ライフサイエンスコーパス: environmental condition

1 the cellular protein population in any given environmental condition.

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

3 ed better resistance to the influence of the environmental conditions.

4 al matrices, protecting the ingredients from environmental conditions.

5 that are important for adaptation to various environmental conditions.

6 undamental way in which organisms respond to environmental conditions.

7 sponse of recalcitrant OC export to changing environmental conditions.

8 highly seasonal, harsh environment to novel environmental conditions.

9 one another independently from their shared environmental conditions.

10 inable responses and buffers against extreme environmental conditions.

11 onary trajectories as species adapt to novel environmental conditions.

12 imately determines growth rates in different environmental conditions.

13 sion are tightly regulated by the growth and environmental conditions.

14 ing to multiple genetic adaptations to local environmental conditions.

15 ergetic balance of individuals under current environmental conditions.

16 the host's nutritional benefits under normal environmental conditions.

17 ings typically encounter constantly changing environmental conditions.

18 ethod was accurate and reliable at different environmental conditions.

19 h as urbanization affect defence by changing environmental conditions.

20 s of ecosystems change over time, space, and environmental conditions.

21 ed by seasonality, epigenetics, and external environmental conditions.

22 al networks and population connectivity, and environmental conditions.

23 ect was similar in magnitude to that of poor environmental conditions.

24 s was significantly influenced by social and environmental conditions.

25 ytochemistry which is plastic in response to environmental conditions.

26 protein concentration, monomer rigidity, and environmental conditions.

27 onservation planning can respond to shifting environmental conditions.

28 ve adjustments to winter habitat quality and environmental conditions.

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

30 as little as 30 hrs under a wide variety of environmental conditions.

31 n over 50 proteins expressed under different environmental conditions.

32 twork of interactions to respond to changing environmental conditions.

33 cyclic dimeric-GMP (c-di-GMP) in response to environmental conditions.

34 s to survive and thrive following changes in environmental conditions.

35 tential for the virus to spread under varied environmental conditions.

36 mensions, architecture, surface coating, and environmental conditions.

37 desert shrub that withstands a wide range of environmental conditions.

38 se of mangrove SOM dynamics to likely future environmental conditions.

39 imental microbial communities under changing environmental conditions.

40 actions changes by conditioning on the local environmental conditions.

41 different traits to be favored under varying environmental conditions.

42 be phenotypically variable, even in constant environmental conditions.

43 rections across a gradient of lake types and environmental conditions.

44 ibing the variation of g(m) in dependence of environmental conditions.

45 genetic material episodically under changing environmental conditions.

46 itat refuges can buffer organisms from harsh environmental conditions.

47 ed by previous reproductive output and local environmental conditions.

48 ble process chamber to enable control of the environmental conditions.

49 , and to relate effects to causes in complex environmental conditions.

50 d in carbonate-buffered suspensions to mimic environmental conditions.

51 lear how infection could occur under natural environmental conditions.

52 ch isoform ensures adaptation under changing environmental conditions.

53 rgence is correlated with local variation in environmental conditions.

54 ioeconomic status, lifestyle, behaviors, and environmental conditions.

55 l treatments can vary with both genotype and environmental conditions.

56 constants, showing slow photooxidation under environmental conditions.

57 nd behaviour, and may be influenced by local environmental conditions.

58 e transcription rates to match ever-changing environmental conditions.

59 . under multiple interactions among multiple environmental conditions.

60 ere the bacterium encounters a range of host environmental conditions.

61 normal organismal physiology under different environmental conditions.

62 are active across organs, tissue types, and environmental conditions.

63 enotypic characterization of microbes across environmental conditions.

64 sities that can vary widely across genes and environmental conditions.

65 ates MrpC DNA binding in response to unknown environmental conditions.

66 empirically derived biophysical responses to environmental conditions.

67 ond to rapid deviations from historical mean environmental conditions.

68 between people and nature that can influence environmental conditions.

69 anism of rapid coral acclimation to changing environmental conditions.

