ライフサイエンスコーパス: external environment

1 ogy, physical environment, organization, and external environment).

2 ion, confirming an acute disconnect from the external environment.

3 brane area and mediate interactions with the external environment.

4 sensory interfaces between the internal and external environment.

5 reported long, vivid dreams unrelated to the external environment.

6 modulate its connectivity in response to the external environment.

7 is dynamic and responsive to changes in the external environment.

8 state to anticipate and/or resonate with the external environment.

9 tention network involved in attending to the external environment.

10 s to a family of ion channels that sense the external environment.

11 ne transporters reacting to stimuli from the external environment.

12 ng UBL1 in G protein-mediated sensing of the external environment.

13 r encode specific regions or features of the external environment.

14 mechanism through which fungi respond to the external environment.

15 unctions as a protective barrier against the external environment.

16 ism's behavior with the daily cycling of the external environment.

17 uronal activity to model key features of the external environment.

18 s a common mode of altering responses to the external environment.

19 mechanical and chemical barrier against the external environment.

20 ion of nanotube sidewalls are exposed to the external environment.

21 s to coordinate metabolic processes with the external environment.

22 ive interface separating our bodies from the external environment.

23 between the host, the gut microbiome and its external environment.

24 iously encapsulated membrane proteins to the external environment.

25 uction between the interior of cells and the external environment.

26 t strengths and gather information about the external environment.

27 nates glucose metabolism with changes in the external environment.

28 e barrier between the mammalian host and the external environment.

29 ntiate to reform a functional barrier to the external environment.

30 ws distinct cell types to interface with the external environment.

31 cal cells must have the ability to sense the external environment.

32 very delicate and easily perturbed by their external environment.

33 ile cilia also contain sensors to detect the external environment.

34 ive site and sequester the reaction from the external environment.

35 of signal transduction systems to sense the external environment.

36 itical interface between organisms and their external environment.

37 ity barrier against noxious compounds in the external environment.

38 nteraction with the bilayer, and the aqueous external environment.

39 on of our main protective interface with the external environment.

40 ping embryos, and adult tissues that contact external environment.

41 or mechanism for interacting and shaping the external environment.

42 hat are involved in sugar recognition to the external environment.

43 of location and learned associations to the external environment.

44 nd also synchronize these processes with the external environment.

45 s that provides an organism's barrier to the external environment.

46 ptors that participate in sensing the cell's external environment.

47 n the complex physiology of the body and the external environment.

48 ce factors and for adaptive responses to the external environment.

49 ctious and inflammatory causes rooted in the external environment.

50 hronizing the endogenous oscillator with the external environment.

51 specificity were influenced strongly by the external environment.

52 ures of the arthropod transmission vector or external environment.

53 host defense mechanism against the changing external environment.

54 buffered against changes in the internal and external environment.

55 c projections that help cells to sense their external environment.

56 es within an aggregate can interact with the external environment.

57 s programmed to separate from roots into the external environment.

58 ntire cell envelope, from the cytosol to the external environment.

59 eptance of disease, or from stressors in the external environment.

60 lining of all organs communicating with the external environment.

61 ing between cells or between cells and their external environment.

62 e the biological clock of the brain with the external environment.

63 rough this permeability barrier and into the external environment.

64 s of an infected epithelium to the apical or external environment.

65 ctors) are exported from the bacteria to the external environment.

66 idermis, a tissue in direct contact with the external environment.

67 es to respond to information provided by the external environment.

68 s and their susceptibility to changes in the external environment.

69 e TolC protein links the translocases to the external environment.

70 fecting the exchange between cells and their external environment.

71 cks that coordinate internal events with the external environment.

72 membrane histidine kinase that monitors the external environment.

73 root border cells from the root tip into the external environment.

74 ng the neurotoxin in the GI tract and in the external environment.

75 rganism to respond to adverse changes in the external environment.

