ライフサイエンスコーパス: natural environment

1 tial to ensure an organism's survival in its natural environment.

2 recognize everyday objects and shapes in our natural environment.

3 w it may alter their ability to adapt to the natural environment.

4 induced plasma formation and dynamics in its natural environment.

5 al functions affiliated with microbes in the natural environment.

6 intended goals pursued by primates in their natural environment.

7 hat are constrained by the statistics of the natural environment.

8 d on agar-containing medium which mimics its natural environment.

9 , devices and machinery that function in the natural environment.

10 tion intensity to thrive in a highly dynamic natural environment.

11 portant route of Se exposure for fish in the natural environment.

12 or aerosolization of marine viruses in their natural environment.

13 subject to periods of dark and anoxia in its natural environment.

14 e and dynamics of biomacromolecules in their natural environment.

15 ized for processing stimuli occurring in the natural environment.

16 chia coli cells typically encounter in their natural environment.

17 is known about how ants locate food in their natural environment.

18 way that is driven by the statistics of the natural environment.

19 atial distribution matches that found in the natural environment.

20 first demonstration of its occurrence in the natural environment.

21 ble conditions for sustained survival in the natural environment.

22 ity and mobility of transition metals in the natural environment.

23 nsive care units are disconnected from their natural environment.

24 adapted to the statistical properties of the natural environment.

25 ied or vitrified bacteria removed from their natural environment.

26 ro culture of neurons deprives them of their natural environment.

27 rameters that control Ag(NP) behavior in the natural environment.

28 of the dynamics and risk of infection in the natural environment.

29 ng populations are difficult to study in the natural environment.

30 aphene derivatives in living systems and the natural environment.

31 eproduction, consumption, and the use of our natural environment.

32 how effects are moderated and persist in the natural environment.

33 predominant mode of microbial growth in the natural environment.

34 use several Solanum plants as hosts in their natural environment.

35 tion elicits from the organism living in its natural environment.

36 leased at increasing concentrations into the natural environment.

37 le is known about the behavior of QDs in the natural environment.

38 of repairing the harm inflicted by humans on natural environment.

39 course that simulated cycling through a real natural environment.

40 ectomized for 3 years living in a relatively natural environment.

41 trosome function as neurons develop in their natural environment.

42 in scenes cluttered by other objects or the natural environment.

43 stomatal movements in leaves of plants in a natural environment.

44 relevant for organic chemicals found in the natural environment.

45 when placed into conditions that mimic their natural environment.

46 have been degraded through propagation in a natural environment.

47 them to make adaptive decisions in a complex natural environment.

48 ity of exposure to Omegaar conditions in the natural environment.

49 rldwide, is very poorly biodegradable in the natural environment.

50 nd duration affect pteropod responses in the natural environment.

51 out the relationships between people and the natural environment.

52 ential for the fitness of V. cholerae in its natural environment.

53 little is known about their behavior in the natural environment.

54 n the fate and transport of nanoparticles in natural environment.

55 iversity of uncultivated bacteria inhabiting natural environments.

56 od, even though this may frequently occur in natural environments.

57 oorganisms rarely exist as single species in natural environments.

58 hether mobile animals will thermoregulate in natural environments.

59 rapidly learn visual routes through complex natural environments.

60 als constantly encounter conflicting cues in natural environments.

61 Both mechanisms are likely to occur in natural environments.

62 longer the case in complex physiological or natural environments.

63 ng that they provide selective advantages in natural environments.

64 ominerals, and patterns of mineralization in natural environments.

65 elegans behaviors in three-dimensional (3-D) natural environments.

66 evel exactly how wild species adapt to their natural environments.

67 er-order correlations that signify motion in natural environments.

68 ntext of indigenous microbial communities in natural environments.

69 These bacteria are ubiquitous in modern natural environments.

70 important in maintaining diversity in these natural environments.

71 nder the varying light conditions present in natural environments.

72 behaviors of clays in diverse industrial and natural environments.

73 portant determinant of growth and fitness in natural environments.