70 ences to explain animal foraging under harsh environmental conditions.

71 down-regulate gene expression depending upon environmental conditions.

72 own in an agricultural soil under controlled environmental conditions.

73 ge dataset of grasses grown under controlled environmental conditions.

74 inducer molecules or switching fermentation/environmental conditions.

75 o any future prospect of retreating to safer environmental conditions.

76 bacterial group II introns is influenced by environmental conditions.

77 ological homeostasis in the face of changing environmental conditions.

78 l over time differ depending on treatment or environmental conditions.

79 3 plant V(cmax) based on mean growing season environmental conditions.

80 the wine fermentation process under various environmental conditions.

81 okarst formation that creates variability in environmental conditions.

82 ment, and that protect CAM plants from harsh environmental conditions.

83 urces is essential for monitoring health and environmental conditions.

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

85 tical distribution of 46 taxa in relation to environmental conditions.

86 ns between spring and autumn under different environmental conditions.

87 effective response strategies appropriate to environmental conditions.

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

89 r regulating poly(A) patterns in response to environmental conditions.

90 system with favorable features under severe environmental conditions.

91 matal conductance and photosynthetic rate to environmental conditions.

92 he pathogen inactivation capability at harsh environmental conditions (37 degrees C and a relative hu

93 We considered optimal environmental conditions (750-2000 m above sea level) to

94 ir attempts to match phenotype to prevailing environmental conditions, achieved with varying degrees

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

96 species globally(5-8)-the representation of environmental conditions across their habitats in protec

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

98 (r) for five example catabolisms at specific environmental conditions: aerobic respiration of glucose

99 ces into offspring, but also on how changing environmental conditions affect its growth rate.

100 The variation in environmental conditions along the latitudinal gradient

101 rapidly recolonise vacated areas once harsh environmental conditions ameliorated.

102 composition due to preferences for specific environmental conditions among different microalgal grou

103 tivity of 29 pF/ppm towards CO(2) at ambient environmental conditions and a three times greater selec

104 the thylakoid membrane to adapt to changing environmental conditions and avoid oxidative stress.

105 reserve sensorimotor coverage under changing environmental conditions and changing sensory capacities

106 examine the impacts of long-term changes in environmental conditions and commercial fishing on annua

107 rcoded gene deletion mutants in 11 different environmental conditions and determined their expression

108 e, and are dependent in complex ways on both environmental conditions and development.

109 tural populations often experience different environmental conditions and differ in demographic histo

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

111 /wake cycles (circadian misalignment), while environmental conditions and food intake were controlled

112 ing inferences for the relationships between environmental conditions and immune defence.

113 ge, we must better understand how they alter environmental conditions and impact species.

114 anism integrates transcriptional output with environmental conditions and is essential for resuming n

115 is consistent across continents, species and environmental conditions and is unprecedented for the pa

116 mitigates the detrimental effects of adverse environmental conditions and may enhance the capacity of

117 system allowed mammals to thrive in variable environmental conditions and occupy a wide range of geog

118 t least over short timescales and under some environmental conditions and open an opportunity to expl

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

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

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

122 versions likely require the detection of key environmental conditions and regulation of metabolic act

123 electrical measurements in highly controlled environmental conditions and the application of appropri

124 health; however, it is highly susceptible to environmental conditions and the gastrointestinal tract.

125 realized contributions of nature, as well as environmental conditions and the impacts of changes in n

126 d be given to ecological rarity given future environmental conditions and the need to sustain multipl

127 rdinary ability of MBLs to adapt to changing environmental conditions and the rather promiscuous acce

128 Yet, biodiversity, environmental conditions and their relationship are more

129 This enhanced ability to monitor environmental conditions and to predict trends would be

130 a fish species under present-day (1951-2000) environmental conditions and to project changes under se

131 However, changes in environmental conditions and unforeseen interactions wit

132 ehavior to respond appropriately to changing environmental conditions (and how this is encoded in the

133 ult of complex processes at both local (e.g. environmental conditions) and regional (e.g. spatial arr

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

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

136 e comorbidities, greater exposure to adverse environmental conditions, and lower (worse) mean (standa

137 line in host fitness, varies across tissues, environmental conditions, and physiologic states.

