ライフサイエンスコーパス: environmental

1 multiple sources (geographical, clinical or environmental); 2) the megaplasmids encode diverse niche

2 Nucleoid remodeling during cell growth and environmental adaptation correlate with pH and ionic str

3 of this transition could be a mechanism for environmental adaptation.

4 -like receptor ligands in indoor dust act as environmental adjuvants to promote sensitization to inha

5 pes, pathogenic genes and putative causative environmental agents.

6 l protector of pollen grains against various environmental and biological stresses.

7 ithin a few months, resulting in significant environmental and economic losses.

8 loss is a progressive hearing loss involving environmental and genetic factors, leading to a decrease

9 sustainable agriculture in order to minimize environmental and health related costs to society and ec

10 c-use groundwater aquifers poses significant environmental and human health concerns.

11 is is to evaluate the evidence regarding the environmental and human health impacts of fluoropolymers

12 g that fluoropolymers are of low concern for environmental and human health.

13 is markedly disturbed under the influence of environmental and lifestyle risk factors.

14 many domains, particularly in the fields of environmental and nutritional epidemiology.

15 es (1995-2017) and then examine how a set of environmental and physical variables affect the stabilit

16 bacteria in fundamental processes triggering environmental and public health risks.

17 g satellite tags (SPLASH10) to shed light on environmental and social drivers of seamount association

18 Smoothed incidence surfaces, environmental and socioeconomic covariates, and survey d

19 RM to generate synthetic data with different environmental and taxonomical structure, we show that la

20 rable health, structural health, industrial, environmental, and agricultural sensing are reviewed.

21 BA is unknown, with evidence for infectious, environmental, and genetic risk factors described.

22 metabolism, diet and nutrition are the major environmental aspects and have emerged as key components

23 ysical, psychological, social relations, and environmental aspects) and the 5-item Satisfaction with

24 A US Food and Drug Administration-led environmental assessment, which tested water, soil, manu

25 functionally diverse yet a distinct group of environmental bacteria encompassing important human and

26 Economic and environmental benefits through preventative monitoring p

27 as no previously known definitive genetic or environmental causes.

28 late precise links between the statistics of environmental challenges and the ants' collective naviga

29 Humoral immunity to pathogens and other environmental challenges is paramount to maintain normal

30 nimals have evolved adaptations to deal with environmental challenges.

31 outhern Ocean and their responses to ongoing environmental change are rare.

32 .0%), and combinations of available multiple environmental change factors (-14.5%), the extents of wh

33 ntly disturbed]) and in response to multiple environmental change factors (warming, elevated carbon d

34 Environmental change influences fitness-related traits a

35 Anthropogenic environmental change is altering the behavior of animals

36 strial ecosystems linked to volcanism-driven environmental change triggered significant biogeochemica

37 re, functioning), ecology (e.g., response to environmental change), and evolution.

38 ations-can influence how organisms cope with environmental change.

39 ce multiple threats induced by anthropogenic environmental change.

40 and local adaptation of organisms to global environmental change.

41 t balance is increasingly urgent under rapid environmental change.

42 molecular level) in the clams' responses to environmental change.

43 . elegans to study how mechanisms that sense environmental changes trigger adaptive responses that en

44 otherms are hypothesized to be vulnerable to environmental changes, but cascading effects of organism

45 as a means for organisms to anticipate daily environmental changes, circadian rhythms are also import

46 on are highly regulated to accommodate these environmental changes, including regulation of mRNAs tha

47 ey species, which are prone to responding to environmental changes, such as varied sea surface temper

48 bium-driven growth is altered in response to environmental changes.

49 nt environment might become maladaptive upon environmental changes.

50 avioral flexibility, the ability to adapt to environmental changes.

51 cal gene regulation and can respond to rapid environmental changes.

52 three Typhlatya species investigated, where environmental characteristics and physiological differen

53 Arsenic is one of these environmental chemicals, with multiple epidemiology stud

54 hich sub-habitat they find themselves, using environmental clues, and respond plastically by altering

55 s studies have demonstrated that exposure to environmental cold stimulates the recruitment of beige a

56 g to decompose correlations into genetic and environmental components, and structural equation modeli

57 Ecological, health and environmental concerns are driving the need for bio-reso

58 In addition to environmental concerns associated with the presence of t

59 vailable and affordable globally but brought environmental concerns, especially related to water.