74 o mallards (Anas platyrhynchos) in simulated natural environments.

75 process and the associated microorganisms in natural environments.

76 ntially contribute to the formation of GR in natural environments.

77 s especially demanding in visually cluttered natural environments.

78 nt that is ubiquitous in both engineered and natural environments.

79 pants listened to sounds from artificial and natural environments.

80 rrelations that enhance motion estimation in natural environments.

81 ions between individuals and their built and natural environments.

82 multiple selection pressures encountered in natural environments.

83 ictive framework for biological invasions in natural environments.

84 or even that they are a specific property of natural environments.

85 of space occurs in two distinct fashions in natural environments.

86 rather than promote, adaptive radiations in natural environments.

87 y allow mice to adapt to complex and dynamic natural environments.

88 valence Fe(2+)/Fe(3+) mineral found in many natural environments.

89 sticity responses in phenotypic evolution in natural environments.

90 ots that can safely interact with humans and natural environments.

91 m actions for reward even in highly variable natural environments.

92 ft structures to move effectively in complex natural environments.

93 mit testing of Jeffery et al.'s framework in natural environments.

94 ses is critical for plant fitness in complex natural environments.

95 idely used cationic biocides that persist in natural environments.

96 of the visual system is to guide behavior in natural environments.

97 vant for competitiveness of S. cerevisiae in natural environments.

98 n homogeneous laboratory, as well as complex natural environments.

99 e from a diverse set of other industrial and natural environments.

100 of mortality and population restructuring in natural environments.

101 to low oxygen levels, a common situation in natural environments.

102 unction within the relevant species in their natural environments.

103 f the molecular responses in fish in dynamic natural environments.

104 ocus on the degradation of these polymers in natural environments.

105 ning and memory impacts their performance in natural environments.

106 radation assessments of chemicals present in natural environments.

107 matrix secretion observed among bacteria in natural environments.

108 to the understanding of plant development in natural environments.

109 to the complexity of microbiome assembly in natural environments.

110 evolving reactivity of goethite particles in natural environments.

111 lasses of toxic pollutant chemicals found in natural environments.

112 with changes in secondary metabolism across natural environments.

113 lasma display a multitude of interactions in natural environments.

114 f microbial acclimatization and evolution in natural environments.

115 ystematic exploration of bacteria present in natural environments.

116 gical adaptations of latex-bearing plants in natural environments.

117 sources, and correlates of power in people's natural environments.

118 on microbial communities from engineered and natural environments, a functional gene-based microarray

119 In complex natural environments, a single choice can lead to multip

120 In natural environments, an external event may produce simu

121 vaporation is a ubiquitous phenomenon in the natural environment and a dominant form of energy transf

122 ts Serratia plymuthica was isolated from the natural environment and characterized.

123 shape and life cycles, and their role in the natural environment and in human affairs.

124 Arsenic, a toxic metalloid, exists in the natural environment and its organic form is approved for

125 Circulating metals from both the natural environment and pollution have been linked to ca

126 d quality, crucial for plant survival in the natural environment and sustainable crop production.

127 en chemical reactions critically affects our natural environment and the synthesis of new materials.

128 proteins in a matrix that approximates their natural environment and to integrate these proteins in e

129 ke regulation are sufficiently understood in natural environments and if data-driven uptake flux cons

130 ert toxic effects through inhalation both in natural environments and in the surroundings of private

131 ange of Gram-negative bacterial pathogens in natural environments and in vitro [1, 2].

132 evolutionary interplay between adaptation to natural environments and opportunistic infections, and t

133 ifying fungal disease dispersal by modifying natural environments and thus creating new opportunities

134 ibit high levels of biocontrol efficacy from natural environments and to investigate the mechanisms b

135 h the active compound, ecological impacts on natural environment, and insufficient investments by pha

136 approaches, involving both experimental and natural environments, and incorporating both manipulativ

137 In their natural environment, animals face complex and highly dyn

138 ions wherein confounding complexities of the natural environment are intentionally eliminated.