76 ral adaptation to the arthropod host and the external environment.

77 o detoxify hydrogen peroxide coming from the external environment.

78 forces that a moving parasite exerts on the external environment.

79 me of birth, coinciding with exposure to the external environment.

80 interface between the ocular system and the external environment.

81 y role in the internal representation of the external environment.

82 ntial in shaping the dynamic response to the external environment.

83 ological, and developmental responses to the external environment.

84 nctions at tissues constantly exposed to the external environment.

85 tructures that mediate interactions with the external environment.

86 cting effects of neonate, parents, nest, and external environment.

87 activities by maintaining synchrony with the external environment.

88 encounter remarkably diverse stimuli in the external environment.

89 ges are subjected to daily assaults from the external environment.

90 est interface between the human body and the external environment.

91 ssure difference between the biofilm and the external environment.

92 ) vary when the fungus senses changes in the external environment.

93 dependence of the optical properties on the external environment.

94 nship between the internal clockwork and the external environment.

95 NA damage present intracellularly and in the external environment.

96 adaptable to an animal's internal state and external environment.

97 se to rapidly assess the oxygen level in the external environment.

98 physiological and metabolic processes to the external environment.

99 cles, and rupture of compartments facing the external environment.

100 , shielding a cell from the pressures of its external environment.

101 , and first line of defense between host and external environment.

102 to changes in the osmotic pressure of their external environment.

103 ls to adapt to changes in their internal and external environments.

104 anobacteria and Deinococci, usually found in external environments.

105 -monitoring and allow for communication with external environments.

106 are restricted by factors like coupling and external environments.

107 at are sensitive to the genetic, sexual, and external environments.

108 in protecting underlying tissues from harsh external environments.

109 throughout the hippocampus despite unchanged external environments.

110 nctioning despite ever-changing internal and external environments.

111 ium forms a barrier between the internal and external environments.

112 esulfuricans inhabits both the human gut and external environments.

113 g the communication between the internal and external environments.

114 lung, gut, and mouth interface with distinct external environments.

115 otor behavior to changes in its internal and external environments [1, 2].

116 report salient features of our internal and external environments(1-4).

117 tems lose coherence through interacting with external environments-a process known as decoherence.

118 yze a stream of sensory information from the external environment, adjusting for internal signals rel

119 The external environment also imposes load on our cognitive

120 issues, which provide the interface with the external environment, also provide access to many of the

121 synchrony between the internal clock and the external environment alter metabolic parameters and card

122 lex itself and relate only indirectly to the external environment; anatomical connectivity influences

123 rm intelligent, dynamic barriers between the external environment and an organism's interior.

124 gills interface between the organism and the external environment and as such are major sites of fore

125 is function, the lung must be exposed to the external environment and at the same time maintain a hom

126 One interface between the body and the external environment and chemical or biological agents t

127 mollusk Clione, the statocysts, react to the external environment and continuously adjust the tail an

128 sor kinases that allow bacteria to sense the external environment and cytoplasmic, DNA-binding respon

129 did not develop an effective barrier to the external environment and died within hours of birth.

130 locity as a function of the viscosity of the external environment and find that the maximum velocity

131 the opportunity for interaction between the external environment and food, resulting in extended she

132 ear-saturating concentrations of salt in the external environment and in their cytoplasm, potassium b

133 ring development is critical for sensing the external environment and informing appropriate behaviora

134 f relevant sensory information from both the external environment and internal memory representations

135 able abilities to cope with changes in their external environment and internal physiology.

136 ed of molecular networks to coordinate their external environment and internal states.

137 The skin interfaces with the external environment and is home to a myriad of immune c

138 This cycle is entirely regulated by the external environment and is therefore energy-neutral for

139 idirectional traffic from gene action to the external environment and its effects on behavior remains

140 the model that young C. elegans males sense external environment and oxygen tension, triggering long

141 o account both the sensory statistics of our external environment and perceptual training strategies

142 in and mucous membranes come in contact with external environment and protect tissues from infections

143 pidermis provides an essential seal from the external environment and retains fluids within the body.

