly breakin

103 has been used minimally in the study of the environment and disease.

104 -varying interaction between the plasma, its environment and external controls presents a considerabl

105 Temporal manipulation of the in vitro environment and growth factors can direct differentiatio

106 ry roles in integrating the nucleus into its environment and influencing its mechanical state.

107 on of side-chain fluorinated polymers in the environment and landfills can be a long-term, (potential

108 , suffer the issue that lead is toxic to the environment and organisms for a long time and is hard to

109 aled a dynamic hTERT regulation by chromatin environment and promoter-bound TFs during ESC differenti

110 e autophagic vacuoles to mature in an acidic environment and release progeny virions in a membrane-me

111 Chondrocytes experience a complex mechanical environment and respond to changing mechanical loads in

112 s, this work sheds light on ways that genes, environment and sex interact to affect the transcriptome

113 ental, costly or irreversible impacts on the environment and society.

114 s dynamic and responsive to an ever-changing environment and the influences of epigenetic modificatio

115 cal reactions critically affects our natural environment and the synthesis of new materials.

116 LBD cannot be ubiquitinated in the cellular environment and their protein turnover must be regulated

117 EP) in tropical forests varies both with the environment and with biotic changes in photosynthetic in

118 style Study (PR-GOAL; n = 306) and the Genes-environments and Admixture in Latino Americans (GALA II)

119 ns for understanding adaptations to changing environments and for applied research on the correlated

120 apping (US-NAM) population grown in multiple environments and genotyped with 2.5 million single-nucl

121 ides may limit BPA migration in near-surface environments and have potential for use in drinking and

122 dynamics in various aquatic and terrestrial environments and in the inherent transition zones betwee

123 IG1, which is a bacterium present in various environments and mineralizes BACs.

124 traits for water and nutrient acquisition in environments and plant species.

125 how place and grid cells represent different environments and provides a new interpretation in which

126 ate binding both in the ER and extracellular environments and reduced interactions with the ER HSP70

127 ors different traits than selection in rural environments and that these differences can drive adapta

128 ot be confined to the photic zones of marine environments and, as such, may have been underestimated.

129 tion having already happened in genomics and environment, and eventually arriving in medical informat

130 ariations, how ENMs may be released into the environment, and the effect of compartment composition o

131 ngualism, the role of ever-changing learning environments, and differential developmental trajectorie

132 organisms driving As biomethylation in paddy environments, and thus the soil conditions conducive to

133 Thus, in ReRh rats, exploration of a novel environment appears to interfere with the representation

134 rmines germination timing in response to the environment are currently unknown.

135 and survival of these infants, NICU sensory environments are dramatically different from those in wh

136 field of sustainability science examines how environments are transformed through polycentric governa

137 Furthermore, the spatial environment around the proline catalyst can override its

138 ions usually show adaptations to their local environments as a result of natural selection.

139 in capturing this intersection of genes and environment, as epigenetic mechanisms are both tightly l

140 ion is fundamental when we interact with the environment, as when we move our arms.

141 val: -0.04, 0.01) and school attendance/home environment at age 7-14 years.

142 backgrounds (inbred - outbred) into a novel environment at three founding sizes (2-32), and tracked

143 integration of signals concerning the light environment by a single sigma factor to regulate chlorop

144 promote establishment of a tumor-supportive environment by inducing a novel reprogramming of the str

145 is critical for plants to adapt to changing environments by fine-tuning energy production in leaves

146 delay is taken into account, coupling to the environment can be tuned to lower values, unlike in prev

147 shows that convergent adaptation to the same environment can involve the same genetic changes on very

148 Coastal and marine environments can begin up to 100 kilometers inland, exte

149 ow wild pollinators utilize resources across environments can encourage efficient planting and mainte

150 In certain environments, changes in C. jejuni morphology due to gen

151 eptide during the transition from a hydrated environment (charged nanodroplet generated by electrospr

152 r intrinsic rate constant in the constrained environments compared with water.

153 In both environments, complex organic polymers are used as sourc

154 An atom-environment complexity measure, CA, to assess local chan

155 tion caused by ZIKV infection in the uterine environment could also interfere with fetal development.

156 ase of a gene drive construct to the natural environment could damage an ecosystem irreversibly.

157 ching that occurs between different cellular environments could control beta-synuclein (betaS) aggreg

158 The highly acidic gastric environment creates a physiological barrier for using th

159 ose a serious threat to human beings and the environment due to the use of hydrofluoric acid (HF).

160 Enriched environments elicit brain plasticity in animals.

161 on a local computer or serve as a web-based environment, enabling easy sharing of data between resea

162 s gene expression profile in response to the environments encountered throughout its tick-mammal infe

163 rging contaminants commonly found in aquatic environments, enrofloxacin (ENRO) and ciprofloxacin (CIP

164 t values depend on irrelevant aspects of the environment, even for subjects whose choices appear full

165 Repeated exposure to a novel physical environment eventually leads to a mature adaptive respon

166 our results suggest that selection in urban environments favors different traits than selection in r

167 platforms have been developed for controlled environments, field-based aerial and ground technologies

168 , feature-rich, high-performance programming environment for analysis of WGS variant data.