139 ism responses to stresses encountered in the natural environment are lacking; this functional variati

140 Natural environments are complex, and a single choice ca

141 in transport systems at nanoscale when their natural environments are far from the optimal dephasing

142 Natural environments are filled with multiple, often com

143 Natural environments are never truly constant, but the e

144 Natural environments are uncertain.

145 penetration and access to targets in their "natural" environment are taken into account.

146 s central to ecosystems in humans and in the natural environment, are poorly understood.

147 oduced by bacteria originally collected from natural environments around the world suggests that bact

148 Most nanomaterials enter the natural environment as nanoenabled products, which are t

149 The role played by yeasts in natural environments as well as in artificial manufactur

150 merging picture of Cu isotope cycling in the natural environment, as organic complexation plays a key

151 to assess the presence-absence of species in natural environments, as seasonal influences on eDNA in

152 athways for abiotic organic synthesis in the natural environment at the Von Damm hydrothermal field a

153 ies, and examination of responses to complex natural environments at a more mechanistic level.

154 In the natural environment bacteria predominantly live adhered

155 e is no information about their abundance in natural environments, because of a lack of element-speci

156 perature over a few million generations in a natural environment become relatively more highly calcif

157 rns typical of plant-microbe associations in natural environments: both bacterial and fungal communit

158 es of aquatic macrophytes living in the same natural environment but adopting distinctly different tw

159 Microorganisms rarely live isolated in their natural environments but rather function in consolidated

160 ion usable for pollutant removal not only in natural environments, but also in engineered water treat

161 ristic decision-making, which is adaptive in natural environments, but may lead to biased choices in

162 llowing our finite brains to process complex natural environments by prioritizing information relevan

163 However, in its natural environment, C. elegans feeds on Bacilli that po

164 onal fidelity within their natural habitats, natural environments can easily fluctuate outside the op

165 Studies have shown that natural environments can enhance health and here we buil

166 pply a Cumulative Exergy Extraction from the Natural Environment (CEENE) method for an in-depth resou

167 In natural environments, cellulose hydrolysis is predominat

168 In natural environments, color information is useful for gu

169 SIGNIFICANCE STATEMENT: In natural environments, color information is useful for gu

170 modified CDC biofilm reactor, simulates the natural environment conditions for bacterial biofilm dev

171 Our bodies and natural environment contain complex microbial communitie

172 green, as a primitive visual feature of many natural environments, contributes to the green exercise

173 ure release of a gene drive construct to the natural environment could damage an ecosystem irreversib

174 In the natural environment, days are generally warmer than the

175 Decision-making in a natural environment depends on a hierarchy of interactin

176 Since natural environments differ, bacteria have evolved remar

177 In a natural environment, different hydrostatic pressures rep

178 ogens having originated in bacteria from the natural environment (eg, beta-lactamases and fluoroquino

179 of the role of opisthokont microbes in many natural environments, especially among non-metazoan and

180 Especially mass-flow related systems in the natural environment feature special hierarchically branc

181 nd their viruses (bacteriophages) coexist in natural environments forming complex infection networks.

182 tory has moulded these peoples' use of their natural environment, fostering resilience during periods

183 se elements on clays can help to protect the natural environment from industrial pollution.

184 on was established to protect humans and the natural environment from the adverse effects of mercury

185 components of the extracellular matrix, the natural environment from which cell behavior is regulate

186 ylmercury is a potent neurotoxin produced in natural environments from inorganic mercury by anaerobic

187 raged to help identify modes of infection in natural environments from population level data.

188 e genetic basis of bacterial adaptation to a natural environment has been investigated in a highly su

189 Mechanical forces in the cell's natural environment have a crucial impact on growth, dif

190 ns and trophic transfer of these elements in natural environments have not been well characterized.