60 y advancing but faces regulatory hurdles and environmental concerns.

61 However, the plots cover most of the environmental conditions across the areas for which we p

62 be fully understood without attention to the environmental conditions acting upon them.

63 ecologically important organisms to changing environmental conditions and emerging pathogen-based dis

64 dularity-and thus greater stability-reflects environmental conditions and plastic responses by genera

65 ion as a mechanism for resistance to altered environmental conditions and predation impacts in a calc

66 The wide range of environmental conditions and processes involved with che

67 We then consider how environmental conditions can constrain this Arctic intro

68 d quantify shifts in cetacean habitat use as environmental conditions change and the long-term contin

69 mortality patterns is likely shaped by local environmental conditions in interaction with the sex-spe

70 The environmental conditions in the ocean have long been con

71 se approaches often do not incorporate local environmental conditions or fully address how the spatia

72 ersifying into new, more arid habitats after environmental conditions stabilized.

73 achycineta bicolor) breeding under different environmental conditions to evaluate support for differe

74 erfly wings across a wide range of simulated environmental conditions, and find that regions containi

75 Thus, seasonality, environmental conditions, and food source are eliminated

76 Extreme environmental conditions, as predicted for the end of th

77 ments by reducing parents' ability to detect environmental conditions, disrupting previous correlatio

78 To characterize the relative importance of environmental conditions, photoreactivity, water quality

79 r fine-tuning of responses to the prevailing environmental conditions.

80 inable responses and buffers against extreme environmental conditions.

81 ted whether polar ice could exist under such environmental conditions.

82 different traits to be favored under varying environmental conditions.

83 ry pathways to sense and respond to changing environmental conditions.

84 short-term changes in growth and measurement environmental conditions.

85 soil health seek to balance productivity and environmental considerations.

86 They did so within the environmental constraint set by the physics of water sur

87 Environmental contamination by intense insecticide usage

88 Understanding how environmental context affects that balance is increasing

89 parate observed behavior of cells from their environmental context, using a mathematical framework co

90 photosynthesis in leaves was strictly under environmental control.

91 as a relatively simple function of a single environmental cues (e.g. a linear function of one cue),

92 s study uncovers a mechanism for integrating environmental cues into BR signaling to shape growth.

93 , transformable biomaterials that respond to environmental cues represents a significant step forward

94 ver, it remains unclear if EAAT2 responds to environmental cues to specifically shape action control.

95 Developmental and environmental cues were shown to regulate CAM expression

96 ss, such traits also were sorted along other environmental cues, showing multidimensional adaptive tr

97 omposition of their membranes in response to environmental cues.

98 be differentially manifested in response to environmental cues.

99 iology, morphology, behaviour, phenology and environmental data, analysing trait data within a contex

100 system can become overloaded due to ongoing environmental demands on the individual, be they physica

101 However, the environmental dependence of most mutations remains unkno

102 Environmental dependency and genetic redundancy can expl

103 t caused by the physical decay of (90)Sr and environmental diffusion, but implies that the concentrat

104 The use of environmental DNA (eDNA) for monitoring aquatic macrofau

105 Environmental DNA (eDNA) is increasingly used for monito

106 e process of wood growth and its response to environmental drivers is limited.

107 incorporated gross primary productivity and environmental drivers to constrain source contributions.

108 is a sensitive endpoint for the interacting environmental effects of predation pressure and food ava

109 ew toolbox they can use to better understand environmental effects, and we illustrate this with sever

110 oned by the response of its dipole moment to environmental electrostatic changes.

111 BDNF/TrkB system for adaptation to stressful environmental encounters.

112 Environmental enrichment (EE) is a robust intervention f

113 ecialized cells that have adapted to survive environmental exposure and perform the tasks necessary f

114 ation nasal allergen challenge (NAC) and the environmental exposure chamber (EEC) are 2 methods of co

115 l expresses, in parallel to the individual's environmental exposure history.

116 Without environmental exposure information, our ability to reali

117 When the environmental exposure is a binary variable, analyses fr

118 sociated LUADs showed correlation with other environmental exposure signatures and a field effect in

119 t in identifying epigenetic pathways between environmental exposures and health outcomes.