144 he carboxysomal pH is similar to that of its external environment and that the protein shell does not

145 intracellular energy levels rather than the external environment and that transduces signals for aer

146 s, are situated at the interface between the external environment and the body's internal milieu, and

147 barrier, regulating interactions between the external environment and the body.

148 al epithelium provides a barrier between the external environment and the cornea.

149 h realize the direct interaction between the external environment and the current silicon integrated

150 s to the disengagement of attention from the external environment and the generation of thoughts unre

151 provide water accessible routes between the external environment and the interior of the filament, a

152 ays provide a protective barrier between the external environment and the internal host milieu.

153 ebrates, forming a water barrier between the external environment and the internal space of the organ

154 l epithelium forms the interface between the external environment and the mucosal immune system, and

155 those involved in the representation of the external environment and the representation or execution

156 animals must integrate information from the external environment and their internal state to maximiz

157 T drug and the biodegradable linker from the external environment and thus offers a mechanism for con

158 Mycobacterium tuberculosis to respond to the external environment and to persist within its host.

159 of the electronic states of the system to an external environment and to the applied laser fields.

160 lising patterns that remain sensitive to the external environment and to the developmental progressio

161 ensory inputs that encode the composition of external environment and top-down feedback that conveys

162 Dysregulated signals from the external environment and/or the internal milieu of the s

163 viors by integrating signals from both their external environments and internal states.

164 ) receive sensory and humoral input from the external environment, and 3) lack a blood-brain barrier.

165 e relationships between internal states, the external environment, and action to provide a mechanism

166 ows organisms to regulate their internal and external environment, and control the probability, proxi

167 rtant component of the skin's barrier to the external environment, and genetic defects in FLG strongl

168 -resident cells that continually monitor the external environment, and in health, instruct tolerance

169 r no genetic change, with involvement of the external environment, and in preferred directions.

170 homeostasis, optimally respond to a dynamic external environment, and integrate these functions with

171 critical interface between the body and the external environment, and it is unclear how the mechanic

172 e must parse her own reproductive state, the external environment, and male sensory cues to decide wh

173 action and communication of cells with their external environment, and several are known to possess a

174 tronger contractile forces against a stiffer external environment, and therefore exhibits features of

175 make up approximately 99% of all species in external environments, and are an untapped source of new

176 es at the interface between the internal and external environments, and that it is highly induced in

177 ypes to enable homeostasis; tolerance to the external environment; and appropriate response to transi

178 man oral cavity, where the conditions of the external environment are diverse and in a constant state

179 Epithelial tissues facing the external environment are essential to combating microbia

180 iations between cocaine and the internal and external environment are formed from the very outset of

181 fants' perceptions of tactile stimuli in the external environment are heavily dependent upon limb pos

182 Cues from the external environment are sensed by surface receptors, an

183 al epithelial interfaces that are exposed to external environments are dominated by sugar epitopes, s

184 contribute to spatial representations of the external environment, are thought to be modulated by the

185 docrinologic in nature, or may come from the external environment, as for example products in tobacco

186 to G(alpha) exposes the BODIPY moiety to the external environment, as seen by an increase in sodium i

187 P in the intermembrane space and that in the external environment (at 5 microM ADP).

188 bacilli must be capable of surviving in the external environment before inhalation into a new potent

189 lar states occur not only in response to the external environment but also result from intrinsic gene

190 on that cannot be readily perceived from the external environment but has to be inferred or self-gene

191 resent a critical immunologic barrier to the external environment, but little is known about their li

192 to cope with changing circumstances in their external environment by maintaining homeostasis for inte

193 g lyophilised 5P12-RANTES and exposed to the external environment by two large windows - provided sus

194 articular, it appears that experience of the external environment can affect the brain earlier in dev

195 e degree of contact between a system and the external environment can alter dramatically its proclivi

196 In a multicellular organism, the external environment can be made of other cells, some of

197 eveals how non-invasive manipulations in the external environment can be used to overcome neurochemic

198 ded [3-5]; it is apparent, however, that the external environment can influence the generation of her

199 arly species with life stages exposed to the external environment, can be affected.