191 n controlled growth conditions but plants in natural environments have to cope with unpredictable and

192 Cultures of Caenorhabditis isolated from natural environments have yielded new nematode pathogens

193 three so-called areas of protection (AoPs): Natural Environment, Human Health, and Natural Resources

194 In natural environments, humans see visual mouth movements

195 suite of processes can now be observed in a natural environment (i.e. soil) through the use of X-ray

196 ly understood how nutrient limitation within natural environments impacts mutualist growth, cross-fee

197 on why E. coli population structures vary in natural environments, implying that different lineages i

198 ing the way individuals interrelate with the natural environment in developing countries with high ec

199 dients but also to navigate their obstructed natural environment in soils, sediments, or mucus.

200 To establish a possible role for the natural environment in the transmission of clinically re

201 atory settings generalise to harsh and noisy natural environments in which genetic variation is sorte

202 This will profoundly influence the natural environment, including many facets of biodiversi

203 Hydrogen peroxide pervades many natural environments, including the phagosomes that medi

204 The coabundance of As(III) and Cr(VI) in natural environments indicates their negligible direct i

205 human cancer cells, the extent to which the natural environment influences the accumulation of novel

206 The natural environment is a reservoir for prions that cause

207 cal studies suggest that living close to the natural environment is associated with long-term health

208 ause the growth of pathogenic vibrios in the natural environment is largely dictated by temperature,

209 ly developed societies, the influence of the natural environment is moderated by the physical charact

210 eria and unicellular microorganisms in their natural environment is of prime interest for biological,

211 significance for wild microorganisms in the natural environment is unknown.

212 nary and demographic effects of predation in natural environments is challenging.

213 cumenting species abundance distributions in natural environments is critical to ecology and conserva

214 uantifying their communication behaviours in natural environments is difficult.

215 taining rock from mining activities and from natural environments is exposed to the elements is ackno

216 l know very little about stem cells in their natural environment, it is useful to explore their dynam

217 ysical interaction between an animal and its natural environment - its available senses and how it mo

218 s one of the building blocks of listening in natural environments, its neural bases remain obscure.

219 Interacting with the natural environment leads to complex stimulations of our

220 However, in natural environments light is often heterogeneous, and i

221 The majority of bacteria in the natural environment live within the confines of a biofil

222 e, as it preserves endogenous LECs and their natural environment maximally, and regenerates lenses wi

223 ion of salient acoustic signals in the noisy natural environment may depend, not only on specific sti

224 Green, natural environments may ameliorate adverse environmenta

225 In the natural environment microbes typically live in small loc

226 In their natural environment, microbes organize into communities

227 Mimicking aspects of the natural environment might be effective in treating certa

228 -salinity waters, and their abundance in the natural environment mirrors ambient environmental temper

229 Animals foraging in their natural environments need to be proficient at recognizin

230 In a natural environment, odorants that intermingle from mult

231 The natural environment of a biomolecule is inside a living

232 The scope ranges from keeping the membrane natural environment of biological channels in supported

233 Controlled experiment in a natural environment of parent-infant communication durin

234 ons to experimentally-induced changes in the natural environment of six closely-related blackbird spe

235 s that this process is highly adapted to the natural environment of the bacterial host and can influe

236 Central Highland zones, we conclude that the natural environment of the Central Highlands would have

237 ology (Cumulative Exergy Extraction from the Natural Environment), offering a more complete resource

238 of population characteristics and built and natural environments on deaths due to heat exposure in M

239 s obtained from fermented beverages and from natural environments on five continents.

240 mical reactivity of AA-based biomolecules in natural environments or engineered applications.

241 cessful survival of the B. cereus species in natural environments or in the hosts.

242 tes exhibit strict host specificity in their natural environment: P. reichenowi, P. billcollinsi, and

243 However, in natural environments, planning over multiple possible fu

244 As humans expand into natural environments, populations of wild organisms may

245 ical light conversion and photoprotection in natural environments, potentially over the entire crop l

246 te that Levy flights of predators in dynamic natural environments present a beneficial alternative st

247 e of the most widespread contaminants in the natural environment, primarily as a consequence of biolo

248 ed biofuel cell will be able to operate in a natural environment, producing sustainable electrical mi

249 to the neonatal somatosensory cortex in the natural environment remain largely unknown.