169 ch the virus exploits to prepare the nuclear environment for effective takeover.

170 nomalies and thus an unfavorable (favorable) environment for TC genesis.

171 indicating the importance of the hydrophobic environment for the colorimetric transition of nanoblend

172 ment have fostered an open and collaborative environment for the development of these technologies.

173 arning scores provide the right language and environment for the timely escalation of patient care.

174 ents in patient safety, and create harm free environments for patients, it is crucial that nursing st

175 Plants are important in urban environments for removing pathogens and improving water

176 pes to actively regulate their extracellular environments for tissue maintenance and adaptation.

177 ent per gram), simplicity of fabrication and environment-friendliness, these properties could enable

178 pond to mechanical cues from the surrounding environment has been implicated as a key regulator of ce

179 Childhood exposure to a farm environment has been shown to protect against the develo

180 ers visited by hoverflies in three different environments (hemiboreal, alpine, and tropical) using a

181 rystals form de novo in a rich extracellular environment in a stage-dependent manner producing comple

182 emphasizing the importance of accounting for environment in genetic analyses.

183 the relationship between an organism and its environment in important ways, including social signalin

184 ed not only the potential of the 3D printing environment in planar chromatography but also opened new

185 e functional ingredient to create a reducing environment in the intestine and to partially modulate g

186 However, the hypoxic environment in tumor tissue prevents the formation of ox

187 are coordinated when cells move in a complex environment in vivo.

188 lth settings were the most commonly reported environment in which de-escalation occurs, and nursing t

189 upport programmes, governments can create an environment in which tobacco use is reduced and citizens

190 rly all neurons were tonically selective for environments in a way that depended on which stimuli had

191 at life successfully moved into arsenic-rich environments in the late Archean Eon and Proterozoic Eon

192 Boreal wetlands have been identified as environments in which inorganic divalent mercury (Hg(II)

193 suite of algorithms by which a model of the environment, in the form of a state transition function

194 an be successful basic scientists in today's environment, including departmental leadership.

195 r substantive changes to the Earth's surface environment, including the rise of atmospheric oxygen.

196 but it is not fully understood how the tumor environment influences metabolic phenotypes and whether

197 To counter the hostile oxidative environment inside macrophages, these protozoans contain

198 -scale gene-lifestyle or more generally gene-environment interaction (GxE) meta-analysis studies can

199 he powerful ability of BAP1 to regulate gene-environment interaction in human carcinogenesis.

200 iffered as a function of menstrual phase and environment (interaction: P </= 0.01).

201 tical methods have emerged for studying gene-environment interactions (GxEs) in large-scale studies o

202 ese approaches has uncovered effects of gene-environment interactions relevant to drug response and i

203 These results uncovered genotype-by-environment interactions that support a polygenic sex de

204 ving in Costa Rica to examine potential gene-environment interactions.

205 animals benefit from knowledge parsing their environment into larger spatial segments, which are rele

206 vironments of the galaxies, processing these environments into multiphase, gravitationally bound rese

207 dapts to the statistics of the recent reward environment, introducing an intrinsic temporal context d

208 rs of MoS2 field-effect transistors as their environment is changed from atmosphere to high vacuum.

209 sults suggest that exposure to prions in the environment is greater where percent clay is less than 1

210 less, quantification of microplastics in the environment is hampered by a lack of adequate high-throu

211 The environment is important since it enabled life to emerge

212 These data verify that a gastight environment is maintained even during rotation.

213 thrive in this globally distributed, cryptic environment is poorly understood.

214 These data suggest that the host defensive environment is supported by the production of PTX3 in re

215 acing to nanomaterials in complex biological environments is challenging and can result in undesirabl

216 anding of evolutionary processes in shifting environments is vital in the context of rapid ecological

217 harmonic structures in our everyday hearing environment, it has remained largely unknown what neural

218 Perturbations in the environment lead to distinctive gene expression changes

219 This environment leads these species to exhibit pronounced ex

220 and thus reflect the phenotype of the tissue environment, making these molecules pivotal biomarkers i

221 dietary-induced disruption of the intestinal environment may influence transplantation outcomes.

222 olism, and physiology in a three-dimensional environment mimicking tissue architecture.

223 ecular simulations reveal unique hydrophobic environments near the arginine CDR mutations.

224 munity-level policies for improving the food environment need multifaceted strategies to invoke clini

225 ading knowledge in the face of this changing environment needs to be reexamined.

226 ur results are relevant to understanding the environment of M. tuberculosis replication in the host.

227 ithin a muscle-like unidirectionally ordered environment of nanofibers.

228 e, mainly due to the strong acidic/enzymatic environment of the gastric mucosa.

229 In the natural habitat and low-pH environment of toxin-secreting killer yeasts, K28 is str

230 catalyst design through fine-tuned edge-site environments of the Co centers.

231 ustain turbulence in the 10-kiloparsec-scale environments of the galaxies, processing these environme

232 nally predict the impact of local particles' environment on the recorded IR spectra.

233 l modulation of the chemical and/or physical environment or catalysis of an exergonic reaction, drive

234 n exclusive signature of cues unique to each environment or flower species.