120 1%; P < 0.0001).Conclusions: Rare and common environmental exposures are independent risk factors for

121 , these responses are strongly influenced by environmental exposures that stimulate innate immune pat

122 erns, time scales, chromatin structures, and environmental exposures, all of which impact the resulti

123 Environmental exposures, health history, and clinical ou

124 s involve a combination of genetic and early environmental exposures, whereas late transient rhinitis

125 ely related to abnormal immune responses and environmental exposures.

126 sthmatic children and evaluate the impact of environmental exposures.

127 opulations often performed best at different environmental extremes.

128 Viral infection is one environmental factor that may contribute to the initiati

129 sing hydrophobicity as an exemplary chemical environmental factor, we compared a range of essential p

130 th a corresponding lower influence of common environmental factors (c(2) = 0.31; 0.29-0.33 and c(2) =

131 Environmental factors (pollen/flowers [P = .005] and dam

132 We review the genetic and environmental factors affecting the gut microbiota, the

133 evidence suggesting pivotal contributions of environmental factors and lifestyle choices in AD pathog

134 nd related disorders may be acquired through environmental factors and may be manifested as molecular

135 udy investigates the molecular mechanisms of environmental factors in FECD pathogenesis and demonstra

136 y relevant regarding the role of genetic and environmental factors in the development of ASD, in whic

137 that DNA methylation may modify the risk of environmental factors on health outcomes.

138 nt H5N1 clades and investigate the impact of environmental factors on lineage dispersal velocities.

139 are governed, at least in part, by different environmental factors operating during separate host lif

140 Among the environmental factors shaping microbial changes of our s

141 , no known study has examined whether social environmental factors such as attachment style may moder

142 BDNF is a common downstream intermediary for environmental factors that potentiate anxiety- and depre

143 vely incorporate neuroimaging, genetics, and environmental factors to investigate the neural basis of

144 Temperature is one of the most impactful environmental factors to which plants adjust their growt

145 ted associations between DNA methylation and environmental factors with evidence also supporting the

146 Environmental factors, and in particular diet, are known

147 has been attributed primarily to patient and environmental factors, but recent evidence indicates an

148 and 3.1% and 40.0% for shared and nonshared environmental factors, respectively.

149 nteractions between genetic, phenotypic, and environmental factors.

150 ted, with involvement of various genetic and environmental factors.

151 nd blurred by the interaction with different environmental factors.

152 ucture and function, puberty, and social and environmental factors.

153 it is believed to comprise both genetic and environmental factors.

154 e relevant literature on the persistence and environmental fate of trifluralin with a focus on biodeg

155 hed-scale soil particle detachment model and environmental field sampling to estimate the role of lan

156 d HMP patterns may reflect the importance of environmental filtering in shaping competition.

157 Many environmental flow (e-flow) studies and applications hav

158 one, high-shore environments experience more environmental fluctuation due to longer periods of expos

159 dulate the effect that biochemical noise and environmental fluctuations produce in growth.

160 Robustness against environmental fluctuations within an adaptive state shou

161 derstand its structural responses to diverse environmental fluctuations.

162 e the ability to sense, respond and adapt to environmental fluctuations.

163 Our findings demonstrate that environmental geometry affects human spatial memory in a

164 ric and dielectric variations in response to environmental glucose concentrations-these are efficient

165 s that simultaneously address production and environmental goals are required to identify promising s

166 and trade-offs against different social and environmental goals have been difficult without comparis

167 ndicates complex responses to spatiotemporal environmental gradients potentially due to geographic ge

168 ear under which circumstances the effects of environmental gradients trump those of ontogeny and taxo

169 nt local adaptation events along latitudinal environmental gradients, although evidence that generali

170 at examine preferences for the allocation of environmental harms and benefits.

171 Vanadium contamination is a growing environmental hazard worldwide.

172 We evaluated how data in environmental health (EH) studies may be vulnerable to l

173 g at new advances in veterinary, public, and environmental health research may offer several advantag

174 The project team consisted of public health, environmental health, and legal professionals with exper

175 lling zone cannot be easily accounted for by environmental heterogeneity and poses challenging questi

176 In addition to the much-publicized environmental impact of CO(2) emission by air traffic, a

177 antly reduced costs, energy consumption, and environmental impact.

178 While we provide systematic evidence of environmental impacts from food fraud, our results also

179 However, annual life cycle environmental impacts of crop production at county scale

180 e assessment (LCA) studies that quantify the environmental impacts throughout the entire life cycle o

181 ndustry; leading to welfare issues, negative environmental impacts, and economic losses.