250 c analyses of microbial populations in their natural environment remain limited by the difficulty to

251 rowth-linked biodegradation of pesticides in natural environments remain poorly understood.

252 tion of bacterial hosts unable to survive in natural environments, remains a major unsolved biosafety

253 Quantifying human impacts on the natural environment requires credible reconstructions of

254 Sensation in natural environments requires the analysis of time-varyi

255 The survival of seed plants in natural environments requires the successful emergence f

256 dy how genes, cells, or organisms operate in natural environments, researchers often need to leave th

257 n, we propose that iron-limited cells in the natural environment resemble the phase II metabolic stat

258 incipally focused on culturing bacteria from natural environments rich in biodiversity.

259 In natural environments, sensory cues are often corrupted b

260 arious experimental conditions mimicking the natural environment showed that tactile signals arising

261 on and reproductive decisions and use of the natural environment so as to construct a unified theoret

262 the bacterium Pseudomonas fluorescens in its natural environment, soil.

263 implications on its fate and toxicity in the natural environment, specifically sulfidic sediments tha

264 sized to efficiently encode signals from the natural environment subject to resource constraints.

265 asons, and geographic characteristics of the natural environment such as altitude, latitude, and gree

266 may arise during antibiotic treatment and in natural environments such as the soil.

267 s with their surroundings; however, in their natural environment, such as the rhizosphere, bacteria l

268 In the natural environment, such costs often include the physic

269 lecular pathways interact and predominate in natural environments that change seasonally.

270 In many natural environments the value of a choice gradually get

271 In natural environments, the pinnae induce spectral cues th

272 s they are somehow sandwiched in between the Natural Environment (their cradle) and the human-industr

273 coustical properties of sound sources in the natural environment, thereby providing veridical percept

274 llow the tracking of marine animals in their natural environments, these technologies have so far bee

275 lain reported health benefits of exposure to natural environments, through identification of alterati

276 Although formed in a natural environment, thus under relatively unconstrained

277 a wide range of bacterial habitats, from the natural environment to the human body, and can interfere

278 animals integrate multiple sensory inputs in natural environments to balance avoidance of danger with

279 tolerant to significant pH variation in its natural environment, to assess the response of fish endo

280 perienced fewer bulimic symptoms than in the natural environment (uncontrolled environment concerning

281 ies of the dynamics of mitochondria in their natural environment under normal and disease conditions.

282 of ferrihydrite may decrease OM stability in natural environments under moderately reducing condition

283 microbes interacting with C. elegans in its natural environment, we began by taking the first steps

284 In the natural environment, we expect PRP photodegradation to b

285 To better constrain these variables in natural environments, we conducted the first high-resolu

286 Our goal is to mimic the fly's natural environments (wet anoxia) and relate findings to

287 iofilm formation is severely hampered in the natural environment where most plastic debris accumulate

288 In the natural environment where organic ligands are ubiquitous

289 d to much more stressful conditions in their natural environments where survival and competitive fitn

290 es that they may be required for survival in natural environments, where bacterial walls can be damag

291 in is therefore not required for survival in natural environments, where heteromeric acetyl-coenzyme

292 with widths similar to those observed in the natural environment, which could ultimately lead to a be

293 Much less is understood about MWI in natural environments, which typically have nanometer to

294 rregular flow profiles - which are common in natural environments - wild-type matrix-producing and is

295 Engineered nanoparticles (NPs) released into natural environments will interact with natural organic

296 led old infections and to organisms from the natural environment with which human beings co-evolved.

297 sensitive and -resistant bacteria coexist in natural environments with low, if detectable, antibiotic

298 elpful to understand C and Fe cycling in the natural environments with periodically fluctuating redox

299 informative to study these processes in the natural environment yet it is inherently difficult.

300 ed by plant pathogens to agriculture and the natural environment; yet, most studies that explore clim