138 LMEs, independent from latitude, ecosystem, environmental conditions, and stress level.

139 nsights into sensory adaptations to peculiar environmental conditions, and the evolutionary transform

140 Flight costs are predicted to vary with environmental conditions, and this should ultimately det

141 "antenna" that plays a core role in sensing environmental conditions, and various flagellar proteins

142 , extreme sensitivities to subtle changes in environmental conditions, and well-known propensities fo

143 that this can be explained by the fact that environmental conditions are a confounder of ecological

144 e that naturally experience a broad range of environmental conditions are good candidates to provide

145 population projections indicate that future environmental conditions are likely to benefit giant pet

146 Additionally, we find that environmental conditions are linked to the stability of

147 obtained results suggest that in cases where environmental conditions are not limiting, increasing th

148 Both phenotypic traits and environmental conditions are predicted to influence indi

149 choices: options that are valuable given the environmental conditions are rejected in the false expec

150 matal conductance and photosynthetic rate to environmental conditions - are difficult to disentangle.

151 Geographic variation in environmental conditions as well as host traits that pro

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

153 14 period, across different tree species and environmental conditions, as reconstructed from stable c

154 he relationship between social structure and environmental conditions, as some populations form large

155 n food web structure in response to changing environmental conditions associated with elevation.

156 perimental studies on the impact of changing environmental conditions associated with global change o

157 colonization probabilities) and assessed the environmental conditions associated with those changes f

158 In both experiments, regardless of environmental condition, average health significantly de

159 may be especially prone to rapidly changing environmental conditions because their ability to adapt

160 climate change and local water quality press environmental conditions beyond the physiological tolera

161 ynthesis is regulated by plant phenology and environmental conditions, both of which experienced subs

162 iber quality and resilience to ever-changing environmental conditions but also can be translated to o

163 easonal flowering is primarily controlled by environmental conditions, but in certain polycarpic plan

164 pable of physiologically adapting to diverse environmental conditions by differentially varying the r

165 ape scale, spatial and temporal variation in environmental conditions can alter the relationship betw

166 orm upon which a quantitative description of environmental conditions can be obtained.

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

168 Research with model systems reveals that environmental conditions can directly influence epigenet

169 However, environmental conditions can influence developmental pro

170 ibit a dominant hydraulic behavior, variable environmental conditions can prompt plasticity in Psi re

171 Environmental conditions can strongly influence plant hy

172 Pathogens and other adverse environmental conditions can trigger endoplasmic reticul

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

174 advantage under the extreme and fluctuating environmental conditions characteristic of the volcanic

175 In particular, we focused our review on the environmental conditions (coarse-scale variables) that s

176 The moss microbiome and environmental conditions controlled N(2) -fixation at th

177 as cover populations across a broad range of environmental conditions could safeguard the processes t

178 and how different species adapt to different environmental conditions, despite being almost invariabl

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

180 ythimna separata could be induced by adverse environmental conditions during a sensitive period in ad

181 ic plasticity, study-specific differences in environmental conditions during development can induce d

182 ere we show evidence for stable climatic and environmental conditions during the MUPT in a region (Ap

183 related to the use of suitable habitats and environmental conditions during the non-breeding season.

184 C in Nellore heifers, raised under different environmental conditions (EC).

185 on, hinges on their ability to withstand the environmental conditions encountered.

186 s because they are assumed to be inert under environmental conditions, even though Au can be oxidized

187 pective that takes into account climatic and environmental conditions favourable for both species.

188 Under favorable environmental conditions flightless juveniles may aggreg

189 susceptible to the disease, and if suitable environmental conditions for the mosquitoes and the viru

190 Although environmental conditions generally dictate dispersal dis

191 - to investigate the relative roles of local environmental conditions, geographic space and connectiv

192 le model performance among models trained on environmental conditions, geographic space or patch cent

193 ues, indicating direct relationships between environmental conditions, habitat and trophic level.