182 covery potential, economic implications, and environmental impacts.

183 ral gas migration in the subsurface can have environmental implications when gas components (e.g., me

184 hows that a relatively small shift of 10% of environmental incident power density from frequencies be

185 resented with scenarios in which an existing environmental inequality between two otherwise similar c

186 e, heterogeneity can arise from intrinsic or environmental influences.

187 tiation becomes possible by adding the local environmental information where the networks were sample

188 osition and increased vulnerability to early environmental insults.

189 to ensure safeguarding of germline DNA from environmental insults.

190 ich has inevitably led to new biomedical and environmental issues.

191 logenetic data with gridded, high-resolution environmental layers and computational modelling.

192 Environmental limits of animal life are invariably revis

193 We found that this environmental manipulation induces changes in the expres

194 hosocial resilience was created by assessing environmental mastery, purpose in life, optimism, resili

195 nd we investigated, in a case study, whether environmental measurements could contribute to inferring

196 s and are relevant to the geomicrobiology of environmental metalloid cycling as well as informing app

197 y may benefit from focusing on reductions in environmental metals.

198 many fields including clinical diagnosis and environmental microbiology, to understand the contributi

199 probability density functions that represent environmental microplastic.

200 ar and genomic variation, and differences in environmental milieu of the colon which vary between the

201 ed interactions is directly related to human environmental modifications and is accelerating, having

202 iscuss their usage in various biomedical and environmental monitoring applications, from biosensors t

203 Routine environmental monitoring programs target predetermined c

204 emes and their applications in the fields of environmental monitoring, food safety, and clinical diag

205 ary of Earth Day and the birth of the modern environmental movement.

206 erscore the progress made in China's nascent environmental movement.

207 increases in FC between NAc-ventral ACC for environmental, NAc-thalamus for physical, and NAc-paraci

208 ifestyle could reflect adaptation to various environmental niches.

209 that SDG8 is involved in plant responses to environmental nitrogen supply, affecting multiple gene r

210 Our findings expand the phylogenetic and environmental occurrence of infaunal moulting in Palaeoz

211 In the case of the environmental opportunistic pathogen Pseudomonas aerugin

212 In the presence of rapid cultural, environmental, or genetic change, the reverse process of

213 ia (LAB/AAB) and bacterial taxa of predicted environmental origin.

214 icide treatment had no significant impact on environmental outcomes, while corn and soybean yields an

215 achine-learning model based on 11 geospatial environmental parameters and more than 50,000 aggregated

216 are predicted to deal more effectively with environmental perturbation than their low-shore counterp

217 tudying the effects of genetic, chemical and environmental perturbations on biological systems, as we

218 ers will respond to climate change and other environmental perturbations.

219 hyroid cancer treatment, also transports the environmental pollutant perchlorate (stoichiometry 1Na(+

220 A growing number of environmental pollutants are known to adversely affect t

221 roved our quality of life, but the resulting environmental pollution has the potential to cause detri

222 iles in light of the emerging energy crisis, environmental pollution, and public health.

223 mixed-model approach, we first evaluate the environmental pressures affecting invertebrate communiti

224 work within attentional constraints and how environmental pressures may exploit these limitations.

225 ounding processes will also exacerbate other environmental problems in temperature-sensitive ecosyste

226 We demonstrate how complex environmental processes can be summarized to understand

227 Geographic variation in aridity determines environmental productivity patterns, including large-sca

228 f detection of 1.93 uM, below that of the US environmental protection agency guidelines (5.37 uM), wi

229 irable for the purpose of nuclear safety and environmental protection, but currently not achievable g

230 provided by the Massachusetts Department of Environmental Protection.

231 een sustainable development goals, including environmental protection.

232 and reproductive-status change to declining environmental quality result in a higher risk of populat

233 Environmental radioactive contamination caused by the Fu

234 retain crispiness in storage under moderate environmental relative humidity conditions.

235 AFFF use leads to environmental releases of unknown per- and polyfluoroalk

236 apabilities in targeted cargo/drug delivery, environmental remediation, and other potential applicati

237 es in plants that are linked to development, environmental responses and immune function.

238 sect species that is continuously exposed to environmental RF-EMFs.

239 innovation, including a robust framework for environmental risk assessment (ERA) that ideally builds

240 r LIM approaches, thus opening an avenue for environmental risk assessment relevant in a variety of c

241 Periodontitis is a suspected environmental risk factor for the development of rheumat

242 Participants were members of the Environmental Risk Longitudinal Twin Study, a representa

243 cing of coexisting microbial organisms in an environmental sample or a host.