200 domain 2, predicted to orientate towards the external environment, contains a novel fold.

201 y the interface between the organism and the external environment, contributing to homeostasis and di

202 provide an additional mechanism by which the external environment controls nutrient uptake and digest

203 period generated by this oscillator with the external environment creates circadian disruption, which

204 of how the cell cytosol is connected to the external environment during export, and suggests a gener

205 s, or noisy resulting from conditions in the external environment (e.g., a cluttered visual scene) or

206 As cells adapt to a changing internal and external environment, epigenetic mechanisms can remember

207 All living organisms communicate with the external environment for their survival and existence.

208 i originating from both the internal and the external environment, functions as a modulatory apparatu

209 presents a prime mechanism through which the external environment has an enduring influence on gene e

210 ysaccharide export from the cytoplasm to the external environment has been more difficult.

211 t lipids, proteins, and nucleic acids to the external environment have important roles in cell-cell c

212 hat, along with host characteristics and the external environment, have been associated with the diff

213 the internal molecular environment, with the external environment having only to concur.

214 ith mucosal surfaces that interface with the external environment; however, the role of the mucosal i

215 combines information about the internal and external environment in rhythmic activity of multiple fr

216 n recordings show that representation of the external environment in the parietal lobe is highly sele

217 nerally different from microorganisms in the external environment, including ingested food.

218 The external environment influences stem cells, but this pro

219 maintaining immune competence at the tissue-external environment interface.

220 dant at mucosal surfaces, where the host and external environments interface.

221 ontact of developing sensory organs with the external environment is established via the formation of

222 anner over seconds to minutes, even when the external environment is held constant.

223 st directly interacts with and adapts to the external environment, is a prime target for exploration

224 ernal nutrient concentrations in fluctuating external environments-is essential to the survival of mo

225 ound that despite the skin's exposure to the external environment, its bacterial, fungal, and viral c

226 receptors that bind cells to their physical external environment, linking the extracellular matrix t

227 hen it is explicitly cued by features of the external environment, little is known about how we adapt

228 nsory neurons are in direct contact with the external environment, making them susceptible to infecti

229 This suggests that the external environment may be harnessed to interrogate the

230 hich prevents proper heat dissipation to the external environment, MDMA at a moderate nontoxic dose (

231 hesized within the cell or obtained from the external environment mediate many of these protein-prote

232 nthesized within cells or recruited from the external environment mediate many protein interactions.

233 ting an already learned maze relative to the external environment most strongly reduces right-whisker

234 of the male fish was indeed derived from the external environment, most likely via a conversion catal

235 es (n=656), and humans (n=333), and from the external environment (n=288).

236 al processes expressed internally and in the external environment (niche construction), showing how i

237 f the body, including protection against the external environment, nutrition, respiration, and reprod

238 s report the influence of the quality of the external environment of a mosquito on infection.

239 Both the external environment of an organism and the internal env

240 dynamic equilibrium between the internal and external environment of cells.

241 Poly (ethylene glycol) (PEG) in the external environment of membrane vesicles creates osmoti

242 is sensitive to changes in the internal and external environment of the cell.

243 y remote areas of the brain or even from the external environment of the organism, therefore indicati

244 Understanding the effects of the external environment on bacterial gene expression can pr

245 emember" past events, such as changes in the external environment or developmental cues.