194 ion at breeding colonies (i.e., "prevailing" environmental conditions) had robust nonlinear effects o

195 Several environmental conditions have been described as causing

196 ator preferences across populations, and how environmental conditions impact floral signal transmissi

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

198 ntiation between AOA and AOB with respect to environmental conditions in natural and engineered envir

199 Reproductive function adjusts in response to environmental conditions in order to optimize success.

200 development of plants more tolerant of harsh environmental conditions in order to tackle the issue of

201 r column, and that both are tightly tuned to environmental conditions in the ETNP.

202 The environmental conditions in the ocean have long been con

203 ing cow-calf pairs was related to favourable environmental conditions in the previous year; measured

204 sociated with the variability of large-scale environmental conditions in the tropical North Atlantic

205 us) as a result of adaptation to contrasting environmental conditions in this region.

206 The altered ecological and environmental conditions in towns and cities strongly af

207 Due to the demanding environmental conditions in which they can be used, ther

208 ross a much broader range of competitive and environmental conditions including disturbance levels, t

209 is generating an intensification of extreme environmental conditions, including frequent and severe

210 lows cells to respond to changes in multiple environmental conditions, including nutrient levels, pat

211 (2)O(2) production yield strongly depends on environmental conditions, including relative humidity an

212 The preferred iron source depends on environmental conditions, including the presence of iron

213 lic reprogramming in response to the varying environmental conditions incurred by the tumor cells.

214 sm to rapidly detect and adapt to changes in environmental conditions is control of gene expression a

215 s underlying their functional adaptations to environmental conditions is critical for predicting thei

216 -scale connectivity measures and local-scale environmental conditions is important for predicting met

217 rs in relation to anthropogenic activity and environmental conditions is important to guide marine co

218 produce multiple phenotypes under different environmental conditions, is critical for the origins an

219 shape considerably in response to changes in environmental conditions, is critical to biological func

220 It has a weak stability against environmental conditions like heat and light.

221 Harsh environmental conditions limit how species use the lands

222 ability and loss of adaptability to changing environmental conditions, manifested in highly fluctuati

223 when challenged by food deprivation or harsh environmental conditions, many mammalian species initiat

224 safety and efficiency, whereas the opposite environmental conditions may allow the existence of plan

225 These findings suggest that while environmental conditions may have limited deeper burrowi

226 un to experimentally test how variability in environmental conditions mediates species' responses to

227 system exhibited high stability under harsh environmental conditions of pH (3.0-10.0) and temperatur

228 al evaluation to characterize better diverse environmental conditions of such investigations.

229 and effectively adjusts to the metabolic and environmental conditions of the cell.

230 of the 18S rRNA gene, to study the effect of environmental conditions on the distribution of two rela

231 and cell maintenance in response to altered environmental conditions or energy balance.

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

233 components and their relevance to phenotype, environmental conditions or other external variables.

234 plex physiological responses to the changing environmental conditions over multidecadal periods, and

235 erefore changed their habitats with changing environmental conditions over the last 50 years but main

236 ansmission of SARS-CoV-2 may be dependent on environmental conditions, particularly sunlight.

237 derstanding of how plants adapt to different environmental conditions, particularly under climate cha

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

239 rated and anaerobic zones of peatlands where environmental conditions physiochemically protect carbon

240 Taken together, these results suggest that environmental conditions play an important role on the e

241 ure and function that vary with edge age and environmental conditions, pointing to a need for conside

242 Cysts form in response to shifts in environmental conditions, population density, or predati

243 wever, global change is pervasively altering environmental conditions, potentially elevating new spec

244 Adverse environmental conditions reduce crop productivity and of

245 d the T7 promoter and systematic analyses of environmental conditions reveal design criteria that can