244 laboratory methods available for processing environmental samples are difficult to standardized and

245 s of commercial extracts and the profiles of environmental samples from dwellings.

246 er, the application of the method on various environmental samples was investigated to examine its ca

247 Environmental samples were collected pre- and post-appli

248 great expedience for assessing its origin in environmental samples.

249 evelopments and applications in the field of environmental sciences, these methods have not been exte

250 ng enzymes, presumably in response to strong environmental selection pressure.

251 into the prevailing trends and the future of environmental sensing, highlighting that chemometrics ca

252 d find application in medical, research, and environmental settings.

253 Environmental signals polarize macrophages to either a p

254 methodology to efficiently interpret complex environmental stimuli into understanding.

255 umerical information (i.e., numerosity) from environmental stimuli is still debated.

256 y across cortex and widening of attention to environmental stimuli regardless of their task relevance

257 n by altering gene expression in response to environmental stimuli.

258 cellular types, spatio-temporal contexts and environmental stimuli.

259 a acquired following genetic perturbation or environmental stimulus.

260 by changes in traits that are variable under environmental stochasticity and deterministic perturbati

261 es between red and white wine production and environmental stress on grape integrity, can increase ba

262 is altering the intensity and variability of environmental stress that organisms and ecosystems exper

263 ing fungal communities were pushed beyond an environmental stress threshold.

264 rategies to minimize perturbations caused by environmental stress, while optimizing cellular fitness.

265 grade structured RNA during several forms of environmental stress.

266 ntrolling water transpiration in response to environmental stresses and modulating the gas exchange n

267 Cells subjected to environmental stresses undergo regulated cell death (RCD

268 profiles in plant organs and in response to environmental stresses, in their calcium binding propert

269 cytokine by alerting the system of potential environmental stresses.

270 Ethanol is a ubiquitous environmental stressor that is toxic to all lifeforms.

271 hange can affect the resilience of corals to environmental stressors and that exposure to chemical di

272 lights the necessity to assess the effect of environmental stressors not only for a few species, beca

273 rn on TRA-1 expression in the intestine, and environmental stressors shut off TRA-1 expression in the

274 erns in different tissues and in response to environmental stressors such as treatment with heat, che

275 uus to capture the complexity of interacting environmental stressors, including CO(2), temperature, l

276 varieties that are resilient to climatic and environmental stressors.

277 Most gene-environmental studies have focused on breast cancers gen

278 ias, they do not provide a gold standard for environmental studies.

279 nfer current and past (Last Glacial Maximum) environmental suitability across the species' distributi

280 mined via periodic monitoring campaigns, the environmental suitability for the presence of mosquitoes

281 Specifically, we investigated how environmental suitability for tick host-seeking changes

282 S. aureus were collected from participants, environmental surfaces, and pets; incident SSTI were asc

283 water infrastructure to achieve economic and environmental sustainability.

284 sed by drought and salinity is a significant environmental threat that limits plant growth and agricu

285 on <2.5 mum in diameter (PM(2.5)) is a major environmental threat to global public health.

286 among oral-associated TM7, while absent from environmental TM7, suggesting that prophages may have pl

287 thors have proposed that plants have broader environmental tolerances than animals but are more sensi

288 Environmental toxicant accumulation is modifiable; publi

289 rophilic irritants, including small volatile environmental toxicants and endogenous algogenic lipids(

290 has recently emerged as a model organism in environmental toxicology studies, and increased knowledg

291 tations in the MAPT/tau gene and exposure to environmental toxins can increase the risk of PSP.

292 ing atomic-resolution, time-resolved in-situ environmental transmission electron microscopy and atomi

293 The in situ environmental transmission electron microscopy measureme

294 Vitiligo is impacted by environmental triggers.

295 gical view postulating that locally evolving environmental V. cholerae contributes to outbreaks outsi

296 tic diversity in response to a wide range of environmental variables.

297 rally low and unlikely to provide sufficient environmental variation or power to differentiate compet

298 elationships between microbiome composition, environmental variation, geographic distribution, and mi

299 f persistence, we consider several models of environmental volatility described by continuous-time st

300 ever-increasing presence of contaminants in environmental waters is an alarming issue, not only beca