246 Animals can smell odors from the external environment or from their mouth via two routes:

247 hts into metabolic adaptations to changes in external environment, pathological conditions, and nutri

248 When L1 larvae hatch and interact with the external environment PKC2 content increases 10-fold.

249 subsequent interaction of the flow with the external environment produces long-wavelength afterglows

250 than visually attending the stimulus in the external environment, produces an analogous pattern of i

251 Although our external environment (proteases, allergens, and injury)

252 body's surfaces form the interface with the external environment, protecting the host.

253 Immune defense at an interface with the external environment reflects the functions of physical

254 gulator, Hfq is engaged in the adaptation to external environment, regulation of metabolism and bacte

255 ocated within tissues at the boundary of the external environment, represent a potential target of Ah

256 ineal gland, which (being insulated from the external environment) responds to discontinuous activati

257 AIM, and the receptor acted in internal and external environment-sensing neurons of the shared nervo

258 These proteins afford the cell a peek at its external environment, signal the cell to adjust its inte

259 hways relay information about changes in the external environment so that cells can respond appropria

260 Exposure of viral DNA to the external environment started above 50 degrees C.

261 sters, they can receive energy from both the external environment such as solar and radiofrequency, a

262 ntity and decoherence through coupling to an external environment, such as a thermal reservoir, can q

263 These organisms must push off against their external environment, such as a viscous medium, grains o

264 hich are further modulated by changes in the external environment, such as light exposure and the tim

265 first occurs at mucosal sites exposed to the external environment, such as the skin, airways, and gas

266 the immune system and its interface with the external environment suggest that novel paradigms for ne

267 substantially fewer long-chain FA from their external environment than CD8(+) effector T (Teff) cells

268 changes that occur in response to a dynamic external environment that a given cell type encounters.

269 At the interface between host and external environment, the airway epithelium serves as a

270 f mammalian MALTs right at the border to the external environment, the alteration in transcription ob

271 Because of its proximity with the external environment, the corneal epithelium is frequent

272 In an uncertain external environment, the motor system may need to respo

273 ticity and, thus, creates a link between the external environment, the nervous system, and behavior.

274 Finally, much like the external environment, the ongoing neural state appears t

275 s the most exposed point of contact with the external environment, the skin is an important barrier t

276 In response to a changing cellular or external environment, these organelles can emit 'retrogr

277 es synchronize the endogenous clock with the external environment through a process called entrainmen

278 Cells communicate with their external environment through physical and chemical proce

279 omplex ways with rhythms in the internal and external environment through the phenomenon of 'neuronal

280 Given their direct interface with the external environment, TLRs in the lungs are prime candid

281 eval in rats that were trained in a constant external environment to approach different nonspatial go

282 ion hubs, transmitting information about the external environment to downstream areas.

283 bacterial organ for motility, in sensing the external environment to modulate not only its own biogen

284 and central role in the transition from the external environment to parasitism.

285 ty of immune responses with signals from the external environment to promote survival.

286 ifts the arena for sexual selection from the external environment to the female reproductive tract, w

287 n particular, the mechanisms that couple the external environment to the genomic changes underpinning

288 a wealth of tactile and thermal signals from external environments to the brain.

289 ucosal tissues, the major interface with the external environment, to initiate innate responses at th

290 ences between the interstitial fluid and the external environment trigger ATP release at tail fin wou

291 egrity and immunological protection from the external environment using functionally distinct layers,

292 constrained by signals transmitted from the external environment via changes in the activity of DNA

293 yzed patients to re-establish control of the external environment via recording electrodes.

294 t the immune system can be influenced by the external environment via the skin.

295 haracterized as an internal dynamic, and the external environment was regarded as an external control

296 as further demonstrated to be exposed to the external environment, where it could facilitate interact

297 of the organism is its interaction with the external environment, whereas the speed of the organism

298 ies on information about self-motion and the external environment, which may be conveyed by grid and

299 nsory map represents related features of the external environment with adjacent "hot," "cold," "dry,"

300 anner to integrate signals received from the external environment with the internal metabolic machine