246 Seasonal environmental conditions shape the behavior and life his

247 Identifying how past environmental conditions shaped the evolution of corals

248 of mammalian gut microbiota across different environmental conditions shed light on the diversity and

249 findings demonstrate that adaptation to new environmental conditions should be investigated in the c

250 Simulations across a range of environmental conditions show that the water-saving pote

251 cean squid species in relation to indices of environmental conditions-Southern Oscillation Index (SOI

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

253 rly challenging when it coincides with harsh environmental conditions such as a winter climate or foo

254 Environmental conditions such as carbon sources, pH, tem

255 lassification of carbon particles in varying environmental conditions such as coalmines, engineered c

256 olded proteins that accumulate under adverse environmental conditions such as heat stress.

257 us virulence and critical for survival under environmental conditions such as hypoxic, oxidative, and

258 responding almost immediately to favourable environmental conditions such as those afforded by clima

259 properties of DNA objects under a variety of environmental conditions, such as applied electric field

260 hat future studies should test for other key environmental conditions, such as food availability, to

261 Animal social structure is shaped by environmental conditions, such as food availability.

262 Extreme environmental conditions, such as heat, salinity, and de

263 The associated environmental conditions, such as humidity, temperature,

264 As cells encounter adverse environmental conditions, such as hypoxia, oxidative str

265 sible anomaly types, and local nonstationary environmental conditions, suggesting the need for flexib

266 ng tissues, enabling adaptation to different environmental conditions, tasks, or damage by reconfigur

267 ategy that is less restricted by location or environmental conditions than other sustainable approach

268 ymbiont genotypes as well as from prevailing environmental conditions that alter the relationships am

269 By doing so, it identifies a spatial map of environmental conditions that are best correlated with a

270 esis is significantly altered in response to environmental conditions that are ubiquitous.

271 By creating environmental conditions that benefit generally common s

272 ort- and longer term population processes to environmental conditions that can be applied to any spec

273 analyses need to represent the diversity of environmental conditions that can be found worldwide.

274 nd a set of spatial models that identify the environmental conditions that characterize a species' pr

275 chain fatty acids produced by P. acnes under environmental conditions that favor fermentation will dr

276 e wide variety of synthesis, processing, and environmental conditions that influence material propert

277 to display appropriate plastic responses to environmental conditions that they have not experienced

278 fect gene function and change in response to environmental conditions, their role as carriers of heri

279 rone conformations of monomeric aSyn and the environmental conditions they form under will allow us t

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

281 mechanisms by which coral cope with changing environmental conditions to maintain optimal health.

282 Rhizobium-legume symbioses, soil types, and environmental conditions to permit easy identification o

283 empirical problem from a search for special environmental conditions to questions about what types o

284 nd insect hosts, where it faces a variety of environmental conditions to which it must adapt in order

285 plants to cope with the constantly changing environmental conditions to which they are exposed.

286 how virus populations evolve under changing environmental conditions, we experimentally adapted echo

287 Using data about shipping, ecoregions, and environmental conditions, we leverage network analysis a

288 a long-lived freshwater fish in response to environmental conditions, we used a long-term data set c

289 Poor environmental conditions were associated with declines i

290 We conclude that under lipid environmental conditions, where catalytic centers of the

291 physiological state of the host cell and on environmental conditions, which are challenging to repli

292 ing success and efficiency under anticipated environmental conditions, which may have population-leve

293 Climate change is modifying these seasonal environmental conditions, which threatens to disrupt pop

294 ture deep-water habitat response to changing environmental conditions while extending the upper curre

295 nteractions between dispersal mechanisms and environmental conditions will be essential to fully unde

296 Changing environmental conditions will likely diminish aragonitic

297 narwhals are partly influenced by changes in environmental conditions, with warm areas of increasing

298 C(4) cereal Sorghum bicolor under controlled environmental conditions, without accumulation of potent

299 adaptation of sweet cherry tree to stressful environmental conditions, without compromising the fruit

300 otected areas without explicitly considering environmental conditions would marginally reduce the lan