235 activities change due to alterations in the environment or in the host.

236 om ore minerals that weather in near surface environments, or due to anthropogenic releases from wast

237 t role of liver fibrosis in the premalignant environment (PME) of the liver.

238 s, which play important roles in sensing the environment, protecting against colonization and infecti

239 e movement of larvae from planktonic to reef environments (recruitment) represents a major life-histo

240 chanism suggests that the redox level of the environment regulates the BCAA biosynthesis pathway.

241 gh levels of temporal autocorrelation in the environment - relatedness between conditions occurring i

242 d abundance of such mobile species in marine environments remain challenging, often invasive and reso

243 o ligand to zinc occurs in distinct confined environments, reminiscent of substrate discrimination at

244 aqueous chemistry occurring in microdroplet environments require experimental techniques that allow

245 ween hydronium ions and alcohols in a steric environment resembling the constraints in pockets of enz

246 al consumption in N-poor and more productive environments respectively, failed to vary with delta(15)

247 other than parental dietary habits and home environment seem to have a stronger influence on the die

248 ogical mechanism through which developmental environments shape inflammatory phenotypes across the li

249 he neighbour bath spins and yield a specific environment spectral density S(omega).

250 e that culturing cells in different physical environments, stiff, soft, or suspension, induced a phen

251 ategy of C. difficile in the challenging gut environment still remains incompletely understood.

252 omatic ring formation in cold acetylene-rich environments such as parts of the ISM.

253 lial to amoeboid transition in physiological environments, such as organoids or three-dimensional com

254 a diverse range of organisms and mechanical environments suggests that the protein machinery in this

255 temporal and spatial exploration of aquatic environments (surface and groundwater), we developed a t

256 RD2 therefore creates a restricted chromatin environment surrounding DSBs which facilitates DSB repai

257 Aspects of the environment that are not shared by twin pairs explained

258 s, PKL may be required to create a chromatin environment that influences non-coding RNA production, D

259 and storage of memories about events in the environment that predict the availability of food.

260 ides evidence that some sponges can tolerate environments that appear unsuitable to many corals and w

261 by adapting replicate populations to various environments that differ from the original along one, tw

262 nic phosphate to microorganisms that live in environments that lack this nutrient; thus, unusual enzy

263 owever, in the embryo and in defined culture environments the properties of pluripotent cells change

264 in a direction in which work is done on the environment - the requisite of a molecular machine - is

265 ct how bacteria compete and evolve in porous environments, the habitat where most bacteria live.

266 o from confusion surrounding the sedimentary environments they inhabited and the processes responsibl

267 Cells interact with the extracellular environment through molecules expressed on the membrane.

268 Bacteria sense and respond to their environment through the use of two-component regulatory

269 en can rapidly expand and establish in novel environments through adaptive evolution, resulting in de

270 Animals explore their environment to encounter suitable food resources.

271 ng functions of BHB broadly link the outside environment to epigenetic gene regulation and cellular f

272 ansition in climate from an early, warm, wet environment to today's cold, dry atmosphere.

273 nt inbred lines of Brassica rapa in multiple environments to characterize the genetic architecture of

274 tes the resistance of natural areas and agro-environments to disturbances.

275 beyond those concerned principally with the environment, to also include impacts on human health, cu

276 ruption in subsequent habituation to a novel environment, together with heightened anxiety-related be

277 dimer abundance under O3- versus OH-dominant environments underlines the competition between intramol

278 hondrial genome is placed in a novel nuclear environment using this technique.

279 e isoprene degraders in estuarine and marine environments using DNA-SIP and to characterise marine is

280 In the tested conditions, the GLY environment was more effective than the HRGS system in p

281 The home environment was the most common location for most injuri

282 vivo to a dynamically changing biomechanical environment, we hypothesized that exogenous forces can b

283 In both environments, we found that stream sticklebacks were mor

284 To transition seamlessly between environments, we next established a freely controllable

285 lant communities that developed in these two environments were quite different, and some indicators (

286 d when less restrictive definitions of ideal environments were used.

287 ft from originally reducing toward oxidizing environments, when nitrate input has consumed the reduci

288 ormation is severely hampered in the natural environment where most plastic debris accumulates.

289 its many Gram-negative bacteria to thrive in environments where low soluble iron concentrations would

290 associated with more productive and seasonal environments, where prolonged parent-offspring associati

291 cell types resulted in a lethal sepsis-like environment, which included tissue inflammation and hype

292 rshading pattern is dictated by the lighting environment, which is in turn dependent upon habitat [1,

293 -sex, age, nutritional status, and microbial environment-which function in the modulation of behavior

294 fluctuations, while creating distinct local environments whose functional role needs future investig

295 y transcribed genes adopt a unique chromatin environment with characteristic patterns of enrichment.

296 peopled the New World they encountered a new environment with extreme climate conditions and distinct

297 The drier environments with more uneven surfaces where the saddleb

298 th frost tolerance in at least two different environments with two different statistical models.

299 ibrium population abundance in heterogeneous environments, with the effect size depending on the rela

300 udinal follow up of birth cohorts in diverse environments worldwide will continue to